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# Copyright 2023:
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# * Sander van der Wel, <svdwel@icloud.com>
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# this software is a modified version of the boafeng driver by:
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# * Jim Unroe KC9HI, <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 logging
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from chirp import chirp_common, directory, memmap
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from chirp import bitwise
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from chirp.settings import RadioSettingGroup, RadioSetting, \
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RadioSettingValueBoolean, RadioSettingValueList, \
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RadioSettingValueString, RadioSettingValueInteger, \
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RadioSettingValueFloat, RadioSettings, \
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InvalidValueError, RadioSettingValue
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import time
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import struct
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import logging
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from chirp import errors, util
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LOG = logging.getLogger(__name__)
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# #### MAGICS #########################################################
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# Baofeng UV-17L magic string
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MSTRING_UV17L = b"PROGRAMBFNORMALU"
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MSTRING_UV17PROGPS = b"PROGRAMCOLORPROU"
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DTMF_CHARS = "0123456789 *#ABCD"
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STEPS = [2.5, 5.0, 6.25, 10.0, 12.5, 20.0, 25.0, 50.0]
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LIST_AB = ["A", "B"]
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LIST_ALMOD = ["Site", "Tone", "Code"]
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LIST_BANDWIDTH = ["Wide", "Narrow"]
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LIST_COLOR = ["Off", "Blue", "Orange", "Purple"]
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LIST_DTMFSPEED = ["%s ms" % x for x in [50, 100, 200, 300, 500]]
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LIST_HANGUPTIME = ["%s s" % x for x in [3, 4, 5, 6, 7, 8, 9, 10]]
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LIST_SIDE_TONE = ["Off", "Side Key", "ID", "Side + ID"]
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LIST_DTMFST = ["Off", "DT-ST", "ANI-ST", "DT+ANI"]
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LIST_MODE = ["Name", "Frequency", "Channel Number"]
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LIST_OFF1TO5 = ["Off"] + list("12345")
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LIST_OFF1TO9 = LIST_OFF1TO5 + list("6789")
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LIST_OFF1TO10 = LIST_OFF1TO9 + ["10"]
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LIST_OFFAB = ["Off"] + LIST_AB
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LIST_RESUME = ["TO", "CO", "SE"]
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LIST_PONMSG = ["Full", "Message"]
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LIST_PTTID = ["Off", "BOT", "EOT", "Both"]
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LIST_SCODE = ["%s" % x for x in range(1, 21)]
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LIST_RPSTE = ["Off"] + ["%s" % x for x in range(1, 11)]
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LIST_SAVE = ["Off", "1:1", "1:2", "1:3", "1:4"]
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LIST_SHIFTD = ["Off", "+", "-"]
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LIST_STEDELAY = ["Off"] + ["%s ms" % x for x in range(100, 1100, 100)]
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LIST_STEP = [str(x) for x in STEPS]
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LIST_TIMEOUT = ["Off"] + ["%s sec" % x for x in range(15, 195, 15)]
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LIST_TIMEOUT_ALARM = ["Off"] + ["%s sec" % x for x in range(1, 11)]
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LIST_PILOT_TONE = ["1000 Hz", "1450 Hz", "1750 Hz", "2100 Hz"]
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LIST_TXPOWER = ["High", "Low"]
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LIST_VOICE = ["Off", "English", "Chinese"]
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LIST_WORKMODE = ["Frequency", "Channel"]
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LIST_POWERON_DISPLAY_TYPE = ["LOGO", "BATT voltage"]
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LIST_BEEP = ["Off", "Beep", "Voice", "Both"]
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LIST_LANGUAGE = ["English", "Chinese"]
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LIST_SCANMODE = ["Time", "Carrier", "Search"]
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LIST_ALARMMODE = ["Local", "Send Tone", "Send Code"]
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LIST_MENU_QUIT_TIME = ["%s sec" % x for x in range(5, 65, 5)]
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LIST_BACKLIGHT_TIMER = ["Always On"] + ["%s sec" % x for x in range(5, 25, 5)]
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LIST_ID_DELAY = ["%s ms" % x for x in range(0, 1600, 100)]
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LIST_QT_SAVEMODE = ["Both", "RX", "TX"]
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LIST_SKEY2_SHORT =["FM", "Scan", "Search", "Vox"]
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LIST_RPT_TAIL_CLEAR = ["%s ms" % x for x in range(0, 1100, 100)]
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LIST_VOX_DELAY_TIME = ["%s ms" % x for x in range(500, 2100, 100)]
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LIST_VOX_LEVEL = ["Off"] + ["%s" % x for x in range(1, 10, 1)]
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LIST_VOX_LEVEL_ALT = ["%s" % x for x in range(1, 10, 1)]
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LIST_GPS_MODE = ["GPS", "Beidou", "GPS + Beidou"]
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LIST_GPS_TIMEZONE = ["%s" % x for x in range(-12, 13, 1)]
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TXP_CHOICES = ["High", "Low"]
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TXP_VALUES = [0x00, 0x02]
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STIMEOUT = 1.5
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def model_match(cls, data):
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"""Match the opened image to the correct version"""
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return data[cls.MEM_TOTAL:] == bytes(cls.MODEL, 'utf-8')
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def _crypt(symbolIndex, buffer):
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#Some weird encryption is used. From the table below, we only use "CO 7".
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tblEncrySymbol = [b"BHT ", b"CO 7", b"A ES", b" EIY", b"M PQ",
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b"XN Y", b"RVB ", b" HQP", b"W RC", b"MS N",
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b" SAT", b"K DH", b"ZO R", b"C SL", b"6RB ",
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b" JCG", b"PN V", b"J PK", b"EK L", b"I LZ"]
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tblEncrySymbols = tblEncrySymbol[symbolIndex]
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decBuffer=b""
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index1 = 0
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for index2 in range(len(buffer)):
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if ((tblEncrySymbols[index1] != 32) & (buffer[index2] != 0) & (buffer[index2] != 255) &
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(buffer[index2] != tblEncrySymbols[index1]) & (buffer[index2] != (tblEncrySymbols[index1] ^ 255))):
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decByte = buffer[index2] ^ tblEncrySymbols[index1]
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decBuffer += decByte.to_bytes(1, 'big')
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else:
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decBuffer += buffer[index2].to_bytes(1, 'big')
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index1 = (index1 + 1) % 4
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return decBuffer
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def _clean_buffer(radio):
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radio.pipe.timeout = 0.005
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junk = radio.pipe.read(256)
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radio.pipe.timeout = STIMEOUT
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if junk:
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LOG.debug("Got %i bytes of junk before starting" % len(junk))
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def _rawrecv(radio, amount):
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"""Raw read from the radio device"""
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data = ""
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try:
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data = radio.pipe.read(amount)
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except:
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msg = "Generic error reading data from radio; check your cable."
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raise errors.RadioError(msg)
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if len(data) != amount:
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msg = "Error reading data from radio: not the amount of data we want."
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raise errors.RadioError(msg)
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return data
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def _rawsend(radio, data):
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"""Raw send to the radio device"""
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try:
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#print(data)
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#print(radio)
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radio.pipe.write(data)
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except:
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raise errors.RadioError("Error sending data to radio")
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def _make_read_frame(addr, length):
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"""Pack the info in the header format"""
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frame = _make_frame(b"\x52", addr, length)
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# Return the data
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return frame
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def _make_frame(cmd, addr, length, data=""):
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"""Pack the info in the header format"""
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frame = cmd+struct.pack(">i",addr)[2:]+struct.pack("b", length)
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# add the data if set
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if len(data) != 0:
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frame += data
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# return the data
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return frame
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def _recv(radio, addr, length):
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"""Get data from the radio """
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# read 4 bytes of header
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hdr = _rawrecv(radio, 4)
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# read data
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data = _rawrecv(radio, length)
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# DEBUG
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LOG.info("Response:")
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LOG.debug(util.hexprint(hdr + data))
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c, a, l = struct.unpack(">BHB", hdr)
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if a != addr or l != length or c != ord("X"):
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LOG.error("Invalid answer for block 0x%04x:" % addr)
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LOG.debug("CMD: %s ADDR: %04x SIZE: %02x" % (c, a, l))
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raise errors.RadioError("Unknown response from the radio")
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return data
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def _get_radio_firmware_version(radio):
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# There is a problem in new radios where a different firmware version is
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# received when directly reading a single block as compared to what is
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# received when reading sequential blocks. This causes a mismatch between
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# the image firmware version and the radio firmware version when uploading
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# an image that came from the same radio. The workaround is to read 1 or
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# more consecutive blocks prior to reading the block with the firmware
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# version.
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#
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# Read 2 consecutive blocks to get the radio firmware version.
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for addr in range(0x1E80, 0x1F00, radio._recv_block_size):
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frame = _make_frame("S", addr, radio._recv_block_size)
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# sending the read request
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_rawsend(radio, frame)
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if radio._ack_block and addr != 0x1E80:
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ack = _rawrecv(radio, 1)
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if ack != b"\x06":
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raise errors.RadioError(
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"Radio refused to send block 0x%04x" % addr)
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# now we read
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block = _recv(radio, addr, radio._recv_block_size)
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_rawsend(radio, b"\x06")
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time.sleep(0.05)
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# get firmware version from the last block read
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version = block[48:64]
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return version
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def _image_ident_from_data(data, start, stop):
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return data[start:stop]
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def _get_image_firmware_version(radio):
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return _image_ident_from_data(radio.get_mmap(), radio._fw_ver_start,
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radio._fw_ver_start + 0x10)
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def _sendmagic(radio, magic, response):
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_rawsend(radio, magic)
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ack = _rawrecv(radio, len(response))
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if ack != response:
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if ack:
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LOG.debug(repr(ack))
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raise errors.RadioError("Radio did not respond to enter read mode")
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def _do_ident(radio):
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"""Put the radio in PROGRAM mode & identify it"""
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radio.pipe.baudrate = radio.BAUDRATE
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radio.pipe.parity = "N"
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radio.pipe.timeout = STIMEOUT
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# Flush input buffer
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_clean_buffer(radio)
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# Ident radio
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magic = radio._magic
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_rawsend(radio, magic)
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ack = _rawrecv(radio, radio._magic_response_length)
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if not ack.startswith(radio._fingerprint):
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if ack:
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LOG.debug(repr(ack))
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raise errors.RadioError("Radio did not respond as expected (A)")
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return True
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def _ident_radio(radio):
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for magic in radio._magic:
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error = None
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try:
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data = _do_ident(radio, magic)
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return data
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except errors.RadioError as e:
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print(e)
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error = e
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time.sleep(2)
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if error:
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raise error
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raise errors.RadioError("Radio did not respond")
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def _download(radio):
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"""Get the memory map"""
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# Put radio in program mode and identify it
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_do_ident(radio)
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for index in range(len(radio._magics)):
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_rawsend(radio, radio._magics[index])
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_rawrecv(radio, radio._magicResponseLengths[index])
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data = b""
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# UI progress
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status = chirp_common.Status()
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status.cur = 0
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status.max = radio.MEM_TOTAL // radio.BLOCK_SIZE
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status.msg = "Cloning from radio..."
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radio.status_fn(status)
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for i in range(len(radio.MEM_SIZES)):
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MEM_SIZE = radio.MEM_SIZES[i]
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MEM_START = radio.MEM_STARTS[i]
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for addr in range(MEM_START, MEM_START + MEM_SIZE, radio.BLOCK_SIZE):
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frame = _make_read_frame(addr, radio.BLOCK_SIZE)
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# DEBUG
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LOG.debug("Frame=" + util.hexprint(frame))
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# Sending the read request
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_rawsend(radio, frame)
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# Now we read data
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d = _rawrecv(radio, radio.BLOCK_SIZE + 4)
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LOG.debug("Response Data= " + util.hexprint(d))
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d = _crypt(1, d[4:])
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# Aggregate the data
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data += d
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# UI Update
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status.cur = len(data) // radio.BLOCK_SIZE
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status.msg = "Cloning from radio..."
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radio.status_fn(status)
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data += bytes(radio.MODEL, 'utf-8')
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return data
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def _upload(radio):
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# Put radio in program mode and identify it
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_do_ident(radio)
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for index in range(len(radio._magics)):
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_rawsend(radio, radio._magics[index])
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_rawrecv(radio, radio._magicResponseLengths[index])
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data = b""
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# UI progress
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status = chirp_common.Status()
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status.cur = 0
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status.max = radio.MEM_TOTAL // radio.BLOCK_SIZE
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status.msg = "Cloning from radio..."
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radio.status_fn(status)
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data_addr = 0x00
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for i in range(len(radio.MEM_SIZES)):
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MEM_SIZE = radio.MEM_SIZES[i]
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MEM_START = radio.MEM_STARTS[i]
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for addr in range(MEM_START, MEM_START + MEM_SIZE, radio.BLOCK_SIZE):
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data = radio.get_mmap()[data_addr:data_addr + radio.BLOCK_SIZE]
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data = _crypt(1, data)
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data_addr += radio.BLOCK_SIZE
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frame = _make_frame(b"W", addr, radio.BLOCK_SIZE, data)
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# DEBUG
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LOG.debug("Frame=" + util.hexprint(frame))
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#print()
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#print(hex(data_addr))
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#print(util.hexprint(frame))
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# Sending the read request
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_rawsend(radio, frame)
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# receiving the response
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ack = _rawrecv(radio, 1)
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#ack = b"\x06"
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if ack != b"\x06":
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msg = "Bad ack writing block 0x%04x" % addr
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raise errors.RadioError(msg)
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# UI Update
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status.cur = data_addr // radio.BLOCK_SIZE
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status.msg = "Cloning to radio..."
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radio.status_fn(status)
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data += bytes(radio.MODEL, 'utf-8')
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return data
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def _split(rf, f1, f2):
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"""Returns False if the two freqs are in the same band (no split)
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or True otherwise"""
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# determine if the two freqs are in the same band
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for low, high in rf.valid_bands:
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if f1 >= low and f1 <= high and \
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f2 >= low and f2 <= high:
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# if the two freqs are on the same Band this is not a split
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return False
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# if you get here is because the freq pairs are split
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return True
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@directory.register
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class UV17Pro(chirp_common.CloneModeRadio,
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chirp_common.ExperimentalRadio):
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"""Baofeng UV-17Pro"""
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VENDOR = "Baofeng"
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MODEL = "UV-17Pro"
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NEEDS_COMPAT_SERIAL = False
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MEM_STARTS = [0x0000, 0x9000, 0xA000, 0xD000]
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MEM_SIZES = [0x8040, 0x0040, 0x02C0, 0x0040]
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MEM_TOTAL = 0x8380
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BLOCK_SIZE = 0x40
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STIMEOUT = 2
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BAUDRATE = 115200
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_gmrs = False
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_bw_shift = False
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_support_banknames = False
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_tri_band = True
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_fileid = []
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_magic = MSTRING_UV17L
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_magic_response_length = 1
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408
|
_fingerprint = b"\x06"
|
409
|
_magics = [b"\x46", b"\x4d", b"\x53\x45\x4E\x44\x21\x05\x0D\x01\x01\x01\x04\x11\x08\x05\x0D\x0D\x01\x11\x0F\x09\x12\x09\x10\x04\x00"]
|
410
|
_magicResponseLengths = [16, 15, 1]
|
411
|
_fw_ver_start = 0x1EF0
|
412
|
_recv_block_size = 0x40
|
413
|
_mem_size = MEM_TOTAL
|
414
|
_ack_block = True
|
415
|
_aniid = True
|
416
|
_vfoscan = False
|
417
|
_has_gps = False
|
418
|
_voxsw = False
|
419
|
_pilot_tone = False
|
420
|
_send_id_delay = False
|
421
|
_skey2_short = False
|
422
|
|
423
|
MODES = ["NFM", "FM"]
|
424
|
VALID_CHARS = chirp_common.CHARSET_ALPHANUMERIC + \
|
425
|
"!@#$%^&*()+-=[]:\";'<>?,./"
|
426
|
LENGTH_NAME = 12
|
427
|
SKIP_VALUES = ["", "S"]
|
428
|
DTCS_CODES = tuple(sorted(chirp_common.DTCS_CODES + (645,)))
|
429
|
RXTX_CODES = ('Off', )
|
430
|
for code in chirp_common.TONES:
|
431
|
RXTX_CODES = (RXTX_CODES + (str(code), ))
|
432
|
for code in DTCS_CODES:
|
433
|
RXTX_CODES = (RXTX_CODES + ('D' + str(code) + 'N', ))
|
434
|
for code in DTCS_CODES:
|
435
|
RXTX_CODES = (RXTX_CODES + ('D' + str(code) + 'I', ))
|
436
|
POWER_LEVELS = [chirp_common.PowerLevel("High", watts=5.00),
|
437
|
chirp_common.PowerLevel("Low", watts=1.00)]
|
438
|
_airband = (108000000, 136000000)
|
439
|
_vhf_range = (136000000, 174000000)
|
440
|
_vhf2_range = (200000000, 260000000)
|
441
|
_uhf_range = (400000000, 520000000)
|
442
|
_uhf2_range = (350000000, 390000000)
|
443
|
|
444
|
VALID_BANDS = [_vhf_range, _vhf2_range,
|
445
|
_uhf_range]
|
446
|
PTTID_LIST = LIST_PTTID
|
447
|
SCODE_LIST = LIST_SCODE
|
448
|
|
449
|
MEM_FORMAT = """
|
450
|
#seekto 0x0000;
|
451
|
struct {
|
452
|
lbcd rxfreq[4];
|
453
|
lbcd txfreq[4];
|
454
|
ul16 rxtone;
|
455
|
ul16 txtone;
|
456
|
u8 scode:8;
|
457
|
u8 pttid:8;
|
458
|
u8 lowpower:8;
|
459
|
u8 unknown1:1,
|
460
|
wide:1,
|
461
|
sqmode:2,
|
462
|
bcl:1,
|
463
|
scan:1,
|
464
|
unknown2:1,
|
465
|
fhss:1;
|
466
|
u8 unknown3:8;
|
467
|
u8 unknown4:8;
|
468
|
u8 unknown5:8;
|
469
|
u8 unknown6:8;
|
470
|
char name[12];
|
471
|
} memory[1000];
|
472
|
|
473
|
#seekto 0x8080;
|
474
|
struct {
|
475
|
u8 code[5];
|
476
|
u8 unknown[1];
|
477
|
u8 unused1:6,
|
478
|
aniid:2;
|
479
|
u8 dtmfon;
|
480
|
u8 dtmfoff;
|
481
|
} ani;
|
482
|
|
483
|
#seekto 0x80A0;
|
484
|
struct {
|
485
|
u8 code[5];
|
486
|
u8 name[10];
|
487
|
u8 unused:8;
|
488
|
} pttid[20];
|
489
|
|
490
|
|
491
|
#seekto 0x8280;
|
492
|
struct {
|
493
|
char name1[12];
|
494
|
u32 unknown1;
|
495
|
char name2[12];
|
496
|
u32 unknown2;
|
497
|
char name3[12];
|
498
|
u32 unknown3;
|
499
|
char name4[12];
|
500
|
u32 unknown4;
|
501
|
char name5[12];
|
502
|
u32 unknown5;
|
503
|
char name6[12];
|
504
|
u32 unknown6;
|
505
|
char name7[12];
|
506
|
u32 unknown7;
|
507
|
char name8[12];
|
508
|
u32 unknown8;
|
509
|
char name9[12];
|
510
|
u32 unknown9;
|
511
|
char name10[12];
|
512
|
u32 unknown10;
|
513
|
} bank_names;
|
514
|
|
515
|
struct vfo {
|
516
|
u8 freq[8];
|
517
|
ul16 rxtone;
|
518
|
ul16 txtone;
|
519
|
u8 unknown0;
|
520
|
u8 bcl;
|
521
|
u8 sftd:3,
|
522
|
scode:5;
|
523
|
u8 unknown1;
|
524
|
u8 lowpower;
|
525
|
u8 unknown2:1,
|
526
|
wide:1,
|
527
|
unknown3:5,
|
528
|
fhss:1;
|
529
|
u8 unknown4;
|
530
|
u8 step;
|
531
|
u8 offset[6];
|
532
|
u8 unknown5[2];
|
533
|
u8 sqmode;
|
534
|
u8 unknown6[3];
|
535
|
};
|
536
|
|
537
|
#seekto 0x8000;
|
538
|
struct {
|
539
|
struct vfo a;
|
540
|
struct vfo b;
|
541
|
} vfo;
|
542
|
|
543
|
#seekto 0x8040;
|
544
|
struct {
|
545
|
u8 squelch;
|
546
|
u8 savemode;
|
547
|
u8 vox;
|
548
|
u8 backlight;
|
549
|
u8 dualstandby;
|
550
|
u8 tot;
|
551
|
u8 beep;
|
552
|
u8 voicesw;
|
553
|
u8 voice;
|
554
|
u8 sidetone;
|
555
|
u8 scanmode;
|
556
|
u8 pttid;
|
557
|
u8 pttdly;
|
558
|
u8 chadistype;
|
559
|
u8 chbdistype;
|
560
|
u8 bcl;
|
561
|
u8 autolock;
|
562
|
u8 alarmmode;
|
563
|
u8 alarmtone;
|
564
|
u8 unknown1;
|
565
|
u8 tailclear;
|
566
|
u8 rpttailclear;
|
567
|
u8 rpttaildet;
|
568
|
u8 roger;
|
569
|
u8 unknown2;
|
570
|
u8 fmenable;
|
571
|
u8 chaworkmode:4,
|
572
|
chbworkmode:4;
|
573
|
u8 keylock;
|
574
|
u8 powerondistype;
|
575
|
u8 tone;
|
576
|
u8 unknown4[2];
|
577
|
u8 voxdlytime;
|
578
|
u8 menuquittime;
|
579
|
u8 unknown5[6];
|
580
|
u8 totalarm;
|
581
|
u8 unknown6[2];
|
582
|
u8 ctsdcsscantype;
|
583
|
ul16 vfoscanmin;
|
584
|
ul16 vfoscanmax;
|
585
|
u8 gpsw;
|
586
|
u8 gpsmode;
|
587
|
u8 unknown7[2];
|
588
|
u8 key2short;
|
589
|
u8 unknown8[2];
|
590
|
u8 rstmenu;
|
591
|
u8 unknown9;
|
592
|
u8 hangup;
|
593
|
u8 voxsw;
|
594
|
u8 gpstimezone;
|
595
|
} settings;
|
596
|
"""
|
597
|
|
598
|
@classmethod
|
599
|
def get_prompts(cls):
|
600
|
rp = chirp_common.RadioPrompts()
|
601
|
rp.experimental = \
|
602
|
('This driver is a beta version.\n'
|
603
|
'\n'
|
604
|
'Please save an unedited copy of your first successful\n'
|
605
|
'download to a CHIRP Radio Images(*.img) file.'
|
606
|
)
|
607
|
rp.pre_download = _(
|
608
|
"Follow these instructions to download your info:\n"
|
609
|
"1 - Turn off your radio\n"
|
610
|
"2 - Connect your interface cable\n"
|
611
|
"3 - Turn on your radio\n"
|
612
|
"4 - Do the download of your radio data\n")
|
613
|
rp.pre_upload = _(
|
614
|
"Follow this instructions to upload your info:\n"
|
615
|
"1 - Turn off your radio\n"
|
616
|
"2 - Connect your interface cable\n"
|
617
|
"3 - Turn on your radio\n"
|
618
|
"4 - Do the upload of your radio data\n")
|
619
|
return rp
|
620
|
|
621
|
def process_mmap(self):
|
622
|
"""Process the mem map into the mem object"""
|
623
|
if (len(self._mmap) == self.MEM_TOTAL) or (len(self._mmap) == self.MEM_TOTAL + len(self.MODEL)):
|
624
|
self._memobj = bitwise.parse(self.MEM_FORMAT, self._mmap)
|
625
|
else:
|
626
|
raise errors.ImageDetectFailed('Image length mismatch.\nTry reloading the configuration'
|
627
|
' from the radio.')
|
628
|
|
629
|
def get_settings(self):
|
630
|
"""Translate the bit in the mem_struct into settings in the UI"""
|
631
|
_mem = self._memobj
|
632
|
basic = RadioSettingGroup("basic", "Basic Settings")
|
633
|
bank = RadioSettingGroup("bank", "Bank names")
|
634
|
work = RadioSettingGroup("work", "VFO Mode Settings")
|
635
|
dtmfe = RadioSettingGroup("dtmfe", "DTMF Encode Settings")
|
636
|
top = RadioSettings(basic, bank, work, dtmfe)
|
637
|
|
638
|
if _mem.settings.squelch > 0x05:
|
639
|
val = 0x00
|
640
|
else:
|
641
|
val = _mem.settings.squelch
|
642
|
rs = RadioSetting("settings.squelch", "Squelch",
|
643
|
RadioSettingValueList(
|
644
|
LIST_OFF1TO5, LIST_OFF1TO5[val]))
|
645
|
basic.append(rs)
|
646
|
|
647
|
rs = RadioSetting("settings.tot", "Timeout Timer",
|
648
|
RadioSettingValueList(
|
649
|
LIST_TIMEOUT, LIST_TIMEOUT[_mem.settings.tot]))
|
650
|
basic.append(rs)
|
651
|
|
652
|
rs = RadioSetting("settings.savemode", "Save Mode",
|
653
|
RadioSettingValueBoolean(_mem.settings.savemode))
|
654
|
basic.append(rs)
|
655
|
|
656
|
rs = RadioSetting("settings.totalarm", "Timeout Timer Alarm",
|
657
|
RadioSettingValueList(
|
658
|
LIST_TIMEOUT_ALARM, LIST_TIMEOUT_ALARM[_mem.settings.totalarm]))
|
659
|
basic.append(rs)
|
660
|
|
661
|
rs = RadioSetting("settings.dualstandby", "Dual Watch",
|
662
|
RadioSettingValueBoolean(_mem.settings.dualstandby))
|
663
|
basic.append(rs)
|
664
|
|
665
|
if self._pilot_tone:
|
666
|
rs = RadioSetting("settings.tone", "Pilot Tone",
|
667
|
RadioSettingValueList(
|
668
|
LIST_PILOT_TONE, LIST_PILOT_TONE[_mem.settings.tone]))
|
669
|
basic.append(rs)
|
670
|
|
671
|
rs = RadioSetting("settings.sidetone", "Side Tone",
|
672
|
RadioSettingValueList(
|
673
|
LIST_SIDE_TONE, LIST_SIDE_TONE[_mem.settings.sidetone]))
|
674
|
basic.append(rs)
|
675
|
|
676
|
rs = RadioSetting("settings.tailclear", "Tail Clear",
|
677
|
RadioSettingValueBoolean(_mem.settings.tailclear))
|
678
|
basic.append(rs)
|
679
|
|
680
|
rs = RadioSetting("settings.powerondistype", "Power On Display Type",
|
681
|
RadioSettingValueList(
|
682
|
LIST_POWERON_DISPLAY_TYPE, LIST_POWERON_DISPLAY_TYPE[_mem.settings.powerondistype]))
|
683
|
basic.append(rs)
|
684
|
|
685
|
rs = RadioSetting("settings.beep", "Beep",
|
686
|
RadioSettingValueList(
|
687
|
LIST_BEEP, LIST_BEEP[_mem.settings.beep]))
|
688
|
basic.append(rs)
|
689
|
|
690
|
rs = RadioSetting("settings.roger", "Roger",
|
691
|
RadioSettingValueBoolean(_mem.settings.roger))
|
692
|
basic.append(rs)
|
693
|
|
694
|
rs = RadioSetting("settings.voice", "Language",
|
695
|
RadioSettingValueList(
|
696
|
LIST_LANGUAGE, LIST_LANGUAGE[_mem.settings.voice]))
|
697
|
basic.append(rs)
|
698
|
|
699
|
rs = RadioSetting("settings.voicesw", "Enable Voice",
|
700
|
RadioSettingValueBoolean(_mem.settings.voicesw))
|
701
|
basic.append(rs)
|
702
|
|
703
|
rs = RadioSetting("settings.scanmode", "Scan Mode",
|
704
|
RadioSettingValueList(
|
705
|
LIST_SCANMODE, LIST_SCANMODE[_mem.settings.scanmode]))
|
706
|
basic.append(rs)
|
707
|
|
708
|
rs = RadioSetting("settings.alarmmode", "Alarm Mode",
|
709
|
RadioSettingValueList(
|
710
|
LIST_ALARMMODE, LIST_ALARMMODE[_mem.settings.alarmmode]))
|
711
|
basic.append(rs)
|
712
|
|
713
|
rs = RadioSetting("settings.alarmtone", "Sound Alarm",
|
714
|
RadioSettingValueBoolean(_mem.settings.alarmtone))
|
715
|
basic.append(rs)
|
716
|
|
717
|
rs = RadioSetting("settings.keylock", "Key Lock",
|
718
|
RadioSettingValueBoolean(_mem.settings.keylock))
|
719
|
basic.append(rs)
|
720
|
|
721
|
rs = RadioSetting("settings.fmenable", "Disable FM radio",
|
722
|
RadioSettingValueBoolean(_mem.settings.fmenable))
|
723
|
basic.append(rs)
|
724
|
|
725
|
rs = RadioSetting("settings.autolock", "Key Auto Lock",
|
726
|
RadioSettingValueBoolean(_mem.settings.autolock))
|
727
|
basic.append(rs)
|
728
|
|
729
|
rs = RadioSetting("settings.menuquittime", "Menu Quit Timer",
|
730
|
RadioSettingValueList(
|
731
|
LIST_MENU_QUIT_TIME, LIST_MENU_QUIT_TIME[_mem.settings.menuquittime]))
|
732
|
basic.append(rs)
|
733
|
|
734
|
rs = RadioSetting("settings.backlight", "Backlight Timer",
|
735
|
RadioSettingValueList(
|
736
|
LIST_BACKLIGHT_TIMER, LIST_BACKLIGHT_TIMER[_mem.settings.backlight]))
|
737
|
basic.append(rs)
|
738
|
|
739
|
if self._send_id_delay:
|
740
|
rs = RadioSetting("settings.pttdly", "Send ID Delay",
|
741
|
RadioSettingValueList(
|
742
|
LIST_ID_DELAY, LIST_ID_DELAY[_mem.settings.pttdly]))
|
743
|
basic.append(rs)
|
744
|
|
745
|
rs = RadioSetting("settings.ctsdcsscantype", "QT Save Mode",
|
746
|
RadioSettingValueList(
|
747
|
LIST_QT_SAVEMODE, LIST_QT_SAVEMODE[_mem.settings.ctsdcsscantype]))
|
748
|
basic.append(rs)
|
749
|
|
750
|
def getKey2shortIndex(value):
|
751
|
if value == 0x07:
|
752
|
return 0
|
753
|
if value == 0x1C:
|
754
|
return 1
|
755
|
if value == 0x1D:
|
756
|
return 2
|
757
|
if value == 0x2D:
|
758
|
return 3
|
759
|
return 0
|
760
|
|
761
|
def apply_Key2short(setting, obj):
|
762
|
val = str(setting.value)
|
763
|
if val == "FM":
|
764
|
obj.key2short = 0x07
|
765
|
if val == "Scan":
|
766
|
obj.key2short = 0x1C
|
767
|
if val == "Search":
|
768
|
obj.key2short = 0x1D
|
769
|
if val == "Vox":
|
770
|
obj.key2short = 0x2D
|
771
|
|
772
|
if self._skey2_short:
|
773
|
rs = RadioSetting("settings.key2short", "Skey2 Short",
|
774
|
RadioSettingValueList(
|
775
|
LIST_SKEY2_SHORT, LIST_SKEY2_SHORT[getKey2shortIndex(_mem.settings.key2short)]))
|
776
|
rs.set_apply_callback(apply_Key2short, _mem.settings)
|
777
|
basic.append(rs)
|
778
|
|
779
|
rs = RadioSetting("settings.chadistype", "Channel A display type",
|
780
|
RadioSettingValueList(
|
781
|
LIST_MODE, LIST_MODE[_mem.settings.chadistype]))
|
782
|
basic.append(rs)
|
783
|
|
784
|
rs = RadioSetting("settings.chaworkmode", "Channel A work mode",
|
785
|
RadioSettingValueList(
|
786
|
LIST_WORKMODE, LIST_WORKMODE[_mem.settings.chaworkmode]))
|
787
|
basic.append(rs)
|
788
|
|
789
|
rs = RadioSetting("settings.chbdistype", "Channel B display type",
|
790
|
RadioSettingValueList(
|
791
|
LIST_MODE, LIST_MODE[_mem.settings.chbdistype]))
|
792
|
basic.append(rs)
|
793
|
|
794
|
rs = RadioSetting("settings.chbworkmode", "Channel B work mode",
|
795
|
RadioSettingValueList(
|
796
|
LIST_WORKMODE, LIST_WORKMODE[_mem.settings.chbworkmode]))
|
797
|
basic.append(rs)
|
798
|
|
799
|
rs = RadioSetting("settings.rpttailclear", "Rpt Tail Clear",
|
800
|
RadioSettingValueList(
|
801
|
LIST_RPT_TAIL_CLEAR, LIST_RPT_TAIL_CLEAR[_mem.settings.rpttailclear]))
|
802
|
basic.append(rs)
|
803
|
|
804
|
rs = RadioSetting("settings.rpttaildet", "Rpt Tail Delay",
|
805
|
RadioSettingValueList(
|
806
|
LIST_RPT_TAIL_CLEAR, LIST_RPT_TAIL_CLEAR[_mem.settings.rpttaildet]))
|
807
|
basic.append(rs)
|
808
|
|
809
|
rs = RadioSetting("settings.rstmenu", "Enable Menu Rst",
|
810
|
RadioSettingValueBoolean(_mem.settings.rstmenu))
|
811
|
basic.append(rs)
|
812
|
|
813
|
if self._voxsw:
|
814
|
rs = RadioSetting("settings.voxsw", "Vox Switch",
|
815
|
RadioSettingValueBoolean(_mem.settings.voxsw))
|
816
|
basic.append(rs)
|
817
|
|
818
|
rs = RadioSetting("settings.vox", "Vox Level",
|
819
|
RadioSettingValueList(
|
820
|
LIST_VOX_LEVEL_ALT, LIST_VOX_LEVEL_ALT[_mem.settings.vox]))
|
821
|
basic.append(rs)
|
822
|
else:
|
823
|
rs = RadioSetting("settings.vox", "Vox Level",
|
824
|
RadioSettingValueList(
|
825
|
LIST_VOX_LEVEL, LIST_VOX_LEVEL[_mem.settings.vox]))
|
826
|
basic.append(rs)
|
827
|
|
828
|
|
829
|
rs = RadioSetting("settings.voxdlytime", "Vox Delay Time",
|
830
|
RadioSettingValueList(
|
831
|
LIST_VOX_DELAY_TIME, LIST_VOX_DELAY_TIME[_mem.settings.voxdlytime]))
|
832
|
basic.append(rs)
|
833
|
|
834
|
if self._has_gps:
|
835
|
rs = RadioSetting("settings.gpsw", "GPS On",
|
836
|
RadioSettingValueBoolean(_mem.settings.gpsw))
|
837
|
basic.append(rs)
|
838
|
|
839
|
rs = RadioSetting("settings.gpsmode", "GPS Mode",
|
840
|
RadioSettingValueList(
|
841
|
LIST_GPS_MODE, LIST_GPS_MODE[_mem.settings.gpsmode]))
|
842
|
basic.append(rs)
|
843
|
|
844
|
rs = RadioSetting("settings.gpstimezone", "GPS Timezone",
|
845
|
RadioSettingValueList(
|
846
|
LIST_GPS_TIMEZONE, LIST_GPS_TIMEZONE[_mem.settings.gpstimezone]))
|
847
|
basic.append(rs)
|
848
|
|
849
|
def _filterName(name, zone):
|
850
|
fname = ""
|
851
|
charset=chirp_common.CHARSET_ASCII
|
852
|
for char in name:
|
853
|
if ord(str(char)) == 255:
|
854
|
break
|
855
|
if str(char) not in charset:
|
856
|
char = "X"
|
857
|
fname += str(char)
|
858
|
if fname == "XXXXXX":
|
859
|
fname = "ZONE" + zone
|
860
|
return fname
|
861
|
|
862
|
if self._support_banknames:
|
863
|
_zone="01"
|
864
|
_msg = _mem.bank_names
|
865
|
rs = RadioSetting("bank_names.name1", "Bank name 1",
|
866
|
RadioSettingValueString(
|
867
|
0, 12, _filterName(_msg.name1, _zone)))
|
868
|
bank.append(rs)
|
869
|
|
870
|
_zone="02"
|
871
|
_msg = _mem.bank_names
|
872
|
rs = RadioSetting("bank_names.name2", "Bank name 2",
|
873
|
RadioSettingValueString(
|
874
|
0, 12, _filterName(_msg.name2, _zone)))
|
875
|
|
876
|
bank.append(rs)
|
877
|
_zone="03"
|
878
|
_msg = _mem.bank_names
|
879
|
rs = RadioSetting("bank_names.name3", "Bank name 3",
|
880
|
RadioSettingValueString(
|
881
|
0, 12, _filterName(_msg.name3, _zone)))
|
882
|
bank.append(rs)
|
883
|
|
884
|
_zone="04"
|
885
|
_msg = _mem.bank_names
|
886
|
rs = RadioSetting("bank_names.name4", "Bank name 4",
|
887
|
RadioSettingValueString(
|
888
|
0, 12, _filterName(_msg.name4, _zone)))
|
889
|
bank.append(rs)
|
890
|
|
891
|
_zone="05"
|
892
|
_msg = _mem.bank_names
|
893
|
rs = RadioSetting("bank_names.name5", "Bank name 5",
|
894
|
RadioSettingValueString(
|
895
|
0, 12, _filterName(_msg.name5, _zone)))
|
896
|
bank.append(rs)
|
897
|
|
898
|
_zone="06"
|
899
|
_msg = _mem.bank_names
|
900
|
rs = RadioSetting("bank_names.name6", "Bank name 6",
|
901
|
RadioSettingValueString(
|
902
|
0, 12, _filterName(_msg.name6, _zone)))
|
903
|
bank.append(rs)
|
904
|
|
905
|
_zone="07"
|
906
|
_msg = _mem.bank_names
|
907
|
rs = RadioSetting("bank_names.name7", "Bank name 7",
|
908
|
RadioSettingValueString(
|
909
|
0, 12, _filterName(_msg.name7, _zone)))
|
910
|
bank.append(rs)
|
911
|
|
912
|
_zone="08"
|
913
|
_msg = _mem.bank_names
|
914
|
rs = RadioSetting("bank_names.name8", "Bank name 8",
|
915
|
RadioSettingValueString(
|
916
|
0, 12, _filterName(_msg.name8, _zone)))
|
917
|
bank.append(rs)
|
918
|
|
919
|
_zone="09"
|
920
|
_msg = _mem.bank_names
|
921
|
rs = RadioSetting("bank_names.name9", "Bank name 9",
|
922
|
RadioSettingValueString(
|
923
|
0, 12, _filterName(_msg.name9, _zone)))
|
924
|
bank.append(rs)
|
925
|
|
926
|
_zone="10"
|
927
|
_msg = _mem.bank_names
|
928
|
rs = RadioSetting("bank_names.name10", "Bank name 10",
|
929
|
RadioSettingValueString(
|
930
|
0, 12, _filterName(_msg.name10, _zone)))
|
931
|
bank.append(rs)
|
932
|
|
933
|
_codeobj = self._memobj.ani.code
|
934
|
_code = "".join([DTMF_CHARS[x] for x in _codeobj if int(x) < 0x1F])
|
935
|
val = RadioSettingValueString(0, 5, _code, False)
|
936
|
val.set_charset(DTMF_CHARS)
|
937
|
rs = RadioSetting("ani.code", "ANI Code", val)
|
938
|
|
939
|
# DTMF settings
|
940
|
def apply_code(setting, obj, length):
|
941
|
code = []
|
942
|
for j in range(0, length):
|
943
|
try:
|
944
|
code.append(DTMF_CHARS.index(str(setting.value)[j]))
|
945
|
except IndexError:
|
946
|
code.append(0xFF)
|
947
|
obj.code = code
|
948
|
|
949
|
for i in range(0, 20):
|
950
|
_codeobj = self._memobj.pttid[i].code
|
951
|
_code = "".join([DTMF_CHARS[x] for x in _codeobj if int(x) < 0x1F])
|
952
|
val = RadioSettingValueString(0, 5, _code, False)
|
953
|
val.set_charset(DTMF_CHARS)
|
954
|
pttid = RadioSetting("pttid/%i.code" % i,
|
955
|
"Signal Code %i" % (i + 1), val)
|
956
|
pttid.set_apply_callback(apply_code, self._memobj.pttid[i], 5)
|
957
|
dtmfe.append(pttid)
|
958
|
|
959
|
if _mem.ani.dtmfon > 0xC3:
|
960
|
val = 0x03
|
961
|
else:
|
962
|
val = _mem.ani.dtmfon
|
963
|
rs = RadioSetting("ani.dtmfon", "DTMF Speed (on)",
|
964
|
RadioSettingValueList(LIST_DTMFSPEED,
|
965
|
LIST_DTMFSPEED[val]))
|
966
|
dtmfe.append(rs)
|
967
|
|
968
|
if _mem.ani.dtmfoff > 0xC3:
|
969
|
val = 0x03
|
970
|
else:
|
971
|
val = _mem.ani.dtmfoff
|
972
|
rs = RadioSetting("ani.dtmfoff", "DTMF Speed (off)",
|
973
|
RadioSettingValueList(LIST_DTMFSPEED,
|
974
|
LIST_DTMFSPEED[val]))
|
975
|
dtmfe.append(rs)
|
976
|
|
977
|
_codeobj = self._memobj.ani.code
|
978
|
_code = "".join([DTMF_CHARS[x] for x in _codeobj if int(x) < 0x1F])
|
979
|
val = RadioSettingValueString(0, 5, _code, False)
|
980
|
val.set_charset(DTMF_CHARS)
|
981
|
rs = RadioSetting("ani.code", "ANI Code", val)
|
982
|
rs.set_apply_callback(apply_code, self._memobj.ani, 5)
|
983
|
dtmfe.append(rs)
|
984
|
|
985
|
if self._aniid:
|
986
|
rs = RadioSetting("ani.aniid", "When to send ANI ID",
|
987
|
RadioSettingValueList(LIST_PTTID,
|
988
|
LIST_PTTID[_mem.ani.aniid]))
|
989
|
dtmfe.append(rs)
|
990
|
|
991
|
rs = RadioSetting("settings.hangup", "Hang-up time",
|
992
|
RadioSettingValueList(LIST_HANGUPTIME,
|
993
|
LIST_HANGUPTIME[_mem.settings.hangup]))
|
994
|
dtmfe.append(rs)
|
995
|
|
996
|
def convert_bytes_to_freq(bytes):
|
997
|
real_freq = 0
|
998
|
for byte in bytes:
|
999
|
real_freq = (real_freq * 10) + byte
|
1000
|
return chirp_common.format_freq(real_freq * 10)
|
1001
|
|
1002
|
def my_validate(value):
|
1003
|
value = chirp_common.parse_freq(value)
|
1004
|
freqOk = False
|
1005
|
for band in self.VALID_BANDS:
|
1006
|
if value > band[0] and value < band[1]:
|
1007
|
freqOk = True
|
1008
|
if not freqOk:
|
1009
|
raise InvalidValueError("Invalid frequency!")
|
1010
|
return chirp_common.format_freq(value)
|
1011
|
|
1012
|
def apply_freq(setting, obj):
|
1013
|
value = chirp_common.parse_freq(str(setting.value)) / 10
|
1014
|
for i in range(7, -1, -1):
|
1015
|
obj.freq[i] = value % 10
|
1016
|
value /= 10
|
1017
|
|
1018
|
val1a = RadioSettingValueString(0, 10,
|
1019
|
convert_bytes_to_freq(_mem.vfo.a.freq))
|
1020
|
val1a.set_validate_callback(my_validate)
|
1021
|
rs = RadioSetting("vfo.a.freq", "VFO A Frequency", val1a)
|
1022
|
rs.set_apply_callback(apply_freq, _mem.vfo.a)
|
1023
|
work.append(rs)
|
1024
|
|
1025
|
rs = RadioSetting("vfo.a.sftd", "VFO A Offset dir",
|
1026
|
RadioSettingValueList(
|
1027
|
LIST_SHIFTD, LIST_SHIFTD[_mem.vfo.a.sftd]))
|
1028
|
work.append(rs)
|
1029
|
|
1030
|
def convert_bytes_to_offset(bytes):
|
1031
|
real_offset = 0
|
1032
|
for byte in bytes:
|
1033
|
real_offset = (real_offset * 10) + byte
|
1034
|
return chirp_common.format_freq(real_offset * 1000)
|
1035
|
|
1036
|
def apply_offset(setting, obj):
|
1037
|
value = chirp_common.parse_freq(str(setting.value)) / 1000
|
1038
|
for i in range(5, -1, -1):
|
1039
|
obj.offset[i] = value % 10
|
1040
|
value /= 10
|
1041
|
|
1042
|
val1a = RadioSettingValueString(
|
1043
|
0, 10, convert_bytes_to_offset(_mem.vfo.a.offset))
|
1044
|
rs = RadioSetting("vfo.a.offset",
|
1045
|
"VFO A Offset", val1a)
|
1046
|
rs.set_apply_callback(apply_offset, _mem.vfo.a)
|
1047
|
work.append(rs)
|
1048
|
|
1049
|
def apply_txpower_listvalue(setting, obj):
|
1050
|
LOG.debug("Setting value: " + str(
|
1051
|
setting.value) + " from list")
|
1052
|
val = str(setting.value)
|
1053
|
index = TXP_CHOICES.index(val)
|
1054
|
val = TXP_VALUES[index]
|
1055
|
obj.set_value(val)
|
1056
|
|
1057
|
rs = RadioSetting("vfo.a.lowpower", "VFO A Power",
|
1058
|
RadioSettingValueList(
|
1059
|
LIST_TXPOWER,
|
1060
|
LIST_TXPOWER[min(_mem.vfo.a.lowpower, 0x02)]
|
1061
|
))
|
1062
|
work.append(rs)
|
1063
|
|
1064
|
rs = RadioSetting("vfo.a.wide", "VFO A Bandwidth",
|
1065
|
RadioSettingValueList(
|
1066
|
LIST_BANDWIDTH,
|
1067
|
LIST_BANDWIDTH[_mem.vfo.a.wide]))
|
1068
|
work.append(rs)
|
1069
|
|
1070
|
rs = RadioSetting("vfo.a.scode", "VFO A S-CODE",
|
1071
|
RadioSettingValueList(
|
1072
|
LIST_SCODE,
|
1073
|
LIST_SCODE[_mem.vfo.a.scode]))
|
1074
|
work.append(rs)
|
1075
|
|
1076
|
rs = RadioSetting("vfo.a.step", "VFO A Tuning Step",
|
1077
|
RadioSettingValueList(
|
1078
|
LIST_STEP, LIST_STEP[_mem.vfo.a.step]))
|
1079
|
work.append(rs)
|
1080
|
|
1081
|
rs = RadioSetting("vfo.a.fhss", "VFO A FHSS",
|
1082
|
RadioSettingValueBoolean(_mem.vfo.a.fhss))
|
1083
|
work.append(rs)
|
1084
|
|
1085
|
def getToneIndex(tone):
|
1086
|
if tone in [0, 0xFFFF]:
|
1087
|
index = 0
|
1088
|
elif tone >= 0x0258:
|
1089
|
index = self.RXTX_CODES.index(str(tone / 10.0))
|
1090
|
elif tone <= 0x0258:
|
1091
|
index = 50 + tone
|
1092
|
if tone > 0x69:
|
1093
|
index = tone - 0x6A + 156
|
1094
|
return self.RXTX_CODES[index]
|
1095
|
|
1096
|
def apply_rxtone(setting, obj):
|
1097
|
index = self.RXTX_CODES.index(str(setting.value))
|
1098
|
if index > 156:
|
1099
|
obj.rxtone = index - 156 + 0x6A
|
1100
|
elif index > 50:
|
1101
|
obj.rxtone = index - 50
|
1102
|
elif index == 0:
|
1103
|
obj.rxtone = 0
|
1104
|
else:
|
1105
|
obj.rxtone = int(float(setting.value)*10)
|
1106
|
|
1107
|
def apply_txtone(setting, obj):
|
1108
|
index = self.RXTX_CODES.index(str(setting.value))
|
1109
|
if index > 156:
|
1110
|
obj.txtone = index - 156 + 0x6A
|
1111
|
elif index > 50:
|
1112
|
obj.txtone = index - 50
|
1113
|
elif index == 0:
|
1114
|
obj.txtone = 0
|
1115
|
else:
|
1116
|
obj.txtone = int(float(setting.value)*10)
|
1117
|
|
1118
|
rs = RadioSetting("vfo.a.rxtone", "VFA A RX QT/DQT",
|
1119
|
RadioSettingValueList(self.RXTX_CODES,
|
1120
|
getToneIndex(_mem.vfo.a.rxtone)))
|
1121
|
rs.set_apply_callback(apply_rxtone, _mem.vfo.a)
|
1122
|
work.append(rs)
|
1123
|
|
1124
|
rs = RadioSetting("vfo.a.txtone", "VFA A TX QT/DQT",
|
1125
|
RadioSettingValueList(self.RXTX_CODES,
|
1126
|
getToneIndex(_mem.vfo.a.txtone)))
|
1127
|
rs.set_apply_callback(apply_txtone, _mem.vfo.a)
|
1128
|
work.append(rs)
|
1129
|
|
1130
|
val1b = RadioSettingValueString(0, 10,
|
1131
|
convert_bytes_to_freq(_mem.vfo.b.freq))
|
1132
|
val1b.set_validate_callback(my_validate)
|
1133
|
rs = RadioSetting("vfo.b.freq", "VFO B Frequency", val1b)
|
1134
|
rs.set_apply_callback(apply_freq, _mem.vfo.b)
|
1135
|
work.append(rs)
|
1136
|
|
1137
|
rs = RadioSetting("vfo.b.sftd", "VFO B Offset dir",
|
1138
|
RadioSettingValueList(
|
1139
|
LIST_SHIFTD, LIST_SHIFTD[_mem.vfo.b.sftd]))
|
1140
|
work.append(rs)
|
1141
|
|
1142
|
val1b = RadioSettingValueString(
|
1143
|
0, 10, convert_bytes_to_offset(_mem.vfo.b.offset))
|
1144
|
rs = RadioSetting("vfo.b.offset",
|
1145
|
"VFO B Offset", val1b)
|
1146
|
rs.set_apply_callback(apply_offset, _mem.vfo.b)
|
1147
|
work.append(rs)
|
1148
|
|
1149
|
rs = RadioSetting("vfo.b.lowpower", "VFO B Power",
|
1150
|
RadioSettingValueList(
|
1151
|
LIST_TXPOWER,
|
1152
|
LIST_TXPOWER[min(_mem.vfo.b.lowpower, 0x02)]
|
1153
|
))
|
1154
|
work.append(rs)
|
1155
|
|
1156
|
rs = RadioSetting("vfo.b.wide", "VFO B Bandwidth",
|
1157
|
RadioSettingValueList(
|
1158
|
LIST_BANDWIDTH,
|
1159
|
LIST_BANDWIDTH[_mem.vfo.b.wide]))
|
1160
|
work.append(rs)
|
1161
|
|
1162
|
rs = RadioSetting("vfo.b.scode", "VFO B S-CODE",
|
1163
|
RadioSettingValueList(
|
1164
|
LIST_SCODE,
|
1165
|
LIST_SCODE[_mem.vfo.b.scode]))
|
1166
|
work.append(rs)
|
1167
|
|
1168
|
rs = RadioSetting("vfo.b.step", "VFO B Tuning Step",
|
1169
|
RadioSettingValueList(
|
1170
|
LIST_STEP, LIST_STEP[_mem.vfo.b.step]))
|
1171
|
work.append(rs)
|
1172
|
|
1173
|
rs = RadioSetting("vfo.b.fhss", "VFO B FHSS",
|
1174
|
RadioSettingValueBoolean(_mem.vfo.b.fhss))
|
1175
|
work.append(rs)
|
1176
|
|
1177
|
rs = RadioSetting("vfo.b.rxtone", "VFA B RX QT/DQT",
|
1178
|
RadioSettingValueList(self.RXTX_CODES,
|
1179
|
getToneIndex(_mem.vfo.b.rxtone)))
|
1180
|
rs.set_apply_callback(apply_rxtone, _mem.vfo.b)
|
1181
|
work.append(rs)
|
1182
|
|
1183
|
rs = RadioSetting("vfo.b.txtone", "VFA B TX QT/DQT",
|
1184
|
RadioSettingValueList(self.RXTX_CODES,
|
1185
|
getToneIndex(_mem.vfo.b.txtone)))
|
1186
|
rs.set_apply_callback(apply_txtone, _mem.vfo.b)
|
1187
|
work.append(rs)
|
1188
|
|
1189
|
if self._vfoscan:
|
1190
|
def scan_validate(value):
|
1191
|
freqOk = False
|
1192
|
for band in self.VALID_BANDS:
|
1193
|
if value >= (band[0]/1000000) and value <= (band[1]/1000000):
|
1194
|
freqOk = True
|
1195
|
if not freqOk:
|
1196
|
raise InvalidValueError("Invalid frequency!")
|
1197
|
return value
|
1198
|
|
1199
|
scanMin = RadioSettingValueInteger(0, 800,
|
1200
|
_mem.settings.vfoscanmin)
|
1201
|
scanMin.set_validate_callback(scan_validate)
|
1202
|
rs = RadioSetting("settings.vfoscanmin", "VFO scan range minimum", scanMin)
|
1203
|
work.append(rs)
|
1204
|
|
1205
|
scanMax = RadioSettingValueInteger(0, 800,
|
1206
|
_mem.settings.vfoscanmax)
|
1207
|
scanMax.set_validate_callback(scan_validate)
|
1208
|
rs = RadioSetting("settings.vfoscanmax", "VFO scan range maximum", scanMax)
|
1209
|
work.append(rs)
|
1210
|
|
1211
|
rs = RadioSetting("settings.bcl", "BCL",
|
1212
|
RadioSettingValueBoolean(_mem.settings.bcl))
|
1213
|
work.append(rs)
|
1214
|
|
1215
|
rs = RadioSetting("settings.pttid", "PTT ID",
|
1216
|
RadioSettingValueList(self.PTTID_LIST,
|
1217
|
self.PTTID_LIST[_mem.settings.pttid]))
|
1218
|
work.append(rs)
|
1219
|
|
1220
|
return top
|
1221
|
|
1222
|
|
1223
|
|
1224
|
# TODO: implement settings
|
1225
|
|
1226
|
|
1227
|
def sync_in(self):
|
1228
|
"""Download from radio"""
|
1229
|
try:
|
1230
|
data = _download(self)
|
1231
|
except errors.RadioError:
|
1232
|
# Pass through any real errors we raise
|
1233
|
raise
|
1234
|
except:
|
1235
|
# If anything unexpected happens, make sure we raise
|
1236
|
# a RadioError and log the problem
|
1237
|
LOG.exception('Unexpected error during download')
|
1238
|
raise errors.RadioError('Unexpected error communicating '
|
1239
|
'with the radio')
|
1240
|
self._mmap = memmap.MemoryMapBytes(data)
|
1241
|
|
1242
|
self.process_mmap()
|
1243
|
|
1244
|
def sync_out(self):
|
1245
|
"""Upload to radio"""
|
1246
|
try:
|
1247
|
_upload(self)
|
1248
|
except errors.RadioError:
|
1249
|
raise
|
1250
|
except Exception:
|
1251
|
# If anything unexpected happens, make sure we raise
|
1252
|
# a RadioError and log the problem
|
1253
|
LOG.exception('Unexpected error during upload')
|
1254
|
raise errors.RadioError('Unexpected error communicating '
|
1255
|
'with the radio')
|
1256
|
|
1257
|
def get_features(self):
|
1258
|
"""Get the radio's features"""
|
1259
|
|
1260
|
rf = chirp_common.RadioFeatures()
|
1261
|
rf.has_settings = True
|
1262
|
rf.has_bank = False
|
1263
|
rf.has_tuning_step = False
|
1264
|
rf.can_odd_split = True
|
1265
|
rf.has_name = True
|
1266
|
rf.has_offset = True
|
1267
|
rf.has_mode = True
|
1268
|
rf.has_dtcs = True
|
1269
|
rf.has_rx_dtcs = True
|
1270
|
rf.has_dtcs_polarity = True
|
1271
|
rf.has_ctone = True
|
1272
|
rf.has_cross = True
|
1273
|
rf.valid_modes = self.MODES
|
1274
|
rf.valid_characters = self.VALID_CHARS
|
1275
|
rf.valid_name_length = self.LENGTH_NAME
|
1276
|
if self._gmrs:
|
1277
|
rf.valid_duplexes = ["", "+", "off"]
|
1278
|
else:
|
1279
|
rf.valid_duplexes = ["", "-", "+", "split", "off"]
|
1280
|
rf.valid_tmodes = ['', 'Tone', 'TSQL', 'DTCS', 'Cross']
|
1281
|
rf.valid_cross_modes = [
|
1282
|
"Tone->Tone",
|
1283
|
"DTCS->",
|
1284
|
"->DTCS",
|
1285
|
"Tone->DTCS",
|
1286
|
"DTCS->Tone",
|
1287
|
"->Tone",
|
1288
|
"DTCS->DTCS"]
|
1289
|
rf.valid_skips = self.SKIP_VALUES
|
1290
|
rf.valid_dtcs_codes = self.DTCS_CODES
|
1291
|
rf.memory_bounds = (0, 999)
|
1292
|
rf.valid_power_levels = self.POWER_LEVELS
|
1293
|
rf.valid_bands = self.VALID_BANDS
|
1294
|
rf.valid_tuning_steps = STEPS
|
1295
|
|
1296
|
return rf
|
1297
|
|
1298
|
def _is_txinh(self, _mem):
|
1299
|
raw_tx = ""
|
1300
|
for i in range(0, 4):
|
1301
|
raw_tx += _mem.txfreq[i].get_raw()
|
1302
|
return raw_tx == "\xFF\xFF\xFF\xFF"
|
1303
|
|
1304
|
def get_memory(self, number):
|
1305
|
_mem = self._memobj.memory[number]
|
1306
|
#_nam = self._memobj.names[number]
|
1307
|
#print(number)
|
1308
|
#print(_mem)
|
1309
|
#print(_nam)
|
1310
|
|
1311
|
mem = chirp_common.Memory()
|
1312
|
mem.number = number
|
1313
|
|
1314
|
if _mem.get_raw()[0] == "\xff":
|
1315
|
mem.empty = True
|
1316
|
return mem
|
1317
|
|
1318
|
mem.freq = int(_mem.rxfreq) * 10
|
1319
|
|
1320
|
if self._is_txinh(_mem):
|
1321
|
# TX freq not set
|
1322
|
mem.duplex = "off"
|
1323
|
mem.offset = 0
|
1324
|
else:
|
1325
|
# TX freq set
|
1326
|
offset = (int(_mem.txfreq) * 10) - mem.freq
|
1327
|
if offset != 0:
|
1328
|
if _split(self.get_features(), mem.freq, int(
|
1329
|
_mem.txfreq) * 10):
|
1330
|
mem.duplex = "split"
|
1331
|
mem.offset = int(_mem.txfreq) * 10
|
1332
|
elif offset < 0:
|
1333
|
mem.offset = abs(offset)
|
1334
|
mem.duplex = "-"
|
1335
|
elif offset > 0:
|
1336
|
mem.offset = offset
|
1337
|
mem.duplex = "+"
|
1338
|
else:
|
1339
|
mem.offset = 0
|
1340
|
|
1341
|
for char in _mem.name:
|
1342
|
if str(char) == "\xFF":
|
1343
|
char = " " # The OEM software may have 0xFF mid-name
|
1344
|
mem.name += str(char)
|
1345
|
mem.name = mem.name.rstrip()
|
1346
|
|
1347
|
if not _mem.scan:
|
1348
|
mem.skip = "S"
|
1349
|
|
1350
|
levels = self.POWER_LEVELS
|
1351
|
try:
|
1352
|
mem.power = levels[_mem.lowpower]
|
1353
|
except IndexError:
|
1354
|
LOG.error("Radio reported invalid power level %s (in %s)" %
|
1355
|
(_mem.power, levels))
|
1356
|
mem.power = levels[0]
|
1357
|
|
1358
|
mem.mode = _mem.wide and "NFM" or "FM"
|
1359
|
|
1360
|
dtcs_pol = ["N", "N"]
|
1361
|
|
1362
|
if _mem.txtone in [0, 0xFFFF]:
|
1363
|
txmode = ""
|
1364
|
elif _mem.txtone >= 0x0258:
|
1365
|
txmode = "Tone"
|
1366
|
mem.rtone = int(_mem.txtone) / 10.0
|
1367
|
elif _mem.txtone <= 0x0258:
|
1368
|
txmode = "DTCS"
|
1369
|
if _mem.txtone > 0x69:
|
1370
|
index = _mem.txtone - 0x6A
|
1371
|
dtcs_pol[0] = "R"
|
1372
|
else:
|
1373
|
index = _mem.txtone - 1
|
1374
|
mem.dtcs = self.DTCS_CODES[index]
|
1375
|
else:
|
1376
|
LOG.warn("Bug: txtone is %04x" % _mem.txtone)
|
1377
|
|
1378
|
if _mem.rxtone in [0, 0xFFFF]:
|
1379
|
rxmode = ""
|
1380
|
elif _mem.rxtone >= 0x0258:
|
1381
|
rxmode = "Tone"
|
1382
|
mem.ctone = int(_mem.rxtone) / 10.0
|
1383
|
elif _mem.rxtone <= 0x0258:
|
1384
|
rxmode = "DTCS"
|
1385
|
if _mem.rxtone >= 0x6A:
|
1386
|
index = _mem.rxtone - 0x6A
|
1387
|
dtcs_pol[1] = "R"
|
1388
|
else:
|
1389
|
index = _mem.rxtone - 1
|
1390
|
mem.rx_dtcs = self.DTCS_CODES[index]
|
1391
|
else:
|
1392
|
LOG.warn("Bug: rxtone is %04x" % _mem.rxtone)
|
1393
|
|
1394
|
if txmode == "Tone" and not rxmode:
|
1395
|
mem.tmode = "Tone"
|
1396
|
elif txmode == rxmode and txmode == "Tone" and mem.rtone == mem.ctone:
|
1397
|
mem.tmode = "TSQL"
|
1398
|
elif txmode == rxmode and txmode == "DTCS" and mem.dtcs == mem.rx_dtcs:
|
1399
|
mem.tmode = "DTCS"
|
1400
|
elif rxmode or txmode:
|
1401
|
mem.tmode = "Cross"
|
1402
|
mem.cross_mode = "%s->%s" % (txmode, rxmode)
|
1403
|
|
1404
|
mem.dtcs_polarity = "".join(dtcs_pol)
|
1405
|
|
1406
|
mem.extra = RadioSettingGroup("Extra", "extra")
|
1407
|
|
1408
|
rs = RadioSetting("bcl", "BCL",
|
1409
|
RadioSettingValueBoolean(_mem.bcl))
|
1410
|
mem.extra.append(rs)
|
1411
|
|
1412
|
rs = RadioSetting("pttid", "PTT ID",
|
1413
|
RadioSettingValueList(self.PTTID_LIST,
|
1414
|
self.PTTID_LIST[_mem.pttid]))
|
1415
|
mem.extra.append(rs)
|
1416
|
|
1417
|
rs = RadioSetting("scode", "S-CODE",
|
1418
|
RadioSettingValueList(self.SCODE_LIST,
|
1419
|
self.SCODE_LIST[_mem.scode]))
|
1420
|
mem.extra.append(rs)
|
1421
|
|
1422
|
return mem
|
1423
|
|
1424
|
def set_memory(self, mem):
|
1425
|
_mem = self._memobj.memory[mem.number]
|
1426
|
|
1427
|
_mem.set_raw("\x00"*16 + "\xff" * 16)
|
1428
|
|
1429
|
if mem.empty:
|
1430
|
_mem.set_raw("\xff" * 32)
|
1431
|
return
|
1432
|
|
1433
|
_mem.rxfreq = mem.freq / 10
|
1434
|
|
1435
|
if mem.duplex == "off":
|
1436
|
for i in range(0, 4):
|
1437
|
_mem.txfreq[i].set_raw("\xFF")
|
1438
|
elif mem.duplex == "split":
|
1439
|
_mem.txfreq = mem.offset / 10
|
1440
|
elif mem.duplex == "+":
|
1441
|
_mem.txfreq = (mem.freq + mem.offset) / 10
|
1442
|
elif mem.duplex == "-":
|
1443
|
_mem.txfreq = (mem.freq - mem.offset) / 10
|
1444
|
else:
|
1445
|
_mem.txfreq = mem.freq / 10
|
1446
|
|
1447
|
_namelength = self.get_features().valid_name_length
|
1448
|
for i in range(_namelength):
|
1449
|
try:
|
1450
|
_mem.name[i] = mem.name[i]
|
1451
|
except IndexError:
|
1452
|
_mem.name[i] = "\xFF"
|
1453
|
|
1454
|
rxmode = txmode = ""
|
1455
|
if mem.tmode == "Tone":
|
1456
|
_mem.txtone = int(mem.rtone * 10)
|
1457
|
_mem.rxtone = 0
|
1458
|
elif mem.tmode == "TSQL":
|
1459
|
_mem.txtone = int(mem.ctone * 10)
|
1460
|
_mem.rxtone = int(mem.ctone * 10)
|
1461
|
elif mem.tmode == "DTCS":
|
1462
|
rxmode = txmode = "DTCS"
|
1463
|
_mem.txtone = self.DTCS_CODES.index(mem.dtcs) + 1
|
1464
|
_mem.rxtone = self.DTCS_CODES.index(mem.dtcs) + 1
|
1465
|
elif mem.tmode == "Cross":
|
1466
|
txmode, rxmode = mem.cross_mode.split("->", 1)
|
1467
|
if txmode == "Tone":
|
1468
|
_mem.txtone = int(mem.rtone * 10)
|
1469
|
elif txmode == "DTCS":
|
1470
|
_mem.txtone = self.DTCS_CODES.index(mem.dtcs) + 1
|
1471
|
else:
|
1472
|
_mem.txtone = 0
|
1473
|
if rxmode == "Tone":
|
1474
|
_mem.rxtone = int(mem.ctone * 10)
|
1475
|
elif rxmode == "DTCS":
|
1476
|
_mem.rxtone = self.DTCS_CODES.index(mem.rx_dtcs) + 1
|
1477
|
else:
|
1478
|
_mem.rxtone = 0
|
1479
|
else:
|
1480
|
_mem.rxtone = 0
|
1481
|
_mem.txtone = 0
|
1482
|
|
1483
|
if txmode == "DTCS" and mem.dtcs_polarity[0] == "R":
|
1484
|
_mem.txtone += 0x69
|
1485
|
if rxmode == "DTCS" and mem.dtcs_polarity[1] == "R":
|
1486
|
_mem.rxtone += 0x69
|
1487
|
|
1488
|
_mem.scan = mem.skip != "S"
|
1489
|
_mem.wide = mem.mode == "NFM"
|
1490
|
|
1491
|
if mem.power:
|
1492
|
_mem.lowpower = self.POWER_LEVELS.index(mem.power)
|
1493
|
else:
|
1494
|
_mem.lowpower = 0
|
1495
|
|
1496
|
# extra settings
|
1497
|
if len(mem.extra) > 0:
|
1498
|
# there are setting, parse
|
1499
|
for setting in mem.extra:
|
1500
|
if setting.get_name() == "scode":
|
1501
|
setattr(_mem, setting.get_name(), str(int(setting.value)))
|
1502
|
else:
|
1503
|
setattr(_mem, setting.get_name(), setting.value)
|
1504
|
else:
|
1505
|
# there are no extra settings, load defaults
|
1506
|
_mem.bcl = 0
|
1507
|
_mem.pttid = 0
|
1508
|
_mem.scode = 0
|
1509
|
|
1510
|
def set_settings(self, settings):
|
1511
|
_settings = self._memobj.settings
|
1512
|
_mem = self._memobj
|
1513
|
for element in settings:
|
1514
|
if not isinstance(element, RadioSetting):
|
1515
|
if element.get_name() == "fm_preset":
|
1516
|
self._set_fm_preset(element)
|
1517
|
else:
|
1518
|
self.set_settings(element)
|
1519
|
continue
|
1520
|
else:
|
1521
|
try:
|
1522
|
name = element.get_name()
|
1523
|
if "." in name:
|
1524
|
bits = name.split(".")
|
1525
|
obj = self._memobj
|
1526
|
for bit in bits[:-1]:
|
1527
|
if "/" in bit:
|
1528
|
bit, index = bit.split("/", 1)
|
1529
|
index = int(index)
|
1530
|
obj = getattr(obj, bit)[index]
|
1531
|
else:
|
1532
|
obj = getattr(obj, bit)
|
1533
|
setting = bits[-1]
|
1534
|
else:
|
1535
|
obj = _settings
|
1536
|
setting = element.get_name()
|
1537
|
|
1538
|
if element.has_apply_callback():
|
1539
|
LOG.debug("Using apply callback")
|
1540
|
element.run_apply_callback()
|
1541
|
elif element.value.get_mutable():
|
1542
|
LOG.debug("Setting %s = %s" % (setting, element.value))
|
1543
|
setattr(obj, setting, element.value)
|
1544
|
except Exception:
|
1545
|
LOG.debug(element.get_name())
|
1546
|
raise
|
1547
|
|
1548
|
def _set_fm_preset(self, settings):
|
1549
|
for element in settings:
|
1550
|
try:
|
1551
|
val = element.value
|
1552
|
if self._memobj.fm_presets <= 108.0 * 10 - 650:
|
1553
|
value = int(val.get_value() * 10 - 650)
|
1554
|
else:
|
1555
|
value = int(val.get_value() * 10)
|
1556
|
LOG.debug("Setting fm_presets = %s" % (value))
|
1557
|
if self._bw_shift:
|
1558
|
value = ((value & 0x00FF) << 8) | ((value & 0xFF00) >> 8)
|
1559
|
self._memobj.fm_presets = value
|
1560
|
except Exception:
|
1561
|
LOG.debug(element.get_name())
|
1562
|
raise
|
1563
|
|
1564
|
@classmethod
|
1565
|
def match_model(cls, filedata, filename):
|
1566
|
match_size = False
|
1567
|
match_model = False
|
1568
|
|
1569
|
# testing the file data size
|
1570
|
if len(filedata) in [cls.MEM_TOTAL + len(cls.MODEL)]:
|
1571
|
match_size = True
|
1572
|
|
1573
|
# testing the firmware model fingerprint
|
1574
|
match_model = model_match(cls, filedata)
|
1575
|
if match_size and match_model:
|
1576
|
return True
|
1577
|
else:
|
1578
|
return False
|
1579
|
|
1580
|
|
1581
|
@directory.register
|
1582
|
class UV17ProGPS(UV17Pro):
|
1583
|
VENDOR = "Baofeng"
|
1584
|
MODEL = "UV-17ProGPS"
|
1585
|
_support_banknames = True
|
1586
|
_magic = MSTRING_UV17PROGPS
|
1587
|
_magics = [b"\x46", b"\x4d", b"\x53\x45\x4E\x44\x21\x05\x0D\x01\x01\x01\x04\x11\x08\x05\x0D\x0D\x01\x11\x0F\x09\x12\x09\x10\x04\x00"]
|
1588
|
_magicResponseLengths = [16, 7, 1]
|
1589
|
_aniid = False
|
1590
|
_vfoscan = True
|
1591
|
_has_gps = True
|
1592
|
_voxsw = True
|
1593
|
_pilot_tone = True
|
1594
|
_send_id_delay = True
|
1595
|
_skey2_short = True
|
1596
|
VALID_BANDS = [UV17Pro._airband, UV17Pro._vhf_range, UV17Pro._vhf2_range,
|
1597
|
UV17Pro._uhf_range, UV17Pro._uhf2_range]
|
1598
|
|
1599
|
@directory.register
|
1600
|
class UV17L(UV17Pro):
|
1601
|
VENDOR = "Baofeng"
|
1602
|
MODEL = "UV-17L"
|
1603
|
|
1604
|
|