/* $Id: perfctr.h,v 1.1.2.2 2009/06/11 12:33:51 mikpe Exp $
* ARM/XScale Performance-Monitoring Counters driver
*
* Copyright (C) 2005-2007, 2009 Mikael Pettersson
*/
#ifndef _ASM_ARM_PERFCTR_H
#define _ASM_ARM_PERFCTR_H
/* perfctr_info.cpu_type values */
#define PERFCTR_ARM_XSC1 1
#define PERFCTR_ARM_XSC2 2
struct perfctr_sum_ctrs {
unsigned long long tsc;
unsigned long long pmc[4];
};
struct perfctr_cpu_control {
unsigned int tsc_on;
unsigned int nractrs; /* # of a-mode counters */
unsigned int nrictrs; /* # of i-mode counters */
unsigned int pmc_map[4];
unsigned int evntsel[4]; /* one per counter, even on P5 */
int ireset[4]; /* < 0, for i-mode counters */
unsigned int _reserved1;
unsigned int _reserved2;
unsigned int _reserved3;
unsigned int _reserved4;
};
struct perfctr_cpu_state {
unsigned int cstatus;
struct { /* k1 is opaque in the user ABI */
unsigned int id;
int isuspend_cpu;
} k1;
/* The two tsc fields must be inlined. Placing them in a
sub-struct causes unwanted internal padding on x86-64. */
unsigned int tsc_start;
unsigned long long tsc_sum;
struct {
unsigned int map;
unsigned int start;
unsigned long long sum;
} pmc[4]; /* the size is not part of the user ABI */
#ifdef __KERNEL__
union {
struct {
unsigned int pmnc;
} xsc1;
struct {
unsigned int evtsel;
unsigned int inten;
} xsc2;
} arm;
struct perfctr_cpu_control control;
#endif
};
/* cstatus is a re-encoding of control.tsc_on/nractrs/nrictrs
which should have less overhead in most cases */
static inline
unsigned int perfctr_mk_cstatus(unsigned int tsc_on, unsigned int nractrs,
unsigned int nrictrs)
{
return (tsc_on<<31) | (nrictrs<<16) | ((nractrs+nrictrs)<<8) | nractrs;
}
static inline unsigned int perfctr_cstatus_enabled(unsigned int cstatus)
{
return cstatus;
}
static inline int perfctr_cstatus_has_tsc(unsigned int cstatus)
{
return (int)cstatus < 0; /* test and jump on sign */
}
static inline unsigned int perfctr_cstatus_nractrs(unsigned int cstatus)
{
return cstatus & 0x7F; /* and with imm8 */
}
static inline unsigned int perfctr_cstatus_nrctrs(unsigned int cstatus)
{
return (cstatus >> 8) & 0x7F;
}
static inline unsigned int perfctr_cstatus_has_ictrs(unsigned int cstatus)
{
return cstatus & (0x7F << 16);
}
/*
* 'struct siginfo' support for perfctr overflow signals.
* In unbuffered mode, si_code is set to SI_PMC_OVF and a bitmask
* describing which perfctrs overflowed is put in si_pmc_ovf_mask.
* A bitmask is used since more than one perfctr can have overflowed
* by the time the interrupt handler runs.
*
* glibc's <signal.h> doesn't seem to define __SI_FAULT or __SI_CODE(),
* and including <asm/siginfo.h> as well may cause redefinition errors,
* so the user and kernel values are different #defines here.
*/
#ifdef __KERNEL__
#define SI_PMC_OVF (__SI_FAULT|'P')
#else
#define SI_PMC_OVF ('P')
#endif
#define si_pmc_ovf_mask _sifields._pad[0] /* XXX: use an unsigned field later */
/* version number for user-visible CPU-specific data */
#define PERFCTR_CPU_VERSION 0 /* XXX: not yet cast in stone */
#ifdef __KERNEL__
#if defined(CONFIG_PERFCTR) || defined(CONFIG_PERFCTR_MODULE)
/* Driver init/exit. */
extern int perfctr_cpu_init(void);
extern void perfctr_cpu_exit(void);
/* CPU type name. */
extern char *perfctr_cpu_name;
/* Hardware reservation. */
extern const char *perfctr_cpu_reserve(const char *service);
extern void perfctr_cpu_release(const char *service);
/* PRE: state has no running interrupt-mode counters.
Check that the new control data is valid.
Update the driver's private control data.
Returns a negative error code if the control data is invalid. */
extern int perfctr_cpu_update_control(struct perfctr_cpu_state *state, cpumask_t *cpumask);
/* Read a-mode counters. Subtract from start and accumulate into sums.
Must be called with preemption disabled. */
extern void perfctr_cpu_suspend(struct perfctr_cpu_state *state);
/* Write control registers. Read a-mode counters into start.
Must be called with preemption disabled. */
extern void perfctr_cpu_resume(struct perfctr_cpu_state *state);
/* Perform an efficient combined suspend/resume operation.
Must be called with preemption disabled. */
extern void perfctr_cpu_sample(struct perfctr_cpu_state *state);
/* The type of a perfctr overflow interrupt handler.
It will be called in IRQ context, with preemption disabled. */
typedef void (*perfctr_ihandler_t)(unsigned long pc);
/* Operations related to overflow interrupt handling. */
#ifdef CONFIG_PERFCTR_INTERRUPT_SUPPORT
extern void perfctr_cpu_set_ihandler(perfctr_ihandler_t);
extern void perfctr_cpu_ireload(struct perfctr_cpu_state*);
extern unsigned int perfctr_cpu_identify_overflow(struct perfctr_cpu_state*);
#else
static inline void perfctr_cpu_set_ihandler(perfctr_ihandler_t x) { }
#endif
static inline int perfctr_cpu_has_pending_interrupt(const struct perfctr_cpu_state *state)
{
return 0;
}
#endif /* CONFIG_PERFCTR */
#endif /* __KERNEL__ */
#endif /* _ASM_ARM_PERFCTR_H */