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Bug #10953 » tmd710.py

40ff94d5 - Dan Smith, 11/19/2023 05:48 PM

 
# Copyright 2011 Dan Smith <dsmith@danplanet.com>
# -- 2019 Rick DeWitt <aa0rd@yahoo.com>
# -- Implementing Kenwood TM-D710G as MCP Clone Mode for Python 2.7
# -- Thanks to Herm Halbach, W7HRM, for the 710 model testing.
# 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 3 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
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
from chirp.drivers import kenwood_live

LOG = logging.getLogger(__name__)

HAS_FUTURE = True
try: # PY3 compliance
from builtins import bytes
except ImportError:
HAS_FUTURE = False
LOG.debug('python-future package is not '
'available; %s requires it' % __name__)

BAUD = 0
STIMEOUT = 0.2
TERM = b'\x0d' # Cmd write terminator (CR)
ACK = b'\x06' # Data write acknowledge char
W8S = 0.001 # short wait, secs
W8L = 0.1 # long wait
TMD710_DUPLEX = ["", "+", "-", "n/a", "split"]
TMD710_SKIP = ["", "S"]
TMD710_MODES = ["FM", "NFM", "AM"]
TMD710_BANDS = [(118000000, 135995000),
(136000000, 199995000),
(200000000, 299995000),
(300000000, 399995000),
(400000000, 523995000),
(800000000, 1299995000)]
TMD710_STEPS = [5.0, 6.25, 8.33, 10.0, 12.5, 15.0, 20.0, 25.0,
30.0, 50.0, 100.0]
# Need string list of those steps for mem.extra value list
STEPS_STR = []
for val in TMD710_STEPS:
STEPS_STR.append("%3.2f" % val)
TMD710_TONE_MODES = ["", "Tone", "TSQL", "DTCS", "Cross"]
TMD710_CROSS = ["Tone->Tone", "Tone->DTCS", "DTCS->Tone"]
TMD710_DTSC = list(chirp_common.DTCS_CODES)
TMD710_TONES = list(chirp_common.TONES)
TMD710_TONES.remove(159.8)
TMD710_TONES.remove(165.5)
TMD710_TONES.remove(171.3)
TMD710_TONES.remove(177.3)
TMD710_TONES.remove(183.5)
TMD710_TONES.remove(189.9)
TMD710_TONES.remove(196.6)
TMD710_TONES.remove(199.5)
TMD710_CHARS = chirp_common.CHARSET_ASCII
TMD710_CHARS += chr(34) # "


def _command(ser, cmd, rsplen, w8t=0.01):
"""Send cmd to radio via ser port
cmd is output string with possible terminator
rsplen is expected response char count, NOT incl prefix and term
If rsplen = 0 then do not0 read after write """
ser.write(cmd)
LOG.debug(" Out %4i ->: %s" % (len(cmd), util.hexprint(cmd[0: 32])))
time.sleep(w8t)
result = b""
if rsplen > 0: # read response
result = ser.read(rsplen)
LOG.debug(" In %4i <-: %s" % (len(result),
util.hexprint(result[0: 32])))
return result


def _connect_radio(radio):
"""Determine baud rate and verify radio on-line"""
global BAUD
xid = "D710" + radio.SHORT
resp = kenwood_live.get_id(radio.pipe)
BAUD = radio.pipe.baudrate # As detected by kenwood_live
LOG.debug("Got [%s] at %i Baud." % (resp, BAUD))
resp = resp[3:] # Strip "ID " prefix
if len(resp) > 2: # Got something from "ID"
if resp == xid: # Good comms
return
else:
stx = "Radio responded as %s, not %s." % (resp, xid)
raise errors.RadioError(stx)
raise errors.RadioError("No response from radio")


def _update_status(self, status, step=1):
""" Increment status bar """
status.cur += step
self.status_fn(status)
return


def _val_list(setting, opts, obj, atrb, fix=0, ndx=-1):
"""Callback:from ValueList. Set the integer index.
This function is here to be available to get_mem and get_set
fix is optional additive offset to the list index
ndx is optional obj[ndx] array index """
value = opts.index(str(setting.value))
value += fix
if ndx >= 0: # indexed obj
setattr(obj[ndx], atrb, value)
else:
setattr(obj, atrb, value)
return


def _val_list_off(setting, opts, obj, atrb):
"""Like above, but where index 0 on the list is "off" and
translated to 0xFF. The rest are shifted down by 1."""
value = (opts.index(str(setting.value)) - 1) % 256
setattr(obj, atrb, value)


class KenwoodTMx710Radio(chirp_common.CloneModeRadio):
""" Base class for TMD-710 """
VENDOR = "Kenwood"
MODEL = "TM-x710"
SHORT = "X" # Short model ID code
NEEDS_COMPAT_SERIAL = False

_upper = 999 # Number of normal chans

# Put Special memory channels after normal ones
SPECIAL_MEMORIES = {"Scan-0Lo": 1000, "Scan-0Hi": 1001,
"Scan-1Lo": 1002, "Scan-1Hi": 1003,
"Scan-2Lo": 1004, "Scan-2Hi": 1005,
"Scan-3Lo": 1006, "Scan-3Hi": 1007,
"Scan-4Lo": 1008, "Scan-4Hi": 1009,
"Scan-5Lo": 1010, "Scan-5Hi": 1011,
"Scan-6Lo": 1012, "Scan-6Hi": 1013,
"Scan-7Lo": 1014, "Scan-7Hi": 1015,
"Scan-8Lo": 1016, "Scan-8Hi": 1017,
"Scan-9Lo": 1018, "Scan-9Hi": 1019,
"WX-1": 1020, "WX-2": 1021,
"WX-3": 1022, "WX-4": 1023,
"WX-5": 1024, "WX-6": 1025,
"WX-7": 1026, "WX-8": 1027,
"WX-9": 1028, "WX-10": 1029,
"Call C0": 1030, "Call C1": 1031
}
# _REV dict is used to retrieve name given number
SPECIAL_MEMORIES_REV = dict(zip(SPECIAL_MEMORIES.values(),
SPECIAL_MEMORIES.keys()))

def get_features(self):
rf = chirp_common.RadioFeatures()
rf.can_odd_split = True
rf.has_dtcs = True
rf.has_dtcs_polarity = False
if self.SHORT == "G": # NOT for D710
rf.has_rx_dtcs = True # Enable DTCS Rx Code column
rf.has_cross = True
rf.valid_cross_modes = TMD710_CROSS
rf.has_bank = False
rf.has_settings = True
rf.has_ctone = True
rf.has_mode = True
rf.has_comment = False
rf.valid_tmodes = TMD710_TONE_MODES
rf.valid_modes = TMD710_MODES
rf.valid_duplexes = TMD710_DUPLEX
rf.valid_tuning_steps = TMD710_STEPS
rf.valid_tones = TMD710_TONES
rf.valid_dtcs_codes = TMD710_DTSC
# Supports upper and lower case text
rf.valid_characters = TMD710_CHARS
rf.valid_name_length = 8
rf.valid_skips = TMD710_SKIP
rf.valid_bands = TMD710_BANDS
rf.memory_bounds = (0, 999) # including special chans 1000-1029
rf.valid_special_chans = sorted(self.SPECIAL_MEMORIES.keys())
return rf

@classmethod
def get_prompts(cls):
rp = chirp_common.RadioPrompts()
rp.pre_download = _(
"Connect your interface cable to the PC Port on the\n"
"back of the 'TX/RX' unit. NOT the Com Port on the head.\n")
rp.pre_upload = _(
"Connect your interface cable to the PC Port on the\n"
"back of the 'TX/RX' unit. NOT the Com Port on the head.\n")
return rp

def sync_in(self):
"""Download from radio"""
try:
_connect_radio(self)
data = bytes(self._read_mem())
except errors.RadioError:
# Pass through any real errors we raise
raise
except Exception:
# 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.MemoryMapBytes(data)
self.process_mmap()

def sync_out(self):
"""Upload to radio"""
try:
_connect_radio(self)
self._write_mem()
except Exception:
# 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 process_mmap(self):
"""Process the mem map into the mem object"""
self._memobj = bitwise.parse(self.MEM_FORMAT, self._mmap)

def get_memory(self, number):
"""Convert raw channel data (_mem) into UI columns (mem)"""
mem = chirp_common.Memory()
if self.SHORT == "G":
mem.extra = RadioSettingGroup("extra", "Extra")
# If called from 'Properties', spcl chans number is integer
propflg = False
if isinstance(number, int):
if number > 999:
propflg = True
if isinstance(number, str) or propflg:
if propflg:
mem.number = number
mem.name = self.SPECIAL_MEMORIES_REV[number]
mem.extd_number = mem.name
else:
mem.name = number # Spcl chns 1st var
mem.number = self.SPECIAL_MEMORIES[number]
mem.extd_number = number # Uses name as LOC
mem.immutable = ["name"]
if mem.number < 1030: # Scan edges, WX
_mem = self._memobj.ch_mem[mem.number]
_map = self._memobj.chmap[mem.number]
else: # Call chans
_mem = self._memobj.call[mem.number - 1030]
else: # Normal mem chans
_mem = self._memobj.ch_mem[number]
_nam = self._memobj.ch_nam[number]
_map = self._memobj.chmap[number]
mem.number = number
mnx = ""
for char in _nam.name:
if int(char) < 127:
mnx += chr(int(char))
mem.name = mnx.rstrip()
if _mem.rxfreq == 0x0ffffffff or _mem.rxfreq == 0:
mem.empty = True
return mem
mem.empty = False
if mem.number < 1030 and _map.skip != 0x0ff: # empty
mem.skip = TMD710_SKIP[_map.skip]
mem.freq = int(_mem.rxfreq)
mem.duplex = TMD710_DUPLEX[_mem.duplex]
mem.offset = int(_mem.offset)
# Duplex = 4 (split); offset contains the TX freq
mem.mode = TMD710_MODES[_mem.mode]
# _mem.tmode is 4-bit pattern, not number
mx = 0 # No tone
mem.cross_mode = TMD710_CROSS[0]
mem.rx_dtcs = TMD710_DTSC[_mem.dtcs]
mem.dtcs = TMD710_DTSC[_mem.dtcs]
if self.SHORT == "G":
if _mem.tmode & 8: # Tone
mx = 1
if _mem.tmode & 4: # Tsql
mx = 2
if _mem.tmode & 2: # Dtcs
mx = 3
if _mem.tmode & 1: # Cross
mx = 4
if _mem.cross == 1: # Tone->DTCS
mem.cross_mode = TMD710_CROSS[1]
if _mem.cross == 2: # DTCS->Tone
mem.cross_mode = TMD710_CROSS[2]
else: # D710; may have bit 8 set
if _mem.tmode & 4: # Tone
mx = 1
if _mem.tmode & 2: # Tsql
mx = 2
if _mem.tmode & 1: # Dtcs
mx = 3
mem.dtcs = TMD710_DTSC[_mem.dtcs]
mem.tmode = TMD710_TONE_MODES[mx]
mem.ctone = TMD710_TONES[_mem.ctone]
mem.rtone = TMD710_TONES[_mem.rtone]
mem.tuning_step = TMD710_STEPS[_mem.tstep]

if self.SHORT == "G": # Only the 710G
rx = RadioSettingValueList(STEPS_STR, STEPS_STR[_mem.splitstep])
sx = "Split TX step (kHz)"
rset = RadioSetting("splitstep", sx, rx)
mem.extra.append(rset)

return mem

def set_memory(self, mem):
"""Convert UI column data (mem) into MEM_FORMAT memory (_mem)"""
if mem.number > 999: # Special chans
if mem.number < 1030: # Scan, Wx
_mem = self._memobj.ch_mem[mem.number]
_map = self._memobj.chmap[mem.number]
else: # Call chans
_mem = self._memobj.call[mem.number - 1030]
_nam = None
else:
_mem = self._memobj.ch_mem[mem.number]
_nam = self._memobj.ch_nam[mem.number]
_map = self._memobj.chmap[mem.number]
nx = len(mem.name)
for ix in range(8):
if ix < nx:
_nam.name[ix] = mem.name[ix]
else:
_nam.name[ix] = chr(0x0ff) # needs 8 chrs
if mem.empty:
_mem.rxfreq = 0x0ffffffff
_mem.offset = 0x0ffffff
_mem.duplex = 0x0f
_mem.tstep = 0x0ff
_mem.tmode = 0x0f
_mem.mode = 0x0ff
_mem.rtone = 0x0ff
_mem.ctone = 0x0ff
_mem.dtcs = 0x0ff
_map.skip = 0x0ff
_map.band = 0x0ff
if _nam:
for ix in range(8):
_nam.name[ix] = chr(0x0ff)
return
if _mem.rxfreq == 0x0ffffffff: # New Channel needs defaults
_mem.rxfreq = 144000000
_map.band = 5
_map.skip = 0
_mem.mode = 0
_mem.duplex = 0
_mem.offset = 0
_mem.rtone = 8
_mem.ctone = 8
_mem.dtcs = 0
_mem.tstep = 0
_mem.splitstep = 0
# Now use the UI values entered so far
_mem.rxfreq = mem.freq
_mem.mode = TMD710_MODES.index(mem.mode)
try:
_tone = mem.rtone
_mem.rtone = TMD710_TONES.index(mem.rtone)
_tone = mem.ctone
_mem.ctone = TMD710_TONES.index(mem.ctone)
except ValueError:
raise errors.UnsupportedToneError("This radio does not support " +
"tone %.1fHz" % _tone)
_mem.dtcs = TMD710_DTSC.index(mem.dtcs)
_mem.tmode = 0 # None
_mem.cross = 0
if self.SHORT == "G":
if mem.tmode == "Tone":
_mem.tmode = 8
if mem.tmode == "TSQL":
_mem.tmode = 4
if mem.tmode == "DTCS":
_mem.tmode = 2
if mem.tmode == "Cross":
_mem.tmode = 1
mx = TMD710_CROSS.index(mem.cross_mode)
_mem.cross = 3 # t -t
if mx == 1:
_mem.cross = 1 # t-d
_mem.dtcs = TMD710_DTSC.index(mem.rx_dtcs)
if mx == 2:
_mem.cross = 2 # d-t
_mem.dtcs = TMD710_DTSC.index(mem.dtcs)
else:
_mem.tmode = 0x80 # None
if mem.tmode == "Tone":
_mem.tmode = 0x0c
if mem.tmode == "TSQL":
_mem.tmode = 0x0a
if mem.tmode == "DTCS":
_mem.tmode = 0x09
if mem.duplex == "n/a": # Not valid
mem.duplex = ""
_mem.duplex = TMD710_DUPLEX.index(mem.duplex)
_mem.offset = mem.offset
_mem.tstep = TMD710_STEPS.index(mem.tuning_step)
# Set _map.band for this bank. Not Calls!
if mem.number < 1030:
_map.band = 5
val = mem.freq
for mx in range(6): # Band codes are 0, 5, 6, 7, 8, 9
if val >= TMD710_BANDS[mx][0] and \
val <= TMD710_BANDS[mx][1]:
_map.band = mx
if mx > 0:
_map.band = mx + 4
_map.skip = TMD710_SKIP.index(mem.skip)
# Only 1 mem.extra entry now
for ext in mem.extra:
if ext.get_name() == "splitstep":
val = STEPS_STR.index(str(ext.value))
setattr(_mem, "splitstep", val)
else:
setattr(_mem, ext.get_name(), ext.value)
return

def get_settings(self):
"""Translate the MEM_FORMAT structs into settings in the UI"""
# Define mem struct write-back shortcuts
if self.SHORT == "G":
_bmp = self._memobj.bitmap
_blk1 = self._memobj.block1
_blk1a = self._memobj.block1a
_pmg = self._memobj.pmg # array[6] of settings
_dtmc = self._memobj.dtmc
_dtmn = self._memobj.dtmn
_com = self._memobj.mcpcom
_skyc = self._memobj.skycmd
basic = RadioSettingGroup("basic", "Basic")
disp = RadioSettingGroup("disp", "PM0: Display") # PM[0] settings
aud = RadioSettingGroup("aud", "PM0: Audio")
aux = RadioSettingGroup("aux", "PM0: Aux")
txrx = RadioSettingGroup("txrc", "PM0: Transmit/Receive")
memz = RadioSettingGroup("memz", "PM0: Memory")
pfk = RadioSettingGroup("pfk", "PM0: PF Keys")
pvfo = RadioSettingGroup("pvfo", "PM0: Programmable VFO")
bmsk = RadioSettingGroup("bmsk", "PM0: Band Masks") # end PM[0]
rptr = RadioSettingGroup("rptr", "Repeater")
dtmf = RadioSettingGroup("dtmf", "DTMF")
skyk = RadioSettingGroup("skyk", "Sky Command")
pmm = RadioSettingGroup("pmm", "PM Groups 1-5(Partial)")
group = RadioSettings(basic, disp, aud, aux, txrx, memz, pvfo, pfk,
bmsk, rptr, dtmf, skyk, pmm)

mhz1 = 1000000. # Raw freq is stored with 0.1 Hz resolution

def _adjraw(setting, obj, atrb, fix=0, ndx=-1):
"""Callback for Integer add or subtract fix from value."""
vx = int(str(setting.value))
value = vx + int(fix)
if value < 0:
value = 0
if ndx < 0:
setattr(obj, atrb, value)
else:
setattr(obj[ndx], atrb, value)
return

def _mhz_val(setting, obj, atrb, ndx=-1, ndy=-1):
""" Callback to set freq back to Hz """
vx = float(str(setting.value))
vx = int(vx * mhz1)
if ndx < 0:
setattr(obj, atrb, vx)
else:
if atrb[0:7] == "progvfo": # 2-deep
stx = atrb.split(".")
setattr(obj[ndx].progvfo[ndy], stx[1], vx)
else:
setattr(obj[ndx], atrb, vx)
return

def _char_to_str(chrx):
""" Remove ff pads from char array """
# chrx is char array
str1 = ""
for sx in chrx:
if int(sx) > 31 and int(sx) < 127:
str1 += chr(int(sx))
return str1

def _pswd_vfy(setting, obj, atrb):
""" Verify password is 1-6 chars, numbers 1-5 """
str1 = str(setting.value).strip() # initial
str2 = ''.join(filter(lambda c: c in '12345', str1)) # valid chars
if str1 != str2:
# Two lines due to python 73 char limit
sx = "Bad characters in Password"
raise errors.RadioError(sx)
str2 = str1.ljust(6, chr(255)) # pad to 6 with ff's
setattr(obj, atrb, str2)
return

def _pad_str(setting, lenstr, padchr, obj, atrb, ndx=-1):
""" pad string to lenstr with padchr """
str1 = str(setting.value).strip() # initial string
str2 = str1.ljust(lenstr, padchr)
if ndx < 0:
setattr(obj, atrb, str2)
else:
setattr(obj[ndx], atrb, str2)
return

# ===== BASIC GROUP =====
sx = _char_to_str(_com.comnt)
rx = RadioSettingValueString(0, 32, sx)
sx = "Comment"
rset = RadioSetting("mcpcom.comnt", sx, rx)
basic.append(rset)

rx = RadioSettingValueInteger(0, 5, _blk1.pmrecall)
sx = "Current PM Select"
rset = RadioSetting("block1.pmrecall", sx, rx)
basic.append(rset)

rx = RadioSettingValueBoolean(bool(_blk1.pwdon))
sx = "Password"
rset = RadioSetting("block1.pwdon", sx, rx)
basic.append(rset)

sx = _char_to_str(_blk1.pswd).strip()
rx = RadioSettingValueString(0, 6, sx)
# rx.set_charset("12345") # Keeps finding `'
sx = "- Password (numerals 1-5)"
rset = RadioSetting("block1.pswd", sx, rx)
rset.set_apply_callback(_pswd_vfy, _blk1, "pswd")
basic.append(rset)

# ===== PM0 (off) DISPLAY GROUP =====
rx = RadioSettingValueString(0, 8, _char_to_str(_pmg[0].pwron))
sx = "Power-On message"
rset = RadioSetting("pmg/0.pwron", sx, rx)
disp.append(rset)

if self.SHORT == "G": # TMD-710G
rx = RadioSettingValueBoolean(bool(_bmp.bmpon))
sx = "PM0: Custom display bitmap"
rset = RadioSetting("bitmap.bmpon", sx, rx)
disp.append(rset)

rx = RadioSettingValueString(0, 64, _char_to_str(_bmp.bmpfyl))
rx.set_mutable(False)
sx = "- Custom bitmap filename"
rset = RadioSetting("bitmap.bmpfyl", sx, rx)
rset.set_doc("Read-only: To modify, use MCP-6 s/w")
disp.append(rset)

opts = ["VFO", "Mem Recall"]
rx = RadioSettingValueList(opts, opts[_pmg[0].a_mr])
sx = "A: Left Side VFO/MR"
rset = RadioSetting("pmg/0.a_mr", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "a_mr")
disp.append(rset)

rx = RadioSettingValueInteger(0, 999, _pmg[0].a_chn)
sx = "A: Left Side MR Channel"
rset = RadioSetting("pmg/0.a_chn", sx, rx)
disp.append(rset)

rx = RadioSettingValueList(opts, opts[_pmg[0].b_mr])
sx = "B: Right Side VFO/MR"
rset = RadioSetting("pmg/0.b_mr", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "b_mr")
disp.append(rset)

rx = RadioSettingValueInteger(0, 999, _pmg[0].b_chn)
sx = "B: Right Side MR Channel"
rset = RadioSetting("pmg/0.b_chn", sx, rx)
disp.append(rset)

rx = RadioSettingValueInteger(0, 8, _pmg[0].bright)
sx = "Brightness level"
rset = RadioSetting("pmg/0.bright", sx, rx)
disp.append(rset)

opts = ["Amber", "Green"]
rx = RadioSettingValueList(opts, opts[_pmg[0].bkltclr])
sx = "Backlight color"
rset = RadioSetting("pmg/0.bkltclr", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "bkltclr")
disp.append(rset)

val = _pmg[0].bkltcont + 1
rx = RadioSettingValueInteger(1, 16, val)
sx = "Contrast level"
rset = RadioSetting("pmg/0.bkltcont", sx, rx)
rset.set_apply_callback(_adjraw, _pmg[0], "bkltcont", -1)
disp.append(rset)

opts = ["Positive", "Negative"]
rx = RadioSettingValueList(opts, opts[_pmg[0].dsprev])
sx = "Color mode"
rset = RadioSetting("pmg/0.dsprev", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "dsprev")
disp.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].autobri))
sx = "Auto brightness"
rset = RadioSetting("pmg/0.autobri", sx, rx)
disp.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].dispbar))
sx = "Display partition bar"
rset = RadioSetting("pmg/0.dispbar", sx, rx)
disp.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].single))
sx = "Single band display"
rset = RadioSetting("pmg/0.single", sx, rx)
disp.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].autopm))
sx = "Auto PM Store"
rset = RadioSetting("pmg/0.autopm", sx, rx)
disp.append(rset)

# ===== AUDIO GROUP =====
rx = RadioSettingValueBoolean(bool(_pmg[0].beepon))
sx = "Beep On"
rset = RadioSetting("pmg/0.beepon", sx, rx)
aud.append(rset)

val = _pmg[0].beepvol + 1 # 1-7 downloads as 0-6
rx = RadioSettingValueInteger(1, 7, val)
sx = "Beep volume (1 - 7)"
rset = RadioSetting("pmg/0.beepvol", sx, rx)
rset.set_apply_callback(_adjraw, _pmg[0], "beepvol", -1)
aud.append(rset)

opts = ["Mode1", "Mode2"]
rx = RadioSettingValueList(opts, opts[_pmg[0].extspkr])
sx = "External Speaker"
rset = RadioSetting("pmg/0.extspkr", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "extspkr")
aud.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].pbkrpt))
sx = "VGS Plugin: Playback repeat"
rset = RadioSetting("pmg/0.pbkrpt", sx, rx)
aud.append(rset)

rx = RadioSettingValueInteger(0, 60, _pmg[0].pbkint)
sx = " Playback repeat interval (0 - 60 secs)"
rset = RadioSetting("pmg/0.pbkint", sx, rx)
aud.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].cntrec))
sx = " Continuous recording"
rset = RadioSetting("pmg/0.cntrec", sx, rx)
aud.append(rset)

opts = ["Off", "Auto", "Manual"]
rx = RadioSettingValueList(opts, opts[_pmg[0].ance])
sx = " Announce mode"
rset = RadioSetting("pmg/0.ance", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "ance")
aud.append(rset)

opts = ["English", "Japanese"]
rx = RadioSettingValueList(opts, opts[_pmg[0].lang])
sx = " Announce language"
rset = RadioSetting("pmg/0.lang", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "lang")
aud.append(rset)

rx = RadioSettingValueInteger(1, 7, _pmg[0].vcvol + 1)
sx = " Voice volume (1 - 7)"
rset = RadioSetting("pmg/0.vcvol", sx, rx)
rset.set_apply_callback(_adjraw, _pmg[0], "vcvol", -1)
aud.append(rset)

rx = RadioSettingValueInteger(0, 4, _pmg[0].vcspd)
sx = " Voice speed (0 - 4)"
rset = RadioSetting("pmg/0.vcspd", sx, rx)
aud.append(rset)

# ===== AUX GROUP =====
opts = ["9600", "19200", "38400", "57600"]
rx = RadioSettingValueList(opts, opts[_blk1.pcbaud])
sx = "PC port baud rate"
rset = RadioSetting("block1.pcbaud", sx, rx)
rset.set_apply_callback(_val_list, opts, _blk1, "pcbaud")
aux.append(rset)

opts = ["A-Band", "B-Band", "TX-A / RX-B", "RX-A / TX-B"]
rx = RadioSettingValueList(opts, opts[_pmg[0].intband])
sx = "Internal TNC band"
rset = RadioSetting("pmg/0.intband", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "intband")
aux.append(rset)

opts = ["A-Band", "B-Band", "TX-A / RX-B", "RX-A / TX-B"]
rx = RadioSettingValueList(opts, opts[_pmg[0].extband])
sx = "External TNC band"
rset = RadioSetting("pmg/0.extband", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "extband")
aux.append(rset)

opts = ["1200", "9600"]
rx = RadioSettingValueList(opts, opts[_pmg[0].extbaud])
sx = "External TNC baud"
rset = RadioSetting("pmg/0.extbaud", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "extbaud")
aux.append(rset)

opts = ["Off", "BUSY", "SQL", "TX", "BUSY/TX", "SQL/TX"]
rx = RadioSettingValueList(opts, opts[_pmg[0].sqcsrc])
sx = "SQC output source"
rset = RadioSetting("pmg/0.sqcsrc", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "sqcsrc")
aux.append(rset)

opts = ["Low", "High"]
rx = RadioSettingValueList(opts, opts[_pmg[0].sqclogic])
sx = "SQC logic"
rset = RadioSetting("pmg/0.sqclogic", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "sqclogic")
aux.append(rset)

opts = ["Off", "30", "60", "90", "120", "180"]
rx = RadioSettingValueList(opts, opts[_pmg[0].apo])
sx = "APO: Auto Power Off (Mins)"
rset = RadioSetting("pmg/0.apo", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "apo")
aux.append(rset)

opts = ["Time Operate (TO)", "Carrier Operate (CO)", "Seek"]
rx = RadioSettingValueList(opts, opts[_pmg[0].scnrsm])
sx = "Scan resume mode"
rset = RadioSetting("pmg/0.scnrsm", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "scnrsm")
aux.append(rset)

rx = RadioSettingValueInteger(1, 10, _pmg[0].scntot + 1)
sx = " Scan TO delay (Secs)"
rset = RadioSetting("pmg/0.scntot", sx, rx)
rset.set_apply_callback(_adjraw, _pmg[0], "scntot", -1)
aux.append(rset)

rx = RadioSettingValueInteger(1, 10, _pmg[0].scncot + 1)
sx = " Scan CO delay (Secs)"
rset = RadioSetting("pmg/0.scncot", sx, rx)
rset.set_apply_callback(_adjraw, _pmg[0], "scncot", -1)
aux.append(rset)

opts = ["Mode 1: 1ch", "Mode 2: 61ch", "Mode 3: 91ch",
"Mode 4: 181ch"]
rx = RadioSettingValueList(opts, opts[_pmg[0].vsmode])
sx = "Visual scan"
rset = RadioSetting("pmg/0.vsmode", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "vsmode")
aux.append(rset)

rx = RadioSettingValueBoolean(bool(_blk1.m10mz))
sx = "10 MHz mode"
rset = RadioSetting("block1.m10mz", sx, rx)
aux.append(rset)

rx = RadioSettingValueBoolean(bool(_blk1.ansbck))
sx = "Remote control answerback"
rset = RadioSetting("block1.ansbck", sx, rx)
aux.append(rset)

# ===== TX / RX Group =========
opts = ["A: Left", "B: Right"]
rx = RadioSettingValueList(opts, opts[_pmg[0].txband])
sx = "TX Side (PTT)"
rset = RadioSetting("pmg/0.txband", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "txband")
txrx.append(rset)

opts = ["High (50W)", "Medium (10W)", "Low (5W)"]
rx = RadioSettingValueList(opts, opts[_pmg[0].a_pwr])
sx = "A-Band transmit power"
rset = RadioSetting("pmg/0.a_pwr", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "a_pwr")
txrx.append(rset)

rx = RadioSettingValueList(opts, opts[_pmg[0].b_pwr])
sx = "B-Band transmit power"
rset = RadioSetting("pmg/0.b_pwr", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "b_pwr")
txrx.append(rset)

opts = ["Off", "125", "250", "500", "750", "1000"]
rx = RadioSettingValueList(opts, opts[_pmg[0].mutehu])
sx = "Rx Mute hangup time (ms)"
rset = RadioSetting("pmg/0.mutehu", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "mutehu")
txrx.append(rset)

opts = ["Off", "125", "250", "500"]
rx = RadioSettingValueList(opts, opts[_pmg[0].ssqlhu])
sx = "S-meter SQL hangup time (ms)"
rset = RadioSetting("pmg/0.ssqlhu", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "ssqlhu")
txrx.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].beatshft))
sx = "Beat shift"
rset = RadioSetting("pmg/0.beatshft", sx, rx)
txrx.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].asmsql))
sx = "A-Band S-meter SQL"
rset = RadioSetting("pmg/0.asmsql", sx, rx)
txrx.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].bsmsql))
sx = "B-Band S-meter SQL"
rset = RadioSetting("pmg/0.bsmsql", sx, rx)
txrx.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].vhfaip))
sx = "VHF band AIP"
rset = RadioSetting("pmg/0.vhfaip", sx, rx)
txrx.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].uhfaip))
sx = "UHF band AIP"
rset = RadioSetting("pmg/0.uhfaip", sx, rx)
txrx.append(rset)

opts = ["High", "Medium", "Low"]
rx = RadioSettingValueList(opts, opts[_blk1.micsens])
sx = "Microphone sensitivity (gain)"
rset = RadioSetting("block1.micsens", sx, rx)
txrx.append(rset)

opts = ["3", "5", "10"]
rx = RadioSettingValueList(opts, opts[_pmg[0].tot])
sx = "Time-Out timer (Mins)"
rset = RadioSetting("pmg/0.tot", sx, rx)
# rset.set_apply_callback(_val_list, opts, _pmg[0], "tot")
txrx.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].wxalerta))
sx = "WX Alert A-band"
rset = RadioSetting("pmg/0.wxalerta", sx, rx)
txrx.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].wxalertb))
sx = "WX Alert B-band"
rset = RadioSetting("pmg/0.wxalertb", sx, rx)
txrx.append(rset)

opts = ["Off", "5", "10", "30", "60"]
current = opts[(_pmg[0].wxscntm + 1) % 256]
rx = RadioSettingValueList(opts, current)
sx = "WX alert scan memory time (Mins)"
rset = RadioSetting("pmg/0.wxscntm", sx, rx)
rset.set_apply_callback(_val_list_off, opts, _pmg[0], "wxscntm")
txrx.append(rset)

# ===== DTMF GROUP =====
rx = RadioSettingValueBoolean(bool(_pmg[0].dtmfhld))
sx = "DTMF hold"
rset = RadioSetting("pmg/0.dtmfhld", sx, rx)
dtmf.append(rset)

opts = ["100", "250", "500", "750", "1000", "1500", "2000"]
rx = RadioSettingValueList(opts, opts[_pmg[0].dtmfpau])
sx = "DTMF pause duration (mS)"
rset = RadioSetting("pmg/0.dtmfpau", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "dtmfpau")
dtmf.append(rset)

opts = ["Fast", "Slow"]
rx = RadioSettingValueList(opts, opts[_pmg[0].dtmfspd])
sx = "DTMF speed"
rset = RadioSetting("pmg/0.dtmfspd", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "dtmfspd")
dtmf.append(rset)

for mx in range(0, 10):
csx = _char_to_str(_dtmn[mx].id).strip()
rx = RadioSettingValueString(0, 8, csx)
sx = "DTMF %i Name (8 chars)" % mx
rset = RadioSetting("dtmn.id/%d" % mx, sx, rx)
rset.set_apply_callback(_pad_str, 8, chr(255), _dtmn, "id", mx)
dtmf.append(rset)

csx = _char_to_str(_dtmc[mx].code).strip()
rx = RadioSettingValueString(0, 16, csx)
sx = " Code %i (16 chars)" % mx
rset = RadioSetting("dtmc.code/%d" % mx, sx, rx)
rset.set_apply_callback(_pad_str, 16, chr(255), _dtmc, "code", mx)
dtmf.append(rset)

# ===== MEMORY GROUP =====
opts = ["All Bands", "Current Band"]
rx = RadioSettingValueList(opts, opts[_pmg[0].recall])
sx = "Memory recall method"
rset = RadioSetting("pmg/0.recall", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "recall")
memz.append(rset)

rx = RadioSettingValueString(0, 10, _char_to_str(_pmg[0].memgrplk))
sx = "Group link"
rset = RadioSetting("pmg/0.memgrplk", sx, rx)
memz.append(rset)

opts = ["Fast", "Slow"]
rx = RadioSettingValueList(opts, opts[_pmg[0].eclnkspd])
sx = "Echolink speed"
rset = RadioSetting("pmg/0.eclnkspd", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "eclnkspd")
memz.append(rset)

rx = RadioSettingValueBoolean(bool(_blk1.dspmemch))
sx = "Display memory channel number"
rset = RadioSetting("block1.dspmemch", sx, rx)
memz.append(rset)

# ===== REPEATER GROUP =====
rx = RadioSettingValueBoolean(bool(_pmg[0].rptr1750))
sx = "1750 Hz transmit hold"
rset = RadioSetting("pmg/0.rptr1750", sx, rx)
rptr.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].rptrofst))
sx = "Auto repeater offset"
rset = RadioSetting("pmg/0.rptrofst", sx, rx)
rptr.append(rset)

opts = ["Cross Band", "TX:A-Band / RX:B-Band", "RX:A-Band / TX:B-Band"]
rx = RadioSettingValueList(opts, opts[_blk1.rptrmode])
sx = "Repeater Mode"
rset = RadioSetting("block1.rptrmode", sx, rx)
rset.set_apply_callback(_val_list, opts, _blk1, "rptrmode")
rptr.append(rset)

opts = ["Off", "Morse", "Voice"]
rx = RadioSettingValueList(opts, opts[_blk1.rptridx])
sx = "Repeater ID transmit"
rset = RadioSetting("block1.rptridx", sx, rx)
rset.set_apply_callback(_val_list, opts, _blk1, "rptridx")
rptr.append(rset)

rx = RadioSettingValueString(0, 12, _char_to_str(_blk1a.rptrid))
sx = "Repeater ID"
rset = RadioSetting("block1a.rptrid", sx, rx)
rptr.append(rset)

rx = RadioSettingValueBoolean(bool(_blk1.rptrhold))
sx = "Repeater transmit hold"
rset = RadioSetting("block1.rptrhold", sx, rx)
rptr.append(rset)

# ===== Prog VFO Group =============
for mx in range(0, 10):
# Raw freq is 0.1 MHz resolution
vfx = int(_pmg[0].progvfo[mx].blow) / mhz1
if vfx == 0:
vfx = 118
rx = RadioSettingValueFloat(118.0, 1299.9, vfx, 0.005, 3)
sx = "VFO-%i Low Limit (MHz)" % mx
rset = RadioSetting("pmg/0.progvfo/%d.blow" % mx, sx, rx)
rset.set_apply_callback(_mhz_val, _pmg, "progvfo.blow", 0, mx)
pvfo.append(rset)

vfx = int(_pmg[0].progvfo[mx].bhigh) / mhz1
if vfx == 0:
vfx = 118
rx = RadioSettingValueFloat(118.0, 1300.0, vfx, 0.005, 3)
sx = " VFO-%i High Limit (MHz)" % mx
rset = RadioSetting("pmg/0.progvfo/%d.bhigh" % mx, sx, rx)
rset.set_apply_callback(_mhz_val, _pmg, "progvfo.bhigh", 0, mx)
pvfo.append(rset)

# ===== PFK GROUP =====
opts = ["WX CH", "FRQ.BAND", "CTRL", "MONITOR", "VGS", "VOICE",
"GROUP UP", "MENU", "MUTE", "SHIFT", "DUAL", "M>V",
"1750 Tone"]
rx = RadioSettingValueList(opts, opts[_pmg[0].pf1key])
sx = "Front panel PF1 key"
rset = RadioSetting("pmg/0.pf1key", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "pf1key")
pfk.append(rset)

rx = RadioSettingValueList(opts, opts[_pmg[0].pf2key])
sx = "Front panel PF2 key"
rset = RadioSetting("pmg/0.pf2key", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "pf2key")
pfk.append(rset)

opts = ["WX CH", "FRQ.BAND", "CTRL", "MONITOR", "VGS", "VOICE",
"GROUP UP", "MENU", "MUTE", "SHIFT", "DUAL", "M>V",
"VFO", "MR", "CALL", "MHz", "TONE", "REV", "LOW",
"LOCK", "A/B", "ENTER", "1750 Tone", "M.LIST",
"S.LIST", "MSG.NEW", "REPLY", "POS", "P.MONI",
"BEACON", "DX", "WX"]
rx = RadioSettingValueList(opts, opts[_pmg[0].micpf1])
sx = "Microphone PF1 key"
rset = RadioSetting("pmg/0.micpf1", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "micpf1")
pfk.append(rset)

rx = RadioSettingValueList(opts, opts[_pmg[0].micpf2])
sx = "Microphone PF2 key"
rset = RadioSetting("pmg/0.micpf2", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "micpf2")
pfk.append(rset)

rx = RadioSettingValueList(opts, opts[_pmg[0].micpf3])
sx = "Microphone PF3 key"
rset = RadioSetting("pmg/0.micpf3", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "micpf3")
pfk.append(rset)

rx = RadioSettingValueList(opts, opts[_pmg[0].micpf4])
sx = "Microphone PF4 key"
rset = RadioSetting("pmg/0.micpf4", sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[0], "micpf4")
pfk.append(rset)

# ===== BMSK GROUP =====
rx = RadioSettingValueBoolean(bool(_pmg[0].abnd118))
sx = "A/Left: 118 MHz Band"
rset = RadioSetting("pmg/0.abnd118", sx, rx)
bmsk.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].abnd144))
sx = "A/Left: 144 MHz Band"
rset = RadioSetting("pmg/0.abnd144", sx, rx)
bmsk.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].abnd220))
sx = "A/Left: 220 MHz Band"
rset = RadioSetting("pmg/0.abnd220", sx, rx)
bmsk.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].abnd300))
sx = "A/Left: 300 MHz Band"
rset = RadioSetting("pmg/0.abnd300", sx, rx)
bmsk.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].abnd430))
sx = "A/Left: 430 MHz Band"
rset = RadioSetting("pmg/0.abnd430", sx, rx)
bmsk.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].bbnd144))
sx = "B/Right: 144 MHz Band"
rset = RadioSetting("pmg/0.bbnd144", sx, rx)
bmsk.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].bbnd220))
sx = "B/Right: 220 MHz Band"
rset = RadioSetting("pmg/0.bbnd220", sx, rx)
bmsk.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].bbnd300))
sx = "B/Right: 300 MHz Band"
rset = RadioSetting("pmg/0.bbnd300", sx, rx)
bmsk.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].bbnd430))
sx = "B/Right: 430 MHz Band"
rset = RadioSetting("pmg/0.bbnd430", sx, rx)
bmsk.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[0].bbnd800))
sx = "B/Right: 800 MHz Band"
rset = RadioSetting("pmg/0.bbnd800", sx, rx)
bmsk.append(rset)

# ===== Sky command Group =============
rx = RadioSettingValueString(0, 10, _char_to_str(_skyc.cmdr))
sx = "Commandr call sign"
rset = RadioSetting("skycmd.cmdr", sx, rx)
rset.set_apply_callback(_pad_str, 10, chr(0), _skyc, "cmdr")
skyk.append(rset)

rx = RadioSettingValueString(0, 10, _char_to_str(_skyc.tptr))
sx = "Transporter call sign"
rset = RadioSetting("skycmd.tptr", sx, rx)
rset.set_apply_callback(_pad_str, 10, chr(0), _skyc, "tptr")
skyk.append(rset)

opts = []
for val in TMD710_TONES:
opts.append(str(val))
rx = RadioSettingValueList(opts, opts[_skyc.skytone])
sx = "Tone frequency"
rset = RadioSetting("skycmd.skytone", sx, rx)
rset.set_apply_callback(_val_list, opts, _skyc, "skytone")
skyk.append(rset)

# ===== PM MEMORY GROUP =====
""" These 5 blocks of 512 bytes are repeats of the major settings """
# Only showing limited settings for now...
_pmn = self._memobj.pm_name
for ix in range(1, 6):
nx = ix - 1 # Names are [0-4]
rx = RadioSettingValueString(0, 16, _char_to_str(_pmn[nx].pmname))
sx = "PM Group %i Name" % ix
rset = RadioSetting("pm_name/%i.pmname" % nx, sx, rx)
rset.set_apply_callback(_pad_str, 16, chr(0xff), _pmn,
"pmname", nx)
pmm.append(rset)

rx = RadioSettingValueString(0, 8, _char_to_str(_pmg[ix].pwron))
sx = "- Power-On Message"
rset = RadioSetting("pmg/%i.pwron" % ix, sx, rx)
rset.set_apply_callback(_pad_str, 8, chr(0xff), _pmg, "pwron", ix)
pmm.append(rset)

opts = ["VFO", "Mem Recall"]
rx = RadioSettingValueList(opts, opts[_pmg[ix].a_mr])
sx = "- A: Left Side VFO/MR"
rset = RadioSetting("pmg/%i.a_mr" % ix, sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[ix], "a_mr")
pmm.append(rset)

rx = RadioSettingValueInteger(0, 999, _pmg[ix].a_chn)
sx = "- A: Left Side MR Channel"
rset = RadioSetting("pmg/%i.a_chn" % ix, sx, rx)
pmm.append(rset)

rx = RadioSettingValueList(opts, opts[_pmg[ix].b_mr])
sx = "- B: Right Side VFO/MR"
rset = RadioSetting("pmg/%i.b_mr" % ix, sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[ix], "b_mr")
pmm.append(rset)

rx = RadioSettingValueInteger(0, 999, _pmg[ix].b_chn)
sx = "- B: Right Side MR Channel"
rset = RadioSetting("pmg/%i.b_chn" % ix, sx, rx)
pmm.append(rset)

rx = RadioSettingValueInteger(0, 8, _pmg[ix].bright)
sx = "- Brightness level"
rset = RadioSetting("pmg/%i.bright" % ix, sx, rx)
pmm.append(rset)

opts = ["Amber", "Green"]
rx = RadioSettingValueList(opts, opts[_pmg[ix].bkltclr])
sx = "- Backlight color"
rset = RadioSetting("pmg/%i.bkltclr" % ix, sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[ix], "bkltclr")
pmm.append(rset)

val = _pmg[ix].bkltcont + 1
rx = RadioSettingValueInteger(1, 16, val)
sx = "- Contrast level"
rset = RadioSetting("pmg/%i.bkltcont" % ix, sx, rx)
rset.set_apply_callback(_adjraw, _pmg[ix], "bkltcont", -1)
pmm.append(rset)

opts = ["Positive", "Negative"]
rx = RadioSettingValueList(opts, opts[_pmg[ix].dsprev])
sx = "- Color mode"
rset = RadioSetting("pmg/%i.dsprev" % ix, sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[ix], "dsprev")
pmm.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[ix].beepon))
sx = "- Beep On"
rset = RadioSetting("pmg/%i.beepon" % ix, sx, rx)
pmm.append(rset)

val = _pmg[ix].beepvol + 1 # 1-7 downloads as 0-6
rx = RadioSettingValueInteger(1, 7, val)
sx = "- Beep volume (1 - 7)"
rset = RadioSetting("pmg/%i.beepvol" % ix, sx, rx)
rset.set_apply_callback(_adjraw, _pmg[ix], "beepvol", -1)
pmm.append(rset)

rx = RadioSettingValueBoolean(bool(_pmg[ix].autopm))
sx = "- Auto PM Store"
rset = RadioSetting("pmg/%i.autopm" % ix, sx, rx)
pmm.append(rset)

opts = ["A: Left", "B: Right"]
rx = RadioSettingValueList(opts, opts[_pmg[ix].txband])
sx = "- X Side (PTT)"
rset = RadioSetting("pmg/%i.txband" % ix, sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[ix], "txband")
pmm.append(rset)

opts = ["High (50W)", "Medium (10W)", "Low (5W)"]
rx = RadioSettingValueList(opts, opts[_pmg[ix].a_pwr])
sx = "- A-Band transmit power"
rset = RadioSetting("pmg/%i.a_pwr" % ix, sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[ix], "a_pwr")
pmm.append(rset)

rx = RadioSettingValueList(opts, opts[_pmg[ix].b_pwr])
sx = "- B-Band transmit power"
rset = RadioSetting("pmg/%i.b_pwr" % ix, sx, rx)
rset.set_apply_callback(_val_list, opts, _pmg[ix], "b_pwr")
pmm.append(rset)

return group # END get_settings()

def set_settings(self, settings):
""" Convert UI modified changes into mem_format values """
blks = (self._memobj.block1, self._memobj.block1a,
self._memobj.pmg, self._memobj.pm_name)
for _settings in blks:
for element in settings:
if not isinstance(element, RadioSetting):
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:
LOG.debug(element.get_name())
raise
return

@classmethod
def match_model(cls, fdata, fyle):
""" Included to prevent 'File > New' error """
return False


if HAS_FUTURE: # Only register drivers if environment is PY3 compliant
@directory.register
class KenwoodTMD710Radio(KenwoodTMx710Radio):
""" Kenwood TM-D710 VHF/UHF/APRS Radio model. """
VENDOR = "Kenwood"
MODEL = "TM-D710_CloneMode"
SHORT = "" # Quick model code

_num_blocks = 3
_num_packets = [0x9c, 1, 1]

MEM_FORMAT = """
struct chns { // 16 bytes channel structure
ul32 rxfreq;
u8 tstep;
u8 mode;
u8 tmode:4,
duplex:4; // 4 = split
u8 rtone;
u8 ctone;
u8 dtcs;
ul32 offset; // or Split mode TX freq
u8 splitstep;
u8 cross; // not used
};

struct pm_grp { // 512 bytes per group
u8 unk0200;
u8 a_mr;
u8 unk0202;
u8 unk0203;
u8 unk0204;
u8 unk0205;
u8 unk0206;
u8 a_pwr;
u8 wxalerta;
u8 asmsql;
u8 a_chn;
u8 unk020b;
u8 unk020c;
u8 b_mr;
u8 unk020e;
u8 unk020f;
u8 unk0210;
u8 unk0211;
u8 unk0212;
u8 b_pwr;
u8 wxalertb;
u8 bsmsql;
u8 b_chn;
u8 unk0217;
u8 unk0218;
u8 unk0219;
u8 unk021a;
u8 unk021b;
u8 unk021c;
u8 unk021d;
u8 unk021e;
u8 unk021f;
u8 unk0220;
u8 unk0221;
u8 unk0222;
u8 unk0223;
u8 unk0224;
u8 unk0225;
u8 unk0226;
u8 unk0227;
u8 unk0228;
u8 unk0229;
u8 unk022a;
u8 unk022b;
u8 unk022c;
u8 unk022d;
u8 unk022e;
u8 unk022f;
u8 unk0230;
u8 unk0231;
u8 sqclogic;
u8 txband;
u8 single;
u8 unk0235;
u8 mute;
u8 unk0237;
u8 unk0238;
u8 unk0239;
u8 unk0237a;
u8 unk023b;
u8 unk023c;
u8 unk023d;
u8 unk023e;
u8 unk023f;
struct chns vfo[10]; // 0x0240 - 0x02df
char pwron[8];
u8 unk02e8;
u8 unk02e9;
u8 unk02ea;
u8 unk02eb;
u8 unk02ec;
u8 unk02ed;
u8 unk02ee;
u8 unk02ef;
char memgrplk[10];
u8 unk02fa;
u8 unk02fb;
u8 unk02fc;
u8 unk02fd;
u8 unk02fe;
u8 unk02ff;
struct {
ul32 blow;
ul32 bhigh;
} progvfo[10];
u8 beepon;
u8 beepvol;
u8 extspkr;
u8 ance;
u8 lang;
u8 vcvol;
u8 vcspd;
u8 pbkrpt;
u8 pbkint;
u8 cntrec;
u8 vhfaip;
u8 uhfaip;
u8 ssqlhu;
u8 mutehu;
u8 beatshft;
u8 tot;
u8 recall;
u8 eclnkspd;
u8 dtmfhld;
u8 dtmfspd;
u8 dtmfpau;
u8 dtmflck;
u8 rptrofst;
u8 rptr1750;
u8 bright;
u8 autobri;
u8 bkltclr;
u8 pf1key;
u8 pf2key;
u8 micpf1;
u8 micpf2;
u8 micpf3;
u8 micpf4;
u8 miclck;
u8 unk0372;
u8 scnrsm;
u8 apo;
u8 extband;
u8 extbaud;
u8 sqcsrc;
u8 autopm;
u8 dispbar;
u8 unk037a;
u8 bkltcont;
u8 dsprev;
u8 vsmode;
u8 intband;
u8 wxscntm;
u8 scntot;
u8 scncot;
u8 unk0382;
u8 unk0383;
u8 unk0384;
u8 unk0385;
u8 unk0386;
u8 unk0387;
u8 unk0388;
u8 unk0389;
u8 unk038a;
u8 unk038b;
u8 unk038c;
u8 unk038d;
u8 unk038e;
u8 unk038f;
u8 abnd118;
u8 abnd144;
u8 abnd220;
u8 abnd300;
u8 abnd430;
u8 bbnd144;
u8 bbnd220;
u8 bbnd300;
u8 bbnd430;
u8 bbnd800;
u8 unk039a;
u8 unk039b;
u8 unk039c;
u8 unk039d;
u8 unk039e;
u8 unk039f;
u8 unk03a0[96]; // to 0x03ff
}; // end of struct pm

#seekto 0x0000; // block1: x000 - x023f
struct {
u8 unk000[16];
u8 unk010;
u8 unk011;
char unk012[3];
u8 ansbck;
u8 pmrecall; // 0x0016
u8 pnlklk;
u8 dspmemch;
u8 m10mz;
u8 micsens;
u8 opband;
u8 unk01c;
u8 rptrmode;
u8 rptrhold;
u8 rptridx;
u8 unk020;
u8 pcbaud;
u8 unk022;
u8 pwdon; // 0x0023
u8 unk024;
u8 unk025;
u8 unk026;
u8 unk027;
u8 unk028;
u8 unk029;
char pswd[6]; // 0x023a - 23f
} block1;

#seekto 0x0030;
struct {
char code[16]; // @ 0x0030
} dtmc[10];

struct {
char id[8]; // 0x00d0 - 0x011f
} dtmn[10];

struct { // block1a: 0x0120 - 0x023f
u8 unk0120;
u8 unk0121;
u8 unk0122[78];
char rptrid[12]; // 0x0170 - 017b
u8 unk017c;
u8 unk017d;
u8 unk017e;
u8 unk017f;
u8 unk0180[128]; // 0x0180 - 0x01ff
} block1a;

struct pm_grp pmg[6]; // 0x0200 - 0x0dff

#seekto 0x0e00;
struct {
u8 band;
u8 skip;
} chmap[1030]; // to 0x0160b

#seekto 0x01700; // 0x01700 - 0x0575f
struct chns ch_mem[1030]; // 0-999 MR and 1000 -1029 Specials

#seekto 0x05760;
struct chns call[2];

#seekto 0x05800;
struct {
char name[8];
} ch_nam[1020]; // ends @ 0x07e0

#seekto 0x077e0; // 0x077e0 - 0x07830
struct {
char name[8];
} wxnam[10];

#seekto 0x07da0;
struct {
char pmname[16];
} pm_name[5];

#seekto 0x07df0;
struct {
char comnt[32];
} mcpcom;

#seekto 0x08660;
struct {
char cmdr[10];
char tptr[10];
u8 skytone; // 0x08674
} skycmd;
// data stops at 0x09b98
"""

def _read_mem(radio):
""" Load the memory map """
global BAUD
status = chirp_common.Status()
status.cur = 0
val = 0
for mx in range(0, radio._num_blocks):
val += radio._num_packets[mx]
status.max = val
status.msg = "Reading %i packets" % val
radio.status_fn(status)

data = ""

radio.pipe.baudrate = BAUD
cmc = b"0M PROGRAM" + TERM
resp0 = _command(radio.pipe, cmc, 3, W8S)
junk = radio.pipe.read(16) # flushit
for bkx in range(0, 0x09c):
if bkx != 0x07f: # Skip block 7f !!??
cmc = struct.pack('>cHB', b'R', bkx << 8, 0)
resp0 = _command(radio.pipe, cmc, 260, W8S)
junk = _command(radio.pipe, ACK, 1, W8S)
if len(resp0) < 260:
junk = _command(radio.pipe, b"E", 2, W8S)
sx = "Block 0x%x read error: " % bkx
sx += "Got %i bytes, expected 260." % len(resp0)
LOG.error(sx)
sx = "Block read error! Check debug.log"
raise errors.RadioError(sx)
if bkx == 0: # 1st packet of 1st block
mht = resp0[4:7] # [57 00 00 00] 03 4b 01 ff ff ...
data = resp0[5:6] # 2nd byte (4b) replaces 1st
data += resp0[5:] # then bytes 2 on (4b 4b 01 ff ...)
else:
data += resp0[4:] # skip cmd echo
_update_status(radio, status) # UI Update
cmc = struct.pack('>cHB', b'R', 0xFEF0, 0x10)
resp0 = _command(radio.pipe, cmc, 0x014, W8S)
data += resp0[4:]
junk = _command(radio.pipe, ACK, 1, W8S)
_update_status(radio, status)
cmc = struct.pack('>cHB', b'R', 0xFF00, 0x90)
resp0 = _command(radio.pipe, cmc, 0x094, W8S)
data += resp0[4:]
junk = _command(radio.pipe, ACK, 1, W8S)
_update_status(radio, status)
# Exit Prog mode, no TERM
resp = _command(radio.pipe, b"E", 2, W8S) # Rtns 06 0d
radio.pipe.baudrate = BAUD
return data

def _write_mem(radio):
""" PROG MCP Blocks Send """
global BAUD
# UI progress
status = chirp_common.Status()
status.cur = 0
val = 0
for mx in range(0, radio._num_blocks):
val += radio._num_packets[mx]
status.max = val
status.msg = "Writing %i packets" % val
radio.status_fn(status)

imgadr = 0
radio.pipe.baudrate = BAUD
resp0 = _command(radio.pipe, b"0M PROGRAM" + TERM, 3, W8S)
# Read block 0 magic header thingy, save it
cmc = b"R" + bytes([0, 0, 4])
resp0 = _command(radio.pipe, cmc, 8, W8S)
mht0 = resp0[4:] # Expecting [57 00 00 04] 03 4b 01 ff
junk = _command(radio.pipe, ACK, 1, W8S)
cmc = b"W" + bytes([0, 0, 1, 0xff])
junk = _command(radio.pipe, cmc, 1, W8S) # responds ACK
cmc = b"R" + bytes([0x80, 0, 3])
resp = _command(radio.pipe, cmc, 7, W8S) # [57 80 00 03] 00 33 00
mht1 = resp[4:]
junk = _command(radio.pipe, ACK, 1, W8S)
cmc = b"W" + bytes([0x80, 0, 1, 0xff])
junk = _command(radio.pipe, cmc, 1, W8S)
imgadr = 4 # After 03 4b 01 ff
for bkx in range(0, radio._num_packets[0]):
cmc = b"W" + bytes([bkx, 0, 0])
imgstep = 256
if bkx == 0:
imgstep = 0x0fc
cmc = b"W" + bytes([0, 4, imgstep])
cmc += radio.get_mmap()[imgadr:imgadr + imgstep]
else: # after first packet
cmc += radio.get_mmap()[imgadr:imgadr + imgstep]
if bkx != 0x07f: # don't send 7f !
resp0 = _command(radio.pipe, cmc, 1, W8S)
if resp0 != ACK:
LOG.error("Packet 0x%x Write error, no ACK." % bkx)
sx = "Radio failed to acknowledge upload packet!"
raise errors.RadioError(sx)
imgadr += imgstep
_update_status(radio, status) # UI Update
# write fe and ff blocks
cmc = b"W" + bytes([0xfe, 0xf0, 16])
cmc += radio.get_mmap()[imgadr:imgadr + 16]
resp0 = _command(radio.pipe, cmc, 1, W8S)
if resp0 != ACK:
LOG.error("Packet 0xfe Write error, no ACK.")
sx = "Radio failed to acknowledge upload packet!"
raise errors.RadioError(sx)
imgadr += 16
cmc = b"W" + bytes([0xff, 0, 0x90])
cmc += radio.get_mmap()[imgadr:imgadr + 0x090]
resp0 = _command(radio.pipe, cmc, 1, W8S)
if resp0 != ACK:
LOG.error("Packet 0xff Write error, no ACK.")
sx = "Radio failed to acknowledge upload packet!"
raise errors.RadioError(sx)
# Write mht1
cmc = b"W" + bytes([0x80, 0, 3]) + mht1
resp0 = _command(radio.pipe, cmc, 1, W8S)
if resp0 != ACK:
LOG.error("Mht1 Write error at 0x080 00 03 , no ACK.")
sx = "Radio failed to acknowledge upload packet!"
raise errors.RadioError(sx)
# and mht0
cmc = b"W" + bytes([0, 0, 4]) + mht0
resp0 = _command(radio.pipe, cmc, 1, W8S)
if resp0 != ACK:
LOG.error("Mht0 Write error at 00 00 04 , no ACK.")
sx = "Radio failed to acknowledge upload packet!"
raise errors.RadioError(sx)
# Write E to Exit PROG mode
resp = _command(radio.pipe, b"E", 2, W8S)
return

@directory.register
class KenwoodTMD710GRadio(KenwoodTMx710Radio):
""" Kenwood TM-D710G VHF/UHF/GPS/APRS Radio model. """
VENDOR = "Kenwood"
MODEL = "TM-D710G_CloneMode"
SHORT = "G" # Quick model code 1 for G

_num_blocks = 2 # Only reading first 2, not GPS logs
_packet_size = [261, 261, 261]
_block_addr = [0, 0x100, 0x200] # starting addr, each block
_num_packets = [0x7f, 0x0fe, 0x200] # num packets per block, 0-based

MEM_FORMAT = """
struct chns { // 16 bytes channel structure
ul32 rxfreq;
u8 tstep;
u8 mode;
u8 tmode:4,
duplex:4; // 4 = split
u8 rtone;
u8 ctone;
u8 dtcs;
u8 cross;
ul32 offset; // or Split mode TX freq
u8 splitstep;
};

struct pm_grp { // 512 bytes per group
u8 unk0200;
u8 a_mr;
u8 unk0202;
u8 unk0203;
u8 unk0204;
u8 unk0205;
u8 unk0206;
u8 a_pwr;
u8 wxalerta;
u8 asmsql;
u8 a_chn;
u8 unk020b;
u8 unk020c;
u8 b_mr;
u8 unk020e;
u8 unk020f;
u8 unk0210;
u8 unk0211;
u8 unk0212;
u8 b_pwr;
u8 wxalertb;
u8 bsmsql;
u8 b_chn;
u8 unk0217;
u8 unk0218;
u8 unk0219;
u8 unk021a;
u8 unk021b;
u8 unk021c;
u8 unk021d;
u8 unk021e;
u8 unk021f;
u8 unk0220;
u8 unk0221;
u8 unk0222;
u8 unk0223;
u8 unk0224;
u8 unk0225;
u8 unk0226;
u8 unk0227;
u8 unk0228;
u8 unk0229;
u8 unk022a;
u8 unk022b;
u8 unk022c;
u8 unk022d;
u8 unk022e;
u8 unk022f;
u8 unk0230;
u8 unk0231;
u8 sqclogic;
u8 txband;
u8 single;
u8 unk0235;
u8 mute;
u8 unk0237;
u8 unk0238;
u8 unk0239;
u8 unk0237a;
u8 unk023b;
u8 unk023c;
u8 unk023d;
u8 unk023e;
u8 unk023f;
struct chns vfo[10]; // 0x0240 - 0x02df
char pwron[8];
u8 unk02e8;
u8 unk02e9;
u8 unk02ea;
u8 unk02eb;
u8 unk02ec;
u8 unk02ed;
u8 unk02ee;
u8 unk02ef;
char memgrplk[10];
u8 unk02fa;
u8 unk02fb;
u8 unk02fc;
u8 unk02fd;
u8 unk02fe;
u8 unk02ff;
struct {
ul32 blow;
ul32 bhigh;
} progvfo[10];
u8 beepon;
u8 beepvol;
u8 extspkr;
u8 ance;
u8 lang;
u8 vcvol;
u8 vcspd;
u8 pbkrpt;
u8 pbkint;
u8 cntrec;
u8 vhfaip;
u8 uhfaip;
u8 ssqlhu;
u8 mutehu;
u8 beatshft;
u8 tot;
u8 recall;
u8 eclnkspd;
u8 dtmfhld;
u8 dtmfspd;
u8 dtmfpau;
u8 dtmflck;
u8 rptrofst;
u8 rptr1750;
u8 bright;
u8 autobri;
u8 bkltclr;
u8 pf1key;
u8 pf2key;
u8 micpf1;
u8 micpf2;
u8 micpf3;
u8 micpf4;
u8 miclck;
u8 unk0372;
u8 scnrsm;
u8 apo;
u8 extband;
u8 extbaud;
u8 sqcsrc;
u8 autopm;
u8 dispbar;
u8 unk037a;
u8 bkltcont;
u8 dsprev;
u8 vsmode;
u8 intband;
u8 wxscntm;
u8 scntot;
u8 scncot;
u8 unk0382;
u8 unk0383;
u8 unk0384;
u8 unk0385;
u8 unk0386;
u8 unk0387;
u8 unk0388;
u8 unk0389;
u8 unk038a;
u8 unk038b;
u8 unk038c;
u8 unk038d;
u8 unk038e;
u8 unk038f;
u8 abnd118;
u8 abnd144;
u8 abnd220;
u8 abnd300;
u8 abnd430;
u8 bbnd144;
u8 bbnd220;
u8 bbnd300;
u8 bbnd430;
u8 bbnd800;
u8 unk039a;
u8 unk039b;
u8 unk039c;
u8 unk039d;
u8 unk039e;
u8 unk039f;
u8 unk03a0[96]; // to 0x03ff
}; // end of struct pm

#seekto 0x0000; // block1: x000 - x023f
struct {
u8 unk000[16];
u8 unk010;
u8 unk011;
char unk012[3];
u8 ansbck;
u8 pmrecall; // 0x0016
u8 pnlklk;
u8 dspmemch;
u8 m10mz;
u8 micsens;
u8 opband;
u8 unk01c;
u8 rptrmode;
u8 rptrhold;
u8 rptridx;
u8 unk020;
u8 pcbaud;
u8 unk022;
u8 pwdon; // 0x0023
u8 unk024;
u8 unk025;
u8 unk026;
u8 unk027;
u8 unk028;
u8 unk029;
char pswd[6]; // 0x023a - 23f
} block1;

#seekto 0x0030;
struct {
char code[16]; // @ 0x0030
} dtmc[10];

struct {
char id[8]; // 0x00d0 - 0x011f
} dtmn[10];

struct { // block1a: 0x0120 - 0x023f
u8 unk0120;
u8 unk0121;
u8 unk0122[78];
char rptrid[12]; // 0x0170 - 017b
u8 unk017c;
u8 unk017d;
u8 unk017e;
u8 unk017f;
u8 unk0180[128]; // 0x0180 - 0x01ff
} block1a;

struct pm_grp pmg[6]; // 0x0200 - 0x0dff

#seekto 0x0e00;
struct {
u8 band;
u8 skip;
} chmap[1030]; // to 0x0160b

#seekto 0x01700; // 0x01700 - 0x0575f
struct chns ch_mem[1030]; // 0-999 MR and 1000 -1029 Specials

#seekto 0x058a0;
struct chns call[2];

#seekto 0x05900;
struct {
char name[8];
} ch_nam[1020]; // ends @ 0x07840

#seekto 0x078e0; // 0x078e0 - 0x0792f
struct {
char name[8];
} wxnam[10];

#seekto 0x07da0;
struct {
char pmname[16];
} pm_name[5];

#seekto 0x07df0;
struct {
char comnt[32];
} mcpcom;
// Block 1 ends @ 0x07eff
// Block 2 starts @ 0x07f00
#seekto 0x08660;
struct {
char cmdr[10];
char tptr[10];
u8 skytone; // 0x08674
} skycmd;

#seekto 0x10ef0;
struct {
u8 bmp[1896];
u8 unk11658[8]; // 0x11658
char bmpfyl[64]; // 0x11660
u8 unk116a0[95];
u8 bmpon; // 0x116ff
} bitmap;

// 2nd block ends @ 0x017cff
"""

def _make_command(self, cmd, addr, length, data=b''):
cmc = struct.pack('>IB', addr, length)
return cmd + cmc[1:] + data

def _read_mem(radio):
""" Load the memory map """
global BAUD
status = chirp_common.Status()
status.cur = 0
val = 0
for mx in range(0, radio._num_blocks):
val += radio._num_packets[mx]
status.max = val
status.msg = "Reading %i packets" % val
radio.status_fn(status)

data = b""

radio.pipe.baudrate = BAUD
resp0 = radio.pipe.read(16) # flush
cmc = b"0M PROGRAM" + TERM
resp0 = _command(radio.pipe, cmc, 3, W8S)
if resp0[:1] == "?": # try once more
resp0 = _command(radio.pipe, cmc, 3, W8S)
radio.pipe.baudrate = 57600 # PROG mode is always 57.6
LOG.debug("Switching to 57600 baud download.")
junk = radio.pipe.read(1) # trailing byte
for blkn in range(0, radio._num_blocks):
for bkx in range(0, radio._num_packets[blkn]):
addr = (radio._block_addr[blkn] << 8) | (bkx << 8)
resp0 = _command(radio.pipe,
radio._make_command(b'R', addr, 0),
radio._packet_size[blkn], W8S)
if len(resp0) < radio._packet_size[blkn]:
junk = _command(radio.pipe, b"E", 0, W8S)
lb = len(resp0)
xb = radio._packet_size[blkn]
sx = "Block 0x%x, 0x%x read error: " % (blkn, bkx)
sx += "Got %i bytes, expected %i." % (lb, xb)
LOG.error(sx)
sx = "Block read error! Check debug.log"
raise errors.RadioError(sx)
if blkn == 0 and bkx == 0: # 1st packet of 1st block
mht = resp0[5:9] # Magic Header Thingy after cmd echo
data += mht[0:1]
data += b'\xff\xff\xff'
data += resp0[9:]
else:
data += resp0[5:] # skip cmd echo
_update_status(radio, status) # UI Update
# Exit Prog mode, no TERM
resp = _command(radio.pipe, b"E", 0, W8S)
radio.pipe.baudrate = BAUD
return data

def _write_mem(radio):
""" PROG MCP Blocks Send """
global BAUD
# UI progress
status = chirp_common.Status()
status.cur = 0
val = 0
for mx in range(0, radio._num_blocks):
val += radio._num_packets[mx]
status.max = val
status.msg = "Writing %i packets" % val
radio.status_fn(status)

imgadr = 0
radio.pipe.baudrate = BAUD
resp0 = _command(radio.pipe, b"0M PROGRAM" + TERM, 3, W8S)
radio.pipe.baudrate = 57600
LOG.debug("Switching to 57600 baud upload.")
junk = radio.pipe.read(1)
# Read block 0 magic header thingy, save it
addr = radio._block_addr[0] << 8
resp0 = _command(radio.pipe,
radio._make_command(b'R', addr, 4),
16, W8S)
mht0 = resp0[5:]
# Now get block 1 mht
addr = radio._block_addr[1] << 8
resp0 = _command(radio.pipe,
radio._make_command(b'R', addr, 5),
16, W8S)
mht1 = resp0[5:]
for blkn in range(0, radio._num_blocks):
for bkx in range(0, radio._num_packets[blkn]):
addr = (radio._block_addr[blkn] << 8) | (bkx << 8)

if bkx == 0: # First packet of the block includes mht
if blkn == 0:
data = (b'\xff\x4b\x01\x32' +
radio.get_mmap()[4:imgadr + 256])
elif blkn == 1:
data = mht1 + radio.get_mmap()[imgadr + 5:imgadr +
256]
else: # after first packet
data = radio.get_mmap()[imgadr:imgadr + 256]
cmc = radio._make_command(b'W', addr, 0, data)

resp0 = _command(radio.pipe, cmc, 6, W8S)
if bkx > 0 and resp0 != ACK:
LOG.error("Packet 0x%x Write error, no ACK!" % bkx)
sx = "Radio failed to acknowledge upload. "
sx += "See debug.log"
raise errors.RadioError(sx)
imgadr += 256
_update_status(radio, status) # UI Update
# Re-write magic headers
cmc = radio._make_command(b'W', (radio._block_addr[0] << 8) | 1, 3,
mht0[1:3] + b'\x32')
resp0 = _command(radio.pipe, cmc, 1, W8S)
cmc = radio._make_command(b'W', radio._block_addr[1] << 8, 5, mht1)
resp0 = _command(radio.pipe, cmc, 1, W8S)
cmc = radio._make_command(b'Z', radio._block_addr[0], 1, mht0[0:1])
resp0 = _command(radio.pipe, cmc, 16, W8S)
# Write E to Exit PROG mode
resp = _command(radio.pipe, b"E", 0, W8S)
radio.pipe.baudrate = BAUD
return
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