/****************************/
/* THIS IS OPEN SOURCE CODE */
/****************************/
/**
* @file papi_internal.h
* @author Philip Mucci
* mucci@cs.utk.edu
* @author Dan Terpstra
* terpstra.utk.edu
* @author Kevin London
* london@cs.utk.edu
* @author Haihang You
* you@cs.utk.edu
*/
#ifndef _PAPI_INTERNAL_H
#define _PAPI_INTERNAL_H
/* AIX's C compiler does not recognize the inline keyword */
#ifdef _AIX
#define inline
#endif
#include "papi_debug.h"
#define DEADBEEF 0xdedbeef
extern int papi_num_components;
extern int _papi_num_compiled_components;
extern int init_level;
extern int _papi_hwi_errno;
extern int _papi_hwi_num_errors;
extern char **_papi_errlist;
/********************************************************/
/* This block provides general strings used in PAPI */
/* If a new string is needed for PAPI prompts */
/* it should be placed in this file and referenced by */
/* label. */
/********************************************************/
#define PAPI_ERROR_CODE_str "Error Code"
#define PAPI_SHUTDOWN_str "PAPI_shutdown: PAPI is not initialized"
#define PAPI_SHUTDOWN_SYNC_str "PAPI_shutdown: other threads still have running EventSets"
/* some members of structs and/or function parameters may or may not be
necessary, but at this point, we have included anything that might
possibly be useful later, and will remove them as we progress */
/* Signal used for overflow delivery */
#define PAPI_INT_MPX_SIGNAL SIGPROF
#define PAPI_INT_SIGNAL SIGPROF
#define PAPI_INT_ITIMER ITIMER_PROF
#define PAPI_INT_ITIMER_MS 1
#if defined(linux)
#define PAPI_NSIG _NSIG
#else
#define PAPI_NSIG 128
#endif
/* Multiplex definitions */
#define PAPI_INT_MPX_DEF_US 10000 /*Default resolution in us. of mpx handler */
/* Commands used to compute derived events */
#define NOT_DERIVED 0x0 /**< Do nothing */
#define DERIVED_ADD 0x1 /**< Add counters */
#define DERIVED_PS 0x2 /**< Divide by the cycle counter and convert to seconds */
#define DERIVED_ADD_PS 0x4 /**< Add 2 counters then divide by the cycle counter and xl8 to secs. */
#define DERIVED_CMPD 0x8 /**< Event lives in operand index but takes 2 or more codes */
#define DERIVED_SUB 0x10 /**< Sub all counters from counter with operand_index */
#define DERIVED_POSTFIX 0x20 /**< Process counters based on specified postfix string */
#define DERIVED_INFIX 0x40 /**< Process counters based on specified infix string */
/* Thread related: thread local storage */
#define LOWLEVEL_TLS PAPI_NUM_TLS+0
#define NUM_INNER_TLS 1
#define PAPI_MAX_TLS (NUM_INNER_TLS+PAPI_NUM_TLS)
/* Thread related: locks */
#define INTERNAL_LOCK PAPI_NUM_LOCK+0 /* papi_internal.c */
#define MULTIPLEX_LOCK PAPI_NUM_LOCK+1 /* multiplex.c */
#define THREADS_LOCK PAPI_NUM_LOCK+2 /* threads.c */
#define HIGHLEVEL_LOCK PAPI_NUM_LOCK+3 /* papi_hl.c */
#define MEMORY_LOCK PAPI_NUM_LOCK+4 /* papi_memory.c */
#define COMPONENT_LOCK PAPI_NUM_LOCK+5 /* per-component */
#define GLOBAL_LOCK PAPI_NUM_LOCK+6 /* papi.c for global variable (static and non) initialization/shutdown */
#define CPUS_LOCK PAPI_NUM_LOCK+7 /* cpus.c */
#define NAMELIB_LOCK PAPI_NUM_LOCK+8 /* papi_pfm4_events.c */
/* extras related */
#define NEED_CONTEXT 1
#define DONT_NEED_CONTEXT 0
#define PAPI_EVENTS_IN_DERIVED_EVENT 8
/* these vestigial pointers are to structures defined in the components
they are opaque to the framework and defined as void at this level
they are remapped to real data in the component routines that use them */
#define hwd_context_t void
#define hwd_control_state_t void
#define hwd_reg_alloc_t void
#define hwd_register_t void
#define hwd_siginfo_t void
#define hwd_ucontext_t void
/* DEFINES END HERE */
#ifndef NO_CONFI
#include "config.h"
#endif
#include OSCONTEXT
#include "papi_preset.h"
#ifndef inline_static
#define inline_static inline static
#endif
typedef struct _EventSetDomainInfo {
int domain;
} EventSetDomainInfo_t;
typedef struct _EventSetGranularityInfo {
int granularity;
} EventSetGranularityInfo_t;
typedef struct _EventSetOverflowInfo {
int flags;
int event_counter;
PAPI_overflow_handler_t handler;
long long *deadline;
int *threshold;
int *EventIndex;
int *EventCode;
} EventSetOverflowInfo_t;
typedef struct _EventSetAttachInfo {
unsigned long tid;
} EventSetAttachInfo_t;
typedef struct _EventSetCpuInfo {
unsigned int cpu_num;
} EventSetCpuInfo_t;
typedef struct _EventSetInheritInfo
{
int inherit;
} EventSetInheritInfo_t;
/** @internal */
typedef struct _EventSetProfileInfo {
PAPI_sprofil_t **prof;
int *count; /**< Number of buffers */
int *threshold;
int *EventIndex;
int *EventCode;
int flags;
int event_counter;
} EventSetProfileInfo_t;
/** This contains info about an individual event added to the EventSet.
The event can be either PRESET or NATIVE, and either simple or derived.
If derived, it can consist of up to PAPI_EVENTS_IN_DERIVED_EVENT
native events.
An EventSet contains a pointer to an array of these structures to define
each added event.
@internal
*/
typedef struct _EventInfo {
unsigned int event_code; /**< Preset or native code for this event as passed to PAPI_add_event() */
int pos[PAPI_EVENTS_IN_DERIVED_EVENT]; /**< position in the counter array for this events components */
char *ops; /**< operation string of preset (points into preset event struct) */
int derived; /**< Counter derivation command used for derived events */
} EventInfo_t;
/** This contains info about each native event added to the EventSet.
An EventSet contains an array of MAX_COUNTERS of these structures
to define each native event in the set.
@internal
*/
typedef struct _NativeInfo {
int ni_event; /**< native (libpfm4) event code;
always non-zero unless empty */
int ni_papi_code; /**< papi event code
value returned to papi applications */
int ni_position; /**< counter array position where this
native event lives */
int ni_owners; /**< specifies how many owners share
this native event */
hwd_register_t *ni_bits; /**< Component defined resources used by
this native event */
} NativeInfo_t;
/* Multiplex definitions */
/** This contains only the information about an event that
* would cause two events to be counted separately. Options
* that don't affect an event aren't included here.
* @internal
*/
typedef struct _papi_info {
long long event_type;
int domain;
int granularity;
} PapiInfo;
typedef struct _masterevent {
int uses;
int active;
int is_a_rate;
int papi_event;
PapiInfo pi;
long long count;
long long cycles;
long long handler_count;
long long prev_total_c;
long long count_estimate;
double rate_estimate;
struct _threadlist *mythr;
struct _masterevent *next;
} MasterEvent;
/** @internal */
typedef struct _threadlist {
#ifdef PTHREADS
pthread_t thr;
#else
unsigned long int tid;
#endif
/** Total cycles for this thread */
long long total_c;
/** Pointer to event in use */
MasterEvent *cur_event;
/** List of multiplexing events for this thread */
MasterEvent *head;
/** Pointer to next thread */
struct _threadlist *next;
} Threadlist;
/* Ugh, should move this out and into all callers of papi_internal.h */
#include "sw_multiplex.h"
/** Opaque struct, not defined yet...due to threads.h <-> papi_internal.h
@internal */
struct _ThreadInfo;
struct _CpuInfo;
/** Fields below are ordered by access in PAPI_read for performance
@internal */
typedef struct _EventSetInfo {
struct _ThreadInfo *master; /**< Pointer to thread that owns this EventSet*/
struct _CpuInfo *CpuInfo; /**< Pointer to cpu that owns this EventSet */
int state; /**< The state of this entire EventSet; can be
PAPI_RUNNING or PAPI_STOPPED plus flags */
EventInfo_t *EventInfoArray; /**< This array contains the mapping from
events added into the API into hardware
specific encoding as returned by the
kernel or the code that directly
accesses the counters. */
hwd_control_state_t *ctl_state; /**< This contains the encoding necessary
for the hardware to set the counters
to the appropriate conditions */
unsigned long int tid; /**< Thread ID, only used if
PAPI_thread_init() is called */
int EventSetIndex; /**< Index of the EventSet in the array */
int CmpIdx; /**< Which Component this EventSet Belongs to */
int NumberOfEvents; /**< Number of events added to EventSet */
long long *hw_start; /**< Array of length num_mpx_cntrs to hold
unprocessed, out of order,
long long counter registers */
long long *sw_stop; /**< Array of length num_mpx_cntrs that
contains processed, in order, PAPI
counter values when used or stopped */
int NativeCount; /**< Number of native events in
NativeInfoArray */
NativeInfo_t *NativeInfoArray; /**< Info about each native event in
the set */
hwd_register_t *NativeBits; /**< Component-specific bits corresponding
to the native events */
EventSetDomainInfo_t domain;
EventSetGranularityInfo_t granularity;
EventSetOverflowInfo_t overflow;
EventSetMultiplexInfo_t multiplex;
EventSetAttachInfo_t attach;
EventSetCpuInfo_t cpu;
EventSetProfileInfo_t profile;
EventSetInheritInfo_t inherit;
} EventSetInfo_t;
/** @internal */
typedef struct _dynamic_array {
EventSetInfo_t **dataSlotArray; /**< array of ptrs to EventSets */
int totalSlots; /**< number of slots in dataSlotArrays */
int availSlots; /**< number of open slots in dataSlotArrays */
int fullSlots; /**< number of full slots in dataSlotArray */
int lowestEmptySlot; /**< index of lowest empty dataSlotArray */
} DynamicArray_t;
/* Component option types for _papi_hwd_ctl. */
typedef struct _papi_int_attach {
unsigned long tid;
EventSetInfo_t *ESI;
} _papi_int_attach_t;
typedef struct _papi_int_cpu {
unsigned int cpu_num;
EventSetInfo_t *ESI;
} _papi_int_cpu_t;
typedef struct _papi_int_multiplex {
int flags;
unsigned long ns;
EventSetInfo_t *ESI;
} _papi_int_multiplex_t;
typedef struct _papi_int_defdomain {
int defdomain;
} _papi_int_defdomain_t;
typedef struct _papi_int_domain {
int domain;
int eventset;
EventSetInfo_t *ESI;
} _papi_int_domain_t;
typedef struct _papi_int_granularity {
int granularity;
int eventset;
EventSetInfo_t *ESI;
} _papi_int_granularity_t;
typedef struct _papi_int_overflow {
EventSetInfo_t *ESI;
EventSetOverflowInfo_t overflow;
} _papi_int_overflow_t;
typedef struct _papi_int_profile {
EventSetInfo_t *ESI;
EventSetProfileInfo_t profile;
} _papi_int_profile_t;
typedef PAPI_itimer_option_t _papi_int_itimer_t;
/* These shortcuts are only for use code */
#undef multiplex_itimer_sig
#undef multiplex_itimer_num
#undef multiplex_itimer_us
typedef struct _papi_int_inherit
{
EventSetInfo_t *ESI;
int inherit;
} _papi_int_inherit_t;
/** @internal */
typedef struct _papi_int_addr_range { /* if both are zero, range is disabled */
EventSetInfo_t *ESI;
int domain;
caddr_t start; /**< start address of an address range */
caddr_t end; /**< end address of an address range */
int start_off; /**< offset from start address as programmed in hardware */
int end_off; /**< offset from end address as programmed in hardware */
/**< if offsets are undefined, they are both set to -1 */
} _papi_int_addr_range_t;
typedef union _papi_int_option_t {
_papi_int_overflow_t overflow;
_papi_int_profile_t profile;
_papi_int_domain_t domain;
_papi_int_attach_t attach;
_papi_int_cpu_t cpu;
_papi_int_multiplex_t multiplex;
_papi_int_itimer_t itimer;
_papi_int_inherit_t inherit;
_papi_int_granularity_t granularity;
_papi_int_addr_range_t address_range;
} _papi_int_option_t;
/** Hardware independent context
* @internal */
typedef struct {
hwd_siginfo_t *si;
hwd_ucontext_t *ucontext;
} _papi_hwi_context_t;
/** @internal */
typedef struct _papi_mdi {
DynamicArray_t global_eventset_map; /**< Global structure to maintain int<->EventSet mapping */
pid_t pid; /**< Process identifier */
PAPI_hw_info_t hw_info; /**< See definition in papi.h */
PAPI_exe_info_t exe_info; /**< See definition in papi.h */
PAPI_shlib_info_t shlib_info; /**< See definition in papi.h */
PAPI_preload_info_t preload_info; /**< See definition in papi.h */
} papi_mdi_t;
extern papi_mdi_t _papi_hwi_system_info;
extern int _papi_hwi_error_level;
/* extern const hwi_describe_t _papi_hwi_err[PAPI_NUM_ERRORS]; */
/*extern volatile int _papi_hwi_using_signal;*/
extern int _papi_hwi_using_signal[PAPI_NSIG];
/** @ingroup papi_data_structures */
typedef struct _papi_os_option {
char name[PAPI_MAX_STR_LEN]; /**< Name of the operating system */
char version[PAPI_MAX_STR_LEN]; /**< descriptive OS Version */
int os_version; /**< numerical, for workarounds */
int itimer_sig; /**< Signal used by the multiplex timer, 0 if not */
int itimer_num; /**< Number of the itimer used by mpx and overflow/profile emulation */
int itimer_ns; /**< ns between mpx switching and overflow/profile emulation */
int itimer_res_ns; /**< ns of resolution of itimer */
int clock_ticks; /**< clock ticks per second */
unsigned long reserved[8]; /* For future expansion */
} PAPI_os_info_t;
extern PAPI_os_info_t _papi_os_info; /* For internal PAPI use only */
#include "papi_lock.h"
#include "threads.h"
EventSetInfo_t *_papi_hwi_lookup_EventSet( int eventset );
void _papi_hwi_set_papi_event_string (const char *event_string);
char *_papi_hwi_get_papi_event_string (void);
void _papi_hwi_free_papi_event_string();
void _papi_hwi_set_papi_event_code (unsigned int event_code, int update_flag);
unsigned int _papi_hwi_get_papi_event_code (void);
int _papi_hwi_get_ntv_idx (unsigned int papi_evt_code);
int _papi_hwi_is_sw_multiplex( EventSetInfo_t * ESI );
hwd_context_t *_papi_hwi_get_context( EventSetInfo_t * ESI, int *is_dirty );
extern int _papi_hwi_error_level;
extern PAPI_debug_handler_t _papi_hwi_debug_handler;
void PAPIERROR( char *format, ... );
void PAPIWARN( char *format, ... );
int _papi_hwi_assign_eventset( EventSetInfo_t * ESI, int cidx );
void _papi_hwi_free_EventSet( EventSetInfo_t * ESI );
int _papi_hwi_create_eventset( int *EventSet, ThreadInfo_t * handle );
int _papi_hwi_lookup_EventCodeIndex( const EventSetInfo_t * ESI,
unsigned int EventCode );
int _papi_hwi_remove_EventSet( EventSetInfo_t * ESI );
void _papi_hwi_map_events_to_native( EventSetInfo_t *ESI);
int _papi_hwi_add_event( EventSetInfo_t * ESI, int EventCode );
int _papi_hwi_remove_event( EventSetInfo_t * ESI, int EventCode );
int _papi_hwi_read( hwd_context_t * context, EventSetInfo_t * ESI,
long long *values );
int _papi_hwi_cleanup_eventset( EventSetInfo_t * ESI );
int _papi_hwi_convert_eventset_to_multiplex( _papi_int_multiplex_t * mpx );
int _papi_hwi_init_global( void );
int _papi_hwi_init_global_internal( void );
int _papi_hwi_init_os(void);
void _papi_hwi_init_errors(void);
PAPI_os_info_t *_papi_hwi_get_os_info(void);
void _papi_hwi_shutdown_global_internal( void );
void _papi_hwi_dummy_handler( int EventSet, void *address, long long overflow_vector,
void *context );
int _papi_hwi_get_preset_event_info( int EventCode, PAPI_event_info_t * info );
int _papi_hwi_get_user_event_info( int EventCode, PAPI_event_info_t * info );
int _papi_hwi_derived_type( char *tmp, int *code );
int _papi_hwi_query_native_event( unsigned int EventCode );
int _papi_hwi_get_native_event_info( unsigned int EventCode,
PAPI_event_info_t * info );
int _papi_hwi_native_name_to_code( const char *in, int *out );
int _papi_hwi_native_code_to_name( unsigned int EventCode, char *hwi_name,
int len );
int _papi_hwi_invalid_cmp( int cidx );
int _papi_hwi_component_index( int event_code );
int _papi_hwi_native_to_eventcode(int cidx, int event_code, int ntv_idx, const char *event_name);
int _papi_hwi_eventcode_to_native(int event_code);
#endif /* PAPI_INTERNAL_H */