sh_eth: fix EESIPR values for SH77{34|63}
[linux/fpc-iii.git] / drivers / mfd / si476x-cmd.c
blob2086b46652885bb86c653f99c0d5dc85843badce
1 /*
2 * drivers/mfd/si476x-cmd.c -- Subroutines implementing command
3 * protocol of si476x series of chips
5 * Copyright (C) 2012 Innovative Converged Devices(ICD)
6 * Copyright (C) 2013 Andrey Smirnov
8 * Author: Andrey Smirnov <andrew.smirnov@gmail.com>
10 * This program is free software; you can redistribute it and/or modify
11 * it under the terms of the GNU General Public License as published by
12 * the Free Software Foundation; version 2 of the License.
14 * This program is distributed in the hope that it will be useful, but
15 * WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
17 * General Public License for more details.
21 #include <linux/module.h>
22 #include <linux/completion.h>
23 #include <linux/delay.h>
24 #include <linux/atomic.h>
25 #include <linux/i2c.h>
26 #include <linux/device.h>
27 #include <linux/gpio.h>
28 #include <linux/videodev2.h>
30 #include <linux/mfd/si476x-core.h>
32 #include <asm/unaligned.h>
34 #define msb(x) ((u8)((u16) x >> 8))
35 #define lsb(x) ((u8)((u16) x & 0x00FF))
39 #define CMD_POWER_UP 0x01
40 #define CMD_POWER_UP_A10_NRESP 1
41 #define CMD_POWER_UP_A10_NARGS 5
43 #define CMD_POWER_UP_A20_NRESP 1
44 #define CMD_POWER_UP_A20_NARGS 5
46 #define POWER_UP_DELAY_MS 110
48 #define CMD_POWER_DOWN 0x11
49 #define CMD_POWER_DOWN_A10_NRESP 1
51 #define CMD_POWER_DOWN_A20_NRESP 1
52 #define CMD_POWER_DOWN_A20_NARGS 1
54 #define CMD_FUNC_INFO 0x12
55 #define CMD_FUNC_INFO_NRESP 7
57 #define CMD_SET_PROPERTY 0x13
58 #define CMD_SET_PROPERTY_NARGS 5
59 #define CMD_SET_PROPERTY_NRESP 1
61 #define CMD_GET_PROPERTY 0x14
62 #define CMD_GET_PROPERTY_NARGS 3
63 #define CMD_GET_PROPERTY_NRESP 4
65 #define CMD_AGC_STATUS 0x17
66 #define CMD_AGC_STATUS_NRESP_A10 2
67 #define CMD_AGC_STATUS_NRESP_A20 6
69 #define PIN_CFG_BYTE(x) (0x7F & (x))
70 #define CMD_DIG_AUDIO_PIN_CFG 0x18
71 #define CMD_DIG_AUDIO_PIN_CFG_NARGS 4
72 #define CMD_DIG_AUDIO_PIN_CFG_NRESP 5
74 #define CMD_ZIF_PIN_CFG 0x19
75 #define CMD_ZIF_PIN_CFG_NARGS 4
76 #define CMD_ZIF_PIN_CFG_NRESP 5
78 #define CMD_IC_LINK_GPO_CTL_PIN_CFG 0x1A
79 #define CMD_IC_LINK_GPO_CTL_PIN_CFG_NARGS 4
80 #define CMD_IC_LINK_GPO_CTL_PIN_CFG_NRESP 5
82 #define CMD_ANA_AUDIO_PIN_CFG 0x1B
83 #define CMD_ANA_AUDIO_PIN_CFG_NARGS 1
84 #define CMD_ANA_AUDIO_PIN_CFG_NRESP 2
86 #define CMD_INTB_PIN_CFG 0x1C
87 #define CMD_INTB_PIN_CFG_NARGS 2
88 #define CMD_INTB_PIN_CFG_A10_NRESP 6
89 #define CMD_INTB_PIN_CFG_A20_NRESP 3
91 #define CMD_FM_TUNE_FREQ 0x30
92 #define CMD_FM_TUNE_FREQ_A10_NARGS 5
93 #define CMD_FM_TUNE_FREQ_A20_NARGS 3
94 #define CMD_FM_TUNE_FREQ_NRESP 1
96 #define CMD_FM_RSQ_STATUS 0x32
98 #define CMD_FM_RSQ_STATUS_A10_NARGS 1
99 #define CMD_FM_RSQ_STATUS_A10_NRESP 17
100 #define CMD_FM_RSQ_STATUS_A30_NARGS 1
101 #define CMD_FM_RSQ_STATUS_A30_NRESP 23
104 #define CMD_FM_SEEK_START 0x31
105 #define CMD_FM_SEEK_START_NARGS 1
106 #define CMD_FM_SEEK_START_NRESP 1
108 #define CMD_FM_RDS_STATUS 0x36
109 #define CMD_FM_RDS_STATUS_NARGS 1
110 #define CMD_FM_RDS_STATUS_NRESP 16
112 #define CMD_FM_RDS_BLOCKCOUNT 0x37
113 #define CMD_FM_RDS_BLOCKCOUNT_NARGS 1
114 #define CMD_FM_RDS_BLOCKCOUNT_NRESP 8
116 #define CMD_FM_PHASE_DIVERSITY 0x38
117 #define CMD_FM_PHASE_DIVERSITY_NARGS 1
118 #define CMD_FM_PHASE_DIVERSITY_NRESP 1
120 #define CMD_FM_PHASE_DIV_STATUS 0x39
121 #define CMD_FM_PHASE_DIV_STATUS_NRESP 2
123 #define CMD_AM_TUNE_FREQ 0x40
124 #define CMD_AM_TUNE_FREQ_NARGS 3
125 #define CMD_AM_TUNE_FREQ_NRESP 1
127 #define CMD_AM_RSQ_STATUS 0x42
128 #define CMD_AM_RSQ_STATUS_NARGS 1
129 #define CMD_AM_RSQ_STATUS_NRESP 13
131 #define CMD_AM_SEEK_START 0x41
132 #define CMD_AM_SEEK_START_NARGS 1
133 #define CMD_AM_SEEK_START_NRESP 1
136 #define CMD_AM_ACF_STATUS 0x45
137 #define CMD_AM_ACF_STATUS_NRESP 6
138 #define CMD_AM_ACF_STATUS_NARGS 1
140 #define CMD_FM_ACF_STATUS 0x35
141 #define CMD_FM_ACF_STATUS_NRESP 8
142 #define CMD_FM_ACF_STATUS_NARGS 1
144 #define CMD_MAX_ARGS_COUNT (10)
147 enum si476x_acf_status_report_bits {
148 SI476X_ACF_BLEND_INT = (1 << 4),
149 SI476X_ACF_HIBLEND_INT = (1 << 3),
150 SI476X_ACF_HICUT_INT = (1 << 2),
151 SI476X_ACF_CHBW_INT = (1 << 1),
152 SI476X_ACF_SOFTMUTE_INT = (1 << 0),
154 SI476X_ACF_SMUTE = (1 << 0),
155 SI476X_ACF_SMATTN = 0x1f,
156 SI476X_ACF_PILOT = (1 << 7),
157 SI476X_ACF_STBLEND = ~SI476X_ACF_PILOT,
160 enum si476x_agc_status_report_bits {
161 SI476X_AGC_MXHI = (1 << 5),
162 SI476X_AGC_MXLO = (1 << 4),
163 SI476X_AGC_LNAHI = (1 << 3),
164 SI476X_AGC_LNALO = (1 << 2),
167 enum si476x_errors {
168 SI476X_ERR_BAD_COMMAND = 0x10,
169 SI476X_ERR_BAD_ARG1 = 0x11,
170 SI476X_ERR_BAD_ARG2 = 0x12,
171 SI476X_ERR_BAD_ARG3 = 0x13,
172 SI476X_ERR_BAD_ARG4 = 0x14,
173 SI476X_ERR_BUSY = 0x18,
174 SI476X_ERR_BAD_INTERNAL_MEMORY = 0x20,
175 SI476X_ERR_BAD_PATCH = 0x30,
176 SI476X_ERR_BAD_BOOT_MODE = 0x31,
177 SI476X_ERR_BAD_PROPERTY = 0x40,
180 static int si476x_core_parse_and_nag_about_error(struct si476x_core *core)
182 int err;
183 char *cause;
184 u8 buffer[2];
186 if (core->revision != SI476X_REVISION_A10) {
187 err = si476x_core_i2c_xfer(core, SI476X_I2C_RECV,
188 buffer, sizeof(buffer));
189 if (err == sizeof(buffer)) {
190 switch (buffer[1]) {
191 case SI476X_ERR_BAD_COMMAND:
192 cause = "Bad command";
193 err = -EINVAL;
194 break;
195 case SI476X_ERR_BAD_ARG1:
196 cause = "Bad argument #1";
197 err = -EINVAL;
198 break;
199 case SI476X_ERR_BAD_ARG2:
200 cause = "Bad argument #2";
201 err = -EINVAL;
202 break;
203 case SI476X_ERR_BAD_ARG3:
204 cause = "Bad argument #3";
205 err = -EINVAL;
206 break;
207 case SI476X_ERR_BAD_ARG4:
208 cause = "Bad argument #4";
209 err = -EINVAL;
210 break;
211 case SI476X_ERR_BUSY:
212 cause = "Chip is busy";
213 err = -EBUSY;
214 break;
215 case SI476X_ERR_BAD_INTERNAL_MEMORY:
216 cause = "Bad internal memory";
217 err = -EIO;
218 break;
219 case SI476X_ERR_BAD_PATCH:
220 cause = "Bad patch";
221 err = -EINVAL;
222 break;
223 case SI476X_ERR_BAD_BOOT_MODE:
224 cause = "Bad boot mode";
225 err = -EINVAL;
226 break;
227 case SI476X_ERR_BAD_PROPERTY:
228 cause = "Bad property";
229 err = -EINVAL;
230 break;
231 default:
232 cause = "Unknown";
233 err = -EIO;
236 dev_err(&core->client->dev,
237 "[Chip error status]: %s\n", cause);
238 } else {
239 dev_err(&core->client->dev,
240 "Failed to fetch error code\n");
241 err = (err >= 0) ? -EIO : err;
243 } else {
244 err = -EIO;
247 return err;
251 * si476x_core_send_command() - sends a command to si476x and waits its
252 * response
253 * @core: si476x_device structure for the device we are
254 * communicating with
255 * @command: command id
256 * @args: command arguments we are sending
257 * @argn: actual size of @args
258 * @response: buffer to place the expected response from the device
259 * @respn: actual size of @response
260 * @usecs: amount of time to wait before reading the response (in
261 * usecs)
263 * Function returns 0 on succsess and negative error code on
264 * failure
266 static int si476x_core_send_command(struct si476x_core *core,
267 const u8 command,
268 const u8 args[],
269 const int argn,
270 u8 resp[],
271 const int respn,
272 const int usecs)
274 struct i2c_client *client = core->client;
275 int err;
276 u8 data[CMD_MAX_ARGS_COUNT + 1];
278 if (argn > CMD_MAX_ARGS_COUNT) {
279 err = -ENOMEM;
280 goto exit;
283 if (!client->adapter) {
284 err = -ENODEV;
285 goto exit;
288 /* First send the command and its arguments */
289 data[0] = command;
290 memcpy(&data[1], args, argn);
291 dev_dbg(&client->dev, "Command:\n %*ph\n", argn + 1, data);
293 err = si476x_core_i2c_xfer(core, SI476X_I2C_SEND,
294 (char *) data, argn + 1);
295 if (err != argn + 1) {
296 dev_err(&core->client->dev,
297 "Error while sending command 0x%02x\n",
298 command);
299 err = (err >= 0) ? -EIO : err;
300 goto exit;
302 /* Set CTS to zero only after the command is send to avoid
303 * possible racing conditions when working in polling mode */
304 atomic_set(&core->cts, 0);
306 /* if (unlikely(command == CMD_POWER_DOWN) */
307 if (!wait_event_timeout(core->command,
308 atomic_read(&core->cts),
309 usecs_to_jiffies(usecs) + 1))
310 dev_warn(&core->client->dev,
311 "(%s) [CMD 0x%02x] Answer timeout.\n",
312 __func__, command);
315 When working in polling mode, for some reason the tuner will
316 report CTS bit as being set in the first status byte read,
317 but all the consequtive ones will return zeros until the
318 tuner is actually completed the POWER_UP command. To
319 workaround that we wait for second CTS to be reported
321 if (unlikely(!core->client->irq && command == CMD_POWER_UP)) {
322 if (!wait_event_timeout(core->command,
323 atomic_read(&core->cts),
324 usecs_to_jiffies(usecs) + 1))
325 dev_warn(&core->client->dev,
326 "(%s) Power up took too much time.\n",
327 __func__);
330 /* Then get the response */
331 err = si476x_core_i2c_xfer(core, SI476X_I2C_RECV, resp, respn);
332 if (err != respn) {
333 dev_err(&core->client->dev,
334 "Error while reading response for command 0x%02x\n",
335 command);
336 err = (err >= 0) ? -EIO : err;
337 goto exit;
339 dev_dbg(&client->dev, "Response:\n %*ph\n", respn, resp);
341 err = 0;
343 if (resp[0] & SI476X_ERR) {
344 dev_err(&core->client->dev,
345 "[CMD 0x%02x] Chip set error flag\n", command);
346 err = si476x_core_parse_and_nag_about_error(core);
347 goto exit;
350 if (!(resp[0] & SI476X_CTS))
351 err = -EBUSY;
352 exit:
353 return err;
356 static int si476x_cmd_clear_stc(struct si476x_core *core)
358 int err;
359 struct si476x_rsq_status_args args = {
360 .primary = false,
361 .rsqack = false,
362 .attune = false,
363 .cancel = false,
364 .stcack = true,
367 switch (core->power_up_parameters.func) {
368 case SI476X_FUNC_FM_RECEIVER:
369 err = si476x_core_cmd_fm_rsq_status(core, &args, NULL);
370 break;
371 case SI476X_FUNC_AM_RECEIVER:
372 err = si476x_core_cmd_am_rsq_status(core, &args, NULL);
373 break;
374 default:
375 err = -EINVAL;
378 return err;
381 static int si476x_cmd_tune_seek_freq(struct si476x_core *core,
382 uint8_t cmd,
383 const uint8_t args[], size_t argn,
384 uint8_t *resp, size_t respn)
386 int err;
389 atomic_set(&core->stc, 0);
390 err = si476x_core_send_command(core, cmd, args, argn, resp, respn,
391 SI476X_TIMEOUT_TUNE);
392 if (!err) {
393 wait_event_killable(core->tuning,
394 atomic_read(&core->stc));
395 si476x_cmd_clear_stc(core);
398 return err;
402 * si476x_cmd_func_info() - send 'FUNC_INFO' command to the device
403 * @core: device to send the command to
404 * @info: struct si476x_func_info to fill all the information
405 * returned by the command
407 * The command requests the firmware and patch version for currently
408 * loaded firmware (dependent on the function of the device FM/AM/WB)
410 * Function returns 0 on succsess and negative error code on
411 * failure
413 int si476x_core_cmd_func_info(struct si476x_core *core,
414 struct si476x_func_info *info)
416 int err;
417 u8 resp[CMD_FUNC_INFO_NRESP];
419 err = si476x_core_send_command(core, CMD_FUNC_INFO,
420 NULL, 0,
421 resp, ARRAY_SIZE(resp),
422 SI476X_DEFAULT_TIMEOUT);
424 info->firmware.major = resp[1];
425 info->firmware.minor[0] = resp[2];
426 info->firmware.minor[1] = resp[3];
428 info->patch_id = ((u16) resp[4] << 8) | resp[5];
429 info->func = resp[6];
431 return err;
433 EXPORT_SYMBOL_GPL(si476x_core_cmd_func_info);
436 * si476x_cmd_set_property() - send 'SET_PROPERTY' command to the device
437 * @core: device to send the command to
438 * @property: property address
439 * @value: property value
441 * Function returns 0 on succsess and negative error code on
442 * failure
444 int si476x_core_cmd_set_property(struct si476x_core *core,
445 u16 property, u16 value)
447 u8 resp[CMD_SET_PROPERTY_NRESP];
448 const u8 args[CMD_SET_PROPERTY_NARGS] = {
449 0x00,
450 msb(property),
451 lsb(property),
452 msb(value),
453 lsb(value),
456 return si476x_core_send_command(core, CMD_SET_PROPERTY,
457 args, ARRAY_SIZE(args),
458 resp, ARRAY_SIZE(resp),
459 SI476X_DEFAULT_TIMEOUT);
461 EXPORT_SYMBOL_GPL(si476x_core_cmd_set_property);
464 * si476x_cmd_get_property() - send 'GET_PROPERTY' command to the device
465 * @core: device to send the command to
466 * @property: property address
468 * Function return the value of property as u16 on success or a
469 * negative error on failure
471 int si476x_core_cmd_get_property(struct si476x_core *core, u16 property)
473 int err;
474 u8 resp[CMD_GET_PROPERTY_NRESP];
475 const u8 args[CMD_GET_PROPERTY_NARGS] = {
476 0x00,
477 msb(property),
478 lsb(property),
481 err = si476x_core_send_command(core, CMD_GET_PROPERTY,
482 args, ARRAY_SIZE(args),
483 resp, ARRAY_SIZE(resp),
484 SI476X_DEFAULT_TIMEOUT);
485 if (err < 0)
486 return err;
487 else
488 return get_unaligned_be16(resp + 2);
490 EXPORT_SYMBOL_GPL(si476x_core_cmd_get_property);
493 * si476x_cmd_dig_audio_pin_cfg() - send 'DIG_AUDIO_PIN_CFG' command to
494 * the device
495 * @core: device to send the command to
496 * @dclk: DCLK pin function configuration:
497 * #SI476X_DCLK_NOOP - do not modify the behaviour
498 * #SI476X_DCLK_TRISTATE - put the pin in tristate condition,
499 * enable 1MOhm pulldown
500 * #SI476X_DCLK_DAUDIO - set the pin to be a part of digital
501 * audio interface
502 * @dfs: DFS pin function configuration:
503 * #SI476X_DFS_NOOP - do not modify the behaviour
504 * #SI476X_DFS_TRISTATE - put the pin in tristate condition,
505 * enable 1MOhm pulldown
506 * SI476X_DFS_DAUDIO - set the pin to be a part of digital
507 * audio interface
508 * @dout - DOUT pin function configuration:
509 * SI476X_DOUT_NOOP - do not modify the behaviour
510 * SI476X_DOUT_TRISTATE - put the pin in tristate condition,
511 * enable 1MOhm pulldown
512 * SI476X_DOUT_I2S_OUTPUT - set this pin to be digital out on I2S
513 * port 1
514 * SI476X_DOUT_I2S_INPUT - set this pin to be digital in on I2S
515 * port 1
516 * @xout - XOUT pin function configuration:
517 * SI476X_XOUT_NOOP - do not modify the behaviour
518 * SI476X_XOUT_TRISTATE - put the pin in tristate condition,
519 * enable 1MOhm pulldown
520 * SI476X_XOUT_I2S_INPUT - set this pin to be digital in on I2S
521 * port 1
522 * SI476X_XOUT_MODE_SELECT - set this pin to be the input that
523 * selects the mode of the I2S audio
524 * combiner (analog or HD)
525 * [SI4761/63/65/67 Only]
527 * Function returns 0 on success and negative error code on failure
529 int si476x_core_cmd_dig_audio_pin_cfg(struct si476x_core *core,
530 enum si476x_dclk_config dclk,
531 enum si476x_dfs_config dfs,
532 enum si476x_dout_config dout,
533 enum si476x_xout_config xout)
535 u8 resp[CMD_DIG_AUDIO_PIN_CFG_NRESP];
536 const u8 args[CMD_DIG_AUDIO_PIN_CFG_NARGS] = {
537 PIN_CFG_BYTE(dclk),
538 PIN_CFG_BYTE(dfs),
539 PIN_CFG_BYTE(dout),
540 PIN_CFG_BYTE(xout),
543 return si476x_core_send_command(core, CMD_DIG_AUDIO_PIN_CFG,
544 args, ARRAY_SIZE(args),
545 resp, ARRAY_SIZE(resp),
546 SI476X_DEFAULT_TIMEOUT);
548 EXPORT_SYMBOL_GPL(si476x_core_cmd_dig_audio_pin_cfg);
551 * si476x_cmd_zif_pin_cfg - send 'ZIF_PIN_CFG_COMMAND'
552 * @core - device to send the command to
553 * @iqclk - IQCL pin function configuration:
554 * SI476X_IQCLK_NOOP - do not modify the behaviour
555 * SI476X_IQCLK_TRISTATE - put the pin in tristate condition,
556 * enable 1MOhm pulldown
557 * SI476X_IQCLK_IQ - set pin to be a part of I/Q interace
558 * in master mode
559 * @iqfs - IQFS pin function configuration:
560 * SI476X_IQFS_NOOP - do not modify the behaviour
561 * SI476X_IQFS_TRISTATE - put the pin in tristate condition,
562 * enable 1MOhm pulldown
563 * SI476X_IQFS_IQ - set pin to be a part of I/Q interace
564 * in master mode
565 * @iout - IOUT pin function configuration:
566 * SI476X_IOUT_NOOP - do not modify the behaviour
567 * SI476X_IOUT_TRISTATE - put the pin in tristate condition,
568 * enable 1MOhm pulldown
569 * SI476X_IOUT_OUTPUT - set pin to be I out
570 * @qout - QOUT pin function configuration:
571 * SI476X_QOUT_NOOP - do not modify the behaviour
572 * SI476X_QOUT_TRISTATE - put the pin in tristate condition,
573 * enable 1MOhm pulldown
574 * SI476X_QOUT_OUTPUT - set pin to be Q out
576 * Function returns 0 on success and negative error code on failure
578 int si476x_core_cmd_zif_pin_cfg(struct si476x_core *core,
579 enum si476x_iqclk_config iqclk,
580 enum si476x_iqfs_config iqfs,
581 enum si476x_iout_config iout,
582 enum si476x_qout_config qout)
584 u8 resp[CMD_ZIF_PIN_CFG_NRESP];
585 const u8 args[CMD_ZIF_PIN_CFG_NARGS] = {
586 PIN_CFG_BYTE(iqclk),
587 PIN_CFG_BYTE(iqfs),
588 PIN_CFG_BYTE(iout),
589 PIN_CFG_BYTE(qout),
592 return si476x_core_send_command(core, CMD_ZIF_PIN_CFG,
593 args, ARRAY_SIZE(args),
594 resp, ARRAY_SIZE(resp),
595 SI476X_DEFAULT_TIMEOUT);
597 EXPORT_SYMBOL_GPL(si476x_core_cmd_zif_pin_cfg);
600 * si476x_cmd_ic_link_gpo_ctl_pin_cfg - send
601 * 'IC_LINK_GPIO_CTL_PIN_CFG' comand to the device
602 * @core - device to send the command to
603 * @icin - ICIN pin function configuration:
604 * SI476X_ICIN_NOOP - do not modify the behaviour
605 * SI476X_ICIN_TRISTATE - put the pin in tristate condition,
606 * enable 1MOhm pulldown
607 * SI476X_ICIN_GPO1_HIGH - set pin to be an output, drive it high
608 * SI476X_ICIN_GPO1_LOW - set pin to be an output, drive it low
609 * SI476X_ICIN_IC_LINK - set the pin to be a part of Inter-Chip link
610 * @icip - ICIP pin function configuration:
611 * SI476X_ICIP_NOOP - do not modify the behaviour
612 * SI476X_ICIP_TRISTATE - put the pin in tristate condition,
613 * enable 1MOhm pulldown
614 * SI476X_ICIP_GPO1_HIGH - set pin to be an output, drive it high
615 * SI476X_ICIP_GPO1_LOW - set pin to be an output, drive it low
616 * SI476X_ICIP_IC_LINK - set the pin to be a part of Inter-Chip link
617 * @icon - ICON pin function configuration:
618 * SI476X_ICON_NOOP - do not modify the behaviour
619 * SI476X_ICON_TRISTATE - put the pin in tristate condition,
620 * enable 1MOhm pulldown
621 * SI476X_ICON_I2S - set the pin to be a part of audio
622 * interface in slave mode (DCLK)
623 * SI476X_ICON_IC_LINK - set the pin to be a part of Inter-Chip link
624 * @icop - ICOP pin function configuration:
625 * SI476X_ICOP_NOOP - do not modify the behaviour
626 * SI476X_ICOP_TRISTATE - put the pin in tristate condition,
627 * enable 1MOhm pulldown
628 * SI476X_ICOP_I2S - set the pin to be a part of audio
629 * interface in slave mode (DOUT)
630 * [Si4761/63/65/67 Only]
631 * SI476X_ICOP_IC_LINK - set the pin to be a part of Inter-Chip link
633 * Function returns 0 on success and negative error code on failure
635 int si476x_core_cmd_ic_link_gpo_ctl_pin_cfg(struct si476x_core *core,
636 enum si476x_icin_config icin,
637 enum si476x_icip_config icip,
638 enum si476x_icon_config icon,
639 enum si476x_icop_config icop)
641 u8 resp[CMD_IC_LINK_GPO_CTL_PIN_CFG_NRESP];
642 const u8 args[CMD_IC_LINK_GPO_CTL_PIN_CFG_NARGS] = {
643 PIN_CFG_BYTE(icin),
644 PIN_CFG_BYTE(icip),
645 PIN_CFG_BYTE(icon),
646 PIN_CFG_BYTE(icop),
649 return si476x_core_send_command(core, CMD_IC_LINK_GPO_CTL_PIN_CFG,
650 args, ARRAY_SIZE(args),
651 resp, ARRAY_SIZE(resp),
652 SI476X_DEFAULT_TIMEOUT);
654 EXPORT_SYMBOL_GPL(si476x_core_cmd_ic_link_gpo_ctl_pin_cfg);
657 * si476x_cmd_ana_audio_pin_cfg - send 'ANA_AUDIO_PIN_CFG' to the
658 * device
659 * @core - device to send the command to
660 * @lrout - LROUT pin function configuration:
661 * SI476X_LROUT_NOOP - do not modify the behaviour
662 * SI476X_LROUT_TRISTATE - put the pin in tristate condition,
663 * enable 1MOhm pulldown
664 * SI476X_LROUT_AUDIO - set pin to be audio output
665 * SI476X_LROUT_MPX - set pin to be MPX output
667 * Function returns 0 on success and negative error code on failure
669 int si476x_core_cmd_ana_audio_pin_cfg(struct si476x_core *core,
670 enum si476x_lrout_config lrout)
672 u8 resp[CMD_ANA_AUDIO_PIN_CFG_NRESP];
673 const u8 args[CMD_ANA_AUDIO_PIN_CFG_NARGS] = {
674 PIN_CFG_BYTE(lrout),
677 return si476x_core_send_command(core, CMD_ANA_AUDIO_PIN_CFG,
678 args, ARRAY_SIZE(args),
679 resp, ARRAY_SIZE(resp),
680 SI476X_DEFAULT_TIMEOUT);
682 EXPORT_SYMBOL_GPL(si476x_core_cmd_ana_audio_pin_cfg);
686 * si476x_cmd_intb_pin_cfg - send 'INTB_PIN_CFG' command to the device
687 * @core - device to send the command to
688 * @intb - INTB pin function configuration:
689 * SI476X_INTB_NOOP - do not modify the behaviour
690 * SI476X_INTB_TRISTATE - put the pin in tristate condition,
691 * enable 1MOhm pulldown
692 * SI476X_INTB_DAUDIO - set pin to be a part of digital
693 * audio interface in slave mode
694 * SI476X_INTB_IRQ - set pin to be an interrupt request line
695 * @a1 - A1 pin function configuration:
696 * SI476X_A1_NOOP - do not modify the behaviour
697 * SI476X_A1_TRISTATE - put the pin in tristate condition,
698 * enable 1MOhm pulldown
699 * SI476X_A1_IRQ - set pin to be an interrupt request line
701 * Function returns 0 on success and negative error code on failure
703 static int si476x_core_cmd_intb_pin_cfg_a10(struct si476x_core *core,
704 enum si476x_intb_config intb,
705 enum si476x_a1_config a1)
707 u8 resp[CMD_INTB_PIN_CFG_A10_NRESP];
708 const u8 args[CMD_INTB_PIN_CFG_NARGS] = {
709 PIN_CFG_BYTE(intb),
710 PIN_CFG_BYTE(a1),
713 return si476x_core_send_command(core, CMD_INTB_PIN_CFG,
714 args, ARRAY_SIZE(args),
715 resp, ARRAY_SIZE(resp),
716 SI476X_DEFAULT_TIMEOUT);
719 static int si476x_core_cmd_intb_pin_cfg_a20(struct si476x_core *core,
720 enum si476x_intb_config intb,
721 enum si476x_a1_config a1)
723 u8 resp[CMD_INTB_PIN_CFG_A20_NRESP];
724 const u8 args[CMD_INTB_PIN_CFG_NARGS] = {
725 PIN_CFG_BYTE(intb),
726 PIN_CFG_BYTE(a1),
729 return si476x_core_send_command(core, CMD_INTB_PIN_CFG,
730 args, ARRAY_SIZE(args),
731 resp, ARRAY_SIZE(resp),
732 SI476X_DEFAULT_TIMEOUT);
738 * si476x_cmd_am_rsq_status - send 'AM_RSQ_STATUS' command to the
739 * device
740 * @core - device to send the command to
741 * @rsqack - if set command clears RSQINT, SNRINT, SNRLINT, RSSIHINT,
742 * RSSSILINT, BLENDINT, MULTHINT and MULTLINT
743 * @attune - when set the values in the status report are the values
744 * that were calculated at tune
745 * @cancel - abort ongoing seek/tune opertation
746 * @stcack - clear the STCINT bin in status register
747 * @report - all signal quality information retured by the command
748 * (if NULL then the output of the command is ignored)
750 * Function returns 0 on success and negative error code on failure
752 int si476x_core_cmd_am_rsq_status(struct si476x_core *core,
753 struct si476x_rsq_status_args *rsqargs,
754 struct si476x_rsq_status_report *report)
756 int err;
757 u8 resp[CMD_AM_RSQ_STATUS_NRESP];
758 const u8 args[CMD_AM_RSQ_STATUS_NARGS] = {
759 rsqargs->rsqack << 3 | rsqargs->attune << 2 |
760 rsqargs->cancel << 1 | rsqargs->stcack,
763 err = si476x_core_send_command(core, CMD_AM_RSQ_STATUS,
764 args, ARRAY_SIZE(args),
765 resp, ARRAY_SIZE(resp),
766 SI476X_DEFAULT_TIMEOUT);
768 * Besides getting received signal quality information this
769 * command can be used to just acknowledge different interrupt
770 * flags in those cases it is useless to copy and parse
771 * received data so user can pass NULL, and thus avoid
772 * unnecessary copying.
774 if (!report)
775 return err;
777 report->snrhint = 0x08 & resp[1];
778 report->snrlint = 0x04 & resp[1];
779 report->rssihint = 0x02 & resp[1];
780 report->rssilint = 0x01 & resp[1];
782 report->bltf = 0x80 & resp[2];
783 report->snr_ready = 0x20 & resp[2];
784 report->rssiready = 0x08 & resp[2];
785 report->afcrl = 0x02 & resp[2];
786 report->valid = 0x01 & resp[2];
788 report->readfreq = get_unaligned_be16(resp + 3);
789 report->freqoff = resp[5];
790 report->rssi = resp[6];
791 report->snr = resp[7];
792 report->lassi = resp[9];
793 report->hassi = resp[10];
794 report->mult = resp[11];
795 report->dev = resp[12];
797 return err;
799 EXPORT_SYMBOL_GPL(si476x_core_cmd_am_rsq_status);
801 int si476x_core_cmd_fm_acf_status(struct si476x_core *core,
802 struct si476x_acf_status_report *report)
804 int err;
805 u8 resp[CMD_FM_ACF_STATUS_NRESP];
806 const u8 args[CMD_FM_ACF_STATUS_NARGS] = {
807 0x0,
810 if (!report)
811 return -EINVAL;
813 err = si476x_core_send_command(core, CMD_FM_ACF_STATUS,
814 args, ARRAY_SIZE(args),
815 resp, ARRAY_SIZE(resp),
816 SI476X_DEFAULT_TIMEOUT);
817 if (err < 0)
818 return err;
820 report->blend_int = resp[1] & SI476X_ACF_BLEND_INT;
821 report->hblend_int = resp[1] & SI476X_ACF_HIBLEND_INT;
822 report->hicut_int = resp[1] & SI476X_ACF_HICUT_INT;
823 report->chbw_int = resp[1] & SI476X_ACF_CHBW_INT;
824 report->softmute_int = resp[1] & SI476X_ACF_SOFTMUTE_INT;
825 report->smute = resp[2] & SI476X_ACF_SMUTE;
826 report->smattn = resp[3] & SI476X_ACF_SMATTN;
827 report->chbw = resp[4];
828 report->hicut = resp[5];
829 report->hiblend = resp[6];
830 report->pilot = resp[7] & SI476X_ACF_PILOT;
831 report->stblend = resp[7] & SI476X_ACF_STBLEND;
833 return err;
835 EXPORT_SYMBOL_GPL(si476x_core_cmd_fm_acf_status);
837 int si476x_core_cmd_am_acf_status(struct si476x_core *core,
838 struct si476x_acf_status_report *report)
840 int err;
841 u8 resp[CMD_AM_ACF_STATUS_NRESP];
842 const u8 args[CMD_AM_ACF_STATUS_NARGS] = {
843 0x0,
846 if (!report)
847 return -EINVAL;
849 err = si476x_core_send_command(core, CMD_AM_ACF_STATUS,
850 args, ARRAY_SIZE(args),
851 resp, ARRAY_SIZE(resp),
852 SI476X_DEFAULT_TIMEOUT);
853 if (err < 0)
854 return err;
856 report->blend_int = resp[1] & SI476X_ACF_BLEND_INT;
857 report->hblend_int = resp[1] & SI476X_ACF_HIBLEND_INT;
858 report->hicut_int = resp[1] & SI476X_ACF_HICUT_INT;
859 report->chbw_int = resp[1] & SI476X_ACF_CHBW_INT;
860 report->softmute_int = resp[1] & SI476X_ACF_SOFTMUTE_INT;
861 report->smute = resp[2] & SI476X_ACF_SMUTE;
862 report->smattn = resp[3] & SI476X_ACF_SMATTN;
863 report->chbw = resp[4];
864 report->hicut = resp[5];
866 return err;
868 EXPORT_SYMBOL_GPL(si476x_core_cmd_am_acf_status);
872 * si476x_cmd_fm_seek_start - send 'FM_SEEK_START' command to the
873 * device
874 * @core - device to send the command to
875 * @seekup - if set the direction of the search is 'up'
876 * @wrap - if set seek wraps when hitting band limit
878 * This function begins search for a valid station. The station is
879 * considered valid when 'FM_VALID_SNR_THRESHOLD' and
880 * 'FM_VALID_RSSI_THRESHOLD' and 'FM_VALID_MAX_TUNE_ERROR' criteria
881 * are met.
883 * Function returns 0 on success and negative error code on failure
885 int si476x_core_cmd_fm_seek_start(struct si476x_core *core,
886 bool seekup, bool wrap)
888 u8 resp[CMD_FM_SEEK_START_NRESP];
889 const u8 args[CMD_FM_SEEK_START_NARGS] = {
890 seekup << 3 | wrap << 2,
893 return si476x_cmd_tune_seek_freq(core, CMD_FM_SEEK_START,
894 args, sizeof(args),
895 resp, sizeof(resp));
897 EXPORT_SYMBOL_GPL(si476x_core_cmd_fm_seek_start);
900 * si476x_cmd_fm_rds_status - send 'FM_RDS_STATUS' command to the
901 * device
902 * @core - device to send the command to
903 * @status_only - if set the data is not removed from RDSFIFO,
904 * RDSFIFOUSED is not decremented and data in all the
905 * rest RDS data contains the last valid info received
906 * @mtfifo if set the command clears RDS receive FIFO
907 * @intack if set the command clards the RDSINT bit.
909 * Function returns 0 on success and negative error code on failure
911 int si476x_core_cmd_fm_rds_status(struct si476x_core *core,
912 bool status_only,
913 bool mtfifo,
914 bool intack,
915 struct si476x_rds_status_report *report)
917 int err;
918 u8 resp[CMD_FM_RDS_STATUS_NRESP];
919 const u8 args[CMD_FM_RDS_STATUS_NARGS] = {
920 status_only << 2 | mtfifo << 1 | intack,
923 err = si476x_core_send_command(core, CMD_FM_RDS_STATUS,
924 args, ARRAY_SIZE(args),
925 resp, ARRAY_SIZE(resp),
926 SI476X_DEFAULT_TIMEOUT);
928 * Besides getting RDS status information this command can be
929 * used to just acknowledge different interrupt flags in those
930 * cases it is useless to copy and parse received data so user
931 * can pass NULL, and thus avoid unnecessary copying.
933 if (err < 0 || report == NULL)
934 return err;
936 report->rdstpptyint = 0x10 & resp[1];
937 report->rdspiint = 0x08 & resp[1];
938 report->rdssyncint = 0x02 & resp[1];
939 report->rdsfifoint = 0x01 & resp[1];
941 report->tpptyvalid = 0x10 & resp[2];
942 report->pivalid = 0x08 & resp[2];
943 report->rdssync = 0x02 & resp[2];
944 report->rdsfifolost = 0x01 & resp[2];
946 report->tp = 0x20 & resp[3];
947 report->pty = 0x1f & resp[3];
949 report->pi = get_unaligned_be16(resp + 4);
950 report->rdsfifoused = resp[6];
952 report->ble[V4L2_RDS_BLOCK_A] = 0xc0 & resp[7];
953 report->ble[V4L2_RDS_BLOCK_B] = 0x30 & resp[7];
954 report->ble[V4L2_RDS_BLOCK_C] = 0x0c & resp[7];
955 report->ble[V4L2_RDS_BLOCK_D] = 0x03 & resp[7];
957 report->rds[V4L2_RDS_BLOCK_A].block = V4L2_RDS_BLOCK_A;
958 report->rds[V4L2_RDS_BLOCK_A].msb = resp[8];
959 report->rds[V4L2_RDS_BLOCK_A].lsb = resp[9];
961 report->rds[V4L2_RDS_BLOCK_B].block = V4L2_RDS_BLOCK_B;
962 report->rds[V4L2_RDS_BLOCK_B].msb = resp[10];
963 report->rds[V4L2_RDS_BLOCK_B].lsb = resp[11];
965 report->rds[V4L2_RDS_BLOCK_C].block = V4L2_RDS_BLOCK_C;
966 report->rds[V4L2_RDS_BLOCK_C].msb = resp[12];
967 report->rds[V4L2_RDS_BLOCK_C].lsb = resp[13];
969 report->rds[V4L2_RDS_BLOCK_D].block = V4L2_RDS_BLOCK_D;
970 report->rds[V4L2_RDS_BLOCK_D].msb = resp[14];
971 report->rds[V4L2_RDS_BLOCK_D].lsb = resp[15];
973 return err;
975 EXPORT_SYMBOL_GPL(si476x_core_cmd_fm_rds_status);
977 int si476x_core_cmd_fm_rds_blockcount(struct si476x_core *core,
978 bool clear,
979 struct si476x_rds_blockcount_report *report)
981 int err;
982 u8 resp[CMD_FM_RDS_BLOCKCOUNT_NRESP];
983 const u8 args[CMD_FM_RDS_BLOCKCOUNT_NARGS] = {
984 clear,
987 if (!report)
988 return -EINVAL;
990 err = si476x_core_send_command(core, CMD_FM_RDS_BLOCKCOUNT,
991 args, ARRAY_SIZE(args),
992 resp, ARRAY_SIZE(resp),
993 SI476X_DEFAULT_TIMEOUT);
995 if (!err) {
996 report->expected = get_unaligned_be16(resp + 2);
997 report->received = get_unaligned_be16(resp + 4);
998 report->uncorrectable = get_unaligned_be16(resp + 6);
1001 return err;
1003 EXPORT_SYMBOL_GPL(si476x_core_cmd_fm_rds_blockcount);
1005 int si476x_core_cmd_fm_phase_diversity(struct si476x_core *core,
1006 enum si476x_phase_diversity_mode mode)
1008 u8 resp[CMD_FM_PHASE_DIVERSITY_NRESP];
1009 const u8 args[CMD_FM_PHASE_DIVERSITY_NARGS] = {
1010 mode & 0x07,
1013 return si476x_core_send_command(core, CMD_FM_PHASE_DIVERSITY,
1014 args, ARRAY_SIZE(args),
1015 resp, ARRAY_SIZE(resp),
1016 SI476X_DEFAULT_TIMEOUT);
1018 EXPORT_SYMBOL_GPL(si476x_core_cmd_fm_phase_diversity);
1020 * si476x_core_cmd_fm_phase_div_status() - get the phase diversity
1021 * status
1023 * @core: si476x device
1025 * NOTE caller must hold core lock
1027 * Function returns the value of the status bit in case of success and
1028 * negative error code in case of failre.
1030 int si476x_core_cmd_fm_phase_div_status(struct si476x_core *core)
1032 int err;
1033 u8 resp[CMD_FM_PHASE_DIV_STATUS_NRESP];
1035 err = si476x_core_send_command(core, CMD_FM_PHASE_DIV_STATUS,
1036 NULL, 0,
1037 resp, ARRAY_SIZE(resp),
1038 SI476X_DEFAULT_TIMEOUT);
1040 return (err < 0) ? err : resp[1];
1042 EXPORT_SYMBOL_GPL(si476x_core_cmd_fm_phase_div_status);
1046 * si476x_cmd_am_seek_start - send 'FM_SEEK_START' command to the
1047 * device
1048 * @core - device to send the command to
1049 * @seekup - if set the direction of the search is 'up'
1050 * @wrap - if set seek wraps when hitting band limit
1052 * This function begins search for a valid station. The station is
1053 * considered valid when 'FM_VALID_SNR_THRESHOLD' and
1054 * 'FM_VALID_RSSI_THRESHOLD' and 'FM_VALID_MAX_TUNE_ERROR' criteria
1055 * are met.
1057 * Function returns 0 on success and negative error code on failure
1059 int si476x_core_cmd_am_seek_start(struct si476x_core *core,
1060 bool seekup, bool wrap)
1062 u8 resp[CMD_AM_SEEK_START_NRESP];
1063 const u8 args[CMD_AM_SEEK_START_NARGS] = {
1064 seekup << 3 | wrap << 2,
1067 return si476x_cmd_tune_seek_freq(core, CMD_AM_SEEK_START,
1068 args, sizeof(args),
1069 resp, sizeof(resp));
1071 EXPORT_SYMBOL_GPL(si476x_core_cmd_am_seek_start);
1075 static int si476x_core_cmd_power_up_a10(struct si476x_core *core,
1076 struct si476x_power_up_args *puargs)
1078 u8 resp[CMD_POWER_UP_A10_NRESP];
1079 const bool intsel = (core->pinmux.a1 == SI476X_A1_IRQ);
1080 const bool ctsen = (core->client->irq != 0);
1081 const u8 args[CMD_POWER_UP_A10_NARGS] = {
1082 0xF7, /* Reserved, always 0xF7 */
1083 0x3F & puargs->xcload, /* First two bits are reserved to be
1084 * zeros */
1085 ctsen << 7 | intsel << 6 | 0x07, /* Last five bits
1086 * are reserved to
1087 * be written as 0x7 */
1088 puargs->func << 4 | puargs->freq,
1089 0x11, /* Reserved, always 0x11 */
1092 return si476x_core_send_command(core, CMD_POWER_UP,
1093 args, ARRAY_SIZE(args),
1094 resp, ARRAY_SIZE(resp),
1095 SI476X_TIMEOUT_POWER_UP);
1098 static int si476x_core_cmd_power_up_a20(struct si476x_core *core,
1099 struct si476x_power_up_args *puargs)
1101 u8 resp[CMD_POWER_UP_A20_NRESP];
1102 const bool intsel = (core->pinmux.a1 == SI476X_A1_IRQ);
1103 const bool ctsen = (core->client->irq != 0);
1104 const u8 args[CMD_POWER_UP_A20_NARGS] = {
1105 puargs->ibias6x << 7 | puargs->xstart,
1106 0x3F & puargs->xcload, /* First two bits are reserved to be
1107 * zeros */
1108 ctsen << 7 | intsel << 6 | puargs->fastboot << 5 |
1109 puargs->xbiashc << 3 | puargs->xbias,
1110 puargs->func << 4 | puargs->freq,
1111 0x10 | puargs->xmode,
1114 return si476x_core_send_command(core, CMD_POWER_UP,
1115 args, ARRAY_SIZE(args),
1116 resp, ARRAY_SIZE(resp),
1117 SI476X_TIMEOUT_POWER_UP);
1120 static int si476x_core_cmd_power_down_a10(struct si476x_core *core,
1121 struct si476x_power_down_args *pdargs)
1123 u8 resp[CMD_POWER_DOWN_A10_NRESP];
1125 return si476x_core_send_command(core, CMD_POWER_DOWN,
1126 NULL, 0,
1127 resp, ARRAY_SIZE(resp),
1128 SI476X_DEFAULT_TIMEOUT);
1131 static int si476x_core_cmd_power_down_a20(struct si476x_core *core,
1132 struct si476x_power_down_args *pdargs)
1134 u8 resp[CMD_POWER_DOWN_A20_NRESP];
1135 const u8 args[CMD_POWER_DOWN_A20_NARGS] = {
1136 pdargs->xosc,
1138 return si476x_core_send_command(core, CMD_POWER_DOWN,
1139 args, ARRAY_SIZE(args),
1140 resp, ARRAY_SIZE(resp),
1141 SI476X_DEFAULT_TIMEOUT);
1144 static int si476x_core_cmd_am_tune_freq_a10(struct si476x_core *core,
1145 struct si476x_tune_freq_args *tuneargs)
1148 const int am_freq = tuneargs->freq;
1149 u8 resp[CMD_AM_TUNE_FREQ_NRESP];
1150 const u8 args[CMD_AM_TUNE_FREQ_NARGS] = {
1151 (tuneargs->hd << 6),
1152 msb(am_freq),
1153 lsb(am_freq),
1156 return si476x_cmd_tune_seek_freq(core, CMD_AM_TUNE_FREQ, args,
1157 sizeof(args),
1158 resp, sizeof(resp));
1161 static int si476x_core_cmd_am_tune_freq_a20(struct si476x_core *core,
1162 struct si476x_tune_freq_args *tuneargs)
1164 const int am_freq = tuneargs->freq;
1165 u8 resp[CMD_AM_TUNE_FREQ_NRESP];
1166 const u8 args[CMD_AM_TUNE_FREQ_NARGS] = {
1167 (tuneargs->zifsr << 6) | (tuneargs->injside & 0x03),
1168 msb(am_freq),
1169 lsb(am_freq),
1172 return si476x_cmd_tune_seek_freq(core, CMD_AM_TUNE_FREQ,
1173 args, sizeof(args),
1174 resp, sizeof(resp));
1177 static int si476x_core_cmd_fm_rsq_status_a10(struct si476x_core *core,
1178 struct si476x_rsq_status_args *rsqargs,
1179 struct si476x_rsq_status_report *report)
1181 int err;
1182 u8 resp[CMD_FM_RSQ_STATUS_A10_NRESP];
1183 const u8 args[CMD_FM_RSQ_STATUS_A10_NARGS] = {
1184 rsqargs->rsqack << 3 | rsqargs->attune << 2 |
1185 rsqargs->cancel << 1 | rsqargs->stcack,
1188 err = si476x_core_send_command(core, CMD_FM_RSQ_STATUS,
1189 args, ARRAY_SIZE(args),
1190 resp, ARRAY_SIZE(resp),
1191 SI476X_DEFAULT_TIMEOUT);
1193 * Besides getting received signal quality information this
1194 * command can be used to just acknowledge different interrupt
1195 * flags in those cases it is useless to copy and parse
1196 * received data so user can pass NULL, and thus avoid
1197 * unnecessary copying.
1199 if (err < 0 || report == NULL)
1200 return err;
1202 report->multhint = 0x80 & resp[1];
1203 report->multlint = 0x40 & resp[1];
1204 report->snrhint = 0x08 & resp[1];
1205 report->snrlint = 0x04 & resp[1];
1206 report->rssihint = 0x02 & resp[1];
1207 report->rssilint = 0x01 & resp[1];
1209 report->bltf = 0x80 & resp[2];
1210 report->snr_ready = 0x20 & resp[2];
1211 report->rssiready = 0x08 & resp[2];
1212 report->afcrl = 0x02 & resp[2];
1213 report->valid = 0x01 & resp[2];
1215 report->readfreq = get_unaligned_be16(resp + 3);
1216 report->freqoff = resp[5];
1217 report->rssi = resp[6];
1218 report->snr = resp[7];
1219 report->lassi = resp[9];
1220 report->hassi = resp[10];
1221 report->mult = resp[11];
1222 report->dev = resp[12];
1223 report->readantcap = get_unaligned_be16(resp + 13);
1224 report->assi = resp[15];
1225 report->usn = resp[16];
1227 return err;
1230 static int si476x_core_cmd_fm_rsq_status_a20(struct si476x_core *core,
1231 struct si476x_rsq_status_args *rsqargs,
1232 struct si476x_rsq_status_report *report)
1234 int err;
1235 u8 resp[CMD_FM_RSQ_STATUS_A10_NRESP];
1236 const u8 args[CMD_FM_RSQ_STATUS_A30_NARGS] = {
1237 rsqargs->primary << 4 | rsqargs->rsqack << 3 |
1238 rsqargs->attune << 2 | rsqargs->cancel << 1 |
1239 rsqargs->stcack,
1242 err = si476x_core_send_command(core, CMD_FM_RSQ_STATUS,
1243 args, ARRAY_SIZE(args),
1244 resp, ARRAY_SIZE(resp),
1245 SI476X_DEFAULT_TIMEOUT);
1247 * Besides getting received signal quality information this
1248 * command can be used to just acknowledge different interrupt
1249 * flags in those cases it is useless to copy and parse
1250 * received data so user can pass NULL, and thus avoid
1251 * unnecessary copying.
1253 if (err < 0 || report == NULL)
1254 return err;
1256 report->multhint = 0x80 & resp[1];
1257 report->multlint = 0x40 & resp[1];
1258 report->snrhint = 0x08 & resp[1];
1259 report->snrlint = 0x04 & resp[1];
1260 report->rssihint = 0x02 & resp[1];
1261 report->rssilint = 0x01 & resp[1];
1263 report->bltf = 0x80 & resp[2];
1264 report->snr_ready = 0x20 & resp[2];
1265 report->rssiready = 0x08 & resp[2];
1266 report->afcrl = 0x02 & resp[2];
1267 report->valid = 0x01 & resp[2];
1269 report->readfreq = get_unaligned_be16(resp + 3);
1270 report->freqoff = resp[5];
1271 report->rssi = resp[6];
1272 report->snr = resp[7];
1273 report->lassi = resp[9];
1274 report->hassi = resp[10];
1275 report->mult = resp[11];
1276 report->dev = resp[12];
1277 report->readantcap = get_unaligned_be16(resp + 13);
1278 report->assi = resp[15];
1279 report->usn = resp[16];
1281 return err;
1285 static int si476x_core_cmd_fm_rsq_status_a30(struct si476x_core *core,
1286 struct si476x_rsq_status_args *rsqargs,
1287 struct si476x_rsq_status_report *report)
1289 int err;
1290 u8 resp[CMD_FM_RSQ_STATUS_A30_NRESP];
1291 const u8 args[CMD_FM_RSQ_STATUS_A30_NARGS] = {
1292 rsqargs->primary << 4 | rsqargs->rsqack << 3 |
1293 rsqargs->attune << 2 | rsqargs->cancel << 1 |
1294 rsqargs->stcack,
1297 err = si476x_core_send_command(core, CMD_FM_RSQ_STATUS,
1298 args, ARRAY_SIZE(args),
1299 resp, ARRAY_SIZE(resp),
1300 SI476X_DEFAULT_TIMEOUT);
1302 * Besides getting received signal quality information this
1303 * command can be used to just acknowledge different interrupt
1304 * flags in those cases it is useless to copy and parse
1305 * received data so user can pass NULL, and thus avoid
1306 * unnecessary copying.
1308 if (err < 0 || report == NULL)
1309 return err;
1311 report->multhint = 0x80 & resp[1];
1312 report->multlint = 0x40 & resp[1];
1313 report->snrhint = 0x08 & resp[1];
1314 report->snrlint = 0x04 & resp[1];
1315 report->rssihint = 0x02 & resp[1];
1316 report->rssilint = 0x01 & resp[1];
1318 report->bltf = 0x80 & resp[2];
1319 report->snr_ready = 0x20 & resp[2];
1320 report->rssiready = 0x08 & resp[2];
1321 report->injside = 0x04 & resp[2];
1322 report->afcrl = 0x02 & resp[2];
1323 report->valid = 0x01 & resp[2];
1325 report->readfreq = get_unaligned_be16(resp + 3);
1326 report->freqoff = resp[5];
1327 report->rssi = resp[6];
1328 report->snr = resp[7];
1329 report->issi = resp[8];
1330 report->lassi = resp[9];
1331 report->hassi = resp[10];
1332 report->mult = resp[11];
1333 report->dev = resp[12];
1334 report->readantcap = get_unaligned_be16(resp + 13);
1335 report->assi = resp[15];
1336 report->usn = resp[16];
1338 report->pilotdev = resp[17];
1339 report->rdsdev = resp[18];
1340 report->assidev = resp[19];
1341 report->strongdev = resp[20];
1342 report->rdspi = get_unaligned_be16(resp + 21);
1344 return err;
1347 static int si476x_core_cmd_fm_tune_freq_a10(struct si476x_core *core,
1348 struct si476x_tune_freq_args *tuneargs)
1350 u8 resp[CMD_FM_TUNE_FREQ_NRESP];
1351 const u8 args[CMD_FM_TUNE_FREQ_A10_NARGS] = {
1352 (tuneargs->hd << 6) | (tuneargs->tunemode << 4)
1353 | (tuneargs->smoothmetrics << 2),
1354 msb(tuneargs->freq),
1355 lsb(tuneargs->freq),
1356 msb(tuneargs->antcap),
1357 lsb(tuneargs->antcap)
1360 return si476x_cmd_tune_seek_freq(core, CMD_FM_TUNE_FREQ,
1361 args, sizeof(args),
1362 resp, sizeof(resp));
1365 static int si476x_core_cmd_fm_tune_freq_a20(struct si476x_core *core,
1366 struct si476x_tune_freq_args *tuneargs)
1368 u8 resp[CMD_FM_TUNE_FREQ_NRESP];
1369 const u8 args[CMD_FM_TUNE_FREQ_A20_NARGS] = {
1370 (tuneargs->hd << 6) | (tuneargs->tunemode << 4)
1371 | (tuneargs->smoothmetrics << 2) | (tuneargs->injside),
1372 msb(tuneargs->freq),
1373 lsb(tuneargs->freq),
1376 return si476x_cmd_tune_seek_freq(core, CMD_FM_TUNE_FREQ,
1377 args, sizeof(args),
1378 resp, sizeof(resp));
1381 static int si476x_core_cmd_agc_status_a20(struct si476x_core *core,
1382 struct si476x_agc_status_report *report)
1384 int err;
1385 u8 resp[CMD_AGC_STATUS_NRESP_A20];
1387 if (!report)
1388 return -EINVAL;
1390 err = si476x_core_send_command(core, CMD_AGC_STATUS,
1391 NULL, 0,
1392 resp, ARRAY_SIZE(resp),
1393 SI476X_DEFAULT_TIMEOUT);
1394 if (err < 0)
1395 return err;
1397 report->mxhi = resp[1] & SI476X_AGC_MXHI;
1398 report->mxlo = resp[1] & SI476X_AGC_MXLO;
1399 report->lnahi = resp[1] & SI476X_AGC_LNAHI;
1400 report->lnalo = resp[1] & SI476X_AGC_LNALO;
1401 report->fmagc1 = resp[2];
1402 report->fmagc2 = resp[3];
1403 report->pgagain = resp[4];
1404 report->fmwblang = resp[5];
1406 return err;
1409 static int si476x_core_cmd_agc_status_a10(struct si476x_core *core,
1410 struct si476x_agc_status_report *report)
1412 int err;
1413 u8 resp[CMD_AGC_STATUS_NRESP_A10];
1415 if (!report)
1416 return -EINVAL;
1418 err = si476x_core_send_command(core, CMD_AGC_STATUS,
1419 NULL, 0,
1420 resp, ARRAY_SIZE(resp),
1421 SI476X_DEFAULT_TIMEOUT);
1422 if (err < 0)
1423 return err;
1425 report->mxhi = resp[1] & SI476X_AGC_MXHI;
1426 report->mxlo = resp[1] & SI476X_AGC_MXLO;
1427 report->lnahi = resp[1] & SI476X_AGC_LNAHI;
1428 report->lnalo = resp[1] & SI476X_AGC_LNALO;
1430 return err;
1433 typedef int (*tune_freq_func_t) (struct si476x_core *core,
1434 struct si476x_tune_freq_args *tuneargs);
1436 static struct {
1437 int (*power_up)(struct si476x_core *,
1438 struct si476x_power_up_args *);
1439 int (*power_down)(struct si476x_core *,
1440 struct si476x_power_down_args *);
1442 tune_freq_func_t fm_tune_freq;
1443 tune_freq_func_t am_tune_freq;
1445 int (*fm_rsq_status)(struct si476x_core *,
1446 struct si476x_rsq_status_args *,
1447 struct si476x_rsq_status_report *);
1449 int (*agc_status)(struct si476x_core *,
1450 struct si476x_agc_status_report *);
1451 int (*intb_pin_cfg)(struct si476x_core *core,
1452 enum si476x_intb_config intb,
1453 enum si476x_a1_config a1);
1454 } si476x_cmds_vtable[] = {
1455 [SI476X_REVISION_A10] = {
1456 .power_up = si476x_core_cmd_power_up_a10,
1457 .power_down = si476x_core_cmd_power_down_a10,
1458 .fm_tune_freq = si476x_core_cmd_fm_tune_freq_a10,
1459 .am_tune_freq = si476x_core_cmd_am_tune_freq_a10,
1460 .fm_rsq_status = si476x_core_cmd_fm_rsq_status_a10,
1461 .agc_status = si476x_core_cmd_agc_status_a10,
1462 .intb_pin_cfg = si476x_core_cmd_intb_pin_cfg_a10,
1464 [SI476X_REVISION_A20] = {
1465 .power_up = si476x_core_cmd_power_up_a20,
1466 .power_down = si476x_core_cmd_power_down_a20,
1467 .fm_tune_freq = si476x_core_cmd_fm_tune_freq_a20,
1468 .am_tune_freq = si476x_core_cmd_am_tune_freq_a20,
1469 .fm_rsq_status = si476x_core_cmd_fm_rsq_status_a20,
1470 .agc_status = si476x_core_cmd_agc_status_a20,
1471 .intb_pin_cfg = si476x_core_cmd_intb_pin_cfg_a20,
1473 [SI476X_REVISION_A30] = {
1474 .power_up = si476x_core_cmd_power_up_a20,
1475 .power_down = si476x_core_cmd_power_down_a20,
1476 .fm_tune_freq = si476x_core_cmd_fm_tune_freq_a20,
1477 .am_tune_freq = si476x_core_cmd_am_tune_freq_a20,
1478 .fm_rsq_status = si476x_core_cmd_fm_rsq_status_a30,
1479 .agc_status = si476x_core_cmd_agc_status_a20,
1480 .intb_pin_cfg = si476x_core_cmd_intb_pin_cfg_a20,
1484 int si476x_core_cmd_power_up(struct si476x_core *core,
1485 struct si476x_power_up_args *args)
1487 BUG_ON(core->revision > SI476X_REVISION_A30 ||
1488 core->revision == -1);
1489 return si476x_cmds_vtable[core->revision].power_up(core, args);
1491 EXPORT_SYMBOL_GPL(si476x_core_cmd_power_up);
1493 int si476x_core_cmd_power_down(struct si476x_core *core,
1494 struct si476x_power_down_args *args)
1496 BUG_ON(core->revision > SI476X_REVISION_A30 ||
1497 core->revision == -1);
1498 return si476x_cmds_vtable[core->revision].power_down(core, args);
1500 EXPORT_SYMBOL_GPL(si476x_core_cmd_power_down);
1502 int si476x_core_cmd_fm_tune_freq(struct si476x_core *core,
1503 struct si476x_tune_freq_args *args)
1505 BUG_ON(core->revision > SI476X_REVISION_A30 ||
1506 core->revision == -1);
1507 return si476x_cmds_vtable[core->revision].fm_tune_freq(core, args);
1509 EXPORT_SYMBOL_GPL(si476x_core_cmd_fm_tune_freq);
1511 int si476x_core_cmd_am_tune_freq(struct si476x_core *core,
1512 struct si476x_tune_freq_args *args)
1514 BUG_ON(core->revision > SI476X_REVISION_A30 ||
1515 core->revision == -1);
1516 return si476x_cmds_vtable[core->revision].am_tune_freq(core, args);
1518 EXPORT_SYMBOL_GPL(si476x_core_cmd_am_tune_freq);
1520 int si476x_core_cmd_fm_rsq_status(struct si476x_core *core,
1521 struct si476x_rsq_status_args *args,
1522 struct si476x_rsq_status_report *report)
1525 BUG_ON(core->revision > SI476X_REVISION_A30 ||
1526 core->revision == -1);
1527 return si476x_cmds_vtable[core->revision].fm_rsq_status(core, args,
1528 report);
1530 EXPORT_SYMBOL_GPL(si476x_core_cmd_fm_rsq_status);
1532 int si476x_core_cmd_agc_status(struct si476x_core *core,
1533 struct si476x_agc_status_report *report)
1536 BUG_ON(core->revision > SI476X_REVISION_A30 ||
1537 core->revision == -1);
1538 return si476x_cmds_vtable[core->revision].agc_status(core, report);
1540 EXPORT_SYMBOL_GPL(si476x_core_cmd_agc_status);
1542 int si476x_core_cmd_intb_pin_cfg(struct si476x_core *core,
1543 enum si476x_intb_config intb,
1544 enum si476x_a1_config a1)
1546 BUG_ON(core->revision > SI476X_REVISION_A30 ||
1547 core->revision == -1);
1549 return si476x_cmds_vtable[core->revision].intb_pin_cfg(core, intb, a1);
1551 EXPORT_SYMBOL_GPL(si476x_core_cmd_intb_pin_cfg);
1553 MODULE_LICENSE("GPL");
1554 MODULE_AUTHOR("Andrey Smirnov <andrew.smirnov@gmail.com>");
1555 MODULE_DESCRIPTION("API for command exchange for si476x");