valgrind/memcheck/tests/amd64/fxsave-amd64.c - nest-cam/4320010/valgrind - Git at Google

 #include <config.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include "tests/asm.h"
 #include "tests/malloc.h"
 #include <string.h>

 const unsigned int vec0[4]
    = { 0x12345678, 0x11223344, 0x55667788, 0x87654321 };

 const unsigned int vec1[4]
    = { 0xABCDEF01, 0xAABBCCDD, 0xEEFF0011, 0x10FEDCBA };

 const unsigned int vecZ[4]
    = { 0, 0, 0, 0 };

 __attribute__((noinline))
 void do_fxsave ( void* p, int rexw ) {
    if (rexw) {
 #ifdef HAVE_AS_AMD64_FXSAVE64
       asm __volatile__("fxsave64 (%0)" : : "r" (p) : "memory" );
 #else
       asm __volatile__("rex64/fxsave (%0)" : : "r" (p) : "memory" );
 #endif
    } else {
       asm __volatile__("fxsave (%0)" : : "r" (p) : "memory" );
    }
 }

 __attribute__((noinline))
 void do_fxrstor ( void* p, int rexw ) {
    if (rexw) {
 #ifdef HAVE_AS_AMD64_FXSAVE64
       asm __volatile__("fxrstor64 (%0)" : : "r" (p) : "memory" );
 #else
       asm __volatile__("rex64/fxrstor (%0)" : : "r" (p) : "memory" );
 #endif
    } else {
       asm __volatile__("fxrstor (%0)" : : "r" (p) : "memory" );
    }
 }

 void do_zeroise ( void )
 {
    asm __volatile__("finit");
    asm __volatile__(
     "fldz\n\t"
     "fldz\n\t"
     "fldz\n\t"
     "fldz\n\t"
     "fldz\n\t"
     "fldz\n\t"
     "fldz\n\t"
     "fldz\n\t"
     "finit\n");
 #ifndef VGP_amd64_darwin
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm0");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm1");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm2");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm3");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm4");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm5");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm6");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm7");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm8");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm9");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm10");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm11");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm12");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm13");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm14");
    asm __volatile__("movups " VG_SYM(vecZ) ", %xmm15");
 #else
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm0");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm1");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm2");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm3");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm4");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm5");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm6");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm7");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm8");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm9");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm10");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm11");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm12");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm13");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm14");
    asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm15");
 #endif
    asm __volatile__(
       "pushq $0\n\t"
       "ldmxcsr 0(%rsp)\n\t"
       "addq $8,%rsp\n");
 }

 /* set up the FP and SSE state, and then dump it. */
 void do_setup_then_fxsave ( void* p, int rexw )
 {
    asm __volatile__("finit");
    asm __volatile__("fldpi");
    asm __volatile__("fld1");
    asm __volatile__("fldln2");
    asm __volatile__("fldlg2");
    asm __volatile__("fld %st(3)");
    asm __volatile__("fld %st(3)");
    asm __volatile__("fld1");
    asm __volatile__("movups (%0), %%xmm0" : : "r"(&vec0[0]) : "xmm0" );
    asm __volatile__("movups (%0), %%xmm1" : : "r"(&vec1[0]) : "xmm1" );
    asm __volatile__("xorps  %xmm2, %xmm2");
    asm __volatile__("movaps %xmm0, %xmm3");
    asm __volatile__("movaps %xmm1, %xmm4");
    asm __volatile__("movaps %xmm2, %xmm5");
    asm __volatile__("movaps %xmm0, %xmm6");
    asm __volatile__("movaps %xmm1, %xmm7");
    asm __volatile__("movaps %xmm1, %xmm8");
    asm __volatile__("movaps %xmm2, %xmm9");
    asm __volatile__("movaps %xmm0, %xmm10");
    asm __volatile__("movaps %xmm1, %xmm11");
    asm __volatile__("movaps %xmm1, %xmm12");
    asm __volatile__("movaps %xmm2, %xmm13");
    asm __volatile__("movaps %xmm0, %xmm14");
    asm __volatile__("movaps %xmm1, %xmm15");
    do_fxsave(p, rexw);
 }

 int isFPLsbs ( int i )
 {
    int q;
    q = 32; if (i == q || i == q+1) return 1;
    q = 48; if (i == q || i == q+1) return 1;
    q = 64; if (i == q || i == q+1) return 1;
    q = 80; if (i == q || i == q+1) return 1;
    q = 96; if (i == q || i == q+1) return 1;
    q = 112; if (i == q || i == q+1) return 1;
    q = 128; if (i == q || i == q+1) return 1;
    q = 144; if (i == q || i == q+1) return 1;
    return 0;
 }

 void show ( unsigned char* buf, int xx )
 {
    int i;
    for (i = 0; i < 512; i++) {
       if ((i % 16) == 0)
          printf("%3d   ", i);
       if (xx && isFPLsbs(i))
 	 printf("xx ");
       else
          printf("%02x ", buf[i]);
       if (i > 0 && ((i % 16) == 15))
           printf("\n");
    }
 }


 int main ( int argc, char** argv )
 {
    unsigned char* buf1 = memalign16(512);
    unsigned char* buf2 = memalign16(512);
    unsigned char* buf3 = memalign16(512);
    int xx = argc > 1;
    printf("Re-run with any arg to suppress least-significant\n"
           "   16 bits of FP numbers\n");

    printf("\n-------- FXSAVE non-64 (REX.W == 0) --------\n");

    memset(buf1, 0x55, 512);
    memset(buf2, 0x55, 512);
    memset(buf3, 0x55, 512);

    /* Load up x87/xmm state and dump it. */
    do_setup_then_fxsave(buf1, 0);
    printf("\nBEFORE\n");
    show(buf1, xx);

    /* Zeroise x87/xmm state and dump it, to show that the
       regs have been cleared out. */
    do_zeroise();
    do_fxsave(buf2, 0);
    printf("\nZEROED\n");
    show(buf2, xx);

    /* Reload x87/xmm state from buf1 and dump it in buf3. */
    do_fxrstor(buf1, 0);
    do_fxsave(buf3, 0);
    printf("\nRESTORED\n");
    show(buf3, xx);

    printf("\n-------- FXSAVE 64 (REX.W == 1) --------\n\n");

    memset(buf1, 0x55, 512);
    memset(buf2, 0x55, 512);
    memset(buf3, 0x55, 512);

    /* Load up x87/xmm state and dump it. */
    do_setup_then_fxsave(buf1, 1);
    printf("\nBEFORE\n");
    show(buf1, xx);

    /* Zeroise x87/xmm state and dump it, to show that the
       regs have been cleared out. */
    do_zeroise();
    do_fxsave(buf2, 1);
    printf("\nZEROED\n");
    show(buf2, xx);

    /* Reload x87/xmm state from buf1 and dump it in buf3. */
    do_fxrstor(buf1, 1);
    do_fxsave(buf3, 1);
    printf("\nRESTORED\n");
    show(buf3, xx);


    free(buf1); free(buf2); free(buf3);

    return 0;
 }
	#include <config.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include "tests/asm.h"
	#include "tests/malloc.h"
	#include <string.h>

	const unsigned int vec0[4]
	= { 0x12345678, 0x11223344, 0x55667788, 0x87654321 };

	const unsigned int vec1[4]
	= { 0xABCDEF01, 0xAABBCCDD, 0xEEFF0011, 0x10FEDCBA };

	const unsigned int vecZ[4]
	= { 0, 0, 0, 0 };

	__attribute__((noinline))
	void do_fxsave ( void* p, int rexw ) {
	if (rexw) {
	#ifdef HAVE_AS_AMD64_FXSAVE64
	asm __volatile__("fxsave64 (%0)" : : "r" (p) : "memory" );
	#else
	asm __volatile__("rex64/fxsave (%0)" : : "r" (p) : "memory" );
	#endif
	} else {
	asm __volatile__("fxsave (%0)" : : "r" (p) : "memory" );
	}
	}

	__attribute__((noinline))
	void do_fxrstor ( void* p, int rexw ) {
	if (rexw) {
	#ifdef HAVE_AS_AMD64_FXSAVE64
	asm __volatile__("fxrstor64 (%0)" : : "r" (p) : "memory" );
	#else
	asm __volatile__("rex64/fxrstor (%0)" : : "r" (p) : "memory" );
	#endif
	} else {
	asm __volatile__("fxrstor (%0)" : : "r" (p) : "memory" );
	}
	}

	void do_zeroise ( void )
	{
	asm __volatile__("finit");
	asm __volatile__(
	"fldz\n\t"
	"fldz\n\t"
	"fldz\n\t"
	"fldz\n\t"
	"fldz\n\t"
	"fldz\n\t"
	"fldz\n\t"
	"fldz\n\t"
	"finit\n");
	#ifndef VGP_amd64_darwin
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm0");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm1");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm2");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm3");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm4");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm5");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm6");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm7");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm8");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm9");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm10");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm11");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm12");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm13");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm14");
	asm __volatile__("movups " VG_SYM(vecZ) ", %xmm15");
	#else
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm0");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm1");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm2");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm3");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm4");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm5");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm6");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm7");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm8");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm9");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm10");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm11");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm12");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm13");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm14");
	asm __volatile__("movups " VG_SYM(vecZ) "(%rip), %xmm15");
	#endif
	asm __volatile__(
	"pushq $0\n\t"
	"ldmxcsr 0(%rsp)\n\t"
	"addq $8,%rsp\n");
	}

	/* set up the FP and SSE state, and then dump it. */
	void do_setup_then_fxsave ( void* p, int rexw )
	{
	asm __volatile__("finit");
	asm __volatile__("fldpi");
	asm __volatile__("fld1");
	asm __volatile__("fldln2");
	asm __volatile__("fldlg2");
	asm __volatile__("fld %st(3)");
	asm __volatile__("fld %st(3)");
	asm __volatile__("fld1");
	asm __volatile__("movups (%0), %%xmm0" : : "r"(&vec0[0]) : "xmm0" );
	asm __volatile__("movups (%0), %%xmm1" : : "r"(&vec1[0]) : "xmm1" );
	asm __volatile__("xorps %xmm2, %xmm2");
	asm __volatile__("movaps %xmm0, %xmm3");
	asm __volatile__("movaps %xmm1, %xmm4");
	asm __volatile__("movaps %xmm2, %xmm5");
	asm __volatile__("movaps %xmm0, %xmm6");
	asm __volatile__("movaps %xmm1, %xmm7");
	asm __volatile__("movaps %xmm1, %xmm8");
	asm __volatile__("movaps %xmm2, %xmm9");
	asm __volatile__("movaps %xmm0, %xmm10");
	asm __volatile__("movaps %xmm1, %xmm11");
	asm __volatile__("movaps %xmm1, %xmm12");
	asm __volatile__("movaps %xmm2, %xmm13");
	asm __volatile__("movaps %xmm0, %xmm14");
	asm __volatile__("movaps %xmm1, %xmm15");
	do_fxsave(p, rexw);
	}

	int isFPLsbs ( int i )
	{
	int q;
	q = 32; if (i == q \|\| i == q+1) return 1;
	q = 48; if (i == q \|\| i == q+1) return 1;
	q = 64; if (i == q \|\| i == q+1) return 1;
	q = 80; if (i == q \|\| i == q+1) return 1;
	q = 96; if (i == q \|\| i == q+1) return 1;
	q = 112; if (i == q \|\| i == q+1) return 1;
	q = 128; if (i == q \|\| i == q+1) return 1;
	q = 144; if (i == q \|\| i == q+1) return 1;
	return 0;
	}

	void show ( unsigned char* buf, int xx )
	{
	int i;
	for (i = 0; i < 512; i++) {
	if ((i % 16) == 0)
	printf("%3d ", i);
	if (xx && isFPLsbs(i))
	printf("xx ");
	else
	printf("%02x ", buf[i]);
	if (i > 0 && ((i % 16) == 15))
	printf("\n");
	}
	}


	int main ( int argc, char** argv )
	{
	unsigned char* buf1 = memalign16(512);
	unsigned char* buf2 = memalign16(512);
	unsigned char* buf3 = memalign16(512);
	int xx = argc > 1;
	printf("Re-run with any arg to suppress least-significant\n"
	" 16 bits of FP numbers\n");

	printf("\n-------- FXSAVE non-64 (REX.W == 0) --------\n");

	memset(buf1, 0x55, 512);
	memset(buf2, 0x55, 512);
	memset(buf3, 0x55, 512);

	/* Load up x87/xmm state and dump it. */
	do_setup_then_fxsave(buf1, 0);
	printf("\nBEFORE\n");
	show(buf1, xx);

	/* Zeroise x87/xmm state and dump it, to show that the
	regs have been cleared out. */
	do_zeroise();
	do_fxsave(buf2, 0);
	printf("\nZEROED\n");
	show(buf2, xx);

	/* Reload x87/xmm state from buf1 and dump it in buf3. */
	do_fxrstor(buf1, 0);
	do_fxsave(buf3, 0);
	printf("\nRESTORED\n");
	show(buf3, xx);

	printf("\n-------- FXSAVE 64 (REX.W == 1) --------\n\n");

	memset(buf1, 0x55, 512);
	memset(buf2, 0x55, 512);
	memset(buf3, 0x55, 512);

	/* Load up x87/xmm state and dump it. */
	do_setup_then_fxsave(buf1, 1);
	printf("\nBEFORE\n");
	show(buf1, xx);

	/* Zeroise x87/xmm state and dump it, to show that the
	regs have been cleared out. */
	do_zeroise();
	do_fxsave(buf2, 1);
	printf("\nZEROED\n");
	show(buf2, xx);

	/* Reload x87/xmm state from buf1 and dump it in buf3. */
	do_fxrstor(buf1, 1);
	do_fxsave(buf3, 1);
	printf("\nRESTORED\n");
	show(buf3, xx);


	free(buf1); free(buf2); free(buf3);

	return 0;
	}