i86pc/os/cmi.c

1642Sgavinm/*
1642Sgavinm * CDDL HEADER START
1642Sgavinm *
1642Sgavinm * The contents of this file are subject to the terms of the
1642Sgavinm * Common Development and Distribution License (the "License").
1642Sgavinm * You may not use this file except in compliance with the License.
1642Sgavinm *
1642Sgavinm * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
1642Sgavinm * or http://www.opensolaris.org/os/licensing.
1642Sgavinm * See the License for the specific language governing permissions
1642Sgavinm * and limitations under the License.
1642Sgavinm *
1642Sgavinm * When distributing Covered Code, include this CDDL HEADER in each
1642Sgavinm * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
1642Sgavinm * If applicable, add the following below this CDDL HEADER, with the
1642Sgavinm * fields enclosed by brackets "[]" replaced with your own identifying
1642Sgavinm * information: Portions Copyright [yyyy] [name of copyright owner]
1642Sgavinm *
1642Sgavinm * CDDL HEADER END
1642Sgavinm */
1642Sgavinm
1414Scindi/*
*7349SAdrian.Frost@Sun.COM * Copyright 2008 Sun Microsystems, Inc.  All rights reserved.
1414Scindi * Use is subject to license terms.
1414Scindi */
1414Scindi
1414Scindi/*
1414Scindi * Public interface to routines implemented by CPU modules
1414Scindi */
1414Scindi
5254Sgavinm#include <sys/types.h>
5254Sgavinm#include <sys/atomic.h>
1414Scindi#include <sys/x86_archext.h>
1414Scindi#include <sys/cpu_module_impl.h>
5254Sgavinm#include <sys/cpu_module_ms.h>
1414Scindi#include <sys/fm/util.h>
1414Scindi#include <sys/reboot.h>
1414Scindi#include <sys/modctl.h>
1414Scindi#include <sys/param.h>
1414Scindi#include <sys/cmn_err.h>
1414Scindi#include <sys/systm.h>
5254Sgavinm#include <sys/fm/protocol.h>
5254Sgavinm#include <sys/pcb.h>
5254Sgavinm#include <sys/ontrap.h>
5254Sgavinm#include <sys/psw.h>
5254Sgavinm#include <sys/privregs.h>
1414Scindi
5254Sgavinm/*
5254Sgavinm * Set to force cmi_init to fail.
5254Sgavinm */
5254Sgavinmint cmi_no_init = 0;
5254Sgavinm
5254Sgavinm/*
5254Sgavinm * Set to avoid MCA initialization.
5254Sgavinm */
5254Sgavinmint cmi_no_mca_init = 0;
1414Scindi
1414Scindi/*
2869Sgavinm * If cleared for debugging we will not attempt to load a model-specific
2869Sgavinm * cpu module but will load the generic cpu module instead.
2869Sgavinm */
2869Sgavinmint cmi_force_generic = 0;
2869Sgavinm
2869Sgavinm/*
1414Scindi * If cleared for debugging, we will suppress panicking on fatal hardware
1414Scindi * errors.  This should *only* be used for debugging; it use can and will
1414Scindi * cause data corruption if actual hardware errors are detected by the system.
1414Scindi */
1414Scindiint cmi_panic_on_uncorrectable_error = 1;
1414Scindi
5254Sgavinm/*
*7349SAdrian.Frost@Sun.COM * Set to indicate whether we are able to enable cmci interrupt.
*7349SAdrian.Frost@Sun.COM */
*7349SAdrian.Frost@Sun.COMint cmi_enable_cmci = 0;
*7349SAdrian.Frost@Sun.COM
*7349SAdrian.Frost@Sun.COM/*
5254Sgavinm * Subdirectory (relative to the module search path) in which we will
5254Sgavinm * look for cpu modules.
5254Sgavinm */
5254Sgavinm#define	CPUMOD_SUBDIR	"cpu"
5254Sgavinm
5254Sgavinm/*
5254Sgavinm * CPU modules have a filenames such as "cpu.AuthenticAMD.15" and
5254Sgavinm * "cpu.generic" - the "cpu" prefix is specified by the following.
5254Sgavinm */
5254Sgavinm#define	CPUMOD_PREFIX	"cpu"
5254Sgavinm
5254Sgavinm/*
5254Sgavinm * Structure used to keep track of cpu modules we have loaded and their ops
5254Sgavinm */
5254Sgavinmtypedef struct cmi {
5254Sgavinm	struct cmi *cmi_next;
5254Sgavinm	struct cmi *cmi_prev;
5254Sgavinm	const cmi_ops_t *cmi_ops;
5254Sgavinm	struct modctl *cmi_modp;
5254Sgavinm	uint_t cmi_refcnt;
5254Sgavinm} cmi_t;
5254Sgavinm
1414Scindistatic cmi_t *cmi_list;
1414Scindistatic kmutex_t cmi_load_lock;
1414Scindi
5254Sgavinm/*
5254Sgavinm * Functions we need from cmi_hw.c that are not part of the cpu_module.h
5254Sgavinm * interface.
5254Sgavinm */
*7349SAdrian.Frost@Sun.COMextern cmi_hdl_t cmi_hdl_create(enum cmi_hdl_class, uint_t, uint_t, uint_t,
*7349SAdrian.Frost@Sun.COM    boolean_t);
5254Sgavinmextern void cmi_hdl_setcmi(cmi_hdl_t, void *, void *);
5254Sgavinmextern void *cmi_hdl_getcmi(cmi_hdl_t);
5254Sgavinmextern void cmi_hdl_setmc(cmi_hdl_t, const struct cmi_mc_ops *, void *);
5254Sgavinm
5254Sgavinm#define	HDL2CMI(hdl)		cmi_hdl_getcmi(hdl)
5254Sgavinm
5254Sgavinm#define	CMI_OPS(cmi)		(cmi)->cmi_ops
5254Sgavinm#define	CMI_OP_PRESENT(cmi, op)	((cmi) && CMI_OPS(cmi)->op != NULL)
5254Sgavinm
5254Sgavinm#define	CMI_MATCH_VENDOR	0	/* Just match on vendor */
5254Sgavinm#define	CMI_MATCH_FAMILY	1	/* Match down to family */
5254Sgavinm#define	CMI_MATCH_MODEL		2	/* Match down to model */
5254Sgavinm#define	CMI_MATCH_STEPPING	3	/* Match down to stepping */
5254Sgavinm
5254Sgavinmstatic void
5254Sgavinmcmi_link(cmi_t *cmi)
5254Sgavinm{
5254Sgavinm	ASSERT(MUTEX_HELD(&cmi_load_lock));
5254Sgavinm
5254Sgavinm	cmi->cmi_prev = NULL;
5254Sgavinm	cmi->cmi_next = cmi_list;
5254Sgavinm	if (cmi_list != NULL)
5254Sgavinm		cmi_list->cmi_prev = cmi;
5254Sgavinm	cmi_list = cmi;
5254Sgavinm}
5254Sgavinm
5254Sgavinmstatic void
5254Sgavinmcmi_unlink(cmi_t *cmi)
1414Scindi{
5254Sgavinm	ASSERT(MUTEX_HELD(&cmi_load_lock));
5254Sgavinm	ASSERT(cmi->cmi_refcnt == 0);
5254Sgavinm
5254Sgavinm	if (cmi->cmi_prev != NULL)
5254Sgavinm		cmi->cmi_prev = cmi->cmi_next;
5254Sgavinm
5254Sgavinm	if (cmi->cmi_next != NULL)
5254Sgavinm		cmi->cmi_next->cmi_prev = cmi->cmi_prev;
5254Sgavinm
5254Sgavinm	if (cmi_list == cmi)
5254Sgavinm		cmi_list = cmi->cmi_next;
5254Sgavinm}
5254Sgavinm
5254Sgavinm/*
5254Sgavinm * Hold the module in memory.  We call to CPU modules without using the
5254Sgavinm * stubs mechanism, so these modules must be manually held in memory.
5254Sgavinm * The mod_ref acts as if another loaded module has a dependency on us.
5254Sgavinm */
5254Sgavinmstatic void
5254Sgavinmcmi_hold(cmi_t *cmi)
5254Sgavinm{
5254Sgavinm	ASSERT(MUTEX_HELD(&cmi_load_lock));
5254Sgavinm
5254Sgavinm	mutex_enter(&mod_lock);
5254Sgavinm	cmi->cmi_modp->mod_ref++;
5254Sgavinm	mutex_exit(&mod_lock);
5254Sgavinm	cmi->cmi_refcnt++;
5254Sgavinm}
5254Sgavinm
5254Sgavinmstatic void
5254Sgavinmcmi_rele(cmi_t *cmi)
5254Sgavinm{
5254Sgavinm	ASSERT(MUTEX_HELD(&cmi_load_lock));
5254Sgavinm
5254Sgavinm	mutex_enter(&mod_lock);
5254Sgavinm	cmi->cmi_modp->mod_ref--;
5254Sgavinm	mutex_exit(&mod_lock);
5254Sgavinm
5254Sgavinm	if (--cmi->cmi_refcnt == 0) {
5254Sgavinm		cmi_unlink(cmi);
5254Sgavinm		kmem_free(cmi, sizeof (cmi_t));
5254Sgavinm	}
5254Sgavinm}
5254Sgavinm
5254Sgavinmstatic cmi_ops_t *
5254Sgavinmcmi_getops(modctl_t *modp)
5254Sgavinm{
5254Sgavinm	cmi_ops_t *ops;
5254Sgavinm
5254Sgavinm	if ((ops = (cmi_ops_t *)modlookup_by_modctl(modp, "_cmi_ops")) ==
5254Sgavinm	    NULL) {
5254Sgavinm		cmn_err(CE_WARN, "cpu module '%s' is invalid: no _cmi_ops "
5254Sgavinm		    "found", modp->mod_modname);
5254Sgavinm		return (NULL);
5254Sgavinm	}
5254Sgavinm
5254Sgavinm	if (ops->cmi_init == NULL) {
5254Sgavinm		cmn_err(CE_WARN, "cpu module '%s' is invalid: no cmi_init "
5254Sgavinm		    "entry point", modp->mod_modname);
5254Sgavinm		return (NULL);
5254Sgavinm	}
5254Sgavinm
5254Sgavinm	return (ops);
1414Scindi}
1414Scindi
1414Scindistatic cmi_t *
1414Scindicmi_load_modctl(modctl_t *modp)
1414Scindi{
5254Sgavinm	cmi_ops_t *ops;
5254Sgavinm	uintptr_t ver;
1414Scindi	cmi_t *cmi;
5254Sgavinm	cmi_api_ver_t apiver;
1414Scindi
1414Scindi	ASSERT(MUTEX_HELD(&cmi_load_lock));
1414Scindi
1414Scindi	for (cmi = cmi_list; cmi != NULL; cmi = cmi->cmi_next) {
1414Scindi		if (cmi->cmi_modp == modp)
1414Scindi			return (cmi);
1414Scindi	}
1414Scindi
5254Sgavinm	if ((ver = modlookup_by_modctl(modp, "_cmi_api_version")) == NULL) {
5254Sgavinm		/*
5254Sgavinm		 * Apparently a cpu module before versioning was introduced -
5254Sgavinm		 * we call this version 0.
5254Sgavinm		 */
5254Sgavinm		apiver = CMI_API_VERSION_0;
5254Sgavinm	} else {
5254Sgavinm		apiver = *((cmi_api_ver_t *)ver);
5254Sgavinm		if (!CMI_API_VERSION_CHKMAGIC(apiver)) {
5254Sgavinm			cmn_err(CE_WARN, "cpu module '%s' is invalid: "
5254Sgavinm			    "_cmi_api_version 0x%x has bad magic",
5254Sgavinm			    modp->mod_modname, apiver);
5254Sgavinm			return (NULL);
5254Sgavinm		}
5254Sgavinm	}
5254Sgavinm
5254Sgavinm	if (apiver != CMI_API_VERSION) {
5254Sgavinm		cmn_err(CE_WARN, "cpu module '%s' has API version %d, "
5254Sgavinm		    "kernel requires API version %d", modp->mod_modname,
5254Sgavinm		    CMI_API_VERSION_TOPRINT(apiver),
5254Sgavinm		    CMI_API_VERSION_TOPRINT(CMI_API_VERSION));
1414Scindi		return (NULL);
1414Scindi	}
1414Scindi
5254Sgavinm	if ((ops = cmi_getops(modp)) == NULL)
5254Sgavinm		return (NULL);
1414Scindi
5254Sgavinm	cmi = kmem_zalloc(sizeof (*cmi), KM_SLEEP);
5254Sgavinm	cmi->cmi_ops = ops;
1414Scindi	cmi->cmi_modp = modp;
1414Scindi
5254Sgavinm	cmi_link(cmi);
5254Sgavinm
5254Sgavinm	return (cmi);
5254Sgavinm}
5254Sgavinm
5254Sgavinmstatic int
5254Sgavinmcmi_cpu_match(cmi_hdl_t hdl1, cmi_hdl_t hdl2, int match)
5254Sgavinm{
5254Sgavinm	if (match >= CMI_MATCH_VENDOR &&
5254Sgavinm	    cmi_hdl_vendor(hdl1) != cmi_hdl_vendor(hdl2))
5254Sgavinm		return (0);
5254Sgavinm
5254Sgavinm	if (match >= CMI_MATCH_FAMILY &&
5254Sgavinm	    cmi_hdl_family(hdl1) != cmi_hdl_family(hdl2))
5254Sgavinm		return (0);
5254Sgavinm
5254Sgavinm	if (match >= CMI_MATCH_MODEL &&
5254Sgavinm	    cmi_hdl_model(hdl1) != cmi_hdl_model(hdl2))
5254Sgavinm		return (0);
5254Sgavinm
5254Sgavinm	if (match >= CMI_MATCH_STEPPING &&
5254Sgavinm	    cmi_hdl_stepping(hdl1) != cmi_hdl_stepping(hdl2))
5254Sgavinm		return (0);
5254Sgavinm
5254Sgavinm	return (1);
5254Sgavinm}
5254Sgavinm
5254Sgavinmstatic int
5254Sgavinmcmi_search_list_cb(cmi_hdl_t whdl, void *arg1, void *arg2, void *arg3)
5254Sgavinm{
5254Sgavinm	cmi_hdl_t thdl = (cmi_hdl_t)arg1;
5254Sgavinm	int match = *((int *)arg2);
5254Sgavinm	cmi_hdl_t *rsltp = (cmi_hdl_t *)arg3;
5254Sgavinm
5254Sgavinm	if (cmi_cpu_match(thdl, whdl, match)) {
5254Sgavinm		cmi_hdl_hold(whdl);	/* short-term hold */
5254Sgavinm		*rsltp = whdl;
5254Sgavinm		return (CMI_HDL_WALK_DONE);
5254Sgavinm	} else {
5254Sgavinm		return (CMI_HDL_WALK_NEXT);
5254Sgavinm	}
5254Sgavinm}
5254Sgavinm
5254Sgavinmstatic cmi_t *
5254Sgavinmcmi_search_list(cmi_hdl_t hdl, int match)
5254Sgavinm{
5254Sgavinm	cmi_hdl_t dhdl = NULL;
5254Sgavinm	cmi_t *cmi = NULL;
5254Sgavinm
5254Sgavinm	ASSERT(MUTEX_HELD(&cmi_load_lock));
5254Sgavinm
5254Sgavinm	cmi_hdl_walk(cmi_search_list_cb, (void *)hdl, (void *)&match, &dhdl);
5254Sgavinm	if (dhdl) {
5254Sgavinm		cmi = HDL2CMI(dhdl);
5254Sgavinm		cmi_hdl_rele(dhdl);	/* held in cmi_search_list_cb */
5254Sgavinm	}
1414Scindi
1414Scindi	return (cmi);
1414Scindi}
1414Scindi
1414Scindistatic cmi_t *
5254Sgavinmcmi_load_module(cmi_hdl_t hdl, int match, int *chosenp)
1414Scindi{
1414Scindi	modctl_t *modp;
1414Scindi	cmi_t *cmi;
5254Sgavinm	int modid;
1414Scindi	uint_t s[3];
1414Scindi
5254Sgavinm	ASSERT(MUTEX_HELD(&cmi_load_lock));
5254Sgavinm	ASSERT(match == CMI_MATCH_STEPPING || match == CMI_MATCH_MODEL ||
5254Sgavinm	    match == CMI_MATCH_FAMILY || match == CMI_MATCH_VENDOR);
5254Sgavinm
1414Scindi	/*
5254Sgavinm	 * Have we already loaded a module for a cpu with the same
5254Sgavinm	 * vendor/family/model/stepping?
1414Scindi	 */
5254Sgavinm	if ((cmi = cmi_search_list(hdl, match)) != NULL) {
5254Sgavinm		cmi_hold(cmi);
5254Sgavinm		return (cmi);
1414Scindi	}
1414Scindi
5254Sgavinm	s[0] = cmi_hdl_family(hdl);
5254Sgavinm	s[1] = cmi_hdl_model(hdl);
5254Sgavinm	s[2] = cmi_hdl_stepping(hdl);
1414Scindi	modid = modload_qualified(CPUMOD_SUBDIR, CPUMOD_PREFIX,
5254Sgavinm	    cmi_hdl_vendorstr(hdl), ".", s, match, chosenp);
1414Scindi
1414Scindi	if (modid == -1)
1414Scindi		return (NULL);
1414Scindi
1414Scindi	modp = mod_hold_by_id(modid);
1414Scindi	cmi = cmi_load_modctl(modp);
5254Sgavinm	if (cmi)
5254Sgavinm		cmi_hold(cmi);
1414Scindi	mod_release_mod(modp);
1414Scindi
1414Scindi	return (cmi);
1414Scindi}
1414Scindi
1414Scindi/*
5254Sgavinm * Try to load a cpu module with specific support for this chip type.
1414Scindi */
5254Sgavinmstatic cmi_t *
5254Sgavinmcmi_load_specific(cmi_hdl_t hdl, void **datap)
1414Scindi{
1414Scindi	cmi_t *cmi;
5254Sgavinm	int err;
5254Sgavinm	int i;
5254Sgavinm
5254Sgavinm	ASSERT(MUTEX_HELD(&cmi_load_lock));
5254Sgavinm
5254Sgavinm	for (i = CMI_MATCH_STEPPING; i >= CMI_MATCH_VENDOR; i--) {
5254Sgavinm		int suffixlevel;
5254Sgavinm
5254Sgavinm		if ((cmi = cmi_load_module(hdl, i, &suffixlevel)) == NULL)
5254Sgavinm			return (NULL);
5254Sgavinm
5254Sgavinm		/*
5254Sgavinm		 * A module has loaded and has a _cmi_ops structure, and the
5254Sgavinm		 * module has been held for this instance.  Call its cmi_init
5254Sgavinm		 * entry point - we expect success (0) or ENOTSUP.
5254Sgavinm		 */
5254Sgavinm		if ((err = cmi->cmi_ops->cmi_init(hdl, datap)) == 0) {
5254Sgavinm			if (boothowto & RB_VERBOSE) {
5254Sgavinm				printf("initialized cpu module '%s' on "
5254Sgavinm				    "chip %d core %d strand %d\n",
5254Sgavinm				    cmi->cmi_modp->mod_modname,
5254Sgavinm				    cmi_hdl_chipid(hdl), cmi_hdl_coreid(hdl),
5254Sgavinm				    cmi_hdl_strandid(hdl));
5254Sgavinm			}
5254Sgavinm			return (cmi);
5254Sgavinm		} else if (err != ENOTSUP) {
5254Sgavinm			cmn_err(CE_WARN, "failed to init cpu module '%s' on "
5254Sgavinm			    "chip %d core %d strand %d: err=%d\n",
5254Sgavinm			    cmi->cmi_modp->mod_modname,
5254Sgavinm			    cmi_hdl_chipid(hdl), cmi_hdl_coreid(hdl),
5254Sgavinm			    cmi_hdl_strandid(hdl), err);
5254Sgavinm		}
5254Sgavinm
5254Sgavinm		/*
5254Sgavinm		 * The module failed or declined to init, so release
5254Sgavinm		 * it and update i to be equal to the number
5254Sgavinm		 * of suffices actually used in the last module path.
5254Sgavinm		 */
5254Sgavinm		cmi_rele(cmi);
5254Sgavinm		i = suffixlevel;
5254Sgavinm	}
5254Sgavinm
5254Sgavinm	return (NULL);
5254Sgavinm}
5254Sgavinm
5254Sgavinm/*
5254Sgavinm * Load the generic IA32 MCA cpu module, which may still supplement
5254Sgavinm * itself with model-specific support through cpu model-specific modules.
5254Sgavinm */
5254Sgavinmstatic cmi_t *
5254Sgavinmcmi_load_generic(cmi_hdl_t hdl, void **datap)
5254Sgavinm{
5254Sgavinm	modctl_t *modp;
5254Sgavinm	cmi_t *cmi;
5254Sgavinm	int modid;
5254Sgavinm	int err;
5254Sgavinm
5254Sgavinm	ASSERT(MUTEX_HELD(&cmi_load_lock));
5254Sgavinm
5254Sgavinm	if ((modid = modload(CPUMOD_SUBDIR, CPUMOD_PREFIX ".generic")) == -1)
5254Sgavinm		return (NULL);
5254Sgavinm
5254Sgavinm	modp = mod_hold_by_id(modid);
5254Sgavinm	cmi = cmi_load_modctl(modp);
5254Sgavinm	if (cmi)
5254Sgavinm		cmi_hold(cmi);
5254Sgavinm	mod_release_mod(modp);
5254Sgavinm
5254Sgavinm	if (cmi == NULL)
5254Sgavinm		return (NULL);
5254Sgavinm
5254Sgavinm	if ((err = cmi->cmi_ops->cmi_init(hdl, datap)) != 0) {
5254Sgavinm		if (err != ENOTSUP)
5254Sgavinm			cmn_err(CE_WARN, CPUMOD_PREFIX ".generic failed to "
5254Sgavinm			    "init: err=%d", err);
5254Sgavinm		cmi_rele(cmi);
5254Sgavinm		return (NULL);
5254Sgavinm	}
5254Sgavinm
5254Sgavinm	return (cmi);
5254Sgavinm}
5254Sgavinm
5254Sgavinmcmi_hdl_t
5254Sgavinmcmi_init(enum cmi_hdl_class class, uint_t chipid, uint_t coreid,
*7349SAdrian.Frost@Sun.COM    uint_t strandid, boolean_t mstrand)
5254Sgavinm{
5254Sgavinm	cmi_t *cmi = NULL;
5254Sgavinm	cmi_hdl_t hdl;
1414Scindi	void *data;
1414Scindi
5254Sgavinm	if (cmi_no_init) {
5254Sgavinm		cmi_no_mca_init = 1;
5254Sgavinm		return (NULL);
5254Sgavinm	}
5254Sgavinm
1414Scindi	mutex_enter(&cmi_load_lock);
1414Scindi
*7349SAdrian.Frost@Sun.COM	if ((hdl = cmi_hdl_create(class, chipid, coreid, strandid,
*7349SAdrian.Frost@Sun.COM	    mstrand)) == NULL) {
1414Scindi		mutex_exit(&cmi_load_lock);
5254Sgavinm		cmn_err(CE_WARN, "There will be no MCA support on chip %d "
5254Sgavinm		    "core %d strand %d (cmi_hdl_create returned NULL)\n",
5254Sgavinm		    chipid, coreid, strandid);
5254Sgavinm		return (NULL);
1414Scindi	}
1414Scindi
5254Sgavinm	if (!cmi_force_generic)
5254Sgavinm		cmi = cmi_load_specific(hdl, &data);
5254Sgavinm
5254Sgavinm	if (cmi == NULL && (cmi = cmi_load_generic(hdl, &data)) == NULL) {
5254Sgavinm		cmn_err(CE_WARN, "There will be no MCA support on chip %d "
5254Sgavinm		    "core %d strand %d\n", chipid, coreid, strandid);
5254Sgavinm		cmi_hdl_rele(hdl);
1414Scindi		mutex_exit(&cmi_load_lock);
5254Sgavinm		return (NULL);
1414Scindi	}
1414Scindi
5254Sgavinm	cmi_hdl_setcmi(hdl, cmi, data);
1414Scindi
5254Sgavinm	cms_init(hdl);
5254Sgavinm
1414Scindi	mutex_exit(&cmi_load_lock);
1414Scindi
5254Sgavinm	return (hdl);
1414Scindi}
1414Scindi
5254Sgavinm/*
5254Sgavinm * cmi_fini is not called at the moment.  It is intended to be called
5254Sgavinm * on DR deconfigure of a cpu resource.  It should not be called at
5254Sgavinm * simple offline of a cpu.
5254Sgavinm */
1414Scindivoid
5254Sgavinmcmi_fini(cmi_hdl_t hdl)
1414Scindi{
5254Sgavinm	cmi_t *cmi = HDL2CMI(hdl);
5254Sgavinm
5254Sgavinm	if (cms_present(hdl))
5254Sgavinm		cms_fini(hdl);
5254Sgavinm
5254Sgavinm	if (CMI_OP_PRESENT(cmi, cmi_fini))
5254Sgavinm		CMI_OPS(cmi)->cmi_fini(hdl);
5254Sgavinm
5254Sgavinm	cmi_hdl_rele(hdl);	/* release hold obtained in cmi_hdl_create */
1414Scindi}
1414Scindi
5254Sgavinm/*
5254Sgavinm * cmi_post_startup is called from post_startup for the boot cpu only.
5254Sgavinm */
1414Scindivoid
5254Sgavinmcmi_post_startup(void)
1414Scindi{
5254Sgavinm	cmi_hdl_t hdl;
5254Sgavinm	cmi_t *cmi;
5254Sgavinm
5254Sgavinm	if (cmi_no_mca_init != 0 ||
5254Sgavinm	    (hdl = cmi_hdl_any()) == NULL)	/* short-term hold */
5254Sgavinm		return;
5254Sgavinm
5254Sgavinm	cmi = HDL2CMI(hdl);
5254Sgavinm
5254Sgavinm	if (CMI_OP_PRESENT(cmi, cmi_post_startup))
5254Sgavinm		CMI_OPS(cmi)->cmi_post_startup(hdl);
5254Sgavinm
5254Sgavinm	cmi_hdl_rele(hdl);
1414Scindi}
1414Scindi
2869Sgavinm/*
2869Sgavinm * Called just once from start_other_cpus when all processors are started.
2869Sgavinm * This will not be called for each cpu, so the registered op must not
2869Sgavinm * assume it is called as such.
2869Sgavinm */
1414Scindivoid
1642Sgavinmcmi_post_mpstartup(void)
1642Sgavinm{
5254Sgavinm	cmi_hdl_t hdl;
5254Sgavinm	cmi_t *cmi;
5254Sgavinm
5254Sgavinm	if (cmi_no_mca_init != 0 ||
5254Sgavinm	    (hdl = cmi_hdl_any()) == NULL)	/* short-term hold */
5254Sgavinm		return;
5254Sgavinm
5254Sgavinm	cmi = HDL2CMI(hdl);
5254Sgavinm
5254Sgavinm	if (CMI_OP_PRESENT(cmi, cmi_post_mpstartup))
5254Sgavinm		CMI_OPS(cmi)->cmi_post_mpstartup(hdl);
5254Sgavinm
5254Sgavinm	cmi_hdl_rele(hdl);
1642Sgavinm}
1642Sgavinm
1642Sgavinmvoid
5254Sgavinmcmi_faulted_enter(cmi_hdl_t hdl)
1414Scindi{
5254Sgavinm	cmi_t *cmi = HDL2CMI(hdl);
5254Sgavinm
5254Sgavinm	if (cmi_no_mca_init != 0)
5254Sgavinm		return;
5254Sgavinm
5254Sgavinm	if (CMI_OP_PRESENT(cmi, cmi_faulted_enter))
5254Sgavinm		CMI_OPS(cmi)->cmi_faulted_enter(hdl);
5254Sgavinm}
5254Sgavinm
5254Sgavinmvoid
5254Sgavinmcmi_faulted_exit(cmi_hdl_t hdl)
5254Sgavinm{
5254Sgavinm	cmi_t *cmi = HDL2CMI(hdl);
5254Sgavinm
5254Sgavinm	if (cmi_no_mca_init != 0)
5254Sgavinm		return;
5254Sgavinm
5254Sgavinm	if (CMI_OP_PRESENT(cmi, cmi_faulted_exit))
5254Sgavinm		CMI_OPS(cmi)->cmi_faulted_exit(hdl);
1414Scindi}
1414Scindi
1414Scindivoid
5254Sgavinmcmi_mca_init(cmi_hdl_t hdl)
1414Scindi{
5254Sgavinm	cmi_t *cmi;
5254Sgavinm
5254Sgavinm	if (cmi_no_mca_init != 0)
5254Sgavinm		return;
5254Sgavinm
5254Sgavinm	cmi = HDL2CMI(hdl);
5254Sgavinm
5254Sgavinm	if (CMI_OP_PRESENT(cmi, cmi_mca_init))
5254Sgavinm		CMI_OPS(cmi)->cmi_mca_init(hdl);
1414Scindi}
1414Scindi
5254Sgavinm#define	CMI_RESPONSE_PANIC		0x0	/* panic must have value 0 */
5254Sgavinm#define	CMI_RESPONSE_NONE		0x1
5254Sgavinm#define	CMI_RESPONSE_CKILL		0x2
5254Sgavinm#define	CMI_RESPONSE_REBOOT		0x3	/* not implemented */
5254Sgavinm#define	CMI_RESPONSE_ONTRAP_PROT	0x4
5254Sgavinm#define	CMI_RESPONSE_LOFAULT_PROT	0x5
5254Sgavinm
5254Sgavinm/*
5254Sgavinm * Return 0 if we will panic in response to this machine check, otherwise
5254Sgavinm * non-zero.  If the caller is cmi_mca_trap in this file then the nonzero
5254Sgavinm * return values are to be interpreted from CMI_RESPONSE_* above.
5254Sgavinm *
5254Sgavinm * This function must just return what will be done without actually
5254Sgavinm * doing anything; this includes not changing the regs.
5254Sgavinm */
1414Scindiint
5254Sgavinmcmi_mce_response(struct regs *rp, uint64_t disp)
1414Scindi{
5254Sgavinm	int panicrsp = cmi_panic_on_uncorrectable_error ? CMI_RESPONSE_PANIC :
5254Sgavinm	    CMI_RESPONSE_NONE;
5254Sgavinm	on_trap_data_t *otp;
5254Sgavinm
5254Sgavinm	ASSERT(rp != NULL);	/* don't call for polling, only on #MC */
5254Sgavinm
5254Sgavinm	/*
5254Sgavinm	 * If no bits are set in the disposition then there is nothing to
5254Sgavinm	 * worry about and we do not need to trampoline to ontrap or
5254Sgavinm	 * lofault handlers.
5254Sgavinm	 */
5254Sgavinm	if (disp == 0)
5254Sgavinm		return (CMI_RESPONSE_NONE);
5254Sgavinm
5254Sgavinm	/*
5254Sgavinm	 * Unconstrained errors cannot be forgiven, even by ontrap or
5254Sgavinm	 * lofault protection.  The data is not poisoned and may not
5254Sgavinm	 * even belong to the trapped context - eg a writeback of
5254Sgavinm	 * data that is found to be bad.
5254Sgavinm	 */
5254Sgavinm	if (disp & CMI_ERRDISP_UC_UNCONSTRAINED)
5254Sgavinm		return (panicrsp);
5254Sgavinm
5254Sgavinm	/*
5254Sgavinm	 * ontrap OT_DATA_EC and lofault protection forgive any disposition
5254Sgavinm	 * other than unconstrained, even those normally forced fatal.
5254Sgavinm	 */
5254Sgavinm	if ((otp = curthread->t_ontrap) != NULL && otp->ot_prot & OT_DATA_EC)
5254Sgavinm		return (CMI_RESPONSE_ONTRAP_PROT);
5254Sgavinm	else if (curthread->t_lofault)
5254Sgavinm		return (CMI_RESPONSE_LOFAULT_PROT);
5254Sgavinm
5254Sgavinm	/*
5254Sgavinm	 * Forced-fatal errors are terminal even in user mode.
5254Sgavinm	 */
5254Sgavinm	if (disp & CMI_ERRDISP_FORCEFATAL)
5254Sgavinm		return (panicrsp);
5254Sgavinm
5254Sgavinm	/*
5254Sgavinm	 * If the trapped context is corrupt or we have no instruction pointer
5254Sgavinm	 * to resume at (and aren't trampolining to a fault handler)
5254Sgavinm	 * then in the kernel case we must panic and in usermode we
5254Sgavinm	 * kill the affected contract.
5254Sgavinm	 */
5254Sgavinm	if (disp & (CMI_ERRDISP_CURCTXBAD | CMI_ERRDISP_RIPV_INVALID))
5254Sgavinm		return (USERMODE(rp->r_cs) ?  CMI_RESPONSE_CKILL : panicrsp);
5254Sgavinm
5254Sgavinm	/*
5254Sgavinm	 * Anything else is harmless
5254Sgavinm	 */
5254Sgavinm	return (CMI_RESPONSE_NONE);
1414Scindi}
1414Scindi
5254Sgavinmint cma_mca_trap_panic_suppressed = 0;
5254Sgavinm
5254Sgavinmstatic void
5254Sgavinmcmi_mca_panic(void)
1414Scindi{
5254Sgavinm	if (cmi_panic_on_uncorrectable_error) {
5254Sgavinm		fm_panic("Unrecoverable Machine-Check Exception");
5254Sgavinm	} else {
5254Sgavinm		cmn_err(CE_WARN, "suppressing panic from fatal #mc");
5254Sgavinm		cma_mca_trap_panic_suppressed++;
5254Sgavinm	}
1414Scindi}
1414Scindi
5254Sgavinm
5254Sgavinmint cma_mca_trap_contract_kills = 0;
5254Sgavinmint cma_mca_trap_ontrap_forgiven = 0;
5254Sgavinmint cma_mca_trap_lofault_forgiven = 0;
5254Sgavinm
5254Sgavinm/*
5254Sgavinm * Native #MC handler - we branch to here from mcetrap
5254Sgavinm */
5254Sgavinm/*ARGSUSED*/
1414Scindivoid
1414Scindicmi_mca_trap(struct regs *rp)
1414Scindi{
5254Sgavinm#ifndef	__xpv
5254Sgavinm	cmi_hdl_t hdl = NULL;
5254Sgavinm	uint64_t disp;
5254Sgavinm	cmi_t *cmi;
5254Sgavinm	int s;
5254Sgavinm
5254Sgavinm	if (cmi_no_mca_init != 0)
5254Sgavinm		return;
5254Sgavinm
5254Sgavinm	/*
5254Sgavinm	 * This function can call cmn_err, and the cpu module cmi_mca_trap
5254Sgavinm	 * entry point may also elect to call cmn_err (e.g., if it can't
5254Sgavinm	 * log the error onto an errorq, say very early in boot).
5254Sgavinm	 * We need to let cprintf know that we must not block.
5254Sgavinm	 */
5254Sgavinm	s = spl8();
5254Sgavinm
5254Sgavinm	if ((hdl = cmi_hdl_lookup(CMI_HDL_NATIVE, cmi_ntv_hwchipid(CPU),
5254Sgavinm	    cmi_ntv_hwcoreid(CPU), cmi_ntv_hwstrandid(CPU))) == NULL ||
5254Sgavinm	    (cmi = HDL2CMI(hdl)) == NULL ||
5254Sgavinm	    !CMI_OP_PRESENT(cmi, cmi_mca_trap)) {
5254Sgavinm
5254Sgavinm		cmn_err(CE_WARN, "#MC exception on cpuid %d: %s",
5254Sgavinm		    CPU->cpu_id,
5254Sgavinm		    hdl ? "handle lookup ok but no #MC handler found" :
5254Sgavinm		    "handle lookup failed");
5254Sgavinm
5254Sgavinm		if (hdl != NULL)
5254Sgavinm			cmi_hdl_rele(hdl);
5254Sgavinm
5254Sgavinm		splx(s);
5254Sgavinm		return;
1414Scindi	}
5254Sgavinm
5254Sgavinm	disp = CMI_OPS(cmi)->cmi_mca_trap(hdl, rp);
1414Scindi
5254Sgavinm	switch (cmi_mce_response(rp, disp)) {
5254Sgavinm	default:
5254Sgavinm		cmn_err(CE_WARN, "Invalid response from cmi_mce_response");
5254Sgavinm		/*FALLTHRU*/
5254Sgavinm
5254Sgavinm	case CMI_RESPONSE_PANIC:
5254Sgavinm		cmi_mca_panic();
5254Sgavinm		break;
5254Sgavinm
5254Sgavinm	case CMI_RESPONSE_NONE:
5254Sgavinm		break;
5254Sgavinm
5254Sgavinm	case CMI_RESPONSE_CKILL:
5254Sgavinm		ttolwp(curthread)->lwp_pcb.pcb_flags |= ASYNC_HWERR;
5254Sgavinm		aston(curthread);
5254Sgavinm		cma_mca_trap_contract_kills++;
5254Sgavinm		break;
1414Scindi
5254Sgavinm	case CMI_RESPONSE_ONTRAP_PROT: {
5254Sgavinm		on_trap_data_t *otp = curthread->t_ontrap;
5254Sgavinm		otp->ot_trap = OT_DATA_EC;
5254Sgavinm		rp->r_pc = otp->ot_trampoline;
5254Sgavinm		cma_mca_trap_ontrap_forgiven++;
5254Sgavinm		break;
5254Sgavinm	}
1414Scindi
5254Sgavinm	case CMI_RESPONSE_LOFAULT_PROT:
5254Sgavinm		rp->r_r0 = EFAULT;
5254Sgavinm		rp->r_pc = curthread->t_lofault;
5254Sgavinm		cma_mca_trap_lofault_forgiven++;
5254Sgavinm		break;
5254Sgavinm	}
5254Sgavinm
5254Sgavinm	cmi_hdl_rele(hdl);
5254Sgavinm	splx(s);
5254Sgavinm#endif	/* __xpv */
1414Scindi}
1414Scindi
1414Scindivoid
5254Sgavinmcmi_hdl_poke(cmi_hdl_t hdl)
1414Scindi{
5254Sgavinm	cmi_t *cmi = HDL2CMI(hdl);
5254Sgavinm
5254Sgavinm	if (!CMI_OP_PRESENT(cmi, cmi_hdl_poke))
5254Sgavinm		return;
5254Sgavinm
5254Sgavinm	CMI_OPS(cmi)->cmi_hdl_poke(hdl);
1414Scindi}
1414Scindi
1414Scindivoid
*7349SAdrian.Frost@Sun.COMcmi_cmci_trap()
*7349SAdrian.Frost@Sun.COM{
*7349SAdrian.Frost@Sun.COM#ifndef	__xpv
*7349SAdrian.Frost@Sun.COM	cmi_hdl_t hdl = NULL;
*7349SAdrian.Frost@Sun.COM	cmi_t *cmi;
*7349SAdrian.Frost@Sun.COM
*7349SAdrian.Frost@Sun.COM	if (cmi_no_mca_init != 0)
*7349SAdrian.Frost@Sun.COM		return;
*7349SAdrian.Frost@Sun.COM
*7349SAdrian.Frost@Sun.COM	if ((hdl = cmi_hdl_lookup(CMI_HDL_NATIVE, cmi_ntv_hwchipid(CPU),
*7349SAdrian.Frost@Sun.COM	    cmi_ntv_hwcoreid(CPU), cmi_ntv_hwstrandid(CPU))) == NULL ||
*7349SAdrian.Frost@Sun.COM	    (cmi = HDL2CMI(hdl)) == NULL ||
*7349SAdrian.Frost@Sun.COM	    !CMI_OP_PRESENT(cmi, cmi_cmci_trap)) {
*7349SAdrian.Frost@Sun.COM
*7349SAdrian.Frost@Sun.COM		cmn_err(CE_WARN, "CMCI interrupt on cpuid %d: %s",
*7349SAdrian.Frost@Sun.COM		    CPU->cpu_id,
*7349SAdrian.Frost@Sun.COM		    hdl ? "handle lookup ok but no CMCI handler found" :
*7349SAdrian.Frost@Sun.COM		    "handle lookup failed");
*7349SAdrian.Frost@Sun.COM
*7349SAdrian.Frost@Sun.COM		if (hdl != NULL)
*7349SAdrian.Frost@Sun.COM			cmi_hdl_rele(hdl);
*7349SAdrian.Frost@Sun.COM
*7349SAdrian.Frost@Sun.COM		return;
*7349SAdrian.Frost@Sun.COM	}
*7349SAdrian.Frost@Sun.COM
*7349SAdrian.Frost@Sun.COM	CMI_OPS(cmi)->cmi_cmci_trap(hdl);
*7349SAdrian.Frost@Sun.COM
*7349SAdrian.Frost@Sun.COM	cmi_hdl_rele(hdl);
*7349SAdrian.Frost@Sun.COM#endif	/* __xpv */
*7349SAdrian.Frost@Sun.COM}
*7349SAdrian.Frost@Sun.COM
*7349SAdrian.Frost@Sun.COMvoid
5254Sgavinmcmi_mc_register(cmi_hdl_t hdl, const cmi_mc_ops_t *mcops, void *mcdata)
1414Scindi{
5254Sgavinm	if (!cmi_no_mca_init)
5254Sgavinm		cmi_hdl_setmc(hdl, mcops, mcdata);
1414Scindi}
1414Scindi
5254Sgavinmcmi_errno_t
3164Sgavinmcmi_mc_patounum(uint64_t pa, uint8_t valid_hi, uint8_t valid_lo, uint32_t synd,
3164Sgavinm    int syndtype, mc_unum_t *up)
1414Scindi{
1414Scindi	const struct cmi_mc_ops *mcops;
5254Sgavinm	cmi_hdl_t hdl;
5254Sgavinm	cmi_errno_t rv;
5254Sgavinm
5254Sgavinm	if (cmi_no_mca_init ||
5254Sgavinm	    (hdl = cmi_hdl_any()) == NULL)	/* short-term hold */
5254Sgavinm		return (CMIERR_MC_ABSENT);
1414Scindi
5254Sgavinm	if ((mcops = cmi_hdl_getmcops(hdl)) == NULL ||
5254Sgavinm	    mcops->cmi_mc_patounum == NULL) {
5254Sgavinm		cmi_hdl_rele(hdl);
5254Sgavinm		return (CMIERR_MC_NOTSUP);
5254Sgavinm	}
1414Scindi
5254Sgavinm	rv = mcops->cmi_mc_patounum(cmi_hdl_getmcdata(hdl), pa, valid_hi,
5254Sgavinm	    valid_lo, synd, syndtype, up);
5254Sgavinm
5254Sgavinm	cmi_hdl_rele(hdl);
5254Sgavinm
5254Sgavinm	return (rv);
1414Scindi}
1414Scindi
5254Sgavinmcmi_errno_t
1414Scindicmi_mc_unumtopa(mc_unum_t *up, nvlist_t *nvl, uint64_t *pap)
1414Scindi{
1414Scindi	const struct cmi_mc_ops *mcops;
5254Sgavinm	cmi_hdl_t hdl;
5254Sgavinm	cmi_errno_t rv;
1414Scindi
1414Scindi	if (up != NULL && nvl != NULL)
5254Sgavinm		return (CMIERR_API);	/* convert from just one form */
5254Sgavinm
5254Sgavinm	if (cmi_no_mca_init ||
5254Sgavinm	    (hdl = cmi_hdl_any()) == NULL)	/* short-term hold */
5254Sgavinm		return (CMIERR_MC_ABSENT);
5254Sgavinm
5254Sgavinm	if ((mcops = cmi_hdl_getmcops(hdl)) == NULL ||
5254Sgavinm	    mcops->cmi_mc_unumtopa == NULL) {
5254Sgavinm		cmi_hdl_rele(hdl);
5254Sgavinm
5254Sgavinm		if (nvl != NULL && nvlist_lookup_uint64(nvl,
5254Sgavinm		    FM_FMRI_MEM_PHYSADDR, pap) == 0) {
5254Sgavinm			return (CMIERR_MC_PARTIALUNUMTOPA);
5254Sgavinm		} else {
5254Sgavinm			return (mcops && mcops->cmi_mc_unumtopa ?
5254Sgavinm			    CMIERR_MC_NOTSUP : CMIERR_MC_ABSENT);
5254Sgavinm		}
5254Sgavinm	}
5254Sgavinm
5254Sgavinm	rv = mcops->cmi_mc_unumtopa(cmi_hdl_getmcdata(hdl), up, nvl, pap);
5254Sgavinm
5254Sgavinm	cmi_hdl_rele(hdl);
5254Sgavinm
5254Sgavinm	return (rv);
5254Sgavinm}
1414Scindi
5254Sgavinmvoid
5254Sgavinmcmi_mc_logout(cmi_hdl_t hdl, boolean_t ismc, boolean_t sync)
5254Sgavinm{
5254Sgavinm	const struct cmi_mc_ops *mcops;
5254Sgavinm
5254Sgavinm	if (cmi_no_mca_init || (mcops = cmi_hdl_getmcops(hdl)) == NULL)
5254Sgavinm		return;
5254Sgavinm
5254Sgavinm	if (mcops->cmi_mc_logout != NULL)
5254Sgavinm		mcops->cmi_mc_logout(hdl, ismc, sync);
5254Sgavinm}
1414Scindi
5254Sgavinmcmi_errno_t
5254Sgavinmcmi_hdl_msrinject(cmi_hdl_t hdl, cmi_mca_regs_t *regs, uint_t nregs,
5254Sgavinm    int force)
5254Sgavinm{
5254Sgavinm	cmi_t *cmi = cmi_hdl_getcmi(hdl);
5254Sgavinm
5254Sgavinm	if (!CMI_OP_PRESENT(cmi, cmi_msrinject))
5254Sgavinm		return (CMIERR_NOTSUP);
5254Sgavinm
5254Sgavinm	return (CMI_OPS(cmi)->cmi_msrinject(hdl, regs, nregs, force));
1414Scindi}
5254Sgavinm
5254Sgavinmboolean_t
5254Sgavinmcmi_panic_on_ue(void)
5254Sgavinm{
5254Sgavinm	return (cmi_panic_on_uncorrectable_error ? B_TRUE : B_FALSE);
5254Sgavinm}