17aec1d6eScindi /* 23ad553a7Sgavinm * CDDL HEADER START 33ad553a7Sgavinm * 43ad553a7Sgavinm * The contents of this file are subject to the terms of the 53ad553a7Sgavinm * Common Development and Distribution License (the "License"). 63ad553a7Sgavinm * You may not use this file except in compliance with the License. 73ad553a7Sgavinm * 83ad553a7Sgavinm * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 93ad553a7Sgavinm * or http://www.opensolaris.org/os/licensing. 103ad553a7Sgavinm * See the License for the specific language governing permissions 113ad553a7Sgavinm * and limitations under the License. 123ad553a7Sgavinm * 133ad553a7Sgavinm * When distributing Covered Code, include this CDDL HEADER in each 143ad553a7Sgavinm * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 153ad553a7Sgavinm * If applicable, add the following below this CDDL HEADER, with the 163ad553a7Sgavinm * fields enclosed by brackets "[]" replaced with your own identifying 173ad553a7Sgavinm * information: Portions Copyright [yyyy] [name of copyright owner] 183ad553a7Sgavinm * 193ad553a7Sgavinm * CDDL HEADER END 203ad553a7Sgavinm */ 213ad553a7Sgavinm 223ad553a7Sgavinm /* 23*074bb90dSTom Pothier * Copyright 2009 Sun Microsystems, Inc. All rights reserved. 247aec1d6eScindi * Use is subject to license terms. 257aec1d6eScindi */ 267aec1d6eScindi 277aec1d6eScindi /* 287aec1d6eScindi * Public interface to routines implemented by CPU modules 297aec1d6eScindi */ 307aec1d6eScindi 3120c794b3Sgavinm #include <sys/types.h> 3220c794b3Sgavinm #include <sys/atomic.h> 337aec1d6eScindi #include <sys/x86_archext.h> 347aec1d6eScindi #include <sys/cpu_module_impl.h> 3520c794b3Sgavinm #include <sys/cpu_module_ms.h> 367aec1d6eScindi #include <sys/fm/util.h> 377aec1d6eScindi #include <sys/reboot.h> 387aec1d6eScindi #include <sys/modctl.h> 397aec1d6eScindi #include <sys/param.h> 407aec1d6eScindi #include <sys/cmn_err.h> 417aec1d6eScindi #include <sys/systm.h> 4220c794b3Sgavinm #include <sys/fm/protocol.h> 4320c794b3Sgavinm #include <sys/pcb.h> 4420c794b3Sgavinm #include <sys/ontrap.h> 4520c794b3Sgavinm #include <sys/psw.h> 4620c794b3Sgavinm #include <sys/privregs.h> 47e4b86885SCheng Sean Ye #include <sys/machsystm.h> 487aec1d6eScindi 4920c794b3Sgavinm /* 5020c794b3Sgavinm * Set to force cmi_init to fail. 5120c794b3Sgavinm */ 5220c794b3Sgavinm int cmi_no_init = 0; 537aec1d6eScindi 5420c794b3Sgavinm /* 5520c794b3Sgavinm * Set to avoid MCA initialization. 5620c794b3Sgavinm */ 5720c794b3Sgavinm int cmi_no_mca_init = 0; 587aec1d6eScindi 597aec1d6eScindi /* 608a40a695Sgavinm * If cleared for debugging we will not attempt to load a model-specific 618a40a695Sgavinm * cpu module but will load the generic cpu module instead. 628a40a695Sgavinm */ 638a40a695Sgavinm int cmi_force_generic = 0; 648a40a695Sgavinm 658a40a695Sgavinm /* 667aec1d6eScindi * If cleared for debugging, we will suppress panicking on fatal hardware 677aec1d6eScindi * errors. This should *only* be used for debugging; it use can and will 687aec1d6eScindi * cause data corruption if actual hardware errors are detected by the system. 697aec1d6eScindi */ 707aec1d6eScindi int cmi_panic_on_uncorrectable_error = 1; 717aec1d6eScindi 72e4b86885SCheng Sean Ye #ifndef __xpv 7320c794b3Sgavinm /* 74e3d60c9bSAdrian Frost * Set to indicate whether we are able to enable cmci interrupt. 75e3d60c9bSAdrian Frost */ 76e3d60c9bSAdrian Frost int cmi_enable_cmci = 0; 77e4b86885SCheng Sean Ye #endif 78e3d60c9bSAdrian Frost 79e3d60c9bSAdrian Frost /* 8020c794b3Sgavinm * Subdirectory (relative to the module search path) in which we will 8120c794b3Sgavinm * look for cpu modules. 8220c794b3Sgavinm */ 8320c794b3Sgavinm #define CPUMOD_SUBDIR "cpu" 8420c794b3Sgavinm 8520c794b3Sgavinm /* 8620c794b3Sgavinm * CPU modules have a filenames such as "cpu.AuthenticAMD.15" and 8720c794b3Sgavinm * "cpu.generic" - the "cpu" prefix is specified by the following. 8820c794b3Sgavinm */ 8920c794b3Sgavinm #define CPUMOD_PREFIX "cpu" 9020c794b3Sgavinm 9120c794b3Sgavinm /* 9220c794b3Sgavinm * Structure used to keep track of cpu modules we have loaded and their ops 9320c794b3Sgavinm */ 9420c794b3Sgavinm typedef struct cmi { 9520c794b3Sgavinm struct cmi *cmi_next; 9620c794b3Sgavinm struct cmi *cmi_prev; 9720c794b3Sgavinm const cmi_ops_t *cmi_ops; 9820c794b3Sgavinm struct modctl *cmi_modp; 9920c794b3Sgavinm uint_t cmi_refcnt; 10020c794b3Sgavinm } cmi_t; 10120c794b3Sgavinm 1027aec1d6eScindi static cmi_t *cmi_list; 1037aec1d6eScindi static kmutex_t cmi_load_lock; 1047aec1d6eScindi 10520c794b3Sgavinm /* 10620c794b3Sgavinm * Functions we need from cmi_hw.c that are not part of the cpu_module.h 10720c794b3Sgavinm * interface. 10820c794b3Sgavinm */ 109e4b86885SCheng Sean Ye extern cmi_hdl_t cmi_hdl_create(enum cmi_hdl_class, uint_t, uint_t, uint_t); 11020c794b3Sgavinm extern void cmi_hdl_setcmi(cmi_hdl_t, void *, void *); 11120c794b3Sgavinm extern void *cmi_hdl_getcmi(cmi_hdl_t); 11220c794b3Sgavinm extern void cmi_hdl_setmc(cmi_hdl_t, const struct cmi_mc_ops *, void *); 113e4b86885SCheng Sean Ye extern void cmi_hdl_inj_begin(cmi_hdl_t); 114e4b86885SCheng Sean Ye extern void cmi_hdl_inj_end(cmi_hdl_t); 115*074bb90dSTom Pothier extern void cmi_read_smbios(cmi_hdl_t); 11620c794b3Sgavinm 11720c794b3Sgavinm #define HDL2CMI(hdl) cmi_hdl_getcmi(hdl) 11820c794b3Sgavinm 11920c794b3Sgavinm #define CMI_OPS(cmi) (cmi)->cmi_ops 12020c794b3Sgavinm #define CMI_OP_PRESENT(cmi, op) ((cmi) && CMI_OPS(cmi)->op != NULL) 12120c794b3Sgavinm 12220c794b3Sgavinm #define CMI_MATCH_VENDOR 0 /* Just match on vendor */ 12320c794b3Sgavinm #define CMI_MATCH_FAMILY 1 /* Match down to family */ 12420c794b3Sgavinm #define CMI_MATCH_MODEL 2 /* Match down to model */ 12520c794b3Sgavinm #define CMI_MATCH_STEPPING 3 /* Match down to stepping */ 12620c794b3Sgavinm 12720c794b3Sgavinm static void 12820c794b3Sgavinm cmi_link(cmi_t *cmi) 1297aec1d6eScindi { 13020c794b3Sgavinm ASSERT(MUTEX_HELD(&cmi_load_lock)); 13120c794b3Sgavinm 13220c794b3Sgavinm cmi->cmi_prev = NULL; 13320c794b3Sgavinm cmi->cmi_next = cmi_list; 13420c794b3Sgavinm if (cmi_list != NULL) 13520c794b3Sgavinm cmi_list->cmi_prev = cmi; 13620c794b3Sgavinm cmi_list = cmi; 13720c794b3Sgavinm } 13820c794b3Sgavinm 13920c794b3Sgavinm static void 14020c794b3Sgavinm cmi_unlink(cmi_t *cmi) 14120c794b3Sgavinm { 14220c794b3Sgavinm ASSERT(MUTEX_HELD(&cmi_load_lock)); 14320c794b3Sgavinm ASSERT(cmi->cmi_refcnt == 0); 14420c794b3Sgavinm 14520c794b3Sgavinm if (cmi->cmi_prev != NULL) 14620c794b3Sgavinm cmi->cmi_prev = cmi->cmi_next; 14720c794b3Sgavinm 14820c794b3Sgavinm if (cmi->cmi_next != NULL) 14920c794b3Sgavinm cmi->cmi_next->cmi_prev = cmi->cmi_prev; 15020c794b3Sgavinm 15120c794b3Sgavinm if (cmi_list == cmi) 15220c794b3Sgavinm cmi_list = cmi->cmi_next; 15320c794b3Sgavinm } 15420c794b3Sgavinm 15520c794b3Sgavinm /* 15620c794b3Sgavinm * Hold the module in memory. We call to CPU modules without using the 15720c794b3Sgavinm * stubs mechanism, so these modules must be manually held in memory. 15820c794b3Sgavinm * The mod_ref acts as if another loaded module has a dependency on us. 15920c794b3Sgavinm */ 16020c794b3Sgavinm static void 16120c794b3Sgavinm cmi_hold(cmi_t *cmi) 16220c794b3Sgavinm { 16320c794b3Sgavinm ASSERT(MUTEX_HELD(&cmi_load_lock)); 16420c794b3Sgavinm 16520c794b3Sgavinm mutex_enter(&mod_lock); 16620c794b3Sgavinm cmi->cmi_modp->mod_ref++; 16720c794b3Sgavinm mutex_exit(&mod_lock); 16820c794b3Sgavinm cmi->cmi_refcnt++; 16920c794b3Sgavinm } 17020c794b3Sgavinm 17120c794b3Sgavinm static void 17220c794b3Sgavinm cmi_rele(cmi_t *cmi) 17320c794b3Sgavinm { 17420c794b3Sgavinm ASSERT(MUTEX_HELD(&cmi_load_lock)); 17520c794b3Sgavinm 17620c794b3Sgavinm mutex_enter(&mod_lock); 17720c794b3Sgavinm cmi->cmi_modp->mod_ref--; 17820c794b3Sgavinm mutex_exit(&mod_lock); 17920c794b3Sgavinm 18020c794b3Sgavinm if (--cmi->cmi_refcnt == 0) { 18120c794b3Sgavinm cmi_unlink(cmi); 18220c794b3Sgavinm kmem_free(cmi, sizeof (cmi_t)); 18320c794b3Sgavinm } 18420c794b3Sgavinm } 18520c794b3Sgavinm 18620c794b3Sgavinm static cmi_ops_t * 18720c794b3Sgavinm cmi_getops(modctl_t *modp) 18820c794b3Sgavinm { 18920c794b3Sgavinm cmi_ops_t *ops; 19020c794b3Sgavinm 19120c794b3Sgavinm if ((ops = (cmi_ops_t *)modlookup_by_modctl(modp, "_cmi_ops")) == 19220c794b3Sgavinm NULL) { 19320c794b3Sgavinm cmn_err(CE_WARN, "cpu module '%s' is invalid: no _cmi_ops " 19420c794b3Sgavinm "found", modp->mod_modname); 19520c794b3Sgavinm return (NULL); 19620c794b3Sgavinm } 19720c794b3Sgavinm 19820c794b3Sgavinm if (ops->cmi_init == NULL) { 19920c794b3Sgavinm cmn_err(CE_WARN, "cpu module '%s' is invalid: no cmi_init " 20020c794b3Sgavinm "entry point", modp->mod_modname); 20120c794b3Sgavinm return (NULL); 20220c794b3Sgavinm } 20320c794b3Sgavinm 20420c794b3Sgavinm return (ops); 2057aec1d6eScindi } 2067aec1d6eScindi 2077aec1d6eScindi static cmi_t * 2087aec1d6eScindi cmi_load_modctl(modctl_t *modp) 2097aec1d6eScindi { 21020c794b3Sgavinm cmi_ops_t *ops; 21120c794b3Sgavinm uintptr_t ver; 2127aec1d6eScindi cmi_t *cmi; 21320c794b3Sgavinm cmi_api_ver_t apiver; 2147aec1d6eScindi 2157aec1d6eScindi ASSERT(MUTEX_HELD(&cmi_load_lock)); 2167aec1d6eScindi 2177aec1d6eScindi for (cmi = cmi_list; cmi != NULL; cmi = cmi->cmi_next) { 2187aec1d6eScindi if (cmi->cmi_modp == modp) 2197aec1d6eScindi return (cmi); 2207aec1d6eScindi } 2217aec1d6eScindi 22220c794b3Sgavinm if ((ver = modlookup_by_modctl(modp, "_cmi_api_version")) == NULL) { 22320c794b3Sgavinm /* 22420c794b3Sgavinm * Apparently a cpu module before versioning was introduced - 22520c794b3Sgavinm * we call this version 0. 22620c794b3Sgavinm */ 22720c794b3Sgavinm apiver = CMI_API_VERSION_0; 22820c794b3Sgavinm } else { 22920c794b3Sgavinm apiver = *((cmi_api_ver_t *)ver); 23020c794b3Sgavinm if (!CMI_API_VERSION_CHKMAGIC(apiver)) { 23120c794b3Sgavinm cmn_err(CE_WARN, "cpu module '%s' is invalid: " 23220c794b3Sgavinm "_cmi_api_version 0x%x has bad magic", 23320c794b3Sgavinm modp->mod_modname, apiver); 23420c794b3Sgavinm return (NULL); 23520c794b3Sgavinm } 23620c794b3Sgavinm } 23720c794b3Sgavinm 23820c794b3Sgavinm if (apiver != CMI_API_VERSION) { 23920c794b3Sgavinm cmn_err(CE_WARN, "cpu module '%s' has API version %d, " 24020c794b3Sgavinm "kernel requires API version %d", modp->mod_modname, 24120c794b3Sgavinm CMI_API_VERSION_TOPRINT(apiver), 24220c794b3Sgavinm CMI_API_VERSION_TOPRINT(CMI_API_VERSION)); 2437aec1d6eScindi return (NULL); 2447aec1d6eScindi } 2457aec1d6eScindi 24620c794b3Sgavinm if ((ops = cmi_getops(modp)) == NULL) 24720c794b3Sgavinm return (NULL); 2487aec1d6eScindi 24920c794b3Sgavinm cmi = kmem_zalloc(sizeof (*cmi), KM_SLEEP); 25020c794b3Sgavinm cmi->cmi_ops = ops; 2517aec1d6eScindi cmi->cmi_modp = modp; 2527aec1d6eScindi 25320c794b3Sgavinm cmi_link(cmi); 25420c794b3Sgavinm 25520c794b3Sgavinm return (cmi); 25620c794b3Sgavinm } 25720c794b3Sgavinm 25820c794b3Sgavinm static int 25920c794b3Sgavinm cmi_cpu_match(cmi_hdl_t hdl1, cmi_hdl_t hdl2, int match) 26020c794b3Sgavinm { 26120c794b3Sgavinm if (match >= CMI_MATCH_VENDOR && 26220c794b3Sgavinm cmi_hdl_vendor(hdl1) != cmi_hdl_vendor(hdl2)) 26320c794b3Sgavinm return (0); 26420c794b3Sgavinm 26520c794b3Sgavinm if (match >= CMI_MATCH_FAMILY && 26620c794b3Sgavinm cmi_hdl_family(hdl1) != cmi_hdl_family(hdl2)) 26720c794b3Sgavinm return (0); 26820c794b3Sgavinm 26920c794b3Sgavinm if (match >= CMI_MATCH_MODEL && 27020c794b3Sgavinm cmi_hdl_model(hdl1) != cmi_hdl_model(hdl2)) 27120c794b3Sgavinm return (0); 27220c794b3Sgavinm 27320c794b3Sgavinm if (match >= CMI_MATCH_STEPPING && 27420c794b3Sgavinm cmi_hdl_stepping(hdl1) != cmi_hdl_stepping(hdl2)) 27520c794b3Sgavinm return (0); 27620c794b3Sgavinm 27720c794b3Sgavinm return (1); 27820c794b3Sgavinm } 27920c794b3Sgavinm 28020c794b3Sgavinm static int 28120c794b3Sgavinm cmi_search_list_cb(cmi_hdl_t whdl, void *arg1, void *arg2, void *arg3) 28220c794b3Sgavinm { 28320c794b3Sgavinm cmi_hdl_t thdl = (cmi_hdl_t)arg1; 28420c794b3Sgavinm int match = *((int *)arg2); 28520c794b3Sgavinm cmi_hdl_t *rsltp = (cmi_hdl_t *)arg3; 28620c794b3Sgavinm 28720c794b3Sgavinm if (cmi_cpu_match(thdl, whdl, match)) { 28820c794b3Sgavinm cmi_hdl_hold(whdl); /* short-term hold */ 28920c794b3Sgavinm *rsltp = whdl; 29020c794b3Sgavinm return (CMI_HDL_WALK_DONE); 29120c794b3Sgavinm } else { 29220c794b3Sgavinm return (CMI_HDL_WALK_NEXT); 29320c794b3Sgavinm } 29420c794b3Sgavinm } 29520c794b3Sgavinm 29620c794b3Sgavinm static cmi_t * 29720c794b3Sgavinm cmi_search_list(cmi_hdl_t hdl, int match) 29820c794b3Sgavinm { 29920c794b3Sgavinm cmi_hdl_t dhdl = NULL; 30020c794b3Sgavinm cmi_t *cmi = NULL; 30120c794b3Sgavinm 30220c794b3Sgavinm ASSERT(MUTEX_HELD(&cmi_load_lock)); 30320c794b3Sgavinm 30420c794b3Sgavinm cmi_hdl_walk(cmi_search_list_cb, (void *)hdl, (void *)&match, &dhdl); 30520c794b3Sgavinm if (dhdl) { 30620c794b3Sgavinm cmi = HDL2CMI(dhdl); 30720c794b3Sgavinm cmi_hdl_rele(dhdl); /* held in cmi_search_list_cb */ 30820c794b3Sgavinm } 3097aec1d6eScindi 3107aec1d6eScindi return (cmi); 3117aec1d6eScindi } 3127aec1d6eScindi 3137aec1d6eScindi static cmi_t * 31420c794b3Sgavinm cmi_load_module(cmi_hdl_t hdl, int match, int *chosenp) 3157aec1d6eScindi { 3167aec1d6eScindi modctl_t *modp; 3177aec1d6eScindi cmi_t *cmi; 31820c794b3Sgavinm int modid; 3197aec1d6eScindi uint_t s[3]; 3207aec1d6eScindi 3217aec1d6eScindi ASSERT(MUTEX_HELD(&cmi_load_lock)); 32220c794b3Sgavinm ASSERT(match == CMI_MATCH_STEPPING || match == CMI_MATCH_MODEL || 32320c794b3Sgavinm match == CMI_MATCH_FAMILY || match == CMI_MATCH_VENDOR); 3247aec1d6eScindi 3257aec1d6eScindi /* 32620c794b3Sgavinm * Have we already loaded a module for a cpu with the same 32720c794b3Sgavinm * vendor/family/model/stepping? 3287aec1d6eScindi */ 32920c794b3Sgavinm if ((cmi = cmi_search_list(hdl, match)) != NULL) { 33020c794b3Sgavinm cmi_hold(cmi); 33120c794b3Sgavinm return (cmi); 33220c794b3Sgavinm } 3337aec1d6eScindi 33420c794b3Sgavinm s[0] = cmi_hdl_family(hdl); 33520c794b3Sgavinm s[1] = cmi_hdl_model(hdl); 33620c794b3Sgavinm s[2] = cmi_hdl_stepping(hdl); 3377aec1d6eScindi modid = modload_qualified(CPUMOD_SUBDIR, CPUMOD_PREFIX, 33820c794b3Sgavinm cmi_hdl_vendorstr(hdl), ".", s, match, chosenp); 3397aec1d6eScindi 3407aec1d6eScindi if (modid == -1) 3417aec1d6eScindi return (NULL); 3427aec1d6eScindi 3437aec1d6eScindi modp = mod_hold_by_id(modid); 3447aec1d6eScindi cmi = cmi_load_modctl(modp); 34520c794b3Sgavinm if (cmi) 34620c794b3Sgavinm cmi_hold(cmi); 3477aec1d6eScindi mod_release_mod(modp); 3487aec1d6eScindi 3497aec1d6eScindi return (cmi); 3507aec1d6eScindi } 3517aec1d6eScindi 35220c794b3Sgavinm /* 35320c794b3Sgavinm * Try to load a cpu module with specific support for this chip type. 35420c794b3Sgavinm */ 3557aec1d6eScindi static cmi_t * 35620c794b3Sgavinm cmi_load_specific(cmi_hdl_t hdl, void **datap) 35720c794b3Sgavinm { 35820c794b3Sgavinm cmi_t *cmi; 35920c794b3Sgavinm int err; 36020c794b3Sgavinm int i; 36120c794b3Sgavinm 36220c794b3Sgavinm ASSERT(MUTEX_HELD(&cmi_load_lock)); 36320c794b3Sgavinm 36420c794b3Sgavinm for (i = CMI_MATCH_STEPPING; i >= CMI_MATCH_VENDOR; i--) { 36520c794b3Sgavinm int suffixlevel; 36620c794b3Sgavinm 36720c794b3Sgavinm if ((cmi = cmi_load_module(hdl, i, &suffixlevel)) == NULL) 36820c794b3Sgavinm return (NULL); 36920c794b3Sgavinm 37020c794b3Sgavinm /* 37120c794b3Sgavinm * A module has loaded and has a _cmi_ops structure, and the 37220c794b3Sgavinm * module has been held for this instance. Call its cmi_init 37320c794b3Sgavinm * entry point - we expect success (0) or ENOTSUP. 37420c794b3Sgavinm */ 37520c794b3Sgavinm if ((err = cmi->cmi_ops->cmi_init(hdl, datap)) == 0) { 37620c794b3Sgavinm if (boothowto & RB_VERBOSE) { 37720c794b3Sgavinm printf("initialized cpu module '%s' on " 37820c794b3Sgavinm "chip %d core %d strand %d\n", 37920c794b3Sgavinm cmi->cmi_modp->mod_modname, 38020c794b3Sgavinm cmi_hdl_chipid(hdl), cmi_hdl_coreid(hdl), 38120c794b3Sgavinm cmi_hdl_strandid(hdl)); 38220c794b3Sgavinm } 38320c794b3Sgavinm return (cmi); 38420c794b3Sgavinm } else if (err != ENOTSUP) { 38520c794b3Sgavinm cmn_err(CE_WARN, "failed to init cpu module '%s' on " 38620c794b3Sgavinm "chip %d core %d strand %d: err=%d\n", 38720c794b3Sgavinm cmi->cmi_modp->mod_modname, 38820c794b3Sgavinm cmi_hdl_chipid(hdl), cmi_hdl_coreid(hdl), 38920c794b3Sgavinm cmi_hdl_strandid(hdl), err); 39020c794b3Sgavinm } 39120c794b3Sgavinm 39220c794b3Sgavinm /* 39320c794b3Sgavinm * The module failed or declined to init, so release 39420c794b3Sgavinm * it and update i to be equal to the number 39520c794b3Sgavinm * of suffices actually used in the last module path. 39620c794b3Sgavinm */ 39720c794b3Sgavinm cmi_rele(cmi); 39820c794b3Sgavinm i = suffixlevel; 39920c794b3Sgavinm } 40020c794b3Sgavinm 40120c794b3Sgavinm return (NULL); 40220c794b3Sgavinm } 40320c794b3Sgavinm 40420c794b3Sgavinm /* 40520c794b3Sgavinm * Load the generic IA32 MCA cpu module, which may still supplement 40620c794b3Sgavinm * itself with model-specific support through cpu model-specific modules. 40720c794b3Sgavinm */ 40820c794b3Sgavinm static cmi_t * 40920c794b3Sgavinm cmi_load_generic(cmi_hdl_t hdl, void **datap) 4107aec1d6eScindi { 4117aec1d6eScindi modctl_t *modp; 4127aec1d6eScindi cmi_t *cmi; 4137aec1d6eScindi int modid; 41420c794b3Sgavinm int err; 41520c794b3Sgavinm 41620c794b3Sgavinm ASSERT(MUTEX_HELD(&cmi_load_lock)); 4177aec1d6eScindi 4187aec1d6eScindi if ((modid = modload(CPUMOD_SUBDIR, CPUMOD_PREFIX ".generic")) == -1) 4197aec1d6eScindi return (NULL); 4207aec1d6eScindi 4217aec1d6eScindi modp = mod_hold_by_id(modid); 4227aec1d6eScindi cmi = cmi_load_modctl(modp); 42320c794b3Sgavinm if (cmi) 42420c794b3Sgavinm cmi_hold(cmi); 4257aec1d6eScindi mod_release_mod(modp); 4267aec1d6eScindi 42720c794b3Sgavinm if (cmi == NULL) 42820c794b3Sgavinm return (NULL); 42920c794b3Sgavinm 43020c794b3Sgavinm if ((err = cmi->cmi_ops->cmi_init(hdl, datap)) != 0) { 43120c794b3Sgavinm if (err != ENOTSUP) 43220c794b3Sgavinm cmn_err(CE_WARN, CPUMOD_PREFIX ".generic failed to " 43320c794b3Sgavinm "init: err=%d", err); 43420c794b3Sgavinm cmi_rele(cmi); 43520c794b3Sgavinm return (NULL); 43620c794b3Sgavinm } 43720c794b3Sgavinm 4387aec1d6eScindi return (cmi); 4397aec1d6eScindi } 4407aec1d6eScindi 44120c794b3Sgavinm cmi_hdl_t 44220c794b3Sgavinm cmi_init(enum cmi_hdl_class class, uint_t chipid, uint_t coreid, 443e4b86885SCheng Sean Ye uint_t strandid) 4447aec1d6eScindi { 44520c794b3Sgavinm cmi_t *cmi = NULL; 44620c794b3Sgavinm cmi_hdl_t hdl; 4477aec1d6eScindi void *data; 4487aec1d6eScindi 44920c794b3Sgavinm if (cmi_no_init) { 45020c794b3Sgavinm cmi_no_mca_init = 1; 45120c794b3Sgavinm return (NULL); 45220c794b3Sgavinm } 45320c794b3Sgavinm 4547aec1d6eScindi mutex_enter(&cmi_load_lock); 4557aec1d6eScindi 456e4b86885SCheng Sean Ye if ((hdl = cmi_hdl_create(class, chipid, coreid, strandid)) == NULL) { 4577aec1d6eScindi mutex_exit(&cmi_load_lock); 45820c794b3Sgavinm cmn_err(CE_WARN, "There will be no MCA support on chip %d " 45920c794b3Sgavinm "core %d strand %d (cmi_hdl_create returned NULL)\n", 46020c794b3Sgavinm chipid, coreid, strandid); 46120c794b3Sgavinm return (NULL); 4627aec1d6eScindi } 4637aec1d6eScindi 46420c794b3Sgavinm if (!cmi_force_generic) 46520c794b3Sgavinm cmi = cmi_load_specific(hdl, &data); 46620c794b3Sgavinm 46720c794b3Sgavinm if (cmi == NULL && (cmi = cmi_load_generic(hdl, &data)) == NULL) { 46820c794b3Sgavinm cmn_err(CE_WARN, "There will be no MCA support on chip %d " 46920c794b3Sgavinm "core %d strand %d\n", chipid, coreid, strandid); 47020c794b3Sgavinm cmi_hdl_rele(hdl); 4717aec1d6eScindi mutex_exit(&cmi_load_lock); 47220c794b3Sgavinm return (NULL); 4737aec1d6eScindi } 4747aec1d6eScindi 47520c794b3Sgavinm cmi_hdl_setcmi(hdl, cmi, data); 4767aec1d6eScindi 47720c794b3Sgavinm cms_init(hdl); 47820c794b3Sgavinm 479*074bb90dSTom Pothier cmi_read_smbios(hdl); 480*074bb90dSTom Pothier 4817aec1d6eScindi mutex_exit(&cmi_load_lock); 4827aec1d6eScindi 48320c794b3Sgavinm return (hdl); 4847aec1d6eScindi } 4857aec1d6eScindi 48620c794b3Sgavinm /* 48720c794b3Sgavinm * cmi_fini is not called at the moment. It is intended to be called 48820c794b3Sgavinm * on DR deconfigure of a cpu resource. It should not be called at 48920c794b3Sgavinm * simple offline of a cpu. 49020c794b3Sgavinm */ 4917aec1d6eScindi void 49220c794b3Sgavinm cmi_fini(cmi_hdl_t hdl) 4937aec1d6eScindi { 49420c794b3Sgavinm cmi_t *cmi = HDL2CMI(hdl); 49520c794b3Sgavinm 49620c794b3Sgavinm if (cms_present(hdl)) 49720c794b3Sgavinm cms_fini(hdl); 49820c794b3Sgavinm 49920c794b3Sgavinm if (CMI_OP_PRESENT(cmi, cmi_fini)) 50020c794b3Sgavinm CMI_OPS(cmi)->cmi_fini(hdl); 50120c794b3Sgavinm 50220c794b3Sgavinm cmi_hdl_rele(hdl); /* release hold obtained in cmi_hdl_create */ 5037aec1d6eScindi } 5047aec1d6eScindi 50520c794b3Sgavinm /* 506e4b86885SCheng Sean Ye * cmi_post_startup is called from post_startup for the boot cpu only (no 507e4b86885SCheng Sean Ye * other cpus are started yet). 50820c794b3Sgavinm */ 5097aec1d6eScindi void 51020c794b3Sgavinm cmi_post_startup(void) 5117aec1d6eScindi { 51220c794b3Sgavinm cmi_hdl_t hdl; 51320c794b3Sgavinm cmi_t *cmi; 51420c794b3Sgavinm 51520c794b3Sgavinm if (cmi_no_mca_init != 0 || 51620c794b3Sgavinm (hdl = cmi_hdl_any()) == NULL) /* short-term hold */ 51720c794b3Sgavinm return; 51820c794b3Sgavinm 51920c794b3Sgavinm cmi = HDL2CMI(hdl); 52020c794b3Sgavinm 52120c794b3Sgavinm if (CMI_OP_PRESENT(cmi, cmi_post_startup)) 52220c794b3Sgavinm CMI_OPS(cmi)->cmi_post_startup(hdl); 52320c794b3Sgavinm 52420c794b3Sgavinm cmi_hdl_rele(hdl); 5257aec1d6eScindi } 5267aec1d6eScindi 5278a40a695Sgavinm /* 5288a40a695Sgavinm * Called just once from start_other_cpus when all processors are started. 5298a40a695Sgavinm * This will not be called for each cpu, so the registered op must not 530e4b86885SCheng Sean Ye * assume it is called as such. We are not necessarily executing on 531e4b86885SCheng Sean Ye * the boot cpu. 5328a40a695Sgavinm */ 5337aec1d6eScindi void 5343ad553a7Sgavinm cmi_post_mpstartup(void) 5353ad553a7Sgavinm { 53620c794b3Sgavinm cmi_hdl_t hdl; 53720c794b3Sgavinm cmi_t *cmi; 53820c794b3Sgavinm 53920c794b3Sgavinm if (cmi_no_mca_init != 0 || 54020c794b3Sgavinm (hdl = cmi_hdl_any()) == NULL) /* short-term hold */ 54120c794b3Sgavinm return; 54220c794b3Sgavinm 54320c794b3Sgavinm cmi = HDL2CMI(hdl); 54420c794b3Sgavinm 54520c794b3Sgavinm if (CMI_OP_PRESENT(cmi, cmi_post_mpstartup)) 54620c794b3Sgavinm CMI_OPS(cmi)->cmi_post_mpstartup(hdl); 54720c794b3Sgavinm 54820c794b3Sgavinm cmi_hdl_rele(hdl); 5493ad553a7Sgavinm } 5503ad553a7Sgavinm 5513ad553a7Sgavinm void 55220c794b3Sgavinm cmi_faulted_enter(cmi_hdl_t hdl) 5537aec1d6eScindi { 55420c794b3Sgavinm cmi_t *cmi = HDL2CMI(hdl); 55520c794b3Sgavinm 55620c794b3Sgavinm if (cmi_no_mca_init != 0) 55720c794b3Sgavinm return; 55820c794b3Sgavinm 55920c794b3Sgavinm if (CMI_OP_PRESENT(cmi, cmi_faulted_enter)) 56020c794b3Sgavinm CMI_OPS(cmi)->cmi_faulted_enter(hdl); 5617aec1d6eScindi } 5627aec1d6eScindi 5637aec1d6eScindi void 56420c794b3Sgavinm cmi_faulted_exit(cmi_hdl_t hdl) 5657aec1d6eScindi { 56620c794b3Sgavinm cmi_t *cmi = HDL2CMI(hdl); 56720c794b3Sgavinm 56820c794b3Sgavinm if (cmi_no_mca_init != 0) 56920c794b3Sgavinm return; 57020c794b3Sgavinm 57120c794b3Sgavinm if (CMI_OP_PRESENT(cmi, cmi_faulted_exit)) 57220c794b3Sgavinm CMI_OPS(cmi)->cmi_faulted_exit(hdl); 5737aec1d6eScindi } 5747aec1d6eScindi 57520c794b3Sgavinm void 57620c794b3Sgavinm cmi_mca_init(cmi_hdl_t hdl) 57720c794b3Sgavinm { 57820c794b3Sgavinm cmi_t *cmi; 57920c794b3Sgavinm 58020c794b3Sgavinm if (cmi_no_mca_init != 0) 58120c794b3Sgavinm return; 58220c794b3Sgavinm 58320c794b3Sgavinm cmi = HDL2CMI(hdl); 58420c794b3Sgavinm 58520c794b3Sgavinm if (CMI_OP_PRESENT(cmi, cmi_mca_init)) 58620c794b3Sgavinm CMI_OPS(cmi)->cmi_mca_init(hdl); 58720c794b3Sgavinm } 58820c794b3Sgavinm 58920c794b3Sgavinm #define CMI_RESPONSE_PANIC 0x0 /* panic must have value 0 */ 59020c794b3Sgavinm #define CMI_RESPONSE_NONE 0x1 59120c794b3Sgavinm #define CMI_RESPONSE_CKILL 0x2 59220c794b3Sgavinm #define CMI_RESPONSE_REBOOT 0x3 /* not implemented */ 59320c794b3Sgavinm #define CMI_RESPONSE_ONTRAP_PROT 0x4 59420c794b3Sgavinm #define CMI_RESPONSE_LOFAULT_PROT 0x5 59520c794b3Sgavinm 59620c794b3Sgavinm /* 59720c794b3Sgavinm * Return 0 if we will panic in response to this machine check, otherwise 59820c794b3Sgavinm * non-zero. If the caller is cmi_mca_trap in this file then the nonzero 59920c794b3Sgavinm * return values are to be interpreted from CMI_RESPONSE_* above. 60020c794b3Sgavinm * 60120c794b3Sgavinm * This function must just return what will be done without actually 60220c794b3Sgavinm * doing anything; this includes not changing the regs. 60320c794b3Sgavinm */ 6047aec1d6eScindi int 60520c794b3Sgavinm cmi_mce_response(struct regs *rp, uint64_t disp) 6067aec1d6eScindi { 60720c794b3Sgavinm int panicrsp = cmi_panic_on_uncorrectable_error ? CMI_RESPONSE_PANIC : 60820c794b3Sgavinm CMI_RESPONSE_NONE; 60920c794b3Sgavinm on_trap_data_t *otp; 61020c794b3Sgavinm 61120c794b3Sgavinm ASSERT(rp != NULL); /* don't call for polling, only on #MC */ 61220c794b3Sgavinm 61320c794b3Sgavinm /* 61420c794b3Sgavinm * If no bits are set in the disposition then there is nothing to 61520c794b3Sgavinm * worry about and we do not need to trampoline to ontrap or 61620c794b3Sgavinm * lofault handlers. 61720c794b3Sgavinm */ 61820c794b3Sgavinm if (disp == 0) 61920c794b3Sgavinm return (CMI_RESPONSE_NONE); 62020c794b3Sgavinm 62120c794b3Sgavinm /* 62220c794b3Sgavinm * Unconstrained errors cannot be forgiven, even by ontrap or 62320c794b3Sgavinm * lofault protection. The data is not poisoned and may not 62420c794b3Sgavinm * even belong to the trapped context - eg a writeback of 62520c794b3Sgavinm * data that is found to be bad. 62620c794b3Sgavinm */ 62720c794b3Sgavinm if (disp & CMI_ERRDISP_UC_UNCONSTRAINED) 62820c794b3Sgavinm return (panicrsp); 62920c794b3Sgavinm 63020c794b3Sgavinm /* 63120c794b3Sgavinm * ontrap OT_DATA_EC and lofault protection forgive any disposition 63220c794b3Sgavinm * other than unconstrained, even those normally forced fatal. 63320c794b3Sgavinm */ 63420c794b3Sgavinm if ((otp = curthread->t_ontrap) != NULL && otp->ot_prot & OT_DATA_EC) 63520c794b3Sgavinm return (CMI_RESPONSE_ONTRAP_PROT); 63620c794b3Sgavinm else if (curthread->t_lofault) 63720c794b3Sgavinm return (CMI_RESPONSE_LOFAULT_PROT); 63820c794b3Sgavinm 63920c794b3Sgavinm /* 64020c794b3Sgavinm * Forced-fatal errors are terminal even in user mode. 64120c794b3Sgavinm */ 64220c794b3Sgavinm if (disp & CMI_ERRDISP_FORCEFATAL) 64320c794b3Sgavinm return (panicrsp); 64420c794b3Sgavinm 64520c794b3Sgavinm /* 64620c794b3Sgavinm * If the trapped context is corrupt or we have no instruction pointer 64720c794b3Sgavinm * to resume at (and aren't trampolining to a fault handler) 64820c794b3Sgavinm * then in the kernel case we must panic and in usermode we 64920c794b3Sgavinm * kill the affected contract. 65020c794b3Sgavinm */ 65120c794b3Sgavinm if (disp & (CMI_ERRDISP_CURCTXBAD | CMI_ERRDISP_RIPV_INVALID)) 65220c794b3Sgavinm return (USERMODE(rp->r_cs) ? CMI_RESPONSE_CKILL : panicrsp); 65320c794b3Sgavinm 65420c794b3Sgavinm /* 65520c794b3Sgavinm * Anything else is harmless 65620c794b3Sgavinm */ 65720c794b3Sgavinm return (CMI_RESPONSE_NONE); 6587aec1d6eScindi } 6597aec1d6eScindi 66020c794b3Sgavinm int cma_mca_trap_panic_suppressed = 0; 66120c794b3Sgavinm 66220c794b3Sgavinm static void 66320c794b3Sgavinm cmi_mca_panic(void) 6647aec1d6eScindi { 66520c794b3Sgavinm if (cmi_panic_on_uncorrectable_error) { 66620c794b3Sgavinm fm_panic("Unrecoverable Machine-Check Exception"); 66720c794b3Sgavinm } else { 66820c794b3Sgavinm cmn_err(CE_WARN, "suppressing panic from fatal #mc"); 66920c794b3Sgavinm cma_mca_trap_panic_suppressed++; 67020c794b3Sgavinm } 6717aec1d6eScindi } 6727aec1d6eScindi 67320c794b3Sgavinm 67420c794b3Sgavinm int cma_mca_trap_contract_kills = 0; 67520c794b3Sgavinm int cma_mca_trap_ontrap_forgiven = 0; 67620c794b3Sgavinm int cma_mca_trap_lofault_forgiven = 0; 67720c794b3Sgavinm 67820c794b3Sgavinm /* 67920c794b3Sgavinm * Native #MC handler - we branch to here from mcetrap 68020c794b3Sgavinm */ 68120c794b3Sgavinm /*ARGSUSED*/ 6827aec1d6eScindi void 6837aec1d6eScindi cmi_mca_trap(struct regs *rp) 6847aec1d6eScindi { 68520c794b3Sgavinm #ifndef __xpv 68620c794b3Sgavinm cmi_hdl_t hdl = NULL; 68720c794b3Sgavinm uint64_t disp; 68820c794b3Sgavinm cmi_t *cmi; 68920c794b3Sgavinm int s; 69020c794b3Sgavinm 69120c794b3Sgavinm if (cmi_no_mca_init != 0) 69220c794b3Sgavinm return; 69320c794b3Sgavinm 69420c794b3Sgavinm /* 69520c794b3Sgavinm * This function can call cmn_err, and the cpu module cmi_mca_trap 69620c794b3Sgavinm * entry point may also elect to call cmn_err (e.g., if it can't 69720c794b3Sgavinm * log the error onto an errorq, say very early in boot). 69820c794b3Sgavinm * We need to let cprintf know that we must not block. 69920c794b3Sgavinm */ 70020c794b3Sgavinm s = spl8(); 70120c794b3Sgavinm 70220c794b3Sgavinm if ((hdl = cmi_hdl_lookup(CMI_HDL_NATIVE, cmi_ntv_hwchipid(CPU), 70320c794b3Sgavinm cmi_ntv_hwcoreid(CPU), cmi_ntv_hwstrandid(CPU))) == NULL || 70420c794b3Sgavinm (cmi = HDL2CMI(hdl)) == NULL || 70520c794b3Sgavinm !CMI_OP_PRESENT(cmi, cmi_mca_trap)) { 70620c794b3Sgavinm 70720c794b3Sgavinm cmn_err(CE_WARN, "#MC exception on cpuid %d: %s", 70820c794b3Sgavinm CPU->cpu_id, 70920c794b3Sgavinm hdl ? "handle lookup ok but no #MC handler found" : 71020c794b3Sgavinm "handle lookup failed"); 71120c794b3Sgavinm 71220c794b3Sgavinm if (hdl != NULL) 71320c794b3Sgavinm cmi_hdl_rele(hdl); 71420c794b3Sgavinm 71520c794b3Sgavinm splx(s); 71620c794b3Sgavinm return; 7177aec1d6eScindi } 7187aec1d6eScindi 71920c794b3Sgavinm disp = CMI_OPS(cmi)->cmi_mca_trap(hdl, rp); 7207aec1d6eScindi 72120c794b3Sgavinm switch (cmi_mce_response(rp, disp)) { 72220c794b3Sgavinm default: 72320c794b3Sgavinm cmn_err(CE_WARN, "Invalid response from cmi_mce_response"); 72420c794b3Sgavinm /*FALLTHRU*/ 7257aec1d6eScindi 72620c794b3Sgavinm case CMI_RESPONSE_PANIC: 72720c794b3Sgavinm cmi_mca_panic(); 72820c794b3Sgavinm break; 72920c794b3Sgavinm 73020c794b3Sgavinm case CMI_RESPONSE_NONE: 73120c794b3Sgavinm break; 73220c794b3Sgavinm 73320c794b3Sgavinm case CMI_RESPONSE_CKILL: 73420c794b3Sgavinm ttolwp(curthread)->lwp_pcb.pcb_flags |= ASYNC_HWERR; 73520c794b3Sgavinm aston(curthread); 73620c794b3Sgavinm cma_mca_trap_contract_kills++; 73720c794b3Sgavinm break; 73820c794b3Sgavinm 73920c794b3Sgavinm case CMI_RESPONSE_ONTRAP_PROT: { 74020c794b3Sgavinm on_trap_data_t *otp = curthread->t_ontrap; 74120c794b3Sgavinm otp->ot_trap = OT_DATA_EC; 74220c794b3Sgavinm rp->r_pc = otp->ot_trampoline; 74320c794b3Sgavinm cma_mca_trap_ontrap_forgiven++; 74420c794b3Sgavinm break; 74520c794b3Sgavinm } 74620c794b3Sgavinm 74720c794b3Sgavinm case CMI_RESPONSE_LOFAULT_PROT: 74820c794b3Sgavinm rp->r_r0 = EFAULT; 74920c794b3Sgavinm rp->r_pc = curthread->t_lofault; 75020c794b3Sgavinm cma_mca_trap_lofault_forgiven++; 75120c794b3Sgavinm break; 75220c794b3Sgavinm } 75320c794b3Sgavinm 75420c794b3Sgavinm cmi_hdl_rele(hdl); 75520c794b3Sgavinm splx(s); 75620c794b3Sgavinm #endif /* __xpv */ 7577aec1d6eScindi } 7587aec1d6eScindi 7597aec1d6eScindi void 76020c794b3Sgavinm cmi_hdl_poke(cmi_hdl_t hdl) 7617aec1d6eScindi { 76220c794b3Sgavinm cmi_t *cmi = HDL2CMI(hdl); 76320c794b3Sgavinm 76420c794b3Sgavinm if (!CMI_OP_PRESENT(cmi, cmi_hdl_poke)) 76520c794b3Sgavinm return; 76620c794b3Sgavinm 76720c794b3Sgavinm CMI_OPS(cmi)->cmi_hdl_poke(hdl); 7687aec1d6eScindi } 7697aec1d6eScindi 770e4b86885SCheng Sean Ye #ifndef __xpv 7717aec1d6eScindi void 772e3d60c9bSAdrian Frost cmi_cmci_trap() 773e3d60c9bSAdrian Frost { 774e3d60c9bSAdrian Frost cmi_hdl_t hdl = NULL; 775e3d60c9bSAdrian Frost cmi_t *cmi; 776e3d60c9bSAdrian Frost 777e3d60c9bSAdrian Frost if (cmi_no_mca_init != 0) 778e3d60c9bSAdrian Frost return; 779e3d60c9bSAdrian Frost 780e3d60c9bSAdrian Frost if ((hdl = cmi_hdl_lookup(CMI_HDL_NATIVE, cmi_ntv_hwchipid(CPU), 781e3d60c9bSAdrian Frost cmi_ntv_hwcoreid(CPU), cmi_ntv_hwstrandid(CPU))) == NULL || 782e3d60c9bSAdrian Frost (cmi = HDL2CMI(hdl)) == NULL || 783e3d60c9bSAdrian Frost !CMI_OP_PRESENT(cmi, cmi_cmci_trap)) { 784e3d60c9bSAdrian Frost 785e3d60c9bSAdrian Frost cmn_err(CE_WARN, "CMCI interrupt on cpuid %d: %s", 786e3d60c9bSAdrian Frost CPU->cpu_id, 787e3d60c9bSAdrian Frost hdl ? "handle lookup ok but no CMCI handler found" : 788e3d60c9bSAdrian Frost "handle lookup failed"); 789e3d60c9bSAdrian Frost 790e3d60c9bSAdrian Frost if (hdl != NULL) 791e3d60c9bSAdrian Frost cmi_hdl_rele(hdl); 792e3d60c9bSAdrian Frost 793e3d60c9bSAdrian Frost return; 794e3d60c9bSAdrian Frost } 795e3d60c9bSAdrian Frost 796e3d60c9bSAdrian Frost CMI_OPS(cmi)->cmi_cmci_trap(hdl); 797e3d60c9bSAdrian Frost 798e3d60c9bSAdrian Frost cmi_hdl_rele(hdl); 799e3d60c9bSAdrian Frost } 800e4b86885SCheng Sean Ye #endif /* __xpv */ 801e3d60c9bSAdrian Frost 802e3d60c9bSAdrian Frost void 80320c794b3Sgavinm cmi_mc_register(cmi_hdl_t hdl, const cmi_mc_ops_t *mcops, void *mcdata) 8047aec1d6eScindi { 80520c794b3Sgavinm if (!cmi_no_mca_init) 80620c794b3Sgavinm cmi_hdl_setmc(hdl, mcops, mcdata); 8077aec1d6eScindi } 8087aec1d6eScindi 809e4b86885SCheng Sean Ye void 810e4b86885SCheng Sean Ye cmi_mc_sw_memscrub_disable(void) 811e4b86885SCheng Sean Ye { 812e4b86885SCheng Sean Ye memscrub_disable(); 813e4b86885SCheng Sean Ye } 814e4b86885SCheng Sean Ye 81520c794b3Sgavinm cmi_errno_t 8164156fc34Sgavinm cmi_mc_patounum(uint64_t pa, uint8_t valid_hi, uint8_t valid_lo, uint32_t synd, 8174156fc34Sgavinm int syndtype, mc_unum_t *up) 8187aec1d6eScindi { 8197aec1d6eScindi const struct cmi_mc_ops *mcops; 82020c794b3Sgavinm cmi_hdl_t hdl; 82120c794b3Sgavinm cmi_errno_t rv; 8227aec1d6eScindi 82320c794b3Sgavinm if (cmi_no_mca_init || 82420c794b3Sgavinm (hdl = cmi_hdl_any()) == NULL) /* short-term hold */ 82520c794b3Sgavinm return (CMIERR_MC_ABSENT); 8267aec1d6eScindi 82720c794b3Sgavinm if ((mcops = cmi_hdl_getmcops(hdl)) == NULL || 82820c794b3Sgavinm mcops->cmi_mc_patounum == NULL) { 82920c794b3Sgavinm cmi_hdl_rele(hdl); 83020c794b3Sgavinm return (CMIERR_MC_NOTSUP); 8317aec1d6eScindi } 8327aec1d6eScindi 83320c794b3Sgavinm rv = mcops->cmi_mc_patounum(cmi_hdl_getmcdata(hdl), pa, valid_hi, 83420c794b3Sgavinm valid_lo, synd, syndtype, up); 83520c794b3Sgavinm 83620c794b3Sgavinm cmi_hdl_rele(hdl); 83720c794b3Sgavinm 83820c794b3Sgavinm return (rv); 83920c794b3Sgavinm } 84020c794b3Sgavinm 84120c794b3Sgavinm cmi_errno_t 8427aec1d6eScindi cmi_mc_unumtopa(mc_unum_t *up, nvlist_t *nvl, uint64_t *pap) 8437aec1d6eScindi { 8447aec1d6eScindi const struct cmi_mc_ops *mcops; 84520c794b3Sgavinm cmi_hdl_t hdl; 84620c794b3Sgavinm cmi_errno_t rv; 847e4b86885SCheng Sean Ye nvlist_t *hcsp; 8487aec1d6eScindi 8497aec1d6eScindi if (up != NULL && nvl != NULL) 85020c794b3Sgavinm return (CMIERR_API); /* convert from just one form */ 8517aec1d6eScindi 85220c794b3Sgavinm if (cmi_no_mca_init || 85320c794b3Sgavinm (hdl = cmi_hdl_any()) == NULL) /* short-term hold */ 85420c794b3Sgavinm return (CMIERR_MC_ABSENT); 8557aec1d6eScindi 85620c794b3Sgavinm if ((mcops = cmi_hdl_getmcops(hdl)) == NULL || 85720c794b3Sgavinm mcops->cmi_mc_unumtopa == NULL) { 85820c794b3Sgavinm cmi_hdl_rele(hdl); 85920c794b3Sgavinm 860e4b86885SCheng Sean Ye if (nvl != NULL && nvlist_lookup_nvlist(nvl, 861e4b86885SCheng Sean Ye FM_FMRI_HC_SPECIFIC, &hcsp) == 0 && 862e4b86885SCheng Sean Ye (nvlist_lookup_uint64(hcsp, 863e4b86885SCheng Sean Ye "asru-" FM_FMRI_HC_SPECIFIC_PHYSADDR, pap) == 0 || 864e4b86885SCheng Sean Ye nvlist_lookup_uint64(hcsp, FM_FMRI_HC_SPECIFIC_PHYSADDR, 865e4b86885SCheng Sean Ye pap) == 0)) { 86620c794b3Sgavinm return (CMIERR_MC_PARTIALUNUMTOPA); 86720c794b3Sgavinm } else { 86820c794b3Sgavinm return (mcops && mcops->cmi_mc_unumtopa ? 86920c794b3Sgavinm CMIERR_MC_NOTSUP : CMIERR_MC_ABSENT); 87020c794b3Sgavinm } 87120c794b3Sgavinm } 87220c794b3Sgavinm 87320c794b3Sgavinm rv = mcops->cmi_mc_unumtopa(cmi_hdl_getmcdata(hdl), up, nvl, pap); 87420c794b3Sgavinm 87520c794b3Sgavinm cmi_hdl_rele(hdl); 87620c794b3Sgavinm 87720c794b3Sgavinm return (rv); 87820c794b3Sgavinm } 87920c794b3Sgavinm 88020c794b3Sgavinm void 88120c794b3Sgavinm cmi_mc_logout(cmi_hdl_t hdl, boolean_t ismc, boolean_t sync) 88220c794b3Sgavinm { 88320c794b3Sgavinm const struct cmi_mc_ops *mcops; 88420c794b3Sgavinm 88520c794b3Sgavinm if (cmi_no_mca_init || (mcops = cmi_hdl_getmcops(hdl)) == NULL) 88620c794b3Sgavinm return; 88720c794b3Sgavinm 88820c794b3Sgavinm if (mcops->cmi_mc_logout != NULL) 88920c794b3Sgavinm mcops->cmi_mc_logout(hdl, ismc, sync); 89020c794b3Sgavinm } 89120c794b3Sgavinm 89220c794b3Sgavinm cmi_errno_t 89320c794b3Sgavinm cmi_hdl_msrinject(cmi_hdl_t hdl, cmi_mca_regs_t *regs, uint_t nregs, 89420c794b3Sgavinm int force) 89520c794b3Sgavinm { 89620c794b3Sgavinm cmi_t *cmi = cmi_hdl_getcmi(hdl); 897e4b86885SCheng Sean Ye cmi_errno_t rc; 89820c794b3Sgavinm 89920c794b3Sgavinm if (!CMI_OP_PRESENT(cmi, cmi_msrinject)) 90020c794b3Sgavinm return (CMIERR_NOTSUP); 90120c794b3Sgavinm 902e4b86885SCheng Sean Ye cmi_hdl_inj_begin(hdl); 903e4b86885SCheng Sean Ye rc = CMI_OPS(cmi)->cmi_msrinject(hdl, regs, nregs, force); 904e4b86885SCheng Sean Ye cmi_hdl_inj_end(hdl); 905e4b86885SCheng Sean Ye 906e4b86885SCheng Sean Ye return (rc); 90720c794b3Sgavinm } 90820c794b3Sgavinm 90920c794b3Sgavinm boolean_t 91020c794b3Sgavinm cmi_panic_on_ue(void) 91120c794b3Sgavinm { 91220c794b3Sgavinm return (cmi_panic_on_uncorrectable_error ? B_TRUE : B_FALSE); 9137aec1d6eScindi } 914e4b86885SCheng Sean Ye 915e4b86885SCheng Sean Ye void 916e4b86885SCheng Sean Ye cmi_panic_callback(void) 917e4b86885SCheng Sean Ye { 918e4b86885SCheng Sean Ye cmi_hdl_t hdl; 919e4b86885SCheng Sean Ye cmi_t *cmi; 920e4b86885SCheng Sean Ye 921e4b86885SCheng Sean Ye if (cmi_no_mca_init || (hdl = cmi_hdl_any()) == NULL) 922e4b86885SCheng Sean Ye return; 923e4b86885SCheng Sean Ye 924e4b86885SCheng Sean Ye cmi = cmi_hdl_getcmi(hdl); 925e4b86885SCheng Sean Ye if (CMI_OP_PRESENT(cmi, cmi_panic_callback)) 926e4b86885SCheng Sean Ye CMI_OPS(cmi)->cmi_panic_callback(); 927e4b86885SCheng Sean Ye 928e4b86885SCheng Sean Ye cmi_hdl_rele(hdl); 929e4b86885SCheng Sean Ye } 930