/****************************/
/* THIS IS OPEN SOURCE CODE */
/****************************/
/*
* File: cpus.c
* Author: Gary Mohr
* gary.mohr@bull.com
* - based on threads.c by Philip Mucci -
*/
/* This file contains cpu allocation and bookkeeping functions */
#include "papi.h"
#include "papi_internal.h"
#include "papi_vector.h"
#include "papi_memory.h"
#include "cpus.h"
#include <string.h>
#include <unistd.h>
/* The list of cpus; this gets built as user apps set the cpu papi */
/* option on an event set */
static CpuInfo_t *_papi_hwi_cpu_head;
static CpuInfo_t *
_papi_hwi_lookup_cpu( unsigned int cpu_num )
{
APIDBG("Entry:\n");
CpuInfo_t *tmp;
tmp = ( CpuInfo_t * ) _papi_hwi_cpu_head;
while ( tmp != NULL ) {
THRDBG( "Examining cpu %#x at %p\n", tmp->cpu_num, tmp );
if ( tmp->cpu_num == cpu_num ) {
break;
}
tmp = tmp->next;
if ( tmp == _papi_hwi_cpu_head ) {
tmp = NULL;
break;
}
}
if ( tmp ) {
_papi_hwi_cpu_head = tmp;
THRDBG( "Found cpu %#x at %p\n", cpu_num, tmp );
} else {
THRDBG( "Did not find cpu %#x\n", cpu_num );
}
return tmp;
}
int
_papi_hwi_lookup_or_create_cpu( CpuInfo_t **here, unsigned int cpu_num )
{
APIDBG("Entry: here: %p\n", here);
CpuInfo_t *tmp = NULL;
int retval = PAPI_OK;
_papi_hwi_lock( CPUS_LOCK );
tmp = _papi_hwi_lookup_cpu(cpu_num);
if ( tmp == NULL ) {
retval = _papi_hwi_initialize_cpu( &tmp, cpu_num );
}
/* Increment use count */
tmp->num_users++;
if ( retval == PAPI_OK ) {
*here = tmp;
}
_papi_hwi_unlock( CPUS_LOCK );
return retval;
}
static CpuInfo_t *
allocate_cpu( unsigned int cpu_num )
{
APIDBG("Entry: cpu_num: %d\n", cpu_num);
CpuInfo_t *cpu;
int i;
/* Allocate new CpuInfo structure */
cpu = ( CpuInfo_t * ) papi_calloc( 1, sizeof ( CpuInfo_t ) );
if ( cpu == NULL ) {
goto allocate_error;
}
/* identify the cpu this info structure represents */
cpu->cpu_num = cpu_num;
cpu->context = ( hwd_context_t ** )
papi_calloc( ( size_t ) papi_num_components ,
sizeof ( hwd_context_t * ) );
if ( !cpu->context ) {
goto error_free_cpu;
}
/* Allocate an eventset per component per cpu? Why? */
cpu->running_eventset = ( EventSetInfo_t ** )
papi_calloc(( size_t ) papi_num_components,
sizeof ( EventSetInfo_t * ) );
if ( !cpu->running_eventset ) {
goto error_free_context;
}
for ( i = 0; i < papi_num_components; i++ ) {
cpu->context[i] =
( void * ) papi_calloc( 1, ( size_t ) _papi_hwd[i]->size.context );
cpu->running_eventset[i] = NULL;
if ( cpu->context[i] == NULL ) {
goto error_free_contexts;
}
}
cpu->num_users=0;
THRDBG( "Allocated CpuInfo: %p\n", cpu );
return cpu;
error_free_contexts:
for ( i--; i >= 0; i-- ) papi_free( cpu->context[i] );
error_free_context:
papi_free( cpu->context );
error_free_cpu:
papi_free( cpu );
allocate_error:
return NULL;
}
/* Must be called with CPUS_LOCK held! */
static int
remove_cpu( CpuInfo_t * entry )
{
APIDBG("Entry: entry: %p\n", entry);
CpuInfo_t *tmp = NULL, *prev = NULL;
THRDBG( "_papi_hwi_cpu_head was cpu %d at %p\n",
_papi_hwi_cpu_head->cpu_num, _papi_hwi_cpu_head );
/* Find the preceding element and the matched element,
short circuit if we've seen the head twice */
for ( tmp = ( CpuInfo_t * ) _papi_hwi_cpu_head;
( entry != tmp ) || ( prev == NULL ); tmp = tmp->next ) {
prev = tmp;
}
if ( tmp != entry ) {
THRDBG( "Cpu %d at %p was not found in the cpu list!\n",
entry->cpu_num, entry );
return PAPI_EBUG;
}
/* Only 1 element in list */
if ( prev == tmp ) {
_papi_hwi_cpu_head = NULL;
tmp->next = NULL;
THRDBG( "_papi_hwi_cpu_head now NULL\n" );
} else {
prev->next = tmp->next;
/* If we're removing the head, better advance it! */
if ( _papi_hwi_cpu_head == tmp ) {
_papi_hwi_cpu_head = tmp->next;
THRDBG( "_papi_hwi_cpu_head now cpu %d at %p\n",
_papi_hwi_cpu_head->cpu_num, _papi_hwi_cpu_head );
}
THRDBG( "Removed cpu %p from list\n", tmp );
}
return PAPI_OK;
}
static void
free_cpu( CpuInfo_t **cpu )
{
APIDBG( "Entry: *cpu: %p, cpu_num: %d, cpu_users: %d\n",
*cpu, ( *cpu )->cpu_num, (*cpu)->num_users);
int i,users,retval;
_papi_hwi_lock( CPUS_LOCK );
(*cpu)->num_users--;
users=(*cpu)->num_users;
/* Remove from linked list if no users */
if (!users) remove_cpu( *cpu );
_papi_hwi_unlock( CPUS_LOCK );
/* Exit early if still users of this CPU */
if (users!=0) return;
THRDBG( "Shutting down cpu %d at %p\n", (*cpu)->cpu_num, cpu );
for ( i = 0; i < papi_num_components; i++ ) {
if (_papi_hwd[i]->cmp_info.disabled) continue;
retval = _papi_hwd[i]->shutdown_thread( (*cpu)->context[i] );
if ( retval != PAPI_OK ) {
// failure = retval;
}
}
for ( i = 0; i < papi_num_components; i++ ) {
if ( ( *cpu )->context[i] ) {
papi_free( ( *cpu )->context[i] );
}
}
if ( ( *cpu )->context ) {
papi_free( ( *cpu )->context );
}
if ( ( *cpu )->running_eventset ) {
papi_free( ( *cpu )->running_eventset );
}
/* why do we clear this? */
memset( *cpu, 0x00, sizeof ( CpuInfo_t ) );
papi_free( *cpu );
*cpu = NULL;
}
/* Must be called with CPUS_LOCK held! */
static void
insert_cpu( CpuInfo_t * entry )
{
APIDBG("Entry: entry: %p\n", entry);
if ( _papi_hwi_cpu_head == NULL ) {
/* 0 elements */
THRDBG( "_papi_hwi_cpu_head is NULL\n" );
entry->next = entry;
} else if ( _papi_hwi_cpu_head->next == _papi_hwi_cpu_head ) {
/* 1 element */
THRDBG( "_papi_hwi_cpu_head was cpu %d at %p\n",
_papi_hwi_cpu_head->cpu_num, _papi_hwi_cpu_head );
_papi_hwi_cpu_head->next = entry;
entry->next = ( CpuInfo_t * ) _papi_hwi_cpu_head;
} else {
/* 2+ elements */
THRDBG( "_papi_hwi_cpu_head was cpu %d at %p\n",
_papi_hwi_cpu_head->cpu_num, _papi_hwi_cpu_head );
entry->next = _papi_hwi_cpu_head->next;
_papi_hwi_cpu_head->next = entry;
}
_papi_hwi_cpu_head = entry;
THRDBG( "_papi_hwi_cpu_head now cpu %d at %p\n",
_papi_hwi_cpu_head->cpu_num, _papi_hwi_cpu_head );
}
/* Must be called with CPUS_LOCK held! */
int
_papi_hwi_initialize_cpu( CpuInfo_t **dest, unsigned int cpu_num )
{
APIDBG("Entry: dest: %p, *dest: %p, cpu_num: %d\n", dest, *dest, cpu_num);
int retval;
CpuInfo_t *cpu;
int i;
if ( ( cpu = allocate_cpu(cpu_num) ) == NULL ) {
*dest = NULL;
return PAPI_ENOMEM;
}
/* Call the component to fill in anything special. */
for ( i = 0; i < papi_num_components; i++ ) {
if (_papi_hwd[i]->cmp_info.disabled) continue;
retval = _papi_hwd[i]->init_thread( cpu->context[i] );
if ( retval ) {
free_cpu( &cpu );
*dest = NULL;
return retval;
}
}
insert_cpu( cpu );
*dest = cpu;
return PAPI_OK;
}
int
_papi_hwi_shutdown_cpu( CpuInfo_t *cpu )
{
APIDBG("Entry: cpu: %p, cpu_num: %d\n", cpu, cpu->cpu_num);
free_cpu( &cpu );
return PAPI_OK;
}