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# Copyright 2012 Dan Smith <dsmith@danplanet.com>
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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. If not, see <http://www.gnu.org/licenses/>.
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import os
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import struct
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import time
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from chirp import chirp_common
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from chirp import directory
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from chirp import memmap
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from chirp import bitwise
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from chirp import errors
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from chirp import util
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from chirp.settings import RadioSetting, RadioSettingGroup, \
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RadioSettingValueInteger, RadioSettingValueList, \
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RadioSettingValueBoolean, RadioSettingValueString, \
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RadioSettingValueFloat, InvalidValueError
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#
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# Chirp Driver for TYT TH-9000 UHF (70cm) Model
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# by David Fannin <dfannin@sushisoft.com>, KK6DF
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#
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# Version 0.4 (Experimental - Known Bugs and Issues)
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# Use for development purposes only!
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# Features working:
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# - Download from Radio
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# - Display Memories (only None, Tone, TSQL signalling supported)
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# - Save image file
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# - memory map decoded (about 90%)
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# - Upload to radio
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# - Modification of memories
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# - feature settings
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# - added Startup ID label
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#
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# Features not working:
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# - DCS , Cross Signaling
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# - Skip channels
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#
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# Global Parameters
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#
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MMAPSIZE = 16128
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TONES = [62.5] + list(chirp_common.TONES)
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TMODES = ['','Tone','DTCS']
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DUPLEXES = ['','err','-','+'] # index 2 not used
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MODES = ['WFM','FM','NFM'] # 25k, 20k,15k bw
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TUNING_STEPS=[ 5.0, 6.25, 8.33, 10.0, 12.5, 15.0, 20.0, 25.0, 30.0, 50.0 ] # index 0-9
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POWER_LEVELS=[chirp_common.PowerLevel("High", watts=65),
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chirp_common.PowerLevel("Mid", watts=25),
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chirp_common.PowerLevel("Low", watts=10)]
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CROSS_MODES = chirp_common.CROSS_MODES
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VALID_MODEL = ['TH-9000']
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APO_LIST = [ "Off","30 min","1 hr","2 hrs" ]
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BGCOLOR_LIST = ["Blue","Orange","Purple"]
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BGBRIGHT_LIST = ["%s" % x for x in range(1,32)]
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SQUELCH_LIST = ["Off"] + ["Level %s" % x for x in range(1,20)]
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TIMEOUT_LIST = ["Off"] + ["%s min" % x for x in range(1,30)]
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TXPWR_LIST = ["60W","25W"] # maximum power for Hi setting
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TBSTFREQ_LIST = ["1750Hz","2100Hz","1000Hz","1450Hz"]
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BEEP_LIST = ["Off","On"]
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SETTING_LISTS = {
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"auto_power_off": APO_LIST,
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"bg_color" : BGCOLOR_LIST,
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"bg_brightness" : BGBRIGHT_LIST,
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"squelch" : SQUELCH_LIST,
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"timeout_timer" : TIMEOUT_LIST,
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"choose_tx_power": TXPWR_LIST,
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"tbst_freq" : TBSTFREQ_LIST,
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"voice_prompt" : BEEP_LIST
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}
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#
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#
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#
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"""
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Overall Memory Map:
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Memory Map (Range 0x0100-3FF0, step 0x10):
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Field Start End Size
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(hex) (hex) (hex)
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1 Channel Set Flag 0100 011F 20
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2 Channel Skip Flag 0120 013F 20
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3 Blank/Unknown 0140 01EF B0
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4 Unknown 01F0 01FF 10
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5 TX/RX Range 0200 020F 10
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6 Bootup Passwd 0210 021F 10
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7 Options, Radio 0220 023F 20
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8 Unknown 0240 019F
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8B Startup Label 03E0 03E7 07
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9 Channel Bank 2000 38FF 1900
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Channel 000 2000 201F 20
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Channel 001 2020 202F 20
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...
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Channel 199 38E0 38FF 20
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10 Blank/Unknown 3900 3FFF 6FF 14592 16383 1792
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Total Map Size 16128 (2^8 = 16384)
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"""
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"""
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TH9000/UHF memory map
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section: 1 and 2: Channel Set/Skip Flags
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Channel Set (starts 0x100) : Channel Set bit is value 0 if a memory location in the channel bank is active.
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Channel Skip (starts 0x120): Channel Skip bit is value 0 if a memory location in the channel bank is active.
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Both flag maps are a total 24 bytes in length, aligned on 32 byte records.
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bit = 0 channel set/no skip, 1 is channel not set/skip
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to index a channel:
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cbyte = channel / 8 ;
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cbit = channel % 8 ;
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setflag = csetflag[cbyte].c[cbit] ;
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skipflag = cskipflag[cbyte].c[cbit] ;
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channel range is 0-199, range is 32 bytes (last 7 unknown)
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"""
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MEM_FORMAT = """
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#seekto 0x0100;
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struct {
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bit c[8];
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} csetflag[32];
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struct {
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u8 unknown0100[7];
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} ropt0100;
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#seekto 0x0120;
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struct {
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bit c[8];
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} cskipflag[32];
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struct {
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u8 unknown0120[7];
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} ropt0120;
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"""
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"""
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TH9000/UHF memory map
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section: 5 TX/RX Range
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used to set the TX/RX range of the radio (e.g. 144-148Mhz for 2 meter)
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possible to set range to 136-172Mhz for tx/rx
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"""
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MEM_FORMAT = MEM_FORMAT + """
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#seekto 0x0200;
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struct {
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bbcd txrangelow[4];
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bbcd txrangehi[4];
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bbcd rxrangelow[4];
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bbcd rxrangehi[4];
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} freqrange;
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"""
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"""
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TH9000/UHF memory map
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section: 6 bootup_passwd
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used to set bootup passwd (see boot_passwd checkbox option)
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options - bootup password
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bytes:bit type description
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---------------------------------------------------------------------------
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6 u8 bootup_passwd[6] bootup passwd, 6 chars, numberic chars 30-39 , see boot_passwd checkbox to set
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10 u8 unknown;
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"""
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MEM_FORMAT = MEM_FORMAT + """
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#seekto 0x0210;
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struct {
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u8 bootup_passwd[6];
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u8 unknown2010[10];
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} ropt0210;
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"""
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"""
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TH9000/UHF memory map
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section: 7 Radio Options
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used to set a number of radio options
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bytes:bit type description
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---------------------------------------------------------------------------
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1 u8 display_mode display mode, range 0-2, 0=freq,1=channel,2=name (selecting name affects vfo_mr)
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1 u8 vfo_mr; vfo_mr , 0=vfo, mr=1
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1 u8 unknown;
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1 u8 squelch; squelch level, range 0-19, hex for menu
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1 u8 unknown[2];
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1 u8 channel_lock; if display_mode[channel] selected, then lock=1,no lock =0
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1 u8 unknown;
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1 u8 bg_brightness ; background brightness, range 0-21, hex, menu index
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1 u8 unknown;
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1 u8 bg_color ; bg color, menu index, blue 0 , orange 1, purple 2
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1 u8 tbst_freq ; tbst freq , menu 0 = 1750Hz, 1=2100 , 2=1000 , 3=1450hz
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1 u8 timeout_timer; timeout timer, hex, value = minutes, 0= no timeout
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1 u8 unknown;
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1 u8 auto_power_off; auto power off, range 0-3, off,30min, 1hr, 2hr, hex menu index
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1 u8 voice_prompt; voice prompt, value 0,1 , Beep ON = 1, Beep Off = 2
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description of function setup options, starting at 0x0230
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bytes:bit type description
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---------------------------------------------------------------------------
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1 u8 // 0
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:4 unknown:6
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:1 elim_sql_tail:1 eliminate squelsh tail when no ctcss checkbox (1=checked)
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:1 sql_key_function "squelch off" 1 , "squelch momentary off" 0 , menu index
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2 u8 unknown[2] /1-2
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1 u8 // 3
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:4 unknown:4
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:1 inhibit_init_ops:1 //bit 5
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:1 unknownD:1
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:1 inhibit_setup_bg_chk:1 //bit 7
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:1 unknown:1
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1 u8 tail_elim_type menu , (off=0,120=1,180=2), // 4
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1 u8 choose_tx_power menu , (60w=0,25w=1) // 5
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2 u8 unknown[2]; // 6-7
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1 u8 bootup_passwd_flag checkbox 1=on, 0=off // 8
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7 u8 unknown[7]; // 9-F
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"""
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MEM_FORMAT = MEM_FORMAT + """
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#seekto 0x0220;
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struct {
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u8 display_mode;
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u8 vfo_mr;
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u8 unknown0220A;
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u8 squelch;
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u8 unknown0220B[2];
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u8 channel_lock;
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u8 unknown0220C;
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u8 bg_brightness;
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u8 unknown0220D;
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u8 bg_color;
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u8 tbst_freq;
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u8 timeout_timer;
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u8 unknown0220E;
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u8 auto_power_off;
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u8 voice_prompt;
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u8 unknown0230A:6,
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elim_sql_tail:1,
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sql_key_function:1;
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u8 unknown0230B[2];
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u8 unknown0230C:4,
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inhibit_init_ops:1,
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unknown0230D:1,
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inhibit_setup_bg_chk:1,
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unknown0230E:1;
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u8 tail_elim_type;
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u8 choose_tx_power;
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u8 unknown0230F[2];
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u8 bootup_passwd_flag;
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u8 unknown0230G[7];
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} settings;
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"""
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"""
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TH9000/UHF memory map
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section: 8B Startup Label
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bytes:bit type description
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---------------------------------------------------------------------------
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7 char start_label[7] label displayed at startup (usually your call sign)
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"""
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MEM_FORMAT = MEM_FORMAT + """
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#seekto 0x03E0;
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struct {
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char startname[7];
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} slabel;
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"""
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"""
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TH9000/UHF memory map
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section: 9 Channel Bank
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description of channel bank (200 channels , range 0-199)
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Each 32 Byte (0x20 hex) record:
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bytes:bit type description
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---------------------------------------------------------------------------
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4 bbcd freq[4] receive frequency in packed binary coded decimal
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4 bbcd offset[4] transmit offset in packed binary coded decimal (note: plus/minus direction set by 'duplex' field)
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1 u8
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:4 unknown:4
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:4 tuning_step:4 tuning step, menu index value from 0-9
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5,6.25,8.33,10,12.5,15,20,25,30,50
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1 u8
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:4 unknown:4 not yet decoded, used for DCS coding?
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:2 channel_width:2 channel spacing, menu index value from 0-3
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25,20,12.5
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:1 reverse:1 reverse flag, 0=off, 1=on (reverses tx and rx freqs)
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:1 txoff:1 transmitt off flag, 0=transmit , 1=do not transmit
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1 u8
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:1 talkaround:1 talkaround flag, 0=off, 1=on (bypasses repeater)
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:1 compander:1 compander flag, 0=off, 1=on (turns on/off voice compander option)
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:2 unknown:2
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:2 power:2 tx power setting, value range 0-2, 0=hi,1=med,2=lo
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:2 duplex:2 duplex settings, 0=simplex,2= minus(-) offset, 3= plus (+) offset (see offset field)
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1 u8
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:4 unknown:4
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:2 rxtmode:2 rx tone mode, value range 0-2, 0=none, 1=CTCSS, 2=DCS (ctcss tone in field rxtone)
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:2 txtmode:2 tx tone mode, value range 0-2, 0=none, 1=CTCSS, 3=DCS (ctcss tone in field txtone)
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1 u8
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:2 unknown:2
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:6 txtone:6 tx ctcss tone, menu index
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1 u8
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:2 unknown:2
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:6 rxtone:6 rx ctcss tone, menu index
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1 u8 txcode ?, not used for ctcss
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1 u8 rxcode ?, not used for ctcss
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3 u8 unknown[3]
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7 char name[7] 7 byte char string for channel name
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1 u8
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:6 unknown:6,
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:2 busychannellockout:2 busy channel lockout option , 0=off, 1=repeater, 2=busy (lock out tx if channel busy)
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4 u8 unknownI[4];
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1 u8
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:7 unknown:7
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:1 scrambler:1 scrambler flag, 0=off, 1=on (turns on tyt scrambler option)
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"""
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MEM_FORMAT = MEM_FORMAT + """
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#seekto 0x2000;
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struct {
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bbcd freq[4];
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bbcd offset[4];
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u8 unknown2000A:4,
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tuning_step:4;
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u8 unknown2000B:4,
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channel_width:2,
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reverse:1,
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txoff:1;
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u8 talkaround:1,
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compander:1,
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unknown2000C:2,
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power:2,
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duplex:2;
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u8 unknown2000D:4,
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rxtmode:2,
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txtmode:2;
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u8 unknown2000E:2,
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txtone:6;
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u8 unknown2000F:2,
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rxtone:6;
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u8 txcode;
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u8 rxcode;
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u8 unknown2000G[3];
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char name[7];
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u8 unknown2000H:6,
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busychannellockout:2;
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u8 unknown2000I[4];
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u8 unknown2000J:7,
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scrambler:1;
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} memory[200] ;
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"""
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def _debug(string):
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if "CHIRP_DEBUG" in os.environ or True:
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print string
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def _echo_write(radio, data):
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try:
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radio.pipe.write(data)
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radio.pipe.read(len(data))
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except Exception, e:
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print "Error writing to radio: %s" % e
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raise errors.RadioError("Unable to write to radio")
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def _checksum(data):
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cs = 0
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for byte in data:
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cs += ord(byte)
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return cs % 256
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def _read(radio, length):
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try:
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data = radio.pipe.read(length)
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except Exception, e:
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print "Error reading from radio: %s" % e
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raise errors.RadioError("Unable to read from radio")
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if len(data) != length:
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print "Short read from radio (%i, expected %i)" % (len(data),
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length)
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print util.hexprint(data)
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raise errors.RadioError("Short read from radio")
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return data
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def _ident(radio):
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radio.pipe.setTimeout(2)
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_echo_write(radio,"PROGRAM")
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response = radio.pipe.read(3)
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if response != "QX\06":
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print "Response was :\n%s" % util.hexprint(response)
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raise errors.RadioError("Unsupported model - Got model: %s" % util.hexprint(response) )
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_echo_write(radio, "\x02")
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response = radio.pipe.read(16)
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_debug(util.hexprint(response))
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if response[1:8] != "TH-9000":
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print "Looking for:\n%s" % util.hexprint("TH-9000")
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print "Response was:\n%s" % util.hexprint(response)
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raise errors.RadioError("Unsupported model")
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def _send(radio, cmd, addr, length, data=None):
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frame = struct.pack(">cHb", cmd, addr, length)
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if data:
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frame += data
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frame += chr(_checksum(frame[1:]))
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frame += "\x06"
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_echo_write(radio, frame)
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_debug("Sent:\n%s" % util.hexprint(frame))
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if data:
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result = radio.pipe.read(1)
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if result != "\x06":
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print "Ack was: %s" % repr(result)
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raise errors.RadioError("Radio did not accept block at %04x" % addr)
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return
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result = _read(radio, length + 6)
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_debug("Got:\n%s" % util.hexprint(result))
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header = result[0:4]
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data = result[4:-2]
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ack = result[-1]
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if ack != "\x06":
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print "Ack was: %s" % repr(ack)
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raise errors.RadioError("Radio NAK'd block at %04x" % addr)
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_cmd, _addr, _length = struct.unpack(">cHb", header)
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if _addr != addr or _length != _length:
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print "Expected/Received:"
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print " Length: %02x/%02x" % (length, _length)
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print " Addr: %04x/%04x" % (addr, _addr)
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raise errors.RadioError("Radio send unexpected block")
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cs = _checksum(result[1:-2])
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if cs != ord(result[-2]):
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print "Calculated: %02x" % cs
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print "Actual: %02x" % ord(result[-2])
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raise errors.RadioError("Block at 0x%04x failed checksum" % addr)
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return data
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def _finish(radio):
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endframe = "\x45\x4E\x44"
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_echo_write(radio, endframe)
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result = radio.pipe.read(1)
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if result != "\x06":
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print "Got:\n%s" % util.hexprint(result)
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raise errors.RadioError("Radio did not finish cleanly")
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def do_download(radio):
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_ident(radio)
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_memobj = None
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data = ""
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for start,end in radio._ranges:
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for addr in range(start,end,0x10):
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block = _send(radio,'R',addr,0x10)
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data += block
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status = chirp_common.Status()
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status.cur = len(data)
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status.max = end
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status.msg = "Downloading from radio"
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radio.status_fn(status)
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_finish(radio)
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return memmap.MemoryMap(data)
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def do_upload(radio):
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_ident(radio)
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for start,end in radio._ranges:
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for addr in range(start,end,0x10):
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if addr < 0x0100:
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continue
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block = radio._mmap[addr:addr+0x10]
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_send(radio,'W',addr,len(block),block)
|
|
status = chirp_common.Status()
|
|
status.cur = addr
|
|
status.max = end
|
|
status.msg = "Uploading to Radio"
|
|
radio.status_fn(status)
|
|
|
|
_finish(radio)
|
|
|
|
|
|
|
|
@directory.register
|
|
class Th9000UHFRadio(chirp_common.CloneModeRadio):
|
|
"""TYT TH-9000 UHF"""
|
|
VENDOR = "TYT"
|
|
MODEL = "TH9000"
|
|
BAUD_RATE = 9600
|
|
_file_ident = "TH-9000"
|
|
|
|
_memsize = MMAPSIZE
|
|
_ranges = [(0x0000,0x4000)]
|
|
|
|
@classmethod
|
|
def get_prompts(cls):
|
|
rp = chirp_common.RadioPrompts()
|
|
rp.experimental = ("The TYT TH-9000 driver is an alpha version."
|
|
"Use only for testing and development"
|
|
"Proceed with Caution and backup your data"
|
|
"as you may lose it using this driver!")
|
|
return rp
|
|
|
|
def get_features(self):
|
|
rf = chirp_common.RadioFeatures()
|
|
rf.has_settings = True
|
|
rf.has_bank = False
|
|
rf.has_cross = True
|
|
rf.has_tuning_step = False
|
|
rf.has_rx_dtcs = True
|
|
rf.valid_skips = ["","S"]
|
|
rf.memory_bounds = (0, 199)
|
|
rf.valid_name_length = 7
|
|
rf.valid_characters = chirp_common.CHARSET_UPPER_NUMERIC + "-"
|
|
rf.valid_modes = MODES
|
|
rf.valid_tmodes = chirp_common.TONE_MODES
|
|
rf.valid_cross_modes = CROSS_MODES
|
|
rf.valid_power_levels = POWER_LEVELS
|
|
rf.valid_dtcs_codes = chirp_common.ALL_DTCS_CODES
|
|
rf.valid_bands = [(400000000, 490000000)]
|
|
return rf
|
|
|
|
# Do a download of the radio from the serial port
|
|
def sync_in(self):
|
|
self._mmap = do_download(self)
|
|
self.process_mmap()
|
|
|
|
# Do an upload of the radio to the serial port
|
|
def sync_out(self):
|
|
do_upload(self)
|
|
|
|
def process_mmap(self):
|
|
self._memobj = bitwise.parse(MEM_FORMAT, self._mmap)
|
|
|
|
|
|
# Return a raw representation of the memory object, which
|
|
# is very helpful for development
|
|
def get_raw_memory(self, number):
|
|
return repr(self._memobj.memory[number])
|
|
|
|
|
|
# not working
|
|
def _get_dcs_index(self, _mem,which):
|
|
base = getattr(_mem, '%scode' % which)
|
|
extra = getattr(_mem, '%sdcsextra' % which)
|
|
return (int(extra) << 8) | int(base)
|
|
|
|
def _set_dcs_index(self, _mem, which, index):
|
|
base = getattr(_mem, '%scode' % which)
|
|
extra = getattr(_mem, '%sdcsextra' % which)
|
|
base.set_value(index & 0xFF)
|
|
extra.set_value(index >> 8)
|
|
|
|
|
|
# Extract a high-level memory object from the low-level memory map
|
|
# This is called to populate a memory in the UI
|
|
def get_memory(self, number):
|
|
# Get a low-level memory object mapped to the image
|
|
_mem = self._memobj.memory[number]
|
|
|
|
# get flag info
|
|
cbyte = number / 8 ;
|
|
cbit = 7 - (number % 8) ;
|
|
setflag = self._memobj.csetflag[cbyte].c[cbit];
|
|
skipflag = self._memobj.cskipflag[cbyte].c[cbit];
|
|
|
|
mem = chirp_common.Memory()
|
|
|
|
mem.number = number # Set the memory number
|
|
|
|
if setflag == 1:
|
|
mem.empty = True
|
|
return mem
|
|
|
|
mem.freq = int(_mem.freq) * 100
|
|
mem.offset = int(_mem.offset) * 100
|
|
mem.name = str(_mem.name).rstrip() # Set the alpha tag
|
|
mem.duplex = DUPLEXES[_mem.duplex]
|
|
mem.mode = MODES[_mem.channel_width]
|
|
mem.power = POWER_LEVELS[_mem.power]
|
|
|
|
rxtone = txtone = None
|
|
|
|
|
|
rxmode = TMODES[_mem.rxtmode]
|
|
txmode = TMODES[_mem.txtmode]
|
|
|
|
|
|
rxpol = txpol = ""
|
|
|
|
# doesn't work
|
|
if rxmode == "Tone":
|
|
rxpol = ""
|
|
rxtone = TONES[_mem.rxtone]
|
|
elif rxmode == "DTCS":
|
|
rxpol = "N"
|
|
rxtone = chirp_common.ALL_DTCS_CODES[self._get_dcs_index(_mem,'rx')]
|
|
|
|
if txmode == "Tone":
|
|
txpol = ""
|
|
txtone = TONES[_mem.txtone]
|
|
elif txmode == "DTCS":
|
|
txpol = "N"
|
|
txtone = chirp_common.ALL_DTCS_CODES[self._get_dcs_index(_mem,'tx')]
|
|
|
|
|
|
chirp_common.split_tone_decode(mem,
|
|
(txmode, txtone, txpol),
|
|
(rxmode, rxtone, rxpol))
|
|
|
|
mem.skip = "S" if skipflag == 1 else ""
|
|
|
|
|
|
# We'll consider any blank (i.e. 0MHz frequency) to be empty
|
|
if mem.freq == 0:
|
|
mem.empty = True
|
|
|
|
return mem
|
|
|
|
# Store details about a high-level memory to the memory map
|
|
# This is called when a user edits a memory in the UI
|
|
def set_memory(self, mem):
|
|
# Get a low-level memory object mapped to the image
|
|
|
|
_mem = self._memobj.memory[mem.number]
|
|
|
|
cbyte = mem.number / 8
|
|
cbit = 7 - (mem.number % 8)
|
|
|
|
if mem.empty:
|
|
self._memobj.csetflag[cbyte].c[cbit] = 1
|
|
self._memobj.cskipflag[cbyte].c[cbit] = 1
|
|
return
|
|
|
|
self._memobj.csetflag[cbyte].c[cbit] = 0
|
|
self._memobj.cskipflag[cbyte].c[cbit] = 1 if (mem.skip == "S") else 0
|
|
|
|
_mem.set_raw("\x00" * 32)
|
|
|
|
_mem.freq = mem.freq / 100 # Convert to low-level frequency
|
|
_mem.offset = mem.offset / 100 # Convert to low-level frequency
|
|
|
|
_mem.name = mem.name.ljust(7)[:7] # Store the alpha tag
|
|
_mem.duplex = DUPLEXES.index(mem.duplex)
|
|
|
|
|
|
try:
|
|
_mem.channel_width = MODES.index(mem.mode)
|
|
except ValueError:
|
|
_mem.channel_width = 0
|
|
|
|
((txmode, txtone, txpol),
|
|
(rxmode, rxtone, rxpol)) = chirp_common.split_tone_encode(mem)
|
|
|
|
_mem.txtmode = TMODES.index(txmode)
|
|
_mem.rxtmode = TMODES.index(rxmode)
|
|
|
|
if txmode == "Tone":
|
|
_mem.txtone = TONES.index(txtone)
|
|
elif txmode == "DTCS":
|
|
self._set_dcs_index(_mem,'tx',chirp_common.ALL_DTCS_CODES.index(txtone))
|
|
|
|
if rxmode == "Tone":
|
|
_mem.rxtone = TONES.index(rxtone)
|
|
elif rxmode == "DTCS":
|
|
self._set_dcs_index(_mem, 'rx', chirp_common.ALL_DTCS_CODES.index(rxtone))
|
|
|
|
#_mem.txinv = txpol == "N"
|
|
#_mem.rxinv = rxpol == "N"
|
|
|
|
|
|
if mem.power:
|
|
_mem.power = POWER_LEVELS.index(mem.power)
|
|
else:
|
|
_mem.power = 0
|
|
|
|
def _get_settings(self):
|
|
_settings = self._memobj.settings
|
|
_freqrange = self._memobj.freqrange
|
|
_slabel = self._memobj.slabel
|
|
|
|
basic = RadioSettingGroup("basic","Global Settings")
|
|
freqrange = RadioSettingGroup("freqrange","Frequency Ranges")
|
|
top = RadioSettingGroup("top","All Settings",basic,freqrange)
|
|
|
|
def _filter(name):
|
|
filtered = ""
|
|
for char in str(name):
|
|
if char in chirp_common.CHARSET_ASCII:
|
|
filtered += char
|
|
else:
|
|
filtered += ""
|
|
return filtered
|
|
|
|
val = RadioSettingValueString(0,7,_filter(_slabel.startname))
|
|
rs = RadioSetting("startname","Startup Label",val)
|
|
basic.append(rs)
|
|
|
|
rs = RadioSetting("bg_color","LCD Color",
|
|
RadioSettingValueList(BGCOLOR_LIST, BGCOLOR_LIST[_settings.bg_color]))
|
|
basic.append(rs)
|
|
|
|
rs = RadioSetting("bg_brightness","LCD Brightness",
|
|
RadioSettingValueList(BGBRIGHT_LIST, BGBRIGHT_LIST[_settings.bg_brightness]))
|
|
basic.append(rs)
|
|
|
|
rs = RadioSetting("squelch","Squelch Level",
|
|
RadioSettingValueList(SQUELCH_LIST, SQUELCH_LIST[_settings.squelch]))
|
|
basic.append(rs)
|
|
|
|
rs = RadioSetting("timeout_timer","Timeout Timer (TOT)",
|
|
RadioSettingValueList(TIMEOUT_LIST, TIMEOUT_LIST[_settings.timeout_timer]))
|
|
basic.append(rs)
|
|
|
|
rs = RadioSetting("auto_power_off","Auto Power Off (APO)",
|
|
RadioSettingValueList(APO_LIST, APO_LIST[_settings.auto_power_off]))
|
|
basic.append(rs)
|
|
|
|
rs = RadioSetting("voice_prompt","Beep Prompt",
|
|
RadioSettingValueList(BEEP_LIST, BEEP_LIST[_settings.voice_prompt]))
|
|
basic.append(rs)
|
|
|
|
rs = RadioSetting("tbst_freq","Tone Burst Frequency",
|
|
RadioSettingValueList(TBSTFREQ_LIST, TBSTFREQ_LIST[_settings.tbst_freq]))
|
|
basic.append(rs)
|
|
|
|
rs = RadioSetting("choose_tx_power","Max Level of TX Power",
|
|
RadioSettingValueList(TXPWR_LIST, TXPWR_LIST[_settings.choose_tx_power]))
|
|
basic.append(rs)
|
|
|
|
rs = RadioSetting("txrangelow","TX Freq, Lower Limit (khz)", RadioSettingValueInteger(400000,400000, int(_freqrange.txrangelow)/10))
|
|
freqrange.append(rs)
|
|
|
|
rs = RadioSetting("txrangehi","TX Freq, Upper Limit (khz)", RadioSettingValueInteger(490000,490000,int(_freqrange.txrangehi)/10))
|
|
freqrange.append(rs)
|
|
|
|
rs = RadioSetting("rxrangelow","RX Freq, Lower Limit (khz)", RadioSettingValueInteger(400000,400000, int(_freqrange.rxrangelow)/10))
|
|
freqrange.append(rs)
|
|
|
|
rs = RadioSetting("rxrangehi","RX Freq, Upper Limit (khz)", RadioSettingValueInteger(490000,490000,int(_freqrange.rxrangehi)/10))
|
|
freqrange.append(rs)
|
|
|
|
return top
|
|
|
|
def get_settings(self):
|
|
try:
|
|
return self._get_settings()
|
|
except:
|
|
import traceback
|
|
print "failed to parse settings"
|
|
traceback.print_exc()
|
|
return None
|
|
|
|
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 name in ["txrangelow","txrangehi","rxrangelow","rxrangehi"]:
|
|
print "setting %s = %s" % (name,int(element.value)*10)
|
|
setattr(self._memobj.freqrange,name,int(element.value)*10)
|
|
continue
|
|
|
|
if name in ["startname"]:
|
|
print "setting %s = %s" % (name, element.value)
|
|
setattr(self._memobj.slabel,name,element.value)
|
|
continue
|
|
|
|
obj = _settings
|
|
setting = element.get_name()
|
|
|
|
if element.has_apply_callback():
|
|
print "using apply callback"
|
|
element.run_apply_callback()
|
|
else:
|
|
print "Setting %s = %s" % (setting, element.value)
|
|
setattr(obj, setting, element.value)
|
|
except Exception, e:
|
|
print element.get_name()
|
|
raise
|
|
|
|
@classmethod
|
|
def match_model(cls, filedata, filename):
|
|
return cls._file_ident in filedata[0x10:0x20]
|