[chirp_devel] [PATCH] [New Model] TDXone TD-Q8A
Jim Unroe
Tue Feb 21 17:22:25 PST 2017
The TD-Q8A "factory" image to accompany this patch.
Jim
On Tue, Feb 21, 2017 at 8:12 PM, Jim Unroe <rock.unroe at gmail.com> wrote:
> # HG changeset patch
> # User Jim Unroe <rock.unroe at gmail.com>
> # Date 1487725765 18000
> # Node ID 56ee737ca5cfbc201a19ed6bdfa9b7891efb29f3
> # Parent 0611c6c740ab74c0d939634765a52ebc2b5a8497
> [New Model] TDXone TD-Q8A
>
> This patch adds support for the TDXone TD-Q8A radio.
>
> #2107
>
> diff -r 0611c6c740ab -r 56ee737ca5cf chirp/drivers/tdxone_tdq8a.py
> --- /dev/null Thu Jan 01 00:00:00 1970 +0000
> +++ b/chirp/drivers/tdxone_tdq8a.py Tue Feb 21 20:09:25 2017 -0500
> @@ -0,0 +1,1154 @@
> +# Copyright 2016:
> +# * Jim Unroe KC9HI, <rock.unroe at gmail.com>
> +#
> +# This program is free software: you can redistribute it and/or modify
> +# it under the terms of the GNU General Public License as published by
> +# the Free Software Foundation, either version 2 of the License, or
> +# (at your option) any later version.
> +#
> +# This program is distributed in the hope that it will be useful,
> +# but WITHOUT ANY WARRANTY; without even the implied warranty of
> +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
> +# GNU General Public License for more details.
> +#
> +# You should have received a copy of the GNU General Public License
> +# along with this program. If not, see <http://www.gnu.org/licenses/>.
> +
> +import time
> +import struct
> +import logging
> +import re
> +
> +from chirp import chirp_common, directory, memmap
> +from chirp import bitwise, errors, util
> +from chirp.settings import RadioSettingGroup, RadioSetting, \
> + RadioSettingValueBoolean, RadioSettingValueList, \
> + RadioSettingValueString, RadioSettingValueInteger, \
> + RadioSettingValueFloat, RadioSettings, \
> + InvalidValueError
> +from textwrap import dedent
> +
> +LOG = logging.getLogger(__name__)
> +
> +MEM_FORMAT = """
> +#seekto 0x0010;
> +struct {
> + lbcd rxfreq[4];
> + lbcd txfreq[4];
> + ul16 rxtone;
> + ul16 txtone;
> + u8 unknown1:2,
> + dtmf:1, // DTMF
> + unknown2:1,
> + bcl:1, // Busy Channel Lockout
> + unknown3:3;
> + u8 unknown4:1,
> + scan:1, // Scan Add
> + highpower:1, // TX Power Level
> + wide:1, // BandWidth
> + unknown5:4;
> + u8 unknown6[2];
> +} memory[128];
> +
> +#seekto 0x0E17;
> +struct {
> + u8 displayab:1, // Selected Display
> + unknown1:6,
> + unknown2:1;
> +} settings1;
> +
> +#seekto 0x0E22;
> +struct {
> + u8 squelcha; // menu 02a Squelch Level 0xe22
> + u8 unknown1;
> + u8 tdrab; // TDR A/B 0xe24
> + u8 roger; // menu 20 Roger Beep 0xe25
> + u8 timeout; // menu 16 TOT 0xe26
> + u8 vox; // menu 05 VOX 0xe27
> + u8 unknown2;
> + u8 mdfb; // menu 27b Memory Display Format B 0xe37
> + u8 dw; // menu 37 DW 0xe2a
> + u8 tdr; // menu 29 Dual Watch 0xe2b
> + u8 voice; // menu 03 Voice Prompts 0xe2c
> + u8 beep; // menu 01 Key Beep 0xe2d
> + u8 ani; // menu 30 ANI 0xe2e
> + u8 unknown3[4];
> + u8 pttdly; // menu 31 PTT-ID Delay 0xe33
> + u8 unknown4;
> + u8 dtmfst; // menu 33 DTMF Side Tone 0xe35
> + u8 toa; // menu 15 TOT Pre-Alert 0xe36
> + u8 mdfa; // menu 27a Memory Display Format A 0xe37
> + u8 screv; // menu 09 Scan Resume Method 0xe38
> + u8 pttid; // menu 32 PTT-ID Enable 0xe39
> + u8 ponmsg; // menu 36 Power-on Message 0xe3a
> + u8 pf1; // menu 28 Programmable Function Key 0xe3b
> + u8 unknown5;
> + u8 wtled; // menu 17 Standby LED Color 0xe3d
> + u8 rxled; // menu 18 RX LED Color 0xe3e
> + u8 txled; // menu 19 TX LED Color 0xe3f
> + u8 unknown6;
> + u8 autolk; // menu 06 Auto Key Lock 0xe41
> + u8 squelchb; // menu 02b Squelch Level 0xe42
> + u8 control; // Control Code 0xe43
> + u8 unknown7;
> + u8 ach; // Selected A channel Number 0xe45
> + u8 unknown8[4];
> + u8 password[6]; // Control Password 0xe4a-0xe4f
> + u8 unknown9[7];
> + u8 code[3]; // PTT ID Code 0xe57-0xe59
> + u8 vfomr; // Frequency/Channel Modevel 0xe5a
> + u8 keylk; // Key Lock 0xe5b
> + u8 unknown10[2];
> + u8 prioritych; // Priority Channel 0xe5e
> + u8 bch; // Selected B channel Number 0xe5f
> +} settings;
> +
> +struct vfo {
> + u8 unknown0[8];
> + u8 freq[8];
> + u8 offset[6];
> + ul16 rxtone;
> + ul16 txtone;
> + u8 unused0:7,
> + band:1;
> + u8 unknown3;
> + u8 unknown4:2,
> + sftd:2,
> + scode:4;
> + u8 unknown5;
> + u8 unknown6:1,
> + step:3,
> + unknown7:4;
> + u8 txpower:1,
> + widenarr:1,
> + unknown8:6;
> +};
> +
> +#seekto 0x0F10;
> +struct {
> + struct vfo a;
> + struct vfo b;
> +} vfo;
> +
> +#seekto 0x1010;
> +struct {
> + u8 name[6];
> + u8 unknown[10];
> +} names[128];
> +
> +"""
> +
> +##### MAGICS #########################################################
> +
> +# TDXone TD-Q8A magic string
> +MSTRING_TDQ8A = "\x02PYNCRAM"
> +
> +#STIMEOUT = 2
> +
> +LIST_DTMF = ["QT", "QT+DTMF"]
> +LIST_VOICE = ["Off", "Chinese", "English"]
> +LIST_OFF1TO9 = ["Off"] + list("123456789")
> +LIST_OFF1TO10 = LIST_OFF1TO9 + ["10"]
> +LIST_RESUME = ["Time Operated(TO)", "Carrier Operated(CO)", "Search(SE)"]
> +LIST_COLOR = ["Off", "Blue", "Orange", "Purple"]
> +LIST_MODE = ["Channel", "Frequency", "Name"]
> +LIST_PF1 = ["Off", "Scan", "Lamp", "FM Radio", "Alarm"]
> +LIST_OFF1TO30 = ["OFF"] + ["%s" % x for x in range(1, 31)]
> +LIST_DTMFST = ["Off", "DTMF Sidetone", "ANI Sidetone", "DTMF+ANI Sidetone"]
> +LIST_PONMSG = ["Full", "Welcome", "Battery Voltage"]
> +LIST_TIMEOUT = ["Off"] + ["%s sec" % x for x in range(15, 615, 15)]
> +LIST_PTTID = ["BOT", "EOT", "Both"]
> +LIST_ROGER = ["Off"] + LIST_PTTID
> +LIST_PRIORITY = ["Off"] + ["%s" % x for x in range(1, 129)]
> +LIST_WORKMODE = ["Frequency", "Channel"]
> +LIST_AB = ["A", "B"]
> +
> +LIST_ALMOD = ["Site", "Tone", "Code"]
> +LIST_BANDWIDTH = ["Wide", "Narrow"]
> +LIST_DELAYPROCTIME = ["%s ms" % x for x in range(100, 4100, 100)]
> +LIST_DTMFSPEED = ["%s ms" % x for x in range(50, 2010, 10)]
> +LIST_OFFAB = ["Off"] + LIST_AB
> +LIST_RESETTIME = ["%s ms" % x for x in range(100, 16100, 100)]
> +LIST_SCODE = ["%s" % x for x in range(1, 16)]
> +LIST_RPSTE = ["Off"] + ["%s" % x for x in range(1, 11)]
> +LIST_SAVE = ["Off", "1:1", "1:2", "1:3", "1:4"]
> +LIST_SHIFTD = ["Off", "+", "-"]
> +LIST_STEDELAY = ["Off"] + ["%s ms" % x for x in range(100, 1100, 100)]
> +#LIST_STEP = [str(x) for x in STEPS]
> +LIST_TXPOWER = ["High", "Low"]
> +LIST_DTMF_SPECIAL_DIGITS = [ "*", "#", "A", "B", "C", "D"]
> +LIST_DTMF_SPECIAL_VALUES = [ 0x0B, 0x0C, 0x0D, 0x0E, 0x0F, 0x00]
> +
> +CHARSET = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ?+-*"
> +STEPS = [2.5, 5.0, 6.25, 10.0, 12.5, 25.0]
> +POWER_LEVELS = [chirp_common.PowerLevel("High", watts=5),
> + chirp_common.PowerLevel("Low", watts=1)]
> +VALID_BANDS = [(136000000, 174000000),
> + (400000000, 520000000)]
> +
> +
> +#def _clean_buffer(radio):
> +# radio.pipe.timeout = 0.005
> +# junk = radio.pipe.read(256)
> +# radio.pipe.timeout = STIMEOUT
> +# if junk:
> +# LOG.debug("Got %i bytes of junk before starting" % len(junk))
> +
> +
> +def _rawrecv(radio, amount):
> + """Raw read from the radio device"""
> + data = ""
> + try:
> + data = radio.pipe.read(amount)
> + except:
> + msg = "Generic error reading data from radio; check your cable."
> + raise errors.RadioError(msg)
> +
> + if len(data) != amount:
> + msg = "Error reading data from radio: not the amount of data we want."
> + raise errors.RadioError(msg)
> +
> + return data
> +
> +
> +def _rawsend(radio, data):
> + """Raw send to the radio device"""
> + try:
> + radio.pipe.write(data)
> + except:
> + raise errors.RadioError("Error sending data to radio")
> +
> +
> +def _make_frame(cmd, addr, length, data=""):
> + """Pack the info in the headder format"""
> + frame = struct.pack(">BHB", ord(cmd), addr, length)
> + # add the data if set
> + if len(data) != 0:
> + frame += data
> + # return the data
> + return frame
> +
> +
> +def _recv(radio, addr, length):
> + """Get data from the radio """
> + # read 4 bytes of header
> + hdr = _rawrecv(radio, 4)
> +
> + # read data
> + data = _rawrecv(radio, length)
> +
> + # DEBUG
> + LOG.info("Response:")
> + LOG.debug(util.hexprint(hdr + data))
> +
> + c, a, l = struct.unpack(">BHB", hdr)
> + if a != addr or l != length or c != ord("W"):
> + LOG.error("Invalid answer for block 0x%04x:" % addr)
> + LOG.debug("CMD: %s ADDR: %04x SIZE: %02x" % (c, a, l))
> + raise errors.RadioError("Unknown response from the radio")
> +
> + return data
> +
> +
> +def _do_ident(radio, magic):
> + """Put the radio in PROGRAM mode"""
> + # set the serial discipline
> + radio.pipe.baudrate = 9600
> + ####radio.pipe.timeout = STIMEOUT
> +
> + ## flush input buffer
> + #_clean_buffer(radio)
> +
> + # send request to enter program mode
> + _rawsend(radio, magic)
> +
> + ack = _rawrecv(radio, 1)
> + if ack != "\x06":
> + if ack:
> + LOG.debug(repr(ack))
> + raise errors.RadioError("Radio did not respond")
> +
> + _rawsend(radio, "\x02")
> +
> + # Ok, get the response
> + ident = _rawrecv(radio, radio._magic_response_length)
> +
> + # check if response is OK
> + if not ident.startswith("P3107"):
> + # bad response
> + msg = "Unexpected response, got this:"
> + msg += util.hexprint(ident)
> + LOG.debug(msg)
> + raise errors.RadioError("Unexpected response from radio.")
> +
> + # DEBUG
> + LOG.info("Valid response, got this:")
> + LOG.debug(util.hexprint(ident))
> +
> + _rawsend(radio, "\x06")
> + ack = _rawrecv(radio, 1)
> + if ack != "\x06":
> + if ack:
> + LOG.debug(repr(ack))
> + raise errors.RadioError("Radio refused clone")
> +
> + return ident
> +
> +
> +def _ident_radio(radio):
> + for magic in radio._magic:
> + error = None
> + try:
> + data = _do_ident(radio, magic)
> + return data
> + except errors.RadioError, e:
> + print e
> + error = e
> + time.sleep(2)
> + if error:
> + raise error
> + raise errors.RadioError("Radio did not respond")
> +
> +
> +def _download(radio):
> + """Get the memory map"""
> + # put radio in program mode
> + ident = _ident_radio(radio)
> +
> + # UI progress
> + status = chirp_common.Status()
> + status.cur = 0
> + status.max = radio._mem_size / radio._recv_block_size
> + status.msg = "Cloning from radio..."
> + radio.status_fn(status)
> +
> + data = ""
> + for addr in range(0, radio._mem_size, radio._recv_block_size):
> + frame = _make_frame("R", addr, radio._recv_block_size)
> + # DEBUG
> + LOG.info("Request sent:")
> + LOG.debug(util.hexprint(frame))
> +
> + # sending the read request
> + _rawsend(radio, frame)
> +
> + # now we read
> + d = _recv(radio, addr, radio._recv_block_size)
> +
> + time.sleep(0.05)
> +
> + _rawsend(radio, "\x06")
> +
> + ack = _rawrecv(radio, 1)
> + if ack != "\x06":
> + raise errors.RadioError(
> + "Radio refused to send block 0x%04x" % addr)
> +
> + ####time.sleep(0.05)
> +
> + # aggregate the data
> + data += d
> +
> + # UI Update
> + status.cur = addr / radio._recv_block_size
> + status.msg = "Cloning from radio..."
> + radio.status_fn(status)
> +
> + data += radio.MODEL.ljust(8)
> +
> + return data
> +
> +
> +def _upload(radio):
> + """Upload procedure"""
> + # put radio in program mode
> + _ident_radio(radio)
> +
> +
> +
> + addr = 0x0f80
> + frame = _make_frame("R", addr, radio._recv_block_size)
> + # DEBUG
> + LOG.info("Request sent:")
> + LOG.debug(util.hexprint(frame))
> +
> + # sending the read request
> + _rawsend(radio, frame)
> +
> + # now we read
> + d = _recv(radio, addr, radio._recv_block_size)
> +
> + time.sleep(0.05)
> +
> + _rawsend(radio, "\x06")
> +
> + ack = _rawrecv(radio, 1)
> + if ack != "\x06":
> + raise errors.RadioError(
> + "Radio refused to send block 0x%04x" % addr)
> +
> +
> +
> + _ranges = radio._ranges
> +
> + # UI progress
> + status = chirp_common.Status()
> + status.cur = 0
> + status.max = radio._mem_size / radio._send_block_size
> + status.msg = "Cloning to radio..."
> + radio.status_fn(status)
> +
> + # the fun start here
> + for start, end in _ranges:
> + for addr in range(start, end, radio._send_block_size):
> + # sending the data
> + data = radio.get_mmap()[addr:addr + radio._send_block_size]
> +
> + frame = _make_frame("W", addr, radio._send_block_size, data)
> +
> + _rawsend(radio, frame)
> + #time.sleep(0.05)
> +
> + # receiving the response
> + ack = _rawrecv(radio, 1)
> + if ack != "\x06":
> + msg = "Bad ack writing block 0x%04x" % addr
> + raise errors.RadioError(msg)
> +
> + # UI Update
> + status.cur = addr / radio._send_block_size
> + status.msg = "Cloning to radio..."
> + radio.status_fn(status)
> +
> +
> +def model_match(cls, data):
> + """Match the opened/downloaded image to the correct version"""
> +
> + if len(data) == 0x2008:
> + rid = data[0x2000:0x2008]
> + print rid
> + return rid.startswith(cls.MODEL)
> + else:
> + return False
> +
> +
> +def _split(rf, f1, f2):
> + """Returns False if the two freqs are in the same band (no split)
> + or True otherwise"""
> +
> + # determine if the two freqs are in the same band
> + for low, high in rf.valid_bands:
> + if f1 >= low and f1 <= high and \
> + f2 >= low and f2 <= high:
> + # if the two freqs are on the same Band this is not a split
> + return False
> +
> + # if you get here is because the freq pairs are split
> + return True
> +
> +
> + at directory.register
> +class TDXoneTDQ8A(chirp_common.CloneModeRadio,
> + chirp_common.ExperimentalRadio):
> + """TDXone TD-Q8A Radio"""
> + VENDOR = "TDXone"
> + MODEL = "TD-Q8A"
> +
> + ####_fileid = [TDQ8A_fp1, ]
> +
> + _magic = [MSTRING_TDQ8A, MSTRING_TDQ8A,]
> + _magic_response_length = 8
> + _fw_ver_start = 0x1EF0
> + _recv_block_size = 0x40
> + _mem_size = 0x2000
> +
> + #_ranges = [(0x0000, 0x2000)]
> + # same as radio
> + #_ranges = [(0x0010, 0x0810),
> + # (0x0F10, 0x0F30),
> + # (0x1010, 0x1810),
> + # (0x0E20, 0x0E60),
> + # (0x1F10, 0x1F30)]
> + # in increasing order
> + _ranges = [(0x0010, 0x0810),
> + (0x0E20, 0x0E60),
> + (0x0F10, 0x0F30),
> + (0x1010, 0x1810),
> + (0x1F10, 0x1F30)]
> + _send_block_size = 0x10
> +
> + #DTCS_CODES = sorted(chirp_common.DTCS_CODES + [645])
> + #DTCS_CODES = sorted(chirp_common.ALL_DTCS_CODES)
> + #POWER_LEVELS = [chirp_common.PowerLevel("Low", watts=1.00),
> + # chirp_common.PowerLevel("High", watts=5.00)]
> + #VALID_BANDS = [(136000000, 174000000),
> + # (400000000, 520000000)]
> +
> +
> + @classmethod
> + def get_prompts(cls):
> + rp = chirp_common.RadioPrompts()
> + rp.experimental = \
> + ('The TDXone TD-Q8A driver is a beta version.\n'
> + '\n'
> + 'Please save an unedited copy of your first successful\n'
> + 'download to a CHIRP Radio Images(*.img) file.'
> + )
> + rp.pre_download = _(dedent("""\
> + Follow these instructions to download your info:
> +
> + 1 - Turn off your radio
> + 2 - Connect your interface cable
> + 3 - Turn on your radio
> + 4 - Do the download of your radio data
> + """))
> + rp.pre_upload = _(dedent("""\
> + Follow this instructions to upload your info:
> +
> + 1 - Turn off your radio
> + 2 - Connect your interface cable
> + 3 - Turn on your radio
> + 4 - Do the upload of your radio data
> + """))
> + return rp
> +
> +
> + def get_features(self):
> + """Get the radio's features"""
> +
> + rf = chirp_common.RadioFeatures()
> + rf.has_settings = True
> + rf.has_bank = False
> + rf.has_tuning_step = False
> + rf.can_odd_split = True
> + rf.has_name = True
> + rf.has_offset = True
> + rf.has_mode = True
> + rf.has_dtcs = False #True
> + rf.has_rx_dtcs = False #True
> + rf.has_dtcs_polarity = False #True
> + rf.has_ctone = True
> + rf.has_cross = True
> + rf.valid_modes = ["FM", "NFM"]
> + #rf.valid_characters = self.VALID_CHARS
> + rf.valid_characters = CHARSET
> + rf.valid_name_length = 6
> + rf.valid_duplexes = ["", "-", "+", "split", "off"]
> + #rf.valid_tmodes = ['', 'Tone', 'TSQL', 'DTCS', 'Cross']
> + #rf.valid_cross_modes = [
> + # "Tone->Tone",
> + # "DTCS->",
> + # "->DTCS",
> + # "Tone->DTCS",
> + # "DTCS->Tone",
> + # "->Tone",
> + # "DTCS->DTCS"]
> + rf.valid_tmodes = ['', 'Tone', 'TSQL', 'Cross']
> + rf.valid_cross_modes = [
> + "Tone->Tone",
> + "->Tone"]
> + rf.valid_skips = ["", "S"]
> + #rf.valid_dtcs_codes = self.DTCS_CODES
> + rf.memory_bounds = (1, 128)
> + rf.valid_power_levels = POWER_LEVELS
> + rf.valid_bands = VALID_BANDS
> +
> + return rf
> +
> +
> + def process_mmap(self):
> + """Process the mem map into the mem object"""
> + self._memobj = bitwise.parse(MEM_FORMAT, self._mmap)
> +
> +
> + def sync_in(self):
> + """Download from radio"""
> + try:
> + data = _download(self)
> + except errors.RadioError:
> + # Pass through any real errors we raise
> + raise
> + except:
> + # If anything unexpected happens, make sure we raise
> + # a RadioError and log the problem
> + LOG.exception('Unexpected error during download')
> + raise errors.RadioError('Unexpected error communicating '
> + 'with the radio')
> + self._mmap = memmap.MemoryMap(data)
> + self.process_mmap()
> +
> +
> + def sync_out(self):
> + """Upload to radio"""
> + try:
> + _upload(self)
> + except:
> + # If anything unexpected happens, make sure we raise
> + # a RadioError and log the problem
> + LOG.exception('Unexpected error during upload')
> + raise errors.RadioError('Unexpected error communicating '
> + 'with the radio')
> +
> +
> + def _is_txinh(self, _mem):
> + raw_tx = ""
> + for i in range(0, 4):
> + raw_tx += _mem.txfreq[i].get_raw()
> + return raw_tx == "\xFF\xFF\xFF\xFF"
> +
> +
> + def _get_mem(self, number):
> + return self._memobj.memory[number - 1]
> +
> + def _get_nam(self, number):
> + return self._memobj.names[number - 1]
> +
> + def get_memory(self, number):
> + _mem = self._get_mem(number)
> + _nam = self._get_nam(number)
> +
> + mem = chirp_common.Memory()
> + mem.number = number
> +
> + if _mem.get_raw()[0] == "\xff":
> + mem.empty = True
> + return mem
> +
> + mem.freq = int(_mem.rxfreq) * 10
> +
> + if self._is_txinh(_mem):
> + # TX freq not set
> + mem.duplex = "off"
> + mem.offset = 0
> + else:
> + # TX freq set
> + offset = (int(_mem.txfreq) * 10) - mem.freq
> + if offset != 0:
> + if _split(self.get_features(), mem.freq, int(_mem.txfreq) * 10):
> + mem.duplex = "split"
> + mem.offset = int(_mem.txfreq) * 10
> + elif offset < 0:
> + mem.offset = abs(offset)
> + mem.duplex = "-"
> + elif offset > 0:
> + mem.offset = offset
> + mem.duplex = "+"
> + else:
> + mem.offset = 0
> +
> + if _nam.name:
> + for char in _nam.name:
> + try:
> + mem.name += CHARSET[char]
> + except IndexError:
> + break
> + mem.name = mem.name.rstrip()
> +
> + #dtcs_pol = ["N", "N"]
> +
> + if _mem.txtone in [0, 0xFFFF]:
> + txmode = ""
> + elif _mem.txtone >= 0x0258:
> + txmode = "Tone"
> + mem.rtone = int(_mem.txtone) / 10.0
> + else:
> + LOG.warn("Bug: txtone is %04x" % _mem.txtone)
> +
> + #elif _mem.txtone <= 0x0258:
> + # txmode = "DTCS"
> + # if _mem.txtone > 0x69:
> + # index = _mem.txtone - 0x6A
> + # dtcs_pol[0] = "R"
> + # else:
> + # index = _mem.txtone - 1
> + # mem.dtcs = self.DTCS_CODES[index]
> + #else:
> + # LOG.warn("Bug: txtone is %04x" % _mem.txtone)
> +
> + if _mem.rxtone in [0, 0xFFFF]:
> + rxmode = ""
> + elif _mem.rxtone >= 0x0258:
> + rxmode = "Tone"
> + mem.ctone = int(_mem.rxtone) / 10.0
> + else:
> + LOG.warn("Bug: rxtone is %04x" % _mem.rxtone)
> +
> + #elif _mem.rxtone <= 0x0258:
> + # rxmode = "DTCS"
> + # if _mem.rxtone >= 0x6A:
> + # index = _mem.rxtone - 0x6A
> + # dtcs_pol[1] = "R"
> + # else:
> + # index = _mem.rxtone - 1
> + # mem.rx_dtcs = self.DTCS_CODES[index]
> + #else:
> + # LOG.warn("Bug: rxtone is %04x" % _mem.rxtone)
> +
> + if txmode == "Tone" and not rxmode:
> + mem.tmode = "Tone"
> + elif txmode == rxmode and txmode == "Tone" and mem.rtone == mem.ctone:
> + mem.tmode = "TSQL"
> + elif rxmode or txmode:
> + mem.tmode = "Cross"
> + mem.cross_mode = "%s->%s" % (txmode, rxmode)
> +
> + #elif txmode == rxmode and txmode == "DTCS" and mem.dtcs == mem.rx_dtcs:
> + # mem.tmode = "DTCS"
> + #elif rxmode or txmode:
> + # mem.tmode = "Cross"
> + # mem.cross_mode = "%s->%s" % (txmode, rxmode)
> +
> + #mem.dtcs_polarity = "".join(dtcs_pol)
> +
> + if not _mem.scan:
> + mem.skip = "S"
> +
> + mem.power = POWER_LEVELS[1 - _mem.highpower]
> +
> + mem.mode = _mem.wide and "FM" or "NFM"
> +
> + mem.extra = RadioSettingGroup("Extra", "extra")
> +
> + rs = RadioSetting("dtmf", "DTMF",
> + RadioSettingValueList(LIST_DTMF,
> + LIST_DTMF[_mem.dtmf]))
> + mem.extra.append(rs)
> +
> + rs = RadioSetting("bcl", "BCL",
> + RadioSettingValueBoolean(_mem.bcl))
> + mem.extra.append(rs)
> +
> + return mem
> +
> +
> + def _set_mem(self, number):
> + return self._memobj.memory[number - 1]
> +
> + def _set_nam(self, number):
> + return self._memobj.names[number - 1]
> +
> + def set_memory(self, mem):
> + _mem = self._get_mem(mem.number)
> + _nam = self._get_nam(mem.number)
> +
> + if mem.empty:
> + _mem.set_raw("\xff" * 12 + "\xbf" +"\xff" * 3)
> + _nam.set_raw("\xff" * 16)
> + return
> +
> + #_mem.set_raw("\x00" * 16)
> + _mem.set_raw("\xff" * 12 + "\x9f" +"\xff" * 3)
> +
> + _mem.rxfreq = mem.freq / 10
> +
> + if mem.duplex == "off":
> + for i in range(0, 4):
> + _mem.txfreq[i].set_raw("\xFF")
> + elif mem.duplex == "split":
> + _mem.txfreq = mem.offset / 10
> + elif mem.duplex == "+":
> + _mem.txfreq = (mem.freq + mem.offset) / 10
> + elif mem.duplex == "-":
> + _mem.txfreq = (mem.freq - mem.offset) / 10
> + else:
> + _mem.txfreq = mem.freq / 10
> +
> + if _nam.name:
> + for i in range(0, 6):
> + try:
> + _nam.name[i] = CHARSET.index(mem.name[i])
> + except IndexError:
> + _nam.name[i] = 0xFF
> +
> + rxmode = txmode = ""
> + if mem.tmode == "Tone":
> + _mem.txtone = int(mem.rtone * 10)
> + _mem.rxtone = 0
> + elif mem.tmode == "TSQL":
> + _mem.txtone = int(mem.ctone * 10)
> + _mem.rxtone = int(mem.ctone * 10)
> + #elif mem.tmode == "DTCS":
> + # rxmode = txmode = "DTCS"
> + # _mem.txtone = self.DTCS_CODES.index(mem.dtcs) + 1
> + # _mem.rxtone = self.DTCS_CODES.index(mem.dtcs) + 1
> + elif mem.tmode == "Cross":
> + txmode, rxmode = mem.cross_mode.split("->", 1)
> + if txmode == "Tone":
> + _mem.txtone = int(mem.rtone * 10)
> + #elif txmode == "DTCS":
> + # _mem.txtone = self.DTCS_CODES.index(mem.dtcs) + 1
> + else:
> + _mem.txtone = 0
> + if rxmode == "Tone":
> + _mem.rxtone = int(mem.ctone * 10)
> + #elif rxmode == "DTCS":
> + # _mem.rxtone = self.DTCS_CODES.index(mem.rx_dtcs) + 1
> + else:
> + _mem.rxtone = 0
> + else:
> + _mem.rxtone = 0
> + _mem.txtone = 0
> +
> + #if txmode == "DTCS" and mem.dtcs_polarity[0] == "R":
> + # _mem.txtone += 0x69
> + #if rxmode == "DTCS" and mem.dtcs_polarity[1] == "R":
> + # _mem.rxtone += 0x69
> +
> + _mem.scan = mem.skip != "S"
> + _mem.wide = mem.mode == "FM"
> +
> + _mem.highpower = mem.power == POWER_LEVELS[0]
> +
> + for setting in mem.extra:
> + setattr(_mem, setting.get_name(), setting.value)
> +
> +
> + def get_settings(self):
> + # """Translate the bit in the mem_struct into settings in the UI"""
> + _mem = self._memobj
> + basic = RadioSettingGroup("basic", "Basic Settings")
> + advanced = RadioSettingGroup("advanced", "Advanced Settings")
> + #other = RadioSettingGroup("other", "Other Settings")
> + #work = RadioSettingGroup("work", "Work Mode Settings")
> + #fm_preset = RadioSettingGroup("fm_preset", "FM Preset")
> + #dtmfe = RadioSettingGroup("dtmfe", "DTMF Encode Settings")
> + #dtmfd = RadioSettingGroup("dtmfd", "DTMF Decode Settings")
> + #service = RadioSettingGroup("service", "Service Settings")
> + #top = RadioSettings(basic, advanced, other, work, fm_preset, dtmfe,
> + # dtmfd, service)
> + top = RadioSettings(basic, advanced, )
> +
> + # Basic settings
> + rs = RadioSetting("settings.beep", "Beep",
> + RadioSettingValueBoolean(_mem.settings.beep))
> + basic.append(rs)
> +
> + if _mem.settings.squelcha > 0x09:
> + val = 0x00
> + else:
> + val = _mem.settings.squelcha
> + rs = RadioSetting("squelcha", "Squelch Level A",
> + RadioSettingValueInteger(0, 9, _mem.settings.squelcha))
> + basic.append(rs)
> +
> +
> + if _mem.settings.squelchb > 0x09:
> + val = 0x00
> + else:
> + val = _mem.settings.squelchb
> + rs = RadioSetting("squelchb", "Squelch Level B",
> + RadioSettingValueInteger(0, 9, _mem.settings.squelchb))
> + basic.append(rs)
> +
> +
> + if _mem.settings.voice > 0x02:
> + val = 0x01
> + else:
> + val = _mem.settings.voice
> + rs = RadioSetting("settings.voice", "Voice Prompt",
> + RadioSettingValueList(
> + LIST_VOICE, LIST_VOICE[val]))
> + basic.append(rs)
> +
> + if _mem.settings.vox > 0x0A:
> + val = 0x00
> + else:
> + val = _mem.settings.vox
> + rs = RadioSetting("settings.vox", "VOX",
> + RadioSettingValueList(
> + LIST_OFF1TO10, LIST_OFF1TO10[val]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.autolk", "Automatic Key Lock",
> + RadioSettingValueBoolean(_mem.settings.autolk))
> + basic.append(rs)
> +
> + if _mem.settings.screv > 0x02:
> + val = 0x01
> + else:
> + val = _mem.settings.screv
> + rs = RadioSetting("settings.screv", "Scan Resume",
> + RadioSettingValueList(
> + LIST_RESUME, LIST_RESUME[val]))
> + basic.append(rs)
> +
> + if _mem.settings.toa > 0x0A:
> + val = 0x00
> + else:
> + val = _mem.settings.toa
> + rs = RadioSetting("settings.toa", "Time-out Pre-Alert",
> + RadioSettingValueList(
> + LIST_OFF1TO10, LIST_OFF1TO10[val]))
> + basic.append(rs)
> +
> + if _mem.settings.timeout > 0x28:
> + val = 0x03
> + else:
> + val = _mem.settings.timeout
> + rs = RadioSetting("settings.timeout", "Timeout Timer",
> + RadioSettingValueList(
> + LIST_TIMEOUT, LIST_TIMEOUT[val]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.wtled", "Standby LED Color",
> + RadioSettingValueList(
> + LIST_COLOR, LIST_COLOR[_mem.settings.wtled]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.rxled", "RX LED Color",
> + RadioSettingValueList(
> + LIST_COLOR, LIST_COLOR[_mem.settings.rxled]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.txled", "TX LED Color",
> + RadioSettingValueList(
> + LIST_COLOR, LIST_COLOR[_mem.settings.txled]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.roger", "Roger Beep",
> + RadioSettingValueList(LIST_ROGER, LIST_ROGER[
> + _mem.settings.roger]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.mdfa", "Display Mode (A)",
> + RadioSettingValueList(LIST_MODE, LIST_MODE[
> + _mem.settings.mdfa]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.mdfb", "Display Mode (B)",
> + RadioSettingValueList(LIST_MODE, LIST_MODE[
> + _mem.settings.mdfb]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.pf1", "PF1 Key Assignment",
> + RadioSettingValueList(LIST_PF1, LIST_PF1[
> + _mem.settings.pf1]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.tdr", "Dual Watch(TDR)",
> + RadioSettingValueBoolean(_mem.settings.tdr))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.ani", "ANI",
> + RadioSettingValueBoolean(_mem.settings.ani))
> + basic.append(rs)
> +
> + if _mem.settings.pttdly > 0x0A:
> + val = 0x00
> + else:
> + val = _mem.settings.pttdly
> + rs = RadioSetting("settings.pttdly", "PTT ID Delay",
> + RadioSettingValueList(
> + LIST_OFF1TO30, LIST_OFF1TO30[val]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.pttid", "When to send PTT ID",
> + RadioSettingValueList(LIST_PTTID,
> + LIST_PTTID[_mem.settings.pttid]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.dtmfst", "DTMF Sidetone",
> + RadioSettingValueList(LIST_DTMFST, LIST_DTMFST[
> + _mem.settings.dtmfst]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.ponmsg", "Power-On Message",
> + RadioSettingValueList(LIST_PONMSG, LIST_PONMSG[
> + _mem.settings.ponmsg]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.dw", "DW",
> + RadioSettingValueBoolean(_mem.settings.dw))
> + basic.append(rs)
> +
> + # Advanced settings
> + rs = RadioSetting("settings.prioritych", "Priority Channel",
> + RadioSettingValueList(LIST_PRIORITY, LIST_PRIORITY[
> + _mem.settings.prioritych]))
> + advanced.append(rs)
> +
> + rs = RadioSetting("settings.vfomr", "Work Mode",
> + RadioSettingValueList(LIST_WORKMODE, LIST_WORKMODE[
> + _mem.settings.vfomr]))
> + advanced.append(rs)
> +
> + dtmfchars = "0123456789"
> + _codeobj = _mem.settings.code
> + _code = "".join([dtmfchars[x] for x in _codeobj if int(x) < 0x1F])
> + val = RadioSettingValueString(0, 3, _code, False)
> + val.set_charset(dtmfchars)
> + rs = RadioSetting("settings.code", "PTT-ID Code", val)
> +
> + def apply_code(setting, obj):
> + code = []
> + for j in range(0, 3):
> + try:
> + code.append(dtmfchars.index(str(setting.value)[j]))
> + except IndexError:
> + code.append(0xFF)
> + obj.code = code
> + rs.set_apply_callback(apply_code, _mem.settings)
> + advanced.append(rs)
> +
> + _codeobj = _mem.settings.password
> + _code = "".join([dtmfchars[x] for x in _codeobj if int(x) < 0x1F])
> + val = RadioSettingValueString(0, 6, _code, False)
> + val.set_charset(dtmfchars)
> + rs = RadioSetting("settings.password", "Control Password", val)
> +
> + def apply_code(setting, obj):
> + code = []
> + for j in range(0, 6):
> + try:
> + code.append(dtmfchars.index(str(setting.value)[j]))
> + except IndexError:
> + code.append(0xFF)
> + obj.password = code
> + rs.set_apply_callback(apply_code, _mem.settings)
> + advanced.append(rs)
> +
> + if _mem.settings.tdrab > 0x01:
> + val = 0x00
> + else:
> + val = _mem.settings.tdrab
> + rs = RadioSetting("settings.tdrab", "Dual Watch TX Priority",
> + RadioSettingValueList(
> + LIST_AB, LIST_AB[val]))
> + advanced.append(rs)
> +
> + rs = RadioSetting("settings.keylk", "Key Lock",
> + RadioSettingValueBoolean(_mem.settings.keylk))
> + advanced.append(rs)
> +
> + rs = RadioSetting("settings.control", "Control Code",
> + RadioSettingValueBoolean(_mem.settings.control))
> + advanced.append(rs)
> +
> + return top
> +
> +
> +
> + """
> + # Other settings
> + def _filter(name):
> + filtered = ""
> + for char in str(name):
> + if char in chirp_common.CHARSET_ASCII:
> + filtered += char
> + else:
> + filtered += " "
> + return filtered
> +
> + _msg = _mem.sixpoweron_msg
> + val = RadioSettingValueString(0, 7, _filter(_msg.line1))
> + val.set_mutable(False)
> + rs = RadioSetting("sixpoweron_msg.line1", "6+Power-On Message 1", val)
> + other.append(rs)
> + val = RadioSettingValueString(0, 7, _filter(_msg.line2))
> + val.set_mutable(False)
> + rs = RadioSetting("sixpoweron_msg.line2", "6+Power-On Message 2", val)
> + other.append(rs)
> +
> + _msg = _mem.poweron_msg
> + rs = RadioSetting("poweron_msg.line1", "Power-On Message 1",
> + RadioSettingValueString(
> + 0, 7, _filter(_msg.line1)))
> + other.append(rs)
> + rs = RadioSetting("poweron_msg.line2", "Power-On Message 2",
> + RadioSettingValueString(
> + 0, 7, _filter(_msg.line2)))
> + other.append(rs)
> +
> + # DTMF encode settings
> +
> + if _mem.ani.dtmfon > 0xC3:
> + val = 0x03
> + else:
> + val = _mem.ani.dtmfon
> + rs = RadioSetting("ani.dtmfon", "DTMF Speed (on)",
> + RadioSettingValueList(LIST_DTMFSPEED,
> + LIST_DTMFSPEED[val]))
> + dtmfe.append(rs)
> +
> + if _mem.ani.dtmfoff > 0xC3:
> + val = 0x03
> + else:
> + val = _mem.ani.dtmfoff
> + rs = RadioSetting("ani.dtmfoff", "DTMF Speed (off)",
> + RadioSettingValueList(LIST_DTMFSPEED,
> + LIST_DTMFSPEED[val]))
> + dtmfe.append(rs)
> +
> + """
> +
> +
> + def set_settings(self, settings):
> + _settings = self._memobj.settings
> + _mem = self._memobj
> + for element in settings:
> + if not isinstance(element, RadioSetting):
> + if element.get_name() == "fm_preset":
> + self._set_fm_preset(element)
> + else:
> + self.set_settings(element)
> + continue
> + else:
> + try:
> + name = element.get_name()
> + if "." in name:
> + bits = name.split(".")
> + obj = self._memobj
> + for bit in bits[:-1]:
> + if "/" in bit:
> + bit, index = bit.split("/", 1)
> + index = int(index)
> + obj = getattr(obj, bit)[index]
> + else:
> + obj = getattr(obj, bit)
> + setting = bits[-1]
> + else:
> + obj = _settings
> + setting = element.get_name()
> +
> + if element.has_apply_callback():
> + LOG.debug("Using apply callback")
> + element.run_apply_callback()
> + elif element.value.get_mutable():
> + LOG.debug("Setting %s = %s" % (setting, element.value))
> + setattr(obj, setting, element.value)
> + except Exception, e:
> + LOG.debug(element.get_name())
> + raise
> +
> + def _set_fm_preset(self, settings):
> + for element in settings:
> + try:
> + val = element.value
> + if self._memobj.fm_presets <= 108.0 * 10 - 650:
> + value = int(val.get_value() * 10 - 650)
> + else:
> + value = int(val.get_value() * 10)
> + LOG.debug("Setting fm_presets = %s" % (value))
> + self._memobj.fm_presets = value
> + except Exception, e:
> + LOG.debug(element.get_name())
> + raise
> +
> +
> + @classmethod
> + def match_model(cls, filedata, filename):
> + match_size = False
> + match_model = False
> +
> + # testing the file data size
> + if len(filedata) == 0x2008:
> + match_size = True
> +
> + # testing the model fingerprint
> + match_model = model_match(cls, filedata)
> +
> + #if match_size and match_model:
> + if match_size and match_model:
> + return True
> + else:
> + return False
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