12449e17fSsherrym /* 22449e17fSsherrym * CDDL HEADER START 32449e17fSsherrym * 42449e17fSsherrym * The contents of this file are subject to the terms of the 52449e17fSsherrym * Common Development and Distribution License (the "License"). 62449e17fSsherrym * You may not use this file except in compliance with the License. 72449e17fSsherrym * 82449e17fSsherrym * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 92449e17fSsherrym * or http://www.opensolaris.org/os/licensing. 102449e17fSsherrym * See the License for the specific language governing permissions 112449e17fSsherrym * and limitations under the License. 122449e17fSsherrym * 132449e17fSsherrym * When distributing Covered Code, include this CDDL HEADER in each 142449e17fSsherrym * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 152449e17fSsherrym * If applicable, add the following below this CDDL HEADER, with the 162449e17fSsherrym * fields enclosed by brackets "[]" replaced with your own identifying 172449e17fSsherrym * information: Portions Copyright [yyyy] [name of copyright owner] 182449e17fSsherrym * 192449e17fSsherrym * CDDL HEADER END 202449e17fSsherrym */ 212449e17fSsherrym 222449e17fSsherrym /* 230ba6f73dSMark Johnson * Copyright 2009 Sun Microsystems, Inc. All rights reserved. 242449e17fSsherrym * Use is subject to license terms. 252449e17fSsherrym */ 262449e17fSsherrym 272449e17fSsherrym #include <sys/asm_linkage.h> 282449e17fSsherrym #include <sys/bootconf.h> 292449e17fSsherrym #include <sys/cpuvar.h> 302449e17fSsherrym #include <sys/cmn_err.h> 312449e17fSsherrym #include <sys/controlregs.h> 322449e17fSsherrym #include <sys/debug.h> 332449e17fSsherrym #include <sys/kobj.h> 342449e17fSsherrym #include <sys/kobj_impl.h> 352449e17fSsherrym #include <sys/machsystm.h> 362449e17fSsherrym #include <sys/param.h> 372449e17fSsherrym #include <sys/machparam.h> 382449e17fSsherrym #include <sys/promif.h> 392449e17fSsherrym #include <sys/sysmacros.h> 402449e17fSsherrym #include <sys/systm.h> 412449e17fSsherrym #include <sys/types.h> 422449e17fSsherrym #include <sys/thread.h> 432449e17fSsherrym #include <sys/ucode.h> 442449e17fSsherrym #include <sys/x86_archext.h> 452449e17fSsherrym #include <sys/x_call.h> 46843e1988Sjohnlev #ifdef __xpv 47843e1988Sjohnlev #include <sys/hypervisor.h> 48843e1988Sjohnlev #endif 492449e17fSsherrym 502449e17fSsherrym /* 51adc586deSMark Johnson * AMD-specific equivalence table 522449e17fSsherrym */ 53adc586deSMark Johnson static ucode_eqtbl_amd_t *ucode_eqtbl_amd; 542449e17fSsherrym 552449e17fSsherrym /* 562449e17fSsherrym * mcpu_ucode_info for the boot CPU. Statically allocated. 572449e17fSsherrym */ 582449e17fSsherrym static struct cpu_ucode_info cpu_ucode_info0; 592449e17fSsherrym 60adc586deSMark Johnson static ucode_file_t ucodefile; 612449e17fSsherrym 62adc586deSMark Johnson static void* ucode_zalloc(processorid_t, size_t); 63adc586deSMark Johnson static void ucode_free(processorid_t, void *, size_t); 64adc586deSMark Johnson 65adc586deSMark Johnson static int ucode_capable_amd(cpu_t *); 66adc586deSMark Johnson static int ucode_capable_intel(cpu_t *); 67adc586deSMark Johnson 68adc586deSMark Johnson static ucode_errno_t ucode_extract_amd(ucode_update_t *, uint8_t *, int); 69adc586deSMark Johnson static ucode_errno_t ucode_extract_intel(ucode_update_t *, uint8_t *, 70adc586deSMark Johnson int); 71adc586deSMark Johnson 72adc586deSMark Johnson static void ucode_file_reset_amd(ucode_file_t *, processorid_t); 73adc586deSMark Johnson static void ucode_file_reset_intel(ucode_file_t *, processorid_t); 74adc586deSMark Johnson 75adc586deSMark Johnson static uint32_t ucode_load_amd(ucode_file_t *, cpu_ucode_info_t *, cpu_t *); 76adc586deSMark Johnson static uint32_t ucode_load_intel(ucode_file_t *, cpu_ucode_info_t *, cpu_t *); 77adc586deSMark Johnson 78882a7af5SMark Johnson #ifdef __xpv 79adc586deSMark Johnson static void ucode_load_xpv(ucode_update_t *); 800ba6f73dSMark Johnson static void ucode_chipset_amd(uint8_t *, int); 81882a7af5SMark Johnson #endif 822449e17fSsherrym 830ba6f73dSMark Johnson static int ucode_equiv_cpu_amd(cpu_t *, uint16_t *); 84adc586deSMark Johnson 85adc586deSMark Johnson static ucode_errno_t ucode_locate_amd(cpu_t *, cpu_ucode_info_t *, 86adc586deSMark Johnson ucode_file_t *); 87adc586deSMark Johnson static ucode_errno_t ucode_locate_intel(cpu_t *, cpu_ucode_info_t *, 88adc586deSMark Johnson ucode_file_t *); 89adc586deSMark Johnson 900ba6f73dSMark Johnson #ifndef __xpv 910ba6f73dSMark Johnson static ucode_errno_t ucode_match_amd(uint16_t, cpu_ucode_info_t *, 92adc586deSMark Johnson ucode_file_amd_t *, int); 930ba6f73dSMark Johnson #endif 94adc586deSMark Johnson static ucode_errno_t ucode_match_intel(int, cpu_ucode_info_t *, 95adc586deSMark Johnson ucode_header_intel_t *, ucode_ext_table_intel_t *); 96adc586deSMark Johnson 97adc586deSMark Johnson static void ucode_read_rev_amd(cpu_ucode_info_t *); 98adc586deSMark Johnson static void ucode_read_rev_intel(cpu_ucode_info_t *); 99adc586deSMark Johnson 100adc586deSMark Johnson static const struct ucode_ops ucode_amd = { 101adc586deSMark Johnson MSR_AMD_PATCHLOADER, 102adc586deSMark Johnson ucode_capable_amd, 103adc586deSMark Johnson ucode_file_reset_amd, 104adc586deSMark Johnson ucode_read_rev_amd, 105adc586deSMark Johnson ucode_load_amd, 106adc586deSMark Johnson ucode_validate_amd, 107adc586deSMark Johnson ucode_extract_amd, 108adc586deSMark Johnson ucode_locate_amd 109adc586deSMark Johnson }; 110adc586deSMark Johnson 111adc586deSMark Johnson static const struct ucode_ops ucode_intel = { 112adc586deSMark Johnson MSR_INTC_UCODE_WRITE, 113adc586deSMark Johnson ucode_capable_intel, 114adc586deSMark Johnson ucode_file_reset_intel, 115adc586deSMark Johnson ucode_read_rev_intel, 116adc586deSMark Johnson ucode_load_intel, 117adc586deSMark Johnson ucode_validate_intel, 118adc586deSMark Johnson ucode_extract_intel, 119adc586deSMark Johnson ucode_locate_intel 120adc586deSMark Johnson }; 121adc586deSMark Johnson 122adc586deSMark Johnson const struct ucode_ops *ucode; 123adc586deSMark Johnson 1242449e17fSsherrym static const char ucode_failure_fmt[] = 12588699bddSsherrym "cpu%d: failed to update microcode from version 0x%x to 0x%x\n"; 1262449e17fSsherrym static const char ucode_success_fmt[] = 12788699bddSsherrym "?cpu%d: microcode has been updated from version 0x%x to 0x%x\n"; 1282449e17fSsherrym 1292449e17fSsherrym /* 1302449e17fSsherrym * Force flag. If set, the first microcode binary that matches 1312449e17fSsherrym * signature and platform id will be used for microcode update, 1322449e17fSsherrym * regardless of version. Should only be used for debugging. 1332449e17fSsherrym */ 1342449e17fSsherrym int ucode_force_update = 0; 1352449e17fSsherrym 1362449e17fSsherrym /* 1372449e17fSsherrym * Allocate space for mcpu_ucode_info in the machcpu structure 1382449e17fSsherrym * for all non-boot CPUs. 1392449e17fSsherrym */ 1402449e17fSsherrym void 1412449e17fSsherrym ucode_alloc_space(cpu_t *cp) 1422449e17fSsherrym { 1432449e17fSsherrym ASSERT(cp->cpu_id != 0); 1442449e17fSsherrym cp->cpu_m.mcpu_ucode_info = 1452449e17fSsherrym kmem_zalloc(sizeof (*cp->cpu_m.mcpu_ucode_info), KM_SLEEP); 1462449e17fSsherrym } 1472449e17fSsherrym 1482449e17fSsherrym void 1492449e17fSsherrym ucode_free_space(cpu_t *cp) 1502449e17fSsherrym { 1512449e17fSsherrym ASSERT(cp->cpu_id != 0); 1522449e17fSsherrym kmem_free(cp->cpu_m.mcpu_ucode_info, 1532449e17fSsherrym sizeof (*cp->cpu_m.mcpu_ucode_info)); 1542449e17fSsherrym } 1552449e17fSsherrym 1562449e17fSsherrym /* 1572449e17fSsherrym * Called when we are done with microcode update on all processors to free up 1582449e17fSsherrym * space allocated for the microcode file. 1592449e17fSsherrym */ 1602449e17fSsherrym void 161adc586deSMark Johnson ucode_cleanup() 1622449e17fSsherrym { 163adc586deSMark Johnson ASSERT(ucode); 164adc586deSMark Johnson 165adc586deSMark Johnson ucode->file_reset(&ucodefile, -1); 166adc586deSMark Johnson } 167adc586deSMark Johnson 168adc586deSMark Johnson /* 169adc586deSMark Johnson * Allocate/free a buffer used to hold ucode data. Space for the boot CPU is 170adc586deSMark Johnson * allocated with BOP_ALLOC() and does not require a free. 171adc586deSMark Johnson */ 172adc586deSMark Johnson static void* 173adc586deSMark Johnson ucode_zalloc(processorid_t id, size_t size) 174adc586deSMark Johnson { 175adc586deSMark Johnson if (id) 176adc586deSMark Johnson return (kmem_zalloc(size, KM_NOSLEEP)); 177adc586deSMark Johnson 178adc586deSMark Johnson /* BOP_ALLOC() failure results in panic */ 179adc586deSMark Johnson return (BOP_ALLOC(bootops, NULL, size, MMU_PAGESIZE)); 180adc586deSMark Johnson } 181adc586deSMark Johnson 182adc586deSMark Johnson static void 183adc586deSMark Johnson ucode_free(processorid_t id, void* buf, size_t size) 184adc586deSMark Johnson { 185adc586deSMark Johnson if (id) 186adc586deSMark Johnson kmem_free(buf, size); 1872449e17fSsherrym } 1882449e17fSsherrym 1892449e17fSsherrym /* 1902449e17fSsherrym * Check whether or not a processor is capable of microcode operations 1912449e17fSsherrym * Returns 1 if it is capable, 0 if not. 192adc586deSMark Johnson * 193adc586deSMark Johnson * At this point we only support microcode update for: 194adc586deSMark Johnson * - Intel processors family 6 and above, and 195adc586deSMark Johnson * - AMD processors family 0x10 and above. 196adc586deSMark Johnson * 197adc586deSMark Johnson * We also assume that we don't support a mix of Intel and 198adc586deSMark Johnson * AMD processors in the same box. 199adc586deSMark Johnson * 200adc586deSMark Johnson * An i86xpv guest domain can't update the microcode. 2012449e17fSsherrym */ 202adc586deSMark Johnson /*ARGSUSED*/ 2032449e17fSsherrym static int 204adc586deSMark Johnson ucode_capable_amd(cpu_t *cp) 2052449e17fSsherrym { 206*b9bfdccdSStuart Maybee int hwenv = get_hwenv(); 207*b9bfdccdSStuart Maybee 208*b9bfdccdSStuart Maybee if (hwenv == HW_XEN_HVM || (hwenv == HW_XEN_PV && !is_controldom())) { 209adc586deSMark Johnson return (0); 210adc586deSMark Johnson } 2110ba6f73dSMark Johnson return (cpuid_getfamily(cp) >= 0x10); 212adc586deSMark Johnson } 2130ba6f73dSMark Johnson 214adc586deSMark Johnson static int 215adc586deSMark Johnson ucode_capable_intel(cpu_t *cp) 216adc586deSMark Johnson { 217*b9bfdccdSStuart Maybee int hwenv = get_hwenv(); 218*b9bfdccdSStuart Maybee 219*b9bfdccdSStuart Maybee if (hwenv == HW_XEN_HVM || (hwenv == HW_XEN_PV && !is_controldom())) { 220882a7af5SMark Johnson return (0); 221882a7af5SMark Johnson } 222adc586deSMark Johnson return (cpuid_getfamily(cp) >= 6); 2232449e17fSsherrym } 2242449e17fSsherrym 2252449e17fSsherrym /* 2262449e17fSsherrym * Called when it is no longer necessary to keep the microcode around, 2272449e17fSsherrym * or when the cached microcode doesn't match the CPU being processed. 2282449e17fSsherrym */ 2292449e17fSsherrym static void 230adc586deSMark Johnson ucode_file_reset_amd(ucode_file_t *ufp, processorid_t id) 2312449e17fSsherrym { 232adc586deSMark Johnson ucode_file_amd_t *ucodefp = ufp->amd; 2332449e17fSsherrym 2342449e17fSsherrym if (ucodefp == NULL) 2352449e17fSsherrym return; 2362449e17fSsherrym 237adc586deSMark Johnson ucode_free(id, ucodefp, sizeof (ucode_file_amd_t)); 238adc586deSMark Johnson ufp->amd = NULL; 239adc586deSMark Johnson } 240adc586deSMark Johnson 241adc586deSMark Johnson static void 242adc586deSMark Johnson ucode_file_reset_intel(ucode_file_t *ufp, processorid_t id) 243adc586deSMark Johnson { 244adc586deSMark Johnson ucode_file_intel_t *ucodefp = &ufp->intel; 245adc586deSMark Johnson int total_size, body_size; 246adc586deSMark Johnson 247adc586deSMark Johnson if (ucodefp == NULL || ucodefp->uf_header == NULL) 248adc586deSMark Johnson return; 249adc586deSMark Johnson 250adc586deSMark Johnson total_size = UCODE_TOTAL_SIZE_INTEL(ucodefp->uf_header->uh_total_size); 251adc586deSMark Johnson body_size = UCODE_BODY_SIZE_INTEL(ucodefp->uf_header->uh_body_size); 2522449e17fSsherrym if (ucodefp->uf_body) { 253adc586deSMark Johnson ucode_free(id, ucodefp->uf_body, body_size); 2542449e17fSsherrym ucodefp->uf_body = NULL; 2552449e17fSsherrym } 2562449e17fSsherrym 2572449e17fSsherrym if (ucodefp->uf_ext_table) { 258adc586deSMark Johnson int size = total_size - body_size - UCODE_HEADER_SIZE_INTEL; 259adc586deSMark Johnson 260adc586deSMark Johnson ucode_free(id, ucodefp->uf_ext_table, size); 2612449e17fSsherrym ucodefp->uf_ext_table = NULL; 2622449e17fSsherrym } 2632449e17fSsherrym 264adc586deSMark Johnson ucode_free(id, ucodefp->uf_header, UCODE_HEADER_SIZE_INTEL); 265adc586deSMark Johnson ucodefp->uf_header = NULL; 266adc586deSMark Johnson } 267adc586deSMark Johnson 268adc586deSMark Johnson /* 269adc586deSMark Johnson * Find the equivalent CPU id in the equivalence table. 270adc586deSMark Johnson */ 271adc586deSMark Johnson static int 2720ba6f73dSMark Johnson ucode_equiv_cpu_amd(cpu_t *cp, uint16_t *eq_sig) 273adc586deSMark Johnson { 274adc586deSMark Johnson char name[MAXPATHLEN]; 275adc586deSMark Johnson intptr_t fd; 276adc586deSMark Johnson int count; 277adc586deSMark Johnson int offset = 0, cpi_sig = cpuid_getsig(cp); 278adc586deSMark Johnson ucode_eqtbl_amd_t *eqtbl = ucode_eqtbl_amd; 279adc586deSMark Johnson 280adc586deSMark Johnson (void) snprintf(name, MAXPATHLEN, "/%s/%s/equivalence-table", 281adc586deSMark Johnson UCODE_INSTALL_PATH, cpuid_getvendorstr(cp)); 282adc586deSMark Johnson 283adc586deSMark Johnson /* 284adc586deSMark Johnson * No kmem_zalloc() etc. available on boot cpu. 285adc586deSMark Johnson */ 286adc586deSMark Johnson if (cp->cpu_id == 0) { 287adc586deSMark Johnson if ((fd = kobj_open(name)) == -1) 288adc586deSMark Johnson return (EM_OPENFILE); 289adc586deSMark Johnson /* ucode_zalloc() cannot fail on boot cpu */ 290adc586deSMark Johnson eqtbl = ucode_zalloc(cp->cpu_id, sizeof (*eqtbl)); 291adc586deSMark Johnson ASSERT(eqtbl); 292adc586deSMark Johnson do { 293adc586deSMark Johnson count = kobj_read(fd, (int8_t *)eqtbl, 294adc586deSMark Johnson sizeof (*eqtbl), offset); 295adc586deSMark Johnson if (count != sizeof (*eqtbl)) { 296adc586deSMark Johnson (void) kobj_close(fd); 297adc586deSMark Johnson return (EM_HIGHERREV); 298adc586deSMark Johnson } 299adc586deSMark Johnson offset += count; 300adc586deSMark Johnson } while (eqtbl->ue_inst_cpu && eqtbl->ue_inst_cpu != cpi_sig); 301adc586deSMark Johnson (void) kobj_close(fd); 302adc586deSMark Johnson } 303adc586deSMark Johnson 304adc586deSMark Johnson /* 305adc586deSMark Johnson * If not already done, load the equivalence table. 306adc586deSMark Johnson * Not done on boot CPU. 307adc586deSMark Johnson */ 308adc586deSMark Johnson if (eqtbl == NULL) { 309adc586deSMark Johnson struct _buf *eq; 310adc586deSMark Johnson uint64_t size; 311adc586deSMark Johnson 312adc586deSMark Johnson if ((eq = kobj_open_file(name)) == (struct _buf *)-1) 313adc586deSMark Johnson return (EM_OPENFILE); 314adc586deSMark Johnson 315adc586deSMark Johnson if (kobj_get_filesize(eq, &size) < 0) { 316adc586deSMark Johnson kobj_close_file(eq); 317adc586deSMark Johnson return (EM_OPENFILE); 318adc586deSMark Johnson } 319adc586deSMark Johnson 320adc586deSMark Johnson ucode_eqtbl_amd = kmem_zalloc(size, KM_NOSLEEP); 321adc586deSMark Johnson if (ucode_eqtbl_amd == NULL) { 322adc586deSMark Johnson kobj_close_file(eq); 323adc586deSMark Johnson return (EM_NOMEM); 324adc586deSMark Johnson } 325adc586deSMark Johnson 326adc586deSMark Johnson count = kobj_read_file(eq, (char *)ucode_eqtbl_amd, size, 0); 327adc586deSMark Johnson kobj_close_file(eq); 328adc586deSMark Johnson 329adc586deSMark Johnson if (count != size) 330adc586deSMark Johnson return (EM_FILESIZE); 331adc586deSMark Johnson } 332adc586deSMark Johnson 333adc586deSMark Johnson /* Get the equivalent CPU id. */ 334adc586deSMark Johnson if (cp->cpu_id) 335adc586deSMark Johnson for (eqtbl = ucode_eqtbl_amd; 336adc586deSMark Johnson eqtbl->ue_inst_cpu && eqtbl->ue_inst_cpu != cpi_sig; 337adc586deSMark Johnson eqtbl++) 338adc586deSMark Johnson ; 339adc586deSMark Johnson 340adc586deSMark Johnson *eq_sig = eqtbl->ue_equiv_cpu; 341adc586deSMark Johnson 342adc586deSMark Johnson /* No equivalent CPU id found, assume outdated microcode file. */ 343adc586deSMark Johnson if (*eq_sig == 0) 344adc586deSMark Johnson return (EM_HIGHERREV); 345adc586deSMark Johnson 346adc586deSMark Johnson return (EM_OK); 3472449e17fSsherrym } 3482449e17fSsherrym 3492449e17fSsherrym /* 3500ba6f73dSMark Johnson * xVM cannot check for the presence of PCI devices. Look for chipset- 3510ba6f73dSMark Johnson * specific microcode patches in the container file and disable them 3520ba6f73dSMark Johnson * by setting their CPU revision to an invalid value. 3530ba6f73dSMark Johnson */ 3540ba6f73dSMark Johnson #ifdef __xpv 3550ba6f73dSMark Johnson static void 3560ba6f73dSMark Johnson ucode_chipset_amd(uint8_t *buf, int size) 3570ba6f73dSMark Johnson { 3580ba6f73dSMark Johnson ucode_header_amd_t *uh; 3590ba6f73dSMark Johnson uint32_t *ptr = (uint32_t *)buf; 3600ba6f73dSMark Johnson int len = 0; 3610ba6f73dSMark Johnson 3620ba6f73dSMark Johnson /* skip to first microcode patch */ 3630ba6f73dSMark Johnson ptr += 2; len = *ptr++; ptr += len >> 2; size -= len; 3640ba6f73dSMark Johnson 3650ba6f73dSMark Johnson while (size >= sizeof (ucode_header_amd_t) + 8) { 3660ba6f73dSMark Johnson ptr++; len = *ptr++; 3670ba6f73dSMark Johnson uh = (ucode_header_amd_t *)ptr; 3680ba6f73dSMark Johnson ptr += len >> 2; size -= len; 3690ba6f73dSMark Johnson 3700ba6f73dSMark Johnson if (uh->uh_nb_id) { 3710ba6f73dSMark Johnson cmn_err(CE_WARN, "ignoring northbridge-specific ucode: " 3720ba6f73dSMark Johnson "chipset id %x, revision %x", 3730ba6f73dSMark Johnson uh->uh_nb_id, uh->uh_nb_rev); 3740ba6f73dSMark Johnson uh->uh_cpu_rev = 0xffff; 3750ba6f73dSMark Johnson } 3760ba6f73dSMark Johnson 3770ba6f73dSMark Johnson if (uh->uh_sb_id) { 3780ba6f73dSMark Johnson cmn_err(CE_WARN, "ignoring southbridge-specific ucode: " 3790ba6f73dSMark Johnson "chipset id %x, revision %x", 3800ba6f73dSMark Johnson uh->uh_sb_id, uh->uh_sb_rev); 3810ba6f73dSMark Johnson uh->uh_cpu_rev = 0xffff; 3820ba6f73dSMark Johnson } 3830ba6f73dSMark Johnson } 3840ba6f73dSMark Johnson } 3850ba6f73dSMark Johnson #endif 3860ba6f73dSMark Johnson 3870ba6f73dSMark Johnson /* 3882449e17fSsherrym * Populate the ucode file structure from microcode file corresponding to 3892449e17fSsherrym * this CPU, if exists. 3902449e17fSsherrym * 3912449e17fSsherrym * Return EM_OK on success, corresponding error code on failure. 3922449e17fSsherrym */ 3930ba6f73dSMark Johnson /*ARGSUSED*/ 3942449e17fSsherrym static ucode_errno_t 395adc586deSMark Johnson ucode_locate_amd(cpu_t *cp, cpu_ucode_info_t *uinfop, ucode_file_t *ufp) 396adc586deSMark Johnson { 397adc586deSMark Johnson char name[MAXPATHLEN]; 398adc586deSMark Johnson intptr_t fd; 3990ba6f73dSMark Johnson int count, rc; 400adc586deSMark Johnson ucode_file_amd_t *ucodefp = ufp->amd; 401adc586deSMark Johnson 4020ba6f73dSMark Johnson #ifndef __xpv 4030ba6f73dSMark Johnson uint16_t eq_sig = 0; 4040ba6f73dSMark Johnson int i; 4050ba6f73dSMark Johnson 406adc586deSMark Johnson /* get equivalent CPU id */ 407adc586deSMark Johnson if ((rc = ucode_equiv_cpu_amd(cp, &eq_sig)) != EM_OK) 408adc586deSMark Johnson return (rc); 409adc586deSMark Johnson 410adc586deSMark Johnson /* 411adc586deSMark Johnson * Allocate a buffer for the microcode patch. If the buffer has been 412adc586deSMark Johnson * allocated before, check for a matching microcode to avoid loading 413adc586deSMark Johnson * the file again. 414adc586deSMark Johnson */ 415adc586deSMark Johnson if (ucodefp == NULL) 416adc586deSMark Johnson ucodefp = ucode_zalloc(cp->cpu_id, sizeof (*ucodefp)); 417adc586deSMark Johnson else if (ucode_match_amd(eq_sig, uinfop, ucodefp, sizeof (*ucodefp)) 418adc586deSMark Johnson == EM_OK) 419adc586deSMark Johnson return (EM_OK); 420adc586deSMark Johnson 421adc586deSMark Johnson if (ucodefp == NULL) 422adc586deSMark Johnson return (EM_NOMEM); 423adc586deSMark Johnson 424adc586deSMark Johnson ufp->amd = ucodefp; 425adc586deSMark Johnson 426adc586deSMark Johnson /* 427adc586deSMark Johnson * Find the patch for this CPU. The patch files are named XXXX-YY, where 428adc586deSMark Johnson * XXXX is the equivalent CPU id and YY is the running patch number. 429adc586deSMark Johnson * Patches specific to certain chipsets are guaranteed to have lower 430adc586deSMark Johnson * numbers than less specific patches, so we can just load the first 431adc586deSMark Johnson * patch that matches. 432adc586deSMark Johnson */ 433adc586deSMark Johnson 434adc586deSMark Johnson for (i = 0; i < 0xff; i++) { 435adc586deSMark Johnson (void) snprintf(name, MAXPATHLEN, "/%s/%s/%04X-%02X", 436adc586deSMark Johnson UCODE_INSTALL_PATH, cpuid_getvendorstr(cp), eq_sig, i); 437adc586deSMark Johnson if ((fd = kobj_open(name)) == -1) 438adc586deSMark Johnson return (EM_NOMATCH); 439adc586deSMark Johnson count = kobj_read(fd, (char *)ucodefp, sizeof (*ucodefp), 0); 440adc586deSMark Johnson (void) kobj_close(fd); 441adc586deSMark Johnson 442adc586deSMark Johnson if (ucode_match_amd(eq_sig, uinfop, ucodefp, count) == EM_OK) 443adc586deSMark Johnson return (EM_OK); 444adc586deSMark Johnson } 445adc586deSMark Johnson return (EM_NOMATCH); 4460ba6f73dSMark Johnson #else 4470ba6f73dSMark Johnson int size = 0; 4480ba6f73dSMark Johnson char c; 4490ba6f73dSMark Johnson 4500ba6f73dSMark Johnson /* 4510ba6f73dSMark Johnson * The xVM case is special. To support mixed-revision systems, the 4520ba6f73dSMark Johnson * hypervisor will choose which patch to load for which CPU, so the 4530ba6f73dSMark Johnson * whole microcode patch container file will have to be loaded. 4540ba6f73dSMark Johnson * 4550ba6f73dSMark Johnson * Since this code is only run on the boot cpu, we don't have to care 4560ba6f73dSMark Johnson * about failing ucode_zalloc() or freeing allocated memory. 4570ba6f73dSMark Johnson */ 4580ba6f73dSMark Johnson if (cp->cpu_id != 0) 4590ba6f73dSMark Johnson return (EM_INVALIDARG); 4600ba6f73dSMark Johnson 4610ba6f73dSMark Johnson (void) snprintf(name, MAXPATHLEN, "/%s/%s/container", 4620ba6f73dSMark Johnson UCODE_INSTALL_PATH, cpuid_getvendorstr(cp)); 4630ba6f73dSMark Johnson 4640ba6f73dSMark Johnson if ((fd = kobj_open(name)) == -1) 4650ba6f73dSMark Johnson return (EM_OPENFILE); 4660ba6f73dSMark Johnson 4670ba6f73dSMark Johnson /* get the file size by counting bytes */ 4680ba6f73dSMark Johnson do { 4690ba6f73dSMark Johnson count = kobj_read(fd, &c, 1, size); 4700ba6f73dSMark Johnson size += count; 4710ba6f73dSMark Johnson } while (count); 4720ba6f73dSMark Johnson 4730ba6f73dSMark Johnson ucodefp = ucode_zalloc(cp->cpu_id, sizeof (*ucodefp)); 4740ba6f73dSMark Johnson ASSERT(ucodefp); 4750ba6f73dSMark Johnson ufp->amd = ucodefp; 4760ba6f73dSMark Johnson 4770ba6f73dSMark Johnson ucodefp->usize = size; 4780ba6f73dSMark Johnson ucodefp->ucodep = ucode_zalloc(cp->cpu_id, size); 4790ba6f73dSMark Johnson ASSERT(ucodefp->ucodep); 4800ba6f73dSMark Johnson 4810ba6f73dSMark Johnson /* load the microcode patch container file */ 4820ba6f73dSMark Johnson count = kobj_read(fd, (char *)ucodefp->ucodep, size, 0); 4830ba6f73dSMark Johnson (void) kobj_close(fd); 4840ba6f73dSMark Johnson 4850ba6f73dSMark Johnson if (count != size) 4860ba6f73dSMark Johnson return (EM_FILESIZE); 4870ba6f73dSMark Johnson 4880ba6f73dSMark Johnson /* make sure the container file is valid */ 4890ba6f73dSMark Johnson rc = ucode->validate(ucodefp->ucodep, ucodefp->usize); 4900ba6f73dSMark Johnson 4910ba6f73dSMark Johnson if (rc != EM_OK) 4920ba6f73dSMark Johnson return (rc); 4930ba6f73dSMark Johnson 4940ba6f73dSMark Johnson /* disable chipset-specific patches */ 4950ba6f73dSMark Johnson ucode_chipset_amd(ucodefp->ucodep, ucodefp->usize); 4960ba6f73dSMark Johnson 4970ba6f73dSMark Johnson return (EM_OK); 4980ba6f73dSMark Johnson #endif 499adc586deSMark Johnson } 500adc586deSMark Johnson 501adc586deSMark Johnson static ucode_errno_t 502adc586deSMark Johnson ucode_locate_intel(cpu_t *cp, cpu_ucode_info_t *uinfop, ucode_file_t *ufp) 5032449e17fSsherrym { 5042449e17fSsherrym char name[MAXPATHLEN]; 5052449e17fSsherrym intptr_t fd; 5062449e17fSsherrym int count; 507adc586deSMark Johnson int header_size = UCODE_HEADER_SIZE_INTEL; 5082449e17fSsherrym int cpi_sig = cpuid_getsig(cp); 5092449e17fSsherrym ucode_errno_t rc = EM_OK; 510adc586deSMark Johnson ucode_file_intel_t *ucodefp = &ufp->intel; 511adc586deSMark Johnson 512adc586deSMark Johnson ASSERT(ucode); 5132449e17fSsherrym 5142449e17fSsherrym /* 5152449e17fSsherrym * If the microcode matches the CPU we are processing, use it. 5162449e17fSsherrym */ 517adc586deSMark Johnson if (ucode_match_intel(cpi_sig, uinfop, ucodefp->uf_header, 5182449e17fSsherrym ucodefp->uf_ext_table) == EM_OK && ucodefp->uf_body != NULL) { 5192449e17fSsherrym return (EM_OK); 5202449e17fSsherrym } 5212449e17fSsherrym 5222449e17fSsherrym /* 5232449e17fSsherrym * Look for microcode file with the right name. 5242449e17fSsherrym */ 5252449e17fSsherrym (void) snprintf(name, MAXPATHLEN, "/%s/%s/%08X-%02X", 5262449e17fSsherrym UCODE_INSTALL_PATH, cpuid_getvendorstr(cp), cpi_sig, 5272449e17fSsherrym uinfop->cui_platid); 5282449e17fSsherrym if ((fd = kobj_open(name)) == -1) { 5292449e17fSsherrym return (EM_OPENFILE); 5302449e17fSsherrym } 5312449e17fSsherrym 5322449e17fSsherrym /* 5332449e17fSsherrym * We found a microcode file for the CPU we are processing, 5342449e17fSsherrym * reset the microcode data structure and read in the new 5352449e17fSsherrym * file. 5362449e17fSsherrym */ 537adc586deSMark Johnson ucode->file_reset(ufp, cp->cpu_id); 5382449e17fSsherrym 539adc586deSMark Johnson ucodefp->uf_header = ucode_zalloc(cp->cpu_id, header_size); 540adc586deSMark Johnson if (ucodefp->uf_header == NULL) 541adc586deSMark Johnson return (EM_NOMEM); 542adc586deSMark Johnson 543adc586deSMark Johnson count = kobj_read(fd, (char *)ucodefp->uf_header, header_size, 0); 5442449e17fSsherrym 5452449e17fSsherrym switch (count) { 546adc586deSMark Johnson case UCODE_HEADER_SIZE_INTEL: { 5472449e17fSsherrym 548adc586deSMark Johnson ucode_header_intel_t *uhp = ucodefp->uf_header; 5492449e17fSsherrym uint32_t offset = header_size; 5502449e17fSsherrym int total_size, body_size, ext_size; 5512449e17fSsherrym uint32_t sum = 0; 5522449e17fSsherrym 5532449e17fSsherrym /* 5542449e17fSsherrym * Make sure that the header contains valid fields. 5552449e17fSsherrym */ 556adc586deSMark Johnson if ((rc = ucode_header_validate_intel(uhp)) == EM_OK) { 557adc586deSMark Johnson total_size = UCODE_TOTAL_SIZE_INTEL(uhp->uh_total_size); 558adc586deSMark Johnson body_size = UCODE_BODY_SIZE_INTEL(uhp->uh_body_size); 559adc586deSMark Johnson ucodefp->uf_body = ucode_zalloc(cp->cpu_id, body_size); 560adc586deSMark Johnson if (ucodefp->uf_body == NULL) { 5612449e17fSsherrym rc = EM_NOMEM; 5622449e17fSsherrym break; 5632449e17fSsherrym } 5642449e17fSsherrym 5652449e17fSsherrym if (kobj_read(fd, (char *)ucodefp->uf_body, 5662449e17fSsherrym body_size, offset) != body_size) 5672449e17fSsherrym rc = EM_FILESIZE; 5682449e17fSsherrym } 5692449e17fSsherrym 5702449e17fSsherrym if (rc) 5712449e17fSsherrym break; 5722449e17fSsherrym 573adc586deSMark Johnson sum = ucode_checksum_intel(0, header_size, 574adc586deSMark Johnson (uint8_t *)ucodefp->uf_header); 575adc586deSMark Johnson if (ucode_checksum_intel(sum, body_size, ucodefp->uf_body)) { 5762449e17fSsherrym rc = EM_CHECKSUM; 5772449e17fSsherrym break; 5782449e17fSsherrym } 5792449e17fSsherrym 5802449e17fSsherrym /* 5812449e17fSsherrym * Check to see if there is extended signature table. 5822449e17fSsherrym */ 5832449e17fSsherrym offset = body_size + header_size; 5842449e17fSsherrym ext_size = total_size - offset; 5852449e17fSsherrym 5862449e17fSsherrym if (ext_size <= 0) 5872449e17fSsherrym break; 5882449e17fSsherrym 589adc586deSMark Johnson ucodefp->uf_ext_table = ucode_zalloc(cp->cpu_id, ext_size); 590adc586deSMark Johnson if (ucodefp->uf_ext_table == NULL) { 5912449e17fSsherrym rc = EM_NOMEM; 5922449e17fSsherrym break; 5932449e17fSsherrym } 5942449e17fSsherrym 5952449e17fSsherrym if (kobj_read(fd, (char *)ucodefp->uf_ext_table, 5962449e17fSsherrym ext_size, offset) != ext_size) { 5972449e17fSsherrym rc = EM_FILESIZE; 598adc586deSMark Johnson } else if (ucode_checksum_intel(0, ext_size, 5992449e17fSsherrym (uint8_t *)(ucodefp->uf_ext_table))) { 6002449e17fSsherrym rc = EM_CHECKSUM; 6012449e17fSsherrym } else { 6022449e17fSsherrym int i; 6032449e17fSsherrym 604adc586deSMark Johnson ext_size -= UCODE_EXT_TABLE_SIZE_INTEL; 6052449e17fSsherrym for (i = 0; i < ucodefp->uf_ext_table->uet_count; 6062449e17fSsherrym i++) { 607adc586deSMark Johnson if (ucode_checksum_intel(0, 608adc586deSMark Johnson UCODE_EXT_SIG_SIZE_INTEL, 6092449e17fSsherrym (uint8_t *)(&(ucodefp->uf_ext_table-> 6102449e17fSsherrym uet_ext_sig[i])))) { 6112449e17fSsherrym rc = EM_CHECKSUM; 6122449e17fSsherrym break; 6132449e17fSsherrym } 6142449e17fSsherrym } 6152449e17fSsherrym } 6162449e17fSsherrym break; 6172449e17fSsherrym } 6182449e17fSsherrym 6192449e17fSsherrym default: 6202449e17fSsherrym rc = EM_FILESIZE; 6212449e17fSsherrym break; 6222449e17fSsherrym } 6232449e17fSsherrym 6242449e17fSsherrym kobj_close(fd); 6252449e17fSsherrym 6262449e17fSsherrym if (rc != EM_OK) 6272449e17fSsherrym return (rc); 6282449e17fSsherrym 629adc586deSMark Johnson rc = ucode_match_intel(cpi_sig, uinfop, ucodefp->uf_header, 6302449e17fSsherrym ucodefp->uf_ext_table); 6312449e17fSsherrym 6322449e17fSsherrym return (rc); 6332449e17fSsherrym } 6342449e17fSsherrym 6350ba6f73dSMark Johnson #ifndef __xpv 636adc586deSMark Johnson static ucode_errno_t 6370ba6f73dSMark Johnson ucode_match_amd(uint16_t eq_sig, cpu_ucode_info_t *uinfop, 6380ba6f73dSMark Johnson ucode_file_amd_t *ucodefp, int size) 639adc586deSMark Johnson { 640adc586deSMark Johnson ucode_header_amd_t *uh; 641adc586deSMark Johnson 642adc586deSMark Johnson if (ucodefp == NULL || size < sizeof (ucode_header_amd_t)) 643adc586deSMark Johnson return (EM_NOMATCH); 644adc586deSMark Johnson 645adc586deSMark Johnson /* 646adc586deSMark Johnson * Don't even think about loading patches that would require code 647adc586deSMark Johnson * execution. 648adc586deSMark Johnson */ 649adc586deSMark Johnson if (size > offsetof(ucode_file_amd_t, uf_code_present) && 650adc586deSMark Johnson ucodefp->uf_code_present) 651adc586deSMark Johnson return (EM_NOMATCH); 652adc586deSMark Johnson 653adc586deSMark Johnson uh = &ucodefp->uf_header; 654adc586deSMark Johnson 655adc586deSMark Johnson if (eq_sig != uh->uh_cpu_rev) 656adc586deSMark Johnson return (EM_NOMATCH); 657adc586deSMark Johnson 658adc586deSMark Johnson if (uh->uh_nb_id) { 659adc586deSMark Johnson cmn_err(CE_WARN, "ignoring northbridge-specific ucode: " 660adc586deSMark Johnson "chipset id %x, revision %x", uh->uh_nb_id, uh->uh_nb_rev); 661adc586deSMark Johnson return (EM_NOMATCH); 662adc586deSMark Johnson } 663adc586deSMark Johnson 664adc586deSMark Johnson if (uh->uh_sb_id) { 665adc586deSMark Johnson cmn_err(CE_WARN, "ignoring southbridge-specific ucode: " 666adc586deSMark Johnson "chipset id %x, revision %x", uh->uh_sb_id, uh->uh_sb_rev); 667adc586deSMark Johnson return (EM_NOMATCH); 668adc586deSMark Johnson } 669adc586deSMark Johnson 670adc586deSMark Johnson if (uh->uh_patch_id <= uinfop->cui_rev) 671adc586deSMark Johnson return (EM_HIGHERREV); 672adc586deSMark Johnson 673adc586deSMark Johnson return (EM_OK); 674adc586deSMark Johnson } 6750ba6f73dSMark Johnson #endif 6762449e17fSsherrym 6772449e17fSsherrym /* 6782449e17fSsherrym * Returns 1 if the microcode is for this processor; 0 otherwise. 6792449e17fSsherrym */ 6802449e17fSsherrym static ucode_errno_t 681adc586deSMark Johnson ucode_match_intel(int cpi_sig, cpu_ucode_info_t *uinfop, 682adc586deSMark Johnson ucode_header_intel_t *uhp, ucode_ext_table_intel_t *uetp) 6832449e17fSsherrym { 684adc586deSMark Johnson if (uhp == NULL) 685adc586deSMark Johnson return (EM_NOMATCH); 6862449e17fSsherrym 687adc586deSMark Johnson if (UCODE_MATCH_INTEL(cpi_sig, uhp->uh_signature, 6882449e17fSsherrym uinfop->cui_platid, uhp->uh_proc_flags)) { 6892449e17fSsherrym 6902449e17fSsherrym if (uinfop->cui_rev >= uhp->uh_rev && !ucode_force_update) 6912449e17fSsherrym return (EM_HIGHERREV); 6922449e17fSsherrym 6932449e17fSsherrym return (EM_OK); 6942449e17fSsherrym } 6952449e17fSsherrym 6962449e17fSsherrym if (uetp != NULL) { 6972449e17fSsherrym int i; 6982449e17fSsherrym 6992449e17fSsherrym for (i = 0; i < uetp->uet_count; i++) { 700adc586deSMark Johnson ucode_ext_sig_intel_t *uesp; 7012449e17fSsherrym 7022449e17fSsherrym uesp = &uetp->uet_ext_sig[i]; 7032449e17fSsherrym 704adc586deSMark Johnson if (UCODE_MATCH_INTEL(cpi_sig, uesp->ues_signature, 7052449e17fSsherrym uinfop->cui_platid, uesp->ues_proc_flags)) { 7062449e17fSsherrym 7072449e17fSsherrym if (uinfop->cui_rev >= uhp->uh_rev && 7082449e17fSsherrym !ucode_force_update) 7092449e17fSsherrym return (EM_HIGHERREV); 7102449e17fSsherrym 7112449e17fSsherrym return (EM_OK); 7122449e17fSsherrym } 7132449e17fSsherrym } 7142449e17fSsherrym } 7152449e17fSsherrym 7162449e17fSsherrym return (EM_NOMATCH); 7172449e17fSsherrym } 7182449e17fSsherrym 7192449e17fSsherrym /*ARGSUSED*/ 7202449e17fSsherrym static int 7212449e17fSsherrym ucode_write(xc_arg_t arg1, xc_arg_t unused2, xc_arg_t unused3) 7222449e17fSsherrym { 723adc586deSMark Johnson ucode_update_t *uusp = (ucode_update_t *)arg1; 724adc586deSMark Johnson cpu_ucode_info_t *uinfop = CPU->cpu_m.mcpu_ucode_info; 7252449e17fSsherrym 726adc586deSMark Johnson ASSERT(ucode); 7272449e17fSsherrym ASSERT(uusp->ucodep); 7282449e17fSsherrym 729882a7af5SMark Johnson #ifndef __xpv 7302449e17fSsherrym /* 7312449e17fSsherrym * Check one more time to see if it is really necessary to update 7322449e17fSsherrym * microcode just in case this is a hyperthreaded processor where 7332449e17fSsherrym * the threads share the same microcode. 7342449e17fSsherrym */ 7352449e17fSsherrym if (!ucode_force_update) { 736adc586deSMark Johnson ucode->read_rev(uinfop); 7372449e17fSsherrym uusp->new_rev = uinfop->cui_rev; 7382449e17fSsherrym if (uinfop->cui_rev >= uusp->expected_rev) 7392449e17fSsherrym return (0); 7402449e17fSsherrym } 7412449e17fSsherrym 742adc586deSMark Johnson wrmsr(ucode->write_msr, (uintptr_t)uusp->ucodep); 743882a7af5SMark Johnson #endif 744adc586deSMark Johnson ucode->read_rev(uinfop); 7452449e17fSsherrym uusp->new_rev = uinfop->cui_rev; 7462449e17fSsherrym 7472449e17fSsherrym return (0); 7482449e17fSsherrym } 7492449e17fSsherrym 750adc586deSMark Johnson /*ARGSUSED*/ 751adc586deSMark Johnson static uint32_t 752adc586deSMark Johnson ucode_load_amd(ucode_file_t *ufp, cpu_ucode_info_t *uinfop, cpu_t *cp) 7532449e17fSsherrym { 754adc586deSMark Johnson ucode_file_amd_t *ucodefp = ufp->amd; 755adc586deSMark Johnson #ifdef __xpv 756adc586deSMark Johnson ucode_update_t uus; 757adc586deSMark Johnson #endif 758adc586deSMark Johnson 759adc586deSMark Johnson ASSERT(ucode); 760adc586deSMark Johnson ASSERT(ucodefp); 761adc586deSMark Johnson 762adc586deSMark Johnson #ifndef __xpv 7632449e17fSsherrym kpreempt_disable(); 764adc586deSMark Johnson wrmsr(ucode->write_msr, (uintptr_t)ucodefp); 765adc586deSMark Johnson ucode->read_rev(uinfop); 7662449e17fSsherrym kpreempt_enable(); 7670ba6f73dSMark Johnson 7680ba6f73dSMark Johnson return (ucodefp->uf_header.uh_patch_id); 769adc586deSMark Johnson #else 7700ba6f73dSMark Johnson uus.ucodep = ucodefp->ucodep; 7710ba6f73dSMark Johnson uus.usize = ucodefp->usize; 772adc586deSMark Johnson ucode_load_xpv(&uus); 773adc586deSMark Johnson ucode->read_rev(uinfop); 774adc586deSMark Johnson uus.new_rev = uinfop->cui_rev; 775adc586deSMark Johnson 7760ba6f73dSMark Johnson return (uus.new_rev); 7770ba6f73dSMark Johnson #endif 778adc586deSMark Johnson } 779adc586deSMark Johnson 780adc586deSMark Johnson /*ARGSUSED2*/ 781adc586deSMark Johnson static uint32_t 782adc586deSMark Johnson ucode_load_intel(ucode_file_t *ufp, cpu_ucode_info_t *uinfop, cpu_t *cp) 783adc586deSMark Johnson { 784adc586deSMark Johnson ucode_file_intel_t *ucodefp = &ufp->intel; 785adc586deSMark Johnson #ifdef __xpv 786adc586deSMark Johnson uint32_t ext_offset; 787adc586deSMark Johnson uint32_t body_size; 788adc586deSMark Johnson uint32_t ext_size; 789adc586deSMark Johnson uint8_t *ustart; 790adc586deSMark Johnson uint32_t usize; 791adc586deSMark Johnson ucode_update_t uus; 792adc586deSMark Johnson #endif 793adc586deSMark Johnson 794adc586deSMark Johnson ASSERT(ucode); 795adc586deSMark Johnson 796adc586deSMark Johnson #ifdef __xpv 797adc586deSMark Johnson /* 798adc586deSMark Johnson * the hypervisor wants the header, data, and extended 799adc586deSMark Johnson * signature tables. We can only get here from the boot 800adc586deSMark Johnson * CPU (cpu #0), we don't need to free as ucode_zalloc() will 801adc586deSMark Johnson * use BOP_ALLOC(). 802adc586deSMark Johnson */ 803adc586deSMark Johnson usize = UCODE_TOTAL_SIZE_INTEL(ucodefp->uf_header->uh_total_size); 804adc586deSMark Johnson ustart = ucode_zalloc(cp->cpu_id, usize); 805adc586deSMark Johnson ASSERT(ustart); 806adc586deSMark Johnson 807adc586deSMark Johnson body_size = UCODE_BODY_SIZE_INTEL(ucodefp->uf_header->uh_body_size); 808adc586deSMark Johnson ext_offset = body_size + UCODE_HEADER_SIZE_INTEL; 809adc586deSMark Johnson ext_size = usize - ext_offset; 810adc586deSMark Johnson ASSERT(ext_size >= 0); 811adc586deSMark Johnson 812adc586deSMark Johnson (void) memcpy(ustart, ucodefp->uf_header, UCODE_HEADER_SIZE_INTEL); 813adc586deSMark Johnson (void) memcpy(&ustart[UCODE_HEADER_SIZE_INTEL], ucodefp->uf_body, 814adc586deSMark Johnson body_size); 815adc586deSMark Johnson if (ext_size > 0) { 816adc586deSMark Johnson (void) memcpy(&ustart[ext_offset], 817adc586deSMark Johnson ucodefp->uf_ext_table, ext_size); 818adc586deSMark Johnson } 819adc586deSMark Johnson uus.ucodep = ustart; 820adc586deSMark Johnson uus.usize = usize; 821adc586deSMark Johnson ucode_load_xpv(&uus); 822adc586deSMark Johnson ucode->read_rev(uinfop); 823adc586deSMark Johnson uus.new_rev = uinfop->cui_rev; 824adc586deSMark Johnson #else 825adc586deSMark Johnson kpreempt_disable(); 826adc586deSMark Johnson wrmsr(ucode->write_msr, (uintptr_t)ucodefp->uf_body); 827adc586deSMark Johnson ucode->read_rev(uinfop); 828adc586deSMark Johnson kpreempt_enable(); 829adc586deSMark Johnson #endif 830adc586deSMark Johnson 831adc586deSMark Johnson return (ucodefp->uf_header->uh_rev); 8322449e17fSsherrym } 8332449e17fSsherrym 834882a7af5SMark Johnson 835882a7af5SMark Johnson #ifdef __xpv 836882a7af5SMark Johnson static void 837adc586deSMark Johnson ucode_load_xpv(ucode_update_t *uusp) 838882a7af5SMark Johnson { 839882a7af5SMark Johnson xen_platform_op_t op; 840882a7af5SMark Johnson int e; 841882a7af5SMark Johnson 842882a7af5SMark Johnson ASSERT(DOMAIN_IS_INITDOMAIN(xen_info)); 843882a7af5SMark Johnson 844882a7af5SMark Johnson kpreempt_disable(); 845882a7af5SMark Johnson op.cmd = XENPF_microcode_update; 846882a7af5SMark Johnson op.interface_version = XENPF_INTERFACE_VERSION; 847882a7af5SMark Johnson /*LINTED: constant in conditional context*/ 848adc586deSMark Johnson set_xen_guest_handle(op.u.microcode.data, uusp->ucodep); 849adc586deSMark Johnson op.u.microcode.length = uusp->usize; 850882a7af5SMark Johnson e = HYPERVISOR_platform_op(&op); 851882a7af5SMark Johnson if (e != 0) { 852882a7af5SMark Johnson cmn_err(CE_WARN, "hypervisor failed to accept uCode update"); 853882a7af5SMark Johnson } 854882a7af5SMark Johnson kpreempt_enable(); 855882a7af5SMark Johnson } 856882a7af5SMark Johnson #endif /* __xpv */ 857882a7af5SMark Johnson 858adc586deSMark Johnson static void 859adc586deSMark Johnson ucode_read_rev_amd(cpu_ucode_info_t *uinfop) 860adc586deSMark Johnson { 861adc586deSMark Johnson uinfop->cui_rev = rdmsr(MSR_AMD_PATCHLEVEL); 862adc586deSMark Johnson } 863882a7af5SMark Johnson 8642449e17fSsherrym static void 865adc586deSMark Johnson ucode_read_rev_intel(cpu_ucode_info_t *uinfop) 8662449e17fSsherrym { 8672449e17fSsherrym struct cpuid_regs crs; 8682449e17fSsherrym 8692449e17fSsherrym /* 8702449e17fSsherrym * The Intel 64 and IA-32 Architecture Software Developer's Manual 8712449e17fSsherrym * recommends that MSR_INTC_UCODE_REV be loaded with 0 first, then 8722449e17fSsherrym * execute cpuid to guarantee the correct reading of this register. 8732449e17fSsherrym */ 8742449e17fSsherrym wrmsr(MSR_INTC_UCODE_REV, 0); 8752449e17fSsherrym (void) __cpuid_insn(&crs); 8762449e17fSsherrym uinfop->cui_rev = (rdmsr(MSR_INTC_UCODE_REV) >> INTC_UCODE_REV_SHIFT); 8772449e17fSsherrym } 8782449e17fSsherrym 879adc586deSMark Johnson static ucode_errno_t 880adc586deSMark Johnson ucode_extract_amd(ucode_update_t *uusp, uint8_t *ucodep, int size) 881adc586deSMark Johnson { 8820ba6f73dSMark Johnson #ifndef __xpv 883adc586deSMark Johnson uint32_t *ptr = (uint32_t *)ucodep; 884adc586deSMark Johnson ucode_eqtbl_amd_t *eqtbl; 885adc586deSMark Johnson ucode_file_amd_t *ufp; 8860ba6f73dSMark Johnson int count; 8870ba6f73dSMark Johnson int higher = 0; 8880ba6f73dSMark Johnson ucode_errno_t rc = EM_NOMATCH; 8890ba6f73dSMark Johnson uint16_t eq_sig; 890adc586deSMark Johnson 891adc586deSMark Johnson /* skip over magic number & equivalence table header */ 892adc586deSMark Johnson ptr += 2; size -= 8; 893adc586deSMark Johnson 894adc586deSMark Johnson count = *ptr++; size -= 4; 895adc586deSMark Johnson for (eqtbl = (ucode_eqtbl_amd_t *)ptr; 896adc586deSMark Johnson eqtbl->ue_inst_cpu && eqtbl->ue_inst_cpu != uusp->sig; 897adc586deSMark Johnson eqtbl++) 898adc586deSMark Johnson ; 899adc586deSMark Johnson 900adc586deSMark Johnson eq_sig = eqtbl->ue_equiv_cpu; 901adc586deSMark Johnson 902adc586deSMark Johnson /* No equivalent CPU id found, assume outdated microcode file. */ 903adc586deSMark Johnson if (eq_sig == 0) 904adc586deSMark Johnson return (EM_HIGHERREV); 905adc586deSMark Johnson 906adc586deSMark Johnson /* Use the first microcode patch that matches. */ 907adc586deSMark Johnson do { 908adc586deSMark Johnson ptr += count >> 2; size -= count; 909adc586deSMark Johnson 910adc586deSMark Johnson if (!size) 9110ba6f73dSMark Johnson return (higher ? EM_HIGHERREV : EM_NOMATCH); 912adc586deSMark Johnson 913adc586deSMark Johnson ptr++; size -= 4; 914adc586deSMark Johnson count = *ptr++; size -= 4; 915adc586deSMark Johnson ufp = (ucode_file_amd_t *)ptr; 9160ba6f73dSMark Johnson 9170ba6f73dSMark Johnson rc = ucode_match_amd(eq_sig, &uusp->info, ufp, count); 9180ba6f73dSMark Johnson if (rc == EM_HIGHERREV) 9190ba6f73dSMark Johnson higher = 1; 9200ba6f73dSMark Johnson } while (rc != EM_OK); 921adc586deSMark Johnson 922adc586deSMark Johnson uusp->ucodep = (uint8_t *)ufp; 923adc586deSMark Johnson uusp->usize = count; 924adc586deSMark Johnson uusp->expected_rev = ufp->uf_header.uh_patch_id; 9250ba6f73dSMark Johnson #else 9260ba6f73dSMark Johnson /* 9270ba6f73dSMark Johnson * The hypervisor will choose the patch to load, so there is no way to 9280ba6f73dSMark Johnson * know the "expected revision" in advance. This is especially true on 9290ba6f73dSMark Johnson * mixed-revision systems where more than one patch will be loaded. 9300ba6f73dSMark Johnson */ 9310ba6f73dSMark Johnson uusp->expected_rev = 0; 9320ba6f73dSMark Johnson uusp->ucodep = ucodep; 9330ba6f73dSMark Johnson uusp->usize = size; 9340ba6f73dSMark Johnson 9350ba6f73dSMark Johnson ucode_chipset_amd(ucodep, size); 9360ba6f73dSMark Johnson #endif 937adc586deSMark Johnson 938adc586deSMark Johnson return (EM_OK); 939adc586deSMark Johnson } 940adc586deSMark Johnson 941adc586deSMark Johnson static ucode_errno_t 942adc586deSMark Johnson ucode_extract_intel(ucode_update_t *uusp, uint8_t *ucodep, int size) 943adc586deSMark Johnson { 944adc586deSMark Johnson uint32_t header_size = UCODE_HEADER_SIZE_INTEL; 945adc586deSMark Johnson int remaining; 946adc586deSMark Johnson int found = 0; 947adc586deSMark Johnson ucode_errno_t search_rc = EM_NOMATCH; /* search result */ 948adc586deSMark Johnson 949adc586deSMark Johnson /* 950adc586deSMark Johnson * Go through the whole buffer in case there are 951adc586deSMark Johnson * multiple versions of matching microcode for this 952adc586deSMark Johnson * processor. 953adc586deSMark Johnson */ 954adc586deSMark Johnson for (remaining = size; remaining > 0; ) { 955adc586deSMark Johnson int total_size, body_size, ext_size; 956adc586deSMark Johnson uint8_t *curbuf = &ucodep[size - remaining]; 957adc586deSMark Johnson ucode_header_intel_t *uhp = (ucode_header_intel_t *)curbuf; 958adc586deSMark Johnson ucode_ext_table_intel_t *uetp = NULL; 959adc586deSMark Johnson ucode_errno_t tmprc; 960adc586deSMark Johnson 961adc586deSMark Johnson total_size = UCODE_TOTAL_SIZE_INTEL(uhp->uh_total_size); 962adc586deSMark Johnson body_size = UCODE_BODY_SIZE_INTEL(uhp->uh_body_size); 963adc586deSMark Johnson ext_size = total_size - (header_size + body_size); 964adc586deSMark Johnson 965adc586deSMark Johnson if (ext_size > 0) 966adc586deSMark Johnson uetp = (ucode_ext_table_intel_t *) 967adc586deSMark Johnson &curbuf[header_size + body_size]; 968adc586deSMark Johnson 969adc586deSMark Johnson tmprc = ucode_match_intel(uusp->sig, &uusp->info, uhp, uetp); 970adc586deSMark Johnson 971adc586deSMark Johnson /* 972adc586deSMark Johnson * Since we are searching through a big file 973adc586deSMark Johnson * containing microcode for pretty much all the 974adc586deSMark Johnson * processors, we are bound to get EM_NOMATCH 975adc586deSMark Johnson * at one point. However, if we return 976adc586deSMark Johnson * EM_NOMATCH to users, it will really confuse 977adc586deSMark Johnson * them. Therefore, if we ever find a match of 978adc586deSMark Johnson * a lower rev, we will set return code to 979adc586deSMark Johnson * EM_HIGHERREV. 980adc586deSMark Johnson */ 981adc586deSMark Johnson if (tmprc == EM_HIGHERREV) 982adc586deSMark Johnson search_rc = EM_HIGHERREV; 983adc586deSMark Johnson 984adc586deSMark Johnson if (tmprc == EM_OK && 985adc586deSMark Johnson uusp->expected_rev < uhp->uh_rev) { 986adc586deSMark Johnson #ifndef __xpv 987adc586deSMark Johnson uusp->ucodep = (uint8_t *)&curbuf[header_size]; 988adc586deSMark Johnson #else 989adc586deSMark Johnson uusp->ucodep = (uint8_t *)curbuf; 990adc586deSMark Johnson #endif 991adc586deSMark Johnson uusp->usize = 992adc586deSMark Johnson UCODE_TOTAL_SIZE_INTEL(uhp->uh_total_size); 993adc586deSMark Johnson uusp->expected_rev = uhp->uh_rev; 994adc586deSMark Johnson found = 1; 995adc586deSMark Johnson } 996adc586deSMark Johnson 997adc586deSMark Johnson remaining -= total_size; 998adc586deSMark Johnson } 999adc586deSMark Johnson 1000adc586deSMark Johnson if (!found) 1001adc586deSMark Johnson return (search_rc); 1002adc586deSMark Johnson 1003adc586deSMark Johnson return (EM_OK); 1004adc586deSMark Johnson } 10052449e17fSsherrym /* 10062449e17fSsherrym * Entry point to microcode update from the ucode_drv driver. 10072449e17fSsherrym * 10082449e17fSsherrym * Returns EM_OK on success, corresponding error code on failure. 10092449e17fSsherrym */ 10102449e17fSsherrym ucode_errno_t 10112449e17fSsherrym ucode_update(uint8_t *ucodep, int size) 10122449e17fSsherrym { 10132449e17fSsherrym int found = 0; 10142449e17fSsherrym processorid_t id; 1015adc586deSMark Johnson ucode_update_t cached = { 0 }; 1016adc586deSMark Johnson ucode_update_t *cachedp = NULL; 10172449e17fSsherrym ucode_errno_t rc = EM_OK; 10182449e17fSsherrym ucode_errno_t search_rc = EM_NOMATCH; /* search result */ 10192449e17fSsherrym cpuset_t cpuset; 10202449e17fSsherrym 1021adc586deSMark Johnson ASSERT(ucode); 10222449e17fSsherrym ASSERT(ucodep); 10232449e17fSsherrym CPUSET_ZERO(cpuset); 10242449e17fSsherrym 1025adc586deSMark Johnson if (!ucode->capable(CPU)) 10262449e17fSsherrym return (EM_NOTSUP); 10272449e17fSsherrym 10282449e17fSsherrym mutex_enter(&cpu_lock); 10292449e17fSsherrym 10302449e17fSsherrym for (id = 0; id < max_ncpus; id++) { 10312449e17fSsherrym cpu_t *cpu; 1032adc586deSMark Johnson ucode_update_t uus = { 0 }; 1033adc586deSMark Johnson ucode_update_t *uusp = &uus; 10342449e17fSsherrym 10352449e17fSsherrym /* 10362449e17fSsherrym * If there is no such CPU or it is not xcall ready, skip it. 10372449e17fSsherrym */ 10382449e17fSsherrym if ((cpu = cpu_get(id)) == NULL || 10392449e17fSsherrym !(cpu->cpu_flags & CPU_READY)) 10402449e17fSsherrym continue; 10412449e17fSsherrym 10422449e17fSsherrym uusp->sig = cpuid_getsig(cpu); 10432449e17fSsherrym bcopy(cpu->cpu_m.mcpu_ucode_info, &uusp->info, 10442449e17fSsherrym sizeof (uusp->info)); 10452449e17fSsherrym 10462449e17fSsherrym /* 10472449e17fSsherrym * If the current CPU has the same signature and platform 10482449e17fSsherrym * id as the previous one we processed, reuse the information. 10492449e17fSsherrym */ 10502449e17fSsherrym if (cachedp && cachedp->sig == cpuid_getsig(cpu) && 10512449e17fSsherrym cachedp->info.cui_platid == uusp->info.cui_platid) { 10522449e17fSsherrym uusp->ucodep = cachedp->ucodep; 10532449e17fSsherrym uusp->expected_rev = cachedp->expected_rev; 10542449e17fSsherrym /* 10552449e17fSsherrym * Intuitively we should check here to see whether the 10562449e17fSsherrym * running microcode rev is >= the expected rev, and 10572449e17fSsherrym * quit if it is. But we choose to proceed with the 10582449e17fSsherrym * xcall regardless of the running version so that 10592449e17fSsherrym * the other threads in an HT processor can update 10602449e17fSsherrym * the cpu_ucode_info structure in machcpu. 10612449e17fSsherrym */ 1062adc586deSMark Johnson } else if ((search_rc = ucode->extract(uusp, ucodep, size)) 1063adc586deSMark Johnson == EM_OK) { 10642449e17fSsherrym bcopy(uusp, &cached, sizeof (cached)); 10652449e17fSsherrym cachedp = &cached; 10662449e17fSsherrym found = 1; 10672449e17fSsherrym } 10682449e17fSsherrym 10692449e17fSsherrym /* Nothing to do */ 10702449e17fSsherrym if (uusp->ucodep == NULL) 10712449e17fSsherrym continue; 10722449e17fSsherrym 1073882a7af5SMark Johnson #ifdef __xpv 1074882a7af5SMark Johnson /* 1075882a7af5SMark Johnson * for i86xpv, the hypervisor will update all the CPUs. 1076882a7af5SMark Johnson * the hypervisor wants the header, data, and extended 1077882a7af5SMark Johnson * signature tables. ucode_write will just read in the 1078882a7af5SMark Johnson * updated version on all the CPUs after the update has 1079882a7af5SMark Johnson * completed. 1080882a7af5SMark Johnson */ 1081c9b5d7d2SMark Johnson if (id == 0) { 1082adc586deSMark Johnson ucode_load_xpv(uusp); 1083c9b5d7d2SMark Johnson } 1084882a7af5SMark Johnson #endif 1085882a7af5SMark Johnson 10862449e17fSsherrym CPUSET_ADD(cpuset, id); 10872449e17fSsherrym kpreempt_disable(); 10882449e17fSsherrym xc_sync((xc_arg_t)uusp, 0, 0, X_CALL_HIPRI, cpuset, 10892449e17fSsherrym ucode_write); 10902449e17fSsherrym kpreempt_enable(); 10912449e17fSsherrym CPUSET_DEL(cpuset, id); 10922449e17fSsherrym 10930ba6f73dSMark Johnson if (uusp->new_rev != 0 && uusp->info.cui_rev == uusp->new_rev) { 10940ba6f73dSMark Johnson rc = EM_HIGHERREV; 10950ba6f73dSMark Johnson } else if ((uusp->new_rev == 0) || (uusp->expected_rev != 0 && 10960ba6f73dSMark Johnson uusp->expected_rev != uusp->new_rev)) { 10972449e17fSsherrym cmn_err(CE_WARN, ucode_failure_fmt, 10982449e17fSsherrym id, uusp->info.cui_rev, uusp->expected_rev); 10992449e17fSsherrym rc = EM_UPDATE; 11000ba6f73dSMark Johnson } else { 11010ba6f73dSMark Johnson cmn_err(CE_CONT, ucode_success_fmt, 11020ba6f73dSMark Johnson id, uusp->info.cui_rev, uusp->new_rev); 11032449e17fSsherrym } 11042449e17fSsherrym } 11052449e17fSsherrym 11062449e17fSsherrym mutex_exit(&cpu_lock); 11072449e17fSsherrym 11082449e17fSsherrym if (!found) 11092449e17fSsherrym rc = search_rc; 11102449e17fSsherrym 11112449e17fSsherrym return (rc); 11122449e17fSsherrym } 11132449e17fSsherrym 11142449e17fSsherrym /* 11152449e17fSsherrym * Initialize mcpu_ucode_info, and perform microcode update if necessary. 11162449e17fSsherrym * This is the entry point from boot path where pointer to CPU structure 11172449e17fSsherrym * is available. 11182449e17fSsherrym * 11192449e17fSsherrym * cpuid_info must be initialized before ucode_check can be called. 11202449e17fSsherrym */ 11212449e17fSsherrym void 11222449e17fSsherrym ucode_check(cpu_t *cp) 11232449e17fSsherrym { 1124adc586deSMark Johnson cpu_ucode_info_t *uinfop; 11252449e17fSsherrym ucode_errno_t rc = EM_OK; 1126adc586deSMark Johnson uint32_t new_rev = 0; 11272449e17fSsherrym 11282449e17fSsherrym ASSERT(cp); 11292449e17fSsherrym if (cp->cpu_id == 0) 11302449e17fSsherrym cp->cpu_m.mcpu_ucode_info = &cpu_ucode_info0; 11312449e17fSsherrym 11322449e17fSsherrym uinfop = cp->cpu_m.mcpu_ucode_info; 11332449e17fSsherrym ASSERT(uinfop); 11342449e17fSsherrym 1135adc586deSMark Johnson /* set up function pointers if not already done */ 1136adc586deSMark Johnson if (!ucode) 1137adc586deSMark Johnson switch (cpuid_getvendor(cp)) { 1138adc586deSMark Johnson case X86_VENDOR_AMD: 1139adc586deSMark Johnson ucode = &ucode_amd; 1140adc586deSMark Johnson break; 1141adc586deSMark Johnson case X86_VENDOR_Intel: 1142adc586deSMark Johnson ucode = &ucode_intel; 1143adc586deSMark Johnson break; 1144adc586deSMark Johnson default: 1145adc586deSMark Johnson return; 1146adc586deSMark Johnson } 1147adc586deSMark Johnson 1148adc586deSMark Johnson if (!ucode->capable(cp)) 11492449e17fSsherrym return; 11502449e17fSsherrym 11512449e17fSsherrym /* 11522449e17fSsherrym * The MSR_INTC_PLATFORM_ID is supported in Celeron and Xeon 11532449e17fSsherrym * (Family 6, model 5 and above) and all processors after. 11542449e17fSsherrym */ 1155adc586deSMark Johnson if ((cpuid_getvendor(cp) == X86_VENDOR_Intel) && 1156adc586deSMark Johnson ((cpuid_getmodel(cp) >= 5) || (cpuid_getfamily(cp) > 6))) { 11572449e17fSsherrym uinfop->cui_platid = 1 << ((rdmsr(MSR_INTC_PLATFORM_ID) >> 11582449e17fSsherrym INTC_PLATFORM_ID_SHIFT) & INTC_PLATFORM_ID_MASK); 11592449e17fSsherrym } 11602449e17fSsherrym 1161adc586deSMark Johnson ucode->read_rev(uinfop); 11622449e17fSsherrym 1163c9b5d7d2SMark Johnson #ifdef __xpv 1164c9b5d7d2SMark Johnson /* 1165c9b5d7d2SMark Johnson * for i86xpv, the hypervisor will update all the CPUs. We only need 1166c9b5d7d2SMark Johnson * do do this on one of the CPUs (and there always is a CPU 0). 1167c9b5d7d2SMark Johnson */ 1168c9b5d7d2SMark Johnson if (cp->cpu_id != 0) { 1169c9b5d7d2SMark Johnson return; 1170c9b5d7d2SMark Johnson } 1171c9b5d7d2SMark Johnson #endif 1172c9b5d7d2SMark Johnson 11732449e17fSsherrym /* 11742449e17fSsherrym * Check to see if we need ucode update 11752449e17fSsherrym */ 1176adc586deSMark Johnson if ((rc = ucode->locate(cp, uinfop, &ucodefile)) == EM_OK) { 1177adc586deSMark Johnson new_rev = ucode->load(&ucodefile, uinfop, cp); 1178882a7af5SMark Johnson 1179adc586deSMark Johnson if (uinfop->cui_rev != new_rev) 11802449e17fSsherrym cmn_err(CE_WARN, ucode_failure_fmt, cp->cpu_id, 1181adc586deSMark Johnson uinfop->cui_rev, new_rev); 11822449e17fSsherrym } 11832449e17fSsherrym 11842449e17fSsherrym /* 11852449e17fSsherrym * If we fail to find a match for any reason, free the file structure 11862449e17fSsherrym * just in case we have read in a partial file. 11872449e17fSsherrym * 11882449e17fSsherrym * Since the scratch memory for holding the microcode for the boot CPU 11892449e17fSsherrym * came from BOP_ALLOC, we will reset the data structure as if we 11902449e17fSsherrym * never did the allocation so we don't have to keep track of this 11912449e17fSsherrym * special chunk of memory. We free the memory used for the rest 11922449e17fSsherrym * of the CPUs in start_other_cpus(). 11932449e17fSsherrym */ 11942449e17fSsherrym if (rc != EM_OK || cp->cpu_id == 0) 1195adc586deSMark Johnson ucode->file_reset(&ucodefile, cp->cpu_id); 11962449e17fSsherrym } 11972449e17fSsherrym 11982449e17fSsherrym /* 11992449e17fSsherrym * Returns microcode revision from the machcpu structure. 12002449e17fSsherrym */ 12012449e17fSsherrym ucode_errno_t 12022449e17fSsherrym ucode_get_rev(uint32_t *revp) 12032449e17fSsherrym { 12042449e17fSsherrym int i; 12052449e17fSsherrym 1206adc586deSMark Johnson ASSERT(ucode); 12072449e17fSsherrym ASSERT(revp); 12082449e17fSsherrym 1209adc586deSMark Johnson if (!ucode->capable(CPU)) 12102449e17fSsherrym return (EM_NOTSUP); 12112449e17fSsherrym 12122449e17fSsherrym mutex_enter(&cpu_lock); 12132449e17fSsherrym for (i = 0; i < max_ncpus; i++) { 12142449e17fSsherrym cpu_t *cpu; 12152449e17fSsherrym 12162449e17fSsherrym if ((cpu = cpu_get(i)) == NULL) 12172449e17fSsherrym continue; 12182449e17fSsherrym 12192449e17fSsherrym revp[i] = cpu->cpu_m.mcpu_ucode_info->cui_rev; 12202449e17fSsherrym } 12212449e17fSsherrym mutex_exit(&cpu_lock); 12222449e17fSsherrym 12232449e17fSsherrym return (EM_OK); 12242449e17fSsherrym } 1225