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Linux/arch/x86/include/asm/mc146818rtc.h

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  1 /* SPDX-License-Identifier: GPL-2.0 */
  2 /*
  3  * Machine dependent access functions for RTC registers.
  4  */
  5 #ifndef _ASM_X86_MC146818RTC_H
  6 #define _ASM_X86_MC146818RTC_H
  7 
  8 #include <asm/io.h>
  9 #include <asm/processor.h>
 10 
 11 #ifndef RTC_PORT
 12 #define RTC_PORT(x)     (0x70 + (x))
 13 #define RTC_ALWAYS_BCD  1       /* RTC operates in binary mode */
 14 #endif
 15 
 16 #if defined(CONFIG_X86_32)
 17 /*
 18  * This lock provides nmi access to the CMOS/RTC registers.  It has some
 19  * special properties.  It is owned by a CPU and stores the index register
 20  * currently being accessed (if owned).  The idea here is that it works
 21  * like a normal lock (normally).  However, in an NMI, the NMI code will
 22  * first check to see if its CPU owns the lock, meaning that the NMI
 23  * interrupted during the read/write of the device.  If it does, it goes ahead
 24  * and performs the access and then restores the index register.  If it does
 25  * not, it locks normally.
 26  *
 27  * Note that since we are working with NMIs, we need this lock even in
 28  * a non-SMP machine just to mark that the lock is owned.
 29  *
 30  * This only works with compare-and-swap.  There is no other way to
 31  * atomically claim the lock and set the owner.
 32  */
 33 #include <linux/smp.h>
 34 extern volatile unsigned long cmos_lock;
 35 
 36 /*
 37  * All of these below must be called with interrupts off, preempt
 38  * disabled, etc.
 39  */
 40 
 41 static inline void lock_cmos(unsigned char reg)
 42 {
 43         unsigned long new;
 44         new = ((smp_processor_id() + 1) << 8) | reg;
 45         for (;;) {
 46                 if (cmos_lock) {
 47                         cpu_relax();
 48                         continue;
 49                 }
 50                 if (__cmpxchg(&cmos_lock, 0, new, sizeof(cmos_lock)) == 0)
 51                         return;
 52         }
 53 }
 54 
 55 static inline void unlock_cmos(void)
 56 {
 57         cmos_lock = 0;
 58 }
 59 
 60 static inline int do_i_have_lock_cmos(void)
 61 {
 62         return (cmos_lock >> 8) == (smp_processor_id() + 1);
 63 }
 64 
 65 static inline unsigned char current_lock_cmos_reg(void)
 66 {
 67         return cmos_lock & 0xff;
 68 }
 69 
 70 #define lock_cmos_prefix(reg)                   \
 71         do {                                    \
 72                 unsigned long cmos_flags;       \
 73                 local_irq_save(cmos_flags);     \
 74                 lock_cmos(reg)
 75 
 76 #define lock_cmos_suffix(reg)                   \
 77         unlock_cmos();                          \
 78         local_irq_restore(cmos_flags);          \
 79         } while (0)
 80 #else
 81 #define lock_cmos_prefix(reg) do {} while (0)
 82 #define lock_cmos_suffix(reg) do {} while (0)
 83 #define lock_cmos(reg) do { } while (0)
 84 #define unlock_cmos() do { } while (0)
 85 #define do_i_have_lock_cmos() 0
 86 #define current_lock_cmos_reg() 0
 87 #endif
 88 
 89 /*
 90  * The yet supported machines all access the RTC index register via
 91  * an ISA port access but the way to access the date register differs ...
 92  */
 93 #define CMOS_READ(addr) rtc_cmos_read(addr)
 94 #define CMOS_WRITE(val, addr) rtc_cmos_write(val, addr)
 95 unsigned char rtc_cmos_read(unsigned char addr);
 96 void rtc_cmos_write(unsigned char val, unsigned char addr);
 97 
 98 extern int mach_set_cmos_time(const struct timespec64 *now);
 99 extern void mach_get_cmos_time(struct timespec64 *now);
100 
101 #define RTC_IRQ 8
102 
103 #endif /* _ASM_X86_MC146818RTC_H */
104 

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