1
|
# Copyright 2011 Dan Smith <dsmith@danplanet.com>
|
2
|
#
|
3
|
# FT-2900-specific modifications by Richard Cochran, <ag6qr@sonic.net>
|
4
|
# Initial work on settings by Chris Fosnight, <chris.fosnight@gmail.com>
|
5
|
# FT-7100-specific modifications by Bruno Maire, <bruno@e48.ch>
|
6
|
#
|
7
|
# This program is free software: you can redistribute it and/or modify
|
8
|
# it under the terms of the GNU General Public License as published by
|
9
|
# the Free Software Foundation, either version 3 of the License, or
|
10
|
# (at your option) any later version.
|
11
|
#
|
12
|
# This program is distributed in the hope that it will be useful,
|
13
|
# but WITHOUT ANY WARRANTY; without even the implied warranty of
|
14
|
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
|
15
|
# GNU General Public License for more details.
|
16
|
#
|
17
|
# You should have received a copy of the GNU General Public License
|
18
|
# along with this program. If not, see <http://www.gnu.org/licenses/>.
|
19
|
|
20
|
import time
|
21
|
import logging
|
22
|
|
23
|
from chirp import util, memmap, chirp_common, bitwise, directory, errors
|
24
|
from chirp.drivers.yaesu_clone import YaesuCloneModeRadio
|
25
|
from chirp.settings import RadioSetting, RadioSettingGroup, \
|
26
|
RadioSettingValueList, RadioSettingValueString, RadioSettings, \
|
27
|
RadioSettingValueInteger, RadioSettingValueBoolean
|
28
|
|
29
|
|
30
|
LOG = logging.getLogger(__name__)
|
31
|
|
32
|
ACK = b"\x06"
|
33
|
NB_OF_BLOCKS = 248
|
34
|
BLOCK_LEN = 32
|
35
|
|
36
|
|
37
|
def _send(pipe, data):
|
38
|
time.sleep(0.035) # Same delay as "FT7100 Programmer" from RT Systems
|
39
|
# pipe.write(data) --> It seems, that the single bytes are sent too fast
|
40
|
# so send character per character with a delay
|
41
|
for ch in data:
|
42
|
pipe.write(ch)
|
43
|
time.sleep(0.0012) # 0.0011 is to short. No ACK after a few packets
|
44
|
echo = pipe.read(len(data))
|
45
|
if data == "":
|
46
|
raise Exception("Failed to read echo."
|
47
|
" Maybe serial hardware not connected."
|
48
|
" Maybe radio not powered or not in receiving mode.")
|
49
|
if data != echo:
|
50
|
LOG.debug("expecting echo\n%s\n", util.hexprint(data))
|
51
|
LOG.debug("got echo\n%s\n", util.hexprint(echo))
|
52
|
raise Exception("Got false echo. Expected: '{}', got: '{}'."
|
53
|
.format(data, echo))
|
54
|
|
55
|
|
56
|
def _send_ack(pipe):
|
57
|
time.sleep(0.01) # Wait for radio input buffer ready
|
58
|
# time.sleep(0.0003) is the absolute working minimum.
|
59
|
# This delay is not critical for the transfer as there are not many ACKs.
|
60
|
_send(pipe, ACK)
|
61
|
|
62
|
|
63
|
def _wait_for_ack(pipe):
|
64
|
echo = pipe.read(1)
|
65
|
if echo == "":
|
66
|
raise Exception("Failed to read ACK. No response from radio.")
|
67
|
if echo != ACK:
|
68
|
raise Exception("Failed to read ACK. Expected: '{}', got: '{}'."
|
69
|
.format(util.hexprint(ACK), util.hexprint(echo)))
|
70
|
|
71
|
|
72
|
def _download(radio):
|
73
|
LOG.debug("in _download\n")
|
74
|
data = ""
|
75
|
for _i in range(0, 60):
|
76
|
data = radio.pipe.read(BLOCK_LEN)
|
77
|
LOG.debug("Header:\n%s", util.hexprint(data))
|
78
|
LOG.debug("len(header) = %s\n", len(data))
|
79
|
if data == radio.IDBLOCK:
|
80
|
break
|
81
|
if data == b"":
|
82
|
raise Exception("Got no data from radio.")
|
83
|
if data != radio.IDBLOCK:
|
84
|
raise Exception("Got false header. Expected: '{}', got: '{}'."
|
85
|
.format(radio.IDBLOCK, data))
|
86
|
_send_ack(radio.pipe)
|
87
|
|
88
|
# read 16 Byte block
|
89
|
# and ignore it because it is constant. This might be a bug.
|
90
|
# It was built in at the very beginning and discovered very late that the
|
91
|
# data might be necessary later to write to the radio.
|
92
|
# Now the data is hardcoded in _upload(radio)
|
93
|
data = radio.pipe.read(16)
|
94
|
_send_ack(radio.pipe)
|
95
|
|
96
|
# initialize data, the big var that holds all memory
|
97
|
data = b""
|
98
|
for block_nr in range(NB_OF_BLOCKS):
|
99
|
chunk = radio.pipe.read(BLOCK_LEN)
|
100
|
if len(chunk) != BLOCK_LEN:
|
101
|
LOG.debug("Block %i ", block_nr)
|
102
|
LOG.debug("Got: %i:\n%s", len(chunk), util.hexprint(chunk))
|
103
|
LOG.debug("len chunk is %i\n", len(chunk))
|
104
|
raise Exception("Failed to get full data block")
|
105
|
else:
|
106
|
data += chunk
|
107
|
_send_ack(radio.pipe)
|
108
|
|
109
|
if radio.status_fn:
|
110
|
status = chirp_common.Status()
|
111
|
status.max = NB_OF_BLOCKS * BLOCK_LEN
|
112
|
status.cur = len(data)
|
113
|
status.msg = "Cloning from radio"
|
114
|
radio.status_fn(status)
|
115
|
|
116
|
LOG.debug("Total: %i", len(data))
|
117
|
_send_ack(radio.pipe)
|
118
|
|
119
|
# for debugging purposes, dump the channels, in hex.
|
120
|
for _i in range(0, (NB_OF_BLOCKS * BLOCK_LEN) / 26):
|
121
|
_start_data = 4 + 26 * _i
|
122
|
chunk = data[_start_data:_start_data + 26]
|
123
|
LOG.debug("channel %i:\n%s", _i-21, util.hexprint(chunk))
|
124
|
|
125
|
return memmap.MemoryMapBytes(data)
|
126
|
|
127
|
|
128
|
def _upload(radio):
|
129
|
data = radio.pipe.read(256) # Clear buffer
|
130
|
_send(radio.pipe, radio.IDBLOCK)
|
131
|
_wait_for_ack(radio.pipe)
|
132
|
|
133
|
# write 16 Byte block
|
134
|
# If there should be a problem, see remarks in _download(radio)
|
135
|
_send(radio.pipe, b"\xEE\x77\x01\x00\x0E\x07\x0E\x07"
|
136
|
b"\x00\x00\x00\x00\x00\x02\x00\x00")
|
137
|
_wait_for_ack(radio.pipe)
|
138
|
|
139
|
for block_nr in range(NB_OF_BLOCKS):
|
140
|
data = radio.get_mmap()[block_nr * BLOCK_LEN:
|
141
|
(block_nr + 1) * BLOCK_LEN]
|
142
|
LOG.debug("Writing block_nr %i:\n%s", block_nr, util.hexprint(data))
|
143
|
_send(radio.pipe, data)
|
144
|
_wait_for_ack(radio.pipe)
|
145
|
|
146
|
if radio.status_fn:
|
147
|
status = chirp_common.Status()
|
148
|
status.max = NB_OF_BLOCKS * BLOCK_LEN
|
149
|
status.cur = block_nr * BLOCK_LEN
|
150
|
status.msg = "Cloning to radio"
|
151
|
radio.status_fn(status)
|
152
|
block_nr += 1
|
153
|
|
154
|
|
155
|
MEM_FORMAT = """
|
156
|
struct mem {
|
157
|
u8 is_used:1,
|
158
|
is_masked:1,
|
159
|
is_skip:1,
|
160
|
unknown11:3,
|
161
|
show_name:1,
|
162
|
is_split:1;
|
163
|
u8 unknown2;
|
164
|
ul32 freq_rx_Hz;
|
165
|
ul32 freq_tx_Hz;
|
166
|
ul16 offset_10khz;
|
167
|
u8 unknown_dependent_of_band_144_b0000_430_b0101:4,
|
168
|
tuning_step_index_1_2:4;
|
169
|
u8 unknown51:2,
|
170
|
is_offset_minus:1,
|
171
|
is_offset_plus:1,
|
172
|
unknown52:1,
|
173
|
tone_mode_index:3;
|
174
|
u8 tone_index;
|
175
|
u8 dtcs_index;
|
176
|
u8 is_mode_am:1,
|
177
|
unknown71:2,
|
178
|
is_packet96:1
|
179
|
unknown72:2,
|
180
|
power_index:2;
|
181
|
u8 unknown81:2,
|
182
|
tuning_step_index_2_2:4,
|
183
|
unknown82:2;
|
184
|
char name[6];
|
185
|
u8 unknown9;
|
186
|
u8 unknownA;
|
187
|
};
|
188
|
|
189
|
// Settings are often present multiple times.
|
190
|
// The memories which is written to are mapped here
|
191
|
struct
|
192
|
{
|
193
|
#seekto 0x41;
|
194
|
u8 current_band;
|
195
|
#seekto 0xa1;
|
196
|
u8 apo;
|
197
|
#seekto 0xa2;
|
198
|
u8 ars_vhf;
|
199
|
#seekto 0xe2;
|
200
|
u8 ars_uhf;
|
201
|
#seekto 0xa3;
|
202
|
u8 arts_vhf;
|
203
|
#seekto 0xa3;
|
204
|
u8 arts_uhf;
|
205
|
#seekto 0xa4;
|
206
|
u8 beep;
|
207
|
#seekto 0xa5;
|
208
|
u8 cwid;
|
209
|
#seekto 0x80;
|
210
|
char cwidw[6];
|
211
|
#seekto 0xa7;
|
212
|
u8 dim;
|
213
|
#seekto 0xaa;
|
214
|
u8 dcsnr_vhf;
|
215
|
#seekto 0xea;
|
216
|
u8 dcsnr_uhf;
|
217
|
#seekto 0xab;
|
218
|
u8 disp;
|
219
|
#seekto 0xac;
|
220
|
u8 dtmfd;
|
221
|
#seekto 0xad;
|
222
|
u8 dtmfs;
|
223
|
#seekto 0xae;
|
224
|
u8 dtmfw;
|
225
|
#seekto 0xb0;
|
226
|
u8 lockt;
|
227
|
#seekto 0xb1;
|
228
|
u8 mic;
|
229
|
#seekto 0xb2;
|
230
|
u8 mute;
|
231
|
#seekto 0xb4;
|
232
|
u8 button[4];
|
233
|
#seekto 0xb8;
|
234
|
u8 rf_sql_vhf;
|
235
|
#seekto 0xf8;
|
236
|
u8 rf_sql_uhf;
|
237
|
#seekto 0xb9;
|
238
|
u8 scan_vhf;
|
239
|
#seekto 0xf9;
|
240
|
u8 scan_uhf;
|
241
|
#seekto 0xbc;
|
242
|
u8 speaker_cnt;
|
243
|
#seekto 0xff;
|
244
|
u8 tot;
|
245
|
#seekto 0xc0;
|
246
|
u8 txnar_vhf;
|
247
|
#seekto 0x100;
|
248
|
u8 txnar_uhf;
|
249
|
#seekto 0xc1;
|
250
|
u8 vfotr;
|
251
|
#seekto 0xc2;
|
252
|
u8 am;
|
253
|
} overlay;
|
254
|
|
255
|
// All known memories
|
256
|
#seekto 0x20;
|
257
|
u8 nb_mem_used_vhf;
|
258
|
#seekto 0x22;
|
259
|
u8 nb_mem_used_vhf_and_limits;
|
260
|
#seekto 0x24;
|
261
|
u8 nb_mem_used_uhf;
|
262
|
#seekto 0x26;
|
263
|
u8 nb_mem_used_uhf_and_limits;
|
264
|
|
265
|
#seekto 0x41;
|
266
|
u8 current_band;
|
267
|
|
268
|
#seekto 0x42;
|
269
|
u8 current_nb_mem_used_vhf_maybe_not;
|
270
|
|
271
|
#seekto 0x4c;
|
272
|
u8 priority_channel_maybe_1; // not_implemented
|
273
|
u8 priority_channel_maybe_2; // not_implemented
|
274
|
u8 priority_channel; // not_implemented
|
275
|
|
276
|
#seekto 0x87;
|
277
|
u8 opt_01_apo_1_4;
|
278
|
#seekto 0xa1;
|
279
|
u8 opt_01_apo_2_4;
|
280
|
#seekto 0xc5;
|
281
|
u8 opt_01_apo_3_4;
|
282
|
#seekto 0xe1;
|
283
|
u8 opt_01_apo_4_4;
|
284
|
|
285
|
#seekto 0x88;
|
286
|
u8 opt_02_ars_vhf_1_2;
|
287
|
#seekto 0xa2;
|
288
|
u8 opt_02_ars_vhf_2_2;
|
289
|
#seekto 0xc6;
|
290
|
u8 opt_02_ars_uhf_1_2;
|
291
|
#seekto 0xe2;
|
292
|
u8 opt_02_ars_uhf_2_2;
|
293
|
|
294
|
#seekto 0x89;
|
295
|
u8 opt_03_arts_mode_vhf_1_2;
|
296
|
#seekto 0xa3;
|
297
|
u8 opt_03_arts_mode_vhf_2_2;
|
298
|
#seekto 0xc7;
|
299
|
u8 opt_03_arts_mode_uhf_1_2;
|
300
|
#seekto 0xa3;
|
301
|
u8 opt_03_arts_mode_vhf_2_2;
|
302
|
|
303
|
#seekto 0x8a;
|
304
|
u8 opt_04_beep_1_2;
|
305
|
#seekto 0xa4;
|
306
|
u8 opt_04_beep_2_2;
|
307
|
|
308
|
#seekto 0x8b;
|
309
|
u8 opt_05_cwid_on_1_4;
|
310
|
#seekto 0xa5;
|
311
|
u8 opt_05_cwid_on_2_4;
|
312
|
#seekto 0xc9;
|
313
|
u8 opt_05_cwid_on_3_4;
|
314
|
#seekto 0xe5;
|
315
|
u8 opt_05_cwid_on_4_4;
|
316
|
|
317
|
#seekto 0x80;
|
318
|
char opt_06_cwidw[6];
|
319
|
|
320
|
#seekto 0x8d;
|
321
|
u8 opt_07_dim_1_4;
|
322
|
#seekto 0xa7;
|
323
|
u8 opt_07_dim_2_4;
|
324
|
#seekto 0xcb;
|
325
|
u8 opt_07_dim_3_4;
|
326
|
#seekto 0xe7;
|
327
|
u8 opt_07_dim_4_4;
|
328
|
|
329
|
#seekto 0x90;
|
330
|
u8 opt_10_dcsnr_vhf_1_2;
|
331
|
#seekto 0xaa;
|
332
|
u8 opt_10_dcsnr_vhf_2_2;
|
333
|
#seekto 0xce;
|
334
|
u8 opt_10_dcsnr_uhf_1_2;
|
335
|
#seekto 0xea;
|
336
|
u8 opt_10_dcsnr_uhf_2_2;
|
337
|
|
338
|
#seekto 0x91;
|
339
|
u8 opt_11_disp_1_4;
|
340
|
#seekto 0xab;
|
341
|
u8 opt_11_disp_2_4;
|
342
|
#seekto 0xcf;
|
343
|
u8 opt_11_disp_3_4;
|
344
|
#seekto 0xeb;
|
345
|
u8 opt_11_disp_4_4;
|
346
|
|
347
|
#seekto 0x92;
|
348
|
u8 opt_12_dtmf_delay_1_4;
|
349
|
#seekto 0xac;
|
350
|
u8 opt_12_dtmf_delay_2_4;
|
351
|
#seekto 0xd0;
|
352
|
u8 opt_12_dtmf_delay_3_4;
|
353
|
#seekto 0xec;
|
354
|
u8 opt_12_dtmf_delay_4_4;
|
355
|
|
356
|
#seekto 0x93;
|
357
|
u8 opt_13_dtmf_speed_1_4;
|
358
|
#seekto 0xad;
|
359
|
u8 opt_13_dtmf_speed_2_4;
|
360
|
#seekto 0xd1;
|
361
|
u8 opt_13_dtmf_speed_3_4;
|
362
|
#seekto 0xed;
|
363
|
u8 opt_13_dtmf_speed_4_4;
|
364
|
|
365
|
#seekto 0x94;
|
366
|
u8 opt_14_dtmfw_index_1_4;
|
367
|
#seekto 0xae;
|
368
|
u8 opt_14_dtmfw_index_2_4;
|
369
|
#seekto 0xd2;
|
370
|
u8 opt_14_dtmfw_index_3_4;
|
371
|
#seekto 0xee;
|
372
|
u8 opt_14_dtmfw_index_4_4;
|
373
|
|
374
|
#seekto 0x96;
|
375
|
u8 opt_16_lockt_1_4;
|
376
|
#seekto 0xb0;
|
377
|
u8 opt_16_lockt_2_4;
|
378
|
#seekto 0xd4;
|
379
|
u8 opt_16_lockt_3_4;
|
380
|
#seekto 0xf0;
|
381
|
u8 opt_16_lockt_4_4;
|
382
|
|
383
|
#seekto 0x97;
|
384
|
u8 opt_17_mic_MH48_1_4;
|
385
|
#seekto 0xb1;
|
386
|
u8 opt_17_mic_MH48_2_4;
|
387
|
#seekto 0xd5;
|
388
|
u8 opt_17_mic_MH48_3_4;
|
389
|
#seekto 0xf1;
|
390
|
u8 opt_17_mic_MH48_4_4;
|
391
|
|
392
|
#seekto 0x98;
|
393
|
u8 opt_18_mute_1_4;
|
394
|
#seekto 0xb2;
|
395
|
u8 opt_18_mute_2_4;
|
396
|
#seekto 0xd6;
|
397
|
u8 opt_18_mute_3_4;
|
398
|
#seekto 0xf2;
|
399
|
u8 opt_18_mute_4_4;
|
400
|
|
401
|
#seekto 0x9a;
|
402
|
u8 opt_20_pg_p_1_4[4];
|
403
|
#seekto 0xb4;
|
404
|
u8 opt_20_pg_p_2_4[4];
|
405
|
#seekto 0xd8;
|
406
|
u8 opt_20_pg_p_3_4[4];
|
407
|
#seekto 0xf4;
|
408
|
u8 opt_20_pg_p_4_4[4];
|
409
|
|
410
|
#seekto 0x9e;
|
411
|
u8 opt_24_rf_sql_vhf_1_2;
|
412
|
#seekto 0xb8;
|
413
|
u8 opt_24_rf_sql_vhf_2_2;
|
414
|
#seekto 0xdc;
|
415
|
u8 opt_24_rf_sql_uhf_1_2;
|
416
|
#seekto 0xf8;
|
417
|
u8 opt_24_rf_sql_uhf_2_2;
|
418
|
|
419
|
#seekto 0x9f;
|
420
|
u8 opt_25_scan_resume_vhf_1_2;
|
421
|
#seekto 0xb9;
|
422
|
u8 opt_25_scan_resume_vhf_2_2;
|
423
|
#seekto 0xdd;
|
424
|
u8 opt_25_scan_resume_uhf_1_2;
|
425
|
#seekto 0xf9;
|
426
|
u8 opt_25_scan_resume_uhf_2_2;
|
427
|
|
428
|
#seekto 0xbc;
|
429
|
u8 opt_28_speaker_cnt_1_2;
|
430
|
#seekto 0xfc;
|
431
|
u8 opt_28_speaker_cnt_2_2;
|
432
|
|
433
|
#seekto 0xbf;
|
434
|
u8 opt_31_tot_1_2;
|
435
|
#seekto 0xff;
|
436
|
u8 opt_31_tot_2_2;
|
437
|
|
438
|
#seekto 0xc0;
|
439
|
u8 opt_32_tx_nar_vhf;
|
440
|
#seekto 0x100;
|
441
|
u8 opt_32_tx_nar_uhf;
|
442
|
|
443
|
#seekto 0xc1;
|
444
|
u8 opt_33_vfo_tr;
|
445
|
|
446
|
#seekto 0xc2;
|
447
|
u8 opt_34_am_1_2;
|
448
|
#seekto 0x102;
|
449
|
u8 opt_34_am_2_2;
|
450
|
|
451
|
#seekto 260;
|
452
|
struct {
|
453
|
struct mem mem_struct;
|
454
|
char fill_ff[2];
|
455
|
} unknown00;
|
456
|
|
457
|
struct {
|
458
|
struct mem mem_struct;
|
459
|
char fill_00[6];
|
460
|
} current_vfo_vhf_uhf[2];
|
461
|
|
462
|
struct {
|
463
|
struct mem mem_struct;
|
464
|
char fill_ff[6];
|
465
|
} current_mem_vhf_uhf[2];
|
466
|
|
467
|
struct {
|
468
|
struct mem mem_struct;
|
469
|
char fill_ff[6];
|
470
|
} home_vhf_uhf[2];
|
471
|
|
472
|
struct {
|
473
|
struct mem mem_struct;
|
474
|
char fill_010003000000[6];
|
475
|
} vhome;
|
476
|
|
477
|
struct {
|
478
|
struct mem mem_struct;
|
479
|
char fill_010001000000[6];
|
480
|
} unknown01;
|
481
|
|
482
|
struct {
|
483
|
char name[32];
|
484
|
} Vertex_Standard_AH003M_Backup_DT;
|
485
|
|
486
|
struct mem
|
487
|
memory[260];
|
488
|
|
489
|
struct {
|
490
|
char name[24];
|
491
|
} Vertex_Standard_AH003M;
|
492
|
|
493
|
struct {
|
494
|
u8 dtmf[16];
|
495
|
} dtmf_mem[16];
|
496
|
"""
|
497
|
|
498
|
MODES_VHF = ["FM", "AM"]
|
499
|
MODES_UHF = ["FM"] # AM can be set but is ignored by the radio
|
500
|
DUPLEX = ["", "-", "+", "split"]
|
501
|
TONE_MODES_RADIO = ["", "Tone", "TSQL", "CTCSS Bell", "DTCS"]
|
502
|
TONE_MODES = ["", "Tone", "TSQL", "DTCS"]
|
503
|
POWER_LEVELS = [
|
504
|
chirp_common.PowerLevel("Low", watts=5),
|
505
|
chirp_common.PowerLevel("Low2", watts=10),
|
506
|
chirp_common.PowerLevel("Low3", watts=20),
|
507
|
chirp_common.PowerLevel("High", watts=35),
|
508
|
]
|
509
|
TUNING_STEPS = [5.0, 10.0, 12.5, 15.0, 20.0, 25.0, 50.0]
|
510
|
SKIP_VALUES = ["", "S"]
|
511
|
CHARSET = r"!\"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^ _"
|
512
|
DTMF_CHARSET = "0123456789*# "
|
513
|
SPECIAL_CHANS = ['VFO-VHF', 'VFO-UHF', 'Home-VHF', 'Home-UHF', 'VFO', 'Home']
|
514
|
SCAN_LIMITS = ["L1", "U1", "L2", "U2", "L3", "U3", "L4", "U4", "L5", "U5"]
|
515
|
|
516
|
|
517
|
def do_download(radio):
|
518
|
"""This is your download function"""
|
519
|
return _download(radio)
|
520
|
|
521
|
|
522
|
@directory.register
|
523
|
class FT7100Radio(YaesuCloneModeRadio):
|
524
|
|
525
|
"""Yaesu FT-7100M"""
|
526
|
MODEL = "FT-7100M"
|
527
|
VARIANT = ""
|
528
|
IDBLOCK = b"Vartex Standard AH003M M-Map V04"
|
529
|
BAUD_RATE = 9600
|
530
|
NEEDS_COMPAT_SERIAL = False
|
531
|
|
532
|
# Return information about this radio's features, including
|
533
|
# how many memories it has, what bands it supports, etc
|
534
|
def get_features(self):
|
535
|
LOG.debug("get_features")
|
536
|
rf = chirp_common.RadioFeatures()
|
537
|
rf.has_bank = False
|
538
|
|
539
|
rf.memory_bounds = (0, 240)
|
540
|
# This radio supports 120 + 10 + 120 + 10 = 260 memories
|
541
|
# These are zero based for chirpc
|
542
|
rf.valid_bands = [
|
543
|
(108000000, 180000000), # Supports 2-meters tx
|
544
|
(320000000, 999990000), # Supports 70-centimeters tx
|
545
|
]
|
546
|
rf.can_odd_split = True
|
547
|
rf.has_ctone = True
|
548
|
rf.has_rx_dtcs = True
|
549
|
rf.has_cross = False
|
550
|
rf.has_dtcs_polarity = False
|
551
|
rf.has_bank = False
|
552
|
rf.has_bank_names = False
|
553
|
rf.has_settings = True
|
554
|
rf.has_sub_devices = True
|
555
|
rf.valid_tuning_steps = TUNING_STEPS
|
556
|
rf.valid_modes = MODES_VHF
|
557
|
rf.valid_tmodes = TONE_MODES
|
558
|
rf.valid_power_levels = POWER_LEVELS
|
559
|
rf.valid_duplexes = DUPLEX
|
560
|
rf.valid_skips = SKIP_VALUES
|
561
|
rf.valid_name_length = 6
|
562
|
rf.valid_characters = CHARSET
|
563
|
rf.valid_special_chans = SPECIAL_CHANS
|
564
|
return rf
|
565
|
|
566
|
def sync_in(self):
|
567
|
start = time.time()
|
568
|
try:
|
569
|
self._mmap = _download(self)
|
570
|
except errors.RadioError:
|
571
|
raise
|
572
|
except Exception as e:
|
573
|
raise errors.RadioError("Failed to communicate with radio: %s" % e)
|
574
|
LOG.info("Downloaded in %.2f sec", (time.time() - start))
|
575
|
self.process_mmap()
|
576
|
|
577
|
def sync_out(self):
|
578
|
self.pipe.timeout = 1
|
579
|
start = time.time()
|
580
|
try:
|
581
|
_upload(self)
|
582
|
except errors.RadioError:
|
583
|
raise
|
584
|
except Exception as e:
|
585
|
raise errors.RadioError("Failed to communicate with radio: %s" % e)
|
586
|
LOG.info("Uploaded in %.2f sec", (time.time() - start))
|
587
|
|
588
|
def process_mmap(self):
|
589
|
self._memobj = bitwise.parse(MEM_FORMAT, self._mmap)
|
590
|
|
591
|
def get_raw_memory(self, number):
|
592
|
return repr(self._memobj.memory[number])
|
593
|
|
594
|
def get_memory(self, number):
|
595
|
LOG.debug("get_memory Number: {}".format(number))
|
596
|
|
597
|
# Create a high-level memory object to return to the UI
|
598
|
mem = chirp_common.Memory()
|
599
|
|
600
|
# Get a low-level memory object mapped to the image
|
601
|
if isinstance(number, int) and number < 0:
|
602
|
number = SPECIAL_CHANS[number + 10]
|
603
|
if isinstance(number, str):
|
604
|
mem.number = -10 + SPECIAL_CHANS.index(number)
|
605
|
mem.extd_number = number
|
606
|
band = 0
|
607
|
if self._memobj.overlay.current_band != 0:
|
608
|
band = 1
|
609
|
if number == 'VFO-VHF':
|
610
|
_mem = self._memobj.current_vfo_vhf_uhf[0].mem_struct
|
611
|
elif number == 'VFO-UHF':
|
612
|
_mem = self._memobj.current_vfo_vhf_uhf[1].mem_struct
|
613
|
elif number == 'Home-VHF':
|
614
|
_mem = self._memobj.home_vhf_uhf[0].mem_struct
|
615
|
elif number == 'Home-UHF':
|
616
|
_mem = self._memobj.home_vhf_uhf[1].mem_struct
|
617
|
elif number == 'VFO':
|
618
|
_mem = self._memobj.current_vfo_vhf_uhf[band].mem_struct
|
619
|
elif number == 'Home':
|
620
|
_mem = self._memobj.home_vhf_uhf[band].mem_struct
|
621
|
_mem.is_used = True
|
622
|
else:
|
623
|
mem.number = number # Set the memory number
|
624
|
_mem = self._memobj.memory[number]
|
625
|
upper_channel = self._memobj.nb_mem_used_vhf
|
626
|
upper_limit = self._memobj.nb_mem_used_vhf_and_limits
|
627
|
if number >= upper_channel and number < upper_limit:
|
628
|
i = number - upper_channel
|
629
|
mem.extd_number = SCAN_LIMITS[i]
|
630
|
if number >= 260-10:
|
631
|
i = number - (260-10)
|
632
|
mem.extd_number = SCAN_LIMITS[i]
|
633
|
|
634
|
# Convert your low-level frequency to Hertz
|
635
|
mem.freq = int(_mem.freq_rx_Hz)
|
636
|
mem.name = str(_mem.name).rstrip() # Set the alpha tag
|
637
|
|
638
|
mem.rtone = chirp_common.TONES[_mem.tone_index]
|
639
|
mem.ctone = chirp_common.TONES[_mem.tone_index]
|
640
|
|
641
|
mem.dtcs = chirp_common.DTCS_CODES[_mem.dtcs_index]
|
642
|
mem.rx_dtcs = chirp_common.DTCS_CODES[_mem.dtcs_index]
|
643
|
|
644
|
tmode_radio = TONE_MODES_RADIO[_mem.tone_mode_index]
|
645
|
# CTCSS Bell is TSQL plus a flag in the extra setting
|
646
|
is_ctcss_bell = tmode_radio == "CTCSS Bell"
|
647
|
if is_ctcss_bell:
|
648
|
mem.tmode = "TSQL"
|
649
|
else:
|
650
|
mem.tmode = tmode_radio
|
651
|
|
652
|
mem.duplex = ""
|
653
|
if _mem.is_offset_plus:
|
654
|
mem.duplex = "+"
|
655
|
elif _mem.is_offset_minus:
|
656
|
mem.duplex = "-"
|
657
|
elif _mem.is_split:
|
658
|
mem.duplex = "split"
|
659
|
|
660
|
if _mem.is_split:
|
661
|
mem.offset = int(_mem.freq_tx_Hz)
|
662
|
else:
|
663
|
mem.offset = int(_mem.offset_10khz)*10000 # 10kHz to Hz
|
664
|
|
665
|
if _mem.is_mode_am:
|
666
|
mem.mode = "AM"
|
667
|
else:
|
668
|
mem.mode = "FM"
|
669
|
|
670
|
mem.power = POWER_LEVELS[_mem.power_index]
|
671
|
|
672
|
mem.tuning_step = TUNING_STEPS[_mem.tuning_step_index_1_2]
|
673
|
|
674
|
if _mem.is_skip:
|
675
|
mem.skip = "S"
|
676
|
else:
|
677
|
mem.skip = ""
|
678
|
|
679
|
# mem.comment = ""
|
680
|
|
681
|
mem.empty = not _mem.is_used
|
682
|
|
683
|
mem.extra = RadioSettingGroup("Extra", "extra")
|
684
|
|
685
|
rs = RadioSetting("show_name", "Show Name",
|
686
|
RadioSettingValueBoolean(_mem.show_name))
|
687
|
mem.extra.append(rs)
|
688
|
rs = RadioSetting("is_masked", "Is Masked",
|
689
|
RadioSettingValueBoolean(_mem.is_masked))
|
690
|
mem.extra.append(rs)
|
691
|
rs = RadioSetting("is_packet96", "Packet 9600",
|
692
|
RadioSettingValueBoolean(_mem.is_packet96))
|
693
|
mem.extra.append(rs)
|
694
|
rs = RadioSetting("is_ctcss_bell", "CTCSS Bell",
|
695
|
RadioSettingValueBoolean(is_ctcss_bell))
|
696
|
mem.extra.append(rs)
|
697
|
|
698
|
return mem
|
699
|
|
700
|
def set_memory(self, mem):
|
701
|
LOG.debug("set_memory Number: {}".format(mem.number))
|
702
|
if mem.number < 0:
|
703
|
number = SPECIAL_CHANS[mem.number+10]
|
704
|
if number == 'VFO-VHF':
|
705
|
_mem = self._memobj.current_vfo_vhf_uhf[0].mem_struct
|
706
|
elif number == 'VFO-UHF':
|
707
|
_mem = self._memobj.current_vfo_vhf_uhf[1].mem_struct
|
708
|
elif number == 'Home-VHF':
|
709
|
_mem = self._memobj.home_vhf_uhf[0].mem_struct
|
710
|
elif number == 'Home-UHF':
|
711
|
_mem = self._memobj.home_vhf_uhf[1].mem_struct
|
712
|
else:
|
713
|
raise errors.RadioError("Unexpected Memory Number: {}"
|
714
|
.format(mem.number))
|
715
|
else:
|
716
|
_mem = self._memobj.memory[mem.number]
|
717
|
|
718
|
_mem.name = mem.name.ljust(6)
|
719
|
|
720
|
_mem.tone_index = chirp_common.TONES.index(mem.rtone)
|
721
|
_mem.dtcs_index = chirp_common.DTCS_CODES.index(mem.dtcs)
|
722
|
if mem.tmode == "TSQL":
|
723
|
_mem.tone_index = chirp_common.TONES.index(mem.ctone)
|
724
|
if mem.tmode == "DTSC-R":
|
725
|
_mem.dtcs_index = chirp_common.DTCS_CODES.index(mem.rx_dtcs)
|
726
|
|
727
|
_mem.is_offset_plus = 0
|
728
|
_mem.is_offset_minus = 0
|
729
|
_mem.is_split = 0
|
730
|
_mem.freq_rx_Hz = mem.freq
|
731
|
_mem.freq_tx_Hz = mem.freq
|
732
|
if mem.duplex == "+":
|
733
|
_mem.is_offset_plus = 1
|
734
|
_mem.freq_tx_Hz = mem.freq + mem.offset
|
735
|
_mem.offset_10khz = int(mem.offset/10000)
|
736
|
elif mem.duplex == "-":
|
737
|
_mem.is_offset_minus = 1
|
738
|
_mem.freq_tx_Hz = mem.freq - mem.offset
|
739
|
_mem.offset_10khz = int(mem.offset/10000)
|
740
|
elif mem.duplex == "split":
|
741
|
_mem.is_split = 1
|
742
|
_mem.freq_tx_Hz = mem.offset
|
743
|
# No change to _mem.offset_10khz
|
744
|
|
745
|
_mem.is_mode_am = mem.mode == "AM"
|
746
|
|
747
|
if mem.power:
|
748
|
_mem.power_index = POWER_LEVELS.index(mem.power)
|
749
|
|
750
|
_mem.tuning_step_index_1_2 = TUNING_STEPS.index(mem.tuning_step)
|
751
|
|
752
|
_mem.is_skip = mem.skip == "S"
|
753
|
|
754
|
_mem.is_used = not mem.empty
|
755
|
|
756
|
# if name not empty: show name
|
757
|
_mem.show_name = mem.name.strip() != ""
|
758
|
|
759
|
# In testmode there is no setting in mem.extra
|
760
|
# This is why the following line is not located in the else part of
|
761
|
# the if structure below
|
762
|
_mem.tone_mode_index = TONE_MODES_RADIO.index(mem.tmode)
|
763
|
|
764
|
for setting in mem.extra:
|
765
|
if setting.get_name() == "is_ctcss_bell":
|
766
|
if mem.tmode == "TSQL" and setting.value:
|
767
|
_mem.tone_mode_index = TONE_MODES_RADIO.index("CTCSS Bell")
|
768
|
else:
|
769
|
setattr(_mem, setting.get_name(), setting.value)
|
770
|
|
771
|
LOG.debug("encoded mem\n%s\n", (util.hexprint(_mem.get_raw()[0:25])))
|
772
|
LOG.debug(repr(_mem))
|
773
|
|
774
|
def get_settings(self):
|
775
|
common = RadioSettingGroup("common", "Common Settings")
|
776
|
band = RadioSettingGroup("band", "Band dependent Settings")
|
777
|
arts = RadioSettingGroup("arts",
|
778
|
"Auto Range Transponder System (ARTS)")
|
779
|
dtmf = RadioSettingGroup("dtmf", "DTMF Settings")
|
780
|
mic_button = RadioSettingGroup("mic_button", "Microphone Buttons")
|
781
|
setmode = RadioSettings(common, band, arts, dtmf, mic_button)
|
782
|
|
783
|
_overlay = self._memobj.overlay
|
784
|
|
785
|
# numbers and names of settings refer to the way they're
|
786
|
# presented in the set menu, as well as the list starting on
|
787
|
# page 49 of the manual
|
788
|
|
789
|
# 1 Automatic Power Off
|
790
|
opts = [
|
791
|
"Off", "30 Min",
|
792
|
"1 Hour", "1.5 Hours",
|
793
|
"2 Hours", "2.5 Hours",
|
794
|
"3 Hours", "3.5 Hours",
|
795
|
"4 Hours", "4.5 Hours",
|
796
|
"5 Hours", "5.5 Hours",
|
797
|
"6 Hours", "6.5 Hours",
|
798
|
"7 Hours", "7.5 Hours",
|
799
|
"8 Hours", "8.5 Hours",
|
800
|
"9 Hours", "9.5 Hours",
|
801
|
"10 Hours", "10.5 Hours",
|
802
|
"11 Hours", "11.5 Hours",
|
803
|
"12 Hours",
|
804
|
]
|
805
|
common.append(
|
806
|
RadioSetting(
|
807
|
"apo", "Automatic Power Off",
|
808
|
RadioSettingValueList(opts, opts[_overlay.apo])))
|
809
|
|
810
|
# 2 Automatic Repeater Shift function
|
811
|
opts = ["Off", "On"]
|
812
|
band.append(
|
813
|
RadioSetting(
|
814
|
"ars_vhf", "Automatic Repeater Shift VHF",
|
815
|
RadioSettingValueList(opts, opts[_overlay.ars_vhf])))
|
816
|
band.append(
|
817
|
RadioSetting(
|
818
|
"ars_uhf", "Automatic Repeater Shift UHF",
|
819
|
RadioSettingValueList(opts, opts[_overlay.ars_uhf])))
|
820
|
|
821
|
# 3 Selects the ARTS mode.
|
822
|
# -> Only useful to set it on the radio directly
|
823
|
|
824
|
# 4 Enables/disables the key/button beeper.
|
825
|
opts = ["Off", "On"]
|
826
|
common.append(
|
827
|
RadioSetting(
|
828
|
"beep", "Key/Button Beep",
|
829
|
RadioSettingValueList(opts, opts[_overlay.beep])))
|
830
|
|
831
|
# 5 Enables/disables the CW IDer during ARTS operation.
|
832
|
opts = ["Off", "On"]
|
833
|
arts.append(
|
834
|
RadioSetting(
|
835
|
"cwid", "Enables/Disables the CW ID",
|
836
|
RadioSettingValueList(opts, opts[_overlay.cwid])))
|
837
|
|
838
|
# 6 Callsign during ARTS operation.
|
839
|
cwidw = _overlay.cwidw.get_raw()
|
840
|
cwidw = cwidw.rstrip('\x00')
|
841
|
val = RadioSettingValueString(0, 6, cwidw)
|
842
|
val.set_charset(CHARSET)
|
843
|
rs = RadioSetting("cwidw", "CW Identifier Callsign", val)
|
844
|
|
845
|
def apply_cwid(setting):
|
846
|
value_string = setting.value.get_value()
|
847
|
_overlay.cwidw.set_value(value_string)
|
848
|
rs.set_apply_callback(apply_cwid)
|
849
|
arts.append(rs)
|
850
|
|
851
|
# 7 Front panel display's illumination level.
|
852
|
opts = ["0: Off", "1: Max", "2", "3", "4", "5", "6", "7: Min"]
|
853
|
common.append(
|
854
|
RadioSetting(
|
855
|
"dim", "Display Illumination",
|
856
|
RadioSettingValueList(opts, opts[_overlay.dim])))
|
857
|
|
858
|
# 8 Setting the DCS code number.
|
859
|
# Note: This Menu item can be set independently for each band,
|
860
|
# and independently in each memory.
|
861
|
|
862
|
# 9 Activates the DCS Code Search
|
863
|
# -> Only useful if set on radio itself
|
864
|
|
865
|
# 10 Selects 'Normal' or 'Inverted' DCS coding.
|
866
|
opts = ["TRX Normal", "RX Reversed", "TX Reversed", "TRX Reversed"]
|
867
|
band.append(
|
868
|
RadioSetting(
|
869
|
"dcsnr_vhf", "DCS coding VHF",
|
870
|
RadioSettingValueList(opts, opts[_overlay.dcsnr_vhf])))
|
871
|
band.append(
|
872
|
RadioSetting(
|
873
|
"dcsnr_uhf", "DCS coding UHF",
|
874
|
RadioSettingValueList(opts, opts[_overlay.dcsnr_uhf])))
|
875
|
|
876
|
# 11 Selects the 'sub' band display format
|
877
|
opts = ["Frequency", "Off / Sub Band disabled",
|
878
|
"DC Input Voltage", "CW ID"]
|
879
|
common.append(
|
880
|
RadioSetting(
|
881
|
"disp", "Sub Band Display Format",
|
882
|
RadioSettingValueList(opts, opts[_overlay.disp])))
|
883
|
|
884
|
# 12 Setting the DTMF Autodialer delay time
|
885
|
opts = ["50 ms", "250 ms", "450 ms", "750 ms", "1 s"]
|
886
|
dtmf.append(
|
887
|
RadioSetting(
|
888
|
"dtmfd", "Autodialer delay time",
|
889
|
RadioSettingValueList(opts, opts[_overlay.dtmfd])))
|
890
|
|
891
|
# 13 Setting the DTMF Autodialer sending speed
|
892
|
opts = ["50 ms", "75 ms", "100 ms"]
|
893
|
dtmf.append(
|
894
|
RadioSetting(
|
895
|
"dtmfs", "Autodialer sending speed",
|
896
|
RadioSettingValueList(opts, opts[_overlay.dtmfs])))
|
897
|
|
898
|
# 14 Current DTMF Autodialer memory
|
899
|
rs = RadioSetting("dtmfw", "Current Autodialer memory",
|
900
|
RadioSettingValueInteger(1, 16, _overlay.dtmfw + 1))
|
901
|
|
902
|
def apply_dtmfw(setting):
|
903
|
_overlay.dtmfw = setting.value.get_value() - 1
|
904
|
rs.set_apply_callback(apply_dtmfw)
|
905
|
dtmf.append(rs)
|
906
|
|
907
|
# DTMF Memory
|
908
|
for i in range(16):
|
909
|
dtmf_string = ""
|
910
|
for j in range(16):
|
911
|
dtmf_char = ''
|
912
|
dtmf_int = int(self._memobj.dtmf_mem[i].dtmf[j])
|
913
|
if dtmf_int < 10:
|
914
|
dtmf_char = str(dtmf_int)
|
915
|
elif dtmf_int == 14:
|
916
|
dtmf_char = '*'
|
917
|
elif dtmf_int == 15:
|
918
|
dtmf_char = '#'
|
919
|
elif dtmf_int == 255:
|
920
|
break
|
921
|
dtmf_string += dtmf_char
|
922
|
radio_setting_value_string = RadioSettingValueString(0, 16,
|
923
|
dtmf_string)
|
924
|
radio_setting_value_string.set_charset(DTMF_CHARSET)
|
925
|
rs = RadioSetting("dtmf_{0:02d}".format(i),
|
926
|
"DTMF Mem " + str(i+1),
|
927
|
radio_setting_value_string)
|
928
|
|
929
|
def apply_dtmf(setting, index):
|
930
|
radio_setting_value_string = setting.value.get_value().rstrip()
|
931
|
j = 0
|
932
|
for dtmf_char in radio_setting_value_string:
|
933
|
dtmf_int = 255
|
934
|
if dtmf_char in "0123456789":
|
935
|
dtmf_int = int(dtmf_char)
|
936
|
elif dtmf_char == '*':
|
937
|
dtmf_int = 14
|
938
|
elif dtmf_char == '#':
|
939
|
dtmf_int = 15
|
940
|
if dtmf_int < 255:
|
941
|
self._memobj.dtmf_mem[index].dtmf[j] = dtmf_int
|
942
|
j += 1
|
943
|
if j < 16:
|
944
|
self._memobj.dtmf_mem[index].dtmf[j] = 255
|
945
|
rs.set_apply_callback(apply_dtmf, i)
|
946
|
dtmf.append(rs)
|
947
|
|
948
|
# 16 Enables/disables the PTT switch lock
|
949
|
opts = ["Off", "Band A", "Band B", "Both"]
|
950
|
common.append(
|
951
|
RadioSetting(
|
952
|
"lockt", "PTT switch lock",
|
953
|
RadioSettingValueList(opts, opts[_overlay.lockt])))
|
954
|
|
955
|
# 17 Selects the Microphone type to be used
|
956
|
opts = ["MH-42", "MH-48"]
|
957
|
common.append(
|
958
|
RadioSetting(
|
959
|
"mic", "Microphone type",
|
960
|
RadioSettingValueList(opts, opts[_overlay.mic])))
|
961
|
|
962
|
# 18 Reduces the audio level on the sub receiver when the
|
963
|
# main receiver is active
|
964
|
opts = ["Off", "On"]
|
965
|
common.append(
|
966
|
RadioSetting(
|
967
|
"mute", "Mute Sub Receiver",
|
968
|
RadioSettingValueList(opts, opts[_overlay.mute])))
|
969
|
|
970
|
# 20 - 23 Programming the microphones button assignment
|
971
|
buttons = [
|
972
|
"ACC / P1",
|
973
|
"P / P2",
|
974
|
"P1 / P3",
|
975
|
"P2 / P4",
|
976
|
]
|
977
|
opts_button = ["Low", "Tone", "MHz", "Rev", "Home", "Band",
|
978
|
"VFO / Memory", "Sql Off", "1750 Hz Tone Call",
|
979
|
"Repeater", "Priority"]
|
980
|
for i, button in enumerate(buttons):
|
981
|
rs = RadioSetting(
|
982
|
"button" + str(i), button,
|
983
|
RadioSettingValueList(opts_button,
|
984
|
opts_button[_overlay.button[i]]))
|
985
|
|
986
|
def apply_button(setting, index):
|
987
|
value_string = setting.value.get_value()
|
988
|
value_int = opts_button.index(value_string)
|
989
|
_overlay.button[index] = value_int
|
990
|
rs.set_apply_callback(apply_button, i)
|
991
|
mic_button.append(rs)
|
992
|
|
993
|
# 24 Adjusts the RF SQL threshold level
|
994
|
opts = ["Off", "S-1", "S-5", "S-9", "S-FULL"]
|
995
|
band.append(
|
996
|
RadioSetting(
|
997
|
"rf_sql_vhf", "RF Sql VHF",
|
998
|
RadioSettingValueList(opts, opts[_overlay.rf_sql_vhf])))
|
999
|
band.append(
|
1000
|
RadioSetting(
|
1001
|
"rf_sql_uhf", "RF Sql UHF",
|
1002
|
RadioSettingValueList(opts, opts[_overlay.rf_sql_uhf])))
|
1003
|
|
1004
|
# 25 Selects the Scan-Resume mode
|
1005
|
opts = ["Busy", "Time"]
|
1006
|
band.append(
|
1007
|
RadioSetting(
|
1008
|
"scan_vhf", "Scan-Resume VHF",
|
1009
|
RadioSettingValueList(opts, opts[_overlay.scan_vhf])))
|
1010
|
band.append(
|
1011
|
RadioSetting(
|
1012
|
"scan_uhf", "Scan-Resume UHF",
|
1013
|
RadioSettingValueList(opts, opts[_overlay.scan_uhf])))
|
1014
|
|
1015
|
# 28 Defining the audio path to the external speaker
|
1016
|
opts = ["Off", "Band A", "Band B", "Both"]
|
1017
|
common.append(
|
1018
|
RadioSetting(
|
1019
|
"speaker_cnt", "External Speaker",
|
1020
|
RadioSettingValueList(opts, opts[_overlay.speaker_cnt])))
|
1021
|
|
1022
|
# 31 Sets the Time-Out Timer
|
1023
|
opts = ["Off", "Band A", "Band B", "Both"]
|
1024
|
common.append(
|
1025
|
RadioSetting(
|
1026
|
"tot", "TX Time-Out [Min.] (0 = Off)",
|
1027
|
RadioSettingValueInteger(0, 30, _overlay.tot)))
|
1028
|
|
1029
|
# 32 Reducing the MIC Gain (and Deviation)
|
1030
|
opts = ["Off", "On"]
|
1031
|
band.append(
|
1032
|
RadioSetting(
|
1033
|
"txnar_vhf", "TX Narrowband VHF",
|
1034
|
RadioSettingValueList(opts, opts[_overlay.txnar_vhf])))
|
1035
|
band.append(
|
1036
|
RadioSetting(
|
1037
|
"txnar_uhf", "TX Narrowband UHF",
|
1038
|
RadioSettingValueList(opts, opts[_overlay.txnar_uhf])))
|
1039
|
|
1040
|
# 33 Enables/disables the VFO Tracking feature
|
1041
|
opts = ["Off", "On"]
|
1042
|
common.append(
|
1043
|
RadioSetting(
|
1044
|
"vfotr", "VFO Tracking",
|
1045
|
RadioSettingValueList(opts, opts[_overlay.vfotr])))
|
1046
|
|
1047
|
# 34 Selects the receiving mode on the VHF band
|
1048
|
opts = ["Inhibit (only FM)", "AM", "Auto"]
|
1049
|
common.append(
|
1050
|
RadioSetting(
|
1051
|
"am", "AM Mode",
|
1052
|
RadioSettingValueList(opts, opts[_overlay.am])))
|
1053
|
|
1054
|
# Current Band
|
1055
|
opts = ["VHF", "UHF"]
|
1056
|
common.append(
|
1057
|
RadioSetting(
|
1058
|
"current_band", "Current Band",
|
1059
|
RadioSettingValueList(opts, opts[_overlay.current_band])))
|
1060
|
|
1061
|
# Show number of VHF and UHF channels
|
1062
|
val = RadioSettingValueString(0, 7,
|
1063
|
str(int(self._memobj.nb_mem_used_vhf)))
|
1064
|
val.set_mutable(False)
|
1065
|
rs = RadioSetting("num_chan_vhf", "Number of VHF channels", val)
|
1066
|
common.append(rs)
|
1067
|
val = RadioSettingValueString(0, 7,
|
1068
|
str(int(self._memobj.nb_mem_used_uhf)))
|
1069
|
val.set_mutable(False)
|
1070
|
rs = RadioSetting("num_chan_uhf", "Number of UHF channels", val)
|
1071
|
common.append(rs)
|
1072
|
|
1073
|
return setmode
|
1074
|
|
1075
|
def set_settings(self, uisettings):
|
1076
|
_overlay = self._memobj.overlay
|
1077
|
for element in uisettings:
|
1078
|
if not isinstance(element, RadioSetting):
|
1079
|
self.set_settings(element)
|
1080
|
continue
|
1081
|
if not element.changed():
|
1082
|
continue
|
1083
|
|
1084
|
try:
|
1085
|
name = element.get_name()
|
1086
|
value = element.value
|
1087
|
|
1088
|
if element.has_apply_callback():
|
1089
|
LOG.debug("Using apply callback")
|
1090
|
element.run_apply_callback()
|
1091
|
else:
|
1092
|
setattr(_overlay, name, value)
|
1093
|
|
1094
|
LOG.debug("Setting %s: %s", name, value)
|
1095
|
except Exception:
|
1096
|
LOG.debug(element.get_name())
|
1097
|
raise
|
1098
|
|
1099
|
def _get_upper_vhf_limit(self):
|
1100
|
if self._memobj is None:
|
1101
|
# test with tox has no _memobj
|
1102
|
upper_vhf_limit = 120
|
1103
|
else:
|
1104
|
upper_vhf_limit = int(self._memobj.nb_mem_used_vhf)
|
1105
|
return upper_vhf_limit
|
1106
|
|
1107
|
def _get_upper_uhf_limit(self):
|
1108
|
if self._memobj is None:
|
1109
|
# test with tox has no _memobj
|
1110
|
upper_uhf_limit = 120
|
1111
|
else:
|
1112
|
upper_uhf_limit = int(self._memobj.nb_mem_used_uhf)
|
1113
|
return upper_uhf_limit
|
1114
|
|
1115
|
@classmethod
|
1116
|
def match_model(cls, filedata, filename):
|
1117
|
return filedata[0x1ec0:0x1ec0+len(cls.IDBLOCK)] == cls.IDBLOCK.encode()
|
1118
|
|
1119
|
@classmethod
|
1120
|
def get_prompts(cls):
|
1121
|
rp = chirp_common.RadioPrompts()
|
1122
|
rp.pre_download = _(
|
1123
|
"1. Turn Radio off.\n"
|
1124
|
"2. Connect data cable.\n"
|
1125
|
"3. While holding \"TONE\" and \"REV\" buttons, turn radio on.\n"
|
1126
|
"4. <b>After clicking OK</b>, press \"TONE\" to send image.\n")
|
1127
|
rp.pre_upload = _(
|
1128
|
"1. Turn Radio off.\n"
|
1129
|
"2. Connect data cable.\n"
|
1130
|
"3. While holding \"TONE\" and \"REV\" buttons, turn radio on.\n"
|
1131
|
"4. Press \"REV\" to receive image.\n"
|
1132
|
"5. Make sure display says \"CLONE RX\" and green led is"
|
1133
|
" blinking\n"
|
1134
|
"6. Click OK to start transfer.\n")
|
1135
|
return rp
|
1136
|
|
1137
|
def get_sub_devices(self):
|
1138
|
if not self.VARIANT:
|
1139
|
return [FT7100RadioVHF(self._mmap),
|
1140
|
FT7100RadioUHF(self._mmap)]
|
1141
|
else:
|
1142
|
return []
|
1143
|
|
1144
|
|
1145
|
class FT7100RadioVHF(FT7100Radio):
|
1146
|
VARIANT = "VHF Band"
|
1147
|
|
1148
|
def get_features(self):
|
1149
|
LOG.debug("VHF get_features")
|
1150
|
upper_vhf_limit = self._get_upper_vhf_limit()
|
1151
|
rf = FT7100Radio.get_features(self)
|
1152
|
rf.memory_bounds = (1, upper_vhf_limit)
|
1153
|
# Normally this band supports 120 + 10 memories. 1 based for chirpw
|
1154
|
rf.valid_bands = [(108000000, 180000000)] # Supports 2-meters tx
|
1155
|
rf.valid_modes = MODES_VHF
|
1156
|
rf.valid_special_chans = ['VFO', 'Home']
|
1157
|
rf.has_sub_devices = False
|
1158
|
return rf
|
1159
|
|
1160
|
def get_memory(self, number):
|
1161
|
LOG.debug("get_memory VHF Number: {}".format(number))
|
1162
|
if isinstance(number, int):
|
1163
|
if number >= 0:
|
1164
|
mem = FT7100Radio.get_memory(self, number + 0 - 1)
|
1165
|
else:
|
1166
|
mem = FT7100Radio.get_memory(self, number)
|
1167
|
mem.number = number
|
1168
|
else:
|
1169
|
mem = FT7100Radio.get_memory(self, number + '-VHF')
|
1170
|
mem.extd_number = number
|
1171
|
mem.immutable = ["number", "extd_number", "skip"]
|
1172
|
return mem
|
1173
|
|
1174
|
def set_memory(self, mem):
|
1175
|
LOG.debug("set_memory VHF Number: {}".format(mem.number))
|
1176
|
# We modify memory, so dupe() it to avoid changing our caller's
|
1177
|
# version
|
1178
|
mem = mem.dupe()
|
1179
|
if isinstance(mem.number, int):
|
1180
|
if mem.number >= 0:
|
1181
|
mem.number += -1
|
1182
|
else:
|
1183
|
mem.number += '-VHF'
|
1184
|
super(FT7100RadioVHF, self).set_memory(mem)
|
1185
|
return
|
1186
|
|
1187
|
|
1188
|
class FT7100RadioUHF(FT7100Radio):
|
1189
|
VARIANT = "UHF Band"
|
1190
|
|
1191
|
def get_features(self):
|
1192
|
LOG.debug("UHF get_features")
|
1193
|
upper_uhf_limit = self._get_upper_uhf_limit()
|
1194
|
rf = FT7100Radio.get_features(self)
|
1195
|
rf.memory_bounds = (1, upper_uhf_limit)
|
1196
|
# Normally this band supports 120 + 10 memories. 1 based for chirpw
|
1197
|
rf.valid_bands = [(320000000, 999990000)] # Supports 70-centimeters tx
|
1198
|
rf.valid_modes = MODES_UHF
|
1199
|
rf.valid_special_chans = ['VFO', 'Home']
|
1200
|
rf.has_sub_devices = False
|
1201
|
return rf
|
1202
|
|
1203
|
def get_memory(self, number):
|
1204
|
LOG.debug("get_memory UHF Number: {}".format(number))
|
1205
|
upper_vhf_limit = self._get_upper_vhf_limit()
|
1206
|
if isinstance(number, int):
|
1207
|
if number >= 0:
|
1208
|
mem = FT7100Radio.get_memory(self, number + 10 +
|
1209
|
upper_vhf_limit - 1)
|
1210
|
else:
|
1211
|
mem = FT7100Radio.get_memory(self, number)
|
1212
|
mem.number = number
|
1213
|
else:
|
1214
|
mem = FT7100Radio.get_memory(self, number + '-UHF')
|
1215
|
mem.extd_number = number
|
1216
|
mem.immutable = ["number", "extd_number", "skip"]
|
1217
|
return mem
|
1218
|
|
1219
|
def set_memory(self, mem):
|
1220
|
LOG.debug("set_memory UHF Number: {}".format(mem.number))
|
1221
|
# We modify memory, so dupe() it to avoid changing our caller's
|
1222
|
# version
|
1223
|
mem = mem.dupe()
|
1224
|
upper_vhf_limit = self._get_upper_vhf_limit()
|
1225
|
if isinstance(mem.number, int):
|
1226
|
if mem.number >= 0:
|
1227
|
mem.number += upper_vhf_limit - 1 + 10
|
1228
|
else:
|
1229
|
mem.number += '-UHF'
|
1230
|
super(FT7100RadioUHF, self).set_memory(mem)
|
1231
|
return
|