1 /* drivers/input/sensors/sensor-dev.c - handle all gsensor in this file
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3 * Copyright (C) 2012-2015 ROCKCHIP.
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4 * Author: luowei <lw@rock-chips.com>
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6 * This software is licensed under the terms of the GNU General Public
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7 * License version 2, as published by the Free Software Foundation, and
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8 * may be copied, distributed, and modified under those terms.
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10 * This program is distributed in the hope that it will be useful,
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11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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13 * GNU General Public License for more details.
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17 #include <linux/interrupt.h>
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18 #include <linux/i2c.h>
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19 #include <linux/slab.h>
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20 #include <linux/irq.h>
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21 #include <linux/miscdevice.h>
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22 #include <linux/gpio.h>
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23 #include <asm/uaccess.h>
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24 #include <asm/atomic.h>
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25 #include <linux/delay.h>
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26 #include <linux/input.h>
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27 #include <linux/workqueue.h>
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28 #include <linux/freezer.h>
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29 #include <mach/gpio.h>
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30 #include <mach/board.h>
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31 #ifdef CONFIG_HAS_EARLYSUSPEND
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32 #include <linux/earlysuspend.h>
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34 #include <linux/akm8975.h>
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35 #include <linux/l3g4200d.h>
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36 #include <linux/sensor-dev.h>
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40 #define SENSOR_DEBUG_TYPE SENSOR_TYPE_ACCEL
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41 #define DBG(x...) if(sensor->pdata->type == SENSOR_DEBUG_TYPE) printk(x)
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46 struct sensor_private_data *g_sensor[SENSOR_NUM_TYPES];
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47 static struct sensor_operate *sensor_ops[SENSOR_NUM_ID];
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48 static struct class *g_sensor_class[SENSOR_NUM_TYPES];
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51 static int sensor_get_id(struct i2c_client *client, int *value)
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53 struct sensor_private_data *sensor =
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54 (struct sensor_private_data *) i2c_get_clientdata(client);
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56 char temp = sensor->ops->id_reg;
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59 if(sensor->ops->id_reg >= 0)
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63 result = sensor_rx_data(client, &temp, 1);
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72 if(*value != sensor->ops->id_data)
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74 printk("%s:id=0x%x is not 0x%x\n",__func__,*value, sensor->ops->id_data);
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78 DBG("%s:devid=0x%x\n",__func__,*value);
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84 static int sensor_initial(struct i2c_client *client)
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86 struct sensor_private_data *sensor =
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87 (struct sensor_private_data *) i2c_get_clientdata(client);
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90 //register setting according to chip datasheet
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91 result = sensor->ops->init(client);
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94 printk("%s:fail to init sensor\n",__func__);
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99 DBG("%s:ctrl_data=0x%x\n",__func__,sensor->ops->ctrl_data);
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105 static int sensor_chip_init(struct i2c_client *client)
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107 struct sensor_private_data *sensor =
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108 (struct sensor_private_data *) i2c_get_clientdata(client);
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109 struct sensor_operate *ops = sensor_ops[(int)sensor->i2c_id->driver_data];
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118 printk("%s:ops is null,sensor name is %s\n",__func__,sensor->i2c_id->name);
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123 if((sensor->type != ops->type) || ((int)sensor->i2c_id->driver_data != ops->id_i2c))
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125 printk("%s:type or id is different:type=%d,%d,id=%d,%d\n",__func__,sensor->type, ops->type, (int)sensor->i2c_id->driver_data, ops->id_i2c);
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130 if(!ops->init || !ops->active || !ops->report)
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132 printk("%s:error:some function is needed\n",__func__);
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137 result = sensor_get_id(sensor->client, &sensor->devid);//get id
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140 printk("%s:fail to read %s devid:0x%x\n",__func__, sensor->i2c_id->name, sensor->devid);
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144 printk("%s:%s:devid=0x%x,ops=0x%p\n",__func__, sensor->i2c_id->name, sensor->devid,sensor->ops);
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146 result = sensor_initial(sensor->client); //init sensor
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149 printk("%s:fail to init sensor\n",__func__);
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160 static int sensor_reset_rate(struct i2c_client *client, int rate)
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162 struct sensor_private_data *sensor =
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163 (struct sensor_private_data *) i2c_get_clientdata(client);
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166 result = sensor->ops->active(client,SENSOR_OFF,rate);
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167 sensor->ops->init(client);
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168 result = sensor->ops->active(client,SENSOR_ON,rate);
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173 static int sensor_get_data(struct i2c_client *client)
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175 struct sensor_private_data *sensor =
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176 (struct sensor_private_data *) i2c_get_clientdata(client);
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179 result = sensor->ops->report(client);
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183 /* set data_ready */
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184 atomic_set(&sensor->data_ready, 1);
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185 /*wake up data_ready work queue*/
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186 wake_up(&sensor->data_ready_wq);
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193 int sensor_get_cached_data(struct i2c_client* client, char *buffer, int length, struct sensor_axis *axis)
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195 struct sensor_private_data* sensor = (struct sensor_private_data *)i2c_get_clientdata(client);
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196 wait_event_interruptible_timeout(sensor->data_ready_wq,
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197 atomic_read(&(sensor->data_ready) ),
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198 msecs_to_jiffies(1000) );
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199 if ( 0 == atomic_read(&(sensor->data_ready) ) ) {
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200 printk("waiting 'data_ready_wq' timed out.");
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205 mutex_lock(&sensor->data_mutex);
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207 switch(sensor->type)
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209 case SENSOR_TYPE_ACCEL:
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210 *axis = sensor->axis;
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213 case SENSOR_TYPE_COMPASS:
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214 memcpy(buffer, sensor->sensor_data, length);
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218 mutex_unlock(&sensor->data_mutex);
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227 static void sensor_delaywork_func(struct work_struct *work)
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229 struct delayed_work *delaywork = container_of(work, struct delayed_work, work);
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230 struct sensor_private_data *sensor = container_of(delaywork, struct sensor_private_data, delaywork);
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231 struct i2c_client *client = sensor->client;
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233 mutex_lock(&sensor->sensor_mutex);
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234 if (sensor_get_data(client) < 0)
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235 DBG(KERN_ERR "%s: Get data failed\n",__func__);
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237 if(!sensor->pdata->irq_enable)//restart work while polling
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238 schedule_delayed_work(&sensor->delaywork, msecs_to_jiffies(sensor->pdata->poll_delay_ms));
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241 //if((sensor->ops->trig == IRQF_TRIGGER_LOW) || (sensor->ops->trig == IRQF_TRIGGER_HIGH))
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242 //enable_irq(sensor->client->irq);
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244 mutex_unlock(&sensor->sensor_mutex);
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246 DBG("%s:%s\n",__func__,sensor->i2c_id->name);
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250 * This is a threaded IRQ handler so can access I2C/SPI. Since all
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251 * interrupts are clear on read the IRQ line will be reasserted and
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252 * the physical IRQ will be handled again if another interrupt is
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253 * asserted while we run - in the normal course of events this is a
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254 * rare occurrence so we save I2C/SPI reads. We're also assuming that
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255 * it's rare to get lots of interrupts firing simultaneously so try to
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258 static irqreturn_t sensor_interrupt(int irq, void *dev_id)
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260 struct sensor_private_data *sensor = (struct sensor_private_data *)dev_id;
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263 if (sensor_get_data(sensor->client) < 0)
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264 DBG(KERN_ERR "%s: Get data failed\n",__func__);
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265 msleep(sensor->pdata->poll_delay_ms);
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268 //if((sensor->ops->trig == IRQF_TRIGGER_LOW) || (sensor->ops->trig == IRQF_TRIGGER_HIGH))
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269 //disable_irq_nosync(irq);
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270 //schedule_delayed_work(&sensor->delaywork, msecs_to_jiffies(sensor->pdata->poll_delay_ms));
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271 DBG("%s:irq=%d\n",__func__,irq);
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272 return IRQ_HANDLED;
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276 static int sensor_irq_init(struct i2c_client *client)
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278 struct sensor_private_data *sensor =
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279 (struct sensor_private_data *) i2c_get_clientdata(client);
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282 if((sensor->pdata->irq_enable)&&(sensor->ops->trig != SENSOR_UNKNOW_DATA))
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284 //INIT_DELAYED_WORK(&sensor->delaywork, sensor_delaywork_func);
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285 if(sensor->pdata->poll_delay_ms < 0)
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286 sensor->pdata->poll_delay_ms = 30;
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288 result = gpio_request(client->irq, sensor->i2c_id->name);
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291 printk("%s:fail to request gpio :%d\n",__func__,client->irq);
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294 gpio_pull_updown(client->irq, PullEnable);
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295 irq = gpio_to_irq(client->irq);
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296 //result = request_irq(irq, sensor_interrupt, sensor->ops->trig, sensor->ops->name, sensor);
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297 result = request_threaded_irq(irq, NULL, sensor_interrupt, sensor->ops->trig, sensor->ops->name, sensor);
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299 printk(KERN_ERR "%s:fail to request irq = %d, ret = 0x%x\n",__func__, irq, result);
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303 if((sensor->pdata->type == SENSOR_TYPE_GYROSCOPE) || (sensor->pdata->type == SENSOR_TYPE_ACCEL))
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304 disable_irq_nosync(client->irq);//disable irq
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305 if(((sensor->pdata->type == SENSOR_TYPE_LIGHT) || (sensor->pdata->type == SENSOR_TYPE_PROXIMITY))&& (!(sensor->ops->trig & IRQF_SHARED)))
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306 disable_irq_nosync(client->irq);//disable irq
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307 printk("%s:use irq=%d\n",__func__,irq);
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309 else if(!sensor->pdata->irq_enable)
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311 INIT_DELAYED_WORK(&sensor->delaywork, sensor_delaywork_func);
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312 if(sensor->pdata->poll_delay_ms < 0)
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313 sensor->pdata->poll_delay_ms = 30;
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315 printk("%s:use polling,delay=%d ms\n",__func__,sensor->pdata->poll_delay_ms);
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322 #ifdef CONFIG_HAS_EARLYSUSPEND
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323 static void sensor_suspend(struct early_suspend *h)
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325 struct sensor_private_data *sensor =
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326 container_of(h, struct sensor_private_data, early_suspend);
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328 if(sensor->ops->suspend)
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329 sensor->ops->suspend(sensor->client);
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333 static void sensor_resume(struct early_suspend *h)
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335 struct sensor_private_data *sensor =
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336 container_of(h, struct sensor_private_data, early_suspend);
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338 if(sensor->ops->resume)
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339 sensor->ops->resume(sensor->client);
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343 static int gsensor_dev_open(struct inode *inode, struct file *file)
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345 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_ACCEL];
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346 //struct i2c_client *client = sensor->client;
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355 static int gsensor_dev_release(struct inode *inode, struct file *file)
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357 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_ACCEL];
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358 //struct i2c_client *client = sensor->client;
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366 /* ioctl - I/O control */
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367 static long gsensor_dev_ioctl(struct file *file,
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368 unsigned int cmd, unsigned long arg)
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370 struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_ACCEL];
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371 struct i2c_client *client = sensor->client;
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372 void __user *argp = (void __user *)arg;
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373 struct sensor_axis axis = {0};
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378 case GSENSOR_IOCTL_APP_SET_RATE:
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379 if (copy_from_user(&rate, argp, sizeof(rate)))
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390 case GSENSOR_IOCTL_START:
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391 DBG("%s:GSENSOR_IOCTL_START start,status=%d\n", __func__,sensor->status_cur);
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392 mutex_lock(&sensor->operation_mutex);
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393 if(++sensor->start_count == 1)
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395 if(sensor->status_cur == SENSOR_OFF)
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397 atomic_set(&(sensor->data_ready), 0);
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398 if ( (result = sensor->ops->active(client, 1, 0) ) < 0 ) {
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399 mutex_unlock(&sensor->operation_mutex);
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400 printk("%s:fail to active sensor,ret=%d\n",__func__,result);
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403 if(sensor->pdata->irq_enable)
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405 DBG("%s:enable irq,irq=%d\n",__func__,client->irq);
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406 enable_irq(client->irq); //enable irq
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410 PREPARE_DELAYED_WORK(&sensor->delaywork, sensor_delaywork_func);
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411 schedule_delayed_work(&sensor->delaywork, msecs_to_jiffies(sensor->pdata->poll_delay_ms));
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413 sensor->status_cur = SENSOR_ON;
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416 mutex_unlock(&sensor->operation_mutex);
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417 DBG("%s:GSENSOR_IOCTL_START OK\n", __func__);
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420 case GSENSOR_IOCTL_CLOSE:
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421 DBG("%s:GSENSOR_IOCTL_CLOSE start,status=%d\n", __func__,sensor->status_cur);
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422 mutex_lock(&sensor->operation_mutex);
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423 if(--sensor->start_count == 0)
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425 if(sensor->status_cur == SENSOR_ON)
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427 atomic_set(&(sensor->data_ready), 0);
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428 if ( (result = sensor->ops->active(client, 0, 0) ) < 0 ) {
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429 mutex_unlock(&sensor->operation_mutex);
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433 if(sensor->pdata->irq_enable)
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435 DBG("%s:disable irq,irq=%d\n",__func__,client->irq);
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436 disable_irq_nosync(client->irq);//disable irq
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439 cancel_delayed_work_sync(&sensor->delaywork);
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440 sensor->status_cur = SENSOR_OFF;
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443 DBG("%s:GSENSOR_IOCTL_CLOSE OK\n", __func__);
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446 mutex_unlock(&sensor->operation_mutex);
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449 case GSENSOR_IOCTL_APP_SET_RATE:
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450 DBG("%s:GSENSOR_IOCTL_APP_SET_RATE start\n", __func__);
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451 mutex_lock(&sensor->operation_mutex);
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452 result = sensor_reset_rate(client, rate);
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454 mutex_unlock(&sensor->operation_mutex);
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458 sensor->status_cur = SENSOR_ON;
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459 mutex_unlock(&sensor->operation_mutex);
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460 DBG("%s:GSENSOR_IOCTL_APP_SET_RATE OK\n", __func__);
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463 case GSENSOR_IOCTL_GETDATA:
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464 mutex_lock(&sensor->data_mutex);
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465 memcpy(&axis, &sensor->axis, sizeof(sensor->axis)); //get data from buffer
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466 mutex_unlock(&sensor->data_mutex);
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474 case GSENSOR_IOCTL_GETDATA:
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475 if ( copy_to_user(argp, &axis, sizeof(axis) ) ) {
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476 printk("failed to copy sense data to user space.");
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480 DBG("%s:GSENSOR_IOCTL_GETDATA OK\n", __func__);
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490 static ssize_t gsensor_set_orientation_online(struct class *class,
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491 struct class_attribute *attr, const char *buf, size_t count)
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494 char orientation[20];
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497 struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_ACCEL];
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498 struct sensor_platform_data *pdata = sensor->pdata;
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501 char *p = strstr(buf,"gsensor_class");
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502 int start = strcspn(p,"{");
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503 int end = strcspn(p,"}");
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505 strncpy(orientation,p+start,end-start+1);
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509 while(strncmp(tmp,"}",1)!=0)
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511 if((strncmp(tmp,",",1)==0)||(strncmp(tmp,"{",1)==0))
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517 else if(strncmp(tmp,"-",1)==0)
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519 pdata->orientation[i++]=-1;
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520 DBG("i=%d,data=%d\n",i,pdata->orientation[i]);
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525 pdata->orientation[i++]=tmp[0]-48;
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526 DBG("----i=%d,data=%d\n",i,pdata->orientation[i]);
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534 DBG("i=%d gsensor_info=%d\n",i,pdata->orientation[i]);
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539 static CLASS_ATTR(orientation, 0660, NULL, gsensor_set_orientation_online);
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541 static int gsensor_class_init(void)
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544 struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_ACCEL];
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545 g_sensor_class[SENSOR_TYPE_ACCEL] = class_create(THIS_MODULE, "gsensor_class");
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546 ret = class_create_file(g_sensor_class[SENSOR_TYPE_ACCEL], &class_attr_orientation);
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549 printk("%s:Fail to creat class\n",__func__);
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552 printk("%s:%s\n",__func__,sensor->i2c_id->name);
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558 static int compass_dev_open(struct inode *inode, struct file *file)
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560 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_COMPASS];
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561 //struct i2c_client *client = sensor->client;
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569 static int compass_dev_release(struct inode *inode, struct file *file)
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571 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_COMPASS];
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572 //struct i2c_client *client = sensor->client;
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580 /* ioctl - I/O control */
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581 static long compass_dev_ioctl(struct file *file,
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582 unsigned int cmd, unsigned long arg)
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584 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_COMPASS];
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585 //struct i2c_client *client = sensor->client;
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586 //void __user *argp = (void __user *)arg;
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593 static int gyro_dev_open(struct inode *inode, struct file *file)
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595 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_GYROSCOPE];
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596 //struct i2c_client *client = sensor->client;
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605 static int gyro_dev_release(struct inode *inode, struct file *file)
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607 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_GYROSCOPE];
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608 //struct i2c_client *client = sensor->client;
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617 /* ioctl - I/O control */
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618 static long gyro_dev_ioctl(struct file *file,
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619 unsigned int cmd, unsigned long arg)
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621 struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_GYROSCOPE];
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622 struct i2c_client *client = sensor->client;
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623 void __user *argp = (void __user *)arg;
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627 case L3G4200D_IOCTL_GET_ENABLE:
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628 result = !sensor->status_cur;
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629 if (copy_to_user(argp, &result, sizeof(result)))
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631 printk("%s:failed to copy status to user space.\n",__FUNCTION__);
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635 DBG("%s :L3G4200D_IOCTL_GET_ENABLE,status=%d\n",__FUNCTION__,result);
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637 case L3G4200D_IOCTL_SET_ENABLE:
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638 DBG("%s :L3G4200D_IOCTL_SET_ENABLE,flag=%d\n",__FUNCTION__,*(unsigned int *)argp);
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639 mutex_lock(&sensor->operation_mutex);
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640 if(*(unsigned int *)argp)
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642 if(sensor->status_cur == SENSOR_OFF)
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644 if ( (result = sensor->ops->active(client, 1, ODR100_BW12_5) ) < 0 ) {
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645 mutex_unlock(&sensor->operation_mutex);
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646 printk("%s:fail to active sensor,ret=%d\n",__func__,result);
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649 if(sensor->pdata->irq_enable)
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651 DBG("%s:enable irq,irq=%d\n",__func__,client->irq);
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652 enable_irq(client->irq); //enable irq
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656 PREPARE_DELAYED_WORK(&sensor->delaywork, sensor_delaywork_func);
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657 schedule_delayed_work(&sensor->delaywork, msecs_to_jiffies(sensor->pdata->poll_delay_ms));
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659 sensor->status_cur = SENSOR_ON;
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664 if(sensor->status_cur == SENSOR_ON)
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666 if ( (result = sensor->ops->active(client, 0, 0) ) < 0 ) {
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667 mutex_unlock(&sensor->operation_mutex);
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671 if(sensor->pdata->irq_enable)
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673 DBG("%s:disable irq,irq=%d\n",__func__,client->irq);
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674 disable_irq_nosync(client->irq);//disable irq
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677 cancel_delayed_work_sync(&sensor->delaywork);
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678 sensor->status_cur = SENSOR_OFF;
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682 result = sensor->status_cur;
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683 if (copy_to_user(argp, &result, sizeof(result)))
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685 printk("%s:failed to copy sense data to user space.\n",__FUNCTION__);
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689 mutex_unlock(&sensor->operation_mutex);
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690 DBG("%s:L3G4200D_IOCTL_SET_ENABLE OK\n", __func__);
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692 case L3G4200D_IOCTL_SET_DELAY:
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693 mutex_lock(&sensor->operation_mutex);
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694 if (copy_from_user(&rate, argp, sizeof(rate)))
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696 if(sensor->status_cur == SENSOR_OFF)
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698 if ( (result = sensor->ops->active(client, 1, rate) ) < 0 ) {
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699 mutex_unlock(&sensor->operation_mutex);
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700 printk("%s:fail to active sensor,ret=%d\n",__func__,result);
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704 if(sensor->pdata->irq_enable)
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706 DBG("%s:enable irq,irq=%d\n",__func__,client->irq);
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707 enable_irq(client->irq); //enable irq
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711 PREPARE_DELAYED_WORK(&sensor->delaywork, sensor_delaywork_func);
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712 schedule_delayed_work(&sensor->delaywork, msecs_to_jiffies(sensor->pdata->poll_delay_ms));
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714 sensor->status_cur = SENSOR_ON;
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717 mutex_unlock(&sensor->operation_mutex);
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718 DBG("%s :L3G4200D_IOCTL_SET_DELAY,rate=%d\n",__FUNCTION__,rate);
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722 printk("%s:error,cmd=0x%x\n",__func__,cmd);
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726 DBG("%s:line=%d,cmd=0x%x\n",__func__,__LINE__,cmd);
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732 static int light_dev_open(struct inode *inode, struct file *file)
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734 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_LIGHT];
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735 //struct i2c_client *client = sensor->client;
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745 static int light_dev_release(struct inode *inode, struct file *file)
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747 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_LIGHT];
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748 //struct i2c_client *client = sensor->client;
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756 /* ioctl - I/O control */
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757 static long light_dev_ioctl(struct file *file,
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758 unsigned int cmd, unsigned long arg)
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760 struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_LIGHT];
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761 struct i2c_client *client = sensor->client;
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762 unsigned int *argp = (unsigned int *)arg;
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767 case LIGHTSENSOR_IOCTL_GET_ENABLED:
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768 *argp = sensor->status_cur;
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770 case LIGHTSENSOR_IOCTL_ENABLE:
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771 DBG("%s:LIGHTSENSOR_IOCTL_ENABLE start\n", __func__);
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772 mutex_lock(&sensor->operation_mutex);
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773 if(*(unsigned int *)argp)
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775 if(sensor->status_cur == SENSOR_OFF)
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777 if ( (result = sensor->ops->active(client, SENSOR_ON, 0) ) < 0 ) {
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778 mutex_unlock(&sensor->operation_mutex);
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779 printk("%s:fail to active sensor,ret=%d\n",__func__,result);
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782 if(sensor->pdata->irq_enable)
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784 if(!(sensor->ops->trig & IRQF_SHARED))
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786 DBG("%s:enable irq,irq=%d\n",__func__,client->irq);
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787 enable_irq(client->irq); //enable irq
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792 PREPARE_DELAYED_WORK(&sensor->delaywork, sensor_delaywork_func);
\r
793 schedule_delayed_work(&sensor->delaywork, msecs_to_jiffies(sensor->pdata->poll_delay_ms));
\r
796 sensor->status_cur = SENSOR_ON;
\r
801 if(sensor->status_cur == SENSOR_ON)
\r
803 if ( (result = sensor->ops->active(client, SENSOR_OFF, 0) ) < 0 ) {
\r
804 mutex_unlock(&sensor->operation_mutex);
\r
808 if(sensor->pdata->irq_enable)
\r
810 if(!(sensor->ops->trig & IRQF_SHARED))
\r
812 DBG("%s:disable irq,irq=%d\n",__func__,client->irq);
\r
813 disable_irq_nosync(client->irq);//disable irq
\r
817 cancel_delayed_work_sync(&sensor->delaywork);
\r
819 sensor->status_cur = SENSOR_OFF;
\r
822 mutex_unlock(&sensor->operation_mutex);
\r
823 DBG("%s:LIGHTSENSOR_IOCTL_ENABLE OK\n", __func__);
\r
835 static int proximity_dev_open(struct inode *inode, struct file *file)
\r
837 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_PROXIMITY];
\r
838 //struct i2c_client *client = sensor->client;
\r
846 static int proximity_dev_release(struct inode *inode, struct file *file)
\r
848 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_PROXIMITY];
\r
849 //struct i2c_client *client = sensor->client;
\r
857 /* ioctl - I/O control */
\r
858 static long proximity_dev_ioctl(struct file *file,
\r
859 unsigned int cmd, unsigned long arg)
\r
861 struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_PROXIMITY];
\r
862 struct i2c_client *client = sensor->client;
\r
863 unsigned int *argp = (unsigned int *)arg;
\r
867 case PSENSOR_IOCTL_GET_ENABLED:
\r
868 *argp = sensor->status_cur;
\r
870 case PSENSOR_IOCTL_ENABLE:
\r
871 DBG("%s:PSENSOR_IOCTL_ENABLE start\n", __func__);
\r
872 mutex_lock(&sensor->operation_mutex);
\r
873 if(*(unsigned int *)argp)
\r
875 if(sensor->status_cur == SENSOR_OFF)
\r
877 if ( (result = sensor->ops->active(client, SENSOR_ON, 0) ) < 0 ) {
\r
878 mutex_unlock(&sensor->operation_mutex);
\r
879 printk("%s:fail to active sensor,ret=%d\n",__func__,result);
\r
883 if(sensor->pdata->irq_enable)
\r
885 if(!(sensor->ops->trig & IRQF_SHARED))
\r
887 DBG("%s:enable irq,irq=%d\n",__func__,client->irq);
\r
888 enable_irq(client->irq); //enable irq
\r
893 PREPARE_DELAYED_WORK(&sensor->delaywork, sensor_delaywork_func);
\r
894 schedule_delayed_work(&sensor->delaywork, msecs_to_jiffies(sensor->pdata->poll_delay_ms));
\r
897 sensor->status_cur = SENSOR_ON;
\r
902 if(sensor->status_cur == SENSOR_ON)
\r
904 if ( (result = sensor->ops->active(client, SENSOR_OFF, 0) ) < 0 ) {
\r
905 mutex_unlock(&sensor->operation_mutex);
\r
908 if(sensor->pdata->irq_enable)
\r
910 if(!(sensor->ops->trig & IRQF_SHARED))
\r
912 DBG("%s:disable irq,irq=%d\n",__func__,client->irq);
\r
913 disable_irq_nosync(client->irq);//disable irq
\r
917 cancel_delayed_work_sync(&sensor->delaywork);
\r
918 sensor->status_cur = SENSOR_OFF;
\r
921 mutex_unlock(&sensor->operation_mutex);
\r
922 DBG("%s:PSENSOR_IOCTL_ENABLE OK\n", __func__);
\r
933 static int temperature_dev_open(struct inode *inode, struct file *file)
\r
935 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_TEMPERATURE];
\r
936 //struct i2c_client *client = sensor->client;
\r
945 static int temperature_dev_release(struct inode *inode, struct file *file)
\r
947 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_TEMPERATURE];
\r
948 //struct i2c_client *client = sensor->client;
\r
957 /* ioctl - I/O control */
\r
958 static long temperature_dev_ioctl(struct file *file,
\r
959 unsigned int cmd, unsigned long arg)
\r
961 //struct sensor_private_data *sensor = g_sensor[SENSOR_TYPE_TEMPERATURE];
\r
962 //struct i2c_client *client = sensor->client;
\r
963 //void __user *argp = (void __user *)arg;
\r
971 static int sensor_misc_device_register(struct sensor_private_data *sensor, int type)
\r
977 case SENSOR_TYPE_ACCEL:
\r
978 if(!sensor->ops->misc_dev)
\r
980 sensor->fops.owner = THIS_MODULE;
\r
981 sensor->fops.unlocked_ioctl = gsensor_dev_ioctl;
\r
982 sensor->fops.open = gsensor_dev_open;
\r
983 sensor->fops.release = gsensor_dev_release;
\r
985 sensor->miscdev.minor = MISC_DYNAMIC_MINOR;
\r
986 sensor->miscdev.name = "mma8452_daemon";
\r
987 sensor->miscdev.fops = &sensor->fops;
\r
991 memcpy(&sensor->miscdev, sensor->ops->misc_dev, sizeof(*sensor->ops->misc_dev));
\r
997 case SENSOR_TYPE_COMPASS:
\r
998 if(!sensor->ops->misc_dev)
\r
1000 sensor->fops.owner = THIS_MODULE;
\r
1001 sensor->fops.unlocked_ioctl = compass_dev_ioctl;
\r
1002 sensor->fops.open = compass_dev_open;
\r
1003 sensor->fops.release = compass_dev_release;
\r
1005 sensor->miscdev.minor = MISC_DYNAMIC_MINOR;
\r
1006 sensor->miscdev.name = "compass";
\r
1007 sensor->miscdev.fops = &sensor->fops;
\r
1011 memcpy(&sensor->miscdev, sensor->ops->misc_dev, sizeof(*sensor->ops->misc_dev));
\r
1017 case SENSOR_TYPE_GYROSCOPE:
\r
1018 if(!sensor->ops->misc_dev)
\r
1020 sensor->fops.owner = THIS_MODULE;
\r
1021 sensor->fops.unlocked_ioctl = gyro_dev_ioctl;
\r
1022 sensor->fops.open = gyro_dev_open;
\r
1023 sensor->fops.release = gyro_dev_release;
\r
1025 sensor->miscdev.minor = MISC_DYNAMIC_MINOR;
\r
1026 sensor->miscdev.name = "gyrosensor";
\r
1027 sensor->miscdev.fops = &sensor->fops;
\r
1031 memcpy(&sensor->miscdev, sensor->ops->misc_dev, sizeof(*sensor->ops->misc_dev));
\r
1037 case SENSOR_TYPE_LIGHT:
\r
1038 if(!sensor->ops->misc_dev)
\r
1040 sensor->fops.owner = THIS_MODULE;
\r
1041 sensor->fops.unlocked_ioctl = light_dev_ioctl;
\r
1042 sensor->fops.open = light_dev_open;
\r
1043 sensor->fops.release = light_dev_release;
\r
1045 sensor->miscdev.minor = MISC_DYNAMIC_MINOR;
\r
1046 sensor->miscdev.name = "lightsensor";
\r
1047 sensor->miscdev.fops = &sensor->fops;
\r
1051 memcpy(&sensor->miscdev, sensor->ops->misc_dev, sizeof(*sensor->ops->misc_dev));
\r
1056 case SENSOR_TYPE_PROXIMITY:
\r
1057 if(!sensor->ops->misc_dev)
\r
1059 sensor->fops.owner = THIS_MODULE;
\r
1060 sensor->fops.unlocked_ioctl = proximity_dev_ioctl;
\r
1061 sensor->fops.open = proximity_dev_open;
\r
1062 sensor->fops.release = proximity_dev_release;
\r
1064 sensor->miscdev.minor = MISC_DYNAMIC_MINOR;
\r
1065 sensor->miscdev.name = "psensor";
\r
1066 sensor->miscdev.fops = &sensor->fops;
\r
1070 memcpy(&sensor->miscdev, sensor->ops->misc_dev, sizeof(*sensor->ops->misc_dev));
\r
1075 case SENSOR_TYPE_TEMPERATURE:
\r
1076 if(!sensor->ops->misc_dev)
\r
1078 sensor->fops.owner = THIS_MODULE;
\r
1079 sensor->fops.unlocked_ioctl = temperature_dev_ioctl;
\r
1080 sensor->fops.open = temperature_dev_open;
\r
1081 sensor->fops.release = temperature_dev_release;
\r
1083 sensor->miscdev.minor = MISC_DYNAMIC_MINOR;
\r
1084 sensor->miscdev.name = "temperature";
\r
1085 sensor->miscdev.fops = &sensor->fops;
\r
1089 memcpy(&sensor->miscdev, sensor->ops->misc_dev, sizeof(*sensor->ops->misc_dev));
\r
1096 printk("%s:unknow sensor type=%d\n",__func__,type);
\r
1101 sensor->miscdev.parent = &sensor->client->dev;
\r
1102 result = misc_register(&sensor->miscdev);
\r
1104 dev_err(&sensor->client->dev,
\r
1105 "fail to register misc device %s\n", sensor->miscdev.name);
\r
1109 printk("%s:miscdevice: %s\n",__func__,sensor->miscdev.name);
\r
1117 int sensor_register_slave(int type,struct i2c_client *client,
\r
1118 struct sensor_platform_data *slave_pdata,
\r
1119 struct sensor_operate *(*get_sensor_ops)(void))
\r
1122 struct sensor_operate *ops = get_sensor_ops();
\r
1123 if((ops->id_i2c >= SENSOR_NUM_ID) || (ops->id_i2c <= ID_INVALID))
\r
1125 printk("%s:%s id is error %d\n", __func__, ops->name, ops->id_i2c);
\r
1128 sensor_ops[ops->id_i2c] = ops;
\r
1129 printk("%s:%s,id=%d\n",__func__,sensor_ops[ops->id_i2c]->name, ops->id_i2c);
\r
1134 int sensor_unregister_slave(int type,struct i2c_client *client,
\r
1135 struct sensor_platform_data *slave_pdata,
\r
1136 struct sensor_operate *(*get_sensor_ops)(void))
\r
1139 struct sensor_operate *ops = get_sensor_ops();
\r
1140 if((ops->id_i2c >= SENSOR_NUM_ID) || (ops->id_i2c <= ID_INVALID))
\r
1142 printk("%s:%s id is error %d\n", __func__, ops->name, ops->id_i2c);
\r
1145 printk("%s:%s,id=%d\n",__func__,sensor_ops[ops->id_i2c]->name, ops->id_i2c);
\r
1146 sensor_ops[ops->id_i2c] = NULL;
\r
1151 int sensor_probe(struct i2c_client *client, const struct i2c_device_id *devid)
\r
1153 struct sensor_private_data *sensor =
\r
1154 (struct sensor_private_data *) i2c_get_clientdata(client);
\r
1155 struct sensor_platform_data *pdata;
\r
1158 dev_info(&client->adapter->dev, "%s: %s,0x%x\n", __func__, devid->name,(unsigned int)client);
\r
1160 if (!i2c_check_functionality(client->adapter, I2C_FUNC_I2C)) {
\r
1165 pdata = client->dev.platform_data;
\r
1167 dev_err(&client->adapter->dev,
\r
1168 "Missing platform data for slave %s\n", devid->name);
\r
1173 sensor = kzalloc(sizeof(*sensor), GFP_KERNEL);
\r
1179 type= pdata->type;
\r
1181 if((type >= SENSOR_NUM_TYPES) || (type <= SENSOR_TYPE_NULL))
\r
1183 dev_err(&client->adapter->dev, "sensor type is error %d\n", pdata->type);
\r
1185 goto out_no_free;
\r
1188 if(((int)devid->driver_data >= SENSOR_NUM_ID) || ((int)devid->driver_data <= ID_INVALID))
\r
1190 dev_err(&client->adapter->dev, "sensor id is error %d\n", (int)devid->driver_data);
\r
1192 goto out_no_free;
\r
1195 i2c_set_clientdata(client, sensor);
\r
1196 sensor->client = client;
\r
1197 sensor->pdata = pdata;
\r
1198 sensor->type = type;
\r
1199 sensor->i2c_id = (struct i2c_device_id *)devid;
\r
1201 if (pdata->init_platform_hw) {
\r
1202 result = pdata->init_platform_hw();
\r
1204 goto out_free_memory;
\r
1207 memset(&(sensor->axis), 0, sizeof(struct sensor_axis) );
\r
1208 atomic_set(&(sensor->data_ready), 0);
\r
1209 init_waitqueue_head(&(sensor->data_ready_wq));
\r
1210 mutex_init(&sensor->data_mutex);
\r
1211 mutex_init(&sensor->operation_mutex);
\r
1212 mutex_init(&sensor->sensor_mutex);
\r
1213 mutex_init(&sensor->i2c_mutex);
\r
1215 sensor->status_cur = SENSOR_OFF;
\r
1216 sensor->axis.x = 0;
\r
1217 sensor->axis.y = 0;
\r
1218 sensor->axis.z = 0;
\r
1220 result = sensor_chip_init(sensor->client);
\r
1222 goto out_free_memory;
\r
1224 sensor->input_dev = input_allocate_device();
\r
1225 if (!sensor->input_dev) {
\r
1227 dev_err(&client->dev,
\r
1228 "Failed to allocate input device %s\n", sensor->input_dev->name);
\r
1229 goto out_free_memory;
\r
1234 case SENSOR_TYPE_ACCEL:
\r
1235 sensor->input_dev->name = "gsensor";
\r
1236 set_bit(EV_ABS, sensor->input_dev->evbit);
\r
1237 /* x-axis acceleration */
\r
1238 input_set_abs_params(sensor->input_dev, ABS_X, sensor->ops->range[0], sensor->ops->range[1], 0, 0); //2g full scale range
\r
1239 /* y-axis acceleration */
\r
1240 input_set_abs_params(sensor->input_dev, ABS_Y, sensor->ops->range[0], sensor->ops->range[1], 0, 0); //2g full scale range
\r
1241 /* z-axis acceleration */
\r
1242 input_set_abs_params(sensor->input_dev, ABS_Z, sensor->ops->range[0], sensor->ops->range[1], 0, 0); //2g full scale range
\r
1244 case SENSOR_TYPE_COMPASS:
\r
1245 sensor->input_dev->name = "compass";
\r
1246 /* Setup input device */
\r
1247 set_bit(EV_ABS, sensor->input_dev->evbit);
\r
1248 /* yaw (0, 360) */
\r
1249 input_set_abs_params(sensor->input_dev, ABS_RX, 0, 23040, 0, 0);
\r
1250 /* pitch (-180, 180) */
\r
1251 input_set_abs_params(sensor->input_dev, ABS_RY, -11520, 11520, 0, 0);
\r
1252 /* roll (-90, 90) */
\r
1253 input_set_abs_params(sensor->input_dev, ABS_RZ, -5760, 5760, 0, 0);
\r
1254 /* x-axis acceleration (720 x 8G) */
\r
1255 input_set_abs_params(sensor->input_dev, ABS_X, -5760, 5760, 0, 0);
\r
1256 /* y-axis acceleration (720 x 8G) */
\r
1257 input_set_abs_params(sensor->input_dev, ABS_Y, -5760, 5760, 0, 0);
\r
1258 /* z-axis acceleration (720 x 8G) */
\r
1259 input_set_abs_params(sensor->input_dev, ABS_Z, -5760, 5760, 0, 0);
\r
1260 /* status of magnetic sensor */
\r
1261 input_set_abs_params(sensor->input_dev, ABS_RUDDER, -32768, 3, 0, 0);
\r
1262 /* status of acceleration sensor */
\r
1263 input_set_abs_params(sensor->input_dev, ABS_WHEEL, -32768, 3, 0, 0);
\r
1264 /* x-axis of raw magnetic vector (-4096, 4095) */
\r
1265 input_set_abs_params(sensor->input_dev, ABS_HAT0X, -20480, 20479, 0, 0);
\r
1266 /* y-axis of raw magnetic vector (-4096, 4095) */
\r
1267 input_set_abs_params(sensor->input_dev, ABS_HAT0Y, -20480, 20479, 0, 0);
\r
1268 /* z-axis of raw magnetic vector (-4096, 4095) */
\r
1269 input_set_abs_params(sensor->input_dev, ABS_BRAKE, -20480, 20479, 0, 0);
\r
1271 case SENSOR_TYPE_GYROSCOPE:
\r
1272 sensor->input_dev->name = "gyro";
\r
1273 /* x-axis acceleration */
\r
1274 input_set_capability(sensor->input_dev, EV_REL, REL_RX);
\r
1275 input_set_abs_params(sensor->input_dev, ABS_RX, sensor->ops->range[0], sensor->ops->range[1], 0, 0);
\r
1276 /* y-axis acceleration */
\r
1277 input_set_capability(sensor->input_dev, EV_REL, REL_RY);
\r
1278 input_set_abs_params(sensor->input_dev, ABS_RY, sensor->ops->range[0], sensor->ops->range[1], 0, 0);
\r
1279 /* z-axis acceleration */
\r
1280 input_set_capability(sensor->input_dev, EV_REL, REL_RZ);
\r
1281 input_set_abs_params(sensor->input_dev, ABS_RZ, sensor->ops->range[0], sensor->ops->range[1], 0, 0);
\r
1283 case SENSOR_TYPE_LIGHT:
\r
1284 sensor->input_dev->name = "lightsensor-level";
\r
1285 set_bit(EV_ABS, sensor->input_dev->evbit);
\r
1286 input_set_abs_params(sensor->input_dev, ABS_MISC, sensor->ops->range[0], sensor->ops->range[1], 0, 0);
\r
1287 input_set_abs_params(sensor->input_dev, ABS_TOOL_WIDTH , sensor->ops->brightness[0],sensor->ops->brightness[1], 0, 0);
\r
1289 case SENSOR_TYPE_PROXIMITY:
\r
1290 sensor->input_dev->name = "proximity";
\r
1291 set_bit(EV_ABS, sensor->input_dev->evbit);
\r
1292 input_set_abs_params(sensor->input_dev, ABS_DISTANCE, sensor->ops->range[0], sensor->ops->range[1], 0, 0);
\r
1294 case SENSOR_TYPE_TEMPERATURE:
\r
1295 sensor->input_dev->name = "temperature";
\r
1296 set_bit(EV_ABS, sensor->input_dev->evbit);
\r
1297 input_set_abs_params(sensor->input_dev, ABS_THROTTLE, sensor->ops->range[0], sensor->ops->range[1], 0, 0);
\r
1300 printk("%s:unknow sensor type=%d\n",__func__,type);
\r
1304 sensor->input_dev->dev.parent = &client->dev;
\r
1306 result = input_register_device(sensor->input_dev);
\r
1308 dev_err(&client->dev,
\r
1309 "Unable to register input device %s\n", sensor->input_dev->name);
\r
1310 goto out_input_register_device_failed;
\r
1313 result = sensor_irq_init(sensor->client);
\r
1315 dev_err(&client->dev,
\r
1316 "fail to init sensor irq,ret=%d\n",result);
\r
1317 goto out_input_register_device_failed;
\r
1321 sensor->miscdev.parent = &client->dev;
\r
1322 result = sensor_misc_device_register(sensor, type);
\r
1324 dev_err(&client->dev,
\r
1325 "fail to register misc device %s\n", sensor->miscdev.name);
\r
1326 goto out_misc_device_register_device_failed;
\r
1329 g_sensor[type] = sensor;
\r
1331 if((type == SENSOR_TYPE_ACCEL) && (sensor->pdata->factory)) //only support setting gsensor orientation online now
\r
1333 result = gsensor_class_init();
\r
1335 dev_err(&client->dev,
\r
1336 "fail to register misc device %s\n", sensor->i2c_id->name);
\r
1337 goto out_misc_device_register_device_failed;
\r
1341 #ifdef CONFIG_HAS_EARLYSUSPEND
\r
1342 if((sensor->ops->suspend) && (sensor->ops->resume))
\r
1344 sensor->early_suspend.suspend = sensor_suspend;
\r
1345 sensor->early_suspend.resume = sensor_resume;
\r
1346 sensor->early_suspend.level = 0x02;
\r
1347 register_early_suspend(&sensor->early_suspend);
\r
1351 printk("%s:initialized ok,sensor name:%s,type:%d,id=%d\n\n",__func__,sensor->ops->name,type,(int)sensor->i2c_id->driver_data);
\r
1355 out_misc_device_register_device_failed:
\r
1356 input_unregister_device(sensor->input_dev);
\r
1357 out_input_register_device_failed:
\r
1358 input_free_device(sensor->input_dev);
\r
1362 dev_err(&client->adapter->dev, "%s failed %d\n", __func__, result);
\r
1367 static void sensor_shut_down(struct i2c_client *client)
\r
1369 #ifdef CONFIG_HAS_EARLYSUSPEND
\r
1370 struct sensor_private_data *sensor =
\r
1371 (struct sensor_private_data *) i2c_get_clientdata(client);
\r
1372 if((sensor->ops->suspend) && (sensor->ops->resume))
\r
1373 unregister_early_suspend(&sensor->early_suspend);
\r
1374 DBG("%s:%s\n",__func__,sensor->i2c_id->name);
\r
1378 static int sensor_remove(struct i2c_client *client)
\r
1380 struct sensor_private_data *sensor =
\r
1381 (struct sensor_private_data *) i2c_get_clientdata(client);
\r
1384 cancel_delayed_work_sync(&sensor->delaywork);
\r
1385 misc_deregister(&sensor->miscdev);
\r
1386 input_unregister_device(sensor->input_dev);
\r
1387 input_free_device(sensor->input_dev);
\r
1389 #ifdef CONFIG_HAS_EARLYSUSPEND
\r
1390 if((sensor->ops->suspend) && (sensor->ops->resume))
\r
1391 unregister_early_suspend(&sensor->early_suspend);
\r
1396 static const struct i2c_device_id sensor_id[] = {
\r
1398 {"gsensor", ACCEL_ID_ALL},
\r
1399 {"gs_mma8452", ACCEL_ID_MMA845X},
\r
1400 {"gs_kxtik", ACCEL_ID_KXTIK},
\r
1401 {"gs_lis3dh", ACCEL_ID_LIS3DH},
\r
1402 {"gs_mma7660", ACCEL_ID_MMA7660},
\r
1403 {"gs_mxc6225", ACCEL_ID_MXC6225},
\r
1405 {"compass", COMPASS_ID_ALL},
\r
1406 {"ak8975", COMPASS_ID_AK8975},
\r
1407 {"mmc314x", COMPASS_ID_MMC314X},
\r
1409 {"gyro", GYRO_ID_ALL},
\r
1410 {"l3g4200d_gryo", GYRO_ID_L3G4200D},
\r
1411 {"k3g", GYRO_ID_K3G},
\r
1413 {"lightsensor", LIGHT_ID_ALL},
\r
1414 {"light_cm3217", LIGHT_ID_CM3217},
\r
1415 {"light_al3006", LIGHT_ID_AL3006},
\r
1416 {"ls_stk3171", LIGHT_ID_STK3171},
\r
1417 {"ls_isl29023", LIGHT_ID_ISL29023},
\r
1418 {"ls_ap321xx", LIGHT_ID_AP321XX},
\r
1419 /*proximity sensor*/
\r
1420 {"psensor", PROXIMITY_ID_ALL},
\r
1421 {"proximity_al3006", PROXIMITY_ID_AL3006},
\r
1422 {"ps_stk3171", PROXIMITY_ID_STK3171},
\r
1423 {"ps_ap321xx", PROXIMITY_ID_AP321XX},
\r
1425 {"temperature", TEMPERATURE_ID_ALL},
\r
1430 static struct i2c_driver sensor_driver = {
\r
1431 .probe = sensor_probe,
\r
1432 .remove = sensor_remove,
\r
1433 .shutdown = sensor_shut_down,
\r
1434 .id_table = sensor_id,
\r
1436 .owner = THIS_MODULE,
\r
1437 .name = "sensors",
\r
1441 static int __init sensor_init(void)
\r
1443 int res = i2c_add_driver(&sensor_driver);
\r
1444 pr_info("%s: Probe name %s\n", __func__, sensor_driver.driver.name);
\r
1446 pr_err("%s failed\n", __func__);
\r
1450 static void __exit sensor_exit(void)
\r
1452 pr_info("%s\n", __func__);
\r
1453 i2c_del_driver(&sensor_driver);
\r
1456 late_initcall(sensor_init);
\r
1457 module_exit(sensor_exit);
\r
1459 MODULE_AUTHOR("ROCKCHIP Corporation:lw@rock-chips.com");
\r
1460 MODULE_DESCRIPTION("User space character device interface for sensors");
\r
1461 MODULE_LICENSE("GPL");
\r