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Sourcecode: linux-2.6 version File versions

corgi_pm.c

/*
 * Battery and Power Management code for the Sharp SL-C7xx
 *
 * Copyright (c) 2005 Richard Purdie
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation.
 *
 */

#include <linux/module.h>
#include <linux/stat.h>
#include <linux/init.h>
#include <linux/kernel.h>
#include <linux/delay.h>
#include <linux/interrupt.h>
#include <linux/platform_device.h>
#include <asm/apm.h>
#include <asm/irq.h>
#include <asm/mach-types.h>
#include <asm/hardware.h>
#include <asm/hardware/scoop.h>

#include <asm/arch/sharpsl.h>
#include <asm/arch/corgi.h>
#include <asm/arch/pxa-regs.h>
#include "sharpsl.h"

#define SHARPSL_CHARGE_ON_VOLT         0x99  /* 2.9V */
#define SHARPSL_CHARGE_ON_TEMP         0xe0  /* 2.9V */
#define SHARPSL_CHARGE_ON_ACIN_HIGH    0x9b  /* 6V */
#define SHARPSL_CHARGE_ON_ACIN_LOW     0x34  /* 2V */
#define SHARPSL_FATAL_ACIN_VOLT        182   /* 3.45V */
#define SHARPSL_FATAL_NOACIN_VOLT      170   /* 3.40V */

static void corgi_charger_init(void)
{
      pxa_gpio_mode(CORGI_GPIO_ADC_TEMP_ON | GPIO_OUT);
      pxa_gpio_mode(CORGI_GPIO_CHRG_ON | GPIO_OUT);
      pxa_gpio_mode(CORGI_GPIO_CHRG_UKN | GPIO_OUT);
      pxa_gpio_mode(CORGI_GPIO_KEY_INT | GPIO_IN);
      sharpsl_pm_pxa_init();
}

static void corgi_measure_temp(int on)
{
      if (on)
            GPSR(CORGI_GPIO_ADC_TEMP_ON) = GPIO_bit(CORGI_GPIO_ADC_TEMP_ON);
      else
            GPCR(CORGI_GPIO_ADC_TEMP_ON) = GPIO_bit(CORGI_GPIO_ADC_TEMP_ON);
}

static void corgi_charge(int on)
{
      if (on) {
            if (machine_is_corgi() && (sharpsl_pm.flags & SHARPSL_SUSPENDED)) {
                  GPCR(CORGI_GPIO_CHRG_ON) = GPIO_bit(CORGI_GPIO_CHRG_ON);
                  GPSR(CORGI_GPIO_CHRG_UKN) = GPIO_bit(CORGI_GPIO_CHRG_UKN);
            } else {
                  GPSR(CORGI_GPIO_CHRG_ON) = GPIO_bit(CORGI_GPIO_CHRG_ON);
                  GPCR(CORGI_GPIO_CHRG_UKN) = GPIO_bit(CORGI_GPIO_CHRG_UKN);
            }
      } else {
            GPCR(CORGI_GPIO_CHRG_ON) = GPIO_bit(CORGI_GPIO_CHRG_ON);
            GPCR(CORGI_GPIO_CHRG_UKN) = GPIO_bit(CORGI_GPIO_CHRG_UKN);
      }
}

static void corgi_discharge(int on)
{
      if (on)
            GPSR(CORGI_GPIO_DISCHARGE_ON) = GPIO_bit(CORGI_GPIO_DISCHARGE_ON);
      else
            GPCR(CORGI_GPIO_DISCHARGE_ON) = GPIO_bit(CORGI_GPIO_DISCHARGE_ON);
}

static void corgi_presuspend(void)
{
      int i;
      unsigned long wakeup_mask;

      /* charging , so CHARGE_ON bit is HIGH during OFF. */
      if (READ_GPIO_BIT(CORGI_GPIO_CHRG_ON))
            PGSR1 |= GPIO_bit(CORGI_GPIO_CHRG_ON);
      else
            PGSR1 &= ~GPIO_bit(CORGI_GPIO_CHRG_ON);

      if (READ_GPIO_BIT(CORGI_GPIO_LED_ORANGE))
            PGSR0 |= GPIO_bit(CORGI_GPIO_LED_ORANGE);
      else
            PGSR0 &= ~GPIO_bit(CORGI_GPIO_LED_ORANGE);

      if (READ_GPIO_BIT(CORGI_GPIO_CHRG_UKN))
            PGSR1 |= GPIO_bit(CORGI_GPIO_CHRG_UKN);
      else
            PGSR1 &= ~GPIO_bit(CORGI_GPIO_CHRG_UKN);

      /* Resume on keyboard power key */
      PGSR2 = (PGSR2 & ~CORGI_GPIO_ALL_STROBE_BIT) | CORGI_GPIO_STROBE_BIT(0);

      wakeup_mask = GPIO_bit(CORGI_GPIO_KEY_INT) | GPIO_bit(CORGI_GPIO_WAKEUP) | GPIO_bit(CORGI_GPIO_AC_IN) | GPIO_bit(CORGI_GPIO_CHRG_FULL);

      if (!machine_is_corgi())
            wakeup_mask |= GPIO_bit(CORGI_GPIO_MAIN_BAT_LOW);

      PWER = wakeup_mask | PWER_RTC;
      PRER = wakeup_mask;
      PFER = wakeup_mask;

      for (i = 0; i <=15; i++) {
            if (PRER & PFER & GPIO_bit(i)) {
                  if (GPLR0 & GPIO_bit(i) )
                        PRER &= ~GPIO_bit(i);
                  else
                        PFER &= ~GPIO_bit(i);
            }
      }
}

static void corgi_postsuspend(void)
{
}

/*
 * Check what brought us out of the suspend.
 * Return: 0 to sleep, otherwise wake
 */
static int corgi_should_wakeup(unsigned int resume_on_alarm)
{
      int is_resume = 0;

      dev_dbg(sharpsl_pm.dev, "GPLR0 = %x,%x\n", GPLR0, PEDR);

      if ((PEDR & GPIO_bit(CORGI_GPIO_AC_IN))) {
            if (sharpsl_pm.machinfo->read_devdata(SHARPSL_STATUS_ACIN)) {
                  /* charge on */
                  dev_dbg(sharpsl_pm.dev, "ac insert\n");
                  sharpsl_pm.flags |= SHARPSL_DO_OFFLINE_CHRG;
            } else {
                  /* charge off */
                  dev_dbg(sharpsl_pm.dev, "ac remove\n");
                  sharpsl_pm_led(SHARPSL_LED_OFF);
                  sharpsl_pm.machinfo->charge(0);
                  sharpsl_pm.charge_mode = CHRG_OFF;
            }
      }

      if ((PEDR & GPIO_bit(CORGI_GPIO_CHRG_FULL)))
            dev_dbg(sharpsl_pm.dev, "Charge full interrupt\n");

      if (PEDR & GPIO_bit(CORGI_GPIO_KEY_INT))
            is_resume |= GPIO_bit(CORGI_GPIO_KEY_INT);

      if (PEDR & GPIO_bit(CORGI_GPIO_WAKEUP))
            is_resume |= GPIO_bit(CORGI_GPIO_WAKEUP);

      if (resume_on_alarm && (PEDR & PWER_RTC))
            is_resume |= PWER_RTC;

      dev_dbg(sharpsl_pm.dev, "is_resume: %x\n",is_resume);
      return is_resume;
}

static unsigned long corgi_charger_wakeup(void)
{
      return ~GPLR0 & ( GPIO_bit(CORGI_GPIO_AC_IN) | GPIO_bit(CORGI_GPIO_KEY_INT) | GPIO_bit(CORGI_GPIO_WAKEUP) );
}

unsigned long corgipm_read_devdata(int type)
{
      switch(type) {
      case SHARPSL_STATUS_ACIN:
            return ((GPLR(CORGI_GPIO_AC_IN) & GPIO_bit(CORGI_GPIO_AC_IN)) != 0);
      case SHARPSL_STATUS_LOCK:
            return READ_GPIO_BIT(sharpsl_pm.machinfo->gpio_batlock);
      case SHARPSL_STATUS_CHRGFULL:
            return READ_GPIO_BIT(sharpsl_pm.machinfo->gpio_batfull);
      case SHARPSL_STATUS_FATAL:
            return READ_GPIO_BIT(sharpsl_pm.machinfo->gpio_fatal);
      case SHARPSL_ACIN_VOLT:
            return sharpsl_pm_pxa_read_max1111(MAX1111_ACIN_VOLT);
      case SHARPSL_BATT_TEMP:
            return sharpsl_pm_pxa_read_max1111(MAX1111_BATT_TEMP);
      case SHARPSL_BATT_VOLT:
      default:
            return sharpsl_pm_pxa_read_max1111(MAX1111_BATT_VOLT);
      }
}

static struct sharpsl_charger_machinfo corgi_pm_machinfo = {
      .init            = corgi_charger_init,
      .exit            = sharpsl_pm_pxa_remove,
      .gpio_batlock    = CORGI_GPIO_BAT_COVER,
      .gpio_acin       = CORGI_GPIO_AC_IN,
      .gpio_batfull    = CORGI_GPIO_CHRG_FULL,
      .discharge       = corgi_discharge,
      .charge          = corgi_charge,
      .measure_temp    = corgi_measure_temp,
      .presuspend      = corgi_presuspend,
      .postsuspend     = corgi_postsuspend,
      .read_devdata    = corgipm_read_devdata,
      .charger_wakeup  = corgi_charger_wakeup,
      .should_wakeup   = corgi_should_wakeup,
      .backlight_limit = corgibl_limit_intensity,
      .charge_on_volt     = SHARPSL_CHARGE_ON_VOLT,
      .charge_on_temp     = SHARPSL_CHARGE_ON_TEMP,
      .charge_acin_high = SHARPSL_CHARGE_ON_ACIN_HIGH,
      .charge_acin_low  = SHARPSL_CHARGE_ON_ACIN_LOW,
      .fatal_acin_volt  = SHARPSL_FATAL_ACIN_VOLT,
      .fatal_noacin_volt= SHARPSL_FATAL_NOACIN_VOLT,
      .bat_levels       = 40,
      .bat_levels_noac  = spitz_battery_levels_noac,
      .bat_levels_acin  = spitz_battery_levels_acin,
      .status_high_acin = 188,
      .status_low_acin  = 178,
      .status_high_noac = 185,
      .status_low_noac  = 175,
};

static struct platform_device *corgipm_device;

static int __devinit corgipm_init(void)
{
      int ret;

      corgipm_device = platform_device_alloc("sharpsl-pm", -1);
      if (!corgipm_device)
            return -ENOMEM;

      if (!machine_is_corgi())
          corgi_pm_machinfo.batfull_irq = 1;

      corgipm_device->dev.platform_data = &corgi_pm_machinfo;
      ret = platform_device_add(corgipm_device);

      if (ret)
            platform_device_put(corgipm_device);

      return ret;
}

static void corgipm_exit(void)
{
      platform_device_unregister(corgipm_device);
}

module_init(corgipm_init);
module_exit(corgipm_exit);

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