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bootloader/u-boot_2015_04/post/drivers/rtc.c 3.55 KB
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  /*
   * (C) Copyright 2002
   * Wolfgang Denk, DENX Software Engineering, wd@denx.de.
   *
   * SPDX-License-Identifier:	GPL-2.0+
   */
  
  #include <common.h>
  
  /*
   * RTC test
   *
   * The Real Time Clock (RTC) operation is verified by this test.
   * The following features are verified:
   *   o) RTC Power Fault
   *	This is verified by analyzing the rtc_get() return status.
   *   o) Time uniformity
   *      This is verified by reading RTC in polling within
   *      a short period of time.
   *   o) Passing month boundaries
   *      This is checked by setting RTC to a second before
   *      a month boundary and reading it after its passing the
   *      boundary. The test is performed for both leap- and
   *      nonleap-years.
   */
  
  #include <post.h>
  #include <rtc.h>
  
  #if CONFIG_POST & CONFIG_SYS_POST_RTC
  
  static int rtc_post_skip (ulong * diff)
  {
  	struct rtc_time tm1;
  	struct rtc_time tm2;
  	ulong start1;
  	ulong start2;
  
  	rtc_get (&tm1);
  	start1 = get_timer (0);
  
  	while (1) {
  		rtc_get (&tm2);
  		start2 = get_timer (0);
  		if (tm1.tm_sec != tm2.tm_sec)
  			break;
  		if (start2 - start1 > 1500)
  			break;
  	}
  
  	if (tm1.tm_sec != tm2.tm_sec) {
  		*diff = start2 - start1;
  
  		return 0;
  	} else {
  		return -1;
  	}
  }
  
  static void rtc_post_restore (struct rtc_time *tm, unsigned int sec)
  {
  	time_t t = mktime (tm->tm_year, tm->tm_mon, tm->tm_mday, tm->tm_hour,
  					   tm->tm_min, tm->tm_sec) + sec;
  	struct rtc_time ntm;
  
  	to_tm (t, &ntm);
  
  	rtc_set (&ntm);
  }
  
  int rtc_post_test (int flags)
  {
  	ulong diff;
  	unsigned int i;
  	struct rtc_time svtm;
  	static unsigned int daysnl[] =
  			{ 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };
  	static unsigned int daysl[] =
  			{ 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };
  	unsigned int ynl = 1999;
  	unsigned int yl = 2000;
  	unsigned int skipped = 0;
  	int reliable;
  
  	/* Time reliability */
  	reliable = rtc_get (&svtm);
  
  	/* Time uniformity */
  	if (rtc_post_skip (&diff) != 0) {
  		post_log ("Timeout while waiting for a new second !
  ");
  
  		return -1;
  	}
  
  	for (i = 0; i < 5; i++) {
  		if (rtc_post_skip (&diff) != 0) {
  			post_log ("Timeout while waiting for a new second !
  ");
  
  			return -1;
  		}
  
  		if (diff < 950 || diff > 1050) {
  			post_log ("Invalid second duration !
  ");
  
  			return -1;
  		}
  	}
  
  	/* Passing month boundaries */
  
  	if (rtc_post_skip (&diff) != 0) {
  		post_log ("Timeout while waiting for a new second !
  ");
  
  		return -1;
  	}
  	rtc_get (&svtm);
  
  	for (i = 0; i < 12; i++) {
  		time_t t = mktime (ynl, i + 1, daysnl[i], 23, 59, 59);
  		struct rtc_time tm;
  
  		to_tm (t, &tm);
  		rtc_set (&tm);
  
  		skipped++;
  		if (rtc_post_skip (&diff) != 0) {
  			rtc_post_restore (&svtm, skipped);
  			post_log ("Timeout while waiting for a new second !
  ");
  
  			return -1;
  		}
  
  		rtc_get (&tm);
  		if (tm.tm_mon == i + 1) {
  			rtc_post_restore (&svtm, skipped);
  			post_log ("Month %d boundary is not passed !
  ", i + 1);
  
  			return -1;
  		}
  	}
  
  	for (i = 0; i < 12; i++) {
  		time_t t = mktime (yl, i + 1, daysl[i], 23, 59, 59);
  		struct rtc_time tm;
  
  		to_tm (t, &tm);
  		rtc_set (&tm);
  
  		skipped++;
  		if (rtc_post_skip (&diff) != 0) {
  			rtc_post_restore (&svtm, skipped);
  			post_log ("Timeout while waiting for a new second !
  ");
  
  			return -1;
  		}
  
  		rtc_get (&tm);
  		if (tm.tm_mon == i + 1) {
  			rtc_post_restore (&svtm, skipped);
  			post_log ("Month %d boundary is not passed !
  ", i + 1);
  
  			return -1;
  		}
  	}
  	rtc_post_restore (&svtm, skipped);
  
  	/* If come here, then RTC operates correcty, check the correctness
  	 * of the time it reports.
  	 */
  	if (reliable < 0) {
  		post_log ("RTC Time is not reliable! Power fault? 
  ");
  
  		return -1;
  	}
  
  	return 0;
  }
  
  #endif /* CONFIG_POST & CONFIG_SYS_POST_RTC */