xref: /illumos-gate/usr/src/uts/i86xpv/os/xen_machdep.c (revision db830ba58275ad713ffb4ff71cce8c00af84527b) 
1843e1988Sjohnlev /*
2843e1988Sjohnlev  * CDDL HEADER START
3843e1988Sjohnlev  *
4843e1988Sjohnlev  * The contents of this file are subject to the terms of the
5843e1988Sjohnlev  * Common Development and Distribution License (the "License").
6843e1988Sjohnlev  * You may not use this file except in compliance with the License.
7843e1988Sjohnlev  *
8843e1988Sjohnlev  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9843e1988Sjohnlev  * or http://www.opensolaris.org/os/licensing.
10843e1988Sjohnlev  * See the License for the specific language governing permissions
11843e1988Sjohnlev  * and limitations under the License.
12843e1988Sjohnlev  *
13843e1988Sjohnlev  * When distributing Covered Code, include this CDDL HEADER in each
14843e1988Sjohnlev  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15843e1988Sjohnlev  * If applicable, add the following below this CDDL HEADER, with the
16843e1988Sjohnlev  * fields enclosed by brackets "[]" replaced with your own identifying
17843e1988Sjohnlev  * information: Portions Copyright [yyyy] [name of copyright owner]
18843e1988Sjohnlev  *
19843e1988Sjohnlev  * CDDL HEADER END
20843e1988Sjohnlev  */
21843e1988Sjohnlev 
22843e1988Sjohnlev /*
23349b53ddSStuart Maybee  * Copyright 2009 Sun Microsystems, Inc.  All rights reserved.
24843e1988Sjohnlev  * Use is subject to license terms.
25843e1988Sjohnlev  */
26843e1988Sjohnlev 
27843e1988Sjohnlev /* derived from netbsd's xen_machdep.c 1.1.2.1 */
28843e1988Sjohnlev 
29843e1988Sjohnlev /*
30843e1988Sjohnlev  *
31843e1988Sjohnlev  * Copyright (c) 2004 Christian Limpach.
32843e1988Sjohnlev  * All rights reserved.
33843e1988Sjohnlev  *
34843e1988Sjohnlev  * Redistribution and use in source and binary forms, with or without
35843e1988Sjohnlev  * modification, are permitted provided that the following conditions
36843e1988Sjohnlev  * are met:
37843e1988Sjohnlev  * 1. Redistributions of source code must retain the above copyright
38843e1988Sjohnlev  *    notice, this list of conditions and the following disclaimer.
39843e1988Sjohnlev  * 2. Redistributions in binary form must reproduce the above copyright
40843e1988Sjohnlev  *    notice, this list of conditions and the following disclaimer in the
41843e1988Sjohnlev  *    documentation and/or other materials provided with the distribution.
42843e1988Sjohnlev  * 3. This section intentionally left blank.
43843e1988Sjohnlev  * 4. The name of the author may not be used to endorse or promote products
44843e1988Sjohnlev  *    derived from this software without specific prior written permission.
45843e1988Sjohnlev  *
46843e1988Sjohnlev  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
47843e1988Sjohnlev  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
48843e1988Sjohnlev  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
49843e1988Sjohnlev  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
50843e1988Sjohnlev  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
51843e1988Sjohnlev  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
52843e1988Sjohnlev  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
53843e1988Sjohnlev  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
54843e1988Sjohnlev  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
55843e1988Sjohnlev  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
56843e1988Sjohnlev  */
57843e1988Sjohnlev /*
58843e1988Sjohnlev  * Section 3 of the above license was updated in response to bug 6379571.
59843e1988Sjohnlev  */
60843e1988Sjohnlev 
61349b53ddSStuart Maybee #include <sys/xpv_user.h>
62349b53ddSStuart Maybee 
63349b53ddSStuart Maybee /* XXX 3.3. TODO remove this include */
64349b53ddSStuart Maybee #include <xen/public/arch-x86/xen-mca.h>
65349b53ddSStuart Maybee 
669e839ce9Sgarypen #include <sys/ctype.h>
67843e1988Sjohnlev #include <sys/types.h>
68843e1988Sjohnlev #include <sys/cmn_err.h>
69843e1988Sjohnlev #include <sys/trap.h>
70843e1988Sjohnlev #include <sys/segments.h>
71843e1988Sjohnlev #include <sys/hypervisor.h>
72843e1988Sjohnlev #include <sys/xen_mmu.h>
73843e1988Sjohnlev #include <sys/machsystm.h>
74843e1988Sjohnlev #include <sys/promif.h>
75843e1988Sjohnlev #include <sys/bootconf.h>
76843e1988Sjohnlev #include <sys/bootinfo.h>
77843e1988Sjohnlev #include <sys/cpr.h>
78843e1988Sjohnlev #include <sys/taskq.h>
79843e1988Sjohnlev #include <sys/uadmin.h>
80843e1988Sjohnlev #include <sys/evtchn_impl.h>
81843e1988Sjohnlev #include <sys/archsystm.h>
82843e1988Sjohnlev #include <xen/sys/xenbus_impl.h>
83843e1988Sjohnlev #include <sys/mach_mmu.h>
84843e1988Sjohnlev #include <vm/hat_i86.h>
85843e1988Sjohnlev #include <sys/gnttab.h>
86843e1988Sjohnlev #include <sys/reboot.h>
87843e1988Sjohnlev #include <sys/stack.h>
88843e1988Sjohnlev #include <sys/clock.h>
89843e1988Sjohnlev #include <sys/bitmap.h>
90843e1988Sjohnlev #include <sys/processor.h>
91843e1988Sjohnlev #include <sys/xen_errno.h>
92843e1988Sjohnlev #include <sys/xpv_panic.h>
93843e1988Sjohnlev #include <sys/smp_impldefs.h>
94843e1988Sjohnlev #include <sys/cpu.h>
95843e1988Sjohnlev #include <sys/balloon_impl.h>
96843e1988Sjohnlev #include <sys/ddi.h>
97843e1988Sjohnlev 
98843e1988Sjohnlev #ifdef DEBUG
99843e1988Sjohnlev #define	SUSPEND_DEBUG if (xen_suspend_debug) xen_printf
100843e1988Sjohnlev #else
101843e1988Sjohnlev #define	SUSPEND_DEBUG(...)
102843e1988Sjohnlev #endif
103843e1988Sjohnlev 
104843e1988Sjohnlev int cpr_debug;
105843e1988Sjohnlev cpuset_t cpu_suspend_lost_set;
106843e1988Sjohnlev static int xen_suspend_debug;
107843e1988Sjohnlev 
108e4b86885SCheng Sean Ye uint_t xen_phys_ncpus;
109e4b86885SCheng Sean Ye xen_mc_logical_cpu_t *xen_phys_cpus;
110e4b86885SCheng Sean Ye int xen_physinfo_debug = 0;
111e4b86885SCheng Sean Ye 
1129e839ce9Sgarypen /*
1139e839ce9Sgarypen  * Determine helpful version information.
1149e839ce9Sgarypen  *
1159e839ce9Sgarypen  * (And leave copies in the data segment so we can look at them later
1169e839ce9Sgarypen  * with e.g. kmdb.)
1179e839ce9Sgarypen  */
1189e839ce9Sgarypen 
1199e839ce9Sgarypen typedef enum xen_version {
1209e839ce9Sgarypen 	XENVER_BOOT_IDX,
1219e839ce9Sgarypen 	XENVER_CURRENT_IDX
1229e839ce9Sgarypen } xen_version_t;
1239e839ce9Sgarypen 
1249e839ce9Sgarypen struct xenver {
1259e839ce9Sgarypen 	ulong_t xv_major;
1269e839ce9Sgarypen 	ulong_t xv_minor;
1279e839ce9Sgarypen 	ulong_t xv_revision;
1289e839ce9Sgarypen 	xen_extraversion_t xv_ver;
129ab4a9bebSjohnlev 	ulong_t xv_is_xvm;
1309e839ce9Sgarypen 	xen_changeset_info_t xv_chgset;
1319e839ce9Sgarypen 	xen_compile_info_t xv_build;
1329e839ce9Sgarypen 	xen_capabilities_info_t xv_caps;
1339e839ce9Sgarypen } xenver[2];
1349e839ce9Sgarypen 
1359e839ce9Sgarypen #define	XENVER_BOOT(m)	(xenver[XENVER_BOOT_IDX].m)
1369e839ce9Sgarypen #define	XENVER_CURRENT(m)	(xenver[XENVER_CURRENT_IDX].m)
1379e839ce9Sgarypen 
1389e839ce9Sgarypen /*
1399e839ce9Sgarypen  * Update the xenver data. We maintain two copies, boot and
1409e839ce9Sgarypen  * current. If we are setting the boot, then also set current.
1419e839ce9Sgarypen  */
1429e839ce9Sgarypen static void
1439e839ce9Sgarypen xen_set_version(xen_version_t idx)
1449e839ce9Sgarypen {
1459e839ce9Sgarypen 	ulong_t ver;
1469e839ce9Sgarypen 
1479e839ce9Sgarypen 	bzero(&xenver[idx], sizeof (xenver[idx]));
1489e839ce9Sgarypen 
1499e839ce9Sgarypen 	ver = HYPERVISOR_xen_version(XENVER_version, 0);
1509e839ce9Sgarypen 
1519e839ce9Sgarypen 	xenver[idx].xv_major = BITX(ver, 31, 16);
1529e839ce9Sgarypen 	xenver[idx].xv_minor = BITX(ver, 15, 0);
1539e839ce9Sgarypen 
1549e839ce9Sgarypen 	(void) HYPERVISOR_xen_version(XENVER_extraversion, &xenver[idx].xv_ver);
1559e839ce9Sgarypen 
1569e839ce9Sgarypen 	/*
1579e839ce9Sgarypen 	 * The revision is buried in the extraversion information that is
1589e839ce9Sgarypen 	 * maintained by the hypervisor. For our purposes we expect that
1599e839ce9Sgarypen 	 * the revision number is:
1609e839ce9Sgarypen 	 *	- the second character in the extraversion information
1619e839ce9Sgarypen 	 *	- one character long
1629e839ce9Sgarypen 	 *	- numeric digit
1639e839ce9Sgarypen 	 * If it isn't then we can't extract the revision and we leave it
1649e839ce9Sgarypen 	 * set to 0.
1659e839ce9Sgarypen 	 */
1669e839ce9Sgarypen 	if (strlen(xenver[idx].xv_ver) > 1 && isdigit(xenver[idx].xv_ver[1]))
1679e839ce9Sgarypen 		xenver[idx].xv_revision = xenver[idx].xv_ver[1] - '0';
1689e839ce9Sgarypen 	else
1699e839ce9Sgarypen 		cmn_err(CE_WARN, "Cannot extract revision on this hypervisor "
1709e839ce9Sgarypen 		    "version: v%s, unexpected version format",
1719e839ce9Sgarypen 		    xenver[idx].xv_ver);
1729e839ce9Sgarypen 
173ab4a9bebSjohnlev 	xenver[idx].xv_is_xvm = 0;
174ab4a9bebSjohnlev 
175ad09f8b8SMark Johnson 	if (strstr(xenver[idx].xv_ver, "-xvm") != NULL)
176ab4a9bebSjohnlev 		xenver[idx].xv_is_xvm = 1;
177ab4a9bebSjohnlev 
1789e839ce9Sgarypen 	(void) HYPERVISOR_xen_version(XENVER_changeset,
1799e839ce9Sgarypen 	    &xenver[idx].xv_chgset);
1809e839ce9Sgarypen 
1819e839ce9Sgarypen 	(void) HYPERVISOR_xen_version(XENVER_compile_info,
1829e839ce9Sgarypen 	    &xenver[idx].xv_build);
1839e839ce9Sgarypen 	/*
1849e839ce9Sgarypen 	 * Capabilities are a set of space separated ascii strings
1859e839ce9Sgarypen 	 * e.g. 'xen-3.1-x86_32p' or 'hvm-3.2-x86_64'
1869e839ce9Sgarypen 	 */
1879e839ce9Sgarypen 	(void) HYPERVISOR_xen_version(XENVER_capabilities,
1889e839ce9Sgarypen 	    &xenver[idx].xv_caps);
1899e839ce9Sgarypen 
1909e839ce9Sgarypen 	cmn_err(CE_CONT, "?v%lu.%lu%s chgset '%s'\n", xenver[idx].xv_major,
1919e839ce9Sgarypen 	    xenver[idx].xv_minor, xenver[idx].xv_ver, xenver[idx].xv_chgset);
1929e839ce9Sgarypen 
1939e839ce9Sgarypen 	if (idx == XENVER_BOOT_IDX)
1949e839ce9Sgarypen 		bcopy(&xenver[XENVER_BOOT_IDX], &xenver[XENVER_CURRENT_IDX],
1959e839ce9Sgarypen 		    sizeof (xenver[XENVER_BOOT_IDX]));
1969e839ce9Sgarypen }
1979e839ce9Sgarypen 
1989e839ce9Sgarypen typedef enum xen_hypervisor_check {
1999e839ce9Sgarypen 	XEN_RUN_CHECK,
2009e839ce9Sgarypen 	XEN_SUSPEND_CHECK
2019e839ce9Sgarypen } xen_hypervisor_check_t;
2029e839ce9Sgarypen 
2039e839ce9Sgarypen /*
2049e839ce9Sgarypen  * To run the hypervisor must be 3.0.4 or better. To suspend/resume
2059e839ce9Sgarypen  * we need 3.0.4 or better and if it is 3.0.4. then it must be provided
2069e839ce9Sgarypen  * by the Solaris xVM project.
2079e839ce9Sgarypen  * Checking can be disabled for testing purposes by setting the
2089e839ce9Sgarypen  * xen_suspend_debug variable.
2099e839ce9Sgarypen  */
2109e839ce9Sgarypen static int
2119e839ce9Sgarypen xen_hypervisor_supports_solaris(xen_hypervisor_check_t check)
2129e839ce9Sgarypen {
2139e839ce9Sgarypen 	if (xen_suspend_debug == 1)
2149e839ce9Sgarypen 		return (1);
2159e839ce9Sgarypen 	if (XENVER_CURRENT(xv_major) < 3)
2169e839ce9Sgarypen 		return (0);
2179e839ce9Sgarypen 	if (XENVER_CURRENT(xv_major) > 3)
2189e839ce9Sgarypen 		return (1);
2199e839ce9Sgarypen 	if (XENVER_CURRENT(xv_minor) > 0)
2209e839ce9Sgarypen 		return (1);
2219e839ce9Sgarypen 	if (XENVER_CURRENT(xv_revision) < 4)
2229e839ce9Sgarypen 		return (0);
223ab4a9bebSjohnlev 	if (check == XEN_SUSPEND_CHECK && XENVER_CURRENT(xv_revision) == 4 &&
224ab4a9bebSjohnlev 	    !XENVER_CURRENT(xv_is_xvm))
2259e839ce9Sgarypen 		return (0);
226ab4a9bebSjohnlev 
2279e839ce9Sgarypen 	return (1);
2289e839ce9Sgarypen }
2299e839ce9Sgarypen 
230ab4a9bebSjohnlev /*
231ab4a9bebSjohnlev  * If the hypervisor is -xvm, or 3.1.2 or higher, we don't need the
232ab4a9bebSjohnlev  * workaround.
233ab4a9bebSjohnlev  */
234ab4a9bebSjohnlev static void
235ab4a9bebSjohnlev xen_pte_workaround(void)
236ab4a9bebSjohnlev {
237ab4a9bebSjohnlev #if defined(__amd64)
238ab4a9bebSjohnlev 	extern int pt_kern;
239ab4a9bebSjohnlev 
240ab4a9bebSjohnlev 	if (XENVER_CURRENT(xv_major) != 3)
241ab4a9bebSjohnlev 		return;
242ab4a9bebSjohnlev 	if (XENVER_CURRENT(xv_minor) > 1)
243ab4a9bebSjohnlev 		return;
244ab4a9bebSjohnlev 	if (XENVER_CURRENT(xv_minor) == 1 &&
245ab4a9bebSjohnlev 	    XENVER_CURRENT(xv_revision) > 1)
246ab4a9bebSjohnlev 		return;
247ab4a9bebSjohnlev 	if (XENVER_CURRENT(xv_is_xvm))
248ab4a9bebSjohnlev 		return;
249ab4a9bebSjohnlev 
250ab4a9bebSjohnlev 	pt_kern = PT_USER;
251ab4a9bebSjohnlev #endif
252ab4a9bebSjohnlev }
253ab4a9bebSjohnlev 
254843e1988Sjohnlev void
255843e1988Sjohnlev xen_set_callback(void (*func)(void), uint_t type, uint_t flags)
256843e1988Sjohnlev {
257843e1988Sjohnlev 	struct callback_register cb;
258843e1988Sjohnlev 
259843e1988Sjohnlev 	bzero(&cb, sizeof (cb));
260843e1988Sjohnlev #if defined(__amd64)
261843e1988Sjohnlev 	cb.address = (ulong_t)func;
262843e1988Sjohnlev #elif defined(__i386)
263843e1988Sjohnlev 	cb.address.cs = KCS_SEL;
264843e1988Sjohnlev 	cb.address.eip = (ulong_t)func;
265843e1988Sjohnlev #endif
266843e1988Sjohnlev 	cb.type = type;
267843e1988Sjohnlev 	cb.flags = flags;
268843e1988Sjohnlev 
269843e1988Sjohnlev 	/*
270843e1988Sjohnlev 	 * XXPV always ignore return value for NMI
271843e1988Sjohnlev 	 */
272843e1988Sjohnlev 	if (HYPERVISOR_callback_op(CALLBACKOP_register, &cb) != 0 &&
273843e1988Sjohnlev 	    type != CALLBACKTYPE_nmi)
274843e1988Sjohnlev 		panic("HYPERVISOR_callback_op failed");
275843e1988Sjohnlev }
276843e1988Sjohnlev 
277843e1988Sjohnlev void
278843e1988Sjohnlev xen_init_callbacks(void)
279843e1988Sjohnlev {
280843e1988Sjohnlev 	/*
281843e1988Sjohnlev 	 * register event (interrupt) handler.
282843e1988Sjohnlev 	 */
283843e1988Sjohnlev 	xen_set_callback(xen_callback, CALLBACKTYPE_event, 0);
284843e1988Sjohnlev 
285843e1988Sjohnlev 	/*
286843e1988Sjohnlev 	 * failsafe handler.
287843e1988Sjohnlev 	 */
288843e1988Sjohnlev 	xen_set_callback(xen_failsafe_callback, CALLBACKTYPE_failsafe,
289843e1988Sjohnlev 	    CALLBACKF_mask_events);
290843e1988Sjohnlev 
291843e1988Sjohnlev 	/*
292843e1988Sjohnlev 	 * NMI handler.
293843e1988Sjohnlev 	 */
294843e1988Sjohnlev 	xen_set_callback(nmiint, CALLBACKTYPE_nmi, 0);
295843e1988Sjohnlev 
296843e1988Sjohnlev 	/*
297843e1988Sjohnlev 	 * system call handler
298843e1988Sjohnlev 	 * XXPV move to init_cpu_syscall?
299843e1988Sjohnlev 	 */
300843e1988Sjohnlev #if defined(__amd64)
301843e1988Sjohnlev 	xen_set_callback(sys_syscall, CALLBACKTYPE_syscall,
302843e1988Sjohnlev 	    CALLBACKF_mask_events);
303843e1988Sjohnlev #endif	/* __amd64 */
304843e1988Sjohnlev }
305843e1988Sjohnlev 
306843e1988Sjohnlev 
307843e1988Sjohnlev /*
308843e1988Sjohnlev  * cmn_err() followed by a 1/4 second delay; this gives the
309843e1988Sjohnlev  * logging service a chance to flush messages and helps avoid
310843e1988Sjohnlev  * intermixing output from prom_printf().
311843e1988Sjohnlev  * XXPV: doesn't exactly help us on UP though.
312843e1988Sjohnlev  */
313843e1988Sjohnlev /*PRINTFLIKE2*/
314843e1988Sjohnlev void
315843e1988Sjohnlev cpr_err(int ce, const char *fmt, ...)
316843e1988Sjohnlev {
317843e1988Sjohnlev 	va_list adx;
318843e1988Sjohnlev 
319843e1988Sjohnlev 	va_start(adx, fmt);
320843e1988Sjohnlev 	vcmn_err(ce, fmt, adx);
321843e1988Sjohnlev 	va_end(adx);
322843e1988Sjohnlev 	drv_usecwait(MICROSEC >> 2);
323843e1988Sjohnlev }
324843e1988Sjohnlev 
325843e1988Sjohnlev void
326843e1988Sjohnlev xen_suspend_devices(void)
327843e1988Sjohnlev {
328843e1988Sjohnlev 	int rc;
329843e1988Sjohnlev 
330843e1988Sjohnlev 	SUSPEND_DEBUG("xen_suspend_devices\n");
331843e1988Sjohnlev 
332843e1988Sjohnlev 	if ((rc = cpr_suspend_devices(ddi_root_node())) != 0)
333843e1988Sjohnlev 		panic("failed to suspend devices: %d", rc);
334843e1988Sjohnlev }
335843e1988Sjohnlev 
336843e1988Sjohnlev void
337843e1988Sjohnlev xen_resume_devices(void)
338843e1988Sjohnlev {
339843e1988Sjohnlev 	int rc;
340843e1988Sjohnlev 
341843e1988Sjohnlev 	SUSPEND_DEBUG("xen_resume_devices\n");
342843e1988Sjohnlev 
343843e1988Sjohnlev 	if ((rc = cpr_resume_devices(ddi_root_node(), 0)) != 0)
344843e1988Sjohnlev 		panic("failed to resume devices: %d", rc);
345843e1988Sjohnlev }
346843e1988Sjohnlev 
347843e1988Sjohnlev /*
348843e1988Sjohnlev  * The list of mfn pages is out of date.  Recompute it.
349843e1988Sjohnlev  */
350843e1988Sjohnlev static void
351843e1988Sjohnlev rebuild_mfn_list(void)
352843e1988Sjohnlev {
353843e1988Sjohnlev 	int i = 0;
354843e1988Sjohnlev 	size_t sz;
355843e1988Sjohnlev 	size_t off;
356843e1988Sjohnlev 	pfn_t pfn;
357843e1988Sjohnlev 
358843e1988Sjohnlev 	SUSPEND_DEBUG("rebuild_mfn_list\n");
359843e1988Sjohnlev 
360843e1988Sjohnlev 	sz = ((mfn_count * sizeof (mfn_t)) + MMU_PAGEOFFSET) & MMU_PAGEMASK;
361843e1988Sjohnlev 
362843e1988Sjohnlev 	for (off = 0; off < sz; off += MMU_PAGESIZE) {
363843e1988Sjohnlev 		size_t j = mmu_btop(off);
364843e1988Sjohnlev 		if (((j * sizeof (mfn_t)) & MMU_PAGEOFFSET) == 0) {
365843e1988Sjohnlev 			pfn = hat_getpfnum(kas.a_hat,
366843e1988Sjohnlev 			    (caddr_t)&mfn_list_pages[j]);
367843e1988Sjohnlev 			mfn_list_pages_page[i++] = pfn_to_mfn(pfn);
368843e1988Sjohnlev 		}
369843e1988Sjohnlev 
370843e1988Sjohnlev 		pfn = hat_getpfnum(kas.a_hat, (caddr_t)mfn_list + off);
371843e1988Sjohnlev 		mfn_list_pages[j] = pfn_to_mfn(pfn);
372843e1988Sjohnlev 	}
373843e1988Sjohnlev 
374843e1988Sjohnlev 	pfn = hat_getpfnum(kas.a_hat, (caddr_t)mfn_list_pages_page);
375843e1988Sjohnlev 	HYPERVISOR_shared_info->arch.pfn_to_mfn_frame_list_list
376843e1988Sjohnlev 	    = pfn_to_mfn(pfn);
377843e1988Sjohnlev }
378843e1988Sjohnlev 
379843e1988Sjohnlev static void
380843e1988Sjohnlev suspend_cpus(void)
381843e1988Sjohnlev {
382843e1988Sjohnlev 	int i;
383843e1988Sjohnlev 
384843e1988Sjohnlev 	SUSPEND_DEBUG("suspend_cpus\n");
385843e1988Sjohnlev 
3861d03c31eSjohnlev 	mp_enter_barrier();
387843e1988Sjohnlev 
388843e1988Sjohnlev 	for (i = 1; i < ncpus; i++) {
389843e1988Sjohnlev 		if (!CPU_IN_SET(cpu_suspend_lost_set, i)) {
390843e1988Sjohnlev 			SUSPEND_DEBUG("xen_vcpu_down %d\n", i);
391843e1988Sjohnlev 			(void) xen_vcpu_down(i);
392843e1988Sjohnlev 		}
393843e1988Sjohnlev 
394843e1988Sjohnlev 		mach_cpucontext_reset(cpu[i]);
395843e1988Sjohnlev 	}
396843e1988Sjohnlev }
397843e1988Sjohnlev 
398843e1988Sjohnlev static void
399843e1988Sjohnlev resume_cpus(void)
400843e1988Sjohnlev {
401843e1988Sjohnlev 	int i;
402843e1988Sjohnlev 
403843e1988Sjohnlev 	for (i = 1; i < ncpus; i++) {
404843e1988Sjohnlev 		if (cpu[i] == NULL)
405843e1988Sjohnlev 			continue;
406843e1988Sjohnlev 
407843e1988Sjohnlev 		if (!CPU_IN_SET(cpu_suspend_lost_set, i)) {
408843e1988Sjohnlev 			SUSPEND_DEBUG("xen_vcpu_up %d\n", i);
409843e1988Sjohnlev 			mach_cpucontext_restore(cpu[i]);
410843e1988Sjohnlev 			(void) xen_vcpu_up(i);
411843e1988Sjohnlev 		}
412843e1988Sjohnlev 	}
413843e1988Sjohnlev 
4141d03c31eSjohnlev 	mp_leave_barrier();
415843e1988Sjohnlev }
416843e1988Sjohnlev 
417843e1988Sjohnlev /*
418843e1988Sjohnlev  * Top level routine to direct suspend/resume of a domain.
419843e1988Sjohnlev  */
420843e1988Sjohnlev void
421843e1988Sjohnlev xen_suspend_domain(void)
422843e1988Sjohnlev {
423843e1988Sjohnlev 	extern void rtcsync(void);
424843e1988Sjohnlev 	extern hrtime_t hres_last_tick;
425843e1988Sjohnlev 	mfn_t start_info_mfn;
426843e1988Sjohnlev 	ulong_t flags;
427843e1988Sjohnlev 	pfn_t pfn;
428843e1988Sjohnlev 	int i;
429843e1988Sjohnlev 
430843e1988Sjohnlev 	/*
4319e839ce9Sgarypen 	 * Check that we are happy to suspend on this hypervisor.
4329e839ce9Sgarypen 	 */
4339e839ce9Sgarypen 	if (xen_hypervisor_supports_solaris(XEN_SUSPEND_CHECK) == 0) {
4349e839ce9Sgarypen 		cpr_err(CE_WARN, "Cannot suspend on this hypervisor "
4359e839ce9Sgarypen 		    "version: v%lu.%lu%s, need at least version v3.0.4 or "
4369e839ce9Sgarypen 		    "-xvm based hypervisor", XENVER_CURRENT(xv_major),
4379e839ce9Sgarypen 		    XENVER_CURRENT(xv_minor), XENVER_CURRENT(xv_ver));
4389e839ce9Sgarypen 		return;
4399e839ce9Sgarypen 	}
4409e839ce9Sgarypen 
4419e839ce9Sgarypen 	/*
442843e1988Sjohnlev 	 * XXPV - Are we definitely OK to suspend by the time we've connected
443843e1988Sjohnlev 	 * the handler?
444843e1988Sjohnlev 	 */
445843e1988Sjohnlev 
446843e1988Sjohnlev 	cpr_err(CE_NOTE, "Domain suspending for save/migrate");
447843e1988Sjohnlev 
448843e1988Sjohnlev 	SUSPEND_DEBUG("xen_suspend_domain\n");
449843e1988Sjohnlev 
450843e1988Sjohnlev 	/*
451843e1988Sjohnlev 	 * suspend interrupts and devices
452843e1988Sjohnlev 	 * XXPV - we use suspend/resume for both save/restore domains (like sun
453843e1988Sjohnlev 	 * cpr) and for migration.  Would be nice to know the difference if
454843e1988Sjohnlev 	 * possible.  For save/restore where down time may be a long time, we
455843e1988Sjohnlev 	 * may want to do more of the things that cpr does.  (i.e. notify user
456843e1988Sjohnlev 	 * processes, shrink memory footprint for faster restore, etc.)
457843e1988Sjohnlev 	 */
458843e1988Sjohnlev 	xen_suspend_devices();
459843e1988Sjohnlev 	SUSPEND_DEBUG("xenbus_suspend\n");
460843e1988Sjohnlev 	xenbus_suspend();
461843e1988Sjohnlev 
462843e1988Sjohnlev 	pfn = hat_getpfnum(kas.a_hat, (caddr_t)xen_info);
463843e1988Sjohnlev 	start_info_mfn = pfn_to_mfn(pfn);
464843e1988Sjohnlev 
465843e1988Sjohnlev 	/*
466843e1988Sjohnlev 	 * XXPV: cpu hotplug can hold this under a xenbus watch. Are we safe
467843e1988Sjohnlev 	 * wrt xenbus being suspended here?
468843e1988Sjohnlev 	 */
469843e1988Sjohnlev 	mutex_enter(&cpu_lock);
470843e1988Sjohnlev 
471843e1988Sjohnlev 	/*
472843e1988Sjohnlev 	 * Suspend must be done on vcpu 0, as no context for other CPUs is
473843e1988Sjohnlev 	 * saved.
474843e1988Sjohnlev 	 *
475843e1988Sjohnlev 	 * XXPV - add to taskq API ?
476843e1988Sjohnlev 	 */
477843e1988Sjohnlev 	thread_affinity_set(curthread, 0);
478843e1988Sjohnlev 	kpreempt_disable();
479843e1988Sjohnlev 
480843e1988Sjohnlev 	SUSPEND_DEBUG("xen_start_migrate\n");
481843e1988Sjohnlev 	xen_start_migrate();
482843e1988Sjohnlev 	if (ncpus > 1)
483843e1988Sjohnlev 		suspend_cpus();
484843e1988Sjohnlev 
485843e1988Sjohnlev 	/*
486843e1988Sjohnlev 	 * We can grab the ec_lock as it's a spinlock with a high SPL. Hence
487843e1988Sjohnlev 	 * any holder would have dropped it to get through suspend_cpus().
488843e1988Sjohnlev 	 */
489843e1988Sjohnlev 	mutex_enter(&ec_lock);
490843e1988Sjohnlev 
491843e1988Sjohnlev 	/*
492843e1988Sjohnlev 	 * From here on in, we can't take locks.
493843e1988Sjohnlev 	 */
494843e1988Sjohnlev 	SUSPEND_DEBUG("ec_suspend\n");
495843e1988Sjohnlev 	ec_suspend();
496843e1988Sjohnlev 	SUSPEND_DEBUG("gnttab_suspend\n");
497843e1988Sjohnlev 	gnttab_suspend();
498843e1988Sjohnlev 
499843e1988Sjohnlev 	flags = intr_clear();
500843e1988Sjohnlev 
501843e1988Sjohnlev 	xpv_time_suspend();
502843e1988Sjohnlev 
503843e1988Sjohnlev 	/*
504843e1988Sjohnlev 	 * Currently, the hypervisor incorrectly fails to bring back
505843e1988Sjohnlev 	 * powered-down VCPUs.  Thus we need to record any powered-down VCPUs
506843e1988Sjohnlev 	 * to prevent any attempts to operate on them.  But we have to do this
507843e1988Sjohnlev 	 * *after* the very first time we do ec_suspend().
508843e1988Sjohnlev 	 */
509843e1988Sjohnlev 	for (i = 1; i < ncpus; i++) {
510843e1988Sjohnlev 		if (cpu[i] == NULL)
511843e1988Sjohnlev 			continue;
512843e1988Sjohnlev 
513843e1988Sjohnlev 		if (cpu_get_state(cpu[i]) == P_POWEROFF)
514843e1988Sjohnlev 			CPUSET_ATOMIC_ADD(cpu_suspend_lost_set, i);
515843e1988Sjohnlev 	}
516843e1988Sjohnlev 
517843e1988Sjohnlev 	/*
518843e1988Sjohnlev 	 * The dom0 save/migrate code doesn't automatically translate
519843e1988Sjohnlev 	 * these into PFNs, but expects them to be, so we do it here.
520843e1988Sjohnlev 	 * We don't use mfn_to_pfn() because so many OS services have
521843e1988Sjohnlev 	 * been disabled at this point.
522843e1988Sjohnlev 	 */
523843e1988Sjohnlev 	xen_info->store_mfn = mfn_to_pfn_mapping[xen_info->store_mfn];
524843e1988Sjohnlev 	xen_info->console.domU.mfn =
525843e1988Sjohnlev 	    mfn_to_pfn_mapping[xen_info->console.domU.mfn];
526843e1988Sjohnlev 
527843e1988Sjohnlev 	if (CPU->cpu_m.mcpu_vcpu_info->evtchn_upcall_mask == 0) {
528843e1988Sjohnlev 		prom_printf("xen_suspend_domain(): "
529843e1988Sjohnlev 		    "CPU->cpu_m.mcpu_vcpu_info->evtchn_upcall_mask not set\n");
530843e1988Sjohnlev 		(void) HYPERVISOR_shutdown(SHUTDOWN_crash);
531843e1988Sjohnlev 	}
532843e1988Sjohnlev 
533843e1988Sjohnlev 	if (HYPERVISOR_update_va_mapping((uintptr_t)HYPERVISOR_shared_info,
534843e1988Sjohnlev 	    0, UVMF_INVLPG)) {
535843e1988Sjohnlev 		prom_printf("xen_suspend_domain(): "
536843e1988Sjohnlev 		    "HYPERVISOR_update_va_mapping() failed\n");
537843e1988Sjohnlev 		(void) HYPERVISOR_shutdown(SHUTDOWN_crash);
538843e1988Sjohnlev 	}
539843e1988Sjohnlev 
540843e1988Sjohnlev 	SUSPEND_DEBUG("HYPERVISOR_suspend\n");
541843e1988Sjohnlev 
542843e1988Sjohnlev 	/*
543843e1988Sjohnlev 	 * At this point we suspend and sometime later resume.
544843e1988Sjohnlev 	 */
545843e1988Sjohnlev 	if (HYPERVISOR_suspend(start_info_mfn)) {
546843e1988Sjohnlev 		prom_printf("xen_suspend_domain(): "
547843e1988Sjohnlev 		    "HYPERVISOR_suspend() failed\n");
548843e1988Sjohnlev 		(void) HYPERVISOR_shutdown(SHUTDOWN_crash);
549843e1988Sjohnlev 	}
550843e1988Sjohnlev 
551843e1988Sjohnlev 	/*
552843e1988Sjohnlev 	 * Point HYPERVISOR_shared_info to its new value.
553843e1988Sjohnlev 	 */
554843e1988Sjohnlev 	if (HYPERVISOR_update_va_mapping((uintptr_t)HYPERVISOR_shared_info,
555843e1988Sjohnlev 	    xen_info->shared_info | PT_NOCONSIST | PT_VALID | PT_WRITABLE,
556843e1988Sjohnlev 	    UVMF_INVLPG))
557843e1988Sjohnlev 		(void) HYPERVISOR_shutdown(SHUTDOWN_crash);
558843e1988Sjohnlev 
559843e1988Sjohnlev 	if (xen_info->nr_pages != mfn_count) {
560843e1988Sjohnlev 		prom_printf("xen_suspend_domain(): number of pages"
561843e1988Sjohnlev 		    " changed, was 0x%lx, now 0x%lx\n", mfn_count,
562843e1988Sjohnlev 		    xen_info->nr_pages);
563843e1988Sjohnlev 		(void) HYPERVISOR_shutdown(SHUTDOWN_crash);
564843e1988Sjohnlev 	}
565843e1988Sjohnlev 
566843e1988Sjohnlev 	xpv_time_resume();
567843e1988Sjohnlev 
568843e1988Sjohnlev 	cached_max_mfn = 0;
569843e1988Sjohnlev 
570843e1988Sjohnlev 	SUSPEND_DEBUG("gnttab_resume\n");
571843e1988Sjohnlev 	gnttab_resume();
572843e1988Sjohnlev 
573843e1988Sjohnlev 	/* XXPV: add a note that this must be lockless. */
574843e1988Sjohnlev 	SUSPEND_DEBUG("ec_resume\n");
575843e1988Sjohnlev 	ec_resume();
576843e1988Sjohnlev 
577843e1988Sjohnlev 	intr_restore(flags);
578843e1988Sjohnlev 
579843e1988Sjohnlev 	if (ncpus > 1)
580843e1988Sjohnlev 		resume_cpus();
581843e1988Sjohnlev 
582843e1988Sjohnlev 	mutex_exit(&ec_lock);
583843e1988Sjohnlev 	xen_end_migrate();
584843e1988Sjohnlev 	mutex_exit(&cpu_lock);
585843e1988Sjohnlev 
586843e1988Sjohnlev 	/*
587843e1988Sjohnlev 	 * Now we can take locks again.
588843e1988Sjohnlev 	 */
589843e1988Sjohnlev 
590843e1988Sjohnlev 	/*
591843e1988Sjohnlev 	 * Force the tick value used for tv_nsec in hres_tick() to be up to
592843e1988Sjohnlev 	 * date. rtcsync() will reset the hrestime value appropriately.
593843e1988Sjohnlev 	 */
594843e1988Sjohnlev 	hres_last_tick = xpv_gethrtime();
595843e1988Sjohnlev 
596843e1988Sjohnlev 	/*
597843e1988Sjohnlev 	 * XXPV: we need to have resumed the CPUs since this takes locks, but
598843e1988Sjohnlev 	 * can remote CPUs see bad state? Presumably yes. Should probably nest
599843e1988Sjohnlev 	 * taking of todlock inside of cpu_lock, or vice versa, then provide an
600843e1988Sjohnlev 	 * unlocked version.  Probably need to call clkinitf to reset cpu freq
601843e1988Sjohnlev 	 * and re-calibrate if we migrated to a different speed cpu.  Also need
602843e1988Sjohnlev 	 * to make a (re)init_cpu_info call to update processor info structs
603843e1988Sjohnlev 	 * and device tree info.  That remains to be written at the moment.
604843e1988Sjohnlev 	 */
605843e1988Sjohnlev 	rtcsync();
606843e1988Sjohnlev 
607843e1988Sjohnlev 	rebuild_mfn_list();
608843e1988Sjohnlev 
609843e1988Sjohnlev 	SUSPEND_DEBUG("xenbus_resume\n");
610843e1988Sjohnlev 	xenbus_resume();
611843e1988Sjohnlev 	SUSPEND_DEBUG("xenbus_resume_devices\n");
612843e1988Sjohnlev 	xen_resume_devices();
613843e1988Sjohnlev 
614843e1988Sjohnlev 	thread_affinity_clear(curthread);
615843e1988Sjohnlev 	kpreempt_enable();
616843e1988Sjohnlev 
617843e1988Sjohnlev 	SUSPEND_DEBUG("finished xen_suspend_domain\n");
6189e839ce9Sgarypen 
6199e839ce9Sgarypen 	/*
6209e839ce9Sgarypen 	 * We have restarted our suspended domain, update the hypervisor
6219e839ce9Sgarypen 	 * details. NB: This must be done at the end of this function,
6229e839ce9Sgarypen 	 * since we need the domain to be completely resumed before
6239e839ce9Sgarypen 	 * these functions will work correctly.
6249e839ce9Sgarypen 	 */
6259e839ce9Sgarypen 	xen_set_version(XENVER_CURRENT_IDX);
6269e839ce9Sgarypen 
6279e839ce9Sgarypen 	/*
6289e839ce9Sgarypen 	 * We can check and report a warning, but we don't stop the
6299e839ce9Sgarypen 	 * process.
6309e839ce9Sgarypen 	 */
6319e839ce9Sgarypen 	if (xen_hypervisor_supports_solaris(XEN_SUSPEND_CHECK) == 0)
6329e839ce9Sgarypen 		cmn_err(CE_WARN, "Found hypervisor version: v%lu.%lu%s "
6339e839ce9Sgarypen 		    "but need at least version v3.0.4",
6349e839ce9Sgarypen 		    XENVER_CURRENT(xv_major), XENVER_CURRENT(xv_minor),
6359e839ce9Sgarypen 		    XENVER_CURRENT(xv_ver));
6369e839ce9Sgarypen 
637843e1988Sjohnlev 	cmn_err(CE_NOTE, "domain restore/migrate completed");
638843e1988Sjohnlev }
639843e1988Sjohnlev 
640*db830ba5SToomas Soome uint_t
641*db830ba5SToomas Soome xen_debug_handler(caddr_t arg __unused, caddr_t arg1 __unused)
642843e1988Sjohnlev {
643843e1988Sjohnlev 	debug_enter("External debug event received");
644843e1988Sjohnlev 
645843e1988Sjohnlev 	/*
646843e1988Sjohnlev 	 * If we've not got KMDB loaded, output some stuff difficult to capture
647843e1988Sjohnlev 	 * from a domain core.
648843e1988Sjohnlev 	 */
649843e1988Sjohnlev 	if (!(boothowto & RB_DEBUG)) {
650843e1988Sjohnlev 		shared_info_t *si = HYPERVISOR_shared_info;
651843e1988Sjohnlev 		int i;
652843e1988Sjohnlev 
653843e1988Sjohnlev 		prom_printf("evtchn_pending [ ");
654843e1988Sjohnlev 		for (i = 0; i < 8; i++)
655843e1988Sjohnlev 			prom_printf("%lx ", si->evtchn_pending[i]);
656843e1988Sjohnlev 		prom_printf("]\nevtchn_mask [ ");
657843e1988Sjohnlev 		for (i = 0; i < 8; i++)
658843e1988Sjohnlev 			prom_printf("%lx ", si->evtchn_mask[i]);
659843e1988Sjohnlev 		prom_printf("]\n");
660843e1988Sjohnlev 
661843e1988Sjohnlev 		for (i = 0; i < ncpus; i++) {
662843e1988Sjohnlev 			vcpu_info_t *vcpu = &si->vcpu_info[i];
663843e1988Sjohnlev 			if (cpu[i] == NULL)
664843e1988Sjohnlev 				continue;
665843e1988Sjohnlev 			prom_printf("CPU%d pending %d mask %d sel %lx\n",
666843e1988Sjohnlev 			    i, vcpu->evtchn_upcall_pending,
667843e1988Sjohnlev 			    vcpu->evtchn_upcall_mask,
668843e1988Sjohnlev 			    vcpu->evtchn_pending_sel);
669843e1988Sjohnlev 		}
670843e1988Sjohnlev 	}
671843e1988Sjohnlev 
672843e1988Sjohnlev 	return (0);
673843e1988Sjohnlev }
674843e1988Sjohnlev 
675843e1988Sjohnlev /*ARGSUSED*/
676843e1988Sjohnlev static void
677843e1988Sjohnlev xen_sysrq_handler(struct xenbus_watch *watch, const char **vec,
678843e1988Sjohnlev     unsigned int len)
679843e1988Sjohnlev {
680843e1988Sjohnlev 	xenbus_transaction_t xbt;
681843e1988Sjohnlev 	char key = '\0';
682843e1988Sjohnlev 	int ret;
683843e1988Sjohnlev 
684843e1988Sjohnlev retry:
685843e1988Sjohnlev 	if (xenbus_transaction_start(&xbt)) {
686843e1988Sjohnlev 		cmn_err(CE_WARN, "failed to start sysrq transaction");
687843e1988Sjohnlev 		return;
688843e1988Sjohnlev 	}
689843e1988Sjohnlev 
690843e1988Sjohnlev 	if ((ret = xenbus_scanf(xbt, "control", "sysrq", "%c", &key)) != 0) {
691843e1988Sjohnlev 		/*
692843e1988Sjohnlev 		 * ENOENT happens in response to our own xenbus_rm.
693843e1988Sjohnlev 		 * XXPV - this happens spuriously on boot?
694843e1988Sjohnlev 		 */
695843e1988Sjohnlev 		if (ret != ENOENT)
696843e1988Sjohnlev 			cmn_err(CE_WARN, "failed to read sysrq: %d", ret);
697843e1988Sjohnlev 		goto out;
698843e1988Sjohnlev 	}
699843e1988Sjohnlev 
700843e1988Sjohnlev 	if ((ret = xenbus_rm(xbt, "control", "sysrq")) != 0) {
701843e1988Sjohnlev 		cmn_err(CE_WARN, "failed to reset sysrq: %d", ret);
702843e1988Sjohnlev 		goto out;
703843e1988Sjohnlev 	}
704843e1988Sjohnlev 
705843e1988Sjohnlev 	if (xenbus_transaction_end(xbt, 0) == EAGAIN)
706843e1988Sjohnlev 		goto retry;
707843e1988Sjohnlev 
708843e1988Sjohnlev 	/*
709843e1988Sjohnlev 	 * Somewhat arbitrary - on Linux this means 'reboot'. We could just
710843e1988Sjohnlev 	 * accept any key, but this might increase the risk of sending a
711843e1988Sjohnlev 	 * harmless sysrq to the wrong domain...
712843e1988Sjohnlev 	 */
713843e1988Sjohnlev 	if (key == 'b')
714*db830ba5SToomas Soome 		(void) xen_debug_handler(NULL, NULL);
715843e1988Sjohnlev 	else
716843e1988Sjohnlev 		cmn_err(CE_WARN, "Ignored sysrq %c", key);
717843e1988Sjohnlev 	return;
718843e1988Sjohnlev 
719843e1988Sjohnlev out:
720843e1988Sjohnlev 	(void) xenbus_transaction_end(xbt, 1);
721843e1988Sjohnlev }
722843e1988Sjohnlev 
723843e1988Sjohnlev taskq_t *xen_shutdown_tq;
724843e1988Sjohnlev 
725843e1988Sjohnlev #define	SHUTDOWN_INVALID	-1
726843e1988Sjohnlev #define	SHUTDOWN_POWEROFF	0
727843e1988Sjohnlev #define	SHUTDOWN_REBOOT		1
728843e1988Sjohnlev #define	SHUTDOWN_SUSPEND	2
729843e1988Sjohnlev #define	SHUTDOWN_HALT		3
730843e1988Sjohnlev #define	SHUTDOWN_MAX		4
731843e1988Sjohnlev 
732843e1988Sjohnlev #define	SHUTDOWN_TIMEOUT_SECS (60 * 5)
733843e1988Sjohnlev 
734843e1988Sjohnlev static const char *cmd_strings[SHUTDOWN_MAX] = {
735843e1988Sjohnlev 	"poweroff",
736843e1988Sjohnlev 	"reboot",
737843e1988Sjohnlev 	"suspend",
738843e1988Sjohnlev 	"halt"
739843e1988Sjohnlev };
740843e1988Sjohnlev 
741843e1988Sjohnlev static void
742843e1988Sjohnlev xen_dirty_shutdown(void *arg)
743843e1988Sjohnlev {
744843e1988Sjohnlev 	int cmd = (uintptr_t)arg;
745843e1988Sjohnlev 
746843e1988Sjohnlev 	cmn_err(CE_WARN, "Externally requested shutdown failed or "
747843e1988Sjohnlev 	    "timed out.\nShutting down.\n");
748843e1988Sjohnlev 
749843e1988Sjohnlev 	switch (cmd) {
750843e1988Sjohnlev 	case SHUTDOWN_HALT:
751843e1988Sjohnlev 	case SHUTDOWN_POWEROFF:
752843e1988Sjohnlev 		(void) kadmin(A_SHUTDOWN, AD_POWEROFF, NULL, kcred);
753843e1988Sjohnlev 		break;
754843e1988Sjohnlev 	case SHUTDOWN_REBOOT:
755843e1988Sjohnlev 		(void) kadmin(A_REBOOT, AD_BOOT, NULL, kcred);
756843e1988Sjohnlev 		break;
757843e1988Sjohnlev 	}
758843e1988Sjohnlev }
759843e1988Sjohnlev 
760843e1988Sjohnlev static void
761843e1988Sjohnlev xen_shutdown(void *arg)
762843e1988Sjohnlev {
763843e1988Sjohnlev 	int cmd = (uintptr_t)arg;
764c48ac12eSjohnlev 	proc_t *initpp;
765843e1988Sjohnlev 
766843e1988Sjohnlev 	ASSERT(cmd > SHUTDOWN_INVALID && cmd < SHUTDOWN_MAX);
767843e1988Sjohnlev 
768843e1988Sjohnlev 	if (cmd == SHUTDOWN_SUSPEND) {
769843e1988Sjohnlev 		xen_suspend_domain();
770843e1988Sjohnlev 		return;
771843e1988Sjohnlev 	}
772843e1988Sjohnlev 
773c48ac12eSjohnlev 	switch (cmd) {
774c48ac12eSjohnlev 	case SHUTDOWN_POWEROFF:
775c48ac12eSjohnlev 		force_shutdown_method = AD_POWEROFF;
776c48ac12eSjohnlev 		break;
777c48ac12eSjohnlev 	case SHUTDOWN_HALT:
778c48ac12eSjohnlev 		force_shutdown_method = AD_HALT;
779c48ac12eSjohnlev 		break;
780c48ac12eSjohnlev 	case SHUTDOWN_REBOOT:
781c48ac12eSjohnlev 		force_shutdown_method = AD_BOOT;
782c48ac12eSjohnlev 		break;
783c48ac12eSjohnlev 	}
784843e1988Sjohnlev 
785c48ac12eSjohnlev 	/*
786c48ac12eSjohnlev 	 * If we're still booting and init(1) isn't set up yet, simply halt.
787c48ac12eSjohnlev 	 */
788c48ac12eSjohnlev 	mutex_enter(&pidlock);
789c48ac12eSjohnlev 	initpp = prfind(P_INITPID);
790c48ac12eSjohnlev 	mutex_exit(&pidlock);
791c48ac12eSjohnlev 	if (initpp == NULL) {
792c48ac12eSjohnlev 		extern void halt(char *);
793c48ac12eSjohnlev 		halt("Power off the System");   /* just in case */
794c48ac12eSjohnlev 	}
795843e1988Sjohnlev 
796c48ac12eSjohnlev 	/*
797c48ac12eSjohnlev 	 * else, graceful shutdown with inittab and all getting involved
798c48ac12eSjohnlev 	 */
799c48ac12eSjohnlev 	psignal(initpp, SIGPWR);
800843e1988Sjohnlev 
801843e1988Sjohnlev 	(void) timeout(xen_dirty_shutdown, arg,
802843e1988Sjohnlev 	    SHUTDOWN_TIMEOUT_SECS * drv_usectohz(MICROSEC));
803843e1988Sjohnlev }
804843e1988Sjohnlev 
805843e1988Sjohnlev /*ARGSUSED*/
806843e1988Sjohnlev static void
807843e1988Sjohnlev xen_shutdown_handler(struct xenbus_watch *watch, const char **vec,
808843e1988Sjohnlev     unsigned int len)
809843e1988Sjohnlev {
810843e1988Sjohnlev 	char *str;
811843e1988Sjohnlev 	xenbus_transaction_t xbt;
812843e1988Sjohnlev 	int err, shutdown_code = SHUTDOWN_INVALID;
813843e1988Sjohnlev 	unsigned int slen;
814843e1988Sjohnlev 
815843e1988Sjohnlev again:
816843e1988Sjohnlev 	err = xenbus_transaction_start(&xbt);
817843e1988Sjohnlev 	if (err)
818843e1988Sjohnlev 		return;
819843e1988Sjohnlev 	if (xenbus_read(xbt, "control", "shutdown", (void *)&str, &slen)) {
820843e1988Sjohnlev 		(void) xenbus_transaction_end(xbt, 1);
821843e1988Sjohnlev 		return;
822843e1988Sjohnlev 	}
823843e1988Sjohnlev 
824843e1988Sjohnlev 	SUSPEND_DEBUG("%d: xen_shutdown_handler: \"%s\"\n", CPU->cpu_id, str);
825843e1988Sjohnlev 
826843e1988Sjohnlev 	/*
827843e1988Sjohnlev 	 * If this is a watch fired from our write below, check out early to
828843e1988Sjohnlev 	 * avoid an infinite loop.
829843e1988Sjohnlev 	 */
830843e1988Sjohnlev 	if (strcmp(str, "") == 0) {
831843e1988Sjohnlev 		(void) xenbus_transaction_end(xbt, 0);
832843e1988Sjohnlev 		kmem_free(str, slen);
833843e1988Sjohnlev 		return;
834843e1988Sjohnlev 	} else if (strcmp(str, "poweroff") == 0) {
835843e1988Sjohnlev 		shutdown_code = SHUTDOWN_POWEROFF;
836843e1988Sjohnlev 	} else if (strcmp(str, "reboot") == 0) {
837843e1988Sjohnlev 		shutdown_code = SHUTDOWN_REBOOT;
838843e1988Sjohnlev 	} else if (strcmp(str, "suspend") == 0) {
839843e1988Sjohnlev 		shutdown_code = SHUTDOWN_SUSPEND;
840843e1988Sjohnlev 	} else if (strcmp(str, "halt") == 0) {
841843e1988Sjohnlev 		shutdown_code = SHUTDOWN_HALT;
842843e1988Sjohnlev 	} else {
843843e1988Sjohnlev 		printf("Ignoring shutdown request: %s\n", str);
844843e1988Sjohnlev 	}
845843e1988Sjohnlev 
846843e1988Sjohnlev 	/*
847843e1988Sjohnlev 	 * XXPV	Should we check the value of xenbus_write() too, or are all
848843e1988Sjohnlev 	 *	errors automatically folded into xenbus_transaction_end() ??
849843e1988Sjohnlev 	 */
850843e1988Sjohnlev 	(void) xenbus_write(xbt, "control", "shutdown", "");
851843e1988Sjohnlev 	err = xenbus_transaction_end(xbt, 0);
852843e1988Sjohnlev 	if (err == EAGAIN) {
853843e1988Sjohnlev 		SUSPEND_DEBUG("%d: trying again\n", CPU->cpu_id);
854843e1988Sjohnlev 		kmem_free(str, slen);
855843e1988Sjohnlev 		goto again;
856843e1988Sjohnlev 	}
857843e1988Sjohnlev 
858843e1988Sjohnlev 	kmem_free(str, slen);
859843e1988Sjohnlev 	if (shutdown_code != SHUTDOWN_INVALID) {
860843e1988Sjohnlev 		(void) taskq_dispatch(xen_shutdown_tq, xen_shutdown,
861843e1988Sjohnlev 		    (void *)(intptr_t)shutdown_code, 0);
862843e1988Sjohnlev 	}
863843e1988Sjohnlev }
864843e1988Sjohnlev 
865843e1988Sjohnlev static struct xenbus_watch shutdown_watch;
866843e1988Sjohnlev static struct xenbus_watch sysrq_watch;
867843e1988Sjohnlev 
868843e1988Sjohnlev void
869843e1988Sjohnlev xen_late_startup(void)
870843e1988Sjohnlev {
871843e1988Sjohnlev 	if (!DOMAIN_IS_INITDOMAIN(xen_info)) {
872843e1988Sjohnlev 		xen_shutdown_tq = taskq_create("shutdown_taskq", 1,
873843e1988Sjohnlev 		    maxclsyspri - 1, 1, 1, TASKQ_PREPOPULATE);
874843e1988Sjohnlev 		shutdown_watch.node = "control/shutdown";
875843e1988Sjohnlev 		shutdown_watch.callback = xen_shutdown_handler;
876843e1988Sjohnlev 		if (register_xenbus_watch(&shutdown_watch))
877843e1988Sjohnlev 			cmn_err(CE_WARN, "Failed to set shutdown watcher");
878843e1988Sjohnlev 
879843e1988Sjohnlev 		sysrq_watch.node = "control/sysrq";
880843e1988Sjohnlev 		sysrq_watch.callback = xen_sysrq_handler;
881843e1988Sjohnlev 		if (register_xenbus_watch(&sysrq_watch))
882843e1988Sjohnlev 			cmn_err(CE_WARN, "Failed to set sysrq watcher");
883843e1988Sjohnlev 	}
884843e1988Sjohnlev 	balloon_init(xen_info->nr_pages);
885843e1988Sjohnlev }
886843e1988Sjohnlev 
887843e1988Sjohnlev #ifdef DEBUG
888843e1988Sjohnlev #define	XEN_PRINTF_BUFSIZE	1024
889843e1988Sjohnlev 
890843e1988Sjohnlev char xen_printf_buffer[XEN_PRINTF_BUFSIZE];
891843e1988Sjohnlev 
892843e1988Sjohnlev /*
893843e1988Sjohnlev  * Printf function that calls hypervisor directly.  For DomU it only
894843e1988Sjohnlev  * works when running on a xen hypervisor built with debug on.  Works
895843e1988Sjohnlev  * always since no I/O ring interaction is needed.
896843e1988Sjohnlev  */
897843e1988Sjohnlev /*PRINTFLIKE1*/
898843e1988Sjohnlev void
899843e1988Sjohnlev xen_printf(const char *fmt, ...)
900843e1988Sjohnlev {
901843e1988Sjohnlev 	va_list	ap;
902843e1988Sjohnlev 
903843e1988Sjohnlev 	va_start(ap, fmt);
904843e1988Sjohnlev 	(void) vsnprintf(xen_printf_buffer, XEN_PRINTF_BUFSIZE, fmt, ap);
905843e1988Sjohnlev 	va_end(ap);
906843e1988Sjohnlev 
907843e1988Sjohnlev 	(void) HYPERVISOR_console_io(CONSOLEIO_write,
908843e1988Sjohnlev 	    strlen(xen_printf_buffer), xen_printf_buffer);
909843e1988Sjohnlev }
910843e1988Sjohnlev #else
911843e1988Sjohnlev void
912843e1988Sjohnlev xen_printf(const char *fmt, ...)
913843e1988Sjohnlev {
914843e1988Sjohnlev }
915843e1988Sjohnlev #endif	/* DEBUG */
916843e1988Sjohnlev 
917843e1988Sjohnlev void
918ab4a9bebSjohnlev startup_xen_version(void)
919843e1988Sjohnlev {
9209e839ce9Sgarypen 	xen_set_version(XENVER_BOOT_IDX);
9219e839ce9Sgarypen 	if (xen_hypervisor_supports_solaris(XEN_RUN_CHECK) == 0)
9229e839ce9Sgarypen 		cmn_err(CE_WARN, "Found hypervisor version: v%lu.%lu%s "
9239e839ce9Sgarypen 		    "but need at least version v3.0.4",
9249e839ce9Sgarypen 		    XENVER_CURRENT(xv_major), XENVER_CURRENT(xv_minor),
9259e839ce9Sgarypen 		    XENVER_CURRENT(xv_ver));
926ab4a9bebSjohnlev 	xen_pte_workaround();
927843e1988Sjohnlev }
928843e1988Sjohnlev 
929e4b86885SCheng Sean Ye int xen_mca_simulate_mc_physinfo_failure = 0;
930e4b86885SCheng Sean Ye 
931e4b86885SCheng Sean Ye void
932e4b86885SCheng Sean Ye startup_xen_mca(void)
933e4b86885SCheng Sean Ye {
934e4b86885SCheng Sean Ye 	if (!DOMAIN_IS_INITDOMAIN(xen_info))
935e4b86885SCheng Sean Ye 		return;
936e4b86885SCheng Sean Ye 
937e4b86885SCheng Sean Ye 	xen_phys_ncpus = 0;
938e4b86885SCheng Sean Ye 	xen_phys_cpus = NULL;
939e4b86885SCheng Sean Ye 
940e4b86885SCheng Sean Ye 	if (xen_mca_simulate_mc_physinfo_failure ||
941e4b86885SCheng Sean Ye 	    xen_get_mc_physcpuinfo(NULL, &xen_phys_ncpus) != 0) {
942e4b86885SCheng Sean Ye 		cmn_err(CE_WARN,
943e4b86885SCheng Sean Ye 		    "%sxen_get_mc_physinfo failure during xen MCA startup: "
944e4b86885SCheng Sean Ye 		    "there will be no machine check support",
945e4b86885SCheng Sean Ye 		    xen_mca_simulate_mc_physinfo_failure ? "(simulated) " : "");
946e4b86885SCheng Sean Ye 		return;
947e4b86885SCheng Sean Ye 	}
948e4b86885SCheng Sean Ye 
949e4b86885SCheng Sean Ye 	xen_phys_cpus = kmem_alloc(xen_phys_ncpus *
950e4b86885SCheng Sean Ye 	    sizeof (xen_mc_logical_cpu_t), KM_NOSLEEP);
951e4b86885SCheng Sean Ye 
952e4b86885SCheng Sean Ye 	if (xen_phys_cpus == NULL) {
953e4b86885SCheng Sean Ye 		cmn_err(CE_WARN,
954349b53ddSStuart Maybee 		    "xen_get_mc_physinfo failure: can't allocate CPU array");
955e4b86885SCheng Sean Ye 		return;
956e4b86885SCheng Sean Ye 	}
957e4b86885SCheng Sean Ye 
958e4b86885SCheng Sean Ye 	if (xen_get_mc_physcpuinfo(xen_phys_cpus, &xen_phys_ncpus) != 0) {
959e4b86885SCheng Sean Ye 		cmn_err(CE_WARN, "xen_get_mc_physinfo failure: no "
960e4b86885SCheng Sean Ye 		    "physical CPU info");
961e4b86885SCheng Sean Ye 		kmem_free(xen_phys_cpus,
962e4b86885SCheng Sean Ye 		    xen_phys_ncpus * sizeof (xen_mc_logical_cpu_t));
963e4b86885SCheng Sean Ye 		xen_phys_ncpus = 0;
964e4b86885SCheng Sean Ye 		xen_phys_cpus = NULL;
965e4b86885SCheng Sean Ye 	}
966e4b86885SCheng Sean Ye 
967e4b86885SCheng Sean Ye 	if (xen_physinfo_debug) {
968e4b86885SCheng Sean Ye 		xen_mc_logical_cpu_t *xcp;
969e4b86885SCheng Sean Ye 		unsigned i;
970e4b86885SCheng Sean Ye 
971e4b86885SCheng Sean Ye 		cmn_err(CE_NOTE, "xvm mca: %u physical cpus:\n",
972e4b86885SCheng Sean Ye 		    xen_phys_ncpus);
973e4b86885SCheng Sean Ye 		for (i = 0; i < xen_phys_ncpus; i++) {
974e4b86885SCheng Sean Ye 			xcp = &xen_phys_cpus[i];
975e4b86885SCheng Sean Ye 			cmn_err(CE_NOTE, "cpu%u: (%u, %u, %u) apid %u",
976e4b86885SCheng Sean Ye 			    xcp->mc_cpunr, xcp->mc_chipid, xcp->mc_coreid,
977e4b86885SCheng Sean Ye 			    xcp->mc_threadid, xcp->mc_apicid);
978e4b86885SCheng Sean Ye 		}
979e4b86885SCheng Sean Ye 	}
980e4b86885SCheng Sean Ye }
981e4b86885SCheng Sean Ye 
982843e1988Sjohnlev /*
983843e1988Sjohnlev  * Miscellaneous hypercall wrappers with slightly more verbose diagnostics.
984843e1988Sjohnlev  */
985843e1988Sjohnlev 
986843e1988Sjohnlev void
987843e1988Sjohnlev xen_set_gdt(ulong_t *frame_list, int entries)
988843e1988Sjohnlev {
989843e1988Sjohnlev 	int err;
990843e1988Sjohnlev 	if ((err = HYPERVISOR_set_gdt(frame_list, entries)) != 0) {
991843e1988Sjohnlev 		/*
992843e1988Sjohnlev 		 * X_EINVAL:	reserved entry or bad frames
993843e1988Sjohnlev 		 * X_EFAULT:	bad address
994843e1988Sjohnlev 		 */
995843e1988Sjohnlev 		panic("xen_set_gdt(%p, %d): error %d",
996843e1988Sjohnlev 		    (void *)frame_list, entries, -(int)err);
997843e1988Sjohnlev 	}
998843e1988Sjohnlev }
999843e1988Sjohnlev 
1000843e1988Sjohnlev void
1001843e1988Sjohnlev xen_set_ldt(user_desc_t *ldt, uint_t nsels)
1002843e1988Sjohnlev {
1003843e1988Sjohnlev 	struct mmuext_op	op;
1004843e1988Sjohnlev 	long			err;
1005843e1988Sjohnlev 
1006843e1988Sjohnlev 	op.cmd = MMUEXT_SET_LDT;
1007843e1988Sjohnlev 	op.arg1.linear_addr = (uintptr_t)ldt;
1008843e1988Sjohnlev 	op.arg2.nr_ents = nsels;
1009843e1988Sjohnlev 
1010843e1988Sjohnlev 	if ((err = HYPERVISOR_mmuext_op(&op, 1, NULL, DOMID_SELF)) != 0) {
1011843e1988Sjohnlev 		panic("xen_set_ldt(%p, %d): error %d",
1012843e1988Sjohnlev 		    (void *)ldt, nsels, -(int)err);
1013843e1988Sjohnlev 	}
1014843e1988Sjohnlev }
1015843e1988Sjohnlev 
1016843e1988Sjohnlev void
1017843e1988Sjohnlev xen_stack_switch(ulong_t ss, ulong_t esp)
1018843e1988Sjohnlev {
1019843e1988Sjohnlev 	long err;
1020843e1988Sjohnlev 
1021843e1988Sjohnlev 	if ((err = HYPERVISOR_stack_switch(ss, esp)) != 0) {
1022843e1988Sjohnlev 		/*
1023843e1988Sjohnlev 		 * X_EPERM:	bad selector
1024843e1988Sjohnlev 		 */
1025843e1988Sjohnlev 		panic("xen_stack_switch(%lx, %lx): error %d", ss, esp,
1026843e1988Sjohnlev 		    -(int)err);
1027843e1988Sjohnlev 	}
1028843e1988Sjohnlev }
1029843e1988Sjohnlev 
1030843e1988Sjohnlev long
1031843e1988Sjohnlev xen_set_trap_table(trap_info_t *table)
1032843e1988Sjohnlev {
1033843e1988Sjohnlev 	long err;
1034843e1988Sjohnlev 
1035843e1988Sjohnlev 	if ((err = HYPERVISOR_set_trap_table(table)) != 0) {
1036843e1988Sjohnlev 		/*
1037843e1988Sjohnlev 		 * X_EFAULT:	bad address
1038843e1988Sjohnlev 		 * X_EPERM:	bad selector
1039843e1988Sjohnlev 		 */
1040843e1988Sjohnlev 		panic("xen_set_trap_table(%p): error %d", (void *)table,
1041843e1988Sjohnlev 		    -(int)err);
1042843e1988Sjohnlev 	}
1043843e1988Sjohnlev 	return (err);
1044843e1988Sjohnlev }
1045843e1988Sjohnlev 
1046843e1988Sjohnlev #if defined(__amd64)
1047843e1988Sjohnlev void
1048843e1988Sjohnlev xen_set_segment_base(int reg, ulong_t value)
1049843e1988Sjohnlev {
1050843e1988Sjohnlev 	long err;
1051843e1988Sjohnlev 
1052843e1988Sjohnlev 	if ((err = HYPERVISOR_set_segment_base(reg, value)) != 0) {
1053843e1988Sjohnlev 		/*
1054843e1988Sjohnlev 		 * X_EFAULT:	bad address
1055843e1988Sjohnlev 		 * X_EINVAL:	bad type
1056843e1988Sjohnlev 		 */
1057843e1988Sjohnlev 		panic("xen_set_segment_base(%d, %lx): error %d",
1058843e1988Sjohnlev 		    reg, value, -(int)err);
1059843e1988Sjohnlev 	}
1060843e1988Sjohnlev }
1061843e1988Sjohnlev #endif	/* __amd64 */
1062843e1988Sjohnlev 
1063843e1988Sjohnlev /*
1064843e1988Sjohnlev  * Translate a hypervisor errcode to a Solaris error code.
1065843e1988Sjohnlev  */
1066843e1988Sjohnlev int
1067843e1988Sjohnlev xen_xlate_errcode(int error)
1068843e1988Sjohnlev {
1069843e1988Sjohnlev 	switch (-error) {
1070843e1988Sjohnlev 
1071843e1988Sjohnlev 	/*
1072843e1988Sjohnlev 	 * Translate hypervisor errno's into native errno's
1073843e1988Sjohnlev 	 */
1074843e1988Sjohnlev 
1075843e1988Sjohnlev #define	CASE(num)	case X_##num: error = num; break
1076843e1988Sjohnlev 
1077843e1988Sjohnlev 	CASE(EPERM);	CASE(ENOENT);	CASE(ESRCH);
1078843e1988Sjohnlev 	CASE(EINTR);	CASE(EIO);	CASE(ENXIO);
1079843e1988Sjohnlev 	CASE(E2BIG);	CASE(ENOMEM);	CASE(EACCES);
1080843e1988Sjohnlev 	CASE(EFAULT);	CASE(EBUSY);	CASE(EEXIST);
1081843e1988Sjohnlev 	CASE(ENODEV);	CASE(EISDIR);	CASE(EINVAL);
1082843e1988Sjohnlev 	CASE(ENOSPC);	CASE(ESPIPE);	CASE(EROFS);
1083843e1988Sjohnlev 	CASE(ENOSYS);	CASE(ENOTEMPTY); CASE(EISCONN);
1084349b53ddSStuart Maybee 	CASE(ENODATA);	CASE(EAGAIN);
1085843e1988Sjohnlev 
1086843e1988Sjohnlev #undef CASE
1087843e1988Sjohnlev 
1088843e1988Sjohnlev 	default:
1089843e1988Sjohnlev 		panic("xen_xlate_errcode: unknown error %d", error);
1090843e1988Sjohnlev 	}
1091843e1988Sjohnlev 
1092843e1988Sjohnlev 	return (error);
1093843e1988Sjohnlev }
1094843e1988Sjohnlev 
1095843e1988Sjohnlev /*
1096843e1988Sjohnlev  * Raise PS_IOPL on current vcpu to user level.
1097843e1988Sjohnlev  * Caller responsible for preventing kernel preemption.
1098843e1988Sjohnlev  */
1099843e1988Sjohnlev void
1100843e1988Sjohnlev xen_enable_user_iopl(void)
1101843e1988Sjohnlev {
1102843e1988Sjohnlev 	physdev_set_iopl_t set_iopl;
1103843e1988Sjohnlev 	set_iopl.iopl = 3;		/* user ring 3 */
1104843e1988Sjohnlev 	(void) HYPERVISOR_physdev_op(PHYSDEVOP_set_iopl, &set_iopl);
1105843e1988Sjohnlev }
1106843e1988Sjohnlev 
1107843e1988Sjohnlev /*
1108843e1988Sjohnlev  * Drop PS_IOPL on current vcpu to kernel level
1109843e1988Sjohnlev  */
1110843e1988Sjohnlev void
1111843e1988Sjohnlev xen_disable_user_iopl(void)
1112843e1988Sjohnlev {
1113843e1988Sjohnlev 	physdev_set_iopl_t set_iopl;
1114843e1988Sjohnlev 	set_iopl.iopl = 1;		/* kernel pseudo ring 1 */
1115843e1988Sjohnlev 	(void) HYPERVISOR_physdev_op(PHYSDEVOP_set_iopl, &set_iopl);
1116843e1988Sjohnlev }
1117843e1988Sjohnlev 
1118843e1988Sjohnlev int
1119843e1988Sjohnlev xen_gdt_setprot(cpu_t *cp, uint_t prot)
1120843e1988Sjohnlev {
1121843e1988Sjohnlev 	int err;
1122843e1988Sjohnlev #if defined(__amd64)
1123843e1988Sjohnlev 	int pt_bits = PT_VALID;
1124843e1988Sjohnlev 	if (prot & PROT_WRITE)
1125843e1988Sjohnlev 		pt_bits |= PT_WRITABLE;
1126843e1988Sjohnlev #endif
1127843e1988Sjohnlev 
1128843e1988Sjohnlev 	if ((err = as_setprot(&kas, (caddr_t)cp->cpu_gdt,
1129843e1988Sjohnlev 	    MMU_PAGESIZE, prot)) != 0)
1130843e1988Sjohnlev 		goto done;
1131843e1988Sjohnlev 
1132843e1988Sjohnlev #if defined(__amd64)
1133843e1988Sjohnlev 	err = xen_kpm_page(mmu_btop(cp->cpu_m.mcpu_gdtpa), pt_bits);
1134843e1988Sjohnlev #endif
1135843e1988Sjohnlev 
1136843e1988Sjohnlev done:
1137843e1988Sjohnlev 	if (err) {
1138843e1988Sjohnlev 		cmn_err(CE_WARN, "cpu%d: xen_gdt_setprot(%s) failed: error %d",
1139843e1988Sjohnlev 		    cp->cpu_id, (prot & PROT_WRITE) ? "writable" : "read-only",
1140843e1988Sjohnlev 		    err);
1141843e1988Sjohnlev 	}
1142843e1988Sjohnlev 
1143843e1988Sjohnlev 	return (err);
1144843e1988Sjohnlev }
1145843e1988Sjohnlev 
1146843e1988Sjohnlev int
1147843e1988Sjohnlev xen_ldt_setprot(user_desc_t *ldt, size_t lsize, uint_t prot)
1148843e1988Sjohnlev {
1149843e1988Sjohnlev 	int err;
1150843e1988Sjohnlev 	caddr_t	lva = (caddr_t)ldt;
1151843e1988Sjohnlev #if defined(__amd64)
1152843e1988Sjohnlev 	int pt_bits = PT_VALID;
1153843e1988Sjohnlev 	pgcnt_t npgs;
1154843e1988Sjohnlev 	if (prot & PROT_WRITE)
1155843e1988Sjohnlev 		pt_bits |= PT_WRITABLE;
1156843e1988Sjohnlev #endif	/* __amd64 */
1157843e1988Sjohnlev 
1158843e1988Sjohnlev 	if ((err = as_setprot(&kas, (caddr_t)ldt, lsize, prot)) != 0)
1159843e1988Sjohnlev 		goto done;
1160843e1988Sjohnlev 
1161843e1988Sjohnlev #if defined(__amd64)
1162843e1988Sjohnlev 
1163843e1988Sjohnlev 	ASSERT(IS_P2ALIGNED(lsize, PAGESIZE));
1164843e1988Sjohnlev 	npgs = mmu_btop(lsize);
1165843e1988Sjohnlev 	while (npgs--) {
1166843e1988Sjohnlev 		if ((err = xen_kpm_page(hat_getpfnum(kas.a_hat, lva),
1167843e1988Sjohnlev 		    pt_bits)) != 0)
1168843e1988Sjohnlev 			break;
1169843e1988Sjohnlev 		lva += PAGESIZE;
1170843e1988Sjohnlev 	}
1171843e1988Sjohnlev #endif	/* __amd64 */
1172843e1988Sjohnlev 
1173843e1988Sjohnlev done:
1174843e1988Sjohnlev 	if (err) {
1175843e1988Sjohnlev 		cmn_err(CE_WARN, "xen_ldt_setprot(%p, %s) failed: error %d",
1176843e1988Sjohnlev 		    (void *)lva,
1177843e1988Sjohnlev 		    (prot & PROT_WRITE) ? "writable" : "read-only", err);
1178843e1988Sjohnlev 	}
1179843e1988Sjohnlev 
1180843e1988Sjohnlev 	return (err);
1181843e1988Sjohnlev }
1182e4b86885SCheng Sean Ye 
1183e4b86885SCheng Sean Ye int
1184e4b86885SCheng Sean Ye xen_get_mc_physcpuinfo(xen_mc_logical_cpu_t *log_cpus, uint_t *ncpus)
1185e4b86885SCheng Sean Ye {
1186ad09f8b8SMark Johnson 	xen_mc_t xmc;
1187ad09f8b8SMark Johnson 	struct xen_mc_physcpuinfo *cpi = &xmc.u.mc_physcpuinfo;
1188e4b86885SCheng Sean Ye 
1189ad09f8b8SMark Johnson 	cpi->ncpus = *ncpus;
1190e4b86885SCheng Sean Ye 	/*LINTED: constant in conditional context*/
1191ad09f8b8SMark Johnson 	set_xen_guest_handle(cpi->info, log_cpus);
1192e4b86885SCheng Sean Ye 
1193ad09f8b8SMark Johnson 	if (HYPERVISOR_mca(XEN_MC_physcpuinfo, &xmc) != 0)
1194e4b86885SCheng Sean Ye 		return (-1);
1195e4b86885SCheng Sean Ye 
1196ad09f8b8SMark Johnson 	*ncpus = cpi->ncpus;
1197e4b86885SCheng Sean Ye 	return (0);
1198e4b86885SCheng Sean Ye }
1199e4b86885SCheng Sean Ye 
1200e4b86885SCheng Sean Ye void
1201e4b86885SCheng Sean Ye print_panic(const char *str)
1202e4b86885SCheng Sean Ye {
1203e4b86885SCheng Sean Ye 	xen_printf(str);
1204e4b86885SCheng Sean Ye }
1205e4b86885SCheng Sean Ye 
1206e4b86885SCheng Sean Ye /*
1207e4b86885SCheng Sean Ye  * Interfaces to iterate over real cpu information, but only that info
1208e4b86885SCheng Sean Ye  * which we choose to expose here.  These are of interest to dom0
1209e4b86885SCheng Sean Ye  * only (and the backing hypercall should not work for domu).
1210e4b86885SCheng Sean Ye  */
1211e4b86885SCheng Sean Ye 
1212e4b86885SCheng Sean Ye xen_mc_lcpu_cookie_t
1213e4b86885SCheng Sean Ye xen_physcpu_next(xen_mc_lcpu_cookie_t cookie)
1214e4b86885SCheng Sean Ye {
1215e4b86885SCheng Sean Ye 	xen_mc_logical_cpu_t *xcp = (xen_mc_logical_cpu_t *)cookie;
1216e4b86885SCheng Sean Ye 
1217e4b86885SCheng Sean Ye 	if (!DOMAIN_IS_INITDOMAIN(xen_info))
1218e4b86885SCheng Sean Ye 		return (NULL);
1219e4b86885SCheng Sean Ye 
1220e4b86885SCheng Sean Ye 	if (cookie == NULL)
1221e4b86885SCheng Sean Ye 		return ((xen_mc_lcpu_cookie_t)xen_phys_cpus);
1222e4b86885SCheng Sean Ye 
1223e4b86885SCheng Sean Ye 	if (xcp == xen_phys_cpus + xen_phys_ncpus - 1)
1224e4b86885SCheng Sean Ye 		return (NULL);
1225e4b86885SCheng Sean Ye 	else
1226e4b86885SCheng Sean Ye 		return ((xen_mc_lcpu_cookie_t)++xcp);
1227e4b86885SCheng Sean Ye }
1228e4b86885SCheng Sean Ye 
1229e4b86885SCheng Sean Ye #define	COOKIE2XCP(c) ((xen_mc_logical_cpu_t *)(c))
1230e4b86885SCheng Sean Ye 
1231e4b86885SCheng Sean Ye const char *
1232e4b86885SCheng Sean Ye xen_physcpu_vendorstr(xen_mc_lcpu_cookie_t cookie)
1233e4b86885SCheng Sean Ye {
1234e4b86885SCheng Sean Ye 	xen_mc_logical_cpu_t *xcp = COOKIE2XCP(cookie);
1235e4b86885SCheng Sean Ye 
1236e4b86885SCheng Sean Ye 	return ((const char *)&xcp->mc_vendorid[0]);
1237e4b86885SCheng Sean Ye }
1238e4b86885SCheng Sean Ye 
1239e4b86885SCheng Sean Ye int
1240e4b86885SCheng Sean Ye xen_physcpu_family(xen_mc_lcpu_cookie_t cookie)
1241e4b86885SCheng Sean Ye {
1242e4b86885SCheng Sean Ye 	return (COOKIE2XCP(cookie)->mc_family);
1243e4b86885SCheng Sean Ye }
1244e4b86885SCheng Sean Ye 
1245e4b86885SCheng Sean Ye int
1246e4b86885SCheng Sean Ye xen_physcpu_model(xen_mc_lcpu_cookie_t cookie)
1247e4b86885SCheng Sean Ye {
1248e4b86885SCheng Sean Ye 	return (COOKIE2XCP(cookie)->mc_model);
1249e4b86885SCheng Sean Ye }
1250e4b86885SCheng Sean Ye 
1251e4b86885SCheng Sean Ye int
1252e4b86885SCheng Sean Ye xen_physcpu_stepping(xen_mc_lcpu_cookie_t cookie)
1253e4b86885SCheng Sean Ye {
1254e4b86885SCheng Sean Ye 	return (COOKIE2XCP(cookie)->mc_step);
1255e4b86885SCheng Sean Ye }
1256e4b86885SCheng Sean Ye 
1257e4b86885SCheng Sean Ye id_t
1258e4b86885SCheng Sean Ye xen_physcpu_chipid(xen_mc_lcpu_cookie_t cookie)
1259e4b86885SCheng Sean Ye {
1260e4b86885SCheng Sean Ye 	return (COOKIE2XCP(cookie)->mc_chipid);
1261e4b86885SCheng Sean Ye }
1262e4b86885SCheng Sean Ye 
1263e4b86885SCheng Sean Ye id_t
1264e4b86885SCheng Sean Ye xen_physcpu_coreid(xen_mc_lcpu_cookie_t cookie)
1265e4b86885SCheng Sean Ye {
1266e4b86885SCheng Sean Ye 	return (COOKIE2XCP(cookie)->mc_coreid);
1267e4b86885SCheng Sean Ye }
1268e4b86885SCheng Sean Ye 
1269e4b86885SCheng Sean Ye id_t
1270e4b86885SCheng Sean Ye xen_physcpu_strandid(xen_mc_lcpu_cookie_t cookie)
1271e4b86885SCheng Sean Ye {
1272e4b86885SCheng Sean Ye 	return (COOKIE2XCP(cookie)->mc_threadid);
1273e4b86885SCheng Sean Ye }
1274e4b86885SCheng Sean Ye 
1275e4b86885SCheng Sean Ye id_t
1276074bb90dSTom Pothier xen_physcpu_initial_apicid(xen_mc_lcpu_cookie_t cookie)
1277074bb90dSTom Pothier {
1278074bb90dSTom Pothier 	return (COOKIE2XCP(cookie)->mc_clusterid);
1279074bb90dSTom Pothier }
1280074bb90dSTom Pothier 
1281074bb90dSTom Pothier id_t
1282e4b86885SCheng Sean Ye xen_physcpu_logical_id(xen_mc_lcpu_cookie_t cookie)
1283e4b86885SCheng Sean Ye {
1284e4b86885SCheng Sean Ye 	return (COOKIE2XCP(cookie)->mc_cpunr);
1285e4b86885SCheng Sean Ye }
1286e4b86885SCheng Sean Ye 
1287e4b86885SCheng Sean Ye boolean_t
1288e4b86885SCheng Sean Ye xen_physcpu_is_cmt(xen_mc_lcpu_cookie_t cookie)
1289e4b86885SCheng Sean Ye {
1290e4b86885SCheng Sean Ye 	return (COOKIE2XCP(cookie)->mc_nthreads > 1);
1291e4b86885SCheng Sean Ye }
1292e4b86885SCheng Sean Ye 
1293e4b86885SCheng Sean Ye uint64_t
1294e4b86885SCheng Sean Ye xen_physcpu_mcg_cap(xen_mc_lcpu_cookie_t cookie)
1295e4b86885SCheng Sean Ye {
1296e4b86885SCheng Sean Ye 	xen_mc_logical_cpu_t *xcp = COOKIE2XCP(cookie);
1297e4b86885SCheng Sean Ye 
1298e4b86885SCheng Sean Ye 	/*
1299e4b86885SCheng Sean Ye 	 * Need to #define the indices, or search through the array.
1300e4b86885SCheng Sean Ye 	 */
1301e4b86885SCheng Sean Ye 	return (xcp->mc_msrvalues[0].value);
1302e4b86885SCheng Sean Ye }
13037eea693dSMark Johnson 
13047eea693dSMark Johnson int
13057eea693dSMark Johnson xen_map_gref(uint_t cmd, gnttab_map_grant_ref_t *mapop, uint_t count,
13067eea693dSMark Johnson     boolean_t uvaddr)
13077eea693dSMark Johnson {
13087eea693dSMark Johnson 	long rc;
1309349b53ddSStuart Maybee 	uint_t i;
13107eea693dSMark Johnson 
13117eea693dSMark Johnson 	ASSERT(cmd == GNTTABOP_map_grant_ref);
13127eea693dSMark Johnson 
13137eea693dSMark Johnson #if !defined(_BOOT)
1314349b53ddSStuart Maybee 	if (uvaddr == B_FALSE) {
13157eea693dSMark Johnson 		for (i = 0; i < count; ++i) {
1316349b53ddSStuart Maybee 			mapop[i].flags |= (PT_FOREIGN <<_GNTMAP_guest_avail0);
13177eea693dSMark Johnson 		}
13187eea693dSMark Johnson 	}
13197eea693dSMark Johnson #endif
13207eea693dSMark Johnson 
1321349b53ddSStuart Maybee 	rc = HYPERVISOR_grant_table_op(cmd, mapop, count);
1322349b53ddSStuart Maybee 
13237eea693dSMark Johnson 	return (rc);
13247eea693dSMark Johnson }
1325349b53ddSStuart Maybee 
1326349b53ddSStuart Maybee static int
1327349b53ddSStuart Maybee xpv_get_physinfo(xen_sysctl_physinfo_t *pi)
1328349b53ddSStuart Maybee {
1329349b53ddSStuart Maybee 	xen_sysctl_t op;
1330349b53ddSStuart Maybee 	struct sp { void *p; } *sp = (struct sp *)&op.u.physinfo.cpu_to_node;
1331349b53ddSStuart Maybee 	int ret;
1332349b53ddSStuart Maybee 
1333349b53ddSStuart Maybee 	bzero(&op, sizeof (op));
1334349b53ddSStuart Maybee 	op.cmd = XEN_SYSCTL_physinfo;
1335349b53ddSStuart Maybee 	op.interface_version = XEN_SYSCTL_INTERFACE_VERSION;
1336349b53ddSStuart Maybee 	/*LINTED: constant in conditional context*/
1337349b53ddSStuart Maybee 	set_xen_guest_handle(*sp, NULL);
1338349b53ddSStuart Maybee 
1339349b53ddSStuart Maybee 	ret = HYPERVISOR_sysctl(&op);
1340349b53ddSStuart Maybee 
1341349b53ddSStuart Maybee 	if (ret != 0)
1342349b53ddSStuart Maybee 		return (xen_xlate_errcode(ret));
1343349b53ddSStuart Maybee 
1344349b53ddSStuart Maybee 	bcopy(&op.u.physinfo, pi, sizeof (op.u.physinfo));
1345349b53ddSStuart Maybee 	return (0);
1346349b53ddSStuart Maybee }
1347349b53ddSStuart Maybee 
1348349b53ddSStuart Maybee /*
1349349b53ddSStuart Maybee  * On dom0, we can determine the number of physical cpus on the machine.
1350349b53ddSStuart Maybee  * This number is important when figuring out what workarounds are
1351349b53ddSStuart Maybee  * appropriate, so compute it now.
1352349b53ddSStuart Maybee  */
1353349b53ddSStuart Maybee uint_t
1354349b53ddSStuart Maybee xpv_nr_phys_cpus(void)
1355349b53ddSStuart Maybee {
1356349b53ddSStuart Maybee 	static uint_t nphyscpus = 0;
1357349b53ddSStuart Maybee 
1358349b53ddSStuart Maybee 	ASSERT(DOMAIN_IS_INITDOMAIN(xen_info));
1359349b53ddSStuart Maybee 
1360349b53ddSStuart Maybee 	if (nphyscpus == 0) {
1361349b53ddSStuart Maybee 		xen_sysctl_physinfo_t pi;
1362349b53ddSStuart Maybee 		int ret;
1363349b53ddSStuart Maybee 
1364349b53ddSStuart Maybee 		if ((ret = xpv_get_physinfo(&pi)) != 0)
1365349b53ddSStuart Maybee 			panic("xpv_get_physinfo() failed: %d\n", ret);
1366349b53ddSStuart Maybee 		nphyscpus = pi.nr_cpus;
1367349b53ddSStuart Maybee 	}
1368349b53ddSStuart Maybee 	return (nphyscpus);
1369349b53ddSStuart Maybee }
1370349b53ddSStuart Maybee 
1371349b53ddSStuart Maybee pgcnt_t
1372349b53ddSStuart Maybee xpv_nr_phys_pages(void)
1373349b53ddSStuart Maybee {
1374349b53ddSStuart Maybee 	xen_sysctl_physinfo_t pi;
1375349b53ddSStuart Maybee 	int ret;
1376349b53ddSStuart Maybee 
1377349b53ddSStuart Maybee 	ASSERT(DOMAIN_IS_INITDOMAIN(xen_info));
1378349b53ddSStuart Maybee 
1379349b53ddSStuart Maybee 	if ((ret = xpv_get_physinfo(&pi)) != 0)
1380349b53ddSStuart Maybee 		panic("xpv_get_physinfo() failed: %d\n", ret);
1381349b53ddSStuart Maybee 
1382349b53ddSStuart Maybee 	return ((pgcnt_t)pi.total_pages);
1383349b53ddSStuart Maybee }
1384349b53ddSStuart Maybee 
1385349b53ddSStuart Maybee uint64_t
1386349b53ddSStuart Maybee xpv_cpu_khz(void)
1387349b53ddSStuart Maybee {
1388349b53ddSStuart Maybee 	xen_sysctl_physinfo_t pi;
1389349b53ddSStuart Maybee 	int ret;
1390349b53ddSStuart Maybee 
1391349b53ddSStuart Maybee 	ASSERT(DOMAIN_IS_INITDOMAIN(xen_info));
1392349b53ddSStuart Maybee 
1393349b53ddSStuart Maybee 	if ((ret = xpv_get_physinfo(&pi)) != 0)
1394349b53ddSStuart Maybee 		panic("xpv_get_physinfo() failed: %d\n", ret);
1395349b53ddSStuart Maybee 	return ((uint64_t)pi.cpu_khz);
1396349b53ddSStuart Maybee }
1397