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/*
* kmp_utility.c -- Utility routines for the OpenMP support library.
*/
//===----------------------------------------------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is dual licensed under the MIT and the University of Illinois Open
// Source Licenses. See LICENSE.txt for details.
//
//===----------------------------------------------------------------------===//
#include "kmp.h"
#include "kmp_wrapper_getpid.h"
#include "kmp_str.h"
#include <float.h>
#include "kmp_i18n.h"
#include <util/system/types.h>
const char* CpuBrand(ui32 store[12]) noexcept; //defined in <util/system/cpu_id.h>
/* ------------------------------------------------------------------------ */
/* ------------------------------------------------------------------------ */
static const char *unknown = "unknown";
#if KMP_ARCH_X86 || KMP_ARCH_X86_64
/* NOTE: If called before serial_initialize (i.e. from runtime_initialize), then */
/* the debugging package has not been initialized yet, and only "0" will print */
/* debugging output since the environment variables have not been read. */
#ifdef KMP_DEBUG
static int trace_level = 5;
#endif
/*
* LOG_ID_BITS = ( 1 + floor( log_2( max( log_per_phy - 1, 1 ))))
* APIC_ID = (PHY_ID << LOG_ID_BITS) | LOG_ID
* PHY_ID = APIC_ID >> LOG_ID_BITS
*/
int
__kmp_get_physical_id( int log_per_phy, int apic_id )
{
int index_lsb, index_msb, temp;
if (log_per_phy > 1) {
index_lsb = 0;
index_msb = 31;
temp = log_per_phy;
while ( (temp & 1) == 0 ) {
temp >>= 1;
index_lsb++;
}
temp = log_per_phy;
while ( (temp & 0x80000000)==0 ) {
temp <<= 1;
index_msb--;
}
/* If >1 bits were set in log_per_phy, choose next higher power of 2 */
if (index_lsb != index_msb) index_msb++;
return ( (int) (apic_id >> index_msb) );
}
return apic_id;
}
/*
* LOG_ID_BITS = ( 1 + floor( log_2( max( log_per_phy - 1, 1 ))))
* APIC_ID = (PHY_ID << LOG_ID_BITS) | LOG_ID
* LOG_ID = APIC_ID & (( 1 << LOG_ID_BITS ) - 1 )
*/
int
__kmp_get_logical_id( int log_per_phy, int apic_id )
{
unsigned current_bit;
int bits_seen;
if (log_per_phy <= 1) return ( 0 );
bits_seen = 0;
for (current_bit = 1; log_per_phy != 0; current_bit <<= 1) {
if ( log_per_phy & current_bit ) {
log_per_phy &= ~current_bit;
bits_seen++;
}
}
/* If exactly 1 bit was set in log_per_phy, choose next lower power of 2 */
if (bits_seen == 1) {
current_bit >>= 1;
}
return ( (int) ((current_bit - 1) & apic_id) );
}
static
kmp_uint64
__kmp_parse_frequency( // R: Frequency in Hz.
char const * frequency // I: Float number and unit: MHz, GHz, or TGz.
) {
double value = 0.0;
char const * unit = NULL;
kmp_uint64 result = ~ 0;
if ( frequency == NULL ) {
return result;
}; // if
value = strtod( frequency, (char * *) & unit ); // strtod() does not like "char conts *".
if ( 0 < value && value <= DBL_MAX ) { // Good value (not overflow, underflow, etc).
if ( strcmp( unit, "MHz" ) == 0 ) {
value = value * 1.0E+6;
} else if ( strcmp( unit, "GHz" ) == 0 ) {
value = value * 1.0E+9;
} else if ( strcmp( unit, "THz" ) == 0 ) {
value = value * 1.0E+12;
} else { // Wrong unit.
return result;
}; // if
result = value;
}; // if
return result;
}; // func __kmp_parse_cpu_frequency
void
__kmp_query_cpuid( kmp_cpuinfo_t *p )
{
struct kmp_cpuid buf;
int max_arg;
int log_per_phy;
#ifdef KMP_DEBUG
int cflush_size;
#endif
memset(&buf, 0, sizeof(buf));
p->initialized = 1;
p->sse2 = 1; // Assume SSE2 by default.
__kmp_x86_cpuid( 0, 0, &buf );
KA_TRACE( trace_level, ("INFO: CPUID %d: EAX=0x%08X EBX=0x%08X ECX=0x%08X EDX=0x%08X\n",
0, buf.eax, buf.ebx, buf.ecx, buf.edx ) );
max_arg = buf.eax;
p->apic_id = -1;
if (max_arg >= 1) {
int i;
kmp_uint32 t, data[ 4 ];
__kmp_x86_cpuid( 1, 0, &buf );
KA_TRACE( trace_level, ("INFO: CPUID %d: EAX=0x%08X EBX=0x%08X ECX=0x%08X EDX=0x%08X\n",
1, buf.eax, buf.ebx, buf.ecx, buf.edx ) );
{
#define get_value(reg,lo,mask) ( ( ( reg ) >> ( lo ) ) & ( mask ) )
p->signature = buf.eax;
p->family = get_value( buf.eax, 20, 0xff ) + get_value( buf.eax, 8, 0x0f );
p->model = ( get_value( buf.eax, 16, 0x0f ) << 4 ) + get_value( buf.eax, 4, 0x0f );
p->stepping = get_value( buf.eax, 0, 0x0f );
#undef get_value
KA_TRACE( trace_level, (" family = %d, model = %d, stepping = %d\n", p->family, p->model, p->stepping ) );
}
for ( t = buf.ebx, i = 0; i < 4; t >>= 8, ++i ) {
data[ i ] = (t & 0xff);
}; // for
p->sse2 = ( buf.edx >> 26 ) & 1;
#ifdef KMP_DEBUG
if ( (buf.edx >> 4) & 1 ) {
/* TSC - Timestamp Counter Available */
KA_TRACE( trace_level, (" TSC" ) );
}
if ( (buf.edx >> 8) & 1 ) {
/* CX8 - CMPXCHG8B Instruction Available */
KA_TRACE( trace_level, (" CX8" ) );
}
if ( (buf.edx >> 9) & 1 ) {
/* APIC - Local APIC Present (multi-processor operation support */
KA_TRACE( trace_level, (" APIC" ) );
}
if ( (buf.edx >> 15) & 1 ) {
/* CMOV - Conditional MOVe Instruction Available */
KA_TRACE( trace_level, (" CMOV" ) );
}
if ( (buf.edx >> 18) & 1 ) {
/* PSN - Processor Serial Number Available */
KA_TRACE( trace_level, (" PSN" ) );
}
if ( (buf.edx >> 19) & 1 ) {
/* CLFULSH - Cache Flush Instruction Available */
cflush_size = data[ 1 ] * 8; /* Bits 15-08: CLFLUSH line size = 8 (64 bytes) */
KA_TRACE( trace_level, (" CLFLUSH(%db)", cflush_size ) );
}
if ( (buf.edx >> 21) & 1 ) {
/* DTES - Debug Trace & EMON Store */
KA_TRACE( trace_level, (" DTES" ) );
}
if ( (buf.edx >> 22) & 1 ) {
/* ACPI - ACPI Support Available */
KA_TRACE( trace_level, (" ACPI" ) );
}
if ( (buf.edx >> 23) & 1 ) {
/* MMX - Multimedia Extensions */
KA_TRACE( trace_level, (" MMX" ) );
}
if ( (buf.edx >> 25) & 1 ) {
/* SSE - SSE Instructions */
KA_TRACE( trace_level, (" SSE" ) );
}
if ( (buf.edx >> 26) & 1 ) {
/* SSE2 - SSE2 Instructions */
KA_TRACE( trace_level, (" SSE2" ) );
}
if ( (buf.edx >> 27) & 1 ) {
/* SLFSNP - Self-Snooping Cache */
KA_TRACE( trace_level, (" SLFSNP" ) );
}
#endif /* KMP_DEBUG */
if ( (buf.edx >> 28) & 1 ) {
/* Bits 23-16: Logical Processors per Physical Processor (1 for P4) */
log_per_phy = data[ 2 ];
p->apic_id = data[ 3 ]; /* Bits 31-24: Processor Initial APIC ID (X) */
KA_TRACE( trace_level, (" HT(%d TPUs)", log_per_phy ) );
if( log_per_phy > 1 ) {
/* default to 1k FOR JT-enabled processors (4k on OS X*) */
#if KMP_OS_DARWIN
p->cpu_stackoffset = 4 * 1024;
#else
p->cpu_stackoffset = 1 * 1024;
#endif
}
p->physical_id = __kmp_get_physical_id( log_per_phy, p->apic_id );
p->logical_id = __kmp_get_logical_id( log_per_phy, p->apic_id );
}
#ifdef KMP_DEBUG
if ( (buf.edx >> 29) & 1 ) {
/* ATHROTL - Automatic Throttle Control */
KA_TRACE( trace_level, (" ATHROTL" ) );
}
KA_TRACE( trace_level, (" ]\n" ) );
for (i = 2; i <= max_arg; ++i) {
__kmp_x86_cpuid( i, 0, &buf );
KA_TRACE( trace_level,
( "INFO: CPUID %d: EAX=0x%08X EBX=0x%08X ECX=0x%08X EDX=0x%08X\n",
i, buf.eax, buf.ebx, buf.ecx, buf.edx ) );
}
#endif
#if KMP_USE_ADAPTIVE_LOCKS
p->rtm = 0;
if (max_arg > 7)
{
/* RTM bit CPUID.07:EBX, bit 11 */
__kmp_x86_cpuid(7, 0, &buf);
p->rtm = (buf.ebx >> 11) & 1;
KA_TRACE( trace_level, (" RTM" ) );
}
#endif
}; // if
{ // Parse CPU brand string for frequency.
union kmp_cpu_brand_string {
ui32 buf[ 12 ];
char string[ sizeof( ui32 ) * 12 + 1 ];
}; // union kmp_cpu_brand_string
union kmp_cpu_brand_string brand;
memset(&brand, 0, sizeof(brand));
p->frequency = 0;
// Get CPU brand string.
CpuBrand(brand.buf);
brand.string[ sizeof( brand.string ) - 1 ] = 0; // Just in case. ;-)
KA_TRACE( trace_level, ( "cpu brand string: \"%s\"\n", brand.string ) );
// Parse frequency.
p->frequency = __kmp_parse_frequency( strrchr( brand.string, ' ' ) );
KA_TRACE( trace_level, ( "cpu frequency from brand string: %" KMP_UINT64_SPEC "\n", p->frequency ) );
}
}
#endif /* KMP_ARCH_X86 || KMP_ARCH_X86_64 */
/* ------------------------------------------------------------------------------------ */
/* ------------------------------------------------------------------------------------ */
void
__kmp_expand_host_name( char *buffer, size_t size )
{
KMP_DEBUG_ASSERT(size >= sizeof(unknown));
#if KMP_OS_WINDOWS
{
DWORD s = size;
if (! GetComputerNameA( buffer, & s ))
KMP_STRCPY_S( buffer, size, unknown );
}
#else
buffer[size - 2] = 0;
if (gethostname( buffer, size ) || buffer[size - 2] != 0)
KMP_STRCPY_S( buffer, size, unknown );
#endif
}
/* Expand the meta characters in the filename:
*
* Currently defined characters are:
*
* %H the hostname
* %P the number of threads used.
* %I the unique identifier for this run.
*/
void
__kmp_expand_file_name( char *result, size_t rlen, char *pattern )
{
char *pos = result, *end = result + rlen - 1;
char buffer[256];
int default_cpu_width = 1;
int snp_result;
KMP_DEBUG_ASSERT(rlen > 0);
*end = 0;
{
int i;
for(i = __kmp_xproc; i >= 10; i /= 10, ++default_cpu_width);
}
if (pattern != NULL) {
while (*pattern != '\0' && pos < end) {
if (*pattern != '%') {
*pos++ = *pattern++;
} else {
char *old_pattern = pattern;
int width = 1;
int cpu_width = default_cpu_width;
++pattern;
if (*pattern >= '0' && *pattern <= '9') {
width = 0;
do {
width = (width * 10) + *pattern++ - '0';
} while (*pattern >= '0' && *pattern <= '9');
if (width < 0 || width > 1024)
width = 1;
cpu_width = width;
}
switch (*pattern) {
case 'H':
case 'h':
{
__kmp_expand_host_name( buffer, sizeof( buffer ) );
KMP_STRNCPY( pos, buffer, end - pos + 1);
if(*end == 0) {
while ( *pos )
++pos;
++pattern;
} else
pos = end;
}
break;
case 'P':
case 'p':
{
snp_result = KMP_SNPRINTF( pos, end - pos + 1, "%0*d", cpu_width, __kmp_dflt_team_nth );
if(snp_result >= 0 && snp_result <= end - pos) {
while ( *pos )
++pos;
++pattern;
} else
pos = end;
}
break;
case 'I':
case 'i':
{
pid_t id = getpid();
snp_result = KMP_SNPRINTF( pos, end - pos + 1, "%0*d", width, id );
if(snp_result >= 0 && snp_result <= end - pos) {
while ( *pos )
++pos;
++pattern;
} else
pos = end;
break;
}
case '%':
{
*pos++ = '%';
++pattern;
break;
}
default:
{
*pos++ = '%';
pattern = old_pattern + 1;
break;
}
}
}
}
/* TODO: How do we get rid of this? */
if(*pattern != '\0')
KMP_FATAL( FileNameTooLong );
}
*pos = '\0';
}
|