1ce83c7adSJason Wang #include "libcflat.h" 2ce83c7adSJason Wang #include "smp.h" 3ce83c7adSJason Wang #include "atomic.h" 4ce83c7adSJason Wang #include "processor.h" 5ce83c7adSJason Wang #include "kvmclock.h" 6ce83c7adSJason Wang 7ce83c7adSJason Wang #define DEFAULT_TEST_LOOPS 100000000L 8ce83c7adSJason Wang #define DEFAULT_THRESHOLD 5L 9ce83c7adSJason Wang 104f0202c0SPaolo Bonzini long loops = DEFAULT_TEST_LOOPS; 114f0202c0SPaolo Bonzini long sec = 0; 124f0202c0SPaolo Bonzini long threshold = DEFAULT_THRESHOLD; 134f0202c0SPaolo Bonzini 14ce83c7adSJason Wang struct test_info { 15ce83c7adSJason Wang struct spinlock lock; 16ce83c7adSJason Wang u64 warps; /* warp count */ 17ce83c7adSJason Wang u64 stalls; /* stall count */ 18ce83c7adSJason Wang long long worst; /* worst warp */ 19ce83c7adSJason Wang volatile cycle_t last; /* last cycle seen by test */ 20ce83c7adSJason Wang atomic_t ncpus; /* number of cpu in the test*/ 21ce83c7adSJason Wang int check; /* check cycle ? */ 22ce83c7adSJason Wang }; 23ce83c7adSJason Wang 24ce83c7adSJason Wang struct test_info ti[4]; 25ce83c7adSJason Wang 264f0202c0SPaolo Bonzini static void wallclock_test(void *data) 27ce83c7adSJason Wang { 284f0202c0SPaolo Bonzini int *p_err = data; 29ce83c7adSJason Wang long ksec, offset; 30ce83c7adSJason Wang struct timespec ts; 31ce83c7adSJason Wang 32ce83c7adSJason Wang kvm_get_wallclock(&ts); 33ce83c7adSJason Wang ksec = ts.tv_sec; 34ce83c7adSJason Wang 35ce83c7adSJason Wang offset = ksec - sec; 36*b2e0a90fSAndrew Jones printf("Raw nanoseconds value from kvmclock: %" PRIu64 " (cpu %d)\n", kvm_clock_read(), smp_id()); 374f0202c0SPaolo Bonzini printf("Seconds get from kvmclock: %ld (cpu %d, offset: %ld)\n", ksec, smp_id(), offset); 38ce83c7adSJason Wang 39ce83c7adSJason Wang if (offset > threshold || offset < -threshold) { 40ce83c7adSJason Wang printf("offset too large!\n"); 414f0202c0SPaolo Bonzini (*p_err)++; 42ce83c7adSJason Wang } 43ce83c7adSJason Wang } 44ce83c7adSJason Wang 45ce83c7adSJason Wang static void kvm_clock_test(void *data) 46ce83c7adSJason Wang { 47ce83c7adSJason Wang struct test_info *hv_test_info = (struct test_info *)data; 48ce83c7adSJason Wang long i, check = hv_test_info->check; 49ce83c7adSJason Wang 504f0202c0SPaolo Bonzini for (i = 0; i < loops; i++){ 51ce83c7adSJason Wang cycle_t t0, t1; 52ce83c7adSJason Wang long long delta; 53ce83c7adSJason Wang 54ce83c7adSJason Wang if (check == 0) { 55ce83c7adSJason Wang kvm_clock_read(); 56ce83c7adSJason Wang continue; 57ce83c7adSJason Wang } 58ce83c7adSJason Wang 59ce83c7adSJason Wang spin_lock(&hv_test_info->lock); 60ce83c7adSJason Wang t1 = kvm_clock_read(); 61ce83c7adSJason Wang t0 = hv_test_info->last; 62ce83c7adSJason Wang hv_test_info->last = kvm_clock_read(); 63ce83c7adSJason Wang spin_unlock(&hv_test_info->lock); 64ce83c7adSJason Wang 65ce83c7adSJason Wang delta = t1 - t0; 66ce83c7adSJason Wang if (delta < 0) { 67ce83c7adSJason Wang spin_lock(&hv_test_info->lock); 68ce83c7adSJason Wang ++hv_test_info->warps; 69ce83c7adSJason Wang if (delta < hv_test_info->worst){ 70ce83c7adSJason Wang hv_test_info->worst = delta; 71b006d7ebSAndrew Jones printf("Worst warp %lld\n", hv_test_info->worst); 72ce83c7adSJason Wang } 73ce83c7adSJason Wang spin_unlock(&hv_test_info->lock); 74ce83c7adSJason Wang } 75ce83c7adSJason Wang if (delta == 0) 76ce83c7adSJason Wang ++hv_test_info->stalls; 77ce83c7adSJason Wang 78ce83c7adSJason Wang if (!((unsigned long)i & 31)) 79ce83c7adSJason Wang asm volatile("rep; nop"); 80ce83c7adSJason Wang } 81ce83c7adSJason Wang 82ce83c7adSJason Wang atomic_dec(&hv_test_info->ncpus); 83ce83c7adSJason Wang } 84ce83c7adSJason Wang 854f0202c0SPaolo Bonzini static int cycle_test(int ncpus, int check, struct test_info *ti) 86ce83c7adSJason Wang { 87ce83c7adSJason Wang int i; 88ce83c7adSJason Wang unsigned long long begin, end; 89ce83c7adSJason Wang 90ce83c7adSJason Wang begin = rdtsc(); 91ce83c7adSJason Wang 92ce83c7adSJason Wang atomic_set(&ti->ncpus, ncpus); 93ce83c7adSJason Wang ti->check = check; 94ce83c7adSJason Wang for (i = ncpus - 1; i >= 0; i--) 95ce83c7adSJason Wang on_cpu_async(i, kvm_clock_test, (void *)ti); 96ce83c7adSJason Wang 97ce83c7adSJason Wang /* Wait for the end of other vcpu */ 98ce83c7adSJason Wang while(atomic_read(&ti->ncpus)) 99ce83c7adSJason Wang ; 100ce83c7adSJason Wang 101ce83c7adSJason Wang end = rdtsc(); 102ce83c7adSJason Wang 103ce83c7adSJason Wang printf("Total vcpus: %d\n", ncpus); 1044f0202c0SPaolo Bonzini printf("Test loops: %ld\n", loops); 105ce83c7adSJason Wang if (check == 1) { 106b006d7ebSAndrew Jones printf("Total warps: %" PRId64 "\n", ti->warps); 107b006d7ebSAndrew Jones printf("Total stalls: %" PRId64 "\n", ti->stalls); 108ce83c7adSJason Wang printf("Worst warp: %lld\n", ti->worst); 109ce83c7adSJason Wang } else 110ce83c7adSJason Wang printf("TSC cycles: %lld\n", end - begin); 111ce83c7adSJason Wang 112ce83c7adSJason Wang return ti->warps ? 1 : 0; 113ce83c7adSJason Wang } 114ce83c7adSJason Wang 115ce83c7adSJason Wang int main(int ac, char **av) 116ce83c7adSJason Wang { 1174f0202c0SPaolo Bonzini int nerr = 0; 11809b22d11SAvi Kivity int ncpus; 1194f0202c0SPaolo Bonzini int i; 120ce83c7adSJason Wang 121ce83c7adSJason Wang if (ac > 1) 122ce83c7adSJason Wang loops = atol(av[1]); 123ce83c7adSJason Wang if (ac > 2) 124ce83c7adSJason Wang sec = atol(av[2]); 125ce83c7adSJason Wang if (ac > 3) 126ce83c7adSJason Wang threshold = atol(av[3]); 127ce83c7adSJason Wang 128ce83c7adSJason Wang smp_init(); 129ce83c7adSJason Wang 13009b22d11SAvi Kivity ncpus = cpu_count(); 131ce83c7adSJason Wang if (ncpus > MAX_CPU) 132ce83c7adSJason Wang ncpus = MAX_CPU; 133ce83c7adSJason Wang for (i = 0; i < ncpus; ++i) 134ce83c7adSJason Wang on_cpu(i, kvm_clock_init, (void *)0); 135ce83c7adSJason Wang 1364f0202c0SPaolo Bonzini if (ac > 2) { 1374f0202c0SPaolo Bonzini printf("Wallclock test, threshold %ld\n", threshold); 1384f0202c0SPaolo Bonzini printf("Seconds get from host: %ld\n", sec); 1394f0202c0SPaolo Bonzini for (i = 0; i < ncpus; ++i) 1404f0202c0SPaolo Bonzini on_cpu(i, wallclock_test, &nerr); 1414f0202c0SPaolo Bonzini } 142ce83c7adSJason Wang 143ce83c7adSJason Wang printf("Check the stability of raw cycle ...\n"); 144ce83c7adSJason Wang pvclock_set_flags(PVCLOCK_TSC_STABLE_BIT 145ce83c7adSJason Wang | PVCLOCK_RAW_CYCLE_BIT); 1464f0202c0SPaolo Bonzini if (cycle_test(ncpus, 1, &ti[0])) 147ce83c7adSJason Wang printf("Raw cycle is not stable\n"); 148ce83c7adSJason Wang else 149ce83c7adSJason Wang printf("Raw cycle is stable\n"); 150ce83c7adSJason Wang 151ce83c7adSJason Wang pvclock_set_flags(PVCLOCK_TSC_STABLE_BIT); 152ce83c7adSJason Wang printf("Monotonic cycle test:\n"); 1534f0202c0SPaolo Bonzini nerr += cycle_test(ncpus, 1, &ti[1]); 154ce83c7adSJason Wang 155ce83c7adSJason Wang printf("Measure the performance of raw cycle ...\n"); 156ce83c7adSJason Wang pvclock_set_flags(PVCLOCK_TSC_STABLE_BIT 157ce83c7adSJason Wang | PVCLOCK_RAW_CYCLE_BIT); 1584f0202c0SPaolo Bonzini cycle_test(ncpus, 0, &ti[2]); 159ce83c7adSJason Wang 160ce83c7adSJason Wang printf("Measure the performance of adjusted cycle ...\n"); 161ce83c7adSJason Wang pvclock_set_flags(PVCLOCK_TSC_STABLE_BIT); 1624f0202c0SPaolo Bonzini cycle_test(ncpus, 0, &ti[3]); 163ce83c7adSJason Wang 164ce83c7adSJason Wang for (i = 0; i < ncpus; ++i) 165ce83c7adSJason Wang on_cpu(i, kvm_clock_clear, (void *)0); 166ce83c7adSJason Wang 167ce83c7adSJason Wang return nerr > 0 ? 1 : 0; 168ce83c7adSJason Wang } 169