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d6faca40f4
The mc146818_get_time/mc146818_set_time functions are rather large inline functions in a global header file and are used in several drivers and in x86 specific code. Here we move them into a separate .c file that is compiled whenever any of the users require it. This also lets us remove the linux/acpi.h header inclusion from mc146818rtc.h, which in turn avoids some warnings about duplicate definition of the TRUE/FALSE macros. Signed-off-by: Arnd Bergmann <arnd@arndb.de> Signed-off-by: Alexandre Belloni <alexandre.belloni@free-electrons.com>
199 lines
5.0 KiB
C
199 lines
5.0 KiB
C
#include <linux/bcd.h>
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#include <linux/delay.h>
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#include <linux/export.h>
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#include <linux/mc146818rtc.h>
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#ifdef CONFIG_ACPI
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#include <linux/acpi.h>
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#endif
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/*
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* Returns true if a clock update is in progress
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*/
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static inline unsigned char mc146818_is_updating(void)
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{
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unsigned char uip;
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unsigned long flags;
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spin_lock_irqsave(&rtc_lock, flags);
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uip = (CMOS_READ(RTC_FREQ_SELECT) & RTC_UIP);
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spin_unlock_irqrestore(&rtc_lock, flags);
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return uip;
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}
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unsigned int mc146818_get_time(struct rtc_time *time)
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{
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unsigned char ctrl;
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unsigned long flags;
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unsigned char century = 0;
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#ifdef CONFIG_MACH_DECSTATION
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unsigned int real_year;
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#endif
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/*
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* read RTC once any update in progress is done. The update
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* can take just over 2ms. We wait 20ms. There is no need to
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* to poll-wait (up to 1s - eeccch) for the falling edge of RTC_UIP.
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* If you need to know *exactly* when a second has started, enable
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* periodic update complete interrupts, (via ioctl) and then
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* immediately read /dev/rtc which will block until you get the IRQ.
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* Once the read clears, read the RTC time (again via ioctl). Easy.
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*/
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if (mc146818_is_updating())
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mdelay(20);
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/*
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* Only the values that we read from the RTC are set. We leave
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* tm_wday, tm_yday and tm_isdst untouched. Even though the
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* RTC has RTC_DAY_OF_WEEK, we ignore it, as it is only updated
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* by the RTC when initially set to a non-zero value.
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*/
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spin_lock_irqsave(&rtc_lock, flags);
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time->tm_sec = CMOS_READ(RTC_SECONDS);
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time->tm_min = CMOS_READ(RTC_MINUTES);
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time->tm_hour = CMOS_READ(RTC_HOURS);
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time->tm_mday = CMOS_READ(RTC_DAY_OF_MONTH);
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time->tm_mon = CMOS_READ(RTC_MONTH);
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time->tm_year = CMOS_READ(RTC_YEAR);
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#ifdef CONFIG_MACH_DECSTATION
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real_year = CMOS_READ(RTC_DEC_YEAR);
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#endif
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#ifdef CONFIG_ACPI
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if (acpi_gbl_FADT.header.revision >= FADT2_REVISION_ID &&
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acpi_gbl_FADT.century)
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century = CMOS_READ(acpi_gbl_FADT.century);
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#endif
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ctrl = CMOS_READ(RTC_CONTROL);
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spin_unlock_irqrestore(&rtc_lock, flags);
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if (!(ctrl & RTC_DM_BINARY) || RTC_ALWAYS_BCD)
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{
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time->tm_sec = bcd2bin(time->tm_sec);
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time->tm_min = bcd2bin(time->tm_min);
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time->tm_hour = bcd2bin(time->tm_hour);
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time->tm_mday = bcd2bin(time->tm_mday);
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time->tm_mon = bcd2bin(time->tm_mon);
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time->tm_year = bcd2bin(time->tm_year);
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century = bcd2bin(century);
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}
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#ifdef CONFIG_MACH_DECSTATION
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time->tm_year += real_year - 72;
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#endif
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if (century)
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time->tm_year += (century - 19) * 100;
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/*
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* Account for differences between how the RTC uses the values
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* and how they are defined in a struct rtc_time;
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*/
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if (time->tm_year <= 69)
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time->tm_year += 100;
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time->tm_mon--;
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return RTC_24H;
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}
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EXPORT_SYMBOL_GPL(mc146818_get_time);
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/* Set the current date and time in the real time clock. */
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int mc146818_set_time(struct rtc_time *time)
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{
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unsigned long flags;
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unsigned char mon, day, hrs, min, sec;
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unsigned char save_control, save_freq_select;
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unsigned int yrs;
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#ifdef CONFIG_MACH_DECSTATION
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unsigned int real_yrs, leap_yr;
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#endif
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unsigned char century = 0;
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yrs = time->tm_year;
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mon = time->tm_mon + 1; /* tm_mon starts at zero */
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day = time->tm_mday;
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hrs = time->tm_hour;
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min = time->tm_min;
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sec = time->tm_sec;
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if (yrs > 255) /* They are unsigned */
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return -EINVAL;
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spin_lock_irqsave(&rtc_lock, flags);
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#ifdef CONFIG_MACH_DECSTATION
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real_yrs = yrs;
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leap_yr = ((!((yrs + 1900) % 4) && ((yrs + 1900) % 100)) ||
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!((yrs + 1900) % 400));
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yrs = 72;
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/*
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* We want to keep the year set to 73 until March
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* for non-leap years, so that Feb, 29th is handled
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* correctly.
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*/
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if (!leap_yr && mon < 3) {
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real_yrs--;
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yrs = 73;
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}
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#endif
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#ifdef CONFIG_ACPI
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if (acpi_gbl_FADT.header.revision >= FADT2_REVISION_ID &&
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acpi_gbl_FADT.century) {
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century = (yrs + 1900) / 100;
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yrs %= 100;
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}
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#endif
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/* These limits and adjustments are independent of
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* whether the chip is in binary mode or not.
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*/
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if (yrs > 169) {
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spin_unlock_irqrestore(&rtc_lock, flags);
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return -EINVAL;
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}
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if (yrs >= 100)
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yrs -= 100;
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if (!(CMOS_READ(RTC_CONTROL) & RTC_DM_BINARY)
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|| RTC_ALWAYS_BCD) {
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sec = bin2bcd(sec);
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min = bin2bcd(min);
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hrs = bin2bcd(hrs);
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day = bin2bcd(day);
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mon = bin2bcd(mon);
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yrs = bin2bcd(yrs);
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century = bin2bcd(century);
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}
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save_control = CMOS_READ(RTC_CONTROL);
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CMOS_WRITE((save_control|RTC_SET), RTC_CONTROL);
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save_freq_select = CMOS_READ(RTC_FREQ_SELECT);
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CMOS_WRITE((save_freq_select|RTC_DIV_RESET2), RTC_FREQ_SELECT);
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#ifdef CONFIG_MACH_DECSTATION
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CMOS_WRITE(real_yrs, RTC_DEC_YEAR);
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#endif
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CMOS_WRITE(yrs, RTC_YEAR);
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CMOS_WRITE(mon, RTC_MONTH);
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CMOS_WRITE(day, RTC_DAY_OF_MONTH);
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CMOS_WRITE(hrs, RTC_HOURS);
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CMOS_WRITE(min, RTC_MINUTES);
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CMOS_WRITE(sec, RTC_SECONDS);
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#ifdef CONFIG_ACPI
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if (acpi_gbl_FADT.header.revision >= FADT2_REVISION_ID &&
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acpi_gbl_FADT.century)
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CMOS_WRITE(century, acpi_gbl_FADT.century);
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#endif
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CMOS_WRITE(save_control, RTC_CONTROL);
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CMOS_WRITE(save_freq_select, RTC_FREQ_SELECT);
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spin_unlock_irqrestore(&rtc_lock, flags);
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return 0;
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}
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EXPORT_SYMBOL_GPL(mc146818_set_time);
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