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bootloader/u-boot_2015_04/drivers/rtc/ds1374.c 6.18 KB
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  /*
   * (C) Copyright 2001, 2002, 2003
   * Wolfgang Denk, DENX Software Engineering, wd@denx.de.
   * Keith Outwater, keith_outwater@mvis.com`
   * Steven Scholz, steven.scholz@imc-berlin.de
   *
   * SPDX-License-Identifier:	GPL-2.0+
   */
  
  /*
   * Date & Time support (no alarms) for Dallas Semiconductor (now Maxim)
   * DS1374 Real Time Clock (RTC).
   *
   * based on ds1337.c
   */
  
  #include <common.h>
  #include <command.h>
  #include <rtc.h>
  #include <i2c.h>
  
  #if defined(CONFIG_CMD_DATE)
  
  /*---------------------------------------------------------------------*/
  #undef DEBUG_RTC
  #define DEBUG_RTC
  
  #ifdef DEBUG_RTC
  #define DEBUGR(fmt,args...) printf(fmt ,##args)
  #else
  #define DEBUGR(fmt,args...)
  #endif
  /*---------------------------------------------------------------------*/
  
  #ifndef CONFIG_SYS_I2C_RTC_ADDR
  # define CONFIG_SYS_I2C_RTC_ADDR	0x68
  #endif
  
  #if defined(CONFIG_RTC_DS1374) && (CONFIG_SYS_I2C_SPEED > 400000)
  # error The DS1374 is specified up to 400kHz in fast mode!
  #endif
  
  /*
   * RTC register addresses
   */
  #define RTC_TOD_CNT_BYTE0_ADDR		0x00 /* TimeOfDay */
  #define RTC_TOD_CNT_BYTE1_ADDR		0x01
  #define RTC_TOD_CNT_BYTE2_ADDR		0x02
  #define RTC_TOD_CNT_BYTE3_ADDR		0x03
  
  #define RTC_WD_ALM_CNT_BYTE0_ADDR	0x04
  #define RTC_WD_ALM_CNT_BYTE1_ADDR	0x05
  #define RTC_WD_ALM_CNT_BYTE2_ADDR	0x06
  
  #define RTC_CTL_ADDR			0x07 /* RTC-CoNTrol-register */
  #define RTC_SR_ADDR			0x08 /* RTC-StatusRegister */
  #define RTC_TCS_DS_ADDR			0x09 /* RTC-TrickleChargeSelect DiodeSelect-register */
  
  #define RTC_CTL_BIT_AIE			(1<<0) /* Bit 0 - Alarm Interrupt enable */
  #define RTC_CTL_BIT_RS1			(1<<1) /* Bit 1/2 - Rate Select square wave output */
  #define RTC_CTL_BIT_RS2			(1<<2) /* Bit 2/2 - Rate Select square wave output */
  #define RTC_CTL_BIT_WDSTR		(1<<3) /* Bit 3 - Watchdog Reset Steering */
  #define RTC_CTL_BIT_BBSQW		(1<<4) /* Bit 4 - Battery-Backed Square-Wave */
  #define RTC_CTL_BIT_WD_ALM		(1<<5) /* Bit 5 - Watchdoc/Alarm Counter Select */
  #define RTC_CTL_BIT_WACE		(1<<6) /* Bit 6 - Watchdog/Alarm Counter Enable WACE*/
  #define RTC_CTL_BIT_EN_OSC		(1<<7) /* Bit 7 - Enable Oscilator */
  
  #define RTC_SR_BIT_AF			0x01 /* Bit 0 = Alarm Flag */
  #define RTC_SR_BIT_OSF			0x80 /* Bit 7 - Osc Stop Flag */
  
  const char RtcTodAddr[] = {
  	RTC_TOD_CNT_BYTE0_ADDR,
  	RTC_TOD_CNT_BYTE1_ADDR,
  	RTC_TOD_CNT_BYTE2_ADDR,
  	RTC_TOD_CNT_BYTE3_ADDR
  };
  
  static uchar rtc_read (uchar reg);
  static void rtc_write(uchar reg, uchar val, bool set);
  static void rtc_write_raw (uchar reg, uchar val);
  
  /*
   * Get the current time from the RTC
   */
  int rtc_get (struct rtc_time *tm){
  	int rel = 0;
  	unsigned long time1, time2;
  	unsigned int limit;
  	unsigned char tmp;
  	unsigned int i;
  
  	/*
  	 * Since the reads are being performed one byte at a time,
  	 * there is a chance that a carry will occur during the read.
  	 * To detect this, 2 reads are performed and compared.
  	 */
  	limit = 10;
  	do {
  		i = 4;
  		time1 = 0;
  		while (i--) {
  			tmp = rtc_read(RtcTodAddr[i]);
  			time1 = (time1 << 8) | (tmp & 0xff);
  		}
  
  		i = 4;
  		time2 = 0;
  		while (i--) {
  			tmp = rtc_read(RtcTodAddr[i]);
  			time2 = (time2 << 8) | (tmp & 0xff);
  		}
  	} while ((time1 != time2) && limit--);
  
  	if (time1 != time2) {
  		printf("can't get consistent time from rtc chip
  ");
  		rel = -1;
  	}
  
  	DEBUGR ("Get RTC s since 1.1.1970: %ld
  ", time1);
  
  	to_tm(time1, tm); /* To Gregorian Date */
  
  	if (rtc_read(RTC_SR_ADDR) & RTC_SR_BIT_OSF) {
  		printf ("### Warning: RTC oscillator has stopped
  ");
  		rel = -1;
  	}
  
  	DEBUGR ("Get DATE: %4d-%02d-%02d (wday=%d)  TIME: %2d:%02d:%02d
  ",
  		tm->tm_year, tm->tm_mon, tm->tm_mday, tm->tm_wday,
  		tm->tm_hour, tm->tm_min, tm->tm_sec);
  
  	return rel;
  }
  
  /*
   * Set the RTC
   */
  int rtc_set (struct rtc_time *tmp){
  
  	unsigned long time;
  	unsigned i;
  
  	DEBUGR ("Set DATE: %4d-%02d-%02d (wday=%d)  TIME: %2d:%02d:%02d
  ",
  		tmp->tm_year, tmp->tm_mon, tmp->tm_mday, tmp->tm_wday,
  		tmp->tm_hour, tmp->tm_min, tmp->tm_sec);
  
  	if (tmp->tm_year < 1970 || tmp->tm_year > 2069)
  		printf("WARNING: year should be between 1970 and 2069!
  ");
  
  	time = mktime(tmp->tm_year, tmp->tm_mon,
  			tmp->tm_mday, tmp->tm_hour,
  			tmp->tm_min, tmp->tm_sec);
  
  	DEBUGR ("Set RTC s since 1.1.1970: %ld (0x%02lx)
  ", time, time);
  
  	/* write to RTC_TOD_CNT_BYTEn_ADDR */
  	for (i = 0; i <= 3; i++) {
  		rtc_write_raw(RtcTodAddr[i], (unsigned char)(time & 0xff));
  		time = time >> 8;
  	}
  
  	/* Start clock */
  	rtc_write(RTC_CTL_ADDR, RTC_CTL_BIT_EN_OSC, false);
  
  	return 0;
  }
  
  /*
   * Reset the RTC. We setting the date back to 1970-01-01.
   * We also enable the oscillator output on the SQW/OUT pin and program
   * it for 32,768 Hz output. Note that according to the datasheet, turning
   * on the square wave output increases the current drain on the backup
   * battery to something between 480nA and 800nA.
   */
  void rtc_reset (void){
  
  	struct rtc_time tmp;
  
  	/* clear status flags */
  	rtc_write(RTC_SR_ADDR, (RTC_SR_BIT_AF|RTC_SR_BIT_OSF), false); /* clearing OSF and AF */
  
  	/* Initialise DS1374 oriented to MPC8349E-ADS */
  	rtc_write (RTC_CTL_ADDR, (RTC_CTL_BIT_EN_OSC
  				 |RTC_CTL_BIT_WACE
  				 |RTC_CTL_BIT_AIE), false);/* start osc, disable WACE, clear AIE
  							      - set to 0 */
  	rtc_write (RTC_CTL_ADDR, (RTC_CTL_BIT_WD_ALM
  				|RTC_CTL_BIT_WDSTR
  				|RTC_CTL_BIT_RS1
  				|RTC_CTL_BIT_RS2
  				|RTC_CTL_BIT_BBSQW), true);/* disable WD/ALM, WDSTR set to INT-pin,
  							      set BBSQW and SQW to 32k
  							      - set to 1 */
  	tmp.tm_year = 1970;
  	tmp.tm_mon = 1;
  	tmp.tm_mday= 1;
  	tmp.tm_hour = 0;
  	tmp.tm_min = 0;
  	tmp.tm_sec = 0;
  
  	rtc_set(&tmp);
  
  	printf("RTC:   %4d-%02d-%02d %2d:%02d:%02d UTC
  ",
  		tmp.tm_year, tmp.tm_mon, tmp.tm_mday,
  		tmp.tm_hour, tmp.tm_min, tmp.tm_sec);
  
  	rtc_write(RTC_WD_ALM_CNT_BYTE2_ADDR, 0xAC, true);
  	rtc_write(RTC_WD_ALM_CNT_BYTE1_ADDR, 0xDE, true);
  	rtc_write(RTC_WD_ALM_CNT_BYTE2_ADDR, 0xAD, true);
  }
  
  /*
   * Helper functions
   */
  static uchar rtc_read (uchar reg)
  {
  	return (i2c_reg_read (CONFIG_SYS_I2C_RTC_ADDR, reg));
  }
  
  static void rtc_write(uchar reg, uchar val, bool set)
  {
  	if (set == true) {
  		val |= i2c_reg_read (CONFIG_SYS_I2C_RTC_ADDR, reg);
  		i2c_reg_write (CONFIG_SYS_I2C_RTC_ADDR, reg, val);
  	} else {
  		val = i2c_reg_read (CONFIG_SYS_I2C_RTC_ADDR, reg) & ~val;
  		i2c_reg_write (CONFIG_SYS_I2C_RTC_ADDR, reg, val);
  	}
  }
  
  static void rtc_write_raw (uchar reg, uchar val)
  {
  		i2c_reg_write (CONFIG_SYS_I2C_RTC_ADDR, reg, val);
  }
  #endif