/* Test x86-specific floating-point environment (bug 16068): SSE part. Copyright (C) 2015-2023 Free Software Foundation, Inc. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, see . */ #include #include #include #include #include #include #include #include static uint32_t get_sse_mxcsr (void) { uint32_t temp; __asm__ __volatile__ ("stmxcsr %0" : "=m" (temp)); return temp; } static void set_sse_mxcsr (uint32_t val) { __asm__ __volatile__ ("ldmxcsr %0" : : "m" (val)); } static void set_sse_mxcsr_bits (uint32_t mask, uint32_t bits) { uint32_t mxcsr = get_sse_mxcsr (); mxcsr = (mxcsr & ~mask) | bits; set_sse_mxcsr (mxcsr); } static int test_sse_mxcsr_bits (const char *test, uint32_t mask, uint32_t bits) { uint32_t mxcsr = get_sse_mxcsr (); printf ("Testing %s: mxcsr = %x\n", test, mxcsr); if ((mxcsr & mask) == bits) { printf ("PASS: %s\n", test); return 0; } else { printf ("FAIL: %s\n", test); return 1; } } #define MXCSR_FZ 0x8000 #define MXCSR_DAZ 0x40 #define MXCSR_DE 0x2 #define MXCSR_DM 0x100 static __attribute__ ((noinline)) int sse_tests (void) { int result = 0; fenv_t env1, env2; /* Test FZ bit. */ fegetenv (&env1); set_sse_mxcsr_bits (MXCSR_FZ, MXCSR_FZ); fegetenv (&env2); fesetenv (&env1); result |= test_sse_mxcsr_bits ("fesetenv FZ restoration", MXCSR_FZ, 0); set_sse_mxcsr_bits (MXCSR_FZ, 0); fesetenv (&env2); result |= test_sse_mxcsr_bits ("fesetenv FZ restoration 2", MXCSR_FZ, MXCSR_FZ); set_sse_mxcsr_bits (MXCSR_FZ, MXCSR_FZ); fesetenv (FE_NOMASK_ENV); result |= test_sse_mxcsr_bits ("fesetenv (FE_NOMASK_ENV) FZ restoration", MXCSR_FZ, 0); set_sse_mxcsr_bits (MXCSR_FZ, MXCSR_FZ); fesetenv (FE_DFL_ENV); result |= test_sse_mxcsr_bits ("fesetenv (FE_DFL_ENV) FZ restoration", MXCSR_FZ, 0); /* Test DAZ bit. */ set_sse_mxcsr_bits (MXCSR_DAZ, MXCSR_DAZ); fegetenv (&env2); fesetenv (&env1); result |= test_sse_mxcsr_bits ("fesetenv DAZ restoration", MXCSR_DAZ, 0); set_sse_mxcsr_bits (MXCSR_DAZ, 0); fesetenv (&env2); result |= test_sse_mxcsr_bits ("fesetenv DAZ restoration 2", MXCSR_DAZ, MXCSR_DAZ); set_sse_mxcsr_bits (MXCSR_DAZ, MXCSR_DAZ); fesetenv (FE_NOMASK_ENV); result |= test_sse_mxcsr_bits ("fesetenv (FE_NOMASK_ENV) DAZ restoration", MXCSR_DAZ, 0); set_sse_mxcsr_bits (MXCSR_DAZ, MXCSR_DAZ); fesetenv (FE_DFL_ENV); result |= test_sse_mxcsr_bits ("fesetenv (FE_DFL_ENV) DAZ restoration", MXCSR_DAZ, 0); /* Test DM bit. */ set_sse_mxcsr_bits (MXCSR_DM, 0); fegetenv (&env2); fesetenv (&env1); result |= test_sse_mxcsr_bits ("fesetenv DM restoration", MXCSR_DM, MXCSR_DM); set_sse_mxcsr_bits (MXCSR_DM, MXCSR_DM); fesetenv (&env2); result |= test_sse_mxcsr_bits ("fesetenv DM restoration 2", MXCSR_DM, 0); set_sse_mxcsr_bits (MXCSR_DM, 0); /* Presume FE_NOMASK_ENV should leave the "denormal operand" exception masked, as not a standard exception. */ fesetenv (FE_NOMASK_ENV); result |= test_sse_mxcsr_bits ("fesetenv (FE_NOMASK_ENV) DM restoration", MXCSR_DM, MXCSR_DM); set_sse_mxcsr_bits (MXCSR_DM, 0); fesetenv (FE_DFL_ENV); result |= test_sse_mxcsr_bits ("fesetenv (FE_DFL_ENV) DM restoration", MXCSR_DM, MXCSR_DM); /* Test DE bit. */ set_sse_mxcsr_bits (MXCSR_DE, MXCSR_DE); fegetenv (&env2); fesetenv (&env1); result |= test_sse_mxcsr_bits ("fesetenv DE restoration", MXCSR_DE, 0); set_sse_mxcsr_bits (MXCSR_DE, 0); fesetenv (&env2); result |= test_sse_mxcsr_bits ("fesetenv DE restoration 2", MXCSR_DE, MXCSR_DE); set_sse_mxcsr_bits (MXCSR_DE, MXCSR_DE); fesetenv (FE_NOMASK_ENV); result |= test_sse_mxcsr_bits ("fesetenv (FE_NOMASK_ENV) DE restoration", MXCSR_DE, 0); set_sse_mxcsr_bits (MXCSR_DE, MXCSR_DE); fesetenv (FE_DFL_ENV); result |= test_sse_mxcsr_bits ("fesetenv (FE_DFL_ENV) DE restoration", MXCSR_DE, 0); return result; } static int do_test (void) { if (!CPU_FEATURE_USABLE (SSE2)) FAIL_UNSUPPORTED ("CPU does not support SSE2"); return sse_tests (); } #include