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/*
* Copyright IBM Corp. 2004
*
* Author: Martin Schwidefsky <schwidefsky@de.ibm.com>
*/
#ifndef _S390_CPUTIME_H
#define _S390_CPUTIME_H
#include <linux/types.h>
#include <linux/percpu.h>
#include <linux/spinlock.h>
#include <asm/div64.h>
#define __ARCH_HAS_VTIME_ACCOUNT
#define __ARCH_HAS_VTIME_TASK_SWITCH
/* We want to use full resolution of the CPU timer: 2**-12 micro-seconds. */
typedef unsigned long long __nocast cputime_t;
typedef unsigned long long __nocast cputime64_t;
static inline unsigned long __div(unsigned long long n, unsigned long base)
{
#ifndef CONFIG_64BIT
register_pair rp;
rp.pair = n >> 1;
asm ("dr %0,%1" : "+d" (rp) : "d" (base >> 1));
return rp.subreg.odd;
#else /* CONFIG_64BIT */
return n / base;
#endif /* CONFIG_64BIT */
}
#define cputime_one_jiffy jiffies_to_cputime(1)
/*
* Convert cputime to jiffies and back.
*/
static inline unsigned long cputime_to_jiffies(const cputime_t cputime)
{
return __div((__force unsigned long long) cputime, 4096000000ULL / HZ);
}
static inline cputime_t jiffies_to_cputime(const unsigned int jif)
{
return (__force cputime_t)(jif * (4096000000ULL / HZ));
}
static inline u64 cputime64_to_jiffies64(cputime64_t cputime)
{
unsigned long long jif = (__force unsigned long long) cputime;
do_div(jif, 4096000000ULL / HZ);
return jif;
}
static inline cputime64_t jiffies64_to_cputime64(const u64 jif)
{
return (__force cputime64_t)(jif * (4096000000ULL / HZ));
}
/*
* Convert cputime to microseconds and back.
*/
static inline unsigned int cputime_to_usecs(const cputime_t cputime)
{
return (__force unsigned long long) cputime >> 12;
}
static inline cputime_t usecs_to_cputime(const unsigned int m)
{
return (__force cputime_t)(m * 4096ULL);
}
#define usecs_to_cputime64(m) usecs_to_cputime(m)
/*
* Convert cputime to milliseconds and back.
*/
static inline unsigned int cputime_to_secs(const cputime_t cputime)
{
return __div((__force unsigned long long) cputime, 2048000000) >> 1;
}
static inline cputime_t secs_to_cputime(const unsigned int s)
{
return (__force cputime_t)(s * 4096000000ULL);
}
/*
* Convert cputime to timespec and back.
*/
static inline cputime_t timespec_to_cputime(const struct timespec *value)
{
unsigned long long ret = value->tv_sec * 4096000000ULL;
return (__force cputime_t)(ret + value->tv_nsec * 4096 / 1000);
}
static inline void cputime_to_timespec(const cputime_t cputime,
struct timespec *value)
{
unsigned long long __cputime = (__force unsigned long long) cputime;
#ifndef CONFIG_64BIT
register_pair rp;
rp.pair = __cputime >> 1;
asm ("dr %0,%1" : "+d" (rp) : "d" (2048000000UL));
value->tv_nsec = rp.subreg.even * 1000 / 4096;
value->tv_sec = rp.subreg.odd;
#else
value->tv_nsec = (__cputime % 4096000000ULL) * 1000 / 4096;
value->tv_sec = __cputime / 4096000000ULL;
#endif
}
/*
* Convert cputime to timeval and back.
* Since cputime and timeval have the same resolution (microseconds)
* this is easy.
*/
static inline cputime_t timeval_to_cputime(const struct timeval *value)
{
unsigned long long ret = value->tv_sec * 4096000000ULL;
return (__force cputime_t)(ret + value->tv_usec * 4096ULL);
}
static inline void cputime_to_timeval(const cputime_t cputime,
struct timeval *value)
{
unsigned long long __cputime = (__force unsigned long long) cputime;
#ifndef CONFIG_64BIT
register_pair rp;
rp.pair = __cputime >> 1;
asm ("dr %0,%1" : "+d" (rp) : "d" (2048000000UL));
value->tv_usec = rp.subreg.even / 4096;
value->tv_sec = rp.subreg.odd;
#else
value->tv_usec = (__cputime % 4096000000ULL) / 4096;
value->tv_sec = __cputime / 4096000000ULL;
#endif
}
/*
* Convert cputime to clock and back.
*/
static inline clock_t cputime_to_clock_t(cputime_t cputime)
{
unsigned long long clock = (__force unsigned long long) cputime;
do_div(clock, 4096000000ULL / USER_HZ);
return clock;
}
static inline cputime_t clock_t_to_cputime(unsigned long x)
{
return (__force cputime_t)(x * (4096000000ULL / USER_HZ));
}
/*
* Convert cputime64 to clock.
*/
static inline clock_t cputime64_to_clock_t(cputime64_t cputime)
{
unsigned long long clock = (__force unsigned long long) cputime;
do_div(clock, 4096000000ULL / USER_HZ);
return clock;
}
struct s390_idle_data {
int nohz_delay;
unsigned int sequence;
unsigned long long idle_count;
unsigned long long idle_time;
unsigned long long clock_idle_enter;
unsigned long long clock_idle_exit;
unsigned long long timer_idle_enter;
unsigned long long timer_idle_exit;
};
DECLARE_PER_CPU(struct s390_idle_data, s390_idle);
cputime64_t s390_get_idle_time(int cpu);
#define arch_idle_time(cpu) s390_get_idle_time(cpu)
static inline int s390_nohz_delay(int cpu)
{
return __get_cpu_var(s390_idle).nohz_delay != 0;
}
#define arch_needs_cpu(cpu) s390_nohz_delay(cpu)
#endif /* _S390_CPUTIME_H */