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New Model #3799 » ft2900.py

Modded driver, place in chirp/drivers/ - Paul B, 07/06/2016 11:49 AM

 
# Copyright 2011 Dan Smith <dsmith@danplanet.com>
#
# FT-2900-specific modifications by Richard Cochran, <ag6qr@sonic.net>
# Initial work on settings by Chris Fosnight, <chris.fosnight@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 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 os
import logging

from chirp import util, memmap, chirp_common, bitwise, directory, errors
from chirp.drivers.yaesu_clone import YaesuCloneModeRadio
from chirp.settings import RadioSetting, RadioSettingGroup, \
RadioSettingValueList, RadioSettingValueString, RadioSettings

from textwrap import dedent

LOG = logging.getLogger(__name__)


def _send(s, data):
s.write(data)
echo = s.read(len(data))
if data != echo:
raise Exception("Failed to read echo")
LOG.debug("got echo\n%s\n" % util.hexprint(echo))

ACK = "\x06"
INITIAL_CHECKSUM = 0


def _download(radio):

blankChunk = ""
for _i in range(0, 32):
blankChunk += "\xff"

LOG.debug("in _download\n")

data = ""
for _i in range(0, 20):
data = radio.pipe.read(20)
LOG.debug("Header:\n%s" % util.hexprint(data))
LOG.debug("len(header) = %s\n" % len(data))

if data == radio.IDBLOCK:
break

if data != radio.IDBLOCK:
raise Exception("Failed to read header")

_send(radio.pipe, ACK)

# initialize data, the big var that holds all memory
data = ""

_blockNum = 0

while len(data) < radio._block_sizes[1]:
_blockNum += 1
time.sleep(0.03)
chunk = radio.pipe.read(32)
LOG.debug("Block %i " % (_blockNum))
if chunk == blankChunk:
LOG.debug("blank chunk\n")
else:
LOG.debug("Got: %i:\n%s" % (len(chunk), util.hexprint(chunk)))
if len(chunk) != 32:
LOG.debug("len chunk is %i\n" % (len(chunk)))
raise Exception("Failed to get full data block")
break
else:
data += chunk

if radio.status_fn:
status = chirp_common.Status()
status.max = radio._block_sizes[1]
status.cur = len(data)
status.msg = "Cloning from radio"
radio.status_fn(status)

LOG.debug("Total: %i" % len(data))

# radio should send us one final termination byte, containing
# checksum
chunk = radio.pipe.read(32)
if len(chunk) != 1:
LOG.debug("len(chunk) is %i\n" % len(chunk))
raise Exception("radio sent extra unknown data")
LOG.debug("Got: %i:\n%s" % (len(chunk), util.hexprint(chunk)))

# compute checksum
cs = INITIAL_CHECKSUM
for byte in radio.IDBLOCK:
cs += ord(byte)
for byte in data:
cs += ord(byte)
LOG.debug("calculated checksum is %x\n" % (cs & 0xff))
LOG.debug("Radio sent checksum is %x\n" % ord(chunk[0]))

if (cs & 0xff) != ord(chunk[0]):
raise Exception("Failed checksum on read.")

# for debugging purposes, dump the channels, in hex.
for _i in range(0, 200):
_startData = 1892 + 20 * _i
chunk = data[_startData:_startData + 20]
LOG.debug("channel %i:\n%s" % (_i, util.hexprint(chunk)))

return memmap.MemoryMap(data)


def _upload(radio):
for _i in range(0, 10):
data = radio.pipe.read(256)
if not data:
break
LOG.debug("What is this garbage?\n%s" % util.hexprint(data))
raise Exception("Radio sent unrecognized data")

_send(radio.pipe, radio.IDBLOCK)
time.sleep(.2)
ack = radio.pipe.read(300)
LOG.debug("Ack was (%i):\n%s" % (len(ack), util.hexprint(ack)))
if ack != ACK:
raise Exception("Radio did not ack ID. Check cable, verify"
" radio is not locked.\n"
" (press & Hold red \"*L\" button to unlock"
" radio if needed)")

block = 0
cs = INITIAL_CHECKSUM
for byte in radio.IDBLOCK:
cs += ord(byte)

while block < (radio.get_memsize() / 32):
data = radio.get_mmap()[block*32:(block+1)*32]

LOG.debug("Writing block %i:\n%s" % (block, util.hexprint(data)))

_send(radio.pipe, data)
time.sleep(0.03)

for byte in data:
cs += ord(byte)

if radio.status_fn:
status = chirp_common.Status()
status.max = radio._block_sizes[1]
status.cur = block * 32
status.msg = "Cloning to radio"
radio.status_fn(status)
block += 1

_send(radio.pipe, chr(cs & 0xFF))

MEM_FORMAT = """
#seekto 0x0080;
struct {
u8 apo;
u8 arts_beep;
u8 bell;
u8 dimmer;
u8 cw_id_string[16];
u8 cw_trng;
u8 x95;
u8 x96;
u8 x97;
u8 int_cd;
u8 int_set;
u8 x9A;
u8 x9B;
u8 lock;
u8 x9D;
u8 mic_gain;
u8 open_msg;
u8 openMsg_Text[6];
u8 rf_sql;
u8 unk:6,
pag_abk:1,
unk:1;
u8 pag_cdr_1;
u8 pag_cdr_2;
u8 pag_cdt_1;
u8 pag_cdt_2;
u8 prog_p1;
u8 xAD;
u8 prog_p2;
u8 xAF;
u8 prog_p3;
u8 xB1;
u8 prog_p4;
u8 xB3;
u8 resume;
u8 tot;
u8 unk:1,
cw_id:1,
unk:1,
ts_speed:1,
ars:1,
unk:2,
dtmf_mode:1;
u8 unk:1,
ts_mut:1
wires_auto:1,
busy_lockout:1,
edge_beep:1,
unk:3;
u8 unk:2,
s_search:1,
unk:2,
cw_trng_units:1,
unk:2;
u8 dtmf_speed:1,
unk:2,
arts_interval:1,
unk:1,
inverted_dcs:1,
unk:1,
mw_mode:1;
u8 unk:2,
wires_mode:1,
wx_alert:1,
unk:1,
wx_vol_max:1,
revert:1,
unk:1;
u8 vfo_scan;
u8 scan_mode;
u8 dtmf_delay;
u8 beep;
u8 xBF;
} settings;

#seekto 0x00d0;
u8 passwd[4];
u8 mbs;

#seekto 0x00c0;
struct {
u16 in_use;
} bank_used[8];

#seekto 0x00ef;
u8 currentTone;

#seekto 0x00f0;
u8 curChannelMem[20];

#seekto 0x1e0;
struct {
u8 dtmf_string[16];
} dtmf_strings[10];

#seekto 0x0127;
u8 curChannelNum;

#seekto 0x012a;
u8 banksoff1;

#seekto 0x15f;
u8 checksum1;

#seekto 0x16f;
u8 curentTone2;

#seekto 0x1aa;
u16 banksoff2;

#seekto 0x1df;
u8 checksum2;

#seekto 0x0360;
struct{
u8 name[6];
} bank_names[8];


#seekto 0x03c4;
struct{
u16 channels[50];
} banks[8];

#seekto 0x06e4;
struct {
u8 even_pskip:1,
even_skip:1,
even_valid:1,
even_masked:1,
odd_pskip:1,
odd_skip:1,
odd_valid:1,
odd_masked:1;
} flags[225];

#seekto 0x0764;
struct {
u8 unknown0:2,
isnarrow:1,
unknown1:5;
u8 unknown2:2,
duplex:2,
unknown3:1,
step:3;
bbcd freq[3];
u8 power:2,
unknown4:3,
tmode:3;
u8 name[6];
bbcd offset[3];
u8 ctonesplitflag:1,
ctone:7;
u8 rx_dtcssplitflag:1,
rx_dtcs:7;
u8 unknown5;
u8 rtonesplitflag:1,
rtone:7;
u8 dtcssplitflag:1,
dtcs:7;
} memory[200];

"""

MODES = ["FM", "NFM"]
TMODES = ["", "Tone", "TSQL", "DTCS", "TSQL-R", "Cross"]
CROSS_MODES = ["DTCS->", "Tone->DTCS", "DTCS->Tone",
"Tone->Tone", "DTCS->DTCS"]
DUPLEX = ["", "-", "+", "split"]
POWER_LEVELS = [chirp_common.PowerLevel("Hi", watts=75),
chirp_common.PowerLevel("Low3", watts=30),
chirp_common.PowerLevel("Low2", watts=10),
chirp_common.PowerLevel("Low1", watts=5),
]

CHARSET = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ +-/?C[] _"
STEPS = [5.0, 10.0, 12.5, 15.0, 20.0, 25.0, 50.0, 100.0]


def _decode_tone(radiotone):
try:
chirptone = chirp_common.TONES[radiotone]
except IndexError:
chirptone = 100
LOG.debug("found invalid radio tone: %i\n" % radiotone)
return chirptone


def _decode_dtcs(radiodtcs):
try:
chirpdtcs = chirp_common.DTCS_CODES[radiodtcs]
except IndexError:
chirpdtcs = 23
LOG.debug("found invalid radio dtcs code: %i\n" % radiodtcs)
return chirpdtcs


def _decode_name(mem):
name = ""
for i in mem:
if (i & 0x7F) == 0x7F:
break
try:
name += CHARSET[i & 0x7F]
except IndexError:
LOG.debug("Unknown char index: %x " % (i))
name = name.strip()
return name


def _encode_name(mem):
if(mem.strip() == ""):
return [0xff]*6

name = [None]*6
for i in range(0, 6):
try:
name[i] = CHARSET.index(mem[i])
except IndexError:
name[i] = CHARSET.index(" ")

name[0] = name[0] | 0x80
return name


def _wipe_memory(mem):
mem.set_raw("\xff" * (mem.size() / 8))


class FT2900Bank(chirp_common.NamedBank):
def get_name(self):
_bank = self._model._radio._memobj.bank_names[self.index]
name = ""
for i in _bank.name:
if i == 0xff:
break
name += CHARSET[i & 0x7f]

return name.rstrip()

def set_name(self, name):
name = name.upper().ljust(6)[:6]
_bank = self._model._radio._memobj.bank_names[self.index]
_bank.name = [CHARSET.index(x) for x in name.ljust(6)[:6]]


class FT2900BankModel(chirp_common.BankModel):
def get_num_mappings(self):
return 8

def get_mappings(self):
banks = self._radio._memobj.banks
bank_mappings = []
for index, _bank in enumerate(banks):
bank = FT2900Bank(self, "%i" % index, "b%i" % (index + 1))
bank.index = index
bank_mappings.append(bank)

return bank_mappings

def _get_channel_numbers_in_bank(self, bank):
_bank_used = self._radio._memobj.bank_used[bank.index]
if _bank_used.in_use == 0xffff:
return set()

_members = self._radio._memobj.banks[bank.index]
return set([int(ch) for ch in _members.channels if ch != 0xffff])

def _update_bank_with_channel_numbers(self, bank, channels_in_bank):
_members = self._radio._memobj.banks[bank.index]
if len(channels_in_bank) > len(_members.channels):
raise Exception("More than %i entries in bank %d" %
(len(_members.channels), bank.index))

empty = 0
for index, channel_number in enumerate(sorted(channels_in_bank)):
_members.channels[index] = channel_number
empty = index + 1
for index in range(empty, len(_members.channels)):
_members.channels[index] = 0xffff

_bank_used = self._radio._memobj.bank_used[bank.index]
if empty == 0:
_bank_used.in_use = 0xffff
else:
_bank_used.in_use = empty - 1

def add_memory_to_mapping(self, memory, bank):
channels_in_bank = self._get_channel_numbers_in_bank(bank)
channels_in_bank.add(memory.number)
self._update_bank_with_channel_numbers(bank, channels_in_bank)

# tells radio that banks are active
self._radio._memobj.banksoff1 = bank.index
self._radio._memobj.banksoff2 = bank.index

def remove_memory_from_mapping(self, memory, bank):
channels_in_bank = self._get_channel_numbers_in_bank(bank)
try:
channels_in_bank.remove(memory.number)
except KeyError:
raise Exception("Memory %i is not in bank %s. Cannot remove" %
(memory.number, bank))
self._update_bank_with_channel_numbers(bank, channels_in_bank)

def get_mapping_memories(self, bank):
memories = []
for channel in self._get_channel_numbers_in_bank(bank):
memories.append(self._radio.get_memory(channel))

return memories

def get_memory_mappings(self, memory):
banks = []
for bank in self.get_mappings():
if memory.number in self._get_channel_numbers_in_bank(bank):
banks.append(bank)

return banks


@directory.register
class FT2900Radio(YaesuCloneModeRadio):
"""Yaesu FT-2900"""
VENDOR = "Yaesu"
MODEL = "FT-2900R/1900R"
IDBLOCK = "\x56\x43\x32\x33\x00\x02\x46\x01\x01\x01"
BAUD_RATE = 19200

_memsize = 8000
_block_sizes = [8, 8000]

def get_features(self):
rf = chirp_common.RadioFeatures()

rf.memory_bounds = (0, 199)

rf.can_odd_split = True
rf.has_ctone = True
rf.has_rx_dtcs = True
rf.has_cross = True
rf.has_dtcs_polarity = False
rf.has_bank = True
rf.has_bank_names = True
rf.has_settings = True

rf.valid_tuning_steps = STEPS
rf.valid_modes = MODES
rf.valid_tmodes = TMODES
rf.valid_cross_modes = CROSS_MODES
rf.valid_bands = [(136000000, 174000000)]
rf.valid_power_levels = POWER_LEVELS
rf.valid_duplexes = DUPLEX
rf.valid_skips = ["", "S", "P"]
rf.valid_name_length = 6
rf.valid_characters = CHARSET

return rf

def sync_in(self):
start = time.time()
try:
self._mmap = _download(self)
except errors.RadioError:
raise
except Exception, e:
raise errors.RadioError("Failed to communicate with radio: %s" % e)
LOG.info("Downloaded in %.2f sec" % (time.time() - start))
self.process_mmap()

def sync_out(self):
self.pipe.timeout = 1
start = time.time()
try:
_upload(self)
except errors.RadioError:
raise
except Exception, e:
raise errors.RadioError("Failed to communicate with radio: %s" % e)
LOG.info("Uploaded in %.2f sec" % (time.time() - start))

def process_mmap(self):
self._memobj = bitwise.parse(MEM_FORMAT, self._mmap)

def get_raw_memory(self, number):
return repr(self._memobj.memory[number])

def get_memory(self, number):
_mem = self._memobj.memory[number]
_flag = self._memobj.flags[(number)/2]

nibble = ((number) % 2) and "even" or "odd"
used = _flag["%s_masked" % nibble]
valid = _flag["%s_valid" % nibble]
pskip = _flag["%s_pskip" % nibble]
skip = _flag["%s_skip" % nibble]

mem = chirp_common.Memory()

mem.number = number

if _mem.get_raw()[0] == "\xFF" or not valid or not used:
mem.empty = True
return mem

mem.tuning_step = STEPS[_mem.step]
mem.freq = int(_mem.freq) * 1000

# compensate for 12.5 kHz tuning steps, add 500 Hz if needed
if(mem.tuning_step == 12.5):
lastdigit = int(_mem.freq) % 10
if (lastdigit == 2 or lastdigit == 7):
mem.freq += 500

mem.offset = chirp_common.fix_rounded_step(int(_mem.offset) * 1000)
mem.duplex = DUPLEX[_mem.duplex]
if _mem.tmode < TMODES.index("Cross"):
mem.tmode = TMODES[_mem.tmode]
mem.cross_mode = CROSS_MODES[0]
else:
mem.tmode = "Cross"
mem.cross_mode = CROSS_MODES[_mem.tmode - TMODES.index("Cross")]

mem.rtone = _decode_tone(_mem.rtone)
mem.ctone = _decode_tone(_mem.ctone)

# check for unequal ctone/rtone in TSQL mode. map it as a
# cross tone mode
if mem.rtone != mem.ctone and (mem.tmode == "TSQL" or
mem.tmode == "Tone"):
mem.tmode = "Cross"
mem.cross_mode = "Tone->Tone"

mem.dtcs = _decode_dtcs(_mem.dtcs)
mem.rx_dtcs = _decode_dtcs(_mem.rx_dtcs)

# check for unequal dtcs/rx_dtcs in DTCS mode. map it as a
# cross tone mode
if mem.dtcs != mem.rx_dtcs and mem.tmode == "DTCS":
mem.tmode = "Cross"
mem.cross_mode = "DTCS->DTCS"

if (int(_mem.name[0]) & 0x80) != 0:
mem.name = _decode_name(_mem.name)

mem.mode = _mem.isnarrow and "NFM" or "FM"
mem.skip = pskip and "P" or skip and "S" or ""
mem.power = POWER_LEVELS[3 - _mem.power]

return mem

def set_memory(self, mem):
_mem = self._memobj.memory[mem.number]
_flag = self._memobj.flags[(mem.number)/2]

nibble = ((mem.number) % 2) and "even" or "odd"

valid = _flag["%s_valid" % nibble]
used = _flag["%s_masked" % nibble]

if not valid:
_wipe_memory(_mem)

if mem.empty and valid and not used:
_flag["%s_valid" % nibble] = False
return

_flag["%s_masked" % nibble] = not mem.empty

if mem.empty:
return

_flag["%s_valid" % nibble] = True

_mem.freq = mem.freq / 1000
_mem.offset = mem.offset / 1000
_mem.duplex = DUPLEX.index(mem.duplex)

# clear all the split tone flags -- we'll set them as needed below
_mem.ctonesplitflag = 0
_mem.rx_dtcssplitflag = 0
_mem.rtonesplitflag = 0
_mem.dtcssplitflag = 0

if mem.tmode != "Cross":
_mem.tmode = TMODES.index(mem.tmode)
# for the non-cross modes, use ONE tone for both send
# and receive but figure out where to get it from.
if mem.tmode == "TSQL" or mem.tmode == "TSQL-R":
_mem.rtone = chirp_common.TONES.index(mem.ctone)
_mem.ctone = chirp_common.TONES.index(mem.ctone)
else:
_mem.rtone = chirp_common.TONES.index(mem.rtone)
_mem.ctone = chirp_common.TONES.index(mem.rtone)

# and one tone for dtcs, but this is always the sending one
_mem.dtcs = chirp_common.DTCS_CODES.index(mem.dtcs)
_mem.rx_dtcs = chirp_common.DTCS_CODES.index(mem.dtcs)

else:
_mem.rtone = chirp_common.TONES.index(mem.rtone)
_mem.ctone = chirp_common.TONES.index(mem.ctone)
_mem.dtcs = chirp_common.DTCS_CODES.index(mem.dtcs)
_mem.rx_dtcs = chirp_common.DTCS_CODES.index(mem.rx_dtcs)
if mem.cross_mode == "Tone->Tone":
# tone->tone cross mode is treated as
# TSQL, but with separate tones for
# send and receive
_mem.tmode = TMODES.index("TSQL")
_mem.rtonesplitflag = 1
elif mem.cross_mode == "DTCS->DTCS":
# DTCS->DTCS cross mode is treated as
# DTCS, but with separate codes for
# send and receive
_mem.tmode = TMODES.index("DTCS")
_mem.dtcssplitflag = 1
else:
_mem.tmode = TMODES.index("Cross") + \
CROSS_MODES.index(mem.cross_mode)

_mem.isnarrow = MODES.index(mem.mode)
_mem.step = STEPS.index(mem.tuning_step)
_flag["%s_pskip" % nibble] = mem.skip == "P"
_flag["%s_skip" % nibble] = mem.skip == "S"
if mem.power:
_mem.power = 3 - POWER_LEVELS.index(mem.power)
else:
_mem.power = 3

_mem.name = _encode_name(mem.name)

# set all unknown areas of the memory map to 0
_mem.unknown0 = 0
_mem.unknown1 = 0
_mem.unknown2 = 0
_mem.unknown3 = 0
_mem.unknown4 = 0
_mem.unknown5 = 0

LOG.debug("encoded mem\n%s\n" % (util.hexprint(_mem.get_raw()[0:20])))

def get_settings(self):
_settings = self._memobj.settings
_dtmf_strings = self._memobj.dtmf_strings
_passwd = self._memobj.passwd

repeater = RadioSettingGroup("repeater", "Repeater Settings")
ctcss = RadioSettingGroup("ctcss", "CTCSS/DCS/EPCS Settings")
arts = RadioSettingGroup("arts", "ARTS Settings")
mbls = RadioSettingGroup("banks", "Memory Settings")
scan = RadioSettingGroup("scan", "Scan Settings")
dtmf = RadioSettingGroup("dtmf", "DTMF Settings")
wires = RadioSettingGroup("wires", "WiRES(tm) Settings")
switch = RadioSettingGroup("switch", "Switch/Knob Settings")
disp = RadioSettingGroup("disp", "Display Settings")
misc = RadioSettingGroup("misc", "Miscellaneous Settings")

setmode = RadioSettings(repeater, ctcss, arts, mbls, scan,
dtmf, wires, switch, disp, misc)

# numbers and names of settings refer to the way they're
# presented in the set menu, as well as the list starting on
# page 74 of the manual

# 1 APO
opts = ["Off", "30 Min", "1 Hour", "3 Hour", "5 Hour", "8 Hour"]
misc.append(
RadioSetting(
"apo", "Automatic Power Off",
RadioSettingValueList(opts, opts[_settings.apo])))

# 2 AR.BEP
opts = ["Off", "In Range", "Always"]
arts.append(
RadioSetting(
"arts_beep", "ARTS Beep",
RadioSettingValueList(opts, opts[_settings.arts_beep])))

# 3 AR.INT
opts = ["15 Sec", "25 Sec"]
arts.append(
RadioSetting(
"arts_interval", "ARTS Polling Interval",
RadioSettingValueList(opts, opts[_settings.arts_interval])))

# 4 ARS
opts = ["Off", "On"]
repeater.append(
RadioSetting(
"ars", "Automatic Repeater Shift",
RadioSettingValueList(opts, opts[_settings.ars])))

# 5 BCLO
opts = ["Off", "On"]
misc.append(RadioSetting(
"busy_lockout", "Busy Channel Lock-Out",
RadioSettingValueList(opts, opts[_settings.busy_lockout])))

# 6 BEEP
opts = ["Off", "Key+Scan", "Key"]
switch.append(RadioSetting(
"beep", "Enable the Beeper",
RadioSettingValueList(opts, opts[_settings.beep])))

# 7 BELL
opts = ["Off", "1", "3", "5", "8", "Continuous"]
ctcss.append(RadioSetting("bell", "Bell Repetitions",
RadioSettingValueList(opts, opts[_settings.bell])))

# 8 BNK.LNK
for i in range(0, 8):
opts = ["Off", "On"]
mbs = (self._memobj.mbs >> i) & 1
rs = RadioSetting("mbs%i" % i, "Bank %s Scan" % (i + 1),
RadioSettingValueList(opts, opts[mbs]))

def apply_mbs(s, index):
if int(s.value):
self._memobj.mbs |= (1 << index)
else:
self._memobj.mbs &= ~(1 << index)
rs.set_apply_callback(apply_mbs, i)
mbls.append(rs)

# 9 BNK.NM - A per-bank attribute, nothing to do here.

# 10 CLK.SFT - A per-channel attribute, nothing to do here.

# 11 CW.ID
opts = ["Off", "On"]
arts.append(RadioSetting("cw_id", "CW ID Enable",
RadioSettingValueList(opts, opts[_settings.cw_id])))

cw_id_text = ""
for i in _settings.cw_id_string:
try:
cw_id_text += CHARSET[i & 0x7F]
except IndexError:
if i != 0xff:
LOG.debug("unknown char index in cw id: %x " % (i))

val = RadioSettingValueString(0, 16, cw_id_text, True)
val.set_charset(CHARSET + "abcdefghijklmnopqrstuvwxyz")
rs = RadioSetting("cw_id_string", "CW Identifier Text", val)

def apply_cw_id(s):
str = s.value.get_value().upper().rstrip()
mval = ""
mval = [chr(CHARSET.index(x)) for x in str]
for x in range(len(mval), 16):
mval.append(chr(0xff))
for x in range(0, 16):
_settings.cw_id_string[x] = ord(mval[x])
rs.set_apply_callback(apply_cw_id)
arts.append(rs)

# 12 CWTRNG
opts = ["Off", "4WPM", "5WPM", "6WPM", "7WPM", "8WPM", "9WPM",
"10WPM", "11WPM", "12WPM", "13WPM", "15WPM", "17WPM",
"20WPM", "24WPM", "30WPM", "40WPM"]
misc.append(RadioSetting("cw_trng", "CW Training",
RadioSettingValueList(opts, opts[_settings.cw_trng])))

# todo: make the setting of the units here affect the display
# of the speed. Not critical, but would be slick.
opts = ["CPM", "WPM"]
misc.append(RadioSetting("cw_trng_units", "CW Training Units",
RadioSettingValueList(opts,
opts[_settings.cw_trng_units])))

# 13 DC VLT - a read-only status, so nothing to do here

# 14 DCS CD - A per-channel attribute, nothing to do here

# 15 DCS.RV
opts = ["Disabled", "Enabled"]
ctcss.append(RadioSetting(
"inverted_dcs",
"\"Inverted\" DCS Code Decoding",
RadioSettingValueList(opts,
opts[_settings.inverted_dcs])))

# 16 DIMMER
opts = ["Off"] + ["Level %d" % (x) for x in range(1, 11)]
disp.append(RadioSetting("dimmer", "Dimmer",
RadioSettingValueList(opts,
opts[_settings
.dimmer])))

# 17 DT.A/M
opts = ["Manual", "Auto"]
dtmf.append(RadioSetting("dtmf_mode", "DTMF Autodialer",
RadioSettingValueList(opts,
opts[_settings
.dtmf_mode])))

# 18 DT.DLY
opts = ["50 ms", "250 ms", "450 ms", "750 ms", "1000 ms"]
dtmf.append(RadioSetting("dtmf_delay", "DTMF Autodialer Delay Time",
RadioSettingValueList(opts,
opts[_settings
.dtmf_delay])))

# 19 DT.SET
for memslot in range(0, 10):
dtmf_memory = ""
for i in _dtmf_strings[memslot].dtmf_string:
if i != 0xFF:
try:
dtmf_memory += CHARSET[i]
except IndexError:
LOG.debug("unknown char index in dtmf: %x " % (i))

val = RadioSettingValueString(0, 16, dtmf_memory, True)
val.set_charset(CHARSET + "abcdef")
rs = RadioSetting("dtmf_string_%d" % memslot,
"DTMF Memory %d" % memslot, val)

def apply_dtmf(s, i):
LOG.debug("applying dtmf for %x\n" % i)
str = s.value.get_value().upper().rstrip()
LOG.debug("str is %s\n" % str)
mval = ""
mval = [chr(CHARSET.index(x)) for x in str]
for x in range(len(mval), 16):
mval.append(chr(0xff))
for x in range(0, 16):
_dtmf_strings[i].dtmf_string[x] = ord(mval[x])
rs.set_apply_callback(apply_dtmf, memslot)
dtmf.append(rs)

# 20 DT.SPD
opts = ["50 ms", "100 ms"]
dtmf.append(RadioSetting("dtmf_speed",
"DTMF Autodialer Sending Speed",
RadioSettingValueList(opts,
opts[_settings.
dtmf_speed])))

# 21 EDG.BEP
opts = ["Off", "On"]
mbls.append(RadioSetting("edge_beep", "Band Edge Beeper",
RadioSettingValueList(opts,
opts[_settings.
edge_beep])))

# 22 INT.CD
opts = ["DTMF %X" % (x) for x in range(0, 16)]
wires.append(RadioSetting("int_cd", "Access Number for WiRES(TM)",
RadioSettingValueList(opts, opts[_settings.int_cd])))

# 23 ING MD
opts = ["Sister Radio Group", "Friends Radio Group"]
wires.append(RadioSetting("wires_mode",
"Internet Link Connection Mode",
RadioSettingValueList(opts,
opts[_settings.
wires_mode])))

# 24 INT.A/M
opts = ["Manual", "Auto"]
wires.append(RadioSetting("wires_auto", "Internet Link Autodialer",
RadioSettingValueList(opts,
opts[_settings
.wires_auto])))
# 25 INT.SET
opts = ["F%d" % (x) for x in range(0, 10)]

wires.append(RadioSetting("int_set", "Memory Register for "
"non-WiRES Internet",
RadioSettingValueList(opts,
opts[_settings
.int_set])))

# 26 LOCK
opts = ["Key", "Dial", "Key + Dial", "PTT",
"Key + PTT", "Dial + PTT", "All"]
switch.append(RadioSetting("lock", "Control Locking",
RadioSettingValueList(opts,
opts[_settings
.lock])))

# 27 MCGAIN
opts = ["Level %d" % (x) for x in range(1, 10)]
misc.append(RadioSetting("mic_gain", "Microphone Gain",
RadioSettingValueList(opts,
opts[_settings
.mic_gain])))

# 28 MEM.SCN
opts = ["Tag 1", "Tag 2", "All Channels"]
rs = RadioSetting("scan_mode", "Memory Scan Mode",
RadioSettingValueList(opts,
opts[_settings
.scan_mode - 1]))
# this setting is unusual in that it starts at 1 instead of 0.
# that is, index 1 corresponds to "Tag 1", and index 0 is invalid.
# so we create a custom callback to handle this.

def apply_scan_mode(s):
myopts = ["Tag 1", "Tag 2", "All Channels"]
_settings.scan_mode = myopts.index(s.value.get_value()) + 1
rs.set_apply_callback(apply_scan_mode)
mbls.append(rs)

# 29 MW MD
opts = ["Lower", "Next"]
mbls.append(RadioSetting("mw_mode", "Memory Write Mode",
RadioSettingValueList(opts,
opts[_settings
.mw_mode])))

# 30 NM SET - This is per channel, so nothing to do here

# 31 OPN.MSG
opts = ["Off", "DC Supply Voltage", "Text Message"]
disp.append(RadioSetting("open_msg", "Opening Message Type",
RadioSettingValueList(opts,
opts[_settings.
open_msg])))

openmsg = ""
for i in _settings.openMsg_Text:
try:
openmsg += CHARSET[i & 0x7F]
except IndexError:
if i != 0xff:
LOG.debug("unknown char index in openmsg: %x " % (i))

val = RadioSettingValueString(0, 6, openmsg, True)
val.set_charset(CHARSET + "abcdefghijklmnopqrstuvwxyz")
rs = RadioSetting("openMsg_Text", "Opening Message Text", val)

def apply_openmsg(s):
str = s.value.get_value().upper().rstrip()
mval = ""
mval = [chr(CHARSET.index(x)) for x in str]
for x in range(len(mval), 6):
mval.append(chr(0xff))
for x in range(0, 6):
_settings.openMsg_Text[x] = ord(mval[x])
rs.set_apply_callback(apply_openmsg)
disp.append(rs)

# 32 PAGER - a per-channel attribute

# 33 PAG.ABK
opts = ["Off", "On"]
ctcss.append(RadioSetting("pag_abk", "Paging Answer Back",
RadioSettingValueList(opts,
opts[_settings
.pag_abk])))

# 34 PAG.CDR
opts = ["%2.2d" % (x) for x in range(1, 50)]
ctcss.append(RadioSetting("pag_cdr_1", "Receive Page Code 1",
RadioSettingValueList(opts,
opts[_settings
.pag_cdr_1])))

ctcss.append(RadioSetting("pag_cdr_2", "Receive Page Code 2",
RadioSettingValueList(opts,
opts[_settings
.pag_cdr_2])))

# 35 PAG.CDT
opts = ["%2.2d" % (x) for x in range(1, 50)]
ctcss.append(RadioSetting("pag_cdt_1", "Transmit Page Code 1",
RadioSettingValueList(opts,
opts[_settings
.pag_cdt_1])))

ctcss.append(RadioSetting("pag_cdt_2", "Transmit Page Code 2",
RadioSettingValueList(opts,
opts[_settings
.pag_cdt_2])))

# Common Button Options
button_opts = ["Squelch Off", "Weather", "Smart Search",
"Tone Scan", "Scan", "T Call", "ARTS"]

# 36 PRG P1
opts = button_opts + ["DC Volts"]
switch.append(RadioSetting(
"prog_p1", "P1 Button",
RadioSettingValueList(opts, opts[_settings.prog_p1])))

# 37 PRG P2
opts = button_opts + ["Dimmer"]
switch.append(RadioSetting(
"prog_p2", "P2 Button",
RadioSettingValueList(opts, opts[_settings.prog_p2])))

# 38 PRG P3
opts = button_opts + ["Mic Gain"]
switch.append(RadioSetting(
"prog_p3", "P3 Button",
RadioSettingValueList(opts, opts[_settings.prog_p3])))

# 39 PRG P4
opts = button_opts + ["Skip"]
switch.append(RadioSetting(
"prog_p4", "P4 Button",
RadioSettingValueList(opts, opts[_settings.prog_p4])))

# 40 PSWD
password = ""
for i in _passwd:
if i != 0xFF:
try:
password += CHARSET[i]
except IndexError:
LOG.debug("unknown char index in password: %x " % (i))

val = RadioSettingValueString(0, 4, password, True)
val.set_charset(CHARSET[0:15] + "abcdef ")
rs = RadioSetting("passwd", "Password", val)

def apply_password(s):
str = s.value.get_value().upper().rstrip()
mval = ""
mval = [chr(CHARSET.index(x)) for x in str]
for x in range(len(mval), 4):
mval.append(chr(0xff))
for x in range(0, 4):
_passwd[x] = ord(mval[x])
rs.set_apply_callback(apply_password)
misc.append(rs)

# 41 RESUME
opts = ["3 Sec", "5 Sec", "10 Sec", "Busy", "Hold"]
scan.append(RadioSetting("resume", "Scan Resume Mode",
RadioSettingValueList(opts, opts[_settings.resume])))

# 42 RF.SQL
opts = ["Off"] + ["S-%d" % (x) for x in range(1, 10)]
misc.append(RadioSetting("rf_sql", "RF Squelch Threshold",
RadioSettingValueList(opts, opts[_settings.rf_sql])))

# 43 RPT - per channel attribute, nothing to do here

# 44 RVRT
opts = ["Off", "On"]
misc.append(RadioSetting("revert", "Priority Revert",
RadioSettingValueList(opts, opts[_settings.revert])))

# 45 S.SRCH
opts = ["Single", "Continuous"]
misc.append(RadioSetting("s_search", "Smart Search Sweep Mode",
RadioSettingValueList(opts, opts[_settings.s_search])))

# 46 SHIFT - per channel setting, nothing to do here

# 47 SKIP = per channel setting, nothing to do here

# 48 SPLIT - per channel attribute, nothing to do here

# 49 SQL.TYP - per channel attribute, nothing to do here

# 50 STEP - per channel attribute, nothing to do here

# 51 TEMP - read-only status, nothing to do here

# 52 TN FRQ - per channel attribute, nothing to do here

# 53 TOT
opts = ["Off", "1 Min", "3 Min", "5 Min", "10 Min"]
misc.append(RadioSetting("tot", "Timeout Timer",
RadioSettingValueList(opts,
opts[_settings.tot])))

# 54 TS MUT
opts = ["Off", "On"]
ctcss.append(RadioSetting("ts_mut", "Tone Search Mute",
RadioSettingValueList(opts,
opts[_settings
.ts_mut])))

# 55 TS SPEED
opts = ["Fast", "Slow"]
ctcss.append(RadioSetting("ts_speed", "Tone Search Scanner Speed",
RadioSettingValueList(opts,
opts[_settings
.ts_speed])))

# 56 VFO.SCN
opts = ["+/- 1MHz", "+/- 2MHz", "+/-5MHz", "All"]
scan.append(RadioSetting("vfo_scan", "VFO Scanner Width",
RadioSettingValueList(opts,
opts[_settings
.vfo_scan])))

# 57 WX.ALT
opts = ["Off", "On"]
misc.append(RadioSetting("wx_alert", "Weather Alert Scan",
RadioSettingValueList(opts, opts[_settings.wx_alert])))

# 58 WX.VOL
opts = ["Normal", "Maximum"]
misc.append(RadioSetting("wx_vol_max", "Weather Alert Volume",
RadioSettingValueList(opts, opts[_settings.wx_vol_max])))

# 59 W/N DV - this is a per-channel attribute, nothing to do here

return setmode

def set_settings(self, uisettings):
_settings = self._memobj.settings
for element in uisettings:
if not isinstance(element, RadioSetting):
self.set_settings(element)
continue
if not element.changed():
continue

try:
name = element.get_name()
value = element.value

if element.has_apply_callback():
LOG.debug("Using apply callback")
element.run_apply_callback()
else:
obj = getattr(_settings, name)
setattr(_settings, name, value)

LOG.debug("Setting %s: %s" % (name, value))
except Exception, e:
LOG.debug(element.get_name())
raise

def get_bank_model(self):
return FT2900BankModel(self)

@classmethod
def match_model(cls, filedata, filename):
return len(filedata) == cls._memsize

@classmethod
def get_prompts(cls):
rp = chirp_common.RadioPrompts()
rp.pre_download = _(dedent("""\
1. Turn Radio off.
2. Connect data cable.
3. While holding "A/N LOW" button, turn radio on.
4. <b>After clicking OK</b>, press "SET MHz" to send image."""))
rp.pre_upload = _(dedent("""\
1. Turn Radio off.
2. Connect data cable.
3. While holding "A/N LOW" button, turn radio on.
4. Press "MW D/MR" to receive image.
5. Make sure display says "-WAIT-" (see note below if not)
6. Click OK to dismiss this dialog and start transfer.

Note: if you don't see "-WAIT-" at step 5, try cycling
power and pressing and holding red "*L" button to unlock
radio, then start back at step 1."""))
return rp


# the FT2900E is the European version of the radio, almost identical
# to the R (USA) version, except for the model number and ID Block. We
# create and register a class for it, with only the needed overrides
# NOTE: Disabled until detection is fixed
#@directory.register
class FT2900ERadio(FT2900Radio):
"""Yaesu FT-2900E"""
MODEL = "FT-2900E/1900E"
VARIANT = "E"
IDBLOCK = "\x56\x43\x32\x33\x00\x02\x41\x02\x01\x01"
#MODDED BIT STARTS HERE
# the FT2900Mod is a version of the radio that has been modified to
# allow transmit on a greater range of frequencies. It is almost
# identical to the standard version, except for the model number and
# ID Block. We create and register a class for it, with only the
# needed overrides
@directory.register
class FT2900ModRadio(FT2900Radio):
"""Yaesu FT-2900Mod"""
MODEL = "FT-2900/1900 (Modded)"
VARIANT = "Opened Xmit"
IDBLOCK = "\x56\x43\x32\x33\x00\x02\xc7\x01\x01\x01"

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