Blame - drivers/hwmon/abituguru.c - android_kernel_htc_msm8960

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Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1	/*
Hans de Goede	93d0cc5	2011-03-21 17:59:36 +0100	[diff] [blame]	2	abituguru.c Copyright (c) 2005-2006 Hans de Goede <hdegoede@redhat.com>
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	3
				4	This program is free software; you can redistribute it and/or modify
				5	it under the terms of the GNU General Public License as published by
				6	the Free Software Foundation; either version 2 of the License, or
				7	(at your option) any later version.
				8
				9	This program is distributed in the hope that it will be useful,
				10	but WITHOUT ANY WARRANTY; without even the implied warranty of
				11	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
				12	GNU General Public License for more details.
				13
				14	You should have received a copy of the GNU General Public License
				15	along with this program; if not, write to the Free Software
				16	Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
				17	*/
				18	/*
Hans de Goede	3faa1ff	2007-06-17 00:28:45 +0200	[diff] [blame]	19	This driver supports the sensor part of the first and second revision of
				20	the custom Abit uGuru chip found on Abit uGuru motherboards. Note: because
				21	of lack of specs the CPU/RAM voltage & frequency control is not supported!
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	22	*/
Joe Perches	28ebfa1	2010-10-20 06:51:25 +0000	[diff] [blame]	23
				24	#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
				25
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	26	#include <linux/module.h>
Al Viro	f6a5703	2006-10-18 01:47:25 -0400	[diff] [blame]	27	#include <linux/sched.h>
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	28	#include <linux/init.h>
				29	#include <linux/slab.h>
				30	#include <linux/jiffies.h>
				31	#include <linux/mutex.h>
				32	#include <linux/err.h>
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	33	#include <linux/delay.h>
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	34	#include <linux/platform_device.h>
				35	#include <linux/hwmon.h>
				36	#include <linux/hwmon-sysfs.h>
Hans de Goede	c182f5b	2007-07-10 17:09:57 +0200	[diff] [blame]	37	#include <linux/dmi.h>
H Hartley Sweeten	6055fae	2009-09-15 17:18:13 +0200	[diff] [blame]	38	#include <linux/io.h>
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	39
				40	/* Banks */
				41	#define ABIT_UGURU_ALARM_BANK 0x20 /* 1x 3 bytes */
				42	#define ABIT_UGURU_SENSOR_BANK1 0x21 /* 16x volt and temp */
				43	#define ABIT_UGURU_FAN_PWM 0x24 /* 3x 5 bytes */
				44	#define ABIT_UGURU_SENSOR_BANK2 0x26 /* fans */
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	45	/* max nr of sensors in bank1, a bank1 sensor can be in, temp or nc */
				46	#define ABIT_UGURU_MAX_BANK1_SENSORS 16
				47	/* Warning if you increase one of the 2 MAX defines below to 10 or higher you
				48	should adjust the belonging _NAMES_LENGTH macro for the 2 digit number! */
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	49	/* max nr of sensors in bank2, currently mb's with max 6 fans are known */
				50	#define ABIT_UGURU_MAX_BANK2_SENSORS 6
				51	/* max nr of pwm outputs, currently mb's with max 5 pwm outputs are known */
				52	#define ABIT_UGURU_MAX_PWMS 5
				53	/* uGuru sensor bank 1 flags / / Alarm if: */
				54	#define ABIT_UGURU_TEMP_HIGH_ALARM_ENABLE 0x01 /* temp over warn */
				55	#define ABIT_UGURU_VOLT_HIGH_ALARM_ENABLE 0x02 /* volt over max */
				56	#define ABIT_UGURU_VOLT_LOW_ALARM_ENABLE 0x04 /* volt under min */
				57	#define ABIT_UGURU_TEMP_HIGH_ALARM_FLAG 0x10 /* temp is over warn */
				58	#define ABIT_UGURU_VOLT_HIGH_ALARM_FLAG 0x20 /* volt is over max */
				59	#define ABIT_UGURU_VOLT_LOW_ALARM_FLAG 0x40 /* volt is under min */
				60	/* uGuru sensor bank 2 flags / / Alarm if: */
				61	#define ABIT_UGURU_FAN_LOW_ALARM_ENABLE 0x01 /* fan under min */
				62	/* uGuru sensor bank common flags */
				63	#define ABIT_UGURU_BEEP_ENABLE 0x08 /* beep if alarm */
				64	#define ABIT_UGURU_SHUTDOWN_ENABLE 0x80 /* shutdown if alarm */
				65	/* uGuru fan PWM (speed control) flags */
				66	#define ABIT_UGURU_FAN_PWM_ENABLE 0x80 /* enable speed control */
				67	/* Values used for conversion */
				68	#define ABIT_UGURU_FAN_MAX 15300 /* RPM */
				69	/* Bank1 sensor types */
				70	#define ABIT_UGURU_IN_SENSOR 0
				71	#define ABIT_UGURU_TEMP_SENSOR 1
				72	#define ABIT_UGURU_NC 2
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	73	/* In many cases we need to wait for the uGuru to reach a certain status, most
				74	of the time it will reach this status within 30 - 90 ISA reads, and thus we
				75	can best busy wait. This define gives the total amount of reads to try. */
				76	#define ABIT_UGURU_WAIT_TIMEOUT 125
				77	/* However sometimes older versions of the uGuru seem to be distracted and they
				78	do not respond for a long time. To handle this we sleep before each of the
				79	last ABIT_UGURU_WAIT_TIMEOUT_SLEEP tries. */
				80	#define ABIT_UGURU_WAIT_TIMEOUT_SLEEP 5
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	81	/* Normally all expected status in abituguru_ready, are reported after the
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	82	first read, but sometimes not and we need to poll. */
				83	#define ABIT_UGURU_READY_TIMEOUT 5
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	84	/* Maximum 3 retries on timedout reads/writes, delay 200 ms before retrying */
				85	#define ABIT_UGURU_MAX_RETRIES 3
				86	#define ABIT_UGURU_RETRY_DELAY (HZ/5)
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	87	/* Maximum 2 timeouts in abituguru_update_device, iow 3 in a row is an error */
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	88	#define ABIT_UGURU_MAX_TIMEOUTS 2
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	89	/* utility macros */
				90	#define ABIT_UGURU_NAME "abituguru"
				91	#define ABIT_UGURU_DEBUG(level, format, arg...) \
				92	if (level <= verbose) \
				93	printk(KERN_DEBUG ABIT_UGURU_NAME ": " format , ## arg)
				94	/* Macros to help calculate the sysfs_names array length */
				95	/* sum of strlen of: in??_input\0, in??_{min,max}\0, in??_{min,max}_alarm\0,
				96	in??_{min,max}_alarm_enable\0, in??_beep\0, in??_shutdown\0 */
				97	#define ABITUGURU_IN_NAMES_LENGTH (11 + 2 * 9 + 2 * 15 + 2 * 22 + 10 + 14)
				98	/* sum of strlen of: temp??_input\0, temp??_max\0, temp??_crit\0,
				99	temp??_alarm\0, temp??_alarm_enable\0, temp??_beep\0, temp??_shutdown\0 */
				100	#define ABITUGURU_TEMP_NAMES_LENGTH (13 + 11 + 12 + 13 + 20 + 12 + 16)
				101	/* sum of strlen of: fan?_input\0, fan?_min\0, fan?_alarm\0,
				102	fan?_alarm_enable\0, fan?_beep\0, fan?_shutdown\0 */
				103	#define ABITUGURU_FAN_NAMES_LENGTH (11 + 9 + 11 + 18 + 10 + 14)
				104	/* sum of strlen of: pwm?_enable\0, pwm?_auto_channels_temp\0,
				105	pwm?_auto_point{1,2}_pwm\0, pwm?_auto_point{1,2}_temp\0 */
				106	#define ABITUGURU_PWM_NAMES_LENGTH (12 + 24 + 2 * 21 + 2 * 22)
				107	/* IN_NAMES_LENGTH > TEMP_NAMES_LENGTH so assume all bank1 sensors are in */
				108	#define ABITUGURU_SYSFS_NAMES_LENGTH ( \
				109	ABIT_UGURU_MAX_BANK1_SENSORS * ABITUGURU_IN_NAMES_LENGTH + \
				110	ABIT_UGURU_MAX_BANK2_SENSORS * ABITUGURU_FAN_NAMES_LENGTH + \
				111	ABIT_UGURU_MAX_PWMS * ABITUGURU_PWM_NAMES_LENGTH)
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	112
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	113	/* All the macros below are named identical to the oguru and oguru2 programs
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	114	reverse engineered by Olle Sandberg, hence the names might not be 100%
				115	logical. I could come up with better names, but I prefer keeping the names
				116	identical so that this driver can be compared with his work more easily. */
				117	/* Two i/o-ports are used by uGuru */
				118	#define ABIT_UGURU_BASE 0x00E0
				119	/* Used to tell uGuru what to read and to read the actual data */
				120	#define ABIT_UGURU_CMD 0x00
				121	/* Mostly used to check if uGuru is busy */
				122	#define ABIT_UGURU_DATA 0x04
				123	#define ABIT_UGURU_REGION_LENGTH 5
				124	/* uGuru status' */
				125	#define ABIT_UGURU_STATUS_WRITE 0x00 /* Ready to be written */
				126	#define ABIT_UGURU_STATUS_READ 0x01 /* Ready to be read */
				127	#define ABIT_UGURU_STATUS_INPUT 0x08 /* More input */
				128	#define ABIT_UGURU_STATUS_READY 0x09 /* Ready to be written */
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	129
				130	/* Constants */
				131	/* in (Volt) sensors go up to 3494 mV, temp to 255000 millidegrees Celsius */
				132	static const int abituguru_bank1_max_value[2] = { 3494, 255000 };
				133	/* Min / Max allowed values for sensor2 (fan) alarm threshold, these values
				134	correspond to 300-3000 RPM */
				135	static const u8 abituguru_bank2_min_threshold = 5;
				136	static const u8 abituguru_bank2_max_threshold = 50;
				137	/* Register 0 is a bitfield, 1 and 2 are pwm settings (255 = 100%), 3 and 4
				138	are temperature trip points. */
				139	static const int abituguru_pwm_settings_multiplier[5] = { 0, 1, 1, 1000, 1000 };
				140	/* Min / Max allowed values for pwm_settings. Note: pwm1 (CPU fan) is a
				141	special case the minium allowed pwm% setting for this is 30% (77) on
				142	some MB's this special case is handled in the code! */
				143	static const u8 abituguru_pwm_min[5] = { 0, 170, 170, 25, 25 };
				144	static const u8 abituguru_pwm_max[5] = { 0, 255, 255, 75, 75 };
				145
				146
				147	/* Insmod parameters */
				148	static int force;
				149	module_param(force, bool, 0);
				150	MODULE_PARM_DESC(force, "Set to one to force detection.");
Hans de Goede	9b2ad12	2006-07-05 18:07:49 +0200	[diff] [blame]	151	static int bank1_types[ABIT_UGURU_MAX_BANK1_SENSORS] = { -1, -1, -1, -1, -1,
				152	-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1 };
				153	module_param_array(bank1_types, int, NULL, 0);
				154	MODULE_PARM_DESC(bank1_types, "Bank1 sensortype autodetection override:\n"
				155	" -1 autodetect\n"
				156	" 0 volt sensor\n"
				157	" 1 temp sensor\n"
				158	" 2 not connected");
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	159	static int fan_sensors;
				160	module_param(fan_sensors, int, 0);
				161	MODULE_PARM_DESC(fan_sensors, "Number of fan sensors on the uGuru "
				162	"(0 = autodetect)");
				163	static int pwms;
				164	module_param(pwms, int, 0);
				165	MODULE_PARM_DESC(pwms, "Number of PWMs on the uGuru "
				166	"(0 = autodetect)");
				167
				168	/* Default verbose is 2, since this driver is still in the testing phase */
				169	static int verbose = 2;
				170	module_param(verbose, int, 0644);
				171	MODULE_PARM_DESC(verbose, "How verbose should the driver be? (0-3):\n"
				172	" 0 normal output\n"
				173	" 1 + verbose error reporting\n"
				174	" 2 + sensors type probing info\n"
				175	" 3 + retryable error reporting");
				176
				177
				178	/* For the Abit uGuru, we need to keep some data in memory.
				179	The structure is dynamically allocated, at the same time when a new
				180	abituguru device is allocated. */
				181	struct abituguru_data {
Tony Jones	1beeffe	2007-08-20 13:46:20 -0700	[diff] [blame]	182	struct device hwmon_dev; / hwmon registered device */
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	183	struct mutex update_lock; /* protect access to data and uGuru */
				184	unsigned long last_updated; /* In jiffies */
				185	unsigned short addr; /* uguru base address */
				186	char uguru_ready; /* is the uguru in ready state? */
				187	unsigned char update_timeouts; /* number of update timeouts since last
				188	successful update */
				189
				190	/* The sysfs attr and their names are generated automatically, for bank1
				191	we cannot use a predefined array because we don't know beforehand
				192	of a sensor is a volt or a temp sensor, for bank2 and the pwms its
				193	easier todo things the same way. For in sensors we have 9 (temp 7)
				194	sysfs entries per sensor, for bank2 and pwms 6. */
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	195	struct sensor_device_attribute_2 sysfs_attr[
				196	ABIT_UGURU_MAX_BANK1_SENSORS * 9 +
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	197	ABIT_UGURU_MAX_BANK2_SENSORS * 6 + ABIT_UGURU_MAX_PWMS * 6];
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	198	/* Buffer to store the dynamically generated sysfs names */
				199	char sysfs_names[ABITUGURU_SYSFS_NAMES_LENGTH];
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	200
				201	/* Bank 1 data */
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	202	/* number of and addresses of [0] in, [1] temp sensors */
				203	u8 bank1_sensors[2];
				204	u8 bank1_address[2][ABIT_UGURU_MAX_BANK1_SENSORS];
				205	u8 bank1_value[ABIT_UGURU_MAX_BANK1_SENSORS];
				206	/* This array holds 3 entries per sensor for the bank 1 sensor settings
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	207	(flags, min, max for voltage / flags, warn, shutdown for temp). */
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	208	u8 bank1_settings[ABIT_UGURU_MAX_BANK1_SENSORS][3];
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	209	/* Maximum value for each sensor used for scaling in mV/millidegrees
				210	Celsius. */
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	211	int bank1_max_value[ABIT_UGURU_MAX_BANK1_SENSORS];
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	212
				213	/* Bank 2 data, ABIT_UGURU_MAX_BANK2_SENSORS entries for bank2 */
				214	u8 bank2_sensors; /* actual number of bank2 sensors found */
				215	u8 bank2_value[ABIT_UGURU_MAX_BANK2_SENSORS];
				216	u8 bank2_settings[ABIT_UGURU_MAX_BANK2_SENSORS][2]; /* flags, min */
				217
				218	/* Alarms 2 bytes for bank1, 1 byte for bank2 */
				219	u8 alarms[3];
				220
				221	/* Fan PWM (speed control) 5 bytes per PWM */
				222	u8 pwms; /* actual number of pwms found */
				223	u8 pwm_settings[ABIT_UGURU_MAX_PWMS][5];
				224	};
				225
Joe Perches	28ebfa1	2010-10-20 06:51:25 +0000	[diff] [blame]	226	static const char *never_happen = "This should never happen.";
				227	static const char *report_this =
				228	"Please report this to the abituguru maintainer (see MAINTAINERS)";
				229
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	230	/* wait till the uguru is in the specified state */
				231	static int abituguru_wait(struct abituguru_data *data, u8 state)
				232	{
				233	int timeout = ABIT_UGURU_WAIT_TIMEOUT;
				234
				235	while (inb_p(data->addr + ABIT_UGURU_DATA) != state) {
				236	timeout--;
				237	if (timeout == 0)
				238	return -EBUSY;
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	239	/* sleep a bit before our last few tries, see the comment on
				240	this where ABIT_UGURU_WAIT_TIMEOUT_SLEEP is defined. */
				241	if (timeout <= ABIT_UGURU_WAIT_TIMEOUT_SLEEP)
				242	msleep(0);
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	243	}
				244	return 0;
				245	}
				246
				247	/* Put the uguru in ready for input state */
				248	static int abituguru_ready(struct abituguru_data *data)
				249	{
				250	int timeout = ABIT_UGURU_READY_TIMEOUT;
				251
				252	if (data->uguru_ready)
				253	return 0;
				254
				255	/* Reset? / Prepare for next read/write cycle */
				256	outb(0x00, data->addr + ABIT_UGURU_DATA);
				257
				258	/* Wait till the uguru is ready */
				259	if (abituguru_wait(data, ABIT_UGURU_STATUS_READY)) {
				260	ABIT_UGURU_DEBUG(1,
				261	"timeout exceeded waiting for ready state\n");
				262	return -EIO;
				263	}
				264
				265	/* Cmd port MUST be read now and should contain 0xAC */
				266	while (inb_p(data->addr + ABIT_UGURU_CMD) != 0xAC) {
				267	timeout--;
				268	if (timeout == 0) {
				269	ABIT_UGURU_DEBUG(1,
				270	"CMD reg does not hold 0xAC after ready command\n");
				271	return -EIO;
				272	}
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	273	msleep(0);
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	274	}
				275
				276	/* After this the ABIT_UGURU_DATA port should contain
				277	ABIT_UGURU_STATUS_INPUT */
				278	timeout = ABIT_UGURU_READY_TIMEOUT;
				279	while (inb_p(data->addr + ABIT_UGURU_DATA) != ABIT_UGURU_STATUS_INPUT) {
				280	timeout--;
				281	if (timeout == 0) {
				282	ABIT_UGURU_DEBUG(1,
				283	"state != more input after ready command\n");
				284	return -EIO;
				285	}
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	286	msleep(0);
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	287	}
				288
				289	data->uguru_ready = 1;
				290	return 0;
				291	}
				292
				293	/* Send the bank and then sensor address to the uGuru for the next read/write
				294	cycle. This function gets called as the first part of a read/write by
				295	abituguru_read and abituguru_write. This function should never be
				296	called by any other function. */
				297	static int abituguru_send_address(struct abituguru_data *data,
				298	u8 bank_addr, u8 sensor_addr, int retries)
				299	{
				300	/* assume the caller does error handling itself if it has not requested
				301	any retries, and thus be quiet. */
				302	int report_errors = retries;
				303
				304	for (;;) {
				305	/* Make sure the uguru is ready and then send the bank address,
				306	after this the uguru is no longer "ready". */
				307	if (abituguru_ready(data) != 0)
				308	return -EIO;
				309	outb(bank_addr, data->addr + ABIT_UGURU_DATA);
				310	data->uguru_ready = 0;
				311
				312	/* Wait till the uguru is ABIT_UGURU_STATUS_INPUT state again
				313	and send the sensor addr */
				314	if (abituguru_wait(data, ABIT_UGURU_STATUS_INPUT)) {
				315	if (retries) {
				316	ABIT_UGURU_DEBUG(3, "timeout exceeded "
				317	"waiting for more input state, %d "
				318	"tries remaining\n", retries);
				319	set_current_state(TASK_UNINTERRUPTIBLE);
				320	schedule_timeout(ABIT_UGURU_RETRY_DELAY);
				321	retries--;
				322	continue;
				323	}
				324	if (report_errors)
				325	ABIT_UGURU_DEBUG(1, "timeout exceeded "
				326	"waiting for more input state "
				327	"(bank: %d)\n", (int)bank_addr);
				328	return -EBUSY;
				329	}
				330	outb(sensor_addr, data->addr + ABIT_UGURU_CMD);
				331	return 0;
				332	}
				333	}
				334
				335	/* Read count bytes from sensor sensor_addr in bank bank_addr and store the
				336	result in buf, retry the send address part of the read retries times. */
				337	static int abituguru_read(struct abituguru_data *data,
				338	u8 bank_addr, u8 sensor_addr, u8 *buf, int count, int retries)
				339	{
				340	int i;
				341
				342	/* Send the address */
				343	i = abituguru_send_address(data, bank_addr, sensor_addr, retries);
				344	if (i)
				345	return i;
				346
				347	/* And read the data */
				348	for (i = 0; i < count; i++) {
				349	if (abituguru_wait(data, ABIT_UGURU_STATUS_READ)) {
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	350	ABIT_UGURU_DEBUG(retries ? 1 : 3,
				351	"timeout exceeded waiting for "
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	352	"read state (bank: %d, sensor: %d)\n",
				353	(int)bank_addr, (int)sensor_addr);
				354	break;
				355	}
				356	buf[i] = inb(data->addr + ABIT_UGURU_CMD);
				357	}
				358
				359	/* Last put the chip back in ready state */
				360	abituguru_ready(data);
				361
				362	return i;
				363	}
				364
				365	/* Write count bytes from buf to sensor sensor_addr in bank bank_addr, the send
				366	address part of the write is always retried ABIT_UGURU_MAX_RETRIES times. */
				367	static int abituguru_write(struct abituguru_data *data,
				368	u8 bank_addr, u8 sensor_addr, u8 *buf, int count)
				369	{
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	370	/* We use the ready timeout as we have to wait for 0xAC just like the
				371	ready function */
				372	int i, timeout = ABIT_UGURU_READY_TIMEOUT;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	373
				374	/* Send the address */
				375	i = abituguru_send_address(data, bank_addr, sensor_addr,
				376	ABIT_UGURU_MAX_RETRIES);
				377	if (i)
				378	return i;
				379
				380	/* And write the data */
				381	for (i = 0; i < count; i++) {
				382	if (abituguru_wait(data, ABIT_UGURU_STATUS_WRITE)) {
				383	ABIT_UGURU_DEBUG(1, "timeout exceeded waiting for "
				384	"write state (bank: %d, sensor: %d)\n",
				385	(int)bank_addr, (int)sensor_addr);
				386	break;
				387	}
				388	outb(buf[i], data->addr + ABIT_UGURU_CMD);
				389	}
				390
				391	/* Now we need to wait till the chip is ready to be read again,
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	392	so that we can read 0xAC as confirmation that our write has
				393	succeeded. */
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	394	if (abituguru_wait(data, ABIT_UGURU_STATUS_READ)) {
				395	ABIT_UGURU_DEBUG(1, "timeout exceeded waiting for read state "
				396	"after write (bank: %d, sensor: %d)\n", (int)bank_addr,
				397	(int)sensor_addr);
				398	return -EIO;
				399	}
				400
				401	/* Cmd port MUST be read now and should contain 0xAC */
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	402	while (inb_p(data->addr + ABIT_UGURU_CMD) != 0xAC) {
				403	timeout--;
				404	if (timeout == 0) {
				405	ABIT_UGURU_DEBUG(1, "CMD reg does not hold 0xAC after "
				406	"write (bank: %d, sensor: %d)\n",
				407	(int)bank_addr, (int)sensor_addr);
				408	return -EIO;
				409	}
				410	msleep(0);
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	411	}
				412
				413	/* Last put the chip back in ready state */
				414	abituguru_ready(data);
				415
				416	return i;
				417	}
				418
				419	/* Detect sensor type. Temp and Volt sensors are enabled with
				420	different masks and will ignore enable masks not meant for them.
				421	This enables us to test what kind of sensor we're dealing with.
				422	By setting the alarm thresholds so that we will always get an
				423	alarm for sensor type X and then enabling the sensor as sensor type
				424	X, if we then get an alarm it is a sensor of type X. */
				425	static int __devinit
				426	abituguru_detect_bank1_sensor_type(struct abituguru_data *data,
				427	u8 sensor_addr)
				428	{
Hans de Goede	e432dc8	2007-06-18 22:59:34 +0200	[diff] [blame]	429	u8 val, test_flag, buf[3];
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	430	int i, ret = -ENODEV; /* error is the most common used retval :\| */
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	431
Hans de Goede	9b2ad12	2006-07-05 18:07:49 +0200	[diff] [blame]	432	/* If overriden by the user return the user selected type */
				433	if (bank1_types[sensor_addr] >= ABIT_UGURU_IN_SENSOR &&
				434	bank1_types[sensor_addr] <= ABIT_UGURU_NC) {
				435	ABIT_UGURU_DEBUG(2, "assuming sensor type %d for bank1 sensor "
				436	"%d because of \"bank1_types\" module param\n",
				437	bank1_types[sensor_addr], (int)sensor_addr);
				438	return bank1_types[sensor_addr];
				439	}
				440
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	441	/* First read the sensor and the current settings */
				442	if (abituguru_read(data, ABIT_UGURU_SENSOR_BANK1, sensor_addr, &val,
				443	1, ABIT_UGURU_MAX_RETRIES) != 1)
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	444	return -ENODEV;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	445
				446	/* Test val is sane / usable for sensor type detection. */
Hans de Goede	e432dc8	2007-06-18 22:59:34 +0200	[diff] [blame]	447	if ((val < 10u) \|\| (val > 250u)) {
Joe Perches	28ebfa1	2010-10-20 06:51:25 +0000	[diff] [blame]	448	pr_warn("bank1-sensor: %d reading (%d) too close to limits, "
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	449	"unable to determine sensor type, skipping sensor\n",
				450	(int)sensor_addr, (int)val);
				451	/* assume no sensor is there for sensors for which we can't
				452	determine the sensor type because their reading is too close
				453	to their limits, this usually means no sensor is there. */
				454	return ABIT_UGURU_NC;
				455	}
				456
				457	ABIT_UGURU_DEBUG(2, "testing bank1 sensor %d\n", (int)sensor_addr);
				458	/* Volt sensor test, enable volt low alarm, set min value ridicously
Hans de Goede	e432dc8	2007-06-18 22:59:34 +0200	[diff] [blame]	459	high, or vica versa if the reading is very high. If its a volt
				460	sensor this should always give us an alarm. */
				461	if (val <= 240u) {
				462	buf[0] = ABIT_UGURU_VOLT_LOW_ALARM_ENABLE;
				463	buf[1] = 245;
				464	buf[2] = 250;
				465	test_flag = ABIT_UGURU_VOLT_LOW_ALARM_FLAG;
				466	} else {
				467	buf[0] = ABIT_UGURU_VOLT_HIGH_ALARM_ENABLE;
				468	buf[1] = 5;
				469	buf[2] = 10;
				470	test_flag = ABIT_UGURU_VOLT_HIGH_ALARM_FLAG;
				471	}
				472
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	473	if (abituguru_write(data, ABIT_UGURU_SENSOR_BANK1 + 2, sensor_addr,
				474	buf, 3) != 3)
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	475	goto abituguru_detect_bank1_sensor_type_exit;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	476	/* Now we need 20 ms to give the uguru time to read the sensors
				477	and raise a voltage alarm */
				478	set_current_state(TASK_UNINTERRUPTIBLE);
				479	schedule_timeout(HZ/50);
				480	/* Check for alarm and check the alarm is a volt low alarm. */
				481	if (abituguru_read(data, ABIT_UGURU_ALARM_BANK, 0, buf, 3,
				482	ABIT_UGURU_MAX_RETRIES) != 3)
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	483	goto abituguru_detect_bank1_sensor_type_exit;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	484	if (buf[sensor_addr/8] & (0x01 << (sensor_addr % 8))) {
				485	if (abituguru_read(data, ABIT_UGURU_SENSOR_BANK1 + 1,
				486	sensor_addr, buf, 3,
				487	ABIT_UGURU_MAX_RETRIES) != 3)
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	488	goto abituguru_detect_bank1_sensor_type_exit;
Hans de Goede	e432dc8	2007-06-18 22:59:34 +0200	[diff] [blame]	489	if (buf[0] & test_flag) {
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	490	ABIT_UGURU_DEBUG(2, " found volt sensor\n");
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	491	ret = ABIT_UGURU_IN_SENSOR;
				492	goto abituguru_detect_bank1_sensor_type_exit;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	493	} else
				494	ABIT_UGURU_DEBUG(2, " alarm raised during volt "
Hans de Goede	e432dc8	2007-06-18 22:59:34 +0200	[diff] [blame]	495	"sensor test, but volt range flag not set\n");
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	496	} else
				497	ABIT_UGURU_DEBUG(2, " alarm not raised during volt sensor "
				498	"test\n");
				499
				500	/* Temp sensor test, enable sensor as a temp sensor, set beep value
				501	ridicously low (but not too low, otherwise uguru ignores it).
				502	If its a temp sensor this should always give us an alarm. */
				503	buf[0] = ABIT_UGURU_TEMP_HIGH_ALARM_ENABLE;
				504	buf[1] = 5;
				505	buf[2] = 10;
				506	if (abituguru_write(data, ABIT_UGURU_SENSOR_BANK1 + 2, sensor_addr,
				507	buf, 3) != 3)
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	508	goto abituguru_detect_bank1_sensor_type_exit;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	509	/* Now we need 50 ms to give the uguru time to read the sensors
				510	and raise a temp alarm */
				511	set_current_state(TASK_UNINTERRUPTIBLE);
				512	schedule_timeout(HZ/20);
				513	/* Check for alarm and check the alarm is a temp high alarm. */
				514	if (abituguru_read(data, ABIT_UGURU_ALARM_BANK, 0, buf, 3,
				515	ABIT_UGURU_MAX_RETRIES) != 3)
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	516	goto abituguru_detect_bank1_sensor_type_exit;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	517	if (buf[sensor_addr/8] & (0x01 << (sensor_addr % 8))) {
				518	if (abituguru_read(data, ABIT_UGURU_SENSOR_BANK1 + 1,
				519	sensor_addr, buf, 3,
				520	ABIT_UGURU_MAX_RETRIES) != 3)
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	521	goto abituguru_detect_bank1_sensor_type_exit;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	522	if (buf[0] & ABIT_UGURU_TEMP_HIGH_ALARM_FLAG) {
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	523	ABIT_UGURU_DEBUG(2, " found temp sensor\n");
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	524	ret = ABIT_UGURU_TEMP_SENSOR;
				525	goto abituguru_detect_bank1_sensor_type_exit;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	526	} else
				527	ABIT_UGURU_DEBUG(2, " alarm raised during temp "
				528	"sensor test, but temp high flag not set\n");
				529	} else
				530	ABIT_UGURU_DEBUG(2, " alarm not raised during temp sensor "
				531	"test\n");
				532
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	533	ret = ABIT_UGURU_NC;
				534	abituguru_detect_bank1_sensor_type_exit:
				535	/* Restore original settings, failing here is really BAD, it has been
				536	reported that some BIOS-es hang when entering the uGuru menu with
				537	invalid settings present in the uGuru, so we try this 3 times. */
				538	for (i = 0; i < 3; i++)
				539	if (abituguru_write(data, ABIT_UGURU_SENSOR_BANK1 + 2,
				540	sensor_addr, data->bank1_settings[sensor_addr],
				541	3) == 3)
				542	break;
				543	if (i == 3) {
Joe Perches	28ebfa1	2010-10-20 06:51:25 +0000	[diff] [blame]	544	pr_err("Fatal error could not restore original settings. %s %s\n",
				545	never_happen, report_this);
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	546	return -ENODEV;
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	547	}
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	548	return ret;
				549	}
				550
				551	/* These functions try to find out how many sensors there are in bank2 and how
				552	many pwms there are. The purpose of this is to make sure that we don't give
				553	the user the possibility to change settings for non-existent sensors / pwm.
				554	The uGuru will happily read / write whatever memory happens to be after the
				555	memory storing the PWM settings when reading/writing to a PWM which is not
				556	there. Notice even if we detect a PWM which doesn't exist we normally won't
				557	write to it, unless the user tries to change the settings.
				558
				559	Although the uGuru allows reading (settings) from non existing bank2
				560	sensors, my version of the uGuru does seem to stop writing to them, the
				561	write function above aborts in this case with:
				562	"CMD reg does not hold 0xAC after write"
				563
				564	Notice these 2 tests are non destructive iow read-only tests, otherwise
				565	they would defeat their purpose. Although for the bank2_sensors detection a
				566	read/write test would be feasible because of the reaction above, I've
				567	however opted to stay on the safe side. */
				568	static void __devinit
				569	abituguru_detect_no_bank2_sensors(struct abituguru_data *data)
				570	{
				571	int i;
				572
Hans de Goede	9b2ad12	2006-07-05 18:07:49 +0200	[diff] [blame]	573	if (fan_sensors > 0 && fan_sensors <= ABIT_UGURU_MAX_BANK2_SENSORS) {
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	574	data->bank2_sensors = fan_sensors;
				575	ABIT_UGURU_DEBUG(2, "assuming %d fan sensors because of "
				576	"\"fan_sensors\" module param\n",
				577	(int)data->bank2_sensors);
				578	return;
				579	}
				580
				581	ABIT_UGURU_DEBUG(2, "detecting number of fan sensors\n");
				582	for (i = 0; i < ABIT_UGURU_MAX_BANK2_SENSORS; i++) {
				583	/* 0x89 are the known used bits:
				584	-0x80 enable shutdown
				585	-0x08 enable beep
				586	-0x01 enable alarm
				587	All other bits should be 0, but on some motherboards
Hans de Goede	b7c0660	2006-06-04 20:24:11 +0200	[diff] [blame]	588	0x40 (bit 6) is also high for some of the fans?? */
				589	if (data->bank2_settings[i][0] & ~0xC9) {
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	590	ABIT_UGURU_DEBUG(2, " bank2 sensor %d does not seem "
				591	"to be a fan sensor: settings[0] = %02X\n",
				592	i, (unsigned int)data->bank2_settings[i][0]);
				593	break;
				594	}
				595
				596	/* check if the threshold is within the allowed range */
				597	if (data->bank2_settings[i][1] <
				598	abituguru_bank2_min_threshold) {
				599	ABIT_UGURU_DEBUG(2, " bank2 sensor %d does not seem "
				600	"to be a fan sensor: the threshold (%d) is "
				601	"below the minimum (%d)\n", i,
				602	(int)data->bank2_settings[i][1],
				603	(int)abituguru_bank2_min_threshold);
				604	break;
				605	}
				606	if (data->bank2_settings[i][1] >
				607	abituguru_bank2_max_threshold) {
				608	ABIT_UGURU_DEBUG(2, " bank2 sensor %d does not seem "
				609	"to be a fan sensor: the threshold (%d) is "
				610	"above the maximum (%d)\n", i,
				611	(int)data->bank2_settings[i][1],
				612	(int)abituguru_bank2_max_threshold);
				613	break;
				614	}
				615	}
				616
				617	data->bank2_sensors = i;
				618	ABIT_UGURU_DEBUG(2, " found: %d fan sensors\n",
				619	(int)data->bank2_sensors);
				620	}
				621
				622	static void __devinit
				623	abituguru_detect_no_pwms(struct abituguru_data *data)
				624	{
				625	int i, j;
				626
Hans de Goede	9b2ad12	2006-07-05 18:07:49 +0200	[diff] [blame]	627	if (pwms > 0 && pwms <= ABIT_UGURU_MAX_PWMS) {
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	628	data->pwms = pwms;
				629	ABIT_UGURU_DEBUG(2, "assuming %d PWM outputs because of "
				630	"\"pwms\" module param\n", (int)data->pwms);
				631	return;
				632	}
				633
				634	ABIT_UGURU_DEBUG(2, "detecting number of PWM outputs\n");
				635	for (i = 0; i < ABIT_UGURU_MAX_PWMS; i++) {
				636	/* 0x80 is the enable bit and the low
				637	nibble is which temp sensor to use,
				638	the other bits should be 0 */
				639	if (data->pwm_settings[i][0] & ~0x8F) {
				640	ABIT_UGURU_DEBUG(2, " pwm channel %d does not seem "
				641	"to be a pwm channel: settings[0] = %02X\n",
				642	i, (unsigned int)data->pwm_settings[i][0]);
				643	break;
				644	}
				645
				646	/* the low nibble must correspond to one of the temp sensors
				647	we've found */
				648	for (j = 0; j < data->bank1_sensors[ABIT_UGURU_TEMP_SENSOR];
				649	j++) {
				650	if (data->bank1_address[ABIT_UGURU_TEMP_SENSOR][j] ==
				651	(data->pwm_settings[i][0] & 0x0F))
				652	break;
				653	}
				654	if (j == data->bank1_sensors[ABIT_UGURU_TEMP_SENSOR]) {
				655	ABIT_UGURU_DEBUG(2, " pwm channel %d does not seem "
				656	"to be a pwm channel: %d is not a valid temp "
				657	"sensor address\n", i,
				658	data->pwm_settings[i][0] & 0x0F);
				659	break;
				660	}
				661
				662	/* check if all other settings are within the allowed range */
				663	for (j = 1; j < 5; j++) {
				664	u8 min;
				665	/* special case pwm1 min pwm% */
				666	if ((i == 0) && ((j == 1) \|\| (j == 2)))
				667	min = 77;
				668	else
				669	min = abituguru_pwm_min[j];
				670	if (data->pwm_settings[i][j] < min) {
				671	ABIT_UGURU_DEBUG(2, " pwm channel %d does "
				672	"not seem to be a pwm channel: "
				673	"setting %d (%d) is below the minimum "
				674	"value (%d)\n", i, j,
				675	(int)data->pwm_settings[i][j],
				676	(int)min);
				677	goto abituguru_detect_no_pwms_exit;
				678	}
				679	if (data->pwm_settings[i][j] > abituguru_pwm_max[j]) {
				680	ABIT_UGURU_DEBUG(2, " pwm channel %d does "
				681	"not seem to be a pwm channel: "
				682	"setting %d (%d) is above the maximum "
				683	"value (%d)\n", i, j,
				684	(int)data->pwm_settings[i][j],
				685	(int)abituguru_pwm_max[j]);
				686	goto abituguru_detect_no_pwms_exit;
				687	}
				688	}
				689
				690	/* check that min temp < max temp and min pwm < max pwm */
				691	if (data->pwm_settings[i][1] >= data->pwm_settings[i][2]) {
				692	ABIT_UGURU_DEBUG(2, " pwm channel %d does not seem "
				693	"to be a pwm channel: min pwm (%d) >= "
				694	"max pwm (%d)\n", i,
				695	(int)data->pwm_settings[i][1],
				696	(int)data->pwm_settings[i][2]);
				697	break;
				698	}
				699	if (data->pwm_settings[i][3] >= data->pwm_settings[i][4]) {
				700	ABIT_UGURU_DEBUG(2, " pwm channel %d does not seem "
				701	"to be a pwm channel: min temp (%d) >= "
				702	"max temp (%d)\n", i,
				703	(int)data->pwm_settings[i][3],
				704	(int)data->pwm_settings[i][4]);
				705	break;
				706	}
				707	}
				708
				709	abituguru_detect_no_pwms_exit:
				710	data->pwms = i;
				711	ABIT_UGURU_DEBUG(2, " found: %d PWM outputs\n", (int)data->pwms);
				712	}
				713
				714	/* Following are the sysfs callback functions. These functions expect:
				715	sensor_device_attribute_2->index: sensor address/offset in the bank
				716	sensor_device_attribute_2->nr: register offset, bitmask or NA. */
				717	static struct abituguru_data abituguru_update_device(struct device dev);
				718
				719	static ssize_t show_bank1_value(struct device *dev,
				720	struct device_attribute devattr, char buf)
				721	{
				722	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				723	struct abituguru_data *data = abituguru_update_device(dev);
				724	if (!data)
				725	return -EIO;
				726	return sprintf(buf, "%d\n", (data->bank1_value[attr->index] *
				727	data->bank1_max_value[attr->index] + 128) / 255);
				728	}
				729
				730	static ssize_t show_bank1_setting(struct device *dev,
				731	struct device_attribute devattr, char buf)
				732	{
				733	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				734	struct abituguru_data *data = dev_get_drvdata(dev);
				735	return sprintf(buf, "%d\n",
				736	(data->bank1_settings[attr->index][attr->nr] *
				737	data->bank1_max_value[attr->index] + 128) / 255);
				738	}
				739
				740	static ssize_t show_bank2_value(struct device *dev,
				741	struct device_attribute devattr, char buf)
				742	{
				743	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				744	struct abituguru_data *data = abituguru_update_device(dev);
				745	if (!data)
				746	return -EIO;
				747	return sprintf(buf, "%d\n", (data->bank2_value[attr->index] *
				748	ABIT_UGURU_FAN_MAX + 128) / 255);
				749	}
				750
				751	static ssize_t show_bank2_setting(struct device *dev,
				752	struct device_attribute devattr, char buf)
				753	{
				754	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				755	struct abituguru_data *data = dev_get_drvdata(dev);
				756	return sprintf(buf, "%d\n",
				757	(data->bank2_settings[attr->index][attr->nr] *
				758	ABIT_UGURU_FAN_MAX + 128) / 255);
				759	}
				760
				761	static ssize_t store_bank1_setting(struct device *dev, struct device_attribute
				762	devattr, const char buf, size_t count)
				763	{
				764	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				765	struct abituguru_data *data = dev_get_drvdata(dev);
				766	u8 val = (simple_strtoul(buf, NULL, 10) * 255 +
				767	data->bank1_max_value[attr->index]/2) /
				768	data->bank1_max_value[attr->index];
				769	ssize_t ret = count;
				770
				771	mutex_lock(&data->update_lock);
				772	if (data->bank1_settings[attr->index][attr->nr] != val) {
				773	u8 orig_val = data->bank1_settings[attr->index][attr->nr];
				774	data->bank1_settings[attr->index][attr->nr] = val;
				775	if (abituguru_write(data, ABIT_UGURU_SENSOR_BANK1 + 2,
				776	attr->index, data->bank1_settings[attr->index],
				777	3) <= attr->nr) {
				778	data->bank1_settings[attr->index][attr->nr] = orig_val;
				779	ret = -EIO;
				780	}
				781	}
				782	mutex_unlock(&data->update_lock);
				783	return ret;
				784	}
				785
				786	static ssize_t store_bank2_setting(struct device *dev, struct device_attribute
				787	devattr, const char buf, size_t count)
				788	{
				789	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				790	struct abituguru_data *data = dev_get_drvdata(dev);
				791	u8 val = (simple_strtoul(buf, NULL, 10)*255 + ABIT_UGURU_FAN_MAX/2) /
				792	ABIT_UGURU_FAN_MAX;
				793	ssize_t ret = count;
				794
				795	/* this check can be done before taking the lock */
				796	if ((val < abituguru_bank2_min_threshold) \|\|
				797	(val > abituguru_bank2_max_threshold))
				798	return -EINVAL;
				799
				800	mutex_lock(&data->update_lock);
				801	if (data->bank2_settings[attr->index][attr->nr] != val) {
				802	u8 orig_val = data->bank2_settings[attr->index][attr->nr];
				803	data->bank2_settings[attr->index][attr->nr] = val;
				804	if (abituguru_write(data, ABIT_UGURU_SENSOR_BANK2 + 2,
				805	attr->index, data->bank2_settings[attr->index],
				806	2) <= attr->nr) {
				807	data->bank2_settings[attr->index][attr->nr] = orig_val;
				808	ret = -EIO;
				809	}
				810	}
				811	mutex_unlock(&data->update_lock);
				812	return ret;
				813	}
				814
				815	static ssize_t show_bank1_alarm(struct device *dev,
				816	struct device_attribute devattr, char buf)
				817	{
				818	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				819	struct abituguru_data *data = abituguru_update_device(dev);
				820	if (!data)
				821	return -EIO;
				822	/* See if the alarm bit for this sensor is set, and if the
				823	alarm matches the type of alarm we're looking for (for volt
				824	it can be either low or high). The type is stored in a few
				825	readonly bits in the settings part of the relevant sensor.
				826	The bitmask of the type is passed to us in attr->nr. */
				827	if ((data->alarms[attr->index / 8] & (0x01 << (attr->index % 8))) &&
				828	(data->bank1_settings[attr->index][0] & attr->nr))
				829	return sprintf(buf, "1\n");
				830	else
				831	return sprintf(buf, "0\n");
				832	}
				833
				834	static ssize_t show_bank2_alarm(struct device *dev,
				835	struct device_attribute devattr, char buf)
				836	{
				837	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				838	struct abituguru_data *data = abituguru_update_device(dev);
				839	if (!data)
				840	return -EIO;
				841	if (data->alarms[2] & (0x01 << attr->index))
				842	return sprintf(buf, "1\n");
				843	else
				844	return sprintf(buf, "0\n");
				845	}
				846
				847	static ssize_t show_bank1_mask(struct device *dev,
				848	struct device_attribute devattr, char buf)
				849	{
				850	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				851	struct abituguru_data *data = dev_get_drvdata(dev);
				852	if (data->bank1_settings[attr->index][0] & attr->nr)
				853	return sprintf(buf, "1\n");
				854	else
				855	return sprintf(buf, "0\n");
				856	}
				857
				858	static ssize_t show_bank2_mask(struct device *dev,
				859	struct device_attribute devattr, char buf)
				860	{
				861	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				862	struct abituguru_data *data = dev_get_drvdata(dev);
				863	if (data->bank2_settings[attr->index][0] & attr->nr)
				864	return sprintf(buf, "1\n");
				865	else
				866	return sprintf(buf, "0\n");
				867	}
				868
				869	static ssize_t store_bank1_mask(struct device *dev,
				870	struct device_attribute devattr, const char buf, size_t count)
				871	{
				872	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				873	struct abituguru_data *data = dev_get_drvdata(dev);
				874	int mask = simple_strtoul(buf, NULL, 10);
				875	ssize_t ret = count;
				876	u8 orig_val;
				877
				878	mutex_lock(&data->update_lock);
				879	orig_val = data->bank1_settings[attr->index][0];
				880
				881	if (mask)
				882	data->bank1_settings[attr->index][0] \|= attr->nr;
				883	else
				884	data->bank1_settings[attr->index][0] &= ~attr->nr;
				885
				886	if ((data->bank1_settings[attr->index][0] != orig_val) &&
				887	(abituguru_write(data,
				888	ABIT_UGURU_SENSOR_BANK1 + 2, attr->index,
				889	data->bank1_settings[attr->index], 3) < 1)) {
				890	data->bank1_settings[attr->index][0] = orig_val;
				891	ret = -EIO;
				892	}
				893	mutex_unlock(&data->update_lock);
				894	return ret;
				895	}
				896
				897	static ssize_t store_bank2_mask(struct device *dev,
				898	struct device_attribute devattr, const char buf, size_t count)
				899	{
				900	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				901	struct abituguru_data *data = dev_get_drvdata(dev);
				902	int mask = simple_strtoul(buf, NULL, 10);
				903	ssize_t ret = count;
				904	u8 orig_val;
				905
				906	mutex_lock(&data->update_lock);
				907	orig_val = data->bank2_settings[attr->index][0];
				908
				909	if (mask)
				910	data->bank2_settings[attr->index][0] \|= attr->nr;
				911	else
				912	data->bank2_settings[attr->index][0] &= ~attr->nr;
				913
				914	if ((data->bank2_settings[attr->index][0] != orig_val) &&
				915	(abituguru_write(data,
				916	ABIT_UGURU_SENSOR_BANK2 + 2, attr->index,
				917	data->bank2_settings[attr->index], 2) < 1)) {
				918	data->bank2_settings[attr->index][0] = orig_val;
				919	ret = -EIO;
				920	}
				921	mutex_unlock(&data->update_lock);
				922	return ret;
				923	}
				924
				925	/* Fan PWM (speed control) */
				926	static ssize_t show_pwm_setting(struct device *dev,
				927	struct device_attribute devattr, char buf)
				928	{
				929	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				930	struct abituguru_data *data = dev_get_drvdata(dev);
				931	return sprintf(buf, "%d\n", data->pwm_settings[attr->index][attr->nr] *
				932	abituguru_pwm_settings_multiplier[attr->nr]);
				933	}
				934
				935	static ssize_t store_pwm_setting(struct device *dev, struct device_attribute
				936	devattr, const char buf, size_t count)
				937	{
				938	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				939	struct abituguru_data *data = dev_get_drvdata(dev);
				940	u8 min, val = (simple_strtoul(buf, NULL, 10) +
				941	abituguru_pwm_settings_multiplier[attr->nr]/2) /
				942	abituguru_pwm_settings_multiplier[attr->nr];
				943	ssize_t ret = count;
				944
				945	/* special case pwm1 min pwm% */
				946	if ((attr->index == 0) && ((attr->nr == 1) \|\| (attr->nr == 2)))
				947	min = 77;
				948	else
				949	min = abituguru_pwm_min[attr->nr];
				950
				951	/* this check can be done before taking the lock */
				952	if ((val < min) \|\| (val > abituguru_pwm_max[attr->nr]))
				953	return -EINVAL;
				954
				955	mutex_lock(&data->update_lock);
				956	/* this check needs to be done after taking the lock */
				957	if ((attr->nr & 1) &&
				958	(val >= data->pwm_settings[attr->index][attr->nr + 1]))
				959	ret = -EINVAL;
				960	else if (!(attr->nr & 1) &&
				961	(val <= data->pwm_settings[attr->index][attr->nr - 1]))
				962	ret = -EINVAL;
				963	else if (data->pwm_settings[attr->index][attr->nr] != val) {
				964	u8 orig_val = data->pwm_settings[attr->index][attr->nr];
				965	data->pwm_settings[attr->index][attr->nr] = val;
				966	if (abituguru_write(data, ABIT_UGURU_FAN_PWM + 1,
				967	attr->index, data->pwm_settings[attr->index],
				968	5) <= attr->nr) {
				969	data->pwm_settings[attr->index][attr->nr] =
				970	orig_val;
				971	ret = -EIO;
				972	}
				973	}
				974	mutex_unlock(&data->update_lock);
				975	return ret;
				976	}
				977
				978	static ssize_t show_pwm_sensor(struct device *dev,
				979	struct device_attribute devattr, char buf)
				980	{
				981	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				982	struct abituguru_data *data = dev_get_drvdata(dev);
				983	int i;
				984	/* We need to walk to the temp sensor addresses to find what
				985	the userspace id of the configured temp sensor is. */
				986	for (i = 0; i < data->bank1_sensors[ABIT_UGURU_TEMP_SENSOR]; i++)
				987	if (data->bank1_address[ABIT_UGURU_TEMP_SENSOR][i] ==
				988	(data->pwm_settings[attr->index][0] & 0x0F))
				989	return sprintf(buf, "%d\n", i+1);
				990
				991	return -ENXIO;
				992	}
				993
				994	static ssize_t store_pwm_sensor(struct device *dev, struct device_attribute
				995	devattr, const char buf, size_t count)
				996	{
				997	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				998	struct abituguru_data *data = dev_get_drvdata(dev);
				999	unsigned long val = simple_strtoul(buf, NULL, 10) - 1;
				1000	ssize_t ret = count;
				1001
				1002	mutex_lock(&data->update_lock);
				1003	if (val < data->bank1_sensors[ABIT_UGURU_TEMP_SENSOR]) {
				1004	u8 orig_val = data->pwm_settings[attr->index][0];
				1005	u8 address = data->bank1_address[ABIT_UGURU_TEMP_SENSOR][val];
				1006	data->pwm_settings[attr->index][0] &= 0xF0;
				1007	data->pwm_settings[attr->index][0] \|= address;
				1008	if (data->pwm_settings[attr->index][0] != orig_val) {
				1009	if (abituguru_write(data, ABIT_UGURU_FAN_PWM + 1,
				1010	attr->index,
				1011	data->pwm_settings[attr->index],
				1012	5) < 1) {
				1013	data->pwm_settings[attr->index][0] = orig_val;
				1014	ret = -EIO;
				1015	}
				1016	}
				1017	}
				1018	else
				1019	ret = -EINVAL;
				1020	mutex_unlock(&data->update_lock);
				1021	return ret;
				1022	}
				1023
				1024	static ssize_t show_pwm_enable(struct device *dev,
				1025	struct device_attribute devattr, char buf)
				1026	{
				1027	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				1028	struct abituguru_data *data = dev_get_drvdata(dev);
				1029	int res = 0;
				1030	if (data->pwm_settings[attr->index][0] & ABIT_UGURU_FAN_PWM_ENABLE)
				1031	res = 2;
				1032	return sprintf(buf, "%d\n", res);
				1033	}
				1034
				1035	static ssize_t store_pwm_enable(struct device *dev, struct device_attribute
				1036	devattr, const char buf, size_t count)
				1037	{
				1038	struct sensor_device_attribute_2 *attr = to_sensor_dev_attr_2(devattr);
				1039	struct abituguru_data *data = dev_get_drvdata(dev);
				1040	u8 orig_val, user_val = simple_strtoul(buf, NULL, 10);
				1041	ssize_t ret = count;
				1042
				1043	mutex_lock(&data->update_lock);
				1044	orig_val = data->pwm_settings[attr->index][0];
				1045	switch (user_val) {
				1046	case 0:
				1047	data->pwm_settings[attr->index][0] &=
				1048	~ABIT_UGURU_FAN_PWM_ENABLE;
				1049	break;
				1050	case 2:
				1051	data->pwm_settings[attr->index][0] \|=
				1052	ABIT_UGURU_FAN_PWM_ENABLE;
				1053	break;
				1054	default:
				1055	ret = -EINVAL;
				1056	}
				1057	if ((data->pwm_settings[attr->index][0] != orig_val) &&
				1058	(abituguru_write(data, ABIT_UGURU_FAN_PWM + 1,
				1059	attr->index, data->pwm_settings[attr->index],
				1060	5) < 1)) {
				1061	data->pwm_settings[attr->index][0] = orig_val;
				1062	ret = -EIO;
				1063	}
				1064	mutex_unlock(&data->update_lock);
				1065	return ret;
				1066	}
				1067
				1068	static ssize_t show_name(struct device *dev,
				1069	struct device_attribute devattr, char buf)
				1070	{
				1071	return sprintf(buf, "%s\n", ABIT_UGURU_NAME);
				1072	}
				1073
				1074	/* Sysfs attr templates, the real entries are generated automatically. */
				1075	static const
				1076	struct sensor_device_attribute_2 abituguru_sysfs_bank1_templ[2][9] = {
				1077	{
				1078	SENSOR_ATTR_2(in%d_input, 0444, show_bank1_value, NULL, 0, 0),
				1079	SENSOR_ATTR_2(in%d_min, 0644, show_bank1_setting,
				1080	store_bank1_setting, 1, 0),
				1081	SENSOR_ATTR_2(in%d_min_alarm, 0444, show_bank1_alarm, NULL,
				1082	ABIT_UGURU_VOLT_LOW_ALARM_FLAG, 0),
				1083	SENSOR_ATTR_2(in%d_max, 0644, show_bank1_setting,
				1084	store_bank1_setting, 2, 0),
				1085	SENSOR_ATTR_2(in%d_max_alarm, 0444, show_bank1_alarm, NULL,
				1086	ABIT_UGURU_VOLT_HIGH_ALARM_FLAG, 0),
				1087	SENSOR_ATTR_2(in%d_beep, 0644, show_bank1_mask,
				1088	store_bank1_mask, ABIT_UGURU_BEEP_ENABLE, 0),
				1089	SENSOR_ATTR_2(in%d_shutdown, 0644, show_bank1_mask,
				1090	store_bank1_mask, ABIT_UGURU_SHUTDOWN_ENABLE, 0),
				1091	SENSOR_ATTR_2(in%d_min_alarm_enable, 0644, show_bank1_mask,
				1092	store_bank1_mask, ABIT_UGURU_VOLT_LOW_ALARM_ENABLE, 0),
				1093	SENSOR_ATTR_2(in%d_max_alarm_enable, 0644, show_bank1_mask,
				1094	store_bank1_mask, ABIT_UGURU_VOLT_HIGH_ALARM_ENABLE, 0),
				1095	}, {
				1096	SENSOR_ATTR_2(temp%d_input, 0444, show_bank1_value, NULL, 0, 0),
				1097	SENSOR_ATTR_2(temp%d_alarm, 0444, show_bank1_alarm, NULL,
				1098	ABIT_UGURU_TEMP_HIGH_ALARM_FLAG, 0),
				1099	SENSOR_ATTR_2(temp%d_max, 0644, show_bank1_setting,
				1100	store_bank1_setting, 1, 0),
				1101	SENSOR_ATTR_2(temp%d_crit, 0644, show_bank1_setting,
				1102	store_bank1_setting, 2, 0),
				1103	SENSOR_ATTR_2(temp%d_beep, 0644, show_bank1_mask,
				1104	store_bank1_mask, ABIT_UGURU_BEEP_ENABLE, 0),
				1105	SENSOR_ATTR_2(temp%d_shutdown, 0644, show_bank1_mask,
				1106	store_bank1_mask, ABIT_UGURU_SHUTDOWN_ENABLE, 0),
				1107	SENSOR_ATTR_2(temp%d_alarm_enable, 0644, show_bank1_mask,
				1108	store_bank1_mask, ABIT_UGURU_TEMP_HIGH_ALARM_ENABLE, 0),
				1109	}
				1110	};
				1111
				1112	static const struct sensor_device_attribute_2 abituguru_sysfs_fan_templ[6] = {
				1113	SENSOR_ATTR_2(fan%d_input, 0444, show_bank2_value, NULL, 0, 0),
				1114	SENSOR_ATTR_2(fan%d_alarm, 0444, show_bank2_alarm, NULL, 0, 0),
				1115	SENSOR_ATTR_2(fan%d_min, 0644, show_bank2_setting,
				1116	store_bank2_setting, 1, 0),
				1117	SENSOR_ATTR_2(fan%d_beep, 0644, show_bank2_mask,
				1118	store_bank2_mask, ABIT_UGURU_BEEP_ENABLE, 0),
				1119	SENSOR_ATTR_2(fan%d_shutdown, 0644, show_bank2_mask,
				1120	store_bank2_mask, ABIT_UGURU_SHUTDOWN_ENABLE, 0),
				1121	SENSOR_ATTR_2(fan%d_alarm_enable, 0644, show_bank2_mask,
				1122	store_bank2_mask, ABIT_UGURU_FAN_LOW_ALARM_ENABLE, 0),
				1123	};
				1124
				1125	static const struct sensor_device_attribute_2 abituguru_sysfs_pwm_templ[6] = {
				1126	SENSOR_ATTR_2(pwm%d_enable, 0644, show_pwm_enable,
				1127	store_pwm_enable, 0, 0),
				1128	SENSOR_ATTR_2(pwm%d_auto_channels_temp, 0644, show_pwm_sensor,
				1129	store_pwm_sensor, 0, 0),
				1130	SENSOR_ATTR_2(pwm%d_auto_point1_pwm, 0644, show_pwm_setting,
				1131	store_pwm_setting, 1, 0),
				1132	SENSOR_ATTR_2(pwm%d_auto_point2_pwm, 0644, show_pwm_setting,
				1133	store_pwm_setting, 2, 0),
				1134	SENSOR_ATTR_2(pwm%d_auto_point1_temp, 0644, show_pwm_setting,
				1135	store_pwm_setting, 3, 0),
				1136	SENSOR_ATTR_2(pwm%d_auto_point2_temp, 0644, show_pwm_setting,
				1137	store_pwm_setting, 4, 0),
				1138	};
				1139
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1140	static struct sensor_device_attribute_2 abituguru_sysfs_attr[] = {
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1141	SENSOR_ATTR_2(name, 0444, show_name, NULL, 0, 0),
				1142	};
				1143
				1144	static int __devinit abituguru_probe(struct platform_device *pdev)
				1145	{
				1146	struct abituguru_data *data;
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1147	int i, j, used, sysfs_names_free, sysfs_attr_i, res = -ENODEV;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1148	char *sysfs_filename;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1149
				1150	/* El weirdo probe order, to keep the sysfs order identical to the
				1151	BIOS and window-appliction listing order. */
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1152	const u8 probe_order[ABIT_UGURU_MAX_BANK1_SENSORS] = {
				1153	0x00, 0x01, 0x03, 0x04, 0x0A, 0x08, 0x0E, 0x02,
				1154	0x09, 0x06, 0x05, 0x0B, 0x0F, 0x0D, 0x07, 0x0C };
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1155
				1156	if (!(data = kzalloc(sizeof(struct abituguru_data), GFP_KERNEL)))
				1157	return -ENOMEM;
				1158
				1159	data->addr = platform_get_resource(pdev, IORESOURCE_IO, 0)->start;
				1160	mutex_init(&data->update_lock);
				1161	platform_set_drvdata(pdev, data);
				1162
				1163	/* See if the uGuru is ready */
				1164	if (inb_p(data->addr + ABIT_UGURU_DATA) == ABIT_UGURU_STATUS_INPUT)
				1165	data->uguru_ready = 1;
				1166
				1167	/* Completely read the uGuru this has 2 purposes:
				1168	- testread / see if one really is there.
				1169	- make an in memory copy of all the uguru settings for future use. */
				1170	if (abituguru_read(data, ABIT_UGURU_ALARM_BANK, 0,
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1171	data->alarms, 3, ABIT_UGURU_MAX_RETRIES) != 3)
				1172	goto abituguru_probe_error;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1173
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1174	for (i = 0; i < ABIT_UGURU_MAX_BANK1_SENSORS; i++) {
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1175	if (abituguru_read(data, ABIT_UGURU_SENSOR_BANK1, i,
				1176	&data->bank1_value[i], 1,
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1177	ABIT_UGURU_MAX_RETRIES) != 1)
				1178	goto abituguru_probe_error;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1179	if (abituguru_read(data, ABIT_UGURU_SENSOR_BANK1+1, i,
				1180	data->bank1_settings[i], 3,
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1181	ABIT_UGURU_MAX_RETRIES) != 3)
				1182	goto abituguru_probe_error;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1183	}
				1184	/* Note: We don't know how many bank2 sensors / pwms there really are,
				1185	but in order to "detect" this we need to read the maximum amount
				1186	anyways. If we read sensors/pwms not there we'll just read crap
				1187	this can't hurt. We need the detection because we don't want
				1188	unwanted writes, which will hurt! */
				1189	for (i = 0; i < ABIT_UGURU_MAX_BANK2_SENSORS; i++) {
				1190	if (abituguru_read(data, ABIT_UGURU_SENSOR_BANK2, i,
				1191	&data->bank2_value[i], 1,
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1192	ABIT_UGURU_MAX_RETRIES) != 1)
				1193	goto abituguru_probe_error;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1194	if (abituguru_read(data, ABIT_UGURU_SENSOR_BANK2+1, i,
				1195	data->bank2_settings[i], 2,
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1196	ABIT_UGURU_MAX_RETRIES) != 2)
				1197	goto abituguru_probe_error;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1198	}
				1199	for (i = 0; i < ABIT_UGURU_MAX_PWMS; i++) {
				1200	if (abituguru_read(data, ABIT_UGURU_FAN_PWM, i,
				1201	data->pwm_settings[i], 5,
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1202	ABIT_UGURU_MAX_RETRIES) != 5)
				1203	goto abituguru_probe_error;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1204	}
				1205	data->last_updated = jiffies;
				1206
				1207	/* Detect sensor types and fill the sysfs attr for bank1 */
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1208	sysfs_attr_i = 0;
				1209	sysfs_filename = data->sysfs_names;
				1210	sysfs_names_free = ABITUGURU_SYSFS_NAMES_LENGTH;
				1211	for (i = 0; i < ABIT_UGURU_MAX_BANK1_SENSORS; i++) {
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1212	res = abituguru_detect_bank1_sensor_type(data, probe_order[i]);
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1213	if (res < 0)
				1214	goto abituguru_probe_error;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1215	if (res == ABIT_UGURU_NC)
				1216	continue;
				1217
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1218	/* res 1 (temp) sensors have 7 sysfs entries, 0 (in) 9 */
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1219	for (j = 0; j < (res ? 7 : 9); j++) {
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1220	used = snprintf(sysfs_filename, sysfs_names_free,
				1221	abituguru_sysfs_bank1_templ[res][j].dev_attr.
				1222	attr.name, data->bank1_sensors[res] + res)
				1223	+ 1;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1224	data->sysfs_attr[sysfs_attr_i] =
				1225	abituguru_sysfs_bank1_templ[res][j];
				1226	data->sysfs_attr[sysfs_attr_i].dev_attr.attr.name =
				1227	sysfs_filename;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1228	data->sysfs_attr[sysfs_attr_i].index = probe_order[i];
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1229	sysfs_filename += used;
				1230	sysfs_names_free -= used;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1231	sysfs_attr_i++;
				1232	}
				1233	data->bank1_max_value[probe_order[i]] =
				1234	abituguru_bank1_max_value[res];
				1235	data->bank1_address[res][data->bank1_sensors[res]] =
				1236	probe_order[i];
				1237	data->bank1_sensors[res]++;
				1238	}
				1239	/* Detect number of sensors and fill the sysfs attr for bank2 (fans) */
				1240	abituguru_detect_no_bank2_sensors(data);
				1241	for (i = 0; i < data->bank2_sensors; i++) {
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1242	for (j = 0; j < ARRAY_SIZE(abituguru_sysfs_fan_templ); j++) {
				1243	used = snprintf(sysfs_filename, sysfs_names_free,
				1244	abituguru_sysfs_fan_templ[j].dev_attr.attr.name,
				1245	i + 1) + 1;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1246	data->sysfs_attr[sysfs_attr_i] =
				1247	abituguru_sysfs_fan_templ[j];
				1248	data->sysfs_attr[sysfs_attr_i].dev_attr.attr.name =
				1249	sysfs_filename;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1250	data->sysfs_attr[sysfs_attr_i].index = i;
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1251	sysfs_filename += used;
				1252	sysfs_names_free -= used;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1253	sysfs_attr_i++;
				1254	}
				1255	}
				1256	/* Detect number of sensors and fill the sysfs attr for pwms */
				1257	abituguru_detect_no_pwms(data);
				1258	for (i = 0; i < data->pwms; i++) {
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1259	for (j = 0; j < ARRAY_SIZE(abituguru_sysfs_pwm_templ); j++) {
				1260	used = snprintf(sysfs_filename, sysfs_names_free,
				1261	abituguru_sysfs_pwm_templ[j].dev_attr.attr.name,
				1262	i + 1) + 1;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1263	data->sysfs_attr[sysfs_attr_i] =
				1264	abituguru_sysfs_pwm_templ[j];
				1265	data->sysfs_attr[sysfs_attr_i].dev_attr.attr.name =
				1266	sysfs_filename;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1267	data->sysfs_attr[sysfs_attr_i].index = i;
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1268	sysfs_filename += used;
				1269	sysfs_names_free -= used;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1270	sysfs_attr_i++;
				1271	}
				1272	}
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1273	/* Fail safe check, this should never happen! */
				1274	if (sysfs_names_free < 0) {
Joe Perches	28ebfa1	2010-10-20 06:51:25 +0000	[diff] [blame]	1275	pr_err("Fatal error ran out of space for sysfs attr names. %s %s",
				1276	never_happen, report_this);
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1277	res = -ENAMETOOLONG;
				1278	goto abituguru_probe_error;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1279	}
Joe Perches	28ebfa1	2010-10-20 06:51:25 +0000	[diff] [blame]	1280	pr_info("found Abit uGuru\n");
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1281
				1282	/* Register sysfs hooks */
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1283	for (i = 0; i < sysfs_attr_i; i++)
Hans de Goede	bc8f0a2	2007-02-14 21:15:05 +0100	[diff] [blame]	1284	if (device_create_file(&pdev->dev,
				1285	&data->sysfs_attr[i].dev_attr))
				1286	goto abituguru_probe_error;
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1287	for (i = 0; i < ARRAY_SIZE(abituguru_sysfs_attr); i++)
Hans de Goede	bc8f0a2	2007-02-14 21:15:05 +0100	[diff] [blame]	1288	if (device_create_file(&pdev->dev,
				1289	&abituguru_sysfs_attr[i].dev_attr))
				1290	goto abituguru_probe_error;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1291
Tony Jones	1beeffe	2007-08-20 13:46:20 -0700	[diff] [blame]	1292	data->hwmon_dev = hwmon_device_register(&pdev->dev);
				1293	if (!IS_ERR(data->hwmon_dev))
Hans de Goede	bc8f0a2	2007-02-14 21:15:05 +0100	[diff] [blame]	1294	return 0; /* success */
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1295
Tony Jones	1beeffe	2007-08-20 13:46:20 -0700	[diff] [blame]	1296	res = PTR_ERR(data->hwmon_dev);
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1297	abituguru_probe_error:
Hans de Goede	bc8f0a2	2007-02-14 21:15:05 +0100	[diff] [blame]	1298	for (i = 0; data->sysfs_attr[i].dev_attr.attr.name; i++)
				1299	device_remove_file(&pdev->dev, &data->sysfs_attr[i].dev_attr);
				1300	for (i = 0; i < ARRAY_SIZE(abituguru_sysfs_attr); i++)
				1301	device_remove_file(&pdev->dev,
				1302	&abituguru_sysfs_attr[i].dev_attr);
Jean Delvare	04a6217	2007-06-12 13:57:19 +0200	[diff] [blame]	1303	platform_set_drvdata(pdev, NULL);
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1304	kfree(data);
				1305	return res;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1306	}
				1307
				1308	static int __devexit abituguru_remove(struct platform_device *pdev)
				1309	{
Hans de Goede	bc8f0a2	2007-02-14 21:15:05 +0100	[diff] [blame]	1310	int i;
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1311	struct abituguru_data *data = platform_get_drvdata(pdev);
				1312
Tony Jones	1beeffe	2007-08-20 13:46:20 -0700	[diff] [blame]	1313	hwmon_device_unregister(data->hwmon_dev);
Hans de Goede	bc8f0a2	2007-02-14 21:15:05 +0100	[diff] [blame]	1314	for (i = 0; data->sysfs_attr[i].dev_attr.attr.name; i++)
				1315	device_remove_file(&pdev->dev, &data->sysfs_attr[i].dev_attr);
				1316	for (i = 0; i < ARRAY_SIZE(abituguru_sysfs_attr); i++)
				1317	device_remove_file(&pdev->dev,
				1318	&abituguru_sysfs_attr[i].dev_attr);
Jean Delvare	04a6217	2007-06-12 13:57:19 +0200	[diff] [blame]	1319	platform_set_drvdata(pdev, NULL);
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1320	kfree(data);
				1321
				1322	return 0;
				1323	}
				1324
				1325	static struct abituguru_data abituguru_update_device(struct device dev)
				1326	{
				1327	int i, err;
				1328	struct abituguru_data *data = dev_get_drvdata(dev);
				1329	/* fake a complete successful read if no update necessary. */
				1330	char success = 1;
				1331
				1332	mutex_lock(&data->update_lock);
				1333	if (time_after(jiffies, data->last_updated + HZ)) {
				1334	success = 0;
				1335	if ((err = abituguru_read(data, ABIT_UGURU_ALARM_BANK, 0,
				1336	data->alarms, 3, 0)) != 3)
				1337	goto LEAVE_UPDATE;
Hans de Goede	a2392e0	2006-06-04 20:23:01 +0200	[diff] [blame]	1338	for (i = 0; i < ABIT_UGURU_MAX_BANK1_SENSORS; i++) {
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1339	if ((err = abituguru_read(data,
				1340	ABIT_UGURU_SENSOR_BANK1, i,
				1341	&data->bank1_value[i], 1, 0)) != 1)
				1342	goto LEAVE_UPDATE;
				1343	if ((err = abituguru_read(data,
				1344	ABIT_UGURU_SENSOR_BANK1 + 1, i,
				1345	data->bank1_settings[i], 3, 0)) != 3)
				1346	goto LEAVE_UPDATE;
				1347	}
				1348	for (i = 0; i < data->bank2_sensors; i++)
				1349	if ((err = abituguru_read(data,
				1350	ABIT_UGURU_SENSOR_BANK2, i,
				1351	&data->bank2_value[i], 1, 0)) != 1)
				1352	goto LEAVE_UPDATE;
				1353	/* success! */
				1354	success = 1;
				1355	data->update_timeouts = 0;
				1356	LEAVE_UPDATE:
				1357	/* handle timeout condition */
Hans de Goede	faf9b61	2006-08-25 10:24:20 +0200	[diff] [blame]	1358	if (!success && (err == -EBUSY \|\| err >= 0)) {
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1359	/* No overflow please */
				1360	if (data->update_timeouts < 255u)
				1361	data->update_timeouts++;
				1362	if (data->update_timeouts <= ABIT_UGURU_MAX_TIMEOUTS) {
				1363	ABIT_UGURU_DEBUG(3, "timeout exceeded, will "
				1364	"try again next update\n");
				1365	/* Just a timeout, fake a successful read */
				1366	success = 1;
				1367	} else
				1368	ABIT_UGURU_DEBUG(1, "timeout exceeded %d "
				1369	"times waiting for more input state\n",
				1370	(int)data->update_timeouts);
				1371	}
				1372	/* On success set last_updated */
				1373	if (success)
				1374	data->last_updated = jiffies;
				1375	}
				1376	mutex_unlock(&data->update_lock);
				1377
				1378	if (success)
				1379	return data;
				1380	else
				1381	return NULL;
				1382	}
				1383
Hans de Goede	360b9ab	2006-08-28 14:42:24 +0200	[diff] [blame]	1384	#ifdef CONFIG_PM
				1385	static int abituguru_suspend(struct platform_device *pdev, pm_message_t state)
				1386	{
				1387	struct abituguru_data *data = platform_get_drvdata(pdev);
				1388	/* make sure all communications with the uguru are done and no new
				1389	ones are started */
				1390	mutex_lock(&data->update_lock);
				1391	return 0;
				1392	}
				1393
				1394	static int abituguru_resume(struct platform_device *pdev)
				1395	{
				1396	struct abituguru_data *data = platform_get_drvdata(pdev);
				1397	/* See if the uGuru is still ready */
				1398	if (inb_p(data->addr + ABIT_UGURU_DATA) != ABIT_UGURU_STATUS_INPUT)
				1399	data->uguru_ready = 0;
				1400	mutex_unlock(&data->update_lock);
				1401	return 0;
				1402	}
				1403	#else
				1404	#define abituguru_suspend NULL
				1405	#define abituguru_resume NULL
				1406	#endif /* CONFIG_PM */
				1407
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1408	static struct platform_driver abituguru_driver = {
				1409	.driver = {
				1410	.owner = THIS_MODULE,
				1411	.name = ABIT_UGURU_NAME,
				1412	},
Hans de Goede	360b9ab	2006-08-28 14:42:24 +0200	[diff] [blame]	1413	.probe = abituguru_probe,
				1414	.remove = __devexit_p(abituguru_remove),
				1415	.suspend = abituguru_suspend,
				1416	.resume = abituguru_resume,
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1417	};
				1418
				1419	static int __init abituguru_detect(void)
				1420	{
				1421	/* See if there is an uguru there. After a reboot uGuru will hold 0x00
				1422	at DATA and 0xAC, when this driver has already been loaded once
				1423	DATA will hold 0x08. For most uGuru's CMD will hold 0xAC in either
				1424	scenario but some will hold 0x00.
Lucas De Marchi	25985ed	2011-03-30 22:57:33 -0300	[diff] [blame]	1425	Some uGuru's initially hold 0x09 at DATA and will only hold 0x08
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1426	after reading CMD first, so CMD must be read first! */
				1427	u8 cmd_val = inb_p(ABIT_UGURU_BASE + ABIT_UGURU_CMD);
				1428	u8 data_val = inb_p(ABIT_UGURU_BASE + ABIT_UGURU_DATA);
				1429	if (((data_val == 0x00) \|\| (data_val == 0x08)) &&
				1430	((cmd_val == 0x00) \|\| (cmd_val == 0xAC)))
				1431	return ABIT_UGURU_BASE;
				1432
				1433	ABIT_UGURU_DEBUG(2, "no Abit uGuru found, data = 0x%02X, cmd = "
				1434	"0x%02X\n", (unsigned int)data_val, (unsigned int)cmd_val);
				1435
				1436	if (force) {
Joe Perches	28ebfa1	2010-10-20 06:51:25 +0000	[diff] [blame]	1437	pr_info("Assuming Abit uGuru is present because of \"force\" parameter\n");
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1438	return ABIT_UGURU_BASE;
				1439	}
				1440
				1441	/* No uGuru found */
				1442	return -ENODEV;
				1443	}
				1444
				1445	static struct platform_device *abituguru_pdev;
				1446
				1447	static int __init abituguru_init(void)
				1448	{
				1449	int address, err;
				1450	struct resource res = { .flags = IORESOURCE_IO };
Jeff Garzik	1855256	2007-10-03 15:15:40 -0400	[diff] [blame]	1451	const char *board_vendor = dmi_get_system_info(DMI_BOARD_VENDOR);
Hans de Goede	c182f5b	2007-07-10 17:09:57 +0200	[diff] [blame]	1452
				1453	/* safety check, refuse to load on non Abit motherboards */
				1454	if (!force && (!board_vendor \|\|
				1455	strcmp(board_vendor, "http://www.abit.com.tw/")))
				1456	return -ENODEV;
Hans de Goede	c182f5b	2007-07-10 17:09:57 +0200	[diff] [blame]	1457
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1458	address = abituguru_detect();
				1459	if (address < 0)
				1460	return address;
				1461
				1462	err = platform_driver_register(&abituguru_driver);
				1463	if (err)
				1464	goto exit;
				1465
				1466	abituguru_pdev = platform_device_alloc(ABIT_UGURU_NAME, address);
				1467	if (!abituguru_pdev) {
Joe Perches	28ebfa1	2010-10-20 06:51:25 +0000	[diff] [blame]	1468	pr_err("Device allocation failed\n");
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1469	err = -ENOMEM;
				1470	goto exit_driver_unregister;
				1471	}
				1472
				1473	res.start = address;
				1474	res.end = address + ABIT_UGURU_REGION_LENGTH - 1;
				1475	res.name = ABIT_UGURU_NAME;
				1476
				1477	err = platform_device_add_resources(abituguru_pdev, &res, 1);
				1478	if (err) {
Joe Perches	28ebfa1	2010-10-20 06:51:25 +0000	[diff] [blame]	1479	pr_err("Device resource addition failed (%d)\n", err);
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1480	goto exit_device_put;
				1481	}
				1482
				1483	err = platform_device_add(abituguru_pdev);
				1484	if (err) {
Joe Perches	28ebfa1	2010-10-20 06:51:25 +0000	[diff] [blame]	1485	pr_err("Device addition failed (%d)\n", err);
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1486	goto exit_device_put;
				1487	}
				1488
				1489	return 0;
				1490
				1491	exit_device_put:
				1492	platform_device_put(abituguru_pdev);
				1493	exit_driver_unregister:
				1494	platform_driver_unregister(&abituguru_driver);
				1495	exit:
				1496	return err;
				1497	}
				1498
				1499	static void __exit abituguru_exit(void)
				1500	{
				1501	platform_device_unregister(abituguru_pdev);
				1502	platform_driver_unregister(&abituguru_driver);
				1503	}
				1504
Hans de Goede	93d0cc5	2011-03-21 17:59:36 +0100	[diff] [blame]	1505	MODULE_AUTHOR("Hans de Goede <hdegoede@redhat.com>");
Hans de Goede	f2b84bb	2006-06-04 20:22:24 +0200	[diff] [blame]	1506	MODULE_DESCRIPTION("Abit uGuru Sensor device");
				1507	MODULE_LICENSE("GPL");
				1508
				1509	module_init(abituguru_init);
				1510	module_exit(abituguru_exit);