path: root/drivers/misc/mediatek/thermal/mt6735/mtk_cooler_bcct.c

#include <linux/version.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/types.h>
#include <linux/kobject.h>
#include <linux/proc_fs.h>
#include <linux/seq_file.h>
#include <linux/uaccess.h>
#include <linux/err.h>
#include <linux/syscalls.h>
#include "mach/mtk_thermal_monitor.h"
#include <mach/charging.h>
#include "cust_charging.h"
// Extern two API functions from battery driver to limit max charging current.
#if 1
/**
 *  return value means charging current in mA
 *  -1 means error
 *  Implementation in mt_battery.c and mt_battery_fan5405.c
 */
extern int get_bat_charging_current_level(void);

/**
 *  current_limit means limit of charging current in mA
 *  -1 means no limit
 *  Implementation in mt_battery.c and mt_battery_fan5405.c
 */
 //#define MEIZU_M81
 #ifdef MEIZU_M81
 static int set_bat_charging_current_limit(int current_limit)
 {
    return 0;
 }
 #else
extern int set_bat_charging_current_limit(int current_limit);
#endif
#endif

extern struct proc_dir_entry * mtk_thermal_get_proc_drv_therm_dir_entry(void);

#define mtk_cooler_bcct_dprintk_always(fmt, args...) \
  do { pr_notice("[thermal/cooler/bcct]" fmt, ##args); } while(0)

#define mtk_cooler_bcct_dprintk(fmt, args...) \
  do { \
    if (1 == cl_bcct_klog_on) { \
      pr_notice("[thermal/cooler/bcct]" fmt, ##args); \
    } \
  } while(0)

#define MAX_NUM_INSTANCE_MTK_COOLER_BCCT  3

#define MTK_CL_BCCT_GET_LIMIT(limit, state) \
    do { (limit) = (short) (((unsigned long) (state))>>16); } while(0)

#define MTK_CL_BCCT_SET_LIMIT(limit, state) \
    do { state = ((((unsigned long) (state))&0xFFFF) | ((short) limit<<16)); } while(0)

#define MTK_CL_BCCT_GET_CURR_STATE(curr_state, state) \
    do { curr_state = (((unsigned long) (state))&0xFFFF); } while(0)

#define MTK_CL_BCCT_SET_CURR_STATE(curr_state, state) \
    do { if (0 == curr_state) \
           state &= ~0x1; \
         else \
           state |= 0x1; \
    } while(0)

static int cl_bcct_klog_on = 0;
static struct thermal_cooling_device *cl_bcct_dev[MAX_NUM_INSTANCE_MTK_COOLER_BCCT] = {0};
static unsigned long cl_bcct_state[MAX_NUM_INSTANCE_MTK_COOLER_BCCT] = {0};
static int cl_bcct_cur_limit = 65535;
extern CHARGER_TYPE mt_get_charger_type(void);

static void
mtk_cl_bcct_set_bcct_limit(void)
{
	// TODO: optimize
	int i = 0;
	int min_limit = 65535;
	for (; i < MAX_NUM_INSTANCE_MTK_COOLER_BCCT; i++)
	{
		unsigned long curr_state;

		MTK_CL_BCCT_GET_CURR_STATE(curr_state, cl_bcct_state[i]);
		if (1 == curr_state)
		{
			int limit;
			MTK_CL_BCCT_GET_LIMIT(limit, cl_bcct_state[i]);
			if ((min_limit > limit) && (limit > 0))
			min_limit = limit;
		}
	}

	if (min_limit != cl_bcct_cur_limit)
	{
		cl_bcct_cur_limit = min_limit;

		if (65535 <= cl_bcct_cur_limit)
		{
			set_bat_charging_current_limit(-1);
			mtk_cooler_bcct_dprintk_always("mtk_cl_bcct_set_bcct_limit() limit=-1\n");
		}
		else
		{
			/*
			CHARGER_UNKNOWN = 0,
			STANDARD_HOST,      // USB : 450mA
			CHARGING_HOST,
			NONSTANDARD_CHARGER,// AC : 450mA~1A
			STANDARD_CHARGER,  	// AC : ~1A
			APPLE_2_1A_CHARGER, // 2.1A apple charger
			APPLE_1_0A_CHARGER, // 1A apple charger
			APPLE_0_5A_CHARGER, // 0.5A apple charger
			WIRELESS_CHARGER,
			*/
			if(mt_get_charger_type()==STANDARD_HOST)//usb charger
			{
				mtk_cooler_bcct_dprintk_always("Current is USB charger, limit=%d\n",cl_bcct_cur_limit);
				if(cl_bcct_cur_limit >= 500)//if usb charger, max current can't > 500mA
				{
				set_bat_charging_current_limit(499);
				}
				else
				{
				set_bat_charging_current_limit(cl_bcct_cur_limit);
				}
			}
			else
			{
				set_bat_charging_current_limit(cl_bcct_cur_limit);
			}
			mtk_cooler_bcct_dprintk_always("mtk_cl_bcct_set_bcct_limit() limit=%d\n", cl_bcct_cur_limit);
		}

		mtk_cooler_bcct_dprintk_always("mtk_cl_bcct_set_bcct_limit() real limit=%d\n", get_bat_charging_current_level()/100);

	}
}

static int 
mtk_cl_bcct_get_max_state(struct thermal_cooling_device *cdev,
                          unsigned long *state)
{        
  *state = 1;
  mtk_cooler_bcct_dprintk("mtk_cl_bcct_get_max_state() %s %lu\n", cdev->type, *state);
  return 0;
}

static int 
mtk_cl_bcct_get_cur_state(struct thermal_cooling_device *cdev,
                          unsigned long *state)
{
  MTK_CL_BCCT_GET_CURR_STATE(*state, *((unsigned long*) cdev->devdata));
  mtk_cooler_bcct_dprintk("mtk_cl_bcct_get_cur_state() %s %lu\n", cdev->type, *state);
  mtk_cooler_bcct_dprintk("mtk_cl_bcct_get_cur_state() %s limit=%d\n", cdev->type, get_bat_charging_current_level()/100);
  return 0;
}

static int 
mtk_cl_bcct_set_cur_state(struct thermal_cooling_device *cdev,
                          unsigned long state)
{
  mtk_cooler_bcct_dprintk("mtk_cl_bcct_set_cur_state() %s %lu\n", cdev->type, state);
  MTK_CL_BCCT_SET_CURR_STATE(state, *((unsigned long*) cdev->devdata));
  mtk_cl_bcct_set_bcct_limit();
  mtk_cooler_bcct_dprintk("mtk_cl_bcct_set_cur_state() %s limit=%d\n", cdev->type, get_bat_charging_current_level()/100);
  
  return 0;
}

/* bind fan callbacks to fan device */
static struct thermal_cooling_device_ops mtk_cl_bcct_ops = {
  .get_max_state = mtk_cl_bcct_get_max_state,
  .get_cur_state = mtk_cl_bcct_get_cur_state,
  .set_cur_state = mtk_cl_bcct_set_cur_state,
};

static int mtk_cooler_bcct_register_ltf(void)
{
  int i;
  mtk_cooler_bcct_dprintk("register ltf\n");

  for (i = MAX_NUM_INSTANCE_MTK_COOLER_BCCT; i-- > 0; )
  {
    char temp[20] = {0};
    sprintf(temp, "mtk-cl-bcct%02d", i);
    cl_bcct_dev[i] = mtk_thermal_cooling_device_register(temp, 
                                                         (void*) &cl_bcct_state[i], // put bcct state to cooler devdata
                                                         &mtk_cl_bcct_ops);
  }

  return 0;
}

static void mtk_cooler_bcct_unregister_ltf(void)
{
  int i;
  mtk_cooler_bcct_dprintk("unregister ltf\n");

  for (i = MAX_NUM_INSTANCE_MTK_COOLER_BCCT; i-- > 0; )
  {
    if (cl_bcct_dev[i])
    {
      mtk_thermal_cooling_device_unregister(cl_bcct_dev[i]);
      cl_bcct_dev[i] = NULL;
      cl_bcct_state[i] = 0;
    }
  }
}

#if 0
static int _mtk_cl_bcct_proc_read(char *buf, char **start, off_t off, int count, int *eof, void *data)
{
    int len = 0;
    char *p = buf;

    mtk_cooler_bcct_dprintk("[_mtk_cl_bcct_proc_read] invoked.\n");

    /**
     * The format to print out: 
     *  kernel_log <0 or 1>
     *  <mtk-cl-bcct<ID>> <bcc limit>
     *  ..
     */
    if (NULL == data)
    {
        mtk_cooler_bcct_dprintk("[_mtk_cl_bcct_proc_read] null data\n");
    }
    else
    {
        int i = 0;

        p += sprintf(p, "klog %d\n", cl_bcct_klog_on);
        p += sprintf(p, "curr_limit %d\n", cl_bcct_cur_limit);

        for (; i < MAX_NUM_INSTANCE_MTK_COOLER_BCCT; i++)
        {
            int limit;
            unsigned int curr_state;
            
            MTK_CL_BCCT_GET_LIMIT(limit, cl_bcct_state[i]);
            MTK_CL_BCCT_GET_CURR_STATE(curr_state, cl_bcct_state[i]);
        
            p += sprintf(p, "mtk-cl-bcct%02d %d mA, state %d\n", i, limit, curr_state);
        }
    }

    *start = buf + off;

    len = p - buf;
    if (len > off)
        len -= off;
    else
        len = 0;

    return len < count ? len  : count;
}

static ssize_t _mtk_cl_bcct_proc_write(struct file *file, const char *buffer, unsigned long count, void *data)
{
    int len = 0;
    char desc[128];
    int klog_on, limit0, limit1, limit2;

    len = (count < (sizeof(desc) - 1)) ? count : (sizeof(desc) - 1);
    if (copy_from_user(desc, buffer, len))
    {
        return 0;
    }
    desc[len] = '\0';

    /**
     * sscanf format <klog_on> <mtk-cl-bcct00 limit> <mtk-cl-bcct01 limit> ...
     * <klog_on> can only be 0 or 1
     * <mtk-cl-bcct00 limit> can only be positive integer or -1 to denote no limit
     */

    if (NULL == data)
    {
        mtk_cooler_bcct_dprintk("[_mtk_cl_bcct_proc_write] null data\n");
        return -EINVAL;
    }

    // WARNING: Modify here if MTK_THERMAL_MONITOR_COOLER_MAX_EXTRA_CONDITIONS is changed to other than 3
#if (3 == MAX_NUM_INSTANCE_MTK_COOLER_BCCT)
    MTK_CL_BCCT_SET_LIMIT(-1, cl_bcct_state[0]);
    MTK_CL_BCCT_SET_LIMIT(-1, cl_bcct_state[1]);
    MTK_CL_BCCT_SET_LIMIT(-1, cl_bcct_state[2]);

    if (1 <= sscanf(desc, "%d %d %d %d",
                    &klog_on, &limit0, &limit1, &limit2))
    {
        if (klog_on == 0 || klog_on == 1)
        {
          cl_bcct_klog_on = klog_on;
        }

        if (limit0 >= -1) MTK_CL_BCCT_SET_LIMIT(limit0, cl_bcct_state[0]);
        if (limit1 >= -1) MTK_CL_BCCT_SET_LIMIT(limit1, cl_bcct_state[1]);
        if (limit2 >= -1) MTK_CL_BCCT_SET_LIMIT(limit2, cl_bcct_state[2]);
        
        return count;
    }
    else
#else
#error "Change correspondent part when changing MAX_NUM_INSTANCE_MTK_COOLER_BCCT!"
#endif
    {
        mtk_cooler_bcct_dprintk("[_mtk_cl_bcct_proc_write] bad argument\n");
    }

    return -EINVAL;
}
#endif

static ssize_t _cl_bcct_write(struct file *filp, const char __user *buf, size_t len, loff_t *data)
{
    //int ret = 0;
	char tmp[128] = {0};
	int klog_on, limit0, limit1, limit2;

	len = (len < (128 - 1)) ? len : (128 - 1);

	/* write data to the buffer */
	if ( copy_from_user(tmp, buf, len) ) {
		return -EFAULT;
	}

    /**
     * sscanf format <klog_on> <mtk-cl-bcct00 limit> <mtk-cl-bcct01 limit> ...
     * <klog_on> can only be 0 or 1
     * <mtk-cl-bcct00 limit> can only be positive integer or -1 to denote no limit
     */

    if (NULL == data)
    {
        mtk_cooler_bcct_dprintk("[_mtk_cl_bcct_proc_write] null data\n");
        return -EINVAL;
    }

    // WARNING: Modify here if MTK_THERMAL_MONITOR_COOLER_MAX_EXTRA_CONDITIONS is changed to other than 3
#if (3 == MAX_NUM_INSTANCE_MTK_COOLER_BCCT)
    MTK_CL_BCCT_SET_LIMIT(-1, cl_bcct_state[0]);
    MTK_CL_BCCT_SET_LIMIT(-1, cl_bcct_state[1]);
    MTK_CL_BCCT_SET_LIMIT(-1, cl_bcct_state[2]);

    if (1 <= sscanf(tmp, "%d %d %d %d",
                    &klog_on, &limit0, &limit1, &limit2))
    {
        if (klog_on == 0 || klog_on == 1)
        {
          cl_bcct_klog_on = klog_on;
        }

        if (limit0 >= -1) MTK_CL_BCCT_SET_LIMIT(limit0, cl_bcct_state[0]);
        if (limit1 >= -1) MTK_CL_BCCT_SET_LIMIT(limit1, cl_bcct_state[1]);
        if (limit2 >= -1) MTK_CL_BCCT_SET_LIMIT(limit2, cl_bcct_state[2]);
        
        return len;
    }
    else
#else
#error "Change correspondent part when changing MAX_NUM_INSTANCE_MTK_COOLER_BCCT!"
#endif
    {
        mtk_cooler_bcct_dprintk("[_mtk_cl_bcct_proc_write] bad argument\n");
    }

    return -EINVAL;
}

static int _cl_bcct_read(struct seq_file *m, void *v)
{
    /**
     * The format to print out: 
     *  kernel_log <0 or 1>
     *  <mtk-cl-bcct<ID>> <bcc limit>
     *  ..
     */

    mtk_cooler_bcct_dprintk("_cl_bcct_read invoked.\n");

    {
        int i = 0;

        seq_printf(m, "klog %d\n", cl_bcct_klog_on);
        seq_printf(m, "curr_limit %d\n", cl_bcct_cur_limit);

        for (; i < MAX_NUM_INSTANCE_MTK_COOLER_BCCT; i++)
        {
            int limit;
            unsigned int curr_state;
            
            MTK_CL_BCCT_GET_LIMIT(limit, cl_bcct_state[i]);
            MTK_CL_BCCT_GET_CURR_STATE(curr_state, cl_bcct_state[i]);
        
            seq_printf(m, "mtk-cl-bcct%02d %d mA, state %d\n", i, limit, curr_state);
        }
    }

	return 0;
}

static int _cl_bcct_open(struct inode *inode, struct file *file)
{
#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 10, 0)
    return single_open(file, _cl_bcct_read, PDE_DATA(inode));
#else
    return single_open(file, _cl_bcct_read, PDE(inode)->data);
#endif
}

static const struct file_operations _cl_bcct_fops = {
    .owner = THIS_MODULE,
    .open = _cl_bcct_open,
    .read = seq_read,
    .llseek = seq_lseek,
    .write = _cl_bcct_write,
    .release = single_release,
};


static int __init mtk_cooler_bcct_init(void)
{
  int err = 0;
  int i;

  for (i = MAX_NUM_INSTANCE_MTK_COOLER_BCCT; i-- > 0; )
  {
    cl_bcct_dev[i] = NULL;
    cl_bcct_state[i] = 0;
  }

  //cl_bcct_dev = NULL;

  mtk_cooler_bcct_dprintk("init\n");

  err = mtk_cooler_bcct_register_ltf();
  if (err)
    goto err_unreg;

  /* create a proc file */
  {
        struct proc_dir_entry *entry = NULL;
        struct proc_dir_entry *dir_entry = NULL;

        dir_entry = mtk_thermal_get_proc_drv_therm_dir_entry();
        if (!dir_entry) {
        	mtk_cooler_bcct_dprintk("[%s]: mkdir /proc/driver/thermal failed\n", __func__);
        }

        entry =
            proc_create("clbcct", S_IRUGO | S_IWUSR | S_IWGRP, dir_entry,
                &_cl_bcct_fops);
		if (!entry) {
			mtk_cooler_bcct_dprintk_always("%s clbcct creation failed\n", 
						                   __func__);
		} else {
#if LINUX_VERSION_CODE >= KERNEL_VERSION(3, 10, 0)
            proc_set_user(entry, 0, 1000);
#else
            entry->gid = 1000;
#endif
        }
  }
  return 0;

err_unreg:
  mtk_cooler_bcct_unregister_ltf();
  return err;
}

static void __exit mtk_cooler_bcct_exit(void)
{
  mtk_cooler_bcct_dprintk("exit\n");

  /* remove the proc file */
  remove_proc_entry("driver/mtk-cl-bcct", NULL);
    
  mtk_cooler_bcct_unregister_ltf();
}

module_init(mtk_cooler_bcct_init);
module_exit(mtk_cooler_bcct_exit);