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Merge back earlier cpufreq fixes for v4.4.
[mirror_ubuntu-artful-kernel.git] / drivers / hid / hid-logitech-hidpp.c
1 /*
2 * HIDPP protocol for Logitech Unifying receivers
3 *
4 * Copyright (c) 2011 Logitech (c)
5 * Copyright (c) 2012-2013 Google (c)
6 * Copyright (c) 2013-2014 Red Hat Inc.
7 */
8
9 /*
10 * This program is free software; you can redistribute it and/or modify it
11 * under the terms of the GNU General Public License as published by the Free
12 * Software Foundation; version 2 of the License.
13 */
14
15 #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
16
17 #include <linux/device.h>
18 #include <linux/hid.h>
19 #include <linux/module.h>
20 #include <linux/slab.h>
21 #include <linux/sched.h>
22 #include <linux/kfifo.h>
23 #include <linux/input/mt.h>
24 #include <asm/unaligned.h>
25 #include "hid-ids.h"
26
27 MODULE_LICENSE("GPL");
28 MODULE_AUTHOR("Benjamin Tissoires <benjamin.tissoires@gmail.com>");
29 MODULE_AUTHOR("Nestor Lopez Casado <nlopezcasad@logitech.com>");
30
31 static bool disable_raw_mode;
32 module_param(disable_raw_mode, bool, 0644);
33 MODULE_PARM_DESC(disable_raw_mode,
34 "Disable Raw mode reporting for touchpads and keep firmware gestures.");
35
36 static bool disable_tap_to_click;
37 module_param(disable_tap_to_click, bool, 0644);
38 MODULE_PARM_DESC(disable_tap_to_click,
39 "Disable Tap-To-Click mode reporting for touchpads (only on the K400 currently).");
40
41 #define REPORT_ID_HIDPP_SHORT 0x10
42 #define REPORT_ID_HIDPP_LONG 0x11
43
44 #define HIDPP_REPORT_SHORT_LENGTH 7
45 #define HIDPP_REPORT_LONG_LENGTH 20
46
47 #define HIDPP_QUIRK_CLASS_WTP BIT(0)
48 #define HIDPP_QUIRK_CLASS_M560 BIT(1)
49 #define HIDPP_QUIRK_CLASS_K400 BIT(2)
50
51 /* bits 2..20 are reserved for classes */
52 #define HIDPP_QUIRK_CONNECT_EVENTS BIT(21)
53 #define HIDPP_QUIRK_WTP_PHYSICAL_BUTTONS BIT(22)
54 #define HIDPP_QUIRK_NO_HIDINPUT BIT(23)
55
56 #define HIDPP_QUIRK_DELAYED_INIT (HIDPP_QUIRK_NO_HIDINPUT | \
57 HIDPP_QUIRK_CONNECT_EVENTS)
58
59 /*
60 * There are two hidpp protocols in use, the first version hidpp10 is known
61 * as register access protocol or RAP, the second version hidpp20 is known as
62 * feature access protocol or FAP
63 *
64 * Most older devices (including the Unifying usb receiver) use the RAP protocol
65 * where as most newer devices use the FAP protocol. Both protocols are
66 * compatible with the underlying transport, which could be usb, Unifiying, or
67 * bluetooth. The message lengths are defined by the hid vendor specific report
68 * descriptor for the HIDPP_SHORT report type (total message lenth 7 bytes) and
69 * the HIDPP_LONG report type (total message length 20 bytes)
70 *
71 * The RAP protocol uses both report types, whereas the FAP only uses HIDPP_LONG
72 * messages. The Unifying receiver itself responds to RAP messages (device index
73 * is 0xFF for the receiver), and all messages (short or long) with a device
74 * index between 1 and 6 are passed untouched to the corresponding paired
75 * Unifying device.
76 *
77 * The paired device can be RAP or FAP, it will receive the message untouched
78 * from the Unifiying receiver.
79 */
80
81 struct fap {
82 u8 feature_index;
83 u8 funcindex_clientid;
84 u8 params[HIDPP_REPORT_LONG_LENGTH - 4U];
85 };
86
87 struct rap {
88 u8 sub_id;
89 u8 reg_address;
90 u8 params[HIDPP_REPORT_LONG_LENGTH - 4U];
91 };
92
93 struct hidpp_report {
94 u8 report_id;
95 u8 device_index;
96 union {
97 struct fap fap;
98 struct rap rap;
99 u8 rawbytes[sizeof(struct fap)];
100 };
101 } __packed;
102
103 struct hidpp_device {
104 struct hid_device *hid_dev;
105 struct mutex send_mutex;
106 void *send_receive_buf;
107 char *name; /* will never be NULL and should not be freed */
108 wait_queue_head_t wait;
109 bool answer_available;
110 u8 protocol_major;
111 u8 protocol_minor;
112
113 void *private_data;
114
115 struct work_struct work;
116 struct kfifo delayed_work_fifo;
117 atomic_t connected;
118 struct input_dev *delayed_input;
119
120 unsigned long quirks;
121 };
122
123
124 /* HID++ 1.0 error codes */
125 #define HIDPP_ERROR 0x8f
126 #define HIDPP_ERROR_SUCCESS 0x00
127 #define HIDPP_ERROR_INVALID_SUBID 0x01
128 #define HIDPP_ERROR_INVALID_ADRESS 0x02
129 #define HIDPP_ERROR_INVALID_VALUE 0x03
130 #define HIDPP_ERROR_CONNECT_FAIL 0x04
131 #define HIDPP_ERROR_TOO_MANY_DEVICES 0x05
132 #define HIDPP_ERROR_ALREADY_EXISTS 0x06
133 #define HIDPP_ERROR_BUSY 0x07
134 #define HIDPP_ERROR_UNKNOWN_DEVICE 0x08
135 #define HIDPP_ERROR_RESOURCE_ERROR 0x09
136 #define HIDPP_ERROR_REQUEST_UNAVAILABLE 0x0a
137 #define HIDPP_ERROR_INVALID_PARAM_VALUE 0x0b
138 #define HIDPP_ERROR_WRONG_PIN_CODE 0x0c
139 /* HID++ 2.0 error codes */
140 #define HIDPP20_ERROR 0xff
141
142 static void hidpp_connect_event(struct hidpp_device *hidpp_dev);
143
144 static int __hidpp_send_report(struct hid_device *hdev,
145 struct hidpp_report *hidpp_report)
146 {
147 int fields_count, ret;
148
149 switch (hidpp_report->report_id) {
150 case REPORT_ID_HIDPP_SHORT:
151 fields_count = HIDPP_REPORT_SHORT_LENGTH;
152 break;
153 case REPORT_ID_HIDPP_LONG:
154 fields_count = HIDPP_REPORT_LONG_LENGTH;
155 break;
156 default:
157 return -ENODEV;
158 }
159
160 /*
161 * set the device_index as the receiver, it will be overwritten by
162 * hid_hw_request if needed
163 */
164 hidpp_report->device_index = 0xff;
165
166 ret = hid_hw_raw_request(hdev, hidpp_report->report_id,
167 (u8 *)hidpp_report, fields_count, HID_OUTPUT_REPORT,
168 HID_REQ_SET_REPORT);
169
170 return ret == fields_count ? 0 : -1;
171 }
172
173 /**
174 * hidpp_send_message_sync() returns 0 in case of success, and something else
175 * in case of a failure.
176 * - If ' something else' is positive, that means that an error has been raised
177 * by the protocol itself.
178 * - If ' something else' is negative, that means that we had a classic error
179 * (-ENOMEM, -EPIPE, etc...)
180 */
181 static int hidpp_send_message_sync(struct hidpp_device *hidpp,
182 struct hidpp_report *message,
183 struct hidpp_report *response)
184 {
185 int ret;
186
187 mutex_lock(&hidpp->send_mutex);
188
189 hidpp->send_receive_buf = response;
190 hidpp->answer_available = false;
191
192 /*
193 * So that we can later validate the answer when it arrives
194 * in hidpp_raw_event
195 */
196 *response = *message;
197
198 ret = __hidpp_send_report(hidpp->hid_dev, message);
199
200 if (ret) {
201 dbg_hid("__hidpp_send_report returned err: %d\n", ret);
202 memset(response, 0, sizeof(struct hidpp_report));
203 goto exit;
204 }
205
206 if (!wait_event_timeout(hidpp->wait, hidpp->answer_available,
207 5*HZ)) {
208 dbg_hid("%s:timeout waiting for response\n", __func__);
209 memset(response, 0, sizeof(struct hidpp_report));
210 ret = -ETIMEDOUT;
211 }
212
213 if (response->report_id == REPORT_ID_HIDPP_SHORT &&
214 response->rap.sub_id == HIDPP_ERROR) {
215 ret = response->rap.params[1];
216 dbg_hid("%s:got hidpp error %02X\n", __func__, ret);
217 goto exit;
218 }
219
220 if (response->report_id == REPORT_ID_HIDPP_LONG &&
221 response->fap.feature_index == HIDPP20_ERROR) {
222 ret = response->fap.params[1];
223 dbg_hid("%s:got hidpp 2.0 error %02X\n", __func__, ret);
224 goto exit;
225 }
226
227 exit:
228 mutex_unlock(&hidpp->send_mutex);
229 return ret;
230
231 }
232
233 static int hidpp_send_fap_command_sync(struct hidpp_device *hidpp,
234 u8 feat_index, u8 funcindex_clientid, u8 *params, int param_count,
235 struct hidpp_report *response)
236 {
237 struct hidpp_report *message;
238 int ret;
239
240 if (param_count > sizeof(message->fap.params))
241 return -EINVAL;
242
243 message = kzalloc(sizeof(struct hidpp_report), GFP_KERNEL);
244 if (!message)
245 return -ENOMEM;
246 message->report_id = REPORT_ID_HIDPP_LONG;
247 message->fap.feature_index = feat_index;
248 message->fap.funcindex_clientid = funcindex_clientid;
249 memcpy(&message->fap.params, params, param_count);
250
251 ret = hidpp_send_message_sync(hidpp, message, response);
252 kfree(message);
253 return ret;
254 }
255
256 static int hidpp_send_rap_command_sync(struct hidpp_device *hidpp_dev,
257 u8 report_id, u8 sub_id, u8 reg_address, u8 *params, int param_count,
258 struct hidpp_report *response)
259 {
260 struct hidpp_report *message;
261 int ret;
262
263 if ((report_id != REPORT_ID_HIDPP_SHORT) &&
264 (report_id != REPORT_ID_HIDPP_LONG))
265 return -EINVAL;
266
267 if (param_count > sizeof(message->rap.params))
268 return -EINVAL;
269
270 message = kzalloc(sizeof(struct hidpp_report), GFP_KERNEL);
271 if (!message)
272 return -ENOMEM;
273 message->report_id = report_id;
274 message->rap.sub_id = sub_id;
275 message->rap.reg_address = reg_address;
276 memcpy(&message->rap.params, params, param_count);
277
278 ret = hidpp_send_message_sync(hidpp_dev, message, response);
279 kfree(message);
280 return ret;
281 }
282
283 static void delayed_work_cb(struct work_struct *work)
284 {
285 struct hidpp_device *hidpp = container_of(work, struct hidpp_device,
286 work);
287 hidpp_connect_event(hidpp);
288 }
289
290 static inline bool hidpp_match_answer(struct hidpp_report *question,
291 struct hidpp_report *answer)
292 {
293 return (answer->fap.feature_index == question->fap.feature_index) &&
294 (answer->fap.funcindex_clientid == question->fap.funcindex_clientid);
295 }
296
297 static inline bool hidpp_match_error(struct hidpp_report *question,
298 struct hidpp_report *answer)
299 {
300 return ((answer->rap.sub_id == HIDPP_ERROR) ||
301 (answer->fap.feature_index == HIDPP20_ERROR)) &&
302 (answer->fap.funcindex_clientid == question->fap.feature_index) &&
303 (answer->fap.params[0] == question->fap.funcindex_clientid);
304 }
305
306 static inline bool hidpp_report_is_connect_event(struct hidpp_report *report)
307 {
308 return (report->report_id == REPORT_ID_HIDPP_SHORT) &&
309 (report->rap.sub_id == 0x41);
310 }
311
312 /**
313 * hidpp_prefix_name() prefixes the current given name with "Logitech ".
314 */
315 static void hidpp_prefix_name(char **name, int name_length)
316 {
317 #define PREFIX_LENGTH 9 /* "Logitech " */
318
319 int new_length;
320 char *new_name;
321
322 if (name_length > PREFIX_LENGTH &&
323 strncmp(*name, "Logitech ", PREFIX_LENGTH) == 0)
324 /* The prefix has is already in the name */
325 return;
326
327 new_length = PREFIX_LENGTH + name_length;
328 new_name = kzalloc(new_length, GFP_KERNEL);
329 if (!new_name)
330 return;
331
332 snprintf(new_name, new_length, "Logitech %s", *name);
333
334 kfree(*name);
335
336 *name = new_name;
337 }
338
339 /* -------------------------------------------------------------------------- */
340 /* HIDP++ 1.0 commands */
341 /* -------------------------------------------------------------------------- */
342
343 #define HIDPP_SET_REGISTER 0x80
344 #define HIDPP_GET_REGISTER 0x81
345 #define HIDPP_SET_LONG_REGISTER 0x82
346 #define HIDPP_GET_LONG_REGISTER 0x83
347
348 #define HIDPP_REG_PAIRING_INFORMATION 0xB5
349 #define DEVICE_NAME 0x40
350
351 static char *hidpp_get_unifying_name(struct hidpp_device *hidpp_dev)
352 {
353 struct hidpp_report response;
354 int ret;
355 /* hid-logitech-dj is in charge of setting the right device index */
356 u8 params[1] = { DEVICE_NAME };
357 char *name;
358 int len;
359
360 ret = hidpp_send_rap_command_sync(hidpp_dev,
361 REPORT_ID_HIDPP_SHORT,
362 HIDPP_GET_LONG_REGISTER,
363 HIDPP_REG_PAIRING_INFORMATION,
364 params, 1, &response);
365 if (ret)
366 return NULL;
367
368 len = response.rap.params[1];
369
370 if (2 + len > sizeof(response.rap.params))
371 return NULL;
372
373 name = kzalloc(len + 1, GFP_KERNEL);
374 if (!name)
375 return NULL;
376
377 memcpy(name, &response.rap.params[2], len);
378
379 /* include the terminating '\0' */
380 hidpp_prefix_name(&name, len + 1);
381
382 return name;
383 }
384
385 /* -------------------------------------------------------------------------- */
386 /* 0x0000: Root */
387 /* -------------------------------------------------------------------------- */
388
389 #define HIDPP_PAGE_ROOT 0x0000
390 #define HIDPP_PAGE_ROOT_IDX 0x00
391
392 #define CMD_ROOT_GET_FEATURE 0x01
393 #define CMD_ROOT_GET_PROTOCOL_VERSION 0x11
394
395 static int hidpp_root_get_feature(struct hidpp_device *hidpp, u16 feature,
396 u8 *feature_index, u8 *feature_type)
397 {
398 struct hidpp_report response;
399 int ret;
400 u8 params[2] = { feature >> 8, feature & 0x00FF };
401
402 ret = hidpp_send_fap_command_sync(hidpp,
403 HIDPP_PAGE_ROOT_IDX,
404 CMD_ROOT_GET_FEATURE,
405 params, 2, &response);
406 if (ret)
407 return ret;
408
409 *feature_index = response.fap.params[0];
410 *feature_type = response.fap.params[1];
411
412 return ret;
413 }
414
415 static int hidpp_root_get_protocol_version(struct hidpp_device *hidpp)
416 {
417 struct hidpp_report response;
418 int ret;
419
420 ret = hidpp_send_fap_command_sync(hidpp,
421 HIDPP_PAGE_ROOT_IDX,
422 CMD_ROOT_GET_PROTOCOL_VERSION,
423 NULL, 0, &response);
424
425 if (ret == HIDPP_ERROR_INVALID_SUBID) {
426 hidpp->protocol_major = 1;
427 hidpp->protocol_minor = 0;
428 return 0;
429 }
430
431 /* the device might not be connected */
432 if (ret == HIDPP_ERROR_RESOURCE_ERROR)
433 return -EIO;
434
435 if (ret > 0) {
436 hid_err(hidpp->hid_dev, "%s: received protocol error 0x%02x\n",
437 __func__, ret);
438 return -EPROTO;
439 }
440 if (ret)
441 return ret;
442
443 hidpp->protocol_major = response.fap.params[0];
444 hidpp->protocol_minor = response.fap.params[1];
445
446 return ret;
447 }
448
449 static bool hidpp_is_connected(struct hidpp_device *hidpp)
450 {
451 int ret;
452
453 ret = hidpp_root_get_protocol_version(hidpp);
454 if (!ret)
455 hid_dbg(hidpp->hid_dev, "HID++ %u.%u device connected.\n",
456 hidpp->protocol_major, hidpp->protocol_minor);
457 return ret == 0;
458 }
459
460 /* -------------------------------------------------------------------------- */
461 /* 0x0005: GetDeviceNameType */
462 /* -------------------------------------------------------------------------- */
463
464 #define HIDPP_PAGE_GET_DEVICE_NAME_TYPE 0x0005
465
466 #define CMD_GET_DEVICE_NAME_TYPE_GET_COUNT 0x01
467 #define CMD_GET_DEVICE_NAME_TYPE_GET_DEVICE_NAME 0x11
468 #define CMD_GET_DEVICE_NAME_TYPE_GET_TYPE 0x21
469
470 static int hidpp_devicenametype_get_count(struct hidpp_device *hidpp,
471 u8 feature_index, u8 *nameLength)
472 {
473 struct hidpp_report response;
474 int ret;
475
476 ret = hidpp_send_fap_command_sync(hidpp, feature_index,
477 CMD_GET_DEVICE_NAME_TYPE_GET_COUNT, NULL, 0, &response);
478
479 if (ret > 0) {
480 hid_err(hidpp->hid_dev, "%s: received protocol error 0x%02x\n",
481 __func__, ret);
482 return -EPROTO;
483 }
484 if (ret)
485 return ret;
486
487 *nameLength = response.fap.params[0];
488
489 return ret;
490 }
491
492 static int hidpp_devicenametype_get_device_name(struct hidpp_device *hidpp,
493 u8 feature_index, u8 char_index, char *device_name, int len_buf)
494 {
495 struct hidpp_report response;
496 int ret, i;
497 int count;
498
499 ret = hidpp_send_fap_command_sync(hidpp, feature_index,
500 CMD_GET_DEVICE_NAME_TYPE_GET_DEVICE_NAME, &char_index, 1,
501 &response);
502
503 if (ret > 0) {
504 hid_err(hidpp->hid_dev, "%s: received protocol error 0x%02x\n",
505 __func__, ret);
506 return -EPROTO;
507 }
508 if (ret)
509 return ret;
510
511 if (response.report_id == REPORT_ID_HIDPP_LONG)
512 count = HIDPP_REPORT_LONG_LENGTH - 4;
513 else
514 count = HIDPP_REPORT_SHORT_LENGTH - 4;
515
516 if (len_buf < count)
517 count = len_buf;
518
519 for (i = 0; i < count; i++)
520 device_name[i] = response.fap.params[i];
521
522 return count;
523 }
524
525 static char *hidpp_get_device_name(struct hidpp_device *hidpp)
526 {
527 u8 feature_type;
528 u8 feature_index;
529 u8 __name_length;
530 char *name;
531 unsigned index = 0;
532 int ret;
533
534 ret = hidpp_root_get_feature(hidpp, HIDPP_PAGE_GET_DEVICE_NAME_TYPE,
535 &feature_index, &feature_type);
536 if (ret)
537 return NULL;
538
539 ret = hidpp_devicenametype_get_count(hidpp, feature_index,
540 &__name_length);
541 if (ret)
542 return NULL;
543
544 name = kzalloc(__name_length + 1, GFP_KERNEL);
545 if (!name)
546 return NULL;
547
548 while (index < __name_length) {
549 ret = hidpp_devicenametype_get_device_name(hidpp,
550 feature_index, index, name + index,
551 __name_length - index);
552 if (ret <= 0) {
553 kfree(name);
554 return NULL;
555 }
556 index += ret;
557 }
558
559 /* include the terminating '\0' */
560 hidpp_prefix_name(&name, __name_length + 1);
561
562 return name;
563 }
564
565 /* -------------------------------------------------------------------------- */
566 /* 0x6010: Touchpad FW items */
567 /* -------------------------------------------------------------------------- */
568
569 #define HIDPP_PAGE_TOUCHPAD_FW_ITEMS 0x6010
570
571 #define CMD_TOUCHPAD_FW_ITEMS_SET 0x10
572
573 struct hidpp_touchpad_fw_items {
574 uint8_t presence;
575 uint8_t desired_state;
576 uint8_t state;
577 uint8_t persistent;
578 };
579
580 /**
581 * send a set state command to the device by reading the current items->state
582 * field. items is then filled with the current state.
583 */
584 static int hidpp_touchpad_fw_items_set(struct hidpp_device *hidpp,
585 u8 feature_index,
586 struct hidpp_touchpad_fw_items *items)
587 {
588 struct hidpp_report response;
589 int ret;
590 u8 *params = (u8 *)response.fap.params;
591
592 ret = hidpp_send_fap_command_sync(hidpp, feature_index,
593 CMD_TOUCHPAD_FW_ITEMS_SET, &items->state, 1, &response);
594
595 if (ret > 0) {
596 hid_err(hidpp->hid_dev, "%s: received protocol error 0x%02x\n",
597 __func__, ret);
598 return -EPROTO;
599 }
600 if (ret)
601 return ret;
602
603 items->presence = params[0];
604 items->desired_state = params[1];
605 items->state = params[2];
606 items->persistent = params[3];
607
608 return 0;
609 }
610
611 /* -------------------------------------------------------------------------- */
612 /* 0x6100: TouchPadRawXY */
613 /* -------------------------------------------------------------------------- */
614
615 #define HIDPP_PAGE_TOUCHPAD_RAW_XY 0x6100
616
617 #define CMD_TOUCHPAD_GET_RAW_INFO 0x01
618 #define CMD_TOUCHPAD_SET_RAW_REPORT_STATE 0x21
619
620 #define EVENT_TOUCHPAD_RAW_XY 0x00
621
622 #define TOUCHPAD_RAW_XY_ORIGIN_LOWER_LEFT 0x01
623 #define TOUCHPAD_RAW_XY_ORIGIN_UPPER_LEFT 0x03
624
625 struct hidpp_touchpad_raw_info {
626 u16 x_size;
627 u16 y_size;
628 u8 z_range;
629 u8 area_range;
630 u8 timestamp_unit;
631 u8 maxcontacts;
632 u8 origin;
633 u16 res;
634 };
635
636 struct hidpp_touchpad_raw_xy_finger {
637 u8 contact_type;
638 u8 contact_status;
639 u16 x;
640 u16 y;
641 u8 z;
642 u8 area;
643 u8 finger_id;
644 };
645
646 struct hidpp_touchpad_raw_xy {
647 u16 timestamp;
648 struct hidpp_touchpad_raw_xy_finger fingers[2];
649 u8 spurious_flag;
650 u8 end_of_frame;
651 u8 finger_count;
652 u8 button;
653 };
654
655 static int hidpp_touchpad_get_raw_info(struct hidpp_device *hidpp,
656 u8 feature_index, struct hidpp_touchpad_raw_info *raw_info)
657 {
658 struct hidpp_report response;
659 int ret;
660 u8 *params = (u8 *)response.fap.params;
661
662 ret = hidpp_send_fap_command_sync(hidpp, feature_index,
663 CMD_TOUCHPAD_GET_RAW_INFO, NULL, 0, &response);
664
665 if (ret > 0) {
666 hid_err(hidpp->hid_dev, "%s: received protocol error 0x%02x\n",
667 __func__, ret);
668 return -EPROTO;
669 }
670 if (ret)
671 return ret;
672
673 raw_info->x_size = get_unaligned_be16(&params[0]);
674 raw_info->y_size = get_unaligned_be16(&params[2]);
675 raw_info->z_range = params[4];
676 raw_info->area_range = params[5];
677 raw_info->maxcontacts = params[7];
678 raw_info->origin = params[8];
679 /* res is given in unit per inch */
680 raw_info->res = get_unaligned_be16(&params[13]) * 2 / 51;
681
682 return ret;
683 }
684
685 static int hidpp_touchpad_set_raw_report_state(struct hidpp_device *hidpp_dev,
686 u8 feature_index, bool send_raw_reports,
687 bool sensor_enhanced_settings)
688 {
689 struct hidpp_report response;
690
691 /*
692 * Params:
693 * bit 0 - enable raw
694 * bit 1 - 16bit Z, no area
695 * bit 2 - enhanced sensitivity
696 * bit 3 - width, height (4 bits each) instead of area
697 * bit 4 - send raw + gestures (degrades smoothness)
698 * remaining bits - reserved
699 */
700 u8 params = send_raw_reports | (sensor_enhanced_settings << 2);
701
702 return hidpp_send_fap_command_sync(hidpp_dev, feature_index,
703 CMD_TOUCHPAD_SET_RAW_REPORT_STATE, &params, 1, &response);
704 }
705
706 static void hidpp_touchpad_touch_event(u8 *data,
707 struct hidpp_touchpad_raw_xy_finger *finger)
708 {
709 u8 x_m = data[0] << 2;
710 u8 y_m = data[2] << 2;
711
712 finger->x = x_m << 6 | data[1];
713 finger->y = y_m << 6 | data[3];
714
715 finger->contact_type = data[0] >> 6;
716 finger->contact_status = data[2] >> 6;
717
718 finger->z = data[4];
719 finger->area = data[5];
720 finger->finger_id = data[6] >> 4;
721 }
722
723 static void hidpp_touchpad_raw_xy_event(struct hidpp_device *hidpp_dev,
724 u8 *data, struct hidpp_touchpad_raw_xy *raw_xy)
725 {
726 memset(raw_xy, 0, sizeof(struct hidpp_touchpad_raw_xy));
727 raw_xy->end_of_frame = data[8] & 0x01;
728 raw_xy->spurious_flag = (data[8] >> 1) & 0x01;
729 raw_xy->finger_count = data[15] & 0x0f;
730 raw_xy->button = (data[8] >> 2) & 0x01;
731
732 if (raw_xy->finger_count) {
733 hidpp_touchpad_touch_event(&data[2], &raw_xy->fingers[0]);
734 hidpp_touchpad_touch_event(&data[9], &raw_xy->fingers[1]);
735 }
736 }
737
738 /* ************************************************************************** */
739 /* */
740 /* Device Support */
741 /* */
742 /* ************************************************************************** */
743
744 /* -------------------------------------------------------------------------- */
745 /* Touchpad HID++ devices */
746 /* -------------------------------------------------------------------------- */
747
748 #define WTP_MANUAL_RESOLUTION 39
749
750 struct wtp_data {
751 struct input_dev *input;
752 u16 x_size, y_size;
753 u8 finger_count;
754 u8 mt_feature_index;
755 u8 button_feature_index;
756 u8 maxcontacts;
757 bool flip_y;
758 unsigned int resolution;
759 };
760
761 static int wtp_input_mapping(struct hid_device *hdev, struct hid_input *hi,
762 struct hid_field *field, struct hid_usage *usage,
763 unsigned long **bit, int *max)
764 {
765 return -1;
766 }
767
768 static void wtp_populate_input(struct hidpp_device *hidpp,
769 struct input_dev *input_dev, bool origin_is_hid_core)
770 {
771 struct wtp_data *wd = hidpp->private_data;
772
773 __set_bit(EV_ABS, input_dev->evbit);
774 __set_bit(EV_KEY, input_dev->evbit);
775 __clear_bit(EV_REL, input_dev->evbit);
776 __clear_bit(EV_LED, input_dev->evbit);
777
778 input_set_abs_params(input_dev, ABS_MT_POSITION_X, 0, wd->x_size, 0, 0);
779 input_abs_set_res(input_dev, ABS_MT_POSITION_X, wd->resolution);
780 input_set_abs_params(input_dev, ABS_MT_POSITION_Y, 0, wd->y_size, 0, 0);
781 input_abs_set_res(input_dev, ABS_MT_POSITION_Y, wd->resolution);
782
783 /* Max pressure is not given by the devices, pick one */
784 input_set_abs_params(input_dev, ABS_MT_PRESSURE, 0, 50, 0, 0);
785
786 input_set_capability(input_dev, EV_KEY, BTN_LEFT);
787
788 if (hidpp->quirks & HIDPP_QUIRK_WTP_PHYSICAL_BUTTONS)
789 input_set_capability(input_dev, EV_KEY, BTN_RIGHT);
790 else
791 __set_bit(INPUT_PROP_BUTTONPAD, input_dev->propbit);
792
793 input_mt_init_slots(input_dev, wd->maxcontacts, INPUT_MT_POINTER |
794 INPUT_MT_DROP_UNUSED);
795
796 wd->input = input_dev;
797 }
798
799 static void wtp_touch_event(struct wtp_data *wd,
800 struct hidpp_touchpad_raw_xy_finger *touch_report)
801 {
802 int slot;
803
804 if (!touch_report->finger_id || touch_report->contact_type)
805 /* no actual data */
806 return;
807
808 slot = input_mt_get_slot_by_key(wd->input, touch_report->finger_id);
809
810 input_mt_slot(wd->input, slot);
811 input_mt_report_slot_state(wd->input, MT_TOOL_FINGER,
812 touch_report->contact_status);
813 if (touch_report->contact_status) {
814 input_event(wd->input, EV_ABS, ABS_MT_POSITION_X,
815 touch_report->x);
816 input_event(wd->input, EV_ABS, ABS_MT_POSITION_Y,
817 wd->flip_y ? wd->y_size - touch_report->y :
818 touch_report->y);
819 input_event(wd->input, EV_ABS, ABS_MT_PRESSURE,
820 touch_report->area);
821 }
822 }
823
824 static void wtp_send_raw_xy_event(struct hidpp_device *hidpp,
825 struct hidpp_touchpad_raw_xy *raw)
826 {
827 struct wtp_data *wd = hidpp->private_data;
828 int i;
829
830 for (i = 0; i < 2; i++)
831 wtp_touch_event(wd, &(raw->fingers[i]));
832
833 if (raw->end_of_frame &&
834 !(hidpp->quirks & HIDPP_QUIRK_WTP_PHYSICAL_BUTTONS))
835 input_event(wd->input, EV_KEY, BTN_LEFT, raw->button);
836
837 if (raw->end_of_frame || raw->finger_count <= 2) {
838 input_mt_sync_frame(wd->input);
839 input_sync(wd->input);
840 }
841 }
842
843 static int wtp_mouse_raw_xy_event(struct hidpp_device *hidpp, u8 *data)
844 {
845 struct wtp_data *wd = hidpp->private_data;
846 u8 c1_area = ((data[7] & 0xf) * (data[7] & 0xf) +
847 (data[7] >> 4) * (data[7] >> 4)) / 2;
848 u8 c2_area = ((data[13] & 0xf) * (data[13] & 0xf) +
849 (data[13] >> 4) * (data[13] >> 4)) / 2;
850 struct hidpp_touchpad_raw_xy raw = {
851 .timestamp = data[1],
852 .fingers = {
853 {
854 .contact_type = 0,
855 .contact_status = !!data[7],
856 .x = get_unaligned_le16(&data[3]),
857 .y = get_unaligned_le16(&data[5]),
858 .z = c1_area,
859 .area = c1_area,
860 .finger_id = data[2],
861 }, {
862 .contact_type = 0,
863 .contact_status = !!data[13],
864 .x = get_unaligned_le16(&data[9]),
865 .y = get_unaligned_le16(&data[11]),
866 .z = c2_area,
867 .area = c2_area,
868 .finger_id = data[8],
869 }
870 },
871 .finger_count = wd->maxcontacts,
872 .spurious_flag = 0,
873 .end_of_frame = (data[0] >> 7) == 0,
874 .button = data[0] & 0x01,
875 };
876
877 wtp_send_raw_xy_event(hidpp, &raw);
878
879 return 1;
880 }
881
882 static int wtp_raw_event(struct hid_device *hdev, u8 *data, int size)
883 {
884 struct hidpp_device *hidpp = hid_get_drvdata(hdev);
885 struct wtp_data *wd = hidpp->private_data;
886 struct hidpp_report *report = (struct hidpp_report *)data;
887 struct hidpp_touchpad_raw_xy raw;
888
889 if (!wd || !wd->input)
890 return 1;
891
892 switch (data[0]) {
893 case 0x02:
894 if (size < 2) {
895 hid_err(hdev, "Received HID report of bad size (%d)",
896 size);
897 return 1;
898 }
899 if (hidpp->quirks & HIDPP_QUIRK_WTP_PHYSICAL_BUTTONS) {
900 input_event(wd->input, EV_KEY, BTN_LEFT,
901 !!(data[1] & 0x01));
902 input_event(wd->input, EV_KEY, BTN_RIGHT,
903 !!(data[1] & 0x02));
904 input_sync(wd->input);
905 return 0;
906 } else {
907 if (size < 21)
908 return 1;
909 return wtp_mouse_raw_xy_event(hidpp, &data[7]);
910 }
911 case REPORT_ID_HIDPP_LONG:
912 /* size is already checked in hidpp_raw_event. */
913 if ((report->fap.feature_index != wd->mt_feature_index) ||
914 (report->fap.funcindex_clientid != EVENT_TOUCHPAD_RAW_XY))
915 return 1;
916 hidpp_touchpad_raw_xy_event(hidpp, data + 4, &raw);
917
918 wtp_send_raw_xy_event(hidpp, &raw);
919 return 0;
920 }
921
922 return 0;
923 }
924
925 static int wtp_get_config(struct hidpp_device *hidpp)
926 {
927 struct wtp_data *wd = hidpp->private_data;
928 struct hidpp_touchpad_raw_info raw_info = {0};
929 u8 feature_type;
930 int ret;
931
932 ret = hidpp_root_get_feature(hidpp, HIDPP_PAGE_TOUCHPAD_RAW_XY,
933 &wd->mt_feature_index, &feature_type);
934 if (ret)
935 /* means that the device is not powered up */
936 return ret;
937
938 ret = hidpp_touchpad_get_raw_info(hidpp, wd->mt_feature_index,
939 &raw_info);
940 if (ret)
941 return ret;
942
943 wd->x_size = raw_info.x_size;
944 wd->y_size = raw_info.y_size;
945 wd->maxcontacts = raw_info.maxcontacts;
946 wd->flip_y = raw_info.origin == TOUCHPAD_RAW_XY_ORIGIN_LOWER_LEFT;
947 wd->resolution = raw_info.res;
948 if (!wd->resolution)
949 wd->resolution = WTP_MANUAL_RESOLUTION;
950
951 return 0;
952 }
953
954 static int wtp_allocate(struct hid_device *hdev, const struct hid_device_id *id)
955 {
956 struct hidpp_device *hidpp = hid_get_drvdata(hdev);
957 struct wtp_data *wd;
958
959 wd = devm_kzalloc(&hdev->dev, sizeof(struct wtp_data),
960 GFP_KERNEL);
961 if (!wd)
962 return -ENOMEM;
963
964 hidpp->private_data = wd;
965
966 return 0;
967 };
968
969 static int wtp_connect(struct hid_device *hdev, bool connected)
970 {
971 struct hidpp_device *hidpp = hid_get_drvdata(hdev);
972 struct wtp_data *wd = hidpp->private_data;
973 int ret;
974
975 if (!connected)
976 return 0;
977
978 if (!wd->x_size) {
979 ret = wtp_get_config(hidpp);
980 if (ret) {
981 hid_err(hdev, "Can not get wtp config: %d\n", ret);
982 return ret;
983 }
984 }
985
986 return hidpp_touchpad_set_raw_report_state(hidpp, wd->mt_feature_index,
987 true, true);
988 }
989
990 /* ------------------------------------------------------------------------- */
991 /* Logitech M560 devices */
992 /* ------------------------------------------------------------------------- */
993
994 /*
995 * Logitech M560 protocol overview
996 *
997 * The Logitech M560 mouse, is designed for windows 8. When the middle and/or
998 * the sides buttons are pressed, it sends some keyboard keys events
999 * instead of buttons ones.
1000 * To complicate things further, the middle button keys sequence
1001 * is different from the odd press and the even press.
1002 *
1003 * forward button -> Super_R
1004 * backward button -> Super_L+'d' (press only)
1005 * middle button -> 1st time: Alt_L+SuperL+XF86TouchpadOff (press only)
1006 * 2nd time: left-click (press only)
1007 * NB: press-only means that when the button is pressed, the
1008 * KeyPress/ButtonPress and KeyRelease/ButtonRelease events are generated
1009 * together sequentially; instead when the button is released, no event is
1010 * generated !
1011 *
1012 * With the command
1013 * 10<xx>0a 3500af03 (where <xx> is the mouse id),
1014 * the mouse reacts differently:
1015 * - it never sends a keyboard key event
1016 * - for the three mouse button it sends:
1017 * middle button press 11<xx>0a 3500af00...
1018 * side 1 button (forward) press 11<xx>0a 3500b000...
1019 * side 2 button (backward) press 11<xx>0a 3500ae00...
1020 * middle/side1/side2 button release 11<xx>0a 35000000...
1021 */
1022
1023 static const u8 m560_config_parameter[] = {0x00, 0xaf, 0x03};
1024
1025 struct m560_private_data {
1026 struct input_dev *input;
1027 };
1028
1029 /* how buttons are mapped in the report */
1030 #define M560_MOUSE_BTN_LEFT 0x01
1031 #define M560_MOUSE_BTN_RIGHT 0x02
1032 #define M560_MOUSE_BTN_WHEEL_LEFT 0x08
1033 #define M560_MOUSE_BTN_WHEEL_RIGHT 0x10
1034
1035 #define M560_SUB_ID 0x0a
1036 #define M560_BUTTON_MODE_REGISTER 0x35
1037
1038 static int m560_send_config_command(struct hid_device *hdev, bool connected)
1039 {
1040 struct hidpp_report response;
1041 struct hidpp_device *hidpp_dev;
1042
1043 hidpp_dev = hid_get_drvdata(hdev);
1044
1045 if (!connected)
1046 return -ENODEV;
1047
1048 return hidpp_send_rap_command_sync(
1049 hidpp_dev,
1050 REPORT_ID_HIDPP_SHORT,
1051 M560_SUB_ID,
1052 M560_BUTTON_MODE_REGISTER,
1053 (u8 *)m560_config_parameter,
1054 sizeof(m560_config_parameter),
1055 &response
1056 );
1057 }
1058
1059 static int m560_allocate(struct hid_device *hdev)
1060 {
1061 struct hidpp_device *hidpp = hid_get_drvdata(hdev);
1062 struct m560_private_data *d;
1063
1064 d = devm_kzalloc(&hdev->dev, sizeof(struct m560_private_data),
1065 GFP_KERNEL);
1066 if (!d)
1067 return -ENOMEM;
1068
1069 hidpp->private_data = d;
1070
1071 return 0;
1072 };
1073
1074 static int m560_raw_event(struct hid_device *hdev, u8 *data, int size)
1075 {
1076 struct hidpp_device *hidpp = hid_get_drvdata(hdev);
1077 struct m560_private_data *mydata = hidpp->private_data;
1078
1079 /* sanity check */
1080 if (!mydata || !mydata->input) {
1081 hid_err(hdev, "error in parameter\n");
1082 return -EINVAL;
1083 }
1084
1085 if (size < 7) {
1086 hid_err(hdev, "error in report\n");
1087 return 0;
1088 }
1089
1090 if (data[0] == REPORT_ID_HIDPP_LONG &&
1091 data[2] == M560_SUB_ID && data[6] == 0x00) {
1092 /*
1093 * m560 mouse report for middle, forward and backward button
1094 *
1095 * data[0] = 0x11
1096 * data[1] = device-id
1097 * data[2] = 0x0a
1098 * data[5] = 0xaf -> middle
1099 * 0xb0 -> forward
1100 * 0xae -> backward
1101 * 0x00 -> release all
1102 * data[6] = 0x00
1103 */
1104
1105 switch (data[5]) {
1106 case 0xaf:
1107 input_report_key(mydata->input, BTN_MIDDLE, 1);
1108 break;
1109 case 0xb0:
1110 input_report_key(mydata->input, BTN_FORWARD, 1);
1111 break;
1112 case 0xae:
1113 input_report_key(mydata->input, BTN_BACK, 1);
1114 break;
1115 case 0x00:
1116 input_report_key(mydata->input, BTN_BACK, 0);
1117 input_report_key(mydata->input, BTN_FORWARD, 0);
1118 input_report_key(mydata->input, BTN_MIDDLE, 0);
1119 break;
1120 default:
1121 hid_err(hdev, "error in report\n");
1122 return 0;
1123 }
1124 input_sync(mydata->input);
1125
1126 } else if (data[0] == 0x02) {
1127 /*
1128 * Logitech M560 mouse report
1129 *
1130 * data[0] = type (0x02)
1131 * data[1..2] = buttons
1132 * data[3..5] = xy
1133 * data[6] = wheel
1134 */
1135
1136 int v;
1137
1138 input_report_key(mydata->input, BTN_LEFT,
1139 !!(data[1] & M560_MOUSE_BTN_LEFT));
1140 input_report_key(mydata->input, BTN_RIGHT,
1141 !!(data[1] & M560_MOUSE_BTN_RIGHT));
1142
1143 if (data[1] & M560_MOUSE_BTN_WHEEL_LEFT)
1144 input_report_rel(mydata->input, REL_HWHEEL, -1);
1145 else if (data[1] & M560_MOUSE_BTN_WHEEL_RIGHT)
1146 input_report_rel(mydata->input, REL_HWHEEL, 1);
1147
1148 v = hid_snto32(hid_field_extract(hdev, data+3, 0, 12), 12);
1149 input_report_rel(mydata->input, REL_X, v);
1150
1151 v = hid_snto32(hid_field_extract(hdev, data+3, 12, 12), 12);
1152 input_report_rel(mydata->input, REL_Y, v);
1153
1154 v = hid_snto32(data[6], 8);
1155 input_report_rel(mydata->input, REL_WHEEL, v);
1156
1157 input_sync(mydata->input);
1158 }
1159
1160 return 1;
1161 }
1162
1163 static void m560_populate_input(struct hidpp_device *hidpp,
1164 struct input_dev *input_dev, bool origin_is_hid_core)
1165 {
1166 struct m560_private_data *mydata = hidpp->private_data;
1167
1168 mydata->input = input_dev;
1169
1170 __set_bit(EV_KEY, mydata->input->evbit);
1171 __set_bit(BTN_MIDDLE, mydata->input->keybit);
1172 __set_bit(BTN_RIGHT, mydata->input->keybit);
1173 __set_bit(BTN_LEFT, mydata->input->keybit);
1174 __set_bit(BTN_BACK, mydata->input->keybit);
1175 __set_bit(BTN_FORWARD, mydata->input->keybit);
1176
1177 __set_bit(EV_REL, mydata->input->evbit);
1178 __set_bit(REL_X, mydata->input->relbit);
1179 __set_bit(REL_Y, mydata->input->relbit);
1180 __set_bit(REL_WHEEL, mydata->input->relbit);
1181 __set_bit(REL_HWHEEL, mydata->input->relbit);
1182 }
1183
1184 static int m560_input_mapping(struct hid_device *hdev, struct hid_input *hi,
1185 struct hid_field *field, struct hid_usage *usage,
1186 unsigned long **bit, int *max)
1187 {
1188 return -1;
1189 }
1190
1191 /* ------------------------------------------------------------------------- */
1192 /* Logitech K400 devices */
1193 /* ------------------------------------------------------------------------- */
1194
1195 /*
1196 * The Logitech K400 keyboard has an embedded touchpad which is seen
1197 * as a mouse from the OS point of view. There is a hardware shortcut to disable
1198 * tap-to-click but the setting is not remembered accross reset, annoying some
1199 * users.
1200 *
1201 * We can toggle this feature from the host by using the feature 0x6010:
1202 * Touchpad FW items
1203 */
1204
1205 struct k400_private_data {
1206 u8 feature_index;
1207 };
1208
1209 static int k400_disable_tap_to_click(struct hidpp_device *hidpp)
1210 {
1211 struct k400_private_data *k400 = hidpp->private_data;
1212 struct hidpp_touchpad_fw_items items = {};
1213 int ret;
1214 u8 feature_type;
1215
1216 if (!k400->feature_index) {
1217 ret = hidpp_root_get_feature(hidpp,
1218 HIDPP_PAGE_TOUCHPAD_FW_ITEMS,
1219 &k400->feature_index, &feature_type);
1220 if (ret)
1221 /* means that the device is not powered up */
1222 return ret;
1223 }
1224
1225 ret = hidpp_touchpad_fw_items_set(hidpp, k400->feature_index, &items);
1226 if (ret)
1227 return ret;
1228
1229 return 0;
1230 }
1231
1232 static int k400_allocate(struct hid_device *hdev)
1233 {
1234 struct hidpp_device *hidpp = hid_get_drvdata(hdev);
1235 struct k400_private_data *k400;
1236
1237 k400 = devm_kzalloc(&hdev->dev, sizeof(struct k400_private_data),
1238 GFP_KERNEL);
1239 if (!k400)
1240 return -ENOMEM;
1241
1242 hidpp->private_data = k400;
1243
1244 return 0;
1245 };
1246
1247 static int k400_connect(struct hid_device *hdev, bool connected)
1248 {
1249 struct hidpp_device *hidpp = hid_get_drvdata(hdev);
1250
1251 if (!connected)
1252 return 0;
1253
1254 if (!disable_tap_to_click)
1255 return 0;
1256
1257 return k400_disable_tap_to_click(hidpp);
1258 }
1259
1260 /* -------------------------------------------------------------------------- */
1261 /* Generic HID++ devices */
1262 /* -------------------------------------------------------------------------- */
1263
1264 static int hidpp_input_mapping(struct hid_device *hdev, struct hid_input *hi,
1265 struct hid_field *field, struct hid_usage *usage,
1266 unsigned long **bit, int *max)
1267 {
1268 struct hidpp_device *hidpp = hid_get_drvdata(hdev);
1269
1270 if (hidpp->quirks & HIDPP_QUIRK_CLASS_WTP)
1271 return wtp_input_mapping(hdev, hi, field, usage, bit, max);
1272 else if (hidpp->quirks & HIDPP_QUIRK_CLASS_M560 &&
1273 field->application != HID_GD_MOUSE)
1274 return m560_input_mapping(hdev, hi, field, usage, bit, max);
1275
1276 return 0;
1277 }
1278
1279 static void hidpp_populate_input(struct hidpp_device *hidpp,
1280 struct input_dev *input, bool origin_is_hid_core)
1281 {
1282 if (hidpp->quirks & HIDPP_QUIRK_CLASS_WTP)
1283 wtp_populate_input(hidpp, input, origin_is_hid_core);
1284 else if (hidpp->quirks & HIDPP_QUIRK_CLASS_M560)
1285 m560_populate_input(hidpp, input, origin_is_hid_core);
1286 }
1287
1288 static int hidpp_input_configured(struct hid_device *hdev,
1289 struct hid_input *hidinput)
1290 {
1291 struct hidpp_device *hidpp = hid_get_drvdata(hdev);
1292 struct input_dev *input = hidinput->input;
1293
1294 hidpp_populate_input(hidpp, input, true);
1295
1296 return 0;
1297 }
1298
1299 static int hidpp_raw_hidpp_event(struct hidpp_device *hidpp, u8 *data,
1300 int size)
1301 {
1302 struct hidpp_report *question = hidpp->send_receive_buf;
1303 struct hidpp_report *answer = hidpp->send_receive_buf;
1304 struct hidpp_report *report = (struct hidpp_report *)data;
1305
1306 /*
1307 * If the mutex is locked then we have a pending answer from a
1308 * previously sent command.
1309 */
1310 if (unlikely(mutex_is_locked(&hidpp->send_mutex))) {
1311 /*
1312 * Check for a correct hidpp20 answer or the corresponding
1313 * error
1314 */
1315 if (hidpp_match_answer(question, report) ||
1316 hidpp_match_error(question, report)) {
1317 *answer = *report;
1318 hidpp->answer_available = true;
1319 wake_up(&hidpp->wait);
1320 /*
1321 * This was an answer to a command that this driver sent
1322 * We return 1 to hid-core to avoid forwarding the
1323 * command upstream as it has been treated by the driver
1324 */
1325
1326 return 1;
1327 }
1328 }
1329
1330 if (unlikely(hidpp_report_is_connect_event(report))) {
1331 atomic_set(&hidpp->connected,
1332 !(report->rap.params[0] & (1 << 6)));
1333 if ((hidpp->quirks & HIDPP_QUIRK_CONNECT_EVENTS) &&
1334 (schedule_work(&hidpp->work) == 0))
1335 dbg_hid("%s: connect event already queued\n", __func__);
1336 return 1;
1337 }
1338
1339 return 0;
1340 }
1341
1342 static int hidpp_raw_event(struct hid_device *hdev, struct hid_report *report,
1343 u8 *data, int size)
1344 {
1345 struct hidpp_device *hidpp = hid_get_drvdata(hdev);
1346 int ret = 0;
1347
1348 /* Generic HID++ processing. */
1349 switch (data[0]) {
1350 case REPORT_ID_HIDPP_LONG:
1351 if (size != HIDPP_REPORT_LONG_LENGTH) {
1352 hid_err(hdev, "received hid++ report of bad size (%d)",
1353 size);
1354 return 1;
1355 }
1356 ret = hidpp_raw_hidpp_event(hidpp, data, size);
1357 break;
1358 case REPORT_ID_HIDPP_SHORT:
1359 if (size != HIDPP_REPORT_SHORT_LENGTH) {
1360 hid_err(hdev, "received hid++ report of bad size (%d)",
1361 size);
1362 return 1;
1363 }
1364 ret = hidpp_raw_hidpp_event(hidpp, data, size);
1365 break;
1366 }
1367
1368 /* If no report is available for further processing, skip calling
1369 * raw_event of subclasses. */
1370 if (ret != 0)
1371 return ret;
1372
1373 if (hidpp->quirks & HIDPP_QUIRK_CLASS_WTP)
1374 return wtp_raw_event(hdev, data, size);
1375 else if (hidpp->quirks & HIDPP_QUIRK_CLASS_M560)
1376 return m560_raw_event(hdev, data, size);
1377
1378 return 0;
1379 }
1380
1381 static void hidpp_overwrite_name(struct hid_device *hdev, bool use_unifying)
1382 {
1383 struct hidpp_device *hidpp = hid_get_drvdata(hdev);
1384 char *name;
1385
1386 if (use_unifying)
1387 /*
1388 * the device is connected through an Unifying receiver, and
1389 * might not be already connected.
1390 * Ask the receiver for its name.
1391 */
1392 name = hidpp_get_unifying_name(hidpp);
1393 else
1394 name = hidpp_get_device_name(hidpp);
1395
1396 if (!name)
1397 hid_err(hdev, "unable to retrieve the name of the device");
1398 else
1399 snprintf(hdev->name, sizeof(hdev->name), "%s", name);
1400
1401 kfree(name);
1402 }
1403
1404 static int hidpp_input_open(struct input_dev *dev)
1405 {
1406 struct hid_device *hid = input_get_drvdata(dev);
1407
1408 return hid_hw_open(hid);
1409 }
1410
1411 static void hidpp_input_close(struct input_dev *dev)
1412 {
1413 struct hid_device *hid = input_get_drvdata(dev);
1414
1415 hid_hw_close(hid);
1416 }
1417
1418 static struct input_dev *hidpp_allocate_input(struct hid_device *hdev)
1419 {
1420 struct input_dev *input_dev = devm_input_allocate_device(&hdev->dev);
1421 struct hidpp_device *hidpp = hid_get_drvdata(hdev);
1422
1423 if (!input_dev)
1424 return NULL;
1425
1426 input_set_drvdata(input_dev, hdev);
1427 input_dev->open = hidpp_input_open;
1428 input_dev->close = hidpp_input_close;
1429
1430 input_dev->name = hidpp->name;
1431 input_dev->phys = hdev->phys;
1432 input_dev->uniq = hdev->uniq;
1433 input_dev->id.bustype = hdev->bus;
1434 input_dev->id.vendor = hdev->vendor;
1435 input_dev->id.product = hdev->product;
1436 input_dev->id.version = hdev->version;
1437 input_dev->dev.parent = &hdev->dev;
1438
1439 return input_dev;
1440 }
1441
1442 static void hidpp_connect_event(struct hidpp_device *hidpp)
1443 {
1444 struct hid_device *hdev = hidpp->hid_dev;
1445 int ret = 0;
1446 bool connected = atomic_read(&hidpp->connected);
1447 struct input_dev *input;
1448 char *name, *devm_name;
1449
1450 if (hidpp->quirks & HIDPP_QUIRK_CLASS_WTP) {
1451 ret = wtp_connect(hdev, connected);
1452 if (ret)
1453 return;
1454 } else if (hidpp->quirks & HIDPP_QUIRK_CLASS_M560) {
1455 ret = m560_send_config_command(hdev, connected);
1456 if (ret)
1457 return;
1458 } else if (hidpp->quirks & HIDPP_QUIRK_CLASS_K400) {
1459 ret = k400_connect(hdev, connected);
1460 if (ret)
1461 return;
1462 }
1463
1464 if (!connected || hidpp->delayed_input)
1465 return;
1466
1467 /* the device is already connected, we can ask for its name and
1468 * protocol */
1469 if (!hidpp->protocol_major) {
1470 ret = !hidpp_is_connected(hidpp);
1471 if (ret) {
1472 hid_err(hdev, "Can not get the protocol version.\n");
1473 return;
1474 }
1475 hid_info(hdev, "HID++ %u.%u device connected.\n",
1476 hidpp->protocol_major, hidpp->protocol_minor);
1477 }
1478
1479 if (!(hidpp->quirks & HIDPP_QUIRK_NO_HIDINPUT))
1480 /* if HID created the input nodes for us, we can stop now */
1481 return;
1482
1483 if (!hidpp->name || hidpp->name == hdev->name) {
1484 name = hidpp_get_device_name(hidpp);
1485 if (!name) {
1486 hid_err(hdev,
1487 "unable to retrieve the name of the device");
1488 return;
1489 }
1490
1491 devm_name = devm_kasprintf(&hdev->dev, GFP_KERNEL, "%s", name);
1492 kfree(name);
1493 if (!devm_name)
1494 return;
1495
1496 hidpp->name = devm_name;
1497 }
1498
1499 input = hidpp_allocate_input(hdev);
1500 if (!input) {
1501 hid_err(hdev, "cannot allocate new input device: %d\n", ret);
1502 return;
1503 }
1504
1505 hidpp_populate_input(hidpp, input, false);
1506
1507 ret = input_register_device(input);
1508 if (ret)
1509 input_free_device(input);
1510
1511 hidpp->delayed_input = input;
1512 }
1513
1514 static int hidpp_probe(struct hid_device *hdev, const struct hid_device_id *id)
1515 {
1516 struct hidpp_device *hidpp;
1517 int ret;
1518 bool connected;
1519 unsigned int connect_mask = HID_CONNECT_DEFAULT;
1520
1521 hidpp = devm_kzalloc(&hdev->dev, sizeof(struct hidpp_device),
1522 GFP_KERNEL);
1523 if (!hidpp)
1524 return -ENOMEM;
1525
1526 hidpp->hid_dev = hdev;
1527 hidpp->name = hdev->name;
1528 hid_set_drvdata(hdev, hidpp);
1529
1530 hidpp->quirks = id->driver_data;
1531
1532 if (disable_raw_mode) {
1533 hidpp->quirks &= ~HIDPP_QUIRK_CLASS_WTP;
1534 hidpp->quirks &= ~HIDPP_QUIRK_CONNECT_EVENTS;
1535 hidpp->quirks &= ~HIDPP_QUIRK_NO_HIDINPUT;
1536 }
1537
1538 if (hidpp->quirks & HIDPP_QUIRK_CLASS_WTP) {
1539 ret = wtp_allocate(hdev, id);
1540 if (ret)
1541 goto allocate_fail;
1542 } else if (hidpp->quirks & HIDPP_QUIRK_CLASS_M560) {
1543 ret = m560_allocate(hdev);
1544 if (ret)
1545 goto allocate_fail;
1546 } else if (hidpp->quirks & HIDPP_QUIRK_CLASS_K400) {
1547 ret = k400_allocate(hdev);
1548 if (ret)
1549 goto allocate_fail;
1550 }
1551
1552 INIT_WORK(&hidpp->work, delayed_work_cb);
1553 mutex_init(&hidpp->send_mutex);
1554 init_waitqueue_head(&hidpp->wait);
1555
1556 ret = hid_parse(hdev);
1557 if (ret) {
1558 hid_err(hdev, "%s:parse failed\n", __func__);
1559 goto hid_parse_fail;
1560 }
1561
1562 /* Allow incoming packets */
1563 hid_device_io_start(hdev);
1564
1565 connected = hidpp_is_connected(hidpp);
1566 if (id->group != HID_GROUP_LOGITECH_DJ_DEVICE) {
1567 if (!connected) {
1568 ret = -ENODEV;
1569 hid_err(hdev, "Device not connected");
1570 hid_device_io_stop(hdev);
1571 goto hid_parse_fail;
1572 }
1573
1574 hid_info(hdev, "HID++ %u.%u device connected.\n",
1575 hidpp->protocol_major, hidpp->protocol_minor);
1576 }
1577
1578 hidpp_overwrite_name(hdev, id->group == HID_GROUP_LOGITECH_DJ_DEVICE);
1579 atomic_set(&hidpp->connected, connected);
1580
1581 if (connected && (hidpp->quirks & HIDPP_QUIRK_CLASS_WTP)) {
1582 ret = wtp_get_config(hidpp);
1583 if (ret)
1584 goto hid_parse_fail;
1585 }
1586
1587 /* Block incoming packets */
1588 hid_device_io_stop(hdev);
1589
1590 if (hidpp->quirks & HIDPP_QUIRK_NO_HIDINPUT)
1591 connect_mask &= ~HID_CONNECT_HIDINPUT;
1592
1593 ret = hid_hw_start(hdev, connect_mask);
1594 if (ret) {
1595 hid_err(hdev, "%s:hid_hw_start returned error\n", __func__);
1596 goto hid_hw_start_fail;
1597 }
1598
1599 if (hidpp->quirks & HIDPP_QUIRK_CONNECT_EVENTS) {
1600 /* Allow incoming packets */
1601 hid_device_io_start(hdev);
1602
1603 hidpp_connect_event(hidpp);
1604 }
1605
1606 return ret;
1607
1608 hid_hw_start_fail:
1609 hid_parse_fail:
1610 cancel_work_sync(&hidpp->work);
1611 mutex_destroy(&hidpp->send_mutex);
1612 allocate_fail:
1613 hid_set_drvdata(hdev, NULL);
1614 return ret;
1615 }
1616
1617 static void hidpp_remove(struct hid_device *hdev)
1618 {
1619 struct hidpp_device *hidpp = hid_get_drvdata(hdev);
1620
1621 cancel_work_sync(&hidpp->work);
1622 mutex_destroy(&hidpp->send_mutex);
1623 hid_hw_stop(hdev);
1624 }
1625
1626 static const struct hid_device_id hidpp_devices[] = {
1627 { /* wireless touchpad */
1628 HID_DEVICE(BUS_USB, HID_GROUP_LOGITECH_DJ_DEVICE,
1629 USB_VENDOR_ID_LOGITECH, 0x4011),
1630 .driver_data = HIDPP_QUIRK_CLASS_WTP | HIDPP_QUIRK_DELAYED_INIT |
1631 HIDPP_QUIRK_WTP_PHYSICAL_BUTTONS },
1632 { /* wireless touchpad T650 */
1633 HID_DEVICE(BUS_USB, HID_GROUP_LOGITECH_DJ_DEVICE,
1634 USB_VENDOR_ID_LOGITECH, 0x4101),
1635 .driver_data = HIDPP_QUIRK_CLASS_WTP | HIDPP_QUIRK_DELAYED_INIT },
1636 { /* wireless touchpad T651 */
1637 HID_BLUETOOTH_DEVICE(USB_VENDOR_ID_LOGITECH,
1638 USB_DEVICE_ID_LOGITECH_T651),
1639 .driver_data = HIDPP_QUIRK_CLASS_WTP },
1640 { /* Mouse logitech M560 */
1641 HID_DEVICE(BUS_USB, HID_GROUP_LOGITECH_DJ_DEVICE,
1642 USB_VENDOR_ID_LOGITECH, 0x402d),
1643 .driver_data = HIDPP_QUIRK_DELAYED_INIT | HIDPP_QUIRK_CLASS_M560 },
1644 { /* Keyboard logitech K400 */
1645 HID_DEVICE(BUS_USB, HID_GROUP_LOGITECH_DJ_DEVICE,
1646 USB_VENDOR_ID_LOGITECH, 0x4024),
1647 .driver_data = HIDPP_QUIRK_CONNECT_EVENTS | HIDPP_QUIRK_CLASS_K400 },
1648
1649 { HID_DEVICE(BUS_USB, HID_GROUP_LOGITECH_DJ_DEVICE,
1650 USB_VENDOR_ID_LOGITECH, HID_ANY_ID)},
1651 {}
1652 };
1653
1654 MODULE_DEVICE_TABLE(hid, hidpp_devices);
1655
1656 static struct hid_driver hidpp_driver = {
1657 .name = "logitech-hidpp-device",
1658 .id_table = hidpp_devices,
1659 .probe = hidpp_probe,
1660 .remove = hidpp_remove,
1661 .raw_event = hidpp_raw_event,
1662 .input_configured = hidpp_input_configured,
1663 .input_mapping = hidpp_input_mapping,
1664 };
1665
1666 module_hid_driver(hidpp_driver);
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