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esl_cpu.c
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esl_cpu.c
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/* Runtime detection of optional processor characteristics.
*
* Contents:
* 1. Checking for support of x86 vector code
* 2. Internal code used in those checks
* 3. Unit tests
* 4. Test driver
* 5. Example
*
* References:
* https://software.intel.com/en-us/articles/how-to-detect-new-instruction-support-in-the-4th-generation-intel-core-processor-family
* https://software.intel.com/en-us/articles/how-to-detect-knl-instruction-support
* https://en.wikipedia.org/wiki/CPUID
*/
#include <esl_config.h>
#include <stdlib.h>
#include <stdint.h>
#include <stdio.h>
#if defined(_MSC_VER)
#include <intrin.h>
#endif
#include "easel.h"
#include "esl_cpu.h"
/* declarations of static functions that come in section (2) */
#if defined(eslENABLE_SSE) || defined(eslENABLE_SSE4) || defined(eslENABLE_AVX) || defined(eslENABLE_AVX512)
static void cpu_run_id(uint32_t eax, uint32_t ecx, uint32_t *abcd);
#endif
#ifdef eslENABLE_SSE
static int cpu_has_sse(void);
#endif
#ifdef eslENABLE_SSE4
static int cpu_has_sse4(void);
#endif
#ifdef eslENABLE_AVX
static int cpu_check_xcr0_ymm(void);
static int cpu_has_avx(void);
#endif
#ifdef eslENABLE_AVX512
static int cpu_check_xcr0_zmm(void);
static int cpu_has_avx512(void);
#endif
/*****************************************************************
* 1. Checking for support of x86 vector code
*****************************************************************/
/* Function: esl_cpu_has_sse()
* Synopsis: Check if processor supports x86 SSE/SSE2
* Incept: SRE, Wed Feb 1 09:19:11 2017
*
* Purpose: Returns TRUE if our code has an available SSE vector
* implementation compiled in, and the processor we're
* running on can support it (i.e. has SSE+SSE2).
* Else returns FALSE.
*
* Note: Although these use static flags, they are thread-safe.
* They can only go in one direction, from a not-set-yet
* state to a set state. Worst that happens in a race
* condition is that we set the flag twice to the same
* thing.
*/
int
esl_cpu_has_sse(void)
{
#ifdef eslENABLE_SSE
static int sse_support = -1;
if (sse_support < 0)
sse_support = cpu_has_sse();
return sse_support;
#else
return 0;
#endif
}
/* Function: esl_cpu_has_sse4()
* Synopsis: Check if processor supports x86 <= SSE4.1
* Incept: SRE, Wed Jun 6 11:49:46 2018 [OdjBox, Otto Croy]
*
* Purpose: Returns TRUE if our code has an available SSE4 vector
* implementation compiled in, and the processor we're
* running on can support it (i.e. has SSE+SSE2+SSE4.1).
* Else returns FALSE.
*/
int
esl_cpu_has_sse4(void)
{
#ifdef eslENABLE_SSE4
static int sse4_support = -1;
if (sse4_support < 0)
sse4_support = cpu_has_sse4();
return sse4_support;
#else
return 0;
#endif
}
/* Function: esl_cpu_has_avx()
* Synopsis: Check if processor supports x86 AVX/AVX2.
* Incept: SRE, Wed Feb 1 09:46:36 2017
*
* Purpose: Returns TRUE if our code has an available AVX vector
* implementation compiled in, and the processor we're
* running on can support it (i.e. has AVX+AVX2). Else
* returns FALSE.
*/
int
esl_cpu_has_avx(void)
{
#ifdef eslENABLE_AVX
static int avx_support = -1;
if (avx_support < 0)
avx_support = cpu_has_avx();
return avx_support;
#else
return 0;
#endif
}
/* Function: esl_cpu_has_avx512()
* Synopsis: Check if processor supports x86 AVX-512.
* Incept: SRE, Wed Feb 1 09:47:24 2017
*
* Purpose: Returns TRUE if our code has an available AVX512 vector
* implementation compiled in, and the processor we're
* running on can support it (i.e. has
* AVX-512{F,PF,ER,CD,BW}). Else returns FALSE.
*/
int
esl_cpu_has_avx512(void)
{
#ifdef eslENABLE_AVX512
static int avx512_support = -1;
if (avx512_support < 0)
avx512_support = cpu_has_avx512();
return avx512_support;
#else
return 0;
#endif
}
/* Function: esl_cpu_Get()
* Synopsis: Returns a string showing which implementation our dispatchers choose.
* Incept: SRE, Tue May 23 12:30:37 2017 [Handsome Family, Winnebago Skeletons]
*
* Purpose: Return a string indicating which vector implementation is
* chosen by our dispatchers, assuming they follow our
* standard pattern.
*/
char *
esl_cpu_Get(void)
{
#ifdef eslENABLE_AVX512 // Fastest first.
if (esl_cpu_has_avx512()) return "AVX512";
#endif
#ifdef eslENABLE_AVX
if (esl_cpu_has_avx()) return "AVX";
#endif
#ifdef eslENABLE_SSE4
if (esl_cpu_has_sse4()) return "SSE4";
#endif
#ifdef eslENABLE_SSE
if (esl_cpu_has_sse()) return "SSE";
#endif
#ifdef eslENABLE_NEON
return "NEON";
#endif
//#ifdef eslENABLE_VMX
// return "VMX";
//#endif
return "none";
}
/*---------- end, API for x86 vector instruction checks ---------*/
/*****************************************************************
* 2. Internal code used in x86 vector code checks
*****************************************************************/
#if defined(eslENABLE_SSE) || defined(eslENABLE_SSE4) || defined(eslENABLE_AVX) || defined(eslENABLE_AVX512)
/* cpu_run_id()
*
* Bit flags in EAX (and maybe ECX) registers specify the information
* you want to query from the x86 processor. The cpuid opcode returns
* results by setting bits in EAX, EBX, ECX, EDX registers, which we
* return in abcd[0..3], respectively.
*
* [What all the bits mean](https://en.wikipedia.org/wiki/CPUID)
*
* Adapted from run_cpuid() in:
* https://software.intel.com/en-us/articles/how-to-detect-new-instruction-support-in-the-4th-generation-intel-core-processor-family
*/
static void
cpu_run_id(uint32_t eax, uint32_t ecx, uint32_t *abcd)
{
#if defined(_MSC_VER)
__cpuidex(abcd, eax, ecx);
#else
uint32_t ebx = 0;
uint32_t edx = 0;
#if defined( __i386__ ) && defined ( __PIC__ ) /* in case of PIC under 32-bit EBX cannot be clobbered */
__asm__ ( "movl %%ebx, %%edi \n\t cpuid \n\t xchgl %%ebx, %%edi" : "=D" (ebx), "+a" (eax), "+c" (ecx), "=d" (edx) );
#else
__asm__ ( "cpuid" : "+b" (ebx), "+a" (eax), "+c" (ecx), "=d" (edx) );
#endif
abcd[0] = eax; abcd[1] = ebx; abcd[2] = ecx; abcd[3] = edx;
#endif // ! _MSC_VER
}
#endif // eslENABLE_SSE | eslENABLE_SSE4 | eslENABLE_AVX | eslENABLE_AVX512
#ifdef eslENABLE_AVX
/* cpu_check_xcr0_ymm()
*
* Check for OS support of AVX. AVX uses the YMM registers, and the
* operating system must support saving YMM state on a context switch.
* The check depends on the `xgetbv` intrinsic on x86 processors.
*
* xgetbv's result has set:
* bits 7<<5 = zmm (AVX-512)
* bit 1<<2 = ymm (AVX)
* bit 1<<1 = xmm
*
* Some Mac OS/X assemblers do not recognize the xgetbv instruction,
* but you can still emit the raw byte codes for it. So instead of
* __asm__ ("xgetbv" : "=a" (xcr0) : "c" (0) : "%edx" );
* we have
* __asm__(".byte 0x0f, 0x01, 0xd0" : "=a" (xcr0) : "c" (0) : "%edx" );
*/
static int
cpu_check_xcr0_ymm(void)
{
uint32_t xcr0;
uint32_t ymm_xmm = (1 << 2) | (1 << 1);
#if defined(_MSC_VER)
xcr0 = (uint32_t)_xgetbv(0); /* min VS2010 SP1 compiler is required */
#else
__asm__(".byte 0x0f, 0x01, 0xd0" : "=a" (xcr0) : "c" (0) : "%edx" );
#endif
return ((xcr0 & ymm_xmm) == ymm_xmm);
}
#endif
#ifdef eslENABLE_AVX512
/* cpu_check_xcr0_zmm()
*
* Similarly, check for OS support of AVX-512, which uses ZMM and YMM registers.
*/
static int
cpu_check_xcr0_zmm(void)
{
uint32_t xcr0;
uint32_t zmm_ymm_xmm = (7 << 5) | (1 << 2) | (1 << 1);
#if defined(_MSC_VER)
xcr0 = (uint32_t)_xgetbv(0); /* min VS2010 SP1 compiler is required */
#else
__asm__ (".byte 0x0f, 0x01, 0xd0" : "=a" (xcr0) : "c" (0) : "%edx" );
#endif
return ((xcr0 & zmm_ymm_xmm) == zmm_ymm_xmm);
}
#endif
#ifdef eslENABLE_SSE
/* cpu_has_sse()
*
* Test whether processor supports SSE/SSE2 instructions.
* Note that Easel's "SSE" vector code means SSE+SSE2.
*/
static int
cpu_has_sse(void)
{
uint32_t abcd[4];
uint32_t sse2_mask = (1 << 25) | // edx: SSE
(1 << 26); // SSE2
cpu_run_id( 1, 0, abcd );
if ( (abcd[3] & sse2_mask) != sse2_mask) // edx check
return 0;
return 1;
}
#endif // eslENABLE_SSE
#ifdef eslENABLE_SSE4
/* cpu_has_sse4()
*
* Test whether processor supports SSE/SSE2/SSE4.1 instructions.
* Note that Easel's "SSE4" vector code means SSE+SSE2+SSE4.1.
*/
static int
cpu_has_sse4(void)
{
uint32_t abcd[4];
uint32_t sse2_mask = (1 << 25) | // edx: SSE
(1 << 26); // SSE2
uint32_t sse41_mask = (1 << 19); // ecx: SSE4.1
cpu_run_id( 1, 0, abcd );
if ( (abcd[3] & sse2_mask) != sse2_mask || // edx check
(abcd[2] & sse41_mask) != sse41_mask) // ecx check
return 0;
return 1;
}
#endif // eslENABLE_SSE4
#ifdef eslENABLE_AVX
/* cpu_has_avx
*
* Test whether processor supports AVX/AVX2 instructions.
* Easel "AVX" vector code requires AVX+AVX2.
*/
static int
cpu_has_avx(void)
{
uint32_t abcd[4];
uint32_t fma_movbe_osxsave_mask = ((1 << 12) | (1 << 22) | (1 << 27));
uint32_t avx2_bmi12_mask = (1 << 5) | (1 << 3) | (1 << 8);
/* CPUID.(EAX=01H, ECX=0H):ECX.FMA[bit 12]==1 &&
CPUID.(EAX=01H, ECX=0H):ECX.MOVBE[bit 22]==1 &&
CPUID.(EAX=01H, ECX=0H):ECX.OSXSAVE[bit 27]==1 */
cpu_run_id( 1, 0, abcd );
if ( (abcd[2] & fma_movbe_osxsave_mask) != fma_movbe_osxsave_mask )
return 0;
if ( ! cpu_check_xcr0_ymm() )
return 0;
/* CPUID.(EAX=07H, ECX=0H):EBX.AVX2[bit 5]==1 &&
CPUID.(EAX=07H, ECX=0H):EBX.BMI1[bit 3]==1 &&
CPUID.(EAX=07H, ECX=0H):EBX.BMI2[bit 8]==1 */
cpu_run_id( 7, 0, abcd );
if ( (abcd[1] & avx2_bmi12_mask) != avx2_bmi12_mask )
return 0;
/* CPUID.(EAX=80000001H):ECX.LZCNT[bit 5]==1 */
cpu_run_id( 0x80000001, 0, abcd );
if ( (abcd[2] & (1 << 5)) == 0)
return 0;
return 1;
}
#endif // eslENABLE_AVX
#ifdef eslENABLE_AVX512
/* cpu_has_avx512()
*
* Test whether processors supports AVX-512. Our AVX-512 code
* currently can depend on Foundation, Double/Quadword, and Byte/Word
* subsets (F, DQ, BW), and requires Intel Skylake Xeon (Purley)
* processors or later.
*/
static int
cpu_has_avx512(void)
{
uint32_t abcd[4];
uint32_t osxsave_mask = (1 << 27);
uint32_t knl_mask = (1 << 16) | // AVX-512F
(1 << 17) | // AVX-512DQ
(1 << 30); // AVX-512BW
cpu_run_id( 1, 0, abcd );
if ( (abcd[2] & osxsave_mask) != osxsave_mask )
return 0;
if ( ! cpu_check_xcr0_zmm() )
return 0;
cpu_run_id( 7, 0, abcd );
if ( (abcd[1] & knl_mask) != knl_mask )
return 0;
return 1;
}
#endif // eslENABLE_AVX512
/*------------ end, x86 processor interrogation -----------------*/
/*****************************************************************
* 3. Unit tests
*****************************************************************/
#ifdef eslCPU_TESTDRIVE
/* utest_consistency()
*
* If we support AVX-512, we must support AVX; if we support AVX, we
* must support SSE. This isn't a strong test of anything, but since
* we don't know anything about the processor we're running unit
* testing on, it's hard to guarantee any stronger test.
*
* #ifdef's are required, because Easel applications are allowed
* to define any subset of vector implementations they want;
* for example, H4 implements SSE4 but not SSE.
*/
static void
utest_consistency(void)
{
// it's possible that none of the `#if defined` blocks are used, so
// don't put a char msg[] here, or compiler could bark about it being unused.
#if defined (eslENABLE_AVX512) && defined (eslENABLE_AVX)
if (esl_cpu_has_avx512() && ! esl_cpu_has_avx()) esl_fatal("utest_consistency() failed");
#endif
#if defined (eslENABLE_AVX) && defined (eslENABLE_SSE4)
if (esl_cpu_has_avx() && ! esl_cpu_has_sse4()) esl_fatal("utest_consistency() failed");
#endif
#if defined (eslENABLE_SSE4) && defined (eslENABLE_SSE)
if (esl_cpu_has_sse4() && ! esl_cpu_has_sse()) esl_fatal("utest_consistency() failed");
#endif
}
#endif // eslCPU_TESTDRIVE
/*****************************************************************
* 4. Test driver
*****************************************************************/
#ifdef eslCPU_TESTDRIVE
int
main(int argc, char **argv)
{
fprintf(stderr, "## %s\n", argv[0]);
utest_consistency();
fprintf(stderr, "# status = ok\n");
return eslOK;
}
#endif // eslCPU_TESTDRIVE
/*****************************************************************
* 5. Example
*****************************************************************/
#ifdef eslCPU_EXAMPLE
#include <esl_config.h>
#include "easel.h"
#include "esl_cpu.h"
int
main(int argc, char **argv)
{
printf("your cpu supports our SSE code : %s\n", esl_cpu_has_sse() ? "yes" : "no");
printf(" ...our SSE4 code : %s\n", esl_cpu_has_sse4() ? "yes" : "no");
printf(" ...our AVX code : %s\n", esl_cpu_has_avx() ? "yes" : "no");
printf(" ...our AVX512 code : %s\n", esl_cpu_has_avx512() ? "yes" : "no");
printf("Our dispatchers will choose : %s\n", esl_cpu_Get());
}
#endif // eslCPU_EXAMPLE