Orange Pi5 kernel

^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300   1) // SPDX-License-Identifier: GPL-2.0
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300   2) /*
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300   3)  * FS-iA6B iBus RC receiver driver
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300   4)  *
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300   5)  * This driver provides all 14 channels of the FlySky FS-ia6B RC receiver
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300   6)  * as analog values.
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300   7)  *
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300   8)  * Additionally, the channels can be converted to discrete switch values.
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300   9)  * By default, it is configured for the offical FS-i6 remote control.
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  10)  * If you use a different hardware configuration, you can configure it
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  11)  * using the `switch_config` parameter.
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  12)  */
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  13) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  14) #include <linux/device.h>
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  15) #include <linux/input.h>
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  16) #include <linux/kernel.h>
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  17) #include <linux/module.h>
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  18) #include <linux/serio.h>
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  19) #include <linux/slab.h>
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  20) #include <linux/types.h>
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  21) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  22) #define DRIVER_DESC		"FS-iA6B iBus RC receiver"
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  23) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  24) MODULE_AUTHOR("Markus Koch <markus@notsyncing.net>");
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  25) MODULE_DESCRIPTION(DRIVER_DESC);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  26) MODULE_LICENSE("GPL");
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  27) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  28) #define IBUS_SERVO_COUNT	14
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  29) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  30) static char *switch_config = "00000022320000";
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  31) module_param(switch_config, charp, 0444);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  32) MODULE_PARM_DESC(switch_config,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  33) 		 "Amount of switch positions per channel (14 characters, 0-3)");
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  34) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  35) static int fsia6b_axes[IBUS_SERVO_COUNT] = {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  36) 	ABS_X, ABS_Y,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  37) 	ABS_Z, ABS_RX,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  38) 	ABS_RY, ABS_RZ,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  39) 	ABS_HAT0X, ABS_HAT0Y,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  40) 	ABS_HAT1X, ABS_HAT1Y,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  41) 	ABS_HAT2X, ABS_HAT2Y,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  42) 	ABS_HAT3X, ABS_HAT3Y
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  43) };
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  44) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  45) enum ibus_state { SYNC, COLLECT, PROCESS };
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  46) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  47) struct ibus_packet {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  48) 	enum ibus_state state;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  49) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  50) 	int offset;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  51) 	u16 ibuf;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  52) 	u16 channel[IBUS_SERVO_COUNT];
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  53) };
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  54) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  55) struct fsia6b {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  56) 	struct input_dev *dev;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  57) 	struct ibus_packet packet;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  58) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  59) 	char phys[32];
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  60) };
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  61) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  62) static irqreturn_t fsia6b_serio_irq(struct serio *serio,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  63) 				    unsigned char data, unsigned int flags)
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  64) {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  65) 	struct fsia6b *fsia6b = serio_get_drvdata(serio);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  66) 	int i;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  67) 	int sw_state;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  68) 	int sw_id = BTN_0;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  69) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  70) 	fsia6b->packet.ibuf = (data << 8) | ((fsia6b->packet.ibuf >> 8) & 0xFF);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  71) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  72) 	switch (fsia6b->packet.state) {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  73) 	case SYNC:
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  74) 		if (fsia6b->packet.ibuf == 0x4020)
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  75) 			fsia6b->packet.state = COLLECT;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  76) 		break;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  77) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  78) 	case COLLECT:
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  79) 		fsia6b->packet.state = PROCESS;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  80) 		break;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  81) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  82) 	case PROCESS:
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  83) 		fsia6b->packet.channel[fsia6b->packet.offset] =
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  84) 				fsia6b->packet.ibuf;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  85) 		fsia6b->packet.offset++;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  86) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  87) 		if (fsia6b->packet.offset == IBUS_SERVO_COUNT) {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  88) 			fsia6b->packet.offset = 0;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  89) 			fsia6b->packet.state = SYNC;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  90) 			for (i = 0; i < IBUS_SERVO_COUNT; ++i) {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  91) 				input_report_abs(fsia6b->dev, fsia6b_axes[i],
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  92) 						 fsia6b->packet.channel[i]);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  93) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  94) 				sw_state = 0;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  95) 				if (fsia6b->packet.channel[i] > 1900)
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  96) 					sw_state = 1;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  97) 				else if (fsia6b->packet.channel[i] < 1100)
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  98) 					sw_state = 2;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300  99) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 100) 				switch (switch_config[i]) {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 101) 				case '3':
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 102) 					input_report_key(fsia6b->dev,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 103) 							 sw_id++,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 104) 							 sw_state == 0);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 105) 					fallthrough;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 106) 				case '2':
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 107) 					input_report_key(fsia6b->dev,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 108) 							 sw_id++,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 109) 							 sw_state == 1);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 110) 					fallthrough;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 111) 				case '1':
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 112) 					input_report_key(fsia6b->dev,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 113) 							 sw_id++,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 114) 							 sw_state == 2);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 115) 				}
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 116) 			}
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 117) 			input_sync(fsia6b->dev);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 118) 		} else {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 119) 			fsia6b->packet.state = COLLECT;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 120) 		}
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 121) 		break;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 122) 	}
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 123) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 124) 	return IRQ_HANDLED;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 125) }
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 126) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 127) static int fsia6b_serio_connect(struct serio *serio, struct serio_driver *drv)
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 128) {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 129) 	struct fsia6b *fsia6b;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 130) 	struct input_dev *input_dev;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 131) 	int err;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 132) 	int i, j;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 133) 	int sw_id = 0;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 134) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 135) 	fsia6b = kzalloc(sizeof(*fsia6b), GFP_KERNEL);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 136) 	if (!fsia6b)
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 137) 		return -ENOMEM;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 138) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 139) 	fsia6b->packet.ibuf = 0;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 140) 	fsia6b->packet.offset = 0;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 141) 	fsia6b->packet.state = SYNC;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 142) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 143) 	serio_set_drvdata(serio, fsia6b);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 144) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 145) 	input_dev = input_allocate_device();
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 146) 	if (!input_dev) {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 147) 		err = -ENOMEM;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 148) 		goto fail1;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 149) 	}
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 150) 	fsia6b->dev = input_dev;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 151) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 152) 	snprintf(fsia6b->phys, sizeof(fsia6b->phys), "%s/input0", serio->phys);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 153) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 154) 	input_dev->name = DRIVER_DESC;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 155) 	input_dev->phys = fsia6b->phys;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 156) 	input_dev->id.bustype = BUS_RS232;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 157) 	input_dev->id.vendor = SERIO_FSIA6B;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 158) 	input_dev->id.product = serio->id.id;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 159) 	input_dev->id.version = 0x0100;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 160) 	input_dev->dev.parent = &serio->dev;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 161) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 162) 	for (i = 0; i < IBUS_SERVO_COUNT; i++)
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 163) 		input_set_abs_params(input_dev, fsia6b_axes[i],
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 164) 				     1000, 2000, 2, 2);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 165) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 166) 	/* Register switch configuration */
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 167) 	for (i = 0; i < IBUS_SERVO_COUNT; i++) {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 168) 		if (switch_config[i] < '0' || switch_config[i] > '3') {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 169) 			dev_err(&fsia6b->dev->dev,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 170) 				"Invalid switch configuration supplied for fsia6b.\n");
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 171) 			err = -EINVAL;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 172) 			goto fail2;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 173) 		}
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 174) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 175) 		for (j = '1'; j <= switch_config[i]; j++) {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 176) 			input_set_capability(input_dev, EV_KEY, BTN_0 + sw_id);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 177) 			sw_id++;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 178) 		}
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 179) 	}
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 180) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 181) 	err = serio_open(serio, drv);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 182) 	if (err)
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 183) 		goto fail2;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 184) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 185) 	err = input_register_device(fsia6b->dev);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 186) 	if (err)
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 187) 		goto fail3;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 188) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 189) 	return 0;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 190) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 191) fail3:	serio_close(serio);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 192) fail2:	input_free_device(input_dev);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 193) fail1:	serio_set_drvdata(serio, NULL);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 194) 	kfree(fsia6b);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 195) 	return err;
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 196) }
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 197) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 198) static void fsia6b_serio_disconnect(struct serio *serio)
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 199) {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 200) 	struct fsia6b *fsia6b = serio_get_drvdata(serio);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 201) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 202) 	serio_close(serio);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 203) 	serio_set_drvdata(serio, NULL);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 204) 	input_unregister_device(fsia6b->dev);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 205) 	kfree(fsia6b);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 206) }
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 207) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 208) static const struct serio_device_id fsia6b_serio_ids[] = {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 209) 	{
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 210) 		.type	= SERIO_RS232,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 211) 		.proto	= SERIO_FSIA6B,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 212) 		.id	= SERIO_ANY,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 213) 		.extra	= SERIO_ANY,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 214) 	},
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 215) 	{ 0 }
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 216) };
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 217) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 218) MODULE_DEVICE_TABLE(serio, fsia6b_serio_ids);
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 219) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 220) static struct serio_driver fsia6b_serio_drv = {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 221) 	.driver		= {
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 222) 		.name	= "fsia6b"
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 223) 	},
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 224) 	.description	= DRIVER_DESC,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 225) 	.id_table	= fsia6b_serio_ids,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 226) 	.interrupt	= fsia6b_serio_irq,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 227) 	.connect	= fsia6b_serio_connect,
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 228) 	.disconnect	= fsia6b_serio_disconnect
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 229) };
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 230) 
^8f3ce5b39 (kx 2023-10-28 12:00:06 +0300 231) module_serio_driver(fsia6b_serio_drv)