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# Copyright 2017 Krystian Struzik <toner_82@tlen.pl>
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# Based on Ron Wellsted driver for Wouxun KG-UV8D.
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# KG-UV8D Plus model has all serial data encrypted.
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# Figured out how the data is encrypted and implement
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# serial data encryption and decryption functions.
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# The algorithm of decryption works like this:
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# - the first byte of data stream is XOR by const 57h
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# - each next byte is encoded by previous byte using the XOR
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# including the checksum (e.g data[i - 1] xor data[i])
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# I also changed the data structure to fit radio memory
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# and implement set_settings function.
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#
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# Support for the KG-UV8E added by Pavel Milanes (CO7WT) <pavelmc@gmail.com>
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# in January 2018 + refactoring of the library.
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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 3 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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"""Module for Wouxun KG-UV radios with cryptography in the serial comms"""
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import time
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import os
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import logging
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from chirp import util, chirp_common, bitwise, memmap, errors, directory
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from chirp.settings import RadioSetting, RadioSettingGroup, \
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RadioSettingValueBoolean, RadioSettingValueList, \
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RadioSettingValueInteger, RadioSettingValueString, \
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RadioSettings
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LOG = logging.getLogger(__name__)
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CMD_ID = 128
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CMD_END = 129
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CMD_RD = 130
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CMD_WR = 131
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MEM_VALID = 158
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AB_LIST = ["A", "B"]
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STEPS = [2.5, 5.0, 6.25, 10.0, 12.5, 25.0, 50.0, 100.0]
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STEP_LIST = [str(x) for x in STEPS]
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ROGER_LIST = ["Off", "Begin", "End", "Both"]
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TIMEOUT_LIST = ["Off"] + [str(x) + "s" for x in range(15, 901, 15)]
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VOX_LIST = ["Off"] + ["%s" % x for x in range(1, 10)]
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BANDWIDTH_LIST = ["Narrow", "Wide"]
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VOICE_LIST = ["Off", "On"]
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LANGUAGE_LIST = ["Chinese", "English"]
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SCANMODE_LIST = ["TO", "CO", "SE"]
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PF1KEY_LIST = ["Call", "VFTX"]
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PF3KEY_LIST = ["Disable", "Scan", "Lamp", "Tele Alarm", "SOS-CH", "Radio"]
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WORKMODE_LIST = ["VFO", "Channel No.", "Ch. No.+Freq.", "Ch. No.+Name"]
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BACKLIGHT_LIST = ["Always On"] + [str(x) + "s" for x in range(1, 21)] + \
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["Always Off"]
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OFFSET_LIST = ["+", "-"]
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PONMSG_LIST = ["Bitmap", "Battery Volts"]
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SPMUTE_LIST = ["QT", "QT+DTMF", "QT*DTMF"]
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DTMFST_LIST = ["DT-ST", "ANI-ST", "DT-ANI", "Off"]
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DTMF_TIMES = ["%s" % x for x in range(50, 501, 10)]
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RPTSET_LIST = ["X-TWRPT", "X-DIRRPT"]
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ALERTS = [1750, 2100, 1000, 1450]
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ALERTS_LIST = [str(x) for x in ALERTS]
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PTTID_LIST = ["Begin", "End", "Both"]
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LIST_10 = ["Off"] + ["%s" % x for x in range(1, 11)]
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SCANGRP_LIST = ["All"] + ["%s" % x for x in range(1, 11)]
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SCQT_LIST = ["Decoder", "Encoder", "All"]
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SMUTESET_LIST = ["Off", "Tx", "Rx", "Tx/Rx"]
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POWER_LIST = ["Lo", "Hi"]
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HOLD_TIMES = ["Off"] + ["%s" % x for x in range(100, 5001, 100)]
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RPTMODE_LIST = ["Radio", "Repeater"]
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# memory slot 0 is not used, start at 1 (so need 1000 slots, not 999)
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# structure elements whose name starts with x are currently unidentified
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# Support for the folowing Wouxun radios
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# * KG-UV8D Plus
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# * KG-UV8E
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# * KG-UV8T (untested)
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# Serial coms are at 19200 baud
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# The data is passed in variable length records
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# Record structure:
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# Offset Usage
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# 0 start of record (\x7a)
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# 1 Command (\x80 Identify \x81 End/Reboot \x82 Read \x83 Write)
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# 2 direction (\xff PC-> Radio, \x00 Radio -> PC)
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# 3 length of payload (excluding header/checksum) (n)
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# 4 payload (n bytes)
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# 4+n+1 checksum - byte sum (% 256) of bytes 1 -> 4+n
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#
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# Memory Read Records:
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# the payload is 3 bytes, first 2 are offset (big endian),
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# 3rd is number of bytes to read
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# Memory Write Records:
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# the maximum payload size (from the Wouxun software) seems to be 66 bytes
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# (2 bytes location + 64 bytes data).
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_MEM_FORMAT = """
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#seekto 0x0030;
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struct {
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u32 rx_start;
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u32 rx_stop;
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u32 tx_start;
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u32 tx_stop;
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} vhf1_limits;
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#seekto 0x0044;
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struct {
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u32 rx_start;
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u32 rx_stop;
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u32 tx_start;
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u32 tx_stop;
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} uhf_limits;
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#seekto 0x0054;
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struct {
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u32 rx_start;
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u32 rx_stop;
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u32 tx_start;
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u32 tx_stop;
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} vhf_limits;
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#seekto 0x0400;
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struct {
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u8 oem1[8];
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u8 unknown[2];
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u8 unknown2[10];
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u8 unknown3[10];
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u8 unknown4[8];
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u8 model[10];
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u8 version[6];
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u8 date[8];
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u8 unknown5[1];
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u8 oem2[8];
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} oem_info;
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#seekto 0x0480;
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struct {
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u16 lower;
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u16 upper;
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} scan_groups[10];
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#seekto 0x0500;
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struct {
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u8 call_code[6];
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} call_groups[20];
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#seekto 0x0580;
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struct {
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char call_name[6];
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} call_group_name[20];
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#seekto 0x0800;
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struct {
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u8 ponmsg;
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char dispstr[15];
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u8 x0810;
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u8 x0811;
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u8 x0812;
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u8 x0813;
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u8 x0814;
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u8 voice;
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u8 timeout;
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u8 toalarm;
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u8 channel_menu;
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u8 power_save;
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u8 autolock;
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u8 keylock;
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u8 beep;
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u8 stopwatch;
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u8 vox;
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u8 scan_rev;
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u8 backlight;
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u8 roger_beep;
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u8 x0822[6];
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u8 x0823[6];
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u16 pri_ch;
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u8 ani_sw;
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u8 ptt_delay;
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u8 ani_code[6];
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u8 dtmf_st;
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u8 bcl_a;
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u8 bcl_b;
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u8 ptt_id;
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u8 prich_sw;
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u8 rpt_set;
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u8 rpt_spk;
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u8 rpt_ptt;
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u8 alert;
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u8 pf1_func;
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u8 pf3_func;
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u8 x0843;
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u8 workmode_a;
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u8 workmode_b;
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u8 dtmf_tx_time;
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u8 dtmf_interval;
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u8 main_ab;
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u16 work_cha;
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u16 work_chb;
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u8 x084d;
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u8 x084e;
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u8 x084f;
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u8 x0850;
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u8 x0851;
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u8 x0852;
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u8 x0853;
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u8 x0854;
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u8 rpt_mode;
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u8 language;
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u8 x0857;
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u8 x0858;
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u8 x0859;
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u8 x085a;
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u8 x085b;
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u8 x085c;
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u8 x085d;
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u8 x085e;
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u8 single_display;
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u8 ring_time;
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u8 scg_a;
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u8 scg_b;
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u8 x0863;
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u8 rpt_tone;
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u8 rpt_hold;
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u8 scan_det;
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u8 sc_qt;
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u8 x0868;
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u8 smuteset;
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u8 callcode;
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} settings;
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#seekto 0x0880;
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struct {
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u32 rxfreq;
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u32 txoffset;
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u16 rxtone;
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u16 txtone;
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u8 scrambler:4,
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unknown1:2,
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power:1,
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unknown2:1;
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u8 unknown3:1,
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shift_dir:2
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unknown4:1,
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compander:1,
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mute_mode:2,
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iswide:1;
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u8 step;
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u8 squelch;
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} vfoa;
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#seekto 0x08c0;
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struct {
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u32 rxfreq;
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u32 txoffset;
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u16 rxtone;
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u16 txtone;
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u8 scrambler:4,
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unknown1:2,
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power:1,
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unknown2:1;
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u8 unknown3:1,
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shift_dir:2
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unknown4:1,
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compander:1,
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mute_mode:2,
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iswide:1;
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u8 step;
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u8 squelch;
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} vfob;
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#seekto 0x0900;
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struct {
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u32 rxfreq;
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u32 txfreq;
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u16 rxtone;
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u16 txtone;
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u8 scrambler:4,
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unknown1:2,
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power:1,
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unknown2:1;
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u8 unknown3:2,
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scan_add:1,
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unknown4:1,
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compander:1,
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mute_mode:2,
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iswide:1;
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u16 padding;
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} memory[1000];
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#seekto 0x4780;
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struct {
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u8 name[8];
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u8 unknown[4];
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} names[1000];
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#seekto 0x7670;
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u8 valid[1000];
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"""
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class KGUV8crypt(chirp_common.CloneModeRadio, chirp_common.ExperimentalRadio):
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"""Base class for Wouxun KG-UV radios with crypt serial communications"""
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VENDOR = "Wouxun"
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MODEL = ""
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_model = ""
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_file_ident = ""
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BAUD_RATE = 19200
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POWER_LEVELS = [chirp_common.PowerLevel("L", watts=1),
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chirp_common.PowerLevel("H", watts=5)]
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_vhf_range = (134000000, 175000000) # supports 2m
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_uhf_range = (400000000, 520000000) # supports 70cm
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_mmap = ""
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_START_CMD = ''
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def _checksum(self, 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 chr(cs % 256)
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def _write_record(self, cmd, payload = None):
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# build the packet
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_header = self._START_CMD + chr(cmd) + '\xff'
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_length = 0
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if payload:
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_length = len(payload)
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# update the length field
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_header += chr(_length)
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if payload:
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# calculate checksum then add it with the payload to the packet and encrypt
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crc = self._checksum(_header[1:] + payload)
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payload += crc
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_header += self.encrypt(payload)
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else:
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# calculate and add encrypted checksum to the packet
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crc = self._checksum(_header[1:])
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_header += self.strxor(crc, '\x57')
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LOG.debug("Sent:\n%s" % util.hexprint(_header))
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self.pipe.write(_header)
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def _read_record(self):
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# read 4 chars for the header
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_header = self.pipe.read(4)
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if len(_header) != 4:
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raise errors.RadioError('Radio did not respond')
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_length = ord(_header[3])
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_packet = self.pipe.read(_length)
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_rcs_xor = _packet[-1]
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_packet = self.decrypt(_packet)
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_cs = ord(self._checksum(_header[1:] + _packet))
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# read the checksum and decrypt it
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_rcs = ord(self.strxor(self.pipe.read(1), _rcs_xor))
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LOG.debug("_cs =%x", _cs)
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LOG.debug("_rcs=%x", _rcs)
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return (_rcs != _cs, _packet)
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def decrypt(self, data):
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result = ''
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for i in range(len(data)-1, 0, -1):
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result += self.strxor(data[i], data[i - 1])
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result += self.strxor(data[0], '\x57')
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return result[::-1]
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def encrypt(self, data):
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result = self.strxor('\x57', data[0])
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for i in range(1, len(data), 1):
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result += self.strxor(result[i - 1], data[i])
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return result
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def strxor (self, xora, xorb):
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return chr(ord(xora) ^ ord(xorb))
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@classmethod
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def match_model(cls, filedata, filename):
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return cls._file_ident in 'kg' + filedata[0x0426:0x0430].\
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replace('(', '').replace(')', '').lower()
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# Identify the radio
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#
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# A Gotcha: the first identify packet returns a bad checksum, subsequent
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# attempts return the correct checksum... (well it does on my radio!)
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#
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# The ID record returned by the radio also includes the current frequency
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# range as 4 bytes big-endian in 10Hz increments
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#
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# Offset (All models)
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# 0:10 Model, zero padded, match self._model
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#
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# For the KG-UV8D Plus
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# ===================================================
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# 11:14 UHF rx lower limit (in units of 10Hz)
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# 15:18 UHF rx upper limit
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# 19:22 UHF tx lower limit
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# 23:26 UHF tx upper limit
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# 27:30 VHF rx lower limit
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# 31:34 VHF rx upper limit
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# 35:38 VHF tx lower limit
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# 39:42 VHF tx upper limit
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#
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# For the KG-UV8E this data seems like different positions
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def _identify(self):
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"""Do the identification dance"""
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for _i in range(0, 10):
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self._write_record(CMD_ID)
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_chksum_err, _resp = self._read_record()
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LOG.debug("Got:\n%s" % util.hexprint(_resp))
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if _chksum_err:
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LOG.error("Checksum error: retrying ident...")
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time.sleep(0.100)
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continue
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read_model = _resp[0:len(self._model)]
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LOG.debug("Model %s" % util.hexprint(read_model))
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if read_model == self._model:
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return
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if len(_resp) == 0:
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raise Exception("Radio not responding")
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else:
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raise Exception("Unable to identify radio")
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def _finish(self):
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self._write_record(CMD_END)
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def process_mmap(self):
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self._memobj = bitwise.parse(_MEM_FORMAT, self._mmap)
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def sync_in(self):
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try:
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self._mmap = self._download()
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except errors.RadioError:
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raise
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except Exception, e:
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raise errors.RadioError("Failed to communicate with radio: %s" % e)
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self.process_mmap()
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def sync_out(self):
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self._upload()
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# TODO: Load all memory.
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# It would be smarter to only load the active areas and none of
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# the padding/unused areas. Padding still need to be investigated.
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def _download(self):
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"""Talk to a Wouxun KG-UV crypt radios and do a download"""
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try:
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self._identify()
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return self._do_download(0, 32768, 64)
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except errors.RadioError:
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raise
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except Exception, e:
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LOG.exception('Unknown error during download process')
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raise errors.RadioError("Failed to communicate with radio: %s" % e)
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def _do_download(self, start, end, blocksize):
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# allocate & fill memory
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image = ""
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for i in range(start, end, blocksize):
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req = chr(i / 256) + chr(i % 256) + chr(blocksize)
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self._write_record(CMD_RD, req)
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cs_error, resp = self._read_record()
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if cs_error:
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LOG.debug(util.hexprint(resp))
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raise Exception("Checksum error on read")
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LOG.debug("Got:\n%s" % util.hexprint(resp))
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image += resp[2:]
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if self.status_fn:
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status = chirp_common.Status()
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status.cur = i
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status.max = end
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status.msg = "Cloning from radio"
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self.status_fn(status)
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self._finish()
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return memmap.MemoryMap(''.join(image))
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def _upload(self):
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"""Talk to a Wouxun KG-UV crypt radios and do an upload"""
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try:
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self._identify()
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self._do_upload(0, 32768, 64)
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except errors.RadioError:
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raise
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except Exception, e:
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raise errors.RadioError("Failed to communicate with radio: %s" % e)
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return
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def _do_upload(self, start, end, blocksize):
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ptr = start
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for i in range(start, end, blocksize):
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req = chr(i / 256) + chr(i % 256)
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chunk = self.get_mmap()[ptr:ptr + blocksize]
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self._write_record(CMD_WR, req + chunk)
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LOG.debug(util.hexprint(req + chunk))
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cserr, ack = self._read_record()
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LOG.debug(util.hexprint(ack))
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j = ord(ack[0]) * 256 + ord(ack[1])
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if cserr or j != ptr:
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raise Exception("Radio did not ack block %i" % ptr)
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ptr += blocksize
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if self.status_fn:
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status = chirp_common.Status()
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status.cur = i
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status.max = end
|
|
status.msg = "Cloning to radio"
|
|
self.status_fn(status)
|
|
self._finish()
|
|
|
|
def get_features(self):
|
|
rf = chirp_common.RadioFeatures()
|
|
rf.has_settings = True
|
|
rf.has_ctone = True
|
|
rf.has_rx_dtcs = True
|
|
rf.has_cross = True
|
|
rf.has_tuning_step = False
|
|
rf.has_bank = False
|
|
rf.can_odd_split = True
|
|
rf.valid_skips = ["", "S"]
|
|
rf.valid_tmodes = ["", "Tone", "TSQL", "DTCS", "Cross"]
|
|
rf.valid_cross_modes = [
|
|
"Tone->Tone",
|
|
"Tone->DTCS",
|
|
"DTCS->Tone",
|
|
"DTCS->",
|
|
"->Tone",
|
|
"->DTCS",
|
|
"DTCS->DTCS",
|
|
]
|
|
rf.valid_modes = ["FM", "NFM"]
|
|
rf.valid_power_levels = self.POWER_LEVELS
|
|
rf.valid_name_length = 8
|
|
rf.valid_duplexes = ["", "-", "+", "split", "off"]
|
|
rf.valid_bands = [self._vhf_range, self._uhf_range]
|
|
rf.valid_characters = chirp_common.CHARSET_ASCII
|
|
rf.memory_bounds = (1, 999) # 999 memories
|
|
|
|
# KG-UV8E 1.25m band
|
|
if (self.MODEL == "KG-UV8E"):
|
|
rf.valid_bands.append(self._vhf1_range)
|
|
|
|
return rf
|
|
|
|
@classmethod
|
|
def get_prompts(cls):
|
|
rp = chirp_common.RadioPrompts()
|
|
rp.experimental = ("This radio driver is currently under development. "
|
|
"There are no known issues with it, but you should "
|
|
"proceed with caution.")
|
|
return rp
|
|
|
|
def get_raw_memory(self, number):
|
|
return repr(self._memobj.memory[number])
|
|
|
|
def _get_tone(self, _mem, mem):
|
|
def _get_dcs(val):
|
|
code = int("%03o" % (val & 0x07FF))
|
|
pol = (val & 0x8000) and "R" or "N"
|
|
return code, pol
|
|
|
|
tpol = False
|
|
if _mem.txtone != 0xFFFF and (_mem.txtone & 0x2800) == 0x2800:
|
|
tcode, tpol = _get_dcs(_mem.txtone)
|
|
mem.dtcs = tcode
|
|
txmode = "DTCS"
|
|
elif _mem.txtone != 0xFFFF and _mem.txtone != 0x0:
|
|
mem.rtone = (_mem.txtone & 0x7fff) / 10.0
|
|
txmode = "Tone"
|
|
else:
|
|
txmode = ""
|
|
|
|
rpol = False
|
|
if _mem.rxtone != 0xFFFF and (_mem.rxtone & 0x2800) == 0x2800:
|
|
rcode, rpol = _get_dcs(_mem.rxtone)
|
|
mem.rx_dtcs = rcode
|
|
rxmode = "DTCS"
|
|
elif _mem.rxtone != 0xFFFF and _mem.rxtone != 0x0:
|
|
mem.ctone = (_mem.rxtone & 0x7fff) / 10.0
|
|
rxmode = "Tone"
|
|
else:
|
|
rxmode = ""
|
|
|
|
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"
|
|
elif rxmode or txmode:
|
|
mem.tmode = "Cross"
|
|
mem.cross_mode = "%s->%s" % (txmode, rxmode)
|
|
|
|
# always set it even if no dtcs is used
|
|
mem.dtcs_polarity = "%s%s" % (tpol or "N", rpol or "N")
|
|
|
|
LOG.debug("Got TX %s (%i) RX %s (%i)" %
|
|
(txmode, _mem.txtone, rxmode, _mem.rxtone))
|
|
|
|
def get_memory(self, number):
|
|
_mem = self._memobj.memory[number]
|
|
_nam = self._memobj.names[number]
|
|
|
|
mem = chirp_common.Memory()
|
|
mem.number = number
|
|
_valid = self._memobj.valid[mem.number]
|
|
LOG.debug("CH %d %s", number, _valid == MEM_VALID)
|
|
if _valid != MEM_VALID:
|
|
mem.empty = True
|
|
return mem
|
|
else:
|
|
mem.empty = False
|
|
|
|
mem.freq = int(_mem.rxfreq) * 10
|
|
|
|
if _mem.txfreq == 0xFFFFFFFF:
|
|
# TX freq not set
|
|
mem.duplex = "off"
|
|
mem.offset = 0
|
|
elif int(_mem.rxfreq) == int(_mem.txfreq):
|
|
mem.duplex = ""
|
|
mem.offset = 0
|
|
elif abs(int(_mem.rxfreq) * 10 - int(_mem.txfreq) * 10) > 70000000:
|
|
mem.duplex = "split"
|
|
mem.offset = int(_mem.txfreq) * 10
|
|
else:
|
|
mem.duplex = int(_mem.rxfreq) > int(_mem.txfreq) and "-" or "+"
|
|
mem.offset = abs(int(_mem.rxfreq) - int(_mem.txfreq)) * 10
|
|
|
|
for char in _nam.name:
|
|
if char != 0:
|
|
mem.name += chr(char)
|
|
mem.name = mem.name.rstrip()
|
|
|
|
self._get_tone(_mem, mem)
|
|
|
|
mem.skip = "" if bool(_mem.scan_add) else "S"
|
|
|
|
mem.power = self.POWER_LEVELS[_mem.power]
|
|
mem.mode = _mem.iswide and "FM" or "NFM"
|
|
return mem
|
|
|
|
def _set_tone(self, mem, _mem):
|
|
def _set_dcs(code, pol):
|
|
val = int("%i" % code, 8) + 0x2800
|
|
if pol == "R":
|
|
val += 0x8000
|
|
return val
|
|
|
|
rx_mode = tx_mode = None
|
|
rxtone = txtone = 0x0000
|
|
|
|
if mem.tmode == "Tone":
|
|
tx_mode = "Tone"
|
|
rx_mode = None
|
|
txtone = int(mem.rtone * 10) + 0x8000
|
|
elif mem.tmode == "TSQL":
|
|
rx_mode = tx_mode = "Tone"
|
|
rxtone = txtone = int(mem.ctone * 10) + 0x8000
|
|
elif mem.tmode == "DTCS":
|
|
tx_mode = rx_mode = "DTCS"
|
|
txtone = _set_dcs(mem.dtcs, mem.dtcs_polarity[0])
|
|
rxtone = _set_dcs(mem.dtcs, mem.dtcs_polarity[1])
|
|
elif mem.tmode == "Cross":
|
|
tx_mode, rx_mode = mem.cross_mode.split("->")
|
|
if tx_mode == "DTCS":
|
|
txtone = _set_dcs(mem.dtcs, mem.dtcs_polarity[0])
|
|
elif tx_mode == "Tone":
|
|
txtone = int(mem.rtone * 10) + 0x8000
|
|
if rx_mode == "DTCS":
|
|
rxtone = _set_dcs(mem.rx_dtcs, mem.dtcs_polarity[1])
|
|
elif rx_mode == "Tone":
|
|
rxtone = int(mem.ctone * 10) + 0x8000
|
|
|
|
_mem.rxtone = rxtone
|
|
_mem.txtone = txtone
|
|
|
|
LOG.debug("Set TX %s (%i) RX %s (%i)" %
|
|
(tx_mode, _mem.txtone, rx_mode, _mem.rxtone))
|
|
|
|
def set_memory(self, mem):
|
|
number = mem.number
|
|
|
|
_mem = self._memobj.memory[number]
|
|
_nam = self._memobj.names[number]
|
|
|
|
if mem.empty:
|
|
_mem.set_raw("\x00" * (_mem.size() / 8))
|
|
self._memobj.valid[number] = 0
|
|
self._memobj.names[number].set_raw("\x00" * (_nam.size() / 8))
|
|
return
|
|
|
|
_mem.rxfreq = int(mem.freq / 10)
|
|
if mem.duplex == "off":
|
|
_mem.txfreq = 0xFFFFFFFF
|
|
elif mem.duplex == "split":
|
|
_mem.txfreq = int(mem.offset / 10)
|
|
elif mem.duplex == "off":
|
|
for i in range(0, 4):
|
|
_mem.txfreq[i].set_raw("\xFF")
|
|
elif mem.duplex == "+":
|
|
_mem.txfreq = int(mem.freq / 10) + int(mem.offset / 10)
|
|
elif mem.duplex == "-":
|
|
_mem.txfreq = int(mem.freq / 10) - int(mem.offset / 10)
|
|
else:
|
|
_mem.txfreq = int(mem.freq / 10)
|
|
_mem.scan_add = int(mem.skip != "S")
|
|
_mem.iswide = int(mem.mode == "FM")
|
|
# set the tone
|
|
self._set_tone(mem, _mem)
|
|
# set the scrambler and compander to off by default
|
|
_mem.scrambler = 0
|
|
_mem.compander = 0
|
|
# set the power
|
|
if mem.power:
|
|
_mem.power = self.POWER_LEVELS.index(mem.power)
|
|
else:
|
|
_mem.power = True
|
|
# set to mute mode to QT (not QT+DTMF or QT*DTMF) by default
|
|
_mem.mute_mode = 0
|
|
|
|
for i in range(0, len(_nam.name)):
|
|
if i < len(mem.name) and mem.name[i]:
|
|
_nam.name[i] = ord(mem.name[i])
|
|
else:
|
|
_nam.name[i] = 0x0
|
|
self._memobj.valid[mem.number] = MEM_VALID
|
|
|
|
def _get_settings(self):
|
|
_settings = self._memobj.settings
|
|
_vfoa = self._memobj.vfoa
|
|
_vfob = self._memobj.vfob
|
|
cfg_grp = RadioSettingGroup("cfg_grp", "Configuration")
|
|
vfoa_grp = RadioSettingGroup("vfoa_grp", "VFO A Settings")
|
|
vfob_grp = RadioSettingGroup("vfob_grp", "VFO B Settings")
|
|
key_grp = RadioSettingGroup("key_grp", "Key Settings")
|
|
oem_grp = RadioSettingGroup("oem_grp", "OEM Info")
|
|
lmt_grp = RadioSettingGroup("lmt_grp", "Frequency Limits")
|
|
uhf_lmt_grp = RadioSettingGroup("uhf_lmt_grp", "UHF")
|
|
vhf_lmt_grp = RadioSettingGroup("vhf_lmt_grp", "VHF")
|
|
|
|
lmt_grp.append(uhf_lmt_grp);
|
|
|
|
# KG-UV8E 1.25m band
|
|
if (self.MODEL == "KG-UV8E"):
|
|
vhf1_lmt_grp = RadioSettingGroup("vhf1_lmt_grp", "VHF1")
|
|
lmt_grp.append(vhf1_lmt_grp);
|
|
|
|
lmt_grp.append(vhf_lmt_grp);
|
|
|
|
group = RadioSettings(cfg_grp, vfoa_grp, vfob_grp,
|
|
key_grp, lmt_grp, oem_grp)
|
|
|
|
#
|
|
# Configuration Settings
|
|
#
|
|
rs = RadioSetting("channel_menu", "Menu available in channel mode",
|
|
RadioSettingValueBoolean(_settings.channel_menu))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("ponmsg", "Poweron message",
|
|
RadioSettingValueList(
|
|
PONMSG_LIST, PONMSG_LIST[_settings.ponmsg]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("voice", "Voice Guide",
|
|
RadioSettingValueBoolean(_settings.voice))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("language", "Language",
|
|
RadioSettingValueList(LANGUAGE_LIST,
|
|
LANGUAGE_LIST[_settings.
|
|
language]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("timeout", "Timeout Timer",
|
|
RadioSettingValueList(
|
|
TIMEOUT_LIST, TIMEOUT_LIST[_settings.timeout]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("toalarm", "Timeout Alarm",
|
|
RadioSettingValueInteger(0, 10, _settings.toalarm))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("roger_beep", "Roger Beep",
|
|
RadioSettingValueList(ROGER_LIST,
|
|
ROGER_LIST[_settings.roger_beep]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("power_save", "Power save",
|
|
RadioSettingValueBoolean(_settings.power_save))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("autolock", "Autolock",
|
|
RadioSettingValueBoolean(_settings.autolock))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("keylock", "Keypad Lock",
|
|
RadioSettingValueBoolean(_settings.keylock))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("beep", "Keypad Beep",
|
|
RadioSettingValueBoolean(_settings.beep))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("stopwatch", "Stopwatch",
|
|
RadioSettingValueBoolean(_settings.stopwatch))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("backlight", "Backlight",
|
|
RadioSettingValueList(BACKLIGHT_LIST,
|
|
BACKLIGHT_LIST[_settings.
|
|
backlight]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("dtmf_st", "DTMF Sidetone",
|
|
RadioSettingValueList(DTMFST_LIST,
|
|
DTMFST_LIST[_settings.
|
|
dtmf_st]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("ani_sw", "ANI-ID Switch",
|
|
RadioSettingValueBoolean(_settings.ani_sw))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("ptt_id", "PTT-ID Delay",
|
|
RadioSettingValueList(PTTID_LIST,
|
|
PTTID_LIST[_settings.ptt_id]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("ring_time", "Ring Time",
|
|
RadioSettingValueList(LIST_10,
|
|
LIST_10[_settings.ring_time]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("scan_rev", "Scan Mode",
|
|
RadioSettingValueList(SCANMODE_LIST,
|
|
SCANMODE_LIST[_settings.
|
|
scan_rev]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("vox", "VOX",
|
|
RadioSettingValueList(LIST_10,
|
|
LIST_10[_settings.vox]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("prich_sw", "Priority Channel Switch",
|
|
RadioSettingValueBoolean(_settings.prich_sw))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("pri_ch", "Priority Channel",
|
|
RadioSettingValueInteger(1, 999, _settings.pri_ch))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("rpt_mode", "Radio Mode",
|
|
RadioSettingValueList(RPTMODE_LIST,
|
|
RPTMODE_LIST[_settings.
|
|
rpt_mode]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("rpt_set", "Repeater Setting",
|
|
RadioSettingValueList(RPTSET_LIST,
|
|
RPTSET_LIST[_settings.
|
|
rpt_set]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("rpt_spk", "Repeater Mode Speaker",
|
|
RadioSettingValueBoolean(_settings.rpt_spk))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("rpt_ptt", "Repeater PTT",
|
|
RadioSettingValueBoolean(_settings.rpt_ptt))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("dtmf_tx_time", "DTMF Tx Duration",
|
|
RadioSettingValueList(DTMF_TIMES,
|
|
DTMF_TIMES[_settings.
|
|
dtmf_tx_time]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("dtmf_interval", "DTMF Interval",
|
|
RadioSettingValueList(DTMF_TIMES,
|
|
DTMF_TIMES[_settings.
|
|
dtmf_interval]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("alert", "Alert Tone",
|
|
RadioSettingValueList(ALERTS_LIST,
|
|
ALERTS_LIST[_settings.alert]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("rpt_tone", "Repeater Tone",
|
|
RadioSettingValueBoolean(_settings.rpt_tone))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("rpt_hold", "Repeater Hold Time",
|
|
RadioSettingValueList(HOLD_TIMES,
|
|
HOLD_TIMES[_settings.
|
|
rpt_hold]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("scan_det", "Scan DET",
|
|
RadioSettingValueBoolean(_settings.scan_det))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("sc_qt", "SC-QT",
|
|
RadioSettingValueList(SCQT_LIST,
|
|
SCQT_LIST[_settings.sc_qt]))
|
|
cfg_grp.append(rs)
|
|
rs = RadioSetting("smuteset", "SubFreq Mute",
|
|
RadioSettingValueList(SMUTESET_LIST,
|
|
SMUTESET_LIST[_settings.
|
|
smuteset]))
|
|
cfg_grp.append(rs)
|
|
|
|
#
|
|
# VFO A Settings
|
|
#
|
|
rs = RadioSetting("workmode_a", "VFO A Workmode",
|
|
RadioSettingValueList(WORKMODE_LIST,
|
|
WORKMODE_LIST[_settings.workmode_a]))
|
|
vfoa_grp.append(rs)
|
|
rs = RadioSetting("work_cha", "VFO A Channel",
|
|
RadioSettingValueInteger(1, 999, _settings.work_cha))
|
|
vfoa_grp.append(rs)
|
|
rs = RadioSetting("vfoa.rxfreq", "VFO A Rx Frequency",
|
|
RadioSettingValueInteger(
|
|
self._vhf_range[0], self._uhf_range[1],
|
|
_vfoa.rxfreq * 10, 5000))
|
|
vfoa_grp.append(rs)
|
|
rs = RadioSetting("vfoa.txoffset", "VFO A Tx Offset",
|
|
RadioSettingValueInteger(
|
|
0,self._uhf_range[1], _vfoa.txoffset * 10, 5000))
|
|
vfoa_grp.append(rs)
|
|
# u16 rxtone;
|
|
# u16 txtone;
|
|
rs = RadioSetting("vfoa.power", "VFO A Power",
|
|
RadioSettingValueList(
|
|
POWER_LIST, POWER_LIST[_vfoa.power]))
|
|
vfoa_grp.append(rs)
|
|
# shift_dir:2
|
|
rs = RadioSetting("vfoa.iswide", "VFO A NBFM",
|
|
RadioSettingValueList(
|
|
BANDWIDTH_LIST, BANDWIDTH_LIST[_vfoa.iswide]))
|
|
vfoa_grp.append(rs)
|
|
rs = RadioSetting("vfoa.mute_mode", "VFO A Mute",
|
|
RadioSettingValueList(
|
|
SPMUTE_LIST, SPMUTE_LIST[_vfoa.mute_mode]))
|
|
vfoa_grp.append(rs)
|
|
rs = RadioSetting("vfoa.step", "VFO A Step (kHz)",
|
|
RadioSettingValueList(
|
|
STEP_LIST, STEP_LIST[_vfoa.step]))
|
|
vfoa_grp.append(rs)
|
|
rs = RadioSetting("vfoa.squelch", "VFO A Squelch",
|
|
RadioSettingValueList(
|
|
LIST_10, LIST_10[_vfoa.squelch]))
|
|
vfoa_grp.append(rs)
|
|
rs = RadioSetting("bcl_a", "Busy Channel Lock-out A",
|
|
RadioSettingValueBoolean(_settings.bcl_a))
|
|
vfoa_grp.append(rs)
|
|
|
|
#
|
|
# VFO B Settings
|
|
#
|
|
rs = RadioSetting("workmode_b", "VFO B Workmode",
|
|
RadioSettingValueList(WORKMODE_LIST,
|
|
WORKMODE_LIST[_settings.workmode_b]))
|
|
vfob_grp.append(rs)
|
|
rs = RadioSetting("work_chb", "VFO B Channel",
|
|
RadioSettingValueInteger(1, 999, _settings.work_chb))
|
|
vfob_grp.append(rs)
|
|
rs = RadioSetting("vfob.rxfreq", "VFO B Rx Frequency",
|
|
RadioSettingValueInteger(
|
|
self._vhf_range[0], self._uhf_range[1],
|
|
_vfob.rxfreq * 10, 5000))
|
|
vfob_grp.append(rs)
|
|
rs = RadioSetting("vfob.txoffset", "VFO B Tx Offset",
|
|
RadioSettingValueInteger(
|
|
0, self._uhf_range[1], _vfob.txoffset * 10, 5000))
|
|
vfob_grp.append(rs)
|
|
# u16 rxtone;
|
|
# u16 txtone;
|
|
rs = RadioSetting("vfob.power", "VFO B Power",
|
|
RadioSettingValueList(
|
|
POWER_LIST, POWER_LIST[_vfob.power]))
|
|
vfob_grp.append(rs)
|
|
# shift_dir:2
|
|
rs = RadioSetting("vfob.iswide", "VFO B NBFM",
|
|
RadioSettingValueList(
|
|
BANDWIDTH_LIST, BANDWIDTH_LIST[_vfob.iswide]))
|
|
vfob_grp.append(rs)
|
|
rs = RadioSetting("vfob.mute_mode", "VFO B Mute",
|
|
RadioSettingValueList(
|
|
SPMUTE_LIST, SPMUTE_LIST[_vfob.mute_mode]))
|
|
vfob_grp.append(rs)
|
|
rs = RadioSetting("vfob.step", "VFO B Step (kHz)",
|
|
RadioSettingValueList(
|
|
STEP_LIST, STEP_LIST[_vfob.step]))
|
|
vfob_grp.append(rs)
|
|
rs = RadioSetting("vfob.squelch", "VFO B Squelch",
|
|
RadioSettingValueList(
|
|
LIST_10, LIST_10[_vfob.squelch]))
|
|
vfob_grp.append(rs)
|
|
rs = RadioSetting("bcl_b", "Busy Channel Lock-out B",
|
|
RadioSettingValueBoolean(_settings.bcl_b))
|
|
vfob_grp.append(rs)
|
|
|
|
#
|
|
# Key Settings
|
|
#
|
|
_msg = str(_settings.dispstr).split("\0")[0]
|
|
val = RadioSettingValueString(0, 15, _msg)
|
|
val.set_mutable(True)
|
|
rs = RadioSetting("dispstr", "Display Message", val)
|
|
key_grp.append(rs)
|
|
|
|
dtmfchars = "0123456789"
|
|
_codeobj = _settings.ani_code
|
|
_code = "".join([dtmfchars[x] for x in _codeobj if int(x) < 0x0A])
|
|
val = RadioSettingValueString(3, 6, _code, False)
|
|
val.set_charset(dtmfchars)
|
|
rs = RadioSetting("ani_code", "ANI Code", val)
|
|
def apply_ani_id(setting, obj):
|
|
value = []
|
|
for j in range(0, 6):
|
|
try:
|
|
value.append(dtmfchars.index(str(setting.value)[j]))
|
|
except IndexError:
|
|
value.append(0xFF)
|
|
obj.ani_code = value
|
|
rs.set_apply_callback(apply_ani_id, _settings)
|
|
key_grp.append(rs)
|
|
|
|
rs = RadioSetting("pf1_func", "PF1 Key function",
|
|
RadioSettingValueList(
|
|
PF1KEY_LIST,
|
|
PF1KEY_LIST[_settings.pf1_func]))
|
|
key_grp.append(rs)
|
|
rs = RadioSetting("pf3_func", "PF3 Key function",
|
|
RadioSettingValueList(
|
|
PF3KEY_LIST,
|
|
PF3KEY_LIST[_settings.pf3_func]))
|
|
key_grp.append(rs)
|
|
|
|
#
|
|
# Limits settings
|
|
#
|
|
rs = RadioSetting("uhf_limits.rx_start", "UHF RX Lower Limit",
|
|
RadioSettingValueInteger(
|
|
self._uhf_range[0], self._uhf_range[1],
|
|
self._memobj.uhf_limits.rx_start * 10, 5000))
|
|
uhf_lmt_grp.append(rs)
|
|
rs = RadioSetting("uhf_limits.rx_stop", "UHF RX Upper Limit",
|
|
RadioSettingValueInteger(
|
|
self._uhf_range[0], self._uhf_range[1],
|
|
self._memobj.uhf_limits.rx_stop * 10, 5000))
|
|
uhf_lmt_grp.append(rs)
|
|
rs = RadioSetting("uhf_limits.tx_start", "UHF TX Lower Limit",
|
|
RadioSettingValueInteger(
|
|
self._uhf_range[0], self._uhf_range[1],
|
|
self._memobj.uhf_limits.tx_start * 10, 5000))
|
|
uhf_lmt_grp.append(rs)
|
|
rs = RadioSetting("uhf_limits.tx_stop", "UHF TX Upper Limit",
|
|
RadioSettingValueInteger(
|
|
self._uhf_range[0], self._uhf_range[1],
|
|
self._memobj.uhf_limits.tx_stop * 10, 5000))
|
|
uhf_lmt_grp.append(rs)
|
|
rs = RadioSetting("vhf_limits.rx_start", "VHF RX Lower Limit",
|
|
RadioSettingValueInteger(
|
|
self._vhf_range[0], self._vhf_range[1],
|
|
self._memobj.vhf_limits.rx_start * 10, 5000))
|
|
vhf_lmt_grp.append(rs)
|
|
rs = RadioSetting("vhf_limits.rx_stop", "VHF RX Upper Limit",
|
|
RadioSettingValueInteger(
|
|
self._vhf_range[0], self._vhf_range[1],
|
|
self._memobj.vhf_limits.rx_stop * 10, 5000))
|
|
vhf_lmt_grp.append(rs)
|
|
rs = RadioSetting("vhf_limits.tx_start", "VHF TX Lower Limit",
|
|
RadioSettingValueInteger(
|
|
self._vhf_range[0], self._vhf_range[1],
|
|
self._memobj.vhf_limits.tx_start * 10, 5000))
|
|
vhf_lmt_grp.append(rs)
|
|
rs = RadioSetting("vhf_limits.tx_stop", "VHF TX Upper Limit",
|
|
RadioSettingValueInteger(
|
|
self._vhf_range[0], self._vhf_range[1],
|
|
self._memobj.vhf_limits.tx_stop * 10, 5000))
|
|
vhf_lmt_grp.append(rs)
|
|
|
|
# KG-UV8E 1.25m band
|
|
if (self.MODEL == "KG-UV8E"):
|
|
rs = RadioSetting("vhf1_limits.rx_start", "VHF1 RX Lower Limit",
|
|
RadioSettingValueInteger(
|
|
self._vhf1_range[0], self._vhf1_range[1],
|
|
self._memobj.vhf1_limits.rx_start * 10, 5000))
|
|
vhf1_lmt_grp.append(rs)
|
|
rs = RadioSetting("vhf1_limits.rx_stop", "VHF1 RX Upper Limit",
|
|
RadioSettingValueInteger(
|
|
self._vhf1_range[0], self._vhf1_range[1],
|
|
self._memobj.vhf1_limits.rx_stop * 10, 5000))
|
|
vhf1_lmt_grp.append(rs)
|
|
rs = RadioSetting("vhf1_limits.tx_start", "VHF1 TX Lower Limit",
|
|
RadioSettingValueInteger(
|
|
self._vhf1_range[0], self._vhf1_range[1],
|
|
self._memobj.vhf1_limits.tx_start * 10, 5000))
|
|
vhf1_lmt_grp.append(rs)
|
|
rs = RadioSetting("vhf1_limits.tx_stop", "VHF1 TX Upper Limit",
|
|
RadioSettingValueInteger(
|
|
self._vhf1_range[0], self._vhf1_range[1],
|
|
self._memobj.vhf1_limits.tx_stop * 10, 5000))
|
|
vhf1_lmt_grp.append(rs)
|
|
|
|
|
|
#
|
|
# OEM info
|
|
#
|
|
def _decode(lst):
|
|
_str = ''.join([chr(c) for c in lst
|
|
if chr(c) in chirp_common.CHARSET_ASCII])
|
|
return _str
|
|
|
|
def do_nothing(setting, obj):
|
|
return
|
|
|
|
_str = _decode(self._memobj.oem_info.model)
|
|
val = RadioSettingValueString(0, 15, _str)
|
|
val.set_mutable(False)
|
|
rs = RadioSetting("oem_info.model", "Model", val)
|
|
rs.set_apply_callback(do_nothing, _settings)
|
|
oem_grp.append(rs)
|
|
_str = _decode(self._memobj.oem_info.oem1)
|
|
val = RadioSettingValueString(0, 15, _str)
|
|
val.set_mutable(False)
|
|
rs = RadioSetting("oem_info.oem1", "OEM String 1", val)
|
|
rs.set_apply_callback(do_nothing, _settings)
|
|
oem_grp.append(rs)
|
|
_str = _decode(self._memobj.oem_info.oem2)
|
|
val = RadioSettingValueString(0, 15, _str)
|
|
val.set_mutable(False)
|
|
rs = RadioSetting("oem_info.oem2", "OEM String 2", val)
|
|
rs.set_apply_callback(do_nothing, _settings)
|
|
oem_grp.append(rs)
|
|
_str = _decode(self._memobj.oem_info.version)
|
|
val = RadioSettingValueString(0, 15, _str)
|
|
val.set_mutable(False)
|
|
rs = RadioSetting("oem_info.version", "Software Version", val)
|
|
rs.set_apply_callback(do_nothing, _settings)
|
|
oem_grp.append(rs)
|
|
_str = _decode(self._memobj.oem_info.date)
|
|
val = RadioSettingValueString(0, 15, _str)
|
|
val.set_mutable(False)
|
|
rs = RadioSetting("oem_info.date", "OEM Date", val)
|
|
rs.set_apply_callback(do_nothing, _settings)
|
|
oem_grp.append(rs)
|
|
|
|
return group
|
|
|
|
def get_settings(self):
|
|
try:
|
|
return self._get_settings()
|
|
except:
|
|
import traceback
|
|
LOG.error("Failed to parse settings: %s", traceback.format_exc())
|
|
return None
|
|
|
|
def set_settings(self, settings):
|
|
for element in settings:
|
|
if not isinstance(element, RadioSetting):
|
|
self.set_settings(element)
|
|
continue
|
|
else:
|
|
try:
|
|
if "." in element.get_name():
|
|
bits = element.get_name().split(".")
|
|
obj = self._memobj
|
|
for bit in bits[:-1]:
|
|
obj = getattr(obj, bit)
|
|
setting = bits[-1]
|
|
else:
|
|
obj = self._memobj.settings
|
|
setting = element.get_name()
|
|
|
|
if element.has_apply_callback():
|
|
LOG.debug("Using apply callback")
|
|
element.run_apply_callback()
|
|
else:
|
|
LOG.debug("Setting %s = %s" % (setting, element.value))
|
|
if self._is_freq(element):
|
|
setattr(obj, setting, int(element.value)/10)
|
|
else:
|
|
setattr(obj, setting, element.value)
|
|
except Exception, e:
|
|
LOG.debug(element.get_name())
|
|
raise
|
|
|
|
def _is_freq(self, element):
|
|
return "rxfreq" in element.get_name() or "txoffset" in element.get_name() or "rx_start" in element.get_name() or "rx_stop" in element.get_name() or "tx_start" in element.get_name() or "tx_stop" in element.get_name()
|
|
|
|
|
|
@directory.register
|
|
class KGUV8DPlusRadio(KGUV8crypt):
|
|
"""Wouxun KG-UV8D Plus"""
|
|
MODEL = "KG-UV8D Plus"
|
|
_model = "KG-UV8D" # TODO need to use full 10 chars of the ident
|
|
# string to distinct from the UV8E
|
|
_file_ident = "kguv8dplus" # kg + "UV8D(Plus)"
|
|
_START_CMD = '\x7a'
|
|
|
|
|
|
# Powerwerx Version of the KG-UV8E
|
|
class KGUV8T(chirp_common.Alias):
|
|
VENDOR = "Wouxun"
|
|
MODEL = "KG-UV8T"
|
|
|
|
|
|
@directory.register
|
|
class KGUV8E(KGUV8crypt):
|
|
"""Wouxun KG-UV8E"""
|
|
MODEL = "KG-UV8E"
|
|
_model = "KG-UV8D-A\x00" # full 10 chars
|
|
_file_ident = "kguv8e3txv" # kg + "UV8E(3TX)V" actually the ending V is
|
|
# from the Soft version but to KISS we
|
|
# let it here
|
|
_START_CMD = '\x7b'
|
|
_vhf1_range = (220000000, 265000000) # supports 1.25m
|
|
ALIASES = [KGUV8T, ]
|