16c9f99dfSJanosch Frank /* SPDX-License-Identifier: GPL-2.0-only */ 2f77c0515SJanosch Frank /* 3f77c0515SJanosch Frank * s390x smp 4f77c0515SJanosch Frank * Based on Linux's arch/s390/kernel/smp.c and 5f77c0515SJanosch Frank * arch/s390/include/asm/sigp.h 6f77c0515SJanosch Frank * 7f77c0515SJanosch Frank * Copyright (c) 2019 IBM Corp 8f77c0515SJanosch Frank * 9f77c0515SJanosch Frank * Authors: 10f77c0515SJanosch Frank * Janosch Frank <frankja@linux.ibm.com> 11f77c0515SJanosch Frank */ 12f77c0515SJanosch Frank #include <libcflat.h> 13d34d3250SJanosch Frank #include <bitops.h> 14f77c0515SJanosch Frank #include <asm/arch_def.h> 15f77c0515SJanosch Frank #include <asm/sigp.h> 16f77c0515SJanosch Frank #include <asm/page.h> 17f77c0515SJanosch Frank #include <asm/barrier.h> 18f77c0515SJanosch Frank #include <asm/spinlock.h> 19f77c0515SJanosch Frank #include <asm/asm-offsets.h> 20f77c0515SJanosch Frank 21f77c0515SJanosch Frank #include <alloc.h> 22f77c0515SJanosch Frank #include <alloc_page.h> 23f77c0515SJanosch Frank 24f77c0515SJanosch Frank #include "smp.h" 25f77c0515SJanosch Frank #include "sclp.h" 26f77c0515SJanosch Frank 27f77c0515SJanosch Frank static struct cpu *cpus; 28f77c0515SJanosch Frank static struct spinlock lock; 29f77c0515SJanosch Frank 30f77c0515SJanosch Frank extern void smp_cpu_setup_state(void); 31f77c0515SJanosch Frank 329e1e188cSClaudio Imbrenda static void check_idx(uint16_t idx) 339e1e188cSClaudio Imbrenda { 349e1e188cSClaudio Imbrenda assert(idx < smp_query_num_cpus()); 359e1e188cSClaudio Imbrenda } 369e1e188cSClaudio Imbrenda 37f77c0515SJanosch Frank int smp_query_num_cpus(void) 38f77c0515SJanosch Frank { 3952076a63SJanosch Frank return sclp_get_cpu_num(); 40f77c0515SJanosch Frank } 41f77c0515SJanosch Frank 429e1e188cSClaudio Imbrenda int smp_sigp(uint16_t idx, uint8_t order, unsigned long parm, uint32_t *status) 439e1e188cSClaudio Imbrenda { 449e1e188cSClaudio Imbrenda check_idx(idx); 459e1e188cSClaudio Imbrenda return sigp(cpus[idx].addr, order, parm, status); 469e1e188cSClaudio Imbrenda } 479e1e188cSClaudio Imbrenda 489e1e188cSClaudio Imbrenda int smp_sigp_retry(uint16_t idx, uint8_t order, unsigned long parm, uint32_t *status) 499e1e188cSClaudio Imbrenda { 509e1e188cSClaudio Imbrenda check_idx(idx); 519e1e188cSClaudio Imbrenda return sigp_retry(cpus[idx].addr, order, parm, status); 529e1e188cSClaudio Imbrenda } 539e1e188cSClaudio Imbrenda 54f77c0515SJanosch Frank struct cpu *smp_cpu_from_addr(uint16_t addr) 55f77c0515SJanosch Frank { 56f77c0515SJanosch Frank int i, num = smp_query_num_cpus(); 57f77c0515SJanosch Frank 58f77c0515SJanosch Frank for (i = 0; i < num; i++) { 59f77c0515SJanosch Frank if (cpus[i].addr == addr) 60f77c0515SJanosch Frank return &cpus[i]; 61f77c0515SJanosch Frank } 62f77c0515SJanosch Frank return NULL; 63f77c0515SJanosch Frank } 64f77c0515SJanosch Frank 659e1e188cSClaudio Imbrenda struct cpu *smp_cpu_from_idx(uint16_t idx) 669e1e188cSClaudio Imbrenda { 679e1e188cSClaudio Imbrenda check_idx(idx); 689e1e188cSClaudio Imbrenda return &cpus[idx]; 699e1e188cSClaudio Imbrenda } 709e1e188cSClaudio Imbrenda 719e1e188cSClaudio Imbrenda uint16_t smp_cpu_addr(uint16_t idx) 729e1e188cSClaudio Imbrenda { 739e1e188cSClaudio Imbrenda check_idx(idx); 749e1e188cSClaudio Imbrenda return cpus[idx].addr; 759e1e188cSClaudio Imbrenda } 769e1e188cSClaudio Imbrenda 779e1e188cSClaudio Imbrenda bool smp_cpu_stopped(uint16_t idx) 78f77c0515SJanosch Frank { 79f77c0515SJanosch Frank uint32_t status; 80f77c0515SJanosch Frank 815b8d55c8SEric Farman if (smp_sigp_retry(idx, SIGP_SENSE, 0, &status) != SIGP_CC_STATUS_STORED) 82f77c0515SJanosch Frank return false; 83f77c0515SJanosch Frank return !!(status & (SIGP_STATUS_CHECK_STOP|SIGP_STATUS_STOPPED)); 84f77c0515SJanosch Frank } 85f77c0515SJanosch Frank 869e1e188cSClaudio Imbrenda bool smp_sense_running_status(uint16_t idx) 87f77c0515SJanosch Frank { 889e1e188cSClaudio Imbrenda if (smp_sigp(idx, SIGP_SENSE_RUNNING, 0, NULL) != SIGP_CC_STATUS_STORED) 89f77c0515SJanosch Frank return true; 90f77c0515SJanosch Frank /* Status stored condition code is equivalent to cpu not running. */ 91f77c0515SJanosch Frank return false; 92f77c0515SJanosch Frank } 93f77c0515SJanosch Frank 949e1e188cSClaudio Imbrenda static int smp_cpu_stop_nolock(uint16_t idx, bool store) 95f77c0515SJanosch Frank { 96f77c0515SJanosch Frank uint8_t order = store ? SIGP_STOP_AND_STORE_STATUS : SIGP_STOP; 97f77c0515SJanosch Frank 989e1e188cSClaudio Imbrenda /* refuse to work on the boot CPU */ 999e1e188cSClaudio Imbrenda if (idx == 0) 100f77c0515SJanosch Frank return -1; 101f77c0515SJanosch Frank 1029e1e188cSClaudio Imbrenda if (smp_sigp_retry(idx, order, 0, NULL)) 103f77c0515SJanosch Frank return -1; 104f77c0515SJanosch Frank 1059e1e188cSClaudio Imbrenda while (!smp_cpu_stopped(idx)) 106f77c0515SJanosch Frank mb(); 1079e1e188cSClaudio Imbrenda /* idx has been already checked by the smp_* functions called above */ 1089e1e188cSClaudio Imbrenda cpus[idx].active = false; 109f77c0515SJanosch Frank return 0; 110f77c0515SJanosch Frank } 111f77c0515SJanosch Frank 1129e1e188cSClaudio Imbrenda int smp_cpu_stop(uint16_t idx) 113f77c0515SJanosch Frank { 114f77c0515SJanosch Frank int rc; 115f77c0515SJanosch Frank 116f77c0515SJanosch Frank spin_lock(&lock); 1179e1e188cSClaudio Imbrenda rc = smp_cpu_stop_nolock(idx, false); 118f77c0515SJanosch Frank spin_unlock(&lock); 119f77c0515SJanosch Frank return rc; 120f77c0515SJanosch Frank } 121f77c0515SJanosch Frank 122*1dac4f3cSEric Farman /* 123*1dac4f3cSEric Farman * Functionally equivalent to smp_cpu_stop(), but without the 124*1dac4f3cSEric Farman * elements that wait/serialize matters itself. 125*1dac4f3cSEric Farman * Used to see if KVM itself is serialized correctly. 126*1dac4f3cSEric Farman */ 127*1dac4f3cSEric Farman int smp_cpu_stop_nowait(uint16_t idx) 128*1dac4f3cSEric Farman { 129*1dac4f3cSEric Farman check_idx(idx); 130*1dac4f3cSEric Farman 131*1dac4f3cSEric Farman /* refuse to work on the boot CPU */ 132*1dac4f3cSEric Farman if (idx == 0) 133*1dac4f3cSEric Farman return -1; 134*1dac4f3cSEric Farman 135*1dac4f3cSEric Farman spin_lock(&lock); 136*1dac4f3cSEric Farman 137*1dac4f3cSEric Farman /* Don't suppress a CC2 with sigp_retry() */ 138*1dac4f3cSEric Farman if (sigp(cpus[idx].addr, SIGP_STOP, 0, NULL)) { 139*1dac4f3cSEric Farman spin_unlock(&lock); 140*1dac4f3cSEric Farman return -1; 141*1dac4f3cSEric Farman } 142*1dac4f3cSEric Farman 143*1dac4f3cSEric Farman cpus[idx].active = false; 144*1dac4f3cSEric Farman spin_unlock(&lock); 145*1dac4f3cSEric Farman 146*1dac4f3cSEric Farman return 0; 147*1dac4f3cSEric Farman } 148*1dac4f3cSEric Farman 1499e1e188cSClaudio Imbrenda int smp_cpu_stop_store_status(uint16_t idx) 150f77c0515SJanosch Frank { 151f77c0515SJanosch Frank int rc; 152f77c0515SJanosch Frank 153f77c0515SJanosch Frank spin_lock(&lock); 1549e1e188cSClaudio Imbrenda rc = smp_cpu_stop_nolock(idx, true); 155f77c0515SJanosch Frank spin_unlock(&lock); 156f77c0515SJanosch Frank return rc; 157f77c0515SJanosch Frank } 158f77c0515SJanosch Frank 1599e1e188cSClaudio Imbrenda static int smp_cpu_restart_nolock(uint16_t idx, struct psw *psw) 1602ca255a0SJanosch Frank { 1612ca255a0SJanosch Frank int rc; 1622ca255a0SJanosch Frank 1639e1e188cSClaudio Imbrenda check_idx(idx); 1642ca255a0SJanosch Frank if (psw) { 1659e1e188cSClaudio Imbrenda cpus[idx].lowcore->restart_new_psw.mask = psw->mask; 1669e1e188cSClaudio Imbrenda cpus[idx].lowcore->restart_new_psw.addr = psw->addr; 1672ca255a0SJanosch Frank } 1682ca255a0SJanosch Frank /* 1692ca255a0SJanosch Frank * Stop the cpu, so we don't have a race between a running cpu 1702ca255a0SJanosch Frank * and the restart in the test that checks if the cpu is 1712ca255a0SJanosch Frank * running after the restart. 1722ca255a0SJanosch Frank */ 1739e1e188cSClaudio Imbrenda smp_cpu_stop_nolock(idx, false); 1749e1e188cSClaudio Imbrenda rc = smp_sigp(idx, SIGP_RESTART, 0, NULL); 1752ca255a0SJanosch Frank if (rc) 1762ca255a0SJanosch Frank return rc; 1772ca255a0SJanosch Frank /* 1782ca255a0SJanosch Frank * The order has been accepted, but the actual restart may not 1792ca255a0SJanosch Frank * have been performed yet, so wait until the cpu is running. 1802ca255a0SJanosch Frank */ 1819e1e188cSClaudio Imbrenda while (smp_cpu_stopped(idx)) 1822ca255a0SJanosch Frank mb(); 1839e1e188cSClaudio Imbrenda cpus[idx].active = true; 1842ca255a0SJanosch Frank return 0; 1852ca255a0SJanosch Frank } 1862ca255a0SJanosch Frank 1879e1e188cSClaudio Imbrenda int smp_cpu_restart(uint16_t idx) 188f77c0515SJanosch Frank { 1892ca255a0SJanosch Frank int rc; 190f77c0515SJanosch Frank 191f77c0515SJanosch Frank spin_lock(&lock); 1929e1e188cSClaudio Imbrenda rc = smp_cpu_restart_nolock(idx, NULL); 193f77c0515SJanosch Frank spin_unlock(&lock); 194f77c0515SJanosch Frank return rc; 195f77c0515SJanosch Frank } 196f77c0515SJanosch Frank 1979e1e188cSClaudio Imbrenda int smp_cpu_start(uint16_t idx, struct psw psw) 198f77c0515SJanosch Frank { 1992ca255a0SJanosch Frank int rc; 200f77c0515SJanosch Frank 201f77c0515SJanosch Frank spin_lock(&lock); 2029e1e188cSClaudio Imbrenda rc = smp_cpu_restart_nolock(idx, &psw); 203f77c0515SJanosch Frank spin_unlock(&lock); 204f77c0515SJanosch Frank return rc; 205f77c0515SJanosch Frank } 206f77c0515SJanosch Frank 2079e1e188cSClaudio Imbrenda int smp_cpu_destroy(uint16_t idx) 208f77c0515SJanosch Frank { 209f77c0515SJanosch Frank int rc; 210f77c0515SJanosch Frank 211f77c0515SJanosch Frank spin_lock(&lock); 2129e1e188cSClaudio Imbrenda rc = smp_cpu_stop_nolock(idx, false); 213f77c0515SJanosch Frank if (!rc) { 2149e1e188cSClaudio Imbrenda free_pages(cpus[idx].lowcore); 2159e1e188cSClaudio Imbrenda free_pages(cpus[idx].stack); 2169e1e188cSClaudio Imbrenda cpus[idx].lowcore = (void *)-1UL; 2179e1e188cSClaudio Imbrenda cpus[idx].stack = (void *)-1UL; 218f77c0515SJanosch Frank } 219f77c0515SJanosch Frank spin_unlock(&lock); 220f77c0515SJanosch Frank return rc; 221f77c0515SJanosch Frank } 222f77c0515SJanosch Frank 2239e1e188cSClaudio Imbrenda static int smp_cpu_setup_nolock(uint16_t idx, struct psw psw) 224f77c0515SJanosch Frank { 225f77c0515SJanosch Frank struct lowcore *lc; 226f77c0515SJanosch Frank 2279e1e188cSClaudio Imbrenda if (cpus[idx].active) 2289e1e188cSClaudio Imbrenda return -1; 229f77c0515SJanosch Frank 2309e1e188cSClaudio Imbrenda smp_sigp_retry(idx, SIGP_INITIAL_CPU_RESET, 0, NULL); 231f77c0515SJanosch Frank 232550b4683SClaudio Imbrenda lc = alloc_pages_flags(1, AREA_DMA31); 2339e1e188cSClaudio Imbrenda cpus[idx].lowcore = lc; 2349e1e188cSClaudio Imbrenda smp_sigp_retry(idx, SIGP_SET_PREFIX, (unsigned long )lc, NULL); 235f77c0515SJanosch Frank 236f77c0515SJanosch Frank /* Copy all exception psws. */ 2375a6a5506SClaudio Imbrenda memcpy(lc, cpus[0].lowcore, 512); 238f77c0515SJanosch Frank 239f77c0515SJanosch Frank /* Setup stack */ 2409e1e188cSClaudio Imbrenda cpus[idx].stack = (uint64_t *)alloc_pages(2); 241f77c0515SJanosch Frank 242f77c0515SJanosch Frank /* Start without DAT and any other mask bits. */ 2439e1e188cSClaudio Imbrenda lc->sw_int_psw.mask = psw.mask; 2449e1e188cSClaudio Imbrenda lc->sw_int_psw.addr = psw.addr; 2459e1e188cSClaudio Imbrenda lc->sw_int_grs[14] = psw.addr; 2469e1e188cSClaudio Imbrenda lc->sw_int_grs[15] = (uint64_t)cpus[idx].stack + (PAGE_SIZE * 4); 24744026818SJanosch Frank lc->restart_new_psw.mask = PSW_MASK_64; 248f77c0515SJanosch Frank lc->restart_new_psw.addr = (uint64_t)smp_cpu_setup_state; 249d34d3250SJanosch Frank lc->sw_int_crs[0] = BIT_ULL(CTL0_AFP); 250f77c0515SJanosch Frank 251f77c0515SJanosch Frank /* Start processing */ 2529e1e188cSClaudio Imbrenda smp_cpu_restart_nolock(idx, NULL); 25324a8db62SJanosch Frank /* Wait until the cpu has finished setup and started the provided psw */ 25424a8db62SJanosch Frank while (lc->restart_new_psw.addr != psw.addr) 25524a8db62SJanosch Frank mb(); 2569e1e188cSClaudio Imbrenda 2579e1e188cSClaudio Imbrenda return 0; 2589e1e188cSClaudio Imbrenda } 2599e1e188cSClaudio Imbrenda 2609e1e188cSClaudio Imbrenda int smp_cpu_setup(uint16_t idx, struct psw psw) 2619e1e188cSClaudio Imbrenda { 2629e1e188cSClaudio Imbrenda int rc = -1; 2639e1e188cSClaudio Imbrenda 2649e1e188cSClaudio Imbrenda spin_lock(&lock); 2659e1e188cSClaudio Imbrenda if (cpus) { 2669e1e188cSClaudio Imbrenda check_idx(idx); 2679e1e188cSClaudio Imbrenda rc = smp_cpu_setup_nolock(idx, psw); 2689e1e188cSClaudio Imbrenda } 269f77c0515SJanosch Frank spin_unlock(&lock); 270f77c0515SJanosch Frank return rc; 271f77c0515SJanosch Frank } 272f77c0515SJanosch Frank 273f77c0515SJanosch Frank /* 274f77c0515SJanosch Frank * Disregarding state, stop all cpus that once were online except for 275f77c0515SJanosch Frank * calling cpu. 276f77c0515SJanosch Frank */ 277f77c0515SJanosch Frank void smp_teardown(void) 278f77c0515SJanosch Frank { 279f77c0515SJanosch Frank int i = 0; 280f77c0515SJanosch Frank uint16_t this_cpu = stap(); 28152076a63SJanosch Frank int num = smp_query_num_cpus(); 282f77c0515SJanosch Frank 283f77c0515SJanosch Frank spin_lock(&lock); 28452076a63SJanosch Frank for (; i < num; i++) { 285f77c0515SJanosch Frank if (cpus[i].active && 286f77c0515SJanosch Frank cpus[i].addr != this_cpu) { 287f77c0515SJanosch Frank sigp_retry(cpus[i].addr, SIGP_STOP, 0, NULL); 288f77c0515SJanosch Frank } 289f77c0515SJanosch Frank } 290f77c0515SJanosch Frank spin_unlock(&lock); 291f77c0515SJanosch Frank } 292f77c0515SJanosch Frank 293f77c0515SJanosch Frank /*Expected to be called from boot cpu */ 294f77c0515SJanosch Frank extern uint64_t *stackptr; 295f77c0515SJanosch Frank void smp_setup(void) 296f77c0515SJanosch Frank { 297f77c0515SJanosch Frank int i = 0; 29852076a63SJanosch Frank int num = smp_query_num_cpus(); 299f77c0515SJanosch Frank unsigned short cpu0_addr = stap(); 30052076a63SJanosch Frank struct CPUEntry *entry = sclp_get_cpu_entries(); 301f77c0515SJanosch Frank 302f77c0515SJanosch Frank spin_lock(&lock); 30352076a63SJanosch Frank if (num > 1) 30452076a63SJanosch Frank printf("SMP: Initializing, found %d cpus\n", num); 305f77c0515SJanosch Frank 3065a6a5506SClaudio Imbrenda cpus = calloc(num, sizeof(*cpus)); 30752076a63SJanosch Frank for (i = 0; i < num; i++) { 30852076a63SJanosch Frank cpus[i].addr = entry[i].address; 309f77c0515SJanosch Frank cpus[i].active = false; 3105a6a5506SClaudio Imbrenda /* 3115a6a5506SClaudio Imbrenda * Fill in the boot CPU. If the boot CPU is not at index 0, 3125a6a5506SClaudio Imbrenda * swap it with the one at index 0. This guarantees that the 3135a6a5506SClaudio Imbrenda * boot CPU will always have index 0. If the boot CPU was 3145a6a5506SClaudio Imbrenda * already at index 0, a few extra useless assignments are 3155a6a5506SClaudio Imbrenda * performed, but everything will work ok. 3165a6a5506SClaudio Imbrenda * Notice that there is no guarantee that the list of CPUs 3175a6a5506SClaudio Imbrenda * returned by the Read SCP Info command is in any 3185a6a5506SClaudio Imbrenda * particular order, or that its order will stay consistent 3195a6a5506SClaudio Imbrenda * across multiple invocations. 3205a6a5506SClaudio Imbrenda */ 32152076a63SJanosch Frank if (entry[i].address == cpu0_addr) { 3225a6a5506SClaudio Imbrenda cpus[i].addr = cpus[0].addr; 3235a6a5506SClaudio Imbrenda cpus[0].addr = cpu0_addr; 3245a6a5506SClaudio Imbrenda cpus[0].stack = stackptr; 3255a6a5506SClaudio Imbrenda cpus[0].lowcore = (void *)0; 3265a6a5506SClaudio Imbrenda cpus[0].active = true; 327f77c0515SJanosch Frank } 328f77c0515SJanosch Frank } 329f77c0515SJanosch Frank spin_unlock(&lock); 330f77c0515SJanosch Frank } 331