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# Copyright 2021 Jim Unroe <rock.unroe@gmail.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 time
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import os
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import struct
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import logging
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from chirp import (
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bitwise,
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chirp_common,
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directory,
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errors,
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memmap,
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util,
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)
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from chirp.settings import (
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RadioSetting,
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RadioSettingGroup,
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RadioSettings,
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RadioSettingValueBoolean,
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RadioSettingValueFloat,
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RadioSettingValueInteger,
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RadioSettingValueList,
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RadioSettingValueString,
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)
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LOG = logging.getLogger(__name__)
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MEM_FORMAT = """
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#seekto 0x0000;
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struct {
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lbcd rxfreq[4]; // RX Frequency
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lbcd txfreq[4]; // TX Frequency
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u8 rx_tmode; // RX Tone Mode
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u8 rx_tone; // PL/DPL Decode
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u8 tx_tmode; // TX Tone Mode
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u8 tx_tone; // PL/DPL Encode
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u8 unknown1:3, //
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skip:1, // Scan Add: 1 = Skip, 0 = Scan
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unknown2:2,
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isnarrow:1, // W/N: 1 = Narrow, 0 = Wide
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lowpower:1; // TX Power: 1 = Low, 0 = High
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u8 unknown3[3]; //
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} memory[%d];
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#seekto 0x0630;
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struct {
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u8 squelch; // SQL
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u8 vox; // Vox Lv
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u8 tot; // TOT
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u8 unk1:3, //
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ste:1, // Tail Clear
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bcl:1, // BCL
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save:1, // Save
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tdr:1, // TDR
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beep:1; // Beep
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u8 voice; // Voice
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u8 abr; // Back Light
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u8 ring; // Ring
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u8 unknown; //
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u8 mra; // MR Channel A
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u8 mrb; // MR Channel B
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u8 disp_ab; // Display A/B Selected
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ul16 fmcur; // Broadcast FM station
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u8 workmode; // Work Mode
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u8 wx; // NOAA WX ch#
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u8 area; // Area Selected
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} settings;
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#seekto 0x0D00;
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struct {
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char name[6];
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u8 unknown1[2];
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} names[%d];
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"""
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CMD_ACK = "\x06"
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TONES = chirp_common.TONES
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TMODES = ["", "Tone", "DTCS", "DTCS"]
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AB_LIST = ["A", "B"]
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ABR_LIST = ["OFF", "ON", "Key"]
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AREA_LIST = ["China", "Japan", "Korea", "Malaysia", "American",
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"Australia", "Iran", "Taiwan", "Europe", "Russia"]
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MDF_LIST = ["Frequency", "Channel #", "Name"]
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RING_LIST = ["OFF"] + ["%s" % x for x in range(1, 11)]
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TOT_LIST = ["OFF"] + ["%s seconds" % x for x in range(30, 210, 30)]
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TOT2_LIST = TOT_LIST[1:]
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VOICE_LIST = ["Off", "Chinese", "English"]
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VOX_LIST = ["OFF"] + ["%s" % x for x in range(1, 6)]
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WORKMODE_LIST = ["General", "PMR"]
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WX_LIST = ["CH01 - 162.550",
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"CH02 - 162.400",
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"CH03 - 162.475",
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"CH04 - 162.425",
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"CH05 - 162.450",
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"CH06 - 162.500",
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"CH07 - 162.525"
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]
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SETTING_LISTS = {
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"ab": AB_LIST,
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"abr": ABR_LIST,
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"area": AREA_LIST,
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"mdf": MDF_LIST,
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"ring": RING_LIST,
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"tot": TOT_LIST,
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"tot": TOT2_LIST,
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"voice": VOICE_LIST,
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"vox": VOX_LIST,
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"workmode": WORKMODE_LIST,
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"wx": WX_LIST,
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}
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FRS_FREQS1 = [462.5625, 462.5875, 462.6125, 462.6375, 462.6625,
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462.6875, 462.7125]
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FRS_FREQS2 = [467.5625, 467.5875, 467.6125, 467.6375, 467.6625,
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467.6875, 467.7125]
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FRS_FREQS3 = [462.5500, 462.5750, 462.6000, 462.6250, 462.6500,
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462.6750, 462.7000, 462.7250]
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FRS_FREQS = FRS_FREQS1 + FRS_FREQS2 + FRS_FREQS3
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def _enter_programming_mode(radio):
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serial = radio.pipe
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exito = False
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for i in range(0, 5):
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serial.write(radio._magic)
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ack = serial.read(1)
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try:
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if ack == CMD_ACK:
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exito = True
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break
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except:
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LOG.debug("Attempt #%s, failed, trying again" % i)
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pass
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# check if we had EXITO
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if exito is False:
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_exit_programming_mode(radio)
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msg = "The radio did not accept program mode after five tries.\n"
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msg += "Check you interface cable and power cycle your radio."
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raise errors.RadioError(msg)
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try:
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serial.write("\x02")
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ident = serial.read(len(radio._fingerprint))
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except:
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_exit_programming_mode(radio)
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raise errors.RadioError("Error communicating with radio")
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if not ident == radio._fingerprint:
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_exit_programming_mode(radio)
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LOG.debug(util.hexprint(ident))
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raise errors.RadioError("Radio returned unknown identification string")
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try:
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serial.write(CMD_ACK)
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ack = serial.read(1)
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except:
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_exit_programming_mode(radio)
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raise errors.RadioError("Error communicating with radio")
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if ack != CMD_ACK:
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_exit_programming_mode(radio)
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raise errors.RadioError("Radio refused to enter programming mode")
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def _exit_programming_mode(radio):
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serial = radio.pipe
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try:
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serial.write("E")
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except:
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raise errors.RadioError("Radio refused to exit programming mode")
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def _read_block(radio, block_addr, block_size):
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serial = radio.pipe
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cmd = struct.pack(">cHb", 'R', block_addr, block_size)
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expectedresponse = "W" + cmd[1:]
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LOG.debug("Reading block %04x..." % (block_addr))
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try:
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serial.write(cmd)
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response = serial.read(4 + block_size)
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if response[:4] != expectedresponse:
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raise Exception("Error reading block %04x." % (block_addr))
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block_data = response[4:]
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serial.write(CMD_ACK)
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ack = serial.read(1)
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except:
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_exit_programming_mode(radio)
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raise errors.RadioError("Failed to read block at %04x" % block_addr)
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if ack != CMD_ACK:
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_exit_programming_mode(radio)
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raise Exception("No ACK reading block %04x." % (block_addr))
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return block_data
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def _write_block(radio, block_addr, block_size):
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serial = radio.pipe
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cmd = struct.pack(">cHb", 'W', block_addr, block_size)
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data = radio.get_mmap()[block_addr:block_addr + block_size]
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LOG.debug("Writing Data:")
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LOG.debug(util.hexprint(cmd + data))
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try:
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serial.write(cmd + data)
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if serial.read(1) != CMD_ACK:
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raise Exception("No ACK")
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except:
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_exit_programming_mode(radio)
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raise errors.RadioError("Failed to send block "
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"to radio at %04x" % block_addr)
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def do_download(radio):
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LOG.debug("download")
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_enter_programming_mode(radio)
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data = ""
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status = chirp_common.Status()
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status.msg = "Cloning from radio"
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status.cur = 0
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status.max = radio._memsize
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for addr in range(0, radio._memsize, radio.BLOCK_SIZE):
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status.cur = addr + radio.BLOCK_SIZE
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radio.status_fn(status)
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block = _read_block(radio, addr, radio.BLOCK_SIZE)
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data += block
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LOG.debug("Address: %04x" % addr)
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LOG.debug(util.hexprint(block))
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_exit_programming_mode(radio)
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return memmap.MemoryMap(data)
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def do_upload(radio):
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status = chirp_common.Status()
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status.msg = "Uploading to radio"
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_enter_programming_mode(radio)
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status.cur = 0
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status.max = radio._memsize
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for start_addr, end_addr in radio._ranges:
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for addr in range(start_addr, end_addr, radio.BLOCK_SIZE_UP):
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status.cur = addr + radio.BLOCK_SIZE_UP
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radio.status_fn(status)
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_write_block(radio, addr, radio.BLOCK_SIZE_UP)
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_exit_programming_mode(radio)
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class BFT8Radio(chirp_common.CloneModeRadio):
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"""Baofeng BF-T8"""
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VENDOR = "Baofeng"
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MODEL = "BF-T8"
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BAUD_RATE = 9600
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BLOCK_SIZE = BLOCK_SIZE_UP = 0x10
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ODD_SPLIT = True
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HAS_NAMES = False
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NAME_LENGTH = 0
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VALID_CHARS = []
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CH_OFFSET = False
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SKIP_VALUES = []
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DTCS_CODES = sorted(chirp_common.DTCS_CODES)
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POWER_LEVELS = [chirp_common.PowerLevel("High", watts=2.00),
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chirp_common.PowerLevel("Low", watts=0.50)]
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VALID_BANDS = [(400000000, 470000000)]
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_magic = "\x02" + "PROGRAM"
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_fingerprint = "\x2E" + "BF-T6" + "\x2E"
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_upper = 99
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_mem_params = (_upper, # number of channels
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_upper # number of names
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)
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_frs = False
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_ranges = [
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(0x0000, 0x0B60),
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]
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_memsize = 0x0B60
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def get_features(self):
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rf = chirp_common.RadioFeatures()
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rf.has_settings = True
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rf.has_bank = False
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rf.has_ctone = True
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rf.has_cross = True
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rf.has_rx_dtcs = True
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rf.has_tuning_step = False
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rf.has_name = self.HAS_NAMES
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rf.can_odd_split = self.ODD_SPLIT
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rf.valid_name_length = self.NAME_LENGTH
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rf.valid_characters = self.VALID_CHARS
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rf.valid_skips = self.SKIP_VALUES
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rf.valid_tmodes = ["", "Tone", "TSQL", "DTCS", "Cross"]
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rf.valid_cross_modes = ["Tone->Tone", "Tone->DTCS", "DTCS->Tone",
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"->Tone", "->DTCS", "DTCS->", "DTCS->DTCS"]
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rf.valid_dtcs_codes = self.DTCS_CODES
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rf.valid_power_levels = self.POWER_LEVELS
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rf.valid_duplexes = ["", "-", "+", "split", "off"]
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rf.valid_modes = ["FM", "NFM"] # 25 kHz, 12.5 KHz.
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rf.memory_bounds = (1, self._upper)
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rf.valid_tuning_steps = [2.5, 5., 6.25, 10., 12.5, 25.]
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rf.valid_bands = self.VALID_BANDS
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return rf
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def process_mmap(self):
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self._memobj = bitwise.parse(MEM_FORMAT % self._mem_params, self._mmap)
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def validate_memory(self, mem):
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msgs = ""
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msgs = chirp_common.CloneModeRadio.validate_memory(self, mem)
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_msg_freq = 'Memory location cannot change frequency'
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_msg_simplex = 'Memory location only supports Duplex:(None)'
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_msg_nfm = 'Memory location only supports Mode: NFM'
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_msg_txp = 'Memory location only supports Power: Low'
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# FRS only models
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if self._frs:
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# range of memories with values set by FCC rules
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if mem.freq != int(FRS_FREQS[mem.number - 1] * 1000000):
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# warn user can't change frequency
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msgs.append(chirp_common.ValidationError(_msg_freq))
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# channels 1 - 22 are simplex only
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if str(mem.duplex) != "":
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# warn user can't change duplex
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msgs.append(chirp_common.ValidationError(_msg_simplex))
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# channels 1 - 22 are NFM only
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if str(mem.mode) != "NFM":
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# warn user can't change mode
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msgs.append(chirp_common.ValidationError(_msg_nfm))
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# channels 8 - 14 are low power only
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if mem.number >= 8 and mem.number <= 14:
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if str(mem.power) != "Low":
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# warn user can't change power
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msgs.append(chirp_common.ValidationError(_msg_txp))
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return msgs
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def sync_in(self):
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"""Download from radio"""
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try:
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data = do_download(self)
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except errors.RadioError:
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# Pass through any real errors we raise
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raise
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except:
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# If anything unexpected happens, make sure we raise
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# a RadioError and log the problem
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LOG.exception('Unexpected error during download')
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raise errors.RadioError('Unexpected error communicating '
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'with the radio')
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self._mmap = data
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self.process_mmap()
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394
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|
395
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def sync_out(self):
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396
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"""Upload to radio"""
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397
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try:
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do_upload(self)
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except:
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400
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# If anything unexpected happens, make sure we raise
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401
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# a RadioError and log the problem
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LOG.exception('Unexpected error during upload')
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raise errors.RadioError('Unexpected error communicating '
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'with the radio')
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def get_raw_memory(self, number):
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return repr(self._memobj.memory[number - 1])
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def _get_tone(self, mem, _mem):
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410
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rx_tone = tx_tone = None
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411
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tx_tmode = TMODES[_mem.tx_tmode]
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rx_tmode = TMODES[_mem.rx_tmode]
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414
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if tx_tmode == "Tone":
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tx_tone = TONES[_mem.tx_tone]
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417
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elif tx_tmode == "DTCS":
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tx_tone = self.DTCS_CODES[_mem.tx_tone]
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419
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420
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if rx_tmode == "Tone":
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rx_tone = TONES[_mem.rx_tone]
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422
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elif rx_tmode == "DTCS":
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rx_tone = self.DTCS_CODES[_mem.rx_tone]
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424
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|
425
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tx_pol = _mem.tx_tmode == 0x03 and "R" or "N"
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426
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rx_pol = _mem.rx_tmode == 0x03 and "R" or "N"
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427
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428
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chirp_common.split_tone_decode(mem, (tx_tmode, tx_tone, tx_pol),
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429
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(rx_tmode, rx_tone, rx_pol))
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430
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431
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def _get_mem(self, number):
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432
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return self._memobj.memory[number - 1]
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433
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|
434
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def _get_nam(self, number):
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435
|
return self._memobj.names[number - 1]
|
436
|
|
437
|
def get_memory(self, number):
|
438
|
_mem = self._get_mem(number)
|
439
|
if self.HAS_NAMES:
|
440
|
_nam = self._get_nam(number)
|
441
|
|
442
|
mem = chirp_common.Memory()
|
443
|
|
444
|
mem.number = number
|
445
|
mem.freq = int(_mem.rxfreq) * 10
|
446
|
|
447
|
# We'll consider any blank (i.e. 0MHz frequency) to be empty
|
448
|
if mem.freq == 0:
|
449
|
mem.empty = True
|
450
|
return mem
|
451
|
|
452
|
if _mem.rxfreq.get_raw() == "\xFF\xFF\xFF\xFF":
|
453
|
mem.freq = 0
|
454
|
mem.empty = True
|
455
|
return mem
|
456
|
|
457
|
if _mem.get_raw() == ("\xFF" * 16):
|
458
|
LOG.debug("Initializing empty memory")
|
459
|
_mem.set_raw("\x00" * 13 + "\xFF" * 3)
|
460
|
|
461
|
if int(_mem.rxfreq) == int(_mem.txfreq):
|
462
|
mem.duplex = ""
|
463
|
mem.offset = 0
|
464
|
else:
|
465
|
mem.duplex = int(_mem.rxfreq) > int(_mem.txfreq) and "-" or "+"
|
466
|
mem.offset = abs(int(_mem.rxfreq) - int(_mem.txfreq)) * 10
|
467
|
|
468
|
# wide/narrow
|
469
|
mem.mode = _mem.isnarrow and "NFM" or "FM"
|
470
|
|
471
|
mem.skip = _mem.skip and "S" or ""
|
472
|
|
473
|
if self.HAS_NAMES:
|
474
|
for char in _nam.name:
|
475
|
if str(char) == "\xFF":
|
476
|
char = " " # The OEM software may have 0xFF mid-name
|
477
|
mem.name += str(char)
|
478
|
mem.name = mem.name.rstrip()
|
479
|
|
480
|
# tone data
|
481
|
self._get_tone(mem, _mem)
|
482
|
|
483
|
# tx power
|
484
|
levels = self.POWER_LEVELS
|
485
|
try:
|
486
|
mem.power = levels[_mem.lowpower]
|
487
|
except IndexError:
|
488
|
LOG.error("Radio reported invalid power level %s (in %s)" %
|
489
|
(_mem.lowpower, levels))
|
490
|
mem.power = levels[0]
|
491
|
|
492
|
if mem.number <= 22 and self._frs:
|
493
|
FRS_IMMUTABLE = ["freq", "duplex", "offset", "mode"]
|
494
|
if mem.number >= 8 and mem.number <= 14:
|
495
|
mem.immutable = FRS_IMMUTABLE + ["power"]
|
496
|
else:
|
497
|
mem.immutable = FRS_IMMUTABLE
|
498
|
|
499
|
return mem
|
500
|
|
501
|
def _set_tone(self, mem, _mem):
|
502
|
((txmode, txtone, txpol),
|
503
|
(rxmode, rxtone, rxpol)) = chirp_common.split_tone_encode(mem)
|
504
|
|
505
|
_mem.tx_tmode = TMODES.index(txmode)
|
506
|
_mem.rx_tmode = TMODES.index(rxmode)
|
507
|
if txmode == "Tone":
|
508
|
_mem.tx_tone = TONES.index(txtone)
|
509
|
elif txmode == "DTCS":
|
510
|
_mem.tx_tmode = txpol == "R" and 0x03 or 0x02
|
511
|
_mem.tx_tone = self.DTCS_CODES.index(txtone)
|
512
|
if rxmode == "Tone":
|
513
|
_mem.rx_tone = TONES.index(rxtone)
|
514
|
elif rxmode == "DTCS":
|
515
|
_mem.rx_tmode = rxpol == "R" and 0x03 or 0x02
|
516
|
_mem.rx_tone = self.DTCS_CODES.index(rxtone)
|
517
|
|
518
|
def _set_mem(self, number):
|
519
|
return self._memobj.memory[number - 1]
|
520
|
|
521
|
def _set_nam(self, number):
|
522
|
return self._memobj.names[number - 1]
|
523
|
|
524
|
def set_memory(self, mem):
|
525
|
_mem = self._set_mem(mem.number)
|
526
|
if self.HAS_NAMES:
|
527
|
_nam = self._set_nam(mem.number)
|
528
|
|
529
|
# if empty memmory
|
530
|
if mem.empty:
|
531
|
if self.HAS_NAMES:
|
532
|
for i in range(0, self.NAME_LENGTH):
|
533
|
_nam.name[i].set_raw("\xFF")
|
534
|
if self._frs:
|
535
|
if mem.number <= 22:
|
536
|
_mem.set_raw("\xFF" * 8 + "\x00" * 5 + "\xFF" * 3)
|
537
|
FRS_FREQ = int(FRS_FREQS[mem.number - 1] * 100000)
|
538
|
_mem.rxfreq = _mem.txfreq = FRS_FREQ
|
539
|
_mem.isnarrow = True
|
540
|
if mem.number >= 8 and mem.number <= 14:
|
541
|
_mem.lowpower = True
|
542
|
else:
|
543
|
_mem.lowpower = False
|
544
|
else:
|
545
|
_mem.set_raw("\xff" * 16)
|
546
|
else:
|
547
|
_mem.set_raw("\xFF" * 8 + "\x00" * 4 + "\x03" + "\xFF" * 3)
|
548
|
|
549
|
return mem
|
550
|
|
551
|
_mem.set_raw("\x00" * 13 + "\xFF" * 3)
|
552
|
|
553
|
# frequency
|
554
|
_mem.rxfreq = mem.freq / 10
|
555
|
|
556
|
if mem.duplex == "off":
|
557
|
for i in range(0, 4):
|
558
|
_mem.txfreq[i].set_raw("\xFF")
|
559
|
elif mem.duplex == "split":
|
560
|
_mem.txfreq = mem.offset / 10
|
561
|
elif mem.duplex == "+":
|
562
|
_mem.txfreq = (mem.freq + mem.offset) / 10
|
563
|
elif mem.duplex == "-":
|
564
|
_mem.txfreq = (mem.freq - mem.offset) / 10
|
565
|
else:
|
566
|
_mem.txfreq = mem.freq / 10
|
567
|
|
568
|
# wide/narrow
|
569
|
_mem.isnarrow = mem.mode == "NFM"
|
570
|
|
571
|
_mem.skip = mem.skip == "S"
|
572
|
|
573
|
if self.HAS_NAMES:
|
574
|
for i in range(self.NAME_LENGTH):
|
575
|
try:
|
576
|
_nam.name[i] = mem.name[i]
|
577
|
except IndexError:
|
578
|
_nam.name[i] = "\xFF"
|
579
|
|
580
|
# tone data
|
581
|
self._set_tone(mem, _mem)
|
582
|
|
583
|
# tx power
|
584
|
if mem.power:
|
585
|
_mem.lowpower = self.POWER_LEVELS.index(mem.power)
|
586
|
else:
|
587
|
_mem.lowpower = 0
|
588
|
|
589
|
return mem
|
590
|
|
591
|
def get_settings(self):
|
592
|
_settings = self._memobj.settings
|
593
|
basic = RadioSettingGroup("basic", "Basic Settings")
|
594
|
top = RadioSettings(basic)
|
595
|
|
596
|
# Menu 03
|
597
|
rs = RadioSettingValueInteger(0, 9, _settings.squelch)
|
598
|
rset = RadioSetting("squelch", "Squelch Level", rs)
|
599
|
basic.append(rset)
|
600
|
|
601
|
model_list = ["RB27B", ]
|
602
|
if self.MODEL in model_list:
|
603
|
# Menu 09 (RB27x)
|
604
|
rs = RadioSettingValueList(TOT2_LIST, TOT2_LIST[_settings.tot])
|
605
|
else:
|
606
|
# Menu 11
|
607
|
rs = RadioSettingValueList(TOT_LIST, TOT_LIST[_settings.tot])
|
608
|
rset = RadioSetting("tot", "Time-out timer", rs)
|
609
|
basic.append(rset)
|
610
|
|
611
|
# Menu 06
|
612
|
rs = RadioSettingValueList(VOX_LIST, VOX_LIST[_settings.vox])
|
613
|
rset = RadioSetting("vox", "VOX Level", rs)
|
614
|
basic.append(rset)
|
615
|
|
616
|
# Menu 15 (BF-T8) / 12 (RB-27/RB627)
|
617
|
rs = RadioSettingValueList(VOICE_LIST, VOICE_LIST[_settings.voice])
|
618
|
rset = RadioSetting("voice", "Voice", rs)
|
619
|
basic.append(rset)
|
620
|
|
621
|
# Menu 12
|
622
|
rs = RadioSettingValueBoolean(_settings.bcl)
|
623
|
rset = RadioSetting("bcl", "Busy Channel Lockout", rs)
|
624
|
basic.append(rset)
|
625
|
|
626
|
# Menu 10 / 08 (RB27/RB627)
|
627
|
rs = RadioSettingValueBoolean(_settings.save)
|
628
|
rset = RadioSetting("save", "Battery Saver", rs)
|
629
|
basic.append(rset)
|
630
|
|
631
|
# Menu 08 / 07 (RB-27/RB627)
|
632
|
rs = RadioSettingValueBoolean(_settings.tdr)
|
633
|
rset = RadioSetting("tdr", "Dual Watch", rs)
|
634
|
basic.append(rset)
|
635
|
|
636
|
# Menu 05
|
637
|
rs = RadioSettingValueBoolean(_settings.beep)
|
638
|
rset = RadioSetting("beep", "Beep", rs)
|
639
|
basic.append(rset)
|
640
|
|
641
|
# Menu 04
|
642
|
rs = RadioSettingValueList(ABR_LIST, ABR_LIST[_settings.abr])
|
643
|
rset = RadioSetting("abr", "Back Light", rs)
|
644
|
basic.append(rset)
|
645
|
|
646
|
# Menu 13 / 11 (RB-27/RB627)
|
647
|
rs = RadioSettingValueList(RING_LIST, RING_LIST[_settings.ring])
|
648
|
rset = RadioSetting("ring", "Ring", rs)
|
649
|
basic.append(rset)
|
650
|
|
651
|
rs = RadioSettingValueBoolean(not _settings.ste)
|
652
|
rset = RadioSetting("ste", "Squelch Tail Eliminate", rs)
|
653
|
basic.append(rset)
|
654
|
|
655
|
#
|
656
|
|
657
|
if self.CH_OFFSET:
|
658
|
rs = RadioSettingValueInteger(1, self._upper, _settings.mra + 1)
|
659
|
else:
|
660
|
rs = RadioSettingValueInteger(1, self._upper, _settings.mra)
|
661
|
rset = RadioSetting("mra", "MR A Channel #", rs)
|
662
|
basic.append(rset)
|
663
|
|
664
|
if self.CH_OFFSET:
|
665
|
rs = RadioSettingValueInteger(1, self._upper, _settings.mrb + 1)
|
666
|
else:
|
667
|
rs = RadioSettingValueInteger(1, self._upper, _settings.mrb)
|
668
|
rset = RadioSetting("mrb", "MR B Channel #", rs)
|
669
|
basic.append(rset)
|
670
|
|
671
|
rs = RadioSettingValueList(AB_LIST, AB_LIST[_settings.disp_ab])
|
672
|
rset = RadioSetting("disp_ab", "Selected Display Line", rs)
|
673
|
basic.append(rset)
|
674
|
|
675
|
rs = RadioSettingValueList(WX_LIST, WX_LIST[_settings.wx])
|
676
|
rset = RadioSetting("wx", "NOAA WX Radio", rs)
|
677
|
basic.append(rset)
|
678
|
|
679
|
def myset_freq(setting, obj, atrb, mult):
|
680
|
""" Callback to set frequency by applying multiplier"""
|
681
|
value = int(float(str(setting.value)) * mult)
|
682
|
setattr(obj, atrb, value)
|
683
|
return
|
684
|
|
685
|
# FM Broadcast Settings
|
686
|
val = _settings.fmcur
|
687
|
val = val / 10.0
|
688
|
val_low = 76.0
|
689
|
if val < val_low or val > 108.0:
|
690
|
val = 90.4
|
691
|
rx = RadioSettingValueFloat(val_low, 108.0, val, 0.1, 1)
|
692
|
rset = RadioSetting("settings.fmcur", "Broadcast FM Radio (MHz)", rx)
|
693
|
rset.set_apply_callback(myset_freq, _settings, "fmcur", 10)
|
694
|
basic.append(rset)
|
695
|
|
696
|
model_list = ["BF-T8", "BF-U9", "AR-8"]
|
697
|
if self.MODEL in model_list:
|
698
|
rs = RadioSettingValueList(WORKMODE_LIST,
|
699
|
WORKMODE_LIST[_settings.workmode])
|
700
|
rset = RadioSetting("workmode", "Work Mode", rs)
|
701
|
basic.append(rset)
|
702
|
|
703
|
rs = RadioSettingValueList(AREA_LIST, AREA_LIST[_settings.area])
|
704
|
rs.set_mutable(False)
|
705
|
rset = RadioSetting("area", "Area", rs)
|
706
|
basic.append(rset)
|
707
|
|
708
|
return top
|
709
|
|
710
|
def set_settings(self, settings):
|
711
|
for element in settings:
|
712
|
if not isinstance(element, RadioSetting):
|
713
|
self.set_settings(element)
|
714
|
continue
|
715
|
else:
|
716
|
try:
|
717
|
if "." in element.get_name():
|
718
|
bits = element.get_name().split(".")
|
719
|
obj = self._memobj
|
720
|
for bit in bits[:-1]:
|
721
|
obj = getattr(obj, bit)
|
722
|
setting = bits[-1]
|
723
|
else:
|
724
|
obj = self._memobj.settings
|
725
|
setting = element.get_name()
|
726
|
|
727
|
if element.has_apply_callback():
|
728
|
LOG.debug("Using apply callback")
|
729
|
element.run_apply_callback()
|
730
|
elif setting == "mra" and self.CH_OFFSET:
|
731
|
setattr(obj, setting, int(element.value) - 1)
|
732
|
elif setting == "mrb" and self.CH_OFFSET:
|
733
|
setattr(obj, setting, int(element.value) - 1)
|
734
|
elif setting == "ste":
|
735
|
setattr(obj, setting, not int(element.value))
|
736
|
elif element.value.get_mutable():
|
737
|
LOG.debug("Setting %s = %s" % (setting, element.value))
|
738
|
setattr(obj, setting, element.value)
|
739
|
except Exception, e:
|
740
|
LOG.debug(element.get_name())
|
741
|
raise
|
742
|
|
743
|
@classmethod
|
744
|
def match_model(cls, filedata, filename):
|
745
|
# This radio has always been post-metadata, so never do
|
746
|
# old-school detection
|
747
|
return False
|
748
|
|
749
|
|
750
|
class BFU9Alias(chirp_common.Alias):
|
751
|
VENDOR = "Baofeng"
|
752
|
MODEL = "BF-U9"
|
753
|
|
754
|
|
755
|
class AR8Alias(chirp_common.Alias):
|
756
|
VENDOR = "Arcshell"
|
757
|
MODEL = "AR-8"
|
758
|
|
759
|
|
760
|
@directory.register
|
761
|
class BaofengBFT8Generic(BFT8Radio):
|
762
|
ALIASES = [BFU9Alias, AR8Alias, ]
|
763
|
|
764
|
|
765
|
@directory.register
|
766
|
class RetevisRT16(BFT8Radio):
|
767
|
VENDOR = "Retevis"
|
768
|
MODEL = "RT16"
|
769
|
|
770
|
_upper = 22
|
771
|
_frs = True
|
772
|
|
773
|
|
774
|
@directory.register
|
775
|
class RetevisRT27B(BFT8Radio):
|
776
|
VENDOR = "Retevis"
|
777
|
MODEL = "RB27B"
|
778
|
DTCS_CODES = sorted(chirp_common.DTCS_CODES + [645])
|
779
|
HAS_NAMES = True
|
780
|
NAME_LENGTH = 6
|
781
|
VALID_CHARS = chirp_common.CHARSET_UPPER_NUMERIC + "-"
|
782
|
CH_OFFSET = True
|
783
|
SKIP_VALUES = ["", "S"]
|
784
|
POWER_LEVELS = [chirp_common.PowerLevel("High", watts=2.00),
|
785
|
chirp_common.PowerLevel("Low", watts=0.50)]
|
786
|
VALID_BANDS = [(400000000, 520000000)]
|
787
|
|
788
|
_upper = 22
|
789
|
_frs = True
|
790
|
|
791
|
_ranges = [
|
792
|
(0x0000, 0x0640),
|
793
|
(0x0D00, 0x1040),
|
794
|
]
|
795
|
_memsize = 0x1040
|