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|
/*
* HID driver for Logitech Unifying receivers
*
* Copyright (c) 2011 Logitech
*/
/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*/
#include <linux/device.h>
#include <linux/hid.h>
#include <linux/module.h>
#include <linux/kfifo.h>
#include <linux/delay.h>
#include <linux/usb.h> /* For to_usb_interface for kvm extra intf check */
#include <asm/unaligned.h>
#include "hid-ids.h"
#define DJ_MAX_PAIRED_DEVICES 6
#define DJ_MAX_NUMBER_NOTIFS 8
#define DJ_RECEIVER_INDEX 0
#define DJ_DEVICE_INDEX_MIN 1
#define DJ_DEVICE_INDEX_MAX 6
#define DJREPORT_SHORT_LENGTH 15
#define DJREPORT_LONG_LENGTH 32
#define REPORT_ID_DJ_SHORT 0x20
#define REPORT_ID_DJ_LONG 0x21
#define REPORT_ID_HIDPP_SHORT 0x10
#define REPORT_ID_HIDPP_LONG 0x11
#define HIDPP_REPORT_SHORT_LENGTH 7
#define HIDPP_REPORT_LONG_LENGTH 20
#define HIDPP_RECEIVER_INDEX 0xff
#define REPORT_TYPE_RFREPORT_FIRST 0x01
#define REPORT_TYPE_RFREPORT_LAST 0x1F
/* Command Switch to DJ mode */
#define REPORT_TYPE_CMD_SWITCH 0x80
#define CMD_SWITCH_PARAM_DEVBITFIELD 0x00
#define CMD_SWITCH_PARAM_TIMEOUT_SECONDS 0x01
#define TIMEOUT_NO_KEEPALIVE 0x00
/* Command to Get the list of Paired devices */
#define REPORT_TYPE_CMD_GET_PAIRED_DEVICES 0x81
/* Device Paired Notification */
#define REPORT_TYPE_NOTIF_DEVICE_PAIRED 0x41
#define SPFUNCTION_MORE_NOTIF_EXPECTED 0x01
#define SPFUNCTION_DEVICE_LIST_EMPTY 0x02
#define DEVICE_PAIRED_PARAM_SPFUNCTION 0x00
#define DEVICE_PAIRED_PARAM_EQUAD_ID_LSB 0x01
#define DEVICE_PAIRED_PARAM_EQUAD_ID_MSB 0x02
#define DEVICE_PAIRED_RF_REPORT_TYPE 0x03
/* Device Un-Paired Notification */
#define REPORT_TYPE_NOTIF_DEVICE_UNPAIRED 0x40
/* Connection Status Notification */
#define REPORT_TYPE_NOTIF_CONNECTION_STATUS 0x42
#define CONNECTION_STATUS_PARAM_STATUS 0x00
#define STATUS_LINKLOSS 0x01
/* Error Notification */
#define REPORT_TYPE_NOTIF_ERROR 0x7F
#define NOTIF_ERROR_PARAM_ETYPE 0x00
#define ETYPE_KEEPALIVE_TIMEOUT 0x01
/* supported DJ HID && RF report types */
#define REPORT_TYPE_KEYBOARD 0x01
#define REPORT_TYPE_MOUSE 0x02
#define REPORT_TYPE_CONSUMER_CONTROL 0x03
#define REPORT_TYPE_SYSTEM_CONTROL 0x04
#define REPORT_TYPE_MEDIA_CENTER 0x08
#define REPORT_TYPE_LEDS 0x0E
/* RF Report types bitfield */
#define STD_KEYBOARD BIT(1)
#define STD_MOUSE BIT(2)
#define MULTIMEDIA BIT(3)
#define POWER_KEYS BIT(4)
#define MEDIA_CENTER BIT(8)
#define KBD_LEDS BIT(14)
/* Fake (bitnr > NUMBER_OF_HID_REPORTS) bit to track HID++ capability */
#define HIDPP BIT_ULL(63)
/* HID++ Device Connected Notification */
#define REPORT_TYPE_NOTIF_DEVICE_CONNECTED 0x41
#define HIDPP_PARAM_PROTO_TYPE 0x00
#define HIDPP_PARAM_DEVICE_INFO 0x01
#define HIDPP_PARAM_EQUAD_LSB 0x02
#define HIDPP_PARAM_EQUAD_MSB 0x03
#define HIDPP_PARAM_27MHZ_DEVID 0x03
#define HIDPP_DEVICE_TYPE_MASK GENMASK(3, 0)
#define HIDPP_LINK_STATUS_MASK BIT(6)
#define HIDPP_DEVICE_TYPE_KEYBOARD 1
#define HIDPP_DEVICE_TYPE_MOUSE 2
#define HIDPP_SET_REGISTER 0x80
#define HIDPP_GET_LONG_REGISTER 0x83
#define HIDPP_REG_CONNECTION_STATE 0x02
#define HIDPP_REG_PAIRING_INFORMATION 0xB5
#define HIDPP_PAIRING_INFORMATION 0x20
#define HIDPP_FAKE_DEVICE_ARRIVAL 0x02
enum recvr_type {
recvr_type_dj,
recvr_type_hidpp,
recvr_type_gaming_hidpp,
recvr_type_27mhz,
};
struct dj_report {
u8 report_id;
u8 device_index;
u8 report_type;
u8 report_params[DJREPORT_SHORT_LENGTH - 3];
};
struct hidpp_event {
u8 report_id;
u8 device_index;
u8 sub_id;
u8 params[HIDPP_REPORT_LONG_LENGTH - 3U];
} __packed;
struct dj_receiver_dev {
struct hid_device *mouse;
struct hid_device *keyboard;
struct hid_device *hidpp;
struct dj_device *paired_dj_devices[DJ_MAX_PAIRED_DEVICES +
DJ_DEVICE_INDEX_MIN];
struct list_head list;
struct kref kref;
struct work_struct work;
struct kfifo notif_fifo;
unsigned long last_query; /* in jiffies */
bool ready;
enum recvr_type type;
unsigned int unnumbered_application;
spinlock_t lock;
};
struct dj_device {
struct hid_device *hdev;
struct dj_receiver_dev *dj_receiver_dev;
u64 reports_supported;
u8 device_index;
};
#define WORKITEM_TYPE_EMPTY 0
#define WORKITEM_TYPE_PAIRED 1
#define WORKITEM_TYPE_UNPAIRED 2
#define WORKITEM_TYPE_UNKNOWN 255
struct dj_workitem {
u8 type; /* WORKITEM_TYPE_* */
u8 device_index;
u8 device_type;
u8 quad_id_msb;
u8 quad_id_lsb;
u64 reports_supported;
};
/* Keyboard descriptor (1) */
static const char kbd_descriptor[] = {
0x05, 0x01, /* USAGE_PAGE (generic Desktop) */
0x09, 0x06, /* USAGE (Keyboard) */
0xA1, 0x01, /* COLLECTION (Application) */
0x85, 0x01, /* REPORT_ID (1) */
0x95, 0x08, /* REPORT_COUNT (8) */
0x75, 0x01, /* REPORT_SIZE (1) */
0x15, 0x00, /* LOGICAL_MINIMUM (0) */
0x25, 0x01, /* LOGICAL_MAXIMUM (1) */
0x05, 0x07, /* USAGE_PAGE (Keyboard) */
0x19, 0xE0, /* USAGE_MINIMUM (Left Control) */
0x29, 0xE7, /* USAGE_MAXIMUM (Right GUI) */
0x81, 0x02, /* INPUT (Data,Var,Abs) */
0x95, 0x06, /* REPORT_COUNT (6) */
0x75, 0x08, /* REPORT_SIZE (8) */
0x15, 0x00, /* LOGICAL_MINIMUM (0) */
0x26, 0xFF, 0x00, /* LOGICAL_MAXIMUM (255) */
0x05, 0x07, /* USAGE_PAGE (Keyboard) */
0x19, 0x00, /* USAGE_MINIMUM (no event) */
0x2A, 0xFF, 0x00, /* USAGE_MAXIMUM (reserved) */
0x81, 0x00, /* INPUT (Data,Ary,Abs) */
0x85, 0x0e, /* REPORT_ID (14) */
0x05, 0x08, /* USAGE PAGE (LED page) */
0x95, 0x05, /* REPORT COUNT (5) */
0x75, 0x01, /* REPORT SIZE (1) */
0x15, 0x00, /* LOGICAL_MINIMUM (0) */
0x25, 0x01, /* LOGICAL_MAXIMUM (1) */
0x19, 0x01, /* USAGE MINIMUM (1) */
0x29, 0x05, /* USAGE MAXIMUM (5) */
0x91, 0x02, /* OUTPUT (Data, Variable, Absolute) */
0x95, 0x01, /* REPORT COUNT (1) */
0x75, 0x03, /* REPORT SIZE (3) */
0x91, 0x01, /* OUTPUT (Constant) */
0xC0
};
/* Mouse descriptor (2) */
static const char mse_descriptor[] = {
0x05, 0x01, /* USAGE_PAGE (Generic Desktop) */
0x09, 0x02, /* USAGE (Mouse) */
0xA1, 0x01, /* COLLECTION (Application) */
0x85, 0x02, /* REPORT_ID = 2 */
0x09, 0x01, /* USAGE (pointer) */
0xA1, 0x00, /* COLLECTION (physical) */
0x05, 0x09, /* USAGE_PAGE (buttons) */
0x19, 0x01, /* USAGE_MIN (1) */
0x29, 0x10, /* USAGE_MAX (16) */
0x15, 0x00, /* LOGICAL_MIN (0) */
0x25, 0x01, /* LOGICAL_MAX (1) */
0x95, 0x10, /* REPORT_COUNT (16) */
0x75, 0x01, /* REPORT_SIZE (1) */
0x81, 0x02, /* INPUT (data var abs) */
0x05, 0x01, /* USAGE_PAGE (generic desktop) */
0x16, 0x01, 0xF8, /* LOGICAL_MIN (-2047) */
0x26, 0xFF, 0x07, /* LOGICAL_MAX (2047) */
0x75, 0x0C, /* REPORT_SIZE (12) */
0x95, 0x02, /* REPORT_COUNT (2) */
0x09, 0x30, /* USAGE (X) */
0x09, 0x31, /* USAGE (Y) */
0x81, 0x06, /* INPUT */
0x15, 0x81, /* LOGICAL_MIN (-127) */
0x25, 0x7F, /* LOGICAL_MAX (127) */
0x75, 0x08, /* REPORT_SIZE (8) */
0x95, 0x01, /* REPORT_COUNT (1) */
0x09, 0x38, /* USAGE (wheel) */
0x81, 0x06, /* INPUT */
0x05, 0x0C, /* USAGE_PAGE(consumer) */
0x0A, 0x38, 0x02, /* USAGE(AC Pan) */
0x95, 0x01, /* REPORT_COUNT (1) */
0x81, 0x06, /* INPUT */
0xC0, /* END_COLLECTION */
0xC0, /* END_COLLECTION */
};
/* Mouse descriptor (2) for 27 MHz receiver, only 8 buttons */
static const char mse_27mhz_descriptor[] = {
0x05, 0x01, /* USAGE_PAGE (Generic Desktop) */
0x09, 0x02, /* USAGE (Mouse) */
0xA1, 0x01, /* COLLECTION (Application) */
0x85, 0x02, /* REPORT_ID = 2 */
0x09, 0x01, /* USAGE (pointer) */
0xA1, 0x00, /* COLLECTION (physical) */
0x05, 0x09, /* USAGE_PAGE (buttons) */
0x19, 0x01, /* USAGE_MIN (1) */
0x29, 0x08, /* USAGE_MAX (8) */
0x15, 0x00, /* LOGICAL_MIN (0) */
0x25, 0x01, /* LOGICAL_MAX (1) */
0x95, 0x08, /* REPORT_COUNT (8) */
0x75, 0x01, /* REPORT_SIZE (1) */
0x81, 0x02, /* INPUT (data var abs) */
0x05, 0x01, /* USAGE_PAGE (generic desktop) */
0x16, 0x01, 0xF8, /* LOGICAL_MIN (-2047) */
0x26, 0xFF, 0x07, /* LOGICAL_MAX (2047) */
0x75, 0x0C, /* REPORT_SIZE (12) */
0x95, 0x02, /* REPORT_COUNT (2) */
0x09, 0x30, /* USAGE (X) */
0x09, 0x31, /* USAGE (Y) */
0x81, 0x06, /* INPUT */
0x15, 0x81, /* LOGICAL_MIN (-127) */
0x25, 0x7F, /* LOGICAL_MAX (127) */
0x75, 0x08, /* REPORT_SIZE (8) */
0x95, 0x01, /* REPORT_COUNT (1) */
0x09, 0x38, /* USAGE (wheel) */
0x81, 0x06, /* INPUT */
0x05, 0x0C, /* USAGE_PAGE(consumer) */
0x0A, 0x38, 0x02, /* USAGE(AC Pan) */
0x95, 0x01, /* REPORT_COUNT (1) */
0x81, 0x06, /* INPUT */
0xC0, /* END_COLLECTION */
0xC0, /* END_COLLECTION */
};
/* Gaming Mouse descriptor (2) */
static const char mse_high_res_descriptor[] = {
0x05, 0x01, /* USAGE_PAGE (Generic Desktop) */
0x09, 0x02, /* USAGE (Mouse) */
0xA1, 0x01, /* COLLECTION (Application) */
0x85, 0x02, /* REPORT_ID = 2 */
0x09, 0x01, /* USAGE (pointer) */
0xA1, 0x00, /* COLLECTION (physical) */
0x05, 0x09, /* USAGE_PAGE (buttons) */
0x19, 0x01, /* USAGE_MIN (1) */
0x29, 0x10, /* USAGE_MAX (16) */
0x15, 0x00, /* LOGICAL_MIN (0) */
0x25, 0x01, /* LOGICAL_MAX (1) */
0x95, 0x10, /* REPORT_COUNT (16) */
0x75, 0x01, /* REPORT_SIZE (1) */
0x81, 0x02, /* INPUT (data var abs) */
0x05, 0x01, /* USAGE_PAGE (generic desktop) */
0x16, 0x01, 0x80, /* LOGICAL_MIN (-32767) */
0x26, 0xFF, 0x7F, /* LOGICAL_MAX (32767) */
0x75, 0x10, /* REPORT_SIZE (16) */
0x95, 0x02, /* REPORT_COUNT (2) */
0x09, 0x30, /* USAGE (X) */
0x09, 0x31, /* USAGE (Y) */
0x81, 0x06, /* INPUT */
0x15, 0x81, /* LOGICAL_MIN (-127) */
0x25, 0x7F, /* LOGICAL_MAX (127) */
0x75, 0x08, /* REPORT_SIZE (8) */
0x95, 0x01, /* REPORT_COUNT (1) */
0x09, 0x38, /* USAGE (wheel) */
0x81, 0x06, /* INPUT */
0x05, 0x0C, /* USAGE_PAGE(consumer) */
0x0A, 0x38, 0x02, /* USAGE(AC Pan) */
0x95, 0x01, /* REPORT_COUNT (1) */
0x81, 0x06, /* INPUT */
0xC0, /* END_COLLECTION */
0xC0, /* END_COLLECTION */
};
/* Consumer Control descriptor (3) */
static const char consumer_descriptor[] = {
0x05, 0x0C, /* USAGE_PAGE (Consumer Devices) */
0x09, 0x01, /* USAGE (Consumer Control) */
0xA1, 0x01, /* COLLECTION (Application) */
0x85, 0x03, /* REPORT_ID = 3 */
0x75, 0x10, /* REPORT_SIZE (16) */
0x95, 0x02, /* REPORT_COUNT (2) */
0x15, 0x01, /* LOGICAL_MIN (1) */
0x26, 0x8C, 0x02, /* LOGICAL_MAX (652) */
0x19, 0x01, /* USAGE_MIN (1) */
0x2A, 0x8C, 0x02, /* USAGE_MAX (652) */
0x81, 0x00, /* INPUT (Data Ary Abs) */
0xC0, /* END_COLLECTION */
}; /* */
/* System control descriptor (4) */
static const char syscontrol_descriptor[] = {
0x05, 0x01, /* USAGE_PAGE (Generic Desktop) */
0x09, 0x80, /* USAGE (System Control) */
0xA1, 0x01, /* COLLECTION (Application) */
0x85, 0x04, /* REPORT_ID = 4 */
0x75, 0x02, /* REPORT_SIZE (2) */
0x95, 0x01, /* REPORT_COUNT (1) */
0x15, 0x01, /* LOGICAL_MIN (1) */
0x25, 0x03, /* LOGICAL_MAX (3) */
0x09, 0x82, /* USAGE (System Sleep) */
0x09, 0x81, /* USAGE (System Power Down) */
0x09, 0x83, /* USAGE (System Wake Up) */
0x81, 0x60, /* INPUT (Data Ary Abs NPrf Null) */
0x75, 0x06, /* REPORT_SIZE (6) */
0x81, 0x03, /* INPUT (Cnst Var Abs) */
0xC0, /* END_COLLECTION */
};
/* Media descriptor (8) */
static const char media_descriptor[] = {
0x06, 0xbc, 0xff, /* Usage Page 0xffbc */
0x09, 0x88, /* Usage 0x0088 */
0xa1, 0x01, /* BeginCollection */
0x85, 0x08, /* Report ID 8 */
0x19, 0x01, /* Usage Min 0x0001 */
0x29, 0xff, /* Usage Max 0x00ff */
0x15, 0x01, /* Logical Min 1 */
0x26, 0xff, 0x00, /* Logical Max 255 */
0x75, 0x08, /* Report Size 8 */
0x95, 0x01, /* Report Count 1 */
0x81, 0x00, /* Input */
0xc0, /* EndCollection */
}; /* */
/* HIDPP descriptor */
static const char hidpp_descriptor[] = {
0x06, 0x00, 0xff, /* Usage Page (Vendor Defined Page 1) */
0x09, 0x01, /* Usage (Vendor Usage 1) */
0xa1, 0x01, /* Collection (Application) */
0x85, 0x10, /* Report ID (16) */
0x75, 0x08, /* Report Size (8) */
0x95, 0x06, /* Report Count (6) */
0x15, 0x00, /* Logical Minimum (0) */
0x26, 0xff, 0x00, /* Logical Maximum (255) */
0x09, 0x01, /* Usage (Vendor Usage 1) */
0x81, 0x00, /* Input (Data,Arr,Abs) */
0x09, 0x01, /* Usage (Vendor Usage 1) */
0x91, 0x00, /* Output (Data,Arr,Abs) */
0xc0, /* End Collection */
0x06, 0x00, 0xff, /* Usage Page (Vendor Defined Page 1) */
0x09, 0x02, /* Usage (Vendor Usage 2) */
0xa1, 0x01, /* Collection (Application) */
0x85, 0x11, /* Report ID (17) */
0x75, 0x08, /* Report Size (8) */
0x95, 0x13, /* Report Count (19) */
0x15, 0x00, /* Logical Minimum (0) */
0x26, 0xff, 0x00, /* Logical Maximum (255) */
0x09, 0x02, /* Usage (Vendor Usage 2) */
0x81, 0x00, /* Input (Data,Arr,Abs) */
0x09, 0x02, /* Usage (Vendor Usage 2) */
0x91, 0x00, /* Output (Data,Arr,Abs) */
0xc0, /* End Collection */
0x06, 0x00, 0xff, /* Usage Page (Vendor Defined Page 1) */
0x09, 0x04, /* Usage (Vendor Usage 0x04) */
0xa1, 0x01, /* Collection (Application) */
0x85, 0x20, /* Report ID (32) */
0x75, 0x08, /* Report Size (8) */
0x95, 0x0e, /* Report Count (14) */
0x15, 0x00, /* Logical Minimum (0) */
0x26, 0xff, 0x00, /* Logical Maximum (255) */
0x09, 0x41, /* Usage (Vendor Usage 0x41) */
0x81, 0x00, /* Input (Data,Arr,Abs) */
0x09, 0x41, /* Usage (Vendor Usage 0x41) */
0x91, 0x00, /* Output (Data,Arr,Abs) */
0x85, 0x21, /* Report ID (33) */
0x95, 0x1f, /* Report Count (31) */
0x15, 0x00, /* Logical Minimum (0) */
0x26, 0xff, 0x00, /* Logical Maximum (255) */
0x09, 0x42, /* Usage (Vendor Usage 0x42) */
0x81, 0x00, /* Input (Data,Arr,Abs) */
0x09, 0x42, /* Usage (Vendor Usage 0x42) */
0x91, 0x00, /* Output (Data,Arr,Abs) */
0xc0, /* End Collection */
};
/* Maximum size of all defined hid reports in bytes (including report id) */
#define MAX_REPORT_SIZE 8
/* Make sure all descriptors are present here */
#define MAX_RDESC_SIZE \
(sizeof(kbd_descriptor) + \
sizeof(mse_descriptor) + \
sizeof(consumer_descriptor) + \
sizeof(syscontrol_descriptor) + \
sizeof(media_descriptor) + \
sizeof(hidpp_descriptor))
/* Number of possible hid report types that can be created by this driver.
*
* Right now, RF report types have the same report types (or report id's)
* than the hid report created from those RF reports. In the future
* this doesnt have to be true.
*
* For instance, RF report type 0x01 which has a size of 8 bytes, corresponds
* to hid report id 0x01, this is standard keyboard. Same thing applies to mice
* reports and consumer control, etc. If a new RF report is created, it doesn't
* has to have the same report id as its corresponding hid report, so an
* translation may have to take place for future report types.
*/
#define NUMBER_OF_HID_REPORTS 32
static const u8 hid_reportid_size_map[NUMBER_OF_HID_REPORTS] = {
[1] = 8, /* Standard keyboard */
[2] = 8, /* Standard mouse */
[3] = 5, /* Consumer control */
[4] = 2, /* System control */
[8] = 2, /* Media Center */
};
#define LOGITECH_DJ_INTERFACE_NUMBER 0x02
static struct hid_ll_driver logi_dj_ll_driver;
static int logi_dj_recv_query_paired_devices(struct dj_receiver_dev *djrcv_dev);
static void delayedwork_callback(struct work_struct *work);
static LIST_HEAD(dj_hdev_list);
static DEFINE_MUTEX(dj_hdev_list_lock);
/*
* dj/HID++ receivers are really a single logical entity, but for BIOS/Windows
* compatibility they have multiple USB interfaces. On HID++ receivers we need
* to listen for input reports on both interfaces. The functions below are used
* to create a single struct dj_receiver_dev for all interfaces belonging to
* a single USB-device / receiver.
*/
static struct dj_receiver_dev *dj_find_receiver_dev(struct hid_device *hdev)
{
struct dj_receiver_dev *djrcv_dev;
/* Try to find an already-probed interface from the same device */
list_for_each_entry(djrcv_dev, &dj_hdev_list, list) {
if (djrcv_dev->mouse &&
hid_compare_device_paths(hdev, djrcv_dev->mouse, '/')) {
kref_get(&djrcv_dev->kref);
return djrcv_dev;
}
if (djrcv_dev->keyboard &&
hid_compare_device_paths(hdev, djrcv_dev->keyboard, '/')) {
kref_get(&djrcv_dev->kref);
return djrcv_dev;
}
if (djrcv_dev->hidpp &&
hid_compare_device_paths(hdev, djrcv_dev->hidpp, '/')) {
kref_get(&djrcv_dev->kref);
return djrcv_dev;
}
}
return NULL;
}
static void dj_release_receiver_dev(struct kref *kref)
{
struct dj_receiver_dev *djrcv_dev = container_of(kref, struct dj_receiver_dev, kref);
list_del(&djrcv_dev->list);
kfifo_free(&djrcv_dev->notif_fifo);
kfree(djrcv_dev);
}
static void dj_put_receiver_dev(struct hid_device *hdev)
{
struct dj_receiver_dev *djrcv_dev = hid_get_drvdata(hdev);
mutex_lock(&dj_hdev_list_lock);
if (djrcv_dev->mouse == hdev)
djrcv_dev->mouse = NULL;
if (djrcv_dev->keyboard == hdev)
djrcv_dev->keyboard = NULL;
if (djrcv_dev->hidpp == hdev)
djrcv_dev->hidpp = NULL;
kref_put(&djrcv_dev->kref, dj_release_receiver_dev);
mutex_unlock(&dj_hdev_list_lock);
}
static struct dj_receiver_dev *dj_get_receiver_dev(struct hid_device *hdev,
enum recvr_type type,
unsigned int application,
bool is_hidpp)
{
struct dj_receiver_dev *djrcv_dev;
mutex_lock(&dj_hdev_list_lock);
djrcv_dev = dj_find_receiver_dev(hdev);
if (!djrcv_dev) {
djrcv_dev = kzalloc(sizeof(*djrcv_dev), GFP_KERNEL);
if (!djrcv_dev)
goto out;
INIT_WORK(&djrcv_dev->work, delayedwork_callback);
spin_lock_init(&djrcv_dev->lock);
if (kfifo_alloc(&djrcv_dev->notif_fifo,
DJ_MAX_NUMBER_NOTIFS * sizeof(struct dj_workitem),
GFP_KERNEL)) {
kfree(djrcv_dev);
djrcv_dev = NULL;
goto out;
}
kref_init(&djrcv_dev->kref);
list_add_tail(&djrcv_dev->list, &dj_hdev_list);
djrcv_dev->last_query = jiffies;
djrcv_dev->type = type;
}
if (application == HID_GD_KEYBOARD)
djrcv_dev->keyboard = hdev;
if (application == HID_GD_MOUSE)
djrcv_dev->mouse = hdev;
if (is_hidpp)
djrcv_dev->hidpp = hdev;
hid_set_drvdata(hdev, djrcv_dev);
out:
mutex_unlock(&dj_hdev_list_lock);
return djrcv_dev;
}
static void logi_dj_recv_destroy_djhid_device(struct dj_receiver_dev *djrcv_dev,
struct dj_workitem *workitem)
{
/* Called in delayed work context */
struct dj_device *dj_dev;
unsigned long flags;
spin_lock_irqsave(&djrcv_dev->lock, flags);
dj_dev = djrcv_dev->paired_dj_devices[workitem->device_index];
djrcv_dev->paired_dj_devices[workitem->device_index] = NULL;
spin_unlock_irqrestore(&djrcv_dev->lock, flags);
if (dj_dev != NULL) {
hid_destroy_device(dj_dev->hdev);
kfree(dj_dev);
} else {
hid_err(djrcv_dev->hidpp, "%s: can't destroy a NULL device\n",
__func__);
}
}
static void logi_dj_recv_add_djhid_device(struct dj_receiver_dev *djrcv_dev,
struct dj_workitem *workitem)
{
/* Called in delayed work context */
struct hid_device *djrcv_hdev = djrcv_dev->hidpp;
struct hid_device *dj_hiddev;
struct dj_device *dj_dev;
u8 device_index = workitem->device_index;
unsigned long flags;
/* Device index goes from 1 to 6, we need 3 bytes to store the
* semicolon, the index, and a null terminator
*/
unsigned char tmpstr[3];
/* We are the only one ever adding a device, no need to lock */
if (djrcv_dev->paired_dj_devices[device_index]) {
/* The device is already known. No need to reallocate it. */
dbg_hid("%s: device is already known\n", __func__);
return;
}
dj_hiddev = hid_allocate_device();
if (IS_ERR(dj_hiddev)) {
hid_err(djrcv_hdev, "%s: hid_allocate_dev failed\n", __func__);
return;
}
dj_hiddev->ll_driver = &logi_dj_ll_driver;
dj_hiddev->dev.parent = &djrcv_hdev->dev;
dj_hiddev->bus = BUS_USB;
dj_hiddev->vendor = djrcv_hdev->vendor;
dj_hiddev->product = (workitem->quad_id_msb << 8) |
workitem->quad_id_lsb;
if (workitem->device_type) {
const char *type_str = "Device";
switch (workitem->device_type) {
case 0x01: type_str = "Keyboard"; break;
case 0x02: type_str = "Mouse"; break;
case 0x03: type_str = "Numpad"; break;
case 0x04: type_str = "Presenter"; break;
case 0x07: type_str = "Remote Control"; break;
case 0x08: type_str = "Trackball"; break;
case 0x09: type_str = "Touchpad"; break;
}
snprintf(dj_hiddev->name, sizeof(dj_hiddev->name),
"Logitech Wireless %s PID:%04x",
type_str, dj_hiddev->product);
} else {
snprintf(dj_hiddev->name, sizeof(dj_hiddev->name),
"Logitech Unifying Device. Wireless PID:%04x",
dj_hiddev->product);
}
if (djrcv_dev->type == recvr_type_27mhz)
dj_hiddev->group = HID_GROUP_LOGITECH_27MHZ_DEVICE;
else
dj_hiddev->group = HID_GROUP_LOGITECH_DJ_DEVICE;
memcpy(dj_hiddev->phys, djrcv_hdev->phys, sizeof(djrcv_hdev->phys));
snprintf(tmpstr, sizeof(tmpstr), ":%d", device_index);
strlcat(dj_hiddev->phys, tmpstr, sizeof(dj_hiddev->phys));
dj_dev = kzalloc(sizeof(struct dj_device), GFP_KERNEL);
if (!dj_dev) {
hid_err(djrcv_hdev, "%s: failed allocating dj_dev\n", __func__);
goto dj_device_allocate_fail;
}
dj_dev->reports_supported = workitem->reports_supported;
dj_dev->hdev = dj_hiddev;
dj_dev->dj_receiver_dev = djrcv_dev;
dj_dev->device_index = device_index;
dj_hiddev->driver_data = dj_dev;
spin_lock_irqsave(&djrcv_dev->lock, flags);
djrcv_dev->paired_dj_devices[device_index] = dj_dev;
spin_unlock_irqrestore(&djrcv_dev->lock, flags);
if (hid_add_device(dj_hiddev)) {
hid_err(djrcv_hdev, "%s: failed adding dj_device\n", __func__);
goto hid_add_device_fail;
}
return;
hid_add_device_fail:
spin_lock_irqsave(&djrcv_dev->lock, flags);
djrcv_dev->paired_dj_devices[device_index] = NULL;
spin_unlock_irqrestore(&djrcv_dev->lock, flags);
kfree(dj_dev);
dj_device_allocate_fail:
hid_destroy_device(dj_hiddev);
}
static void delayedwork_callback(struct work_struct *work)
{
struct dj_receiver_dev *djrcv_dev =
container_of(work, struct dj_receiver_dev, work);
struct dj_workitem workitem;
unsigned long flags;
int count;
int retval;
dbg_hid("%s\n", __func__);
spin_lock_irqsave(&djrcv_dev->lock, flags);
/*
* Since we attach to multiple interfaces, we may get scheduled before
* we are bound to the HID++ interface, catch this.
*/
if (!djrcv_dev->ready) {
pr_warn("%s: delayedwork queued before hidpp interface was enumerated\n",
__func__);
spin_unlock_irqrestore(&djrcv_dev->lock, flags);
return;
}
count = kfifo_out(&djrcv_dev->notif_fifo, &workitem, sizeof(workitem));
if (count != sizeof(workitem)) {
spin_unlock_irqrestore(&djrcv_dev->lock, flags);
return;
}
if (!kfifo_is_empty(&djrcv_dev->notif_fifo))
schedule_work(&djrcv_dev->work);
spin_unlock_irqrestore(&djrcv_dev->lock, flags);
switch (workitem.type) {
case WORKITEM_TYPE_PAIRED:
logi_dj_recv_add_djhid_device(djrcv_dev, &workitem);
break;
case WORKITEM_TYPE_UNPAIRED:
logi_dj_recv_destroy_djhid_device(djrcv_dev, &workitem);
break;
case WORKITEM_TYPE_UNKNOWN:
retval = logi_dj_recv_query_paired_devices(djrcv_dev);
if (retval) {
hid_err(djrcv_dev->hidpp, "%s: logi_dj_recv_query_paired_devices error: %d\n",
__func__, retval);
}
break;
case WORKITEM_TYPE_EMPTY:
dbg_hid("%s: device list is empty\n", __func__);
break;
}
}
/*
* Sometimes we receive reports for which we do not have a paired dj_device
* associated with the device_index or report-type to forward the report to.
* This means that the original "device paired" notification corresponding
* to the dj_device never arrived to this driver. Possible reasons for this are:
* 1) hid-core discards all packets coming from a device during probe().
* 2) if the receiver is plugged into a KVM switch then the pairing reports
* are only forwarded to it if the focus is on this PC.
* This function deals with this by re-asking the receiver for the list of
* connected devices in the delayed work callback.
* This function MUST be called with djrcv->lock held.
*/
static void logi_dj_recv_queue_unknown_work(struct dj_receiver_dev *djrcv_dev)
{
struct dj_workitem workitem = { .type = WORKITEM_TYPE_UNKNOWN };
/* Rate limit queries done because of unhandeled reports to 2/sec */
if (time_before(jiffies, djrcv_dev->last_query + HZ / 2))
return;
kfifo_in(&djrcv_dev->notif_fifo, &workitem, sizeof(workitem));
schedule_work(&djrcv_dev->work);
}
static void logi_dj_recv_queue_notification(struct dj_receiver_dev *djrcv_dev,
struct dj_report *dj_report)
{
/* We are called from atomic context (tasklet && djrcv->lock held) */
struct dj_workitem workitem = {
.device_index = dj_report->device_index,
};
switch (dj_report->report_type) {
case REPORT_TYPE_NOTIF_DEVICE_PAIRED:
workitem.type = WORKITEM_TYPE_PAIRED;
if (dj_report->report_params[DEVICE_PAIRED_PARAM_SPFUNCTION] &
SPFUNCTION_DEVICE_LIST_EMPTY) {
workitem.type = WORKITEM_TYPE_EMPTY;
break;
}
/* fall-through */
case REPORT_TYPE_NOTIF_DEVICE_UNPAIRED:
workitem.quad_id_msb =
dj_report->report_params[DEVICE_PAIRED_PARAM_EQUAD_ID_MSB];
workitem.quad_id_lsb =
dj_report->report_params[DEVICE_PAIRED_PARAM_EQUAD_ID_LSB];
workitem.reports_supported = get_unaligned_le32(
dj_report->report_params +
DEVICE_PAIRED_RF_REPORT_TYPE);
workitem.reports_supported |= HIDPP;
if (dj_report->report_type == REPORT_TYPE_NOTIF_DEVICE_UNPAIRED)
workitem.type = WORKITEM_TYPE_UNPAIRED;
break;
default:
logi_dj_recv_queue_unknown_work(djrcv_dev);
return;
}
kfifo_in(&djrcv_dev->notif_fifo, &workitem, sizeof(workitem));
schedule_work(&djrcv_dev->work);
}
static void logi_hidpp_dev_conn_notif_equad(struct hidpp_event *hidpp_report,
struct dj_workitem *workitem)
{
workitem->type = WORKITEM_TYPE_PAIRED;
workitem->device_type = hidpp_report->params[HIDPP_PARAM_DEVICE_INFO] &
HIDPP_DEVICE_TYPE_MASK;
workitem->quad_id_msb = hidpp_report->params[HIDPP_PARAM_EQUAD_MSB];
workitem->quad_id_lsb = hidpp_report->params[HIDPP_PARAM_EQUAD_LSB];
switch (workitem->device_type) {
case REPORT_TYPE_KEYBOARD:
workitem->reports_supported |= STD_KEYBOARD | MULTIMEDIA |
POWER_KEYS | MEDIA_CENTER |
HIDPP;
break;
case REPORT_TYPE_MOUSE:
workitem->reports_supported |= STD_MOUSE | HIDPP;
break;
}
}
static void logi_hidpp_dev_conn_notif_27mhz(struct hid_device *hdev,
struct hidpp_event *hidpp_report,
struct dj_workitem *workitem)
{
workitem->type = WORKITEM_TYPE_PAIRED;
workitem->quad_id_lsb = hidpp_report->params[HIDPP_PARAM_27MHZ_DEVID];
switch (hidpp_report->device_index) {
case 1: /* Index 1 is always a mouse */
case 2: /* Index 2 is always a mouse */
workitem->device_type = HIDPP_DEVICE_TYPE_MOUSE;
workitem->reports_supported |= STD_MOUSE | HIDPP;
break;
case 3: /* Index 3 is always the keyboard */
case 4: /* Index 4 is used for an optional separate numpad */
workitem->device_type = HIDPP_DEVICE_TYPE_KEYBOARD;
workitem->reports_supported |= STD_KEYBOARD | MULTIMEDIA |
POWER_KEYS | HIDPP;
break;
default:
hid_warn(hdev, "%s: unexpected device-index %d", __func__,
hidpp_report->device_index);
}
}
static void logi_hidpp_recv_queue_notif(struct hid_device *hdev,
struct hidpp_event *hidpp_report)
{
/* We are called from atomic context (tasklet && djrcv->lock held) */
struct dj_receiver_dev *djrcv_dev = hid_get_drvdata(hdev);
const char *device_type = "UNKNOWN";
struct dj_workitem workitem = {
.type = WORKITEM_TYPE_EMPTY,
.device_index = hidpp_report->device_index,
};
switch (hidpp_report->params[HIDPP_PARAM_PROTO_TYPE]) {
case 0x01:
device_type = "Bluetooth";
break;
case 0x02:
device_type = "27 Mhz";
logi_hidpp_dev_conn_notif_27mhz(hdev, hidpp_report, &workitem);
break;
case 0x03:
device_type = "QUAD or eQUAD";
logi_hidpp_dev_conn_notif_equad(hidpp_report, &workitem);
break;
case 0x04:
device_type = "eQUAD step 4 DJ";
logi_hidpp_dev_conn_notif_equad(hidpp_report, &workitem);
break;
case 0x05:
device_type = "DFU Lite";
break;
case 0x06:
device_type = "eQUAD step 4 Lite";
logi_hidpp_dev_conn_notif_equad(hidpp_report, &workitem);
break;
case 0x07:
device_type = "eQUAD step 4 Gaming";
break;
case 0x08:
device_type = "eQUAD step 4 for gamepads";
break;
case 0x0a:
device_type = "eQUAD nano Lite";
logi_hidpp_dev_conn_notif_equad(hidpp_report, &workitem);
break;
case 0x0c:
device_type = "eQUAD Lightspeed";
logi_hidpp_dev_conn_notif_equad(hidpp_report, &workitem);
workitem.reports_supported |= STD_KEYBOARD;
break;
}
if (workitem.type == WORKITEM_TYPE_EMPTY) {
hid_warn(hdev,
"unusable device of type %s (0x%02x) connected on slot %d",
device_type,
hidpp_report->params[HIDPP_PARAM_PROTO_TYPE],
hidpp_report->device_index);
return;
}
hid_info(hdev, "device of type %s (0x%02x) connected on slot %d",
device_type, hidpp_report->params[HIDPP_PARAM_PROTO_TYPE],
hidpp_report->device_index);
kfifo_in(&djrcv_dev->notif_fifo, &workitem, sizeof(workitem));
schedule_work(&djrcv_dev->work);
}
static void logi_dj_recv_forward_null_report(struct dj_receiver_dev *djrcv_dev,
struct dj_report *dj_report)
{
/* We are called from atomic context (tasklet && djrcv->lock held) */
unsigned int i;
u8 reportbuffer[MAX_REPORT_SIZE];
struct dj_device *djdev;
djdev = djrcv_dev->paired_dj_devices[dj_report->device_index];
memset(reportbuffer, 0, sizeof(reportbuffer));
for (i = 0; i < NUMBER_OF_HID_REPORTS; i++) {
if (djdev->reports_supported & (1 << i)) {
reportbuffer[0] = i;
if (hid_input_report(djdev->hdev,
HID_INPUT_REPORT,
reportbuffer,
hid_reportid_size_map[i], 1)) {
dbg_hid("hid_input_report error sending null "
"report\n");
}
}
}
}
static void logi_dj_recv_forward_dj(struct dj_receiver_dev *djrcv_dev,
struct dj_report *dj_report)
{
/* We are called from atomic context (tasklet && djrcv->lock held) */
struct dj_device *dj_device;
dj_device = djrcv_dev->paired_dj_devices[dj_report->device_index];
if ((dj_report->report_type > ARRAY_SIZE(hid_reportid_size_map) - 1) ||
(hid_reportid_size_map[dj_report->report_type] == 0)) {
dbg_hid("invalid report type:%x\n", dj_report->report_type);
return;
}
if (hid_input_report(dj_device->hdev,
HID_INPUT_REPORT, &dj_report->report_type,
hid_reportid_size_map[dj_report->report_type], 1)) {
dbg_hid("hid_input_report error\n");
}
}
static void logi_dj_recv_forward_report(struct dj_device *dj_dev, u8 *data,
int size)
{
/* We are called from atomic context (tasklet && djrcv->lock held) */
if (hid_input_report(dj_dev->hdev, HID_INPUT_REPORT, data, size, 1))
dbg_hid("hid_input_report error\n");
}
static void logi_dj_recv_forward_input_report(struct hid_device *hdev,
u8 *data, int size)
{
struct dj_receiver_dev *djrcv_dev = hid_get_drvdata(hdev);
struct dj_device *dj_dev;
unsigned long flags;
u8 report = data[0];
int i;
if (report > REPORT_TYPE_RFREPORT_LAST) {
hid_err(hdev, "Unexpect input report number %d\n", report);
return;
}
spin_lock_irqsave(&djrcv_dev->lock, flags);
for (i = 0; i < (DJ_MAX_PAIRED_DEVICES + DJ_DEVICE_INDEX_MIN); i++) {
dj_dev = djrcv_dev->paired_dj_devices[i];
if (dj_dev && (dj_dev->reports_supported & BIT(report))) {
logi_dj_recv_forward_report(dj_dev, data, size);
spin_unlock_irqrestore(&djrcv_dev->lock, flags);
return;
}
}
logi_dj_recv_queue_unknown_work(djrcv_dev);
spin_unlock_irqrestore(&djrcv_dev->lock, flags);
dbg_hid("No dj-devs handling input report number %d\n", report);
}
static int logi_dj_recv_send_report(struct dj_receiver_dev *djrcv_dev,
struct dj_report *dj_report)
{
struct hid_device *hdev = djrcv_dev->hidpp;
struct hid_report *report;
struct hid_report_enum *output_report_enum;
u8 *data = (u8 *)(&dj_report->device_index);
unsigned int i;
output_report_enum = &hdev->report_enum[HID_OUTPUT_REPORT];
report = output_report_enum->report_id_hash[REPORT_ID_DJ_SHORT];
if (!report) {
hid_err(hdev, "%s: unable to find dj report\n", __func__);
return -ENODEV;
}
for (i = 0; i < DJREPORT_SHORT_LENGTH - 1; i++)
report->field[0]->value[i] = data[i];
hid_hw_request(hdev, report, HID_REQ_SET_REPORT);
return 0;
}
static int logi_dj_recv_query_hidpp_devices(struct dj_receiver_dev *djrcv_dev)
{
const u8 template[] = {REPORT_ID_HIDPP_SHORT,
HIDPP_RECEIVER_INDEX,
HIDPP_SET_REGISTER,
HIDPP_REG_CONNECTION_STATE,
HIDPP_FAKE_DEVICE_ARRIVAL,
0x00, 0x00};
u8 *hidpp_report;
int retval;
hidpp_report = kmemdup(template, sizeof(template), GFP_KERNEL);
if (!hidpp_report)
return -ENOMEM;
retval = hid_hw_raw_request(djrcv_dev->hidpp,
REPORT_ID_HIDPP_SHORT,
hidpp_report, sizeof(template),
HID_OUTPUT_REPORT,
HID_REQ_SET_REPORT);
kfree(hidpp_report);
return 0;
}
static int logi_dj_recv_query_paired_devices(struct dj_receiver_dev *djrcv_dev)
{
struct dj_report *dj_report;
int retval;
djrcv_dev->last_query = jiffies;
if (djrcv_dev->type != recvr_type_dj)
return logi_dj_recv_query_hidpp_devices(djrcv_dev);
dj_report = kzalloc(sizeof(struct dj_report), GFP_KERNEL);
if (!dj_report)
return -ENOMEM;
dj_report->report_id = REPORT_ID_DJ_SHORT;
dj_report->device_index = 0xFF;
dj_report->report_type = REPORT_TYPE_CMD_GET_PAIRED_DEVICES;
retval = logi_dj_recv_send_report(djrcv_dev, dj_report);
kfree(dj_report);
return retval;
}
static int logi_dj_recv_switch_to_dj_mode(struct dj_receiver_dev *djrcv_dev,
unsigned timeout)
{
struct hid_device *hdev = djrcv_dev->hidpp;
struct dj_report *dj_report;
u8 *buf;
int retval = 0;
dj_report = kzalloc(sizeof(struct dj_report), GFP_KERNEL);
if (!dj_report)
return -ENOMEM;
if (djrcv_dev->type == recvr_type_dj) {
dj_report->report_id = REPORT_ID_DJ_SHORT;
dj_report->device_index = 0xFF;
dj_report->report_type = REPORT_TYPE_CMD_SWITCH;
dj_report->report_params[CMD_SWITCH_PARAM_DEVBITFIELD] = 0x3F;
dj_report->report_params[CMD_SWITCH_PARAM_TIMEOUT_SECONDS] =
(u8)timeout;
retval = logi_dj_recv_send_report(djrcv_dev, dj_report);
/*
* Ugly sleep to work around a USB 3.0 bug when the receiver is
* still processing the "switch-to-dj" command while we send an
* other command.
* 50 msec should gives enough time to the receiver to be ready.
*/
msleep(50);
}
/*
* Magical bits to set up hidpp notifications when the dj devices
* are connected/disconnected.
*
* We can reuse dj_report because HIDPP_REPORT_SHORT_LENGTH is smaller
* than DJREPORT_SHORT_LENGTH.
*/
buf = (u8 *)dj_report;
memset(buf, 0, HIDPP_REPORT_SHORT_LENGTH);
buf[0] = REPORT_ID_HIDPP_SHORT;
buf[1] = 0xFF;
buf[2] = 0x80;
buf[3] = 0x00;
buf[4] = 0x00;
buf[5] = 0x09;
buf[6] = 0x00;
hid_hw_raw_request(hdev, REPORT_ID_HIDPP_SHORT, buf,
HIDPP_REPORT_SHORT_LENGTH, HID_OUTPUT_REPORT,
HID_REQ_SET_REPORT);
kfree(dj_report);
return retval;
}
static int logi_dj_ll_open(struct hid_device *hid)
{
dbg_hid("%s: %s\n", __func__, hid->phys);
return 0;
}
static void logi_dj_ll_close(struct hid_device *hid)
{
dbg_hid("%s: %s\n", __func__, hid->phys);
}
/*
* Register 0xB5 is "pairing information". It is solely intended for the
* receiver, so do not overwrite the device index.
*/
static u8 unifying_pairing_query[] = { REPORT_ID_HIDPP_SHORT,
HIDPP_RECEIVER_INDEX,
HIDPP_GET_LONG_REGISTER,
HIDPP_REG_PAIRING_INFORMATION };
static u8 unifying_pairing_answer[] = { REPORT_ID_HIDPP_LONG,
HIDPP_RECEIVER_INDEX,
HIDPP_GET_LONG_REGISTER,
HIDPP_REG_PAIRING_INFORMATION };
static int logi_dj_ll_raw_request(struct hid_device *hid,
unsigned char reportnum, __u8 *buf,
size_t count, unsigned char report_type,
int reqtype)
{
struct dj_device *djdev = hid->driver_data;
struct dj_receiver_dev *djrcv_dev = djdev->dj_receiver_dev;
u8 *out_buf;
int ret;
if ((buf[0] == REPORT_ID_HIDPP_SHORT) ||
(buf[0] == REPORT_ID_HIDPP_LONG)) {
if (count < 2)
return -EINVAL;
/* special case where we should not overwrite
* the device_index */
if (count == 7 && !memcmp(buf, unifying_pairing_query,
sizeof(unifying_pairing_query)))
buf[4] = (buf[4] & 0xf0) | (djdev->device_index - 1);
else
buf[1] = djdev->device_index;
return hid_hw_raw_request(djrcv_dev->hidpp, reportnum, buf,
count, report_type, reqtype);
}
if (buf[0] != REPORT_TYPE_LEDS)
return -EINVAL;
if (djrcv_dev->type != recvr_type_dj && count >= 2) {
if (!djrcv_dev->keyboard) {
hid_warn(hid, "Received REPORT_TYPE_LEDS request before the keyboard interface was enumerated\n");
return 0;
}
/* usbhid overrides the report ID and ignores the first byte */
return hid_hw_raw_request(djrcv_dev->keyboard, 0, buf, count,
report_type, reqtype);
}
out_buf = kzalloc(DJREPORT_SHORT_LENGTH, GFP_ATOMIC);
if (!out_buf)
return -ENOMEM;
if (count > DJREPORT_SHORT_LENGTH - 2)
count = DJREPORT_SHORT_LENGTH - 2;
out_buf[0] = REPORT_ID_DJ_SHORT;
out_buf[1] = djdev->device_index;
memcpy(out_buf + 2, buf, count);
ret = hid_hw_raw_request(djrcv_dev->hidpp, out_buf[0], out_buf,
DJREPORT_SHORT_LENGTH, report_type, reqtype);
kfree(out_buf);
return ret;
}
static void rdcat(char *rdesc, unsigned int *rsize, const char *data, unsigned int size)
{
memcpy(rdesc + *rsize, data, size);
*rsize += size;
}
static int logi_dj_ll_parse(struct hid_device *hid)
{
struct dj_device *djdev = hid->driver_data;
unsigned int rsize = 0;
char *rdesc;
int retval;
dbg_hid("%s\n", __func__);
djdev->hdev->version = 0x0111;
djdev->hdev->country = 0x00;
rdesc = kmalloc(MAX_RDESC_SIZE, GFP_KERNEL);
if (!rdesc)
return -ENOMEM;
if (djdev->reports_supported & STD_KEYBOARD) {
dbg_hid("%s: sending a kbd descriptor, reports_supported: %llx\n",
__func__, djdev->reports_supported);
rdcat(rdesc, &rsize, kbd_descriptor, sizeof(kbd_descriptor));
}
if (djdev->reports_supported & STD_MOUSE) {
dbg_hid("%s: sending a mouse descriptor, reports_supported: %llx\n",
__func__, djdev->reports_supported);
if (djdev->dj_receiver_dev->type == recvr_type_gaming_hidpp)
rdcat(rdesc, &rsize, mse_high_res_descriptor,
sizeof(mse_high_res_descriptor));
else if (djdev->dj_receiver_dev->type == recvr_type_27mhz)
rdcat(rdesc, &rsize, mse_27mhz_descriptor,
sizeof(mse_27mhz_descriptor));
else
rdcat(rdesc, &rsize, mse_descriptor,
sizeof(mse_descriptor));
}
if (djdev->reports_supported & MULTIMEDIA) {
dbg_hid("%s: sending a multimedia report descriptor: %llx\n",
__func__, djdev->reports_supported);
rdcat(rdesc, &rsize, consumer_descriptor, sizeof(consumer_descriptor));
}
if (djdev->reports_supported & POWER_KEYS) {
dbg_hid("%s: sending a power keys report descriptor: %llx\n",
__func__, djdev->reports_supported);
rdcat(rdesc, &rsize, syscontrol_descriptor, sizeof(syscontrol_descriptor));
}
if (djdev->reports_supported & MEDIA_CENTER) {
dbg_hid("%s: sending a media center report descriptor: %llx\n",
__func__, djdev->reports_supported);
rdcat(rdesc, &rsize, media_descriptor, sizeof(media_descriptor));
}
if (djdev->reports_supported & KBD_LEDS) {
dbg_hid("%s: need to send kbd leds report descriptor: %llx\n",
__func__, djdev->reports_supported);
}
if (djdev->reports_supported & HIDPP) {
rdcat(rdesc, &rsize, hidpp_descriptor,
sizeof(hidpp_descriptor));
}
retval = hid_parse_report(hid, rdesc, rsize);
kfree(rdesc);
return retval;
}
static int logi_dj_ll_start(struct hid_device *hid)
{
dbg_hid("%s\n", __func__);
return 0;
}
static void logi_dj_ll_stop(struct hid_device *hid)
{
dbg_hid("%s\n", __func__);
}
static struct hid_ll_driver logi_dj_ll_driver = {
.parse = logi_dj_ll_parse,
.start = logi_dj_ll_start,
.stop = logi_dj_ll_stop,
.open = logi_dj_ll_open,
.close = logi_dj_ll_close,
.raw_request = logi_dj_ll_raw_request,
};
static int logi_dj_dj_event(struct hid_device *hdev,
struct hid_report *report, u8 *data,
int size)
{
struct dj_receiver_dev *djrcv_dev = hid_get_drvdata(hdev);
struct dj_report *dj_report = (struct dj_report *) data;
unsigned long flags;
/*
* Here we receive all data coming from iface 2, there are 3 cases:
*
* 1) Data is intended for this driver i. e. data contains arrival,
* departure, etc notifications, in which case we queue them for delayed
* processing by the work queue. We return 1 to hid-core as no further
* processing is required from it.
*
* 2) Data informs a connection change, if the change means rf link
* loss, then we must send a null report to the upper layer to discard
* potentially pressed keys that may be repeated forever by the input
* layer. Return 1 to hid-core as no further processing is required.
*
* 3) Data is an actual input event from a paired DJ device in which
* case we forward it to the correct hid device (via hid_input_report()
* ) and return 1 so hid-core does not anything else with it.
*/
if ((dj_report->device_index < DJ_DEVICE_INDEX_MIN) ||
(dj_report->device_index > DJ_DEVICE_INDEX_MAX)) {
/*
* Device index is wrong, bail out.
* This driver can ignore safely the receiver notifications,
* so ignore those reports too.
*/
if (dj_report->device_index != DJ_RECEIVER_INDEX)
hid_err(hdev, "%s: invalid device index:%d\n",
__func__, dj_report->device_index);
return false;
}
spin_lock_irqsave(&djrcv_dev->lock, flags);
if (!djrcv_dev->paired_dj_devices[dj_report->device_index]) {
/* received an event for an unknown device, bail out */
logi_dj_recv_queue_notification(djrcv_dev, dj_report);
goto out;
}
switch (dj_report->report_type) {
case REPORT_TYPE_NOTIF_DEVICE_PAIRED:
/* pairing notifications are handled above the switch */
break;
case REPORT_TYPE_NOTIF_DEVICE_UNPAIRED:
logi_dj_recv_queue_notification(djrcv_dev, dj_report);
break;
case REPORT_TYPE_NOTIF_CONNECTION_STATUS:
if (dj_report->report_params[CONNECTION_STATUS_PARAM_STATUS] ==
STATUS_LINKLOSS) {
logi_dj_recv_forward_null_report(djrcv_dev, dj_report);
}
break;
default:
logi_dj_recv_forward_dj(djrcv_dev, dj_report);
}
out:
spin_unlock_irqrestore(&djrcv_dev->lock, flags);
return true;
}
static int logi_dj_hidpp_event(struct hid_device *hdev,
struct hid_report *report, u8 *data,
int size)
{
struct dj_receiver_dev *djrcv_dev = hid_get_drvdata(hdev);
struct hidpp_event *hidpp_report = (struct hidpp_event *) data;
struct dj_device *dj_dev;
unsigned long flags;
u8 device_index = hidpp_report->device_index;
if (device_index == HIDPP_RECEIVER_INDEX) {
/* special case were the device wants to know its unifying
* name */
if (size == HIDPP_REPORT_LONG_LENGTH &&
!memcmp(data, unifying_pairing_answer,
sizeof(unifying_pairing_answer)))
device_index = (data[4] & 0x0F) + 1;
else
return false;
}
/*
* Data is from the HID++ collection, in this case, we forward the
* data to the corresponding child dj device and return 0 to hid-core
* so he data also goes to the hidraw device of the receiver. This
* allows a user space application to implement the full HID++ routing
* via the receiver.
*/
if ((device_index < DJ_DEVICE_INDEX_MIN) ||
(device_index > DJ_DEVICE_INDEX_MAX)) {
/*
* Device index is wrong, bail out.
* This driver can ignore safely the receiver notifications,
* so ignore those reports too.
*/
hid_err(hdev, "%s: invalid device index:%d\n", __func__,
hidpp_report->device_index);
return false;
}
spin_lock_irqsave(&djrcv_dev->lock, flags);
dj_dev = djrcv_dev->paired_dj_devices[device_index];
/*
* With 27 MHz receivers, we do not get an explicit unpair event,
* remove the old device if the user has paired a *different* device.
*/
if (djrcv_dev->type == recvr_type_27mhz && dj_dev &&
hidpp_report->sub_id == REPORT_TYPE_NOTIF_DEVICE_CONNECTED &&
hidpp_report->params[HIDPP_PARAM_PROTO_TYPE] == 0x02 &&
hidpp_report->params[HIDPP_PARAM_27MHZ_DEVID] !=
dj_dev->hdev->product) {
struct dj_workitem workitem = {
.device_index = hidpp_report->device_index,
.type = WORKITEM_TYPE_UNPAIRED,
};
kfifo_in(&djrcv_dev->notif_fifo, &workitem, sizeof(workitem));
/* logi_hidpp_recv_queue_notif will queue the work */
dj_dev = NULL;
}
if (dj_dev) {
logi_dj_recv_forward_report(dj_dev, data, size);
} else {
if (hidpp_report->sub_id == REPORT_TYPE_NOTIF_DEVICE_CONNECTED)
logi_hidpp_recv_queue_notif(hdev, hidpp_report);
else
logi_dj_recv_queue_unknown_work(djrcv_dev);
}
spin_unlock_irqrestore(&djrcv_dev->lock, flags);
return false;
}
static int logi_dj_raw_event(struct hid_device *hdev,
struct hid_report *report, u8 *data,
int size)
{
struct dj_receiver_dev *djrcv_dev = hid_get_drvdata(hdev);
dbg_hid("%s, size:%d\n", __func__, size);
if (!djrcv_dev)
return 0;
if (!hdev->report_enum[HID_INPUT_REPORT].numbered) {
if (djrcv_dev->unnumbered_application == HID_GD_KEYBOARD) {
/*
* For the keyboard, we can reuse the same report by
* using the second byte which is constant in the USB
* HID report descriptor.
*/
data[1] = data[0];
data[0] = REPORT_TYPE_KEYBOARD;
logi_dj_recv_forward_input_report(hdev, data, size);
/* restore previous state */
data[0] = data[1];
data[1] = 0;
}
/* The 27 MHz mouse-only receiver sends unnumbered mouse data */
if (djrcv_dev->unnumbered_application == HID_GD_MOUSE &&
size == 6) {
u8 mouse_report[7];
/* Prepend report id */
mouse_report[0] = REPORT_TYPE_MOUSE;
memcpy(mouse_report + 1, data, 6);
logi_dj_recv_forward_input_report(hdev, mouse_report, 7);
}
return false;
}
switch (data[0]) {
case REPORT_ID_DJ_SHORT:
if (size != DJREPORT_SHORT_LENGTH) {
hid_err(hdev, "Short DJ report bad size (%d)", size);
return false;
}
return logi_dj_dj_event(hdev, report, data, size);
case REPORT_ID_DJ_LONG:
if (size != DJREPORT_LONG_LENGTH) {
hid_err(hdev, "Long DJ report bad size (%d)", size);
return false;
}
return logi_dj_dj_event(hdev, report, data, size);
case REPORT_ID_HIDPP_SHORT:
if (size != HIDPP_REPORT_SHORT_LENGTH) {
hid_err(hdev, "Short HID++ report bad size (%d)", size);
return false;
}
return logi_dj_hidpp_event(hdev, report, data, size);
case REPORT_ID_HIDPP_LONG:
if (size != HIDPP_REPORT_LONG_LENGTH) {
hid_err(hdev, "Long HID++ report bad size (%d)", size);
return false;
}
return logi_dj_hidpp_event(hdev, report, data, size);
}
logi_dj_recv_forward_input_report(hdev, data, size);
return false;
}
static int logi_dj_probe(struct hid_device *hdev,
const struct hid_device_id *id)
{
struct hid_report_enum *rep_enum;
struct hid_report *rep;
struct dj_receiver_dev *djrcv_dev;
struct usb_interface *intf;
unsigned int no_dj_interfaces = 0;
bool has_hidpp = false;
unsigned long flags;
int retval;
/*
* Call to usbhid to fetch the HID descriptors of the current
* interface subsequently call to the hid/hid-core to parse the
* fetched descriptors.
*/
retval = hid_parse(hdev);
if (retval) {
hid_err(hdev, "%s: parse failed\n", __func__);
return retval;
}
/*
* Some KVMs add an extra interface for e.g. mouse emulation. If we
* treat these as logitech-dj interfaces then this causes input events
* reported through this extra interface to not be reported correctly.
* To avoid this, we treat these as generic-hid devices.
*/
switch (id->driver_data) {
case recvr_type_dj: no_dj_interfaces = 3; break;
case recvr_type_hidpp: no_dj_interfaces = 2; break;
case recvr_type_gaming_hidpp: no_dj_interfaces = 3; break;
case recvr_type_27mhz: no_dj_interfaces = 2; break;
}
if (hid_is_using_ll_driver(hdev, &usb_hid_driver)) {
intf = to_usb_interface(hdev->dev.parent);
if (intf && intf->altsetting->desc.bInterfaceNumber >=
no_dj_interfaces) {
hdev->quirks |= HID_QUIRK_INPUT_PER_APP;
return hid_hw_start(hdev, HID_CONNECT_DEFAULT);
}
}
rep_enum = &hdev->report_enum[HID_INPUT_REPORT];
/* no input reports, bail out */
if (list_empty(&rep_enum->report_list))
return -ENODEV;
/*
* Check for the HID++ application.
* Note: we should theoretically check for HID++ and DJ
* collections, but this will do.
*/
list_for_each_entry(rep, &rep_enum->report_list, list) {
if (rep->application == 0xff000001)
has_hidpp = true;
}
/*
* Ignore interfaces without DJ/HID++ collection, they will not carry
* any data, dont create any hid_device for them.
*/
if (!has_hidpp && id->driver_data == recvr_type_dj)
return -ENODEV;
/* get the current application attached to the node */
rep = list_first_entry(&rep_enum->report_list, struct hid_report, list);
djrcv_dev = dj_get_receiver_dev(hdev, id->driver_data,
rep->application, has_hidpp);
if (!djrcv_dev) {
hid_err(hdev, "%s: dj_get_receiver_dev failed\n", __func__);
return -ENOMEM;
}
if (!rep_enum->numbered)
djrcv_dev->unnumbered_application = rep->application;
/* Starts the usb device and connects to upper interfaces hiddev and
* hidraw */
retval = hid_hw_start(hdev, HID_CONNECT_HIDRAW|HID_CONNECT_HIDDEV);
if (retval) {
hid_err(hdev, "%s: hid_hw_start returned error\n", __func__);
goto hid_hw_start_fail;
}
if (has_hidpp) {
retval = logi_dj_recv_switch_to_dj_mode(djrcv_dev, 0);
if (retval < 0) {
hid_err(hdev, "%s: logi_dj_recv_switch_to_dj_mode returned error:%d\n",
__func__, retval);
goto switch_to_dj_mode_fail;
}
}
/* This is enabling the polling urb on the IN endpoint */
retval = hid_hw_open(hdev);
if (retval < 0) {
hid_err(hdev, "%s: hid_hw_open returned error:%d\n",
__func__, retval);
goto llopen_failed;
}
/* Allow incoming packets to arrive: */
hid_device_io_start(hdev);
if (has_hidpp) {
spin_lock_irqsave(&djrcv_dev->lock, flags);
djrcv_dev->ready = true;
spin_unlock_irqrestore(&djrcv_dev->lock, flags);
retval = logi_dj_recv_query_paired_devices(djrcv_dev);
if (retval < 0) {
hid_err(hdev, "%s: logi_dj_recv_query_paired_devices error:%d\n",
__func__, retval);
goto logi_dj_recv_query_paired_devices_failed;
}
}
return retval;
logi_dj_recv_query_paired_devices_failed:
hid_hw_close(hdev);
llopen_failed:
switch_to_dj_mode_fail:
hid_hw_stop(hdev);
hid_hw_start_fail:
dj_put_receiver_dev(hdev);
return retval;
}
#ifdef CONFIG_PM
static int logi_dj_reset_resume(struct hid_device *hdev)
{
int retval;
struct dj_receiver_dev *djrcv_dev = hid_get_drvdata(hdev);
if (!djrcv_dev || djrcv_dev->hidpp != hdev)
return 0;
retval = logi_dj_recv_switch_to_dj_mode(djrcv_dev, 0);
if (retval < 0) {
hid_err(hdev, "%s: logi_dj_recv_switch_to_dj_mode returned error:%d\n",
__func__, retval);
}
return 0;
}
#endif
static void logi_dj_remove(struct hid_device *hdev)
{
struct dj_receiver_dev *djrcv_dev = hid_get_drvdata(hdev);
struct dj_device *dj_dev;
unsigned long flags;
int i;
dbg_hid("%s\n", __func__);
if (!djrcv_dev)
return hid_hw_stop(hdev);
/*
* This ensures that if the work gets requeued from another
* interface of the same receiver it will be a no-op.
*/
spin_lock_irqsave(&djrcv_dev->lock, flags);
djrcv_dev->ready = false;
spin_unlock_irqrestore(&djrcv_dev->lock, flags);
cancel_work_sync(&djrcv_dev->work);
hid_hw_close(hdev);
hid_hw_stop(hdev);
/*
* For proper operation we need access to all interfaces, so we destroy
* the paired devices when we're unbound from any interface.
*
* Note we may still be bound to other interfaces, sharing the same
* djrcv_dev, so we need locking here.
*/
for (i = 0; i < (DJ_MAX_PAIRED_DEVICES + DJ_DEVICE_INDEX_MIN); i++) {
spin_lock_irqsave(&djrcv_dev->lock, flags);
dj_dev = djrcv_dev->paired_dj_devices[i];
djrcv_dev->paired_dj_devices[i] = NULL;
spin_unlock_irqrestore(&djrcv_dev->lock, flags);
if (dj_dev != NULL) {
hid_destroy_device(dj_dev->hdev);
kfree(dj_dev);
}
}
dj_put_receiver_dev(hdev);
}
static const struct hid_device_id logi_dj_receivers[] = {
{HID_USB_DEVICE(USB_VENDOR_ID_LOGITECH,
USB_DEVICE_ID_LOGITECH_UNIFYING_RECEIVER),
.driver_data = recvr_type_dj},
{HID_USB_DEVICE(USB_VENDOR_ID_LOGITECH,
USB_DEVICE_ID_LOGITECH_UNIFYING_RECEIVER_2),
.driver_data = recvr_type_dj},
{ /* Logitech Nano (non DJ) receiver */
HID_USB_DEVICE(USB_VENDOR_ID_LOGITECH,
USB_DEVICE_ID_LOGITECH_NANO_RECEIVER),
.driver_data = recvr_type_hidpp},
{ /* Logitech Nano (non DJ) receiver */
HID_USB_DEVICE(USB_VENDOR_ID_LOGITECH,
USB_DEVICE_ID_LOGITECH_NANO_RECEIVER_2),
.driver_data = recvr_type_hidpp},
{ /* Logitech gaming receiver (0xc539) */
HID_USB_DEVICE(USB_VENDOR_ID_LOGITECH,
USB_DEVICE_ID_LOGITECH_NANO_RECEIVER_GAMING),
.driver_data = recvr_type_gaming_hidpp},
{ /* Logitech 27 MHz HID++ 1.0 receiver (0xc517) */
HID_USB_DEVICE(USB_VENDOR_ID_LOGITECH,
USB_DEVICE_ID_S510_RECEIVER_2),
.driver_data = recvr_type_27mhz},
{ /* Logitech 27 MHz HID++ 1.0 mouse-only receiver (0xc51b) */
HID_USB_DEVICE(USB_VENDOR_ID_LOGITECH,
USB_DEVICE_ID_LOGITECH_27MHZ_MOUSE_RECEIVER),
.driver_data = recvr_type_27mhz},
{}
};
MODULE_DEVICE_TABLE(hid, logi_dj_receivers);
static struct hid_driver logi_djreceiver_driver = {
.name = "logitech-djreceiver",
.id_table = logi_dj_receivers,
.probe = logi_dj_probe,
.remove = logi_dj_remove,
.raw_event = logi_dj_raw_event,
#ifdef CONFIG_PM
.reset_resume = logi_dj_reset_resume,
#endif
};
module_hid_driver(logi_djreceiver_driver);
MODULE_LICENSE("GPL");
MODULE_AUTHOR("Logitech");
MODULE_AUTHOR("Nestor Lopez Casado");
MODULE_AUTHOR("nlopezcasad@logitech.com");
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