xref: /freebsd/sys/x86/acpica/srat.c (revision ab3059a8e7f382cff93dbe4d1b082adf62f4d849)
1dd540b46SJohn Baldwin /*-
2ebf5747bSPedro F. Giffuni  * SPDX-License-Identifier: BSD-2-Clause-FreeBSD
3ebf5747bSPedro F. Giffuni  *
4179fa75eSJohn Baldwin  * Copyright (c) 2010 Hudson River Trading LLC
5dd540b46SJohn Baldwin  * Written by: John H. Baldwin <jhb@FreeBSD.org>
6dd540b46SJohn Baldwin  * All rights reserved.
7dd540b46SJohn Baldwin  *
8dd540b46SJohn Baldwin  * Redistribution and use in source and binary forms, with or without
9dd540b46SJohn Baldwin  * modification, are permitted provided that the following conditions
10dd540b46SJohn Baldwin  * are met:
11dd540b46SJohn Baldwin  * 1. Redistributions of source code must retain the above copyright
12dd540b46SJohn Baldwin  *    notice, this list of conditions and the following disclaimer.
13dd540b46SJohn Baldwin  * 2. Redistributions in binary form must reproduce the above copyright
14dd540b46SJohn Baldwin  *    notice, this list of conditions and the following disclaimer in the
15dd540b46SJohn Baldwin  *    documentation and/or other materials provided with the distribution.
16dd540b46SJohn Baldwin  *
17dd540b46SJohn Baldwin  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
18dd540b46SJohn Baldwin  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
19dd540b46SJohn Baldwin  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
20dd540b46SJohn Baldwin  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
21dd540b46SJohn Baldwin  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
22dd540b46SJohn Baldwin  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
23dd540b46SJohn Baldwin  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
24dd540b46SJohn Baldwin  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
25dd540b46SJohn Baldwin  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
26dd540b46SJohn Baldwin  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
27dd540b46SJohn Baldwin  * SUCH DAMAGE.
28dd540b46SJohn Baldwin  */
29dd540b46SJohn Baldwin 
30dd540b46SJohn Baldwin #include <sys/cdefs.h>
31dd540b46SJohn Baldwin __FBSDID("$FreeBSD$");
32dd540b46SJohn Baldwin 
3362d70a81SJohn Baldwin #include "opt_vm.h"
3462d70a81SJohn Baldwin 
35dd540b46SJohn Baldwin #include <sys/param.h>
3683c9dea1SGleb Smirnoff #include <sys/systm.h>
37dd540b46SJohn Baldwin #include <sys/bus.h>
38dd540b46SJohn Baldwin #include <sys/kernel.h>
39449c2e92SKonstantin Belousov #include <sys/lock.h>
40449c2e92SKonstantin Belousov #include <sys/mutex.h>
41dd540b46SJohn Baldwin #include <sys/smp.h>
42449c2e92SKonstantin Belousov #include <sys/vmmeter.h>
43dd540b46SJohn Baldwin #include <vm/vm.h>
44dd540b46SJohn Baldwin #include <vm/pmap.h>
45dd540b46SJohn Baldwin #include <vm/vm_param.h>
46449c2e92SKonstantin Belousov #include <vm/vm_page.h>
47dd540b46SJohn Baldwin #include <vm/vm_phys.h>
48dd540b46SJohn Baldwin 
49dd540b46SJohn Baldwin #include <contrib/dev/acpica/include/acpi.h>
50493deb39SJung-uk Kim #include <contrib/dev/acpica/include/aclocal.h>
51dd540b46SJohn Baldwin #include <contrib/dev/acpica/include/actables.h>
52dd540b46SJohn Baldwin 
53dd540b46SJohn Baldwin #include <machine/intr_machdep.h>
54fd1f83fbSRoger Pau Monné #include <machine/md_var.h>
55e07ef9b0SJohn Baldwin #include <x86/apicvar.h>
56dd540b46SJohn Baldwin 
57dd540b46SJohn Baldwin #include <dev/acpica/acpivar.h>
58dd540b46SJohn Baldwin 
59941646f5SAttilio Rao #if MAXMEMDOM > 1
6084525e55SRoger Pau Monné static struct cpu_info {
61dd540b46SJohn Baldwin 	int enabled:1;
62dd540b46SJohn Baldwin 	int has_memory:1;
63dd540b46SJohn Baldwin 	int domain;
6484525e55SRoger Pau Monné } *cpus;
65dd540b46SJohn Baldwin 
66dd540b46SJohn Baldwin struct mem_affinity mem_info[VM_PHYSSEG_MAX + 1];
67dd540b46SJohn Baldwin int num_mem;
68dd540b46SJohn Baldwin 
69dd540b46SJohn Baldwin static ACPI_TABLE_SRAT *srat;
70dd540b46SJohn Baldwin static vm_paddr_t srat_physaddr;
71dd540b46SJohn Baldwin 
7262d70a81SJohn Baldwin static int domain_pxm[MAXMEMDOM];
7362d70a81SJohn Baldwin static int ndomain;
74fc4f524aSAdrian Chadd 
75415d7ccaSAdrian Chadd static ACPI_TABLE_SLIT *slit;
76415d7ccaSAdrian Chadd static vm_paddr_t slit_physaddr;
77415d7ccaSAdrian Chadd static int vm_locality_table[MAXMEMDOM * MAXMEMDOM];
78415d7ccaSAdrian Chadd 
79dd540b46SJohn Baldwin static void	srat_walk_table(acpi_subtable_handler *handler, void *arg);
80dd540b46SJohn Baldwin 
814d99cfb3SJohn Baldwin /*
82415d7ccaSAdrian Chadd  * SLIT parsing.
83415d7ccaSAdrian Chadd  */
84415d7ccaSAdrian Chadd 
85415d7ccaSAdrian Chadd static void
86415d7ccaSAdrian Chadd slit_parse_table(ACPI_TABLE_SLIT *s)
87415d7ccaSAdrian Chadd {
88415d7ccaSAdrian Chadd 	int i, j;
89415d7ccaSAdrian Chadd 	int i_domain, j_domain;
90415d7ccaSAdrian Chadd 	int offset = 0;
91415d7ccaSAdrian Chadd 	uint8_t e;
92415d7ccaSAdrian Chadd 
93415d7ccaSAdrian Chadd 	/*
94415d7ccaSAdrian Chadd 	 * This maps the SLIT data into the VM-domain centric view.
95415d7ccaSAdrian Chadd 	 * There may be sparse entries in the PXM namespace, so
96415d7ccaSAdrian Chadd 	 * remap them to a VM-domain ID and if it doesn't exist,
97415d7ccaSAdrian Chadd 	 * skip it.
98415d7ccaSAdrian Chadd 	 *
99415d7ccaSAdrian Chadd 	 * It should result in a packed 2d array of VM-domain
100415d7ccaSAdrian Chadd 	 * locality information entries.
101415d7ccaSAdrian Chadd 	 */
102415d7ccaSAdrian Chadd 
103415d7ccaSAdrian Chadd 	if (bootverbose)
104415d7ccaSAdrian Chadd 		printf("SLIT.Localities: %d\n", (int) s->LocalityCount);
105415d7ccaSAdrian Chadd 	for (i = 0; i < s->LocalityCount; i++) {
106415d7ccaSAdrian Chadd 		i_domain = acpi_map_pxm_to_vm_domainid(i);
107415d7ccaSAdrian Chadd 		if (i_domain < 0)
108415d7ccaSAdrian Chadd 			continue;
109415d7ccaSAdrian Chadd 
110415d7ccaSAdrian Chadd 		if (bootverbose)
111415d7ccaSAdrian Chadd 			printf("%d: ", i);
112415d7ccaSAdrian Chadd 		for (j = 0; j < s->LocalityCount; j++) {
113415d7ccaSAdrian Chadd 			j_domain = acpi_map_pxm_to_vm_domainid(j);
114415d7ccaSAdrian Chadd 			if (j_domain < 0)
115415d7ccaSAdrian Chadd 				continue;
116415d7ccaSAdrian Chadd 			e = s->Entry[i * s->LocalityCount + j];
117415d7ccaSAdrian Chadd 			if (bootverbose)
118415d7ccaSAdrian Chadd 				printf("%d ", (int) e);
119415d7ccaSAdrian Chadd 			/* 255 == "no locality information" */
120415d7ccaSAdrian Chadd 			if (e == 255)
121415d7ccaSAdrian Chadd 				vm_locality_table[offset] = -1;
122415d7ccaSAdrian Chadd 			else
123415d7ccaSAdrian Chadd 				vm_locality_table[offset] = e;
124415d7ccaSAdrian Chadd 			offset++;
125415d7ccaSAdrian Chadd 		}
126415d7ccaSAdrian Chadd 		if (bootverbose)
127415d7ccaSAdrian Chadd 			printf("\n");
128415d7ccaSAdrian Chadd 	}
129415d7ccaSAdrian Chadd }
130415d7ccaSAdrian Chadd 
131415d7ccaSAdrian Chadd /*
132415d7ccaSAdrian Chadd  * Look for an ACPI System Locality Distance Information Table ("SLIT")
133415d7ccaSAdrian Chadd  */
134415d7ccaSAdrian Chadd static int
135415d7ccaSAdrian Chadd parse_slit(void)
136415d7ccaSAdrian Chadd {
137415d7ccaSAdrian Chadd 
138415d7ccaSAdrian Chadd 	if (resource_disabled("slit", 0)) {
139415d7ccaSAdrian Chadd 		return (-1);
140415d7ccaSAdrian Chadd 	}
141415d7ccaSAdrian Chadd 
142415d7ccaSAdrian Chadd 	slit_physaddr = acpi_find_table(ACPI_SIG_SLIT);
143415d7ccaSAdrian Chadd 	if (slit_physaddr == 0) {
144415d7ccaSAdrian Chadd 		return (-1);
145415d7ccaSAdrian Chadd 	}
146415d7ccaSAdrian Chadd 
147415d7ccaSAdrian Chadd 	/*
148415d7ccaSAdrian Chadd 	 * Make a pass over the table to populate the cpus[] and
149415d7ccaSAdrian Chadd 	 * mem_info[] tables.
150415d7ccaSAdrian Chadd 	 */
151415d7ccaSAdrian Chadd 	slit = acpi_map_table(slit_physaddr, ACPI_SIG_SLIT);
152415d7ccaSAdrian Chadd 	slit_parse_table(slit);
153415d7ccaSAdrian Chadd 	acpi_unmap_table(slit);
154415d7ccaSAdrian Chadd 	slit = NULL;
155415d7ccaSAdrian Chadd 
156b6715dabSJeff Roberson #ifdef NUMA
157415d7ccaSAdrian Chadd 	/* Tell the VM about it! */
158415d7ccaSAdrian Chadd 	mem_locality = vm_locality_table;
15962d70a81SJohn Baldwin #endif
160415d7ccaSAdrian Chadd 	return (0);
161415d7ccaSAdrian Chadd }
162415d7ccaSAdrian Chadd 
163415d7ccaSAdrian Chadd /*
164415d7ccaSAdrian Chadd  * SRAT parsing.
165415d7ccaSAdrian Chadd  */
166415d7ccaSAdrian Chadd 
167415d7ccaSAdrian Chadd /*
1684d99cfb3SJohn Baldwin  * Returns true if a memory range overlaps with at least one range in
1694d99cfb3SJohn Baldwin  * phys_avail[].
1704d99cfb3SJohn Baldwin  */
1714d99cfb3SJohn Baldwin static int
1724d99cfb3SJohn Baldwin overlaps_phys_avail(vm_paddr_t start, vm_paddr_t end)
1734d99cfb3SJohn Baldwin {
1744d99cfb3SJohn Baldwin 	int i;
1754d99cfb3SJohn Baldwin 
1764d99cfb3SJohn Baldwin 	for (i = 0; phys_avail[i] != 0 && phys_avail[i + 1] != 0; i += 2) {
177ffc7e53aSAlexander Motin 		if (phys_avail[i + 1] <= start)
1784d99cfb3SJohn Baldwin 			continue;
1794d99cfb3SJohn Baldwin 		if (phys_avail[i] < end)
1804d99cfb3SJohn Baldwin 			return (1);
1814d99cfb3SJohn Baldwin 		break;
1824d99cfb3SJohn Baldwin 	}
1834d99cfb3SJohn Baldwin 	return (0);
1844d99cfb3SJohn Baldwin 
1854d99cfb3SJohn Baldwin }
1864d99cfb3SJohn Baldwin 
187dd540b46SJohn Baldwin static void
188dd540b46SJohn Baldwin srat_parse_entry(ACPI_SUBTABLE_HEADER *entry, void *arg)
189dd540b46SJohn Baldwin {
190dd540b46SJohn Baldwin 	ACPI_SRAT_CPU_AFFINITY *cpu;
191dd540b46SJohn Baldwin 	ACPI_SRAT_X2APIC_CPU_AFFINITY *x2apic;
192dd540b46SJohn Baldwin 	ACPI_SRAT_MEM_AFFINITY *mem;
193dd540b46SJohn Baldwin 	int domain, i, slot;
194dd540b46SJohn Baldwin 
195dd540b46SJohn Baldwin 	switch (entry->Type) {
196dd540b46SJohn Baldwin 	case ACPI_SRAT_TYPE_CPU_AFFINITY:
197dd540b46SJohn Baldwin 		cpu = (ACPI_SRAT_CPU_AFFINITY *)entry;
198dd540b46SJohn Baldwin 		domain = cpu->ProximityDomainLo |
199dd540b46SJohn Baldwin 		    cpu->ProximityDomainHi[0] << 8 |
200dd540b46SJohn Baldwin 		    cpu->ProximityDomainHi[1] << 16 |
201dd540b46SJohn Baldwin 		    cpu->ProximityDomainHi[2] << 24;
202dd540b46SJohn Baldwin 		if (bootverbose)
203dd540b46SJohn Baldwin 			printf("SRAT: Found CPU APIC ID %u domain %d: %s\n",
204dd540b46SJohn Baldwin 			    cpu->ApicId, domain,
205dd540b46SJohn Baldwin 			    (cpu->Flags & ACPI_SRAT_CPU_ENABLED) ?
206dd540b46SJohn Baldwin 			    "enabled" : "disabled");
207dd540b46SJohn Baldwin 		if (!(cpu->Flags & ACPI_SRAT_CPU_ENABLED))
208dd540b46SJohn Baldwin 			break;
20984525e55SRoger Pau Monné 		if (cpu->ApicId > max_apic_id) {
2106e2ab0aeSRoger Pau Monné 			printf("SRAT: Ignoring local APIC ID %u (too high)\n",
2116e2ab0aeSRoger Pau Monné 			    cpu->ApicId);
2126e2ab0aeSRoger Pau Monné 			break;
2136e2ab0aeSRoger Pau Monné 		}
2146e2ab0aeSRoger Pau Monné 
2152db0699dSEric van Gyzen 		if (cpus[cpu->ApicId].enabled) {
2162db0699dSEric van Gyzen 			printf("SRAT: Duplicate local APIC ID %u\n",
2172db0699dSEric van Gyzen 			    cpu->ApicId);
2182db0699dSEric van Gyzen 			*(int *)arg = ENXIO;
2192db0699dSEric van Gyzen 			break;
2202db0699dSEric van Gyzen 		}
221dd540b46SJohn Baldwin 		cpus[cpu->ApicId].domain = domain;
222dd540b46SJohn Baldwin 		cpus[cpu->ApicId].enabled = 1;
223dd540b46SJohn Baldwin 		break;
224dd540b46SJohn Baldwin 	case ACPI_SRAT_TYPE_X2APIC_CPU_AFFINITY:
225dd540b46SJohn Baldwin 		x2apic = (ACPI_SRAT_X2APIC_CPU_AFFINITY *)entry;
226dd540b46SJohn Baldwin 		if (bootverbose)
227dd540b46SJohn Baldwin 			printf("SRAT: Found CPU APIC ID %u domain %d: %s\n",
228dd540b46SJohn Baldwin 			    x2apic->ApicId, x2apic->ProximityDomain,
229dd540b46SJohn Baldwin 			    (x2apic->Flags & ACPI_SRAT_CPU_ENABLED) ?
230dd540b46SJohn Baldwin 			    "enabled" : "disabled");
231dd540b46SJohn Baldwin 		if (!(x2apic->Flags & ACPI_SRAT_CPU_ENABLED))
232dd540b46SJohn Baldwin 			break;
23384525e55SRoger Pau Monné 		if (x2apic->ApicId > max_apic_id) {
2346e2ab0aeSRoger Pau Monné 			printf("SRAT: Ignoring local APIC ID %u (too high)\n",
2356e2ab0aeSRoger Pau Monné 			    x2apic->ApicId);
2366e2ab0aeSRoger Pau Monné 			break;
2376e2ab0aeSRoger Pau Monné 		}
2386e2ab0aeSRoger Pau Monné 
239dd540b46SJohn Baldwin 		KASSERT(!cpus[x2apic->ApicId].enabled,
240dd540b46SJohn Baldwin 		    ("Duplicate local APIC ID %u", x2apic->ApicId));
241dd540b46SJohn Baldwin 		cpus[x2apic->ApicId].domain = x2apic->ProximityDomain;
242dd540b46SJohn Baldwin 		cpus[x2apic->ApicId].enabled = 1;
243dd540b46SJohn Baldwin 		break;
244dd540b46SJohn Baldwin 	case ACPI_SRAT_TYPE_MEMORY_AFFINITY:
245dd540b46SJohn Baldwin 		mem = (ACPI_SRAT_MEM_AFFINITY *)entry;
246dd540b46SJohn Baldwin 		if (bootverbose)
247dd540b46SJohn Baldwin 			printf(
2485ab0f0c3SKonstantin Belousov 		    "SRAT: Found memory domain %d addr 0x%jx len 0x%jx: %s\n",
249dd540b46SJohn Baldwin 			    mem->ProximityDomain, (uintmax_t)mem->BaseAddress,
250dd540b46SJohn Baldwin 			    (uintmax_t)mem->Length,
251dd540b46SJohn Baldwin 			    (mem->Flags & ACPI_SRAT_MEM_ENABLED) ?
252dd540b46SJohn Baldwin 			    "enabled" : "disabled");
253dd540b46SJohn Baldwin 		if (!(mem->Flags & ACPI_SRAT_MEM_ENABLED))
254dd540b46SJohn Baldwin 			break;
2553f289c3fSJeff Roberson 		if (mem->BaseAddress >= cpu_getmaxphyaddr() ||
2563f289c3fSJeff Roberson 		    !overlaps_phys_avail(mem->BaseAddress,
2574d99cfb3SJohn Baldwin 		    mem->BaseAddress + mem->Length)) {
2585ab0f0c3SKonstantin Belousov 			printf("SRAT: Ignoring memory at addr 0x%jx\n",
2594d99cfb3SJohn Baldwin 			    (uintmax_t)mem->BaseAddress);
2604d99cfb3SJohn Baldwin 			break;
2614d99cfb3SJohn Baldwin 		}
262dd540b46SJohn Baldwin 		if (num_mem == VM_PHYSSEG_MAX) {
263dd540b46SJohn Baldwin 			printf("SRAT: Too many memory regions\n");
264dd540b46SJohn Baldwin 			*(int *)arg = ENXIO;
265dd540b46SJohn Baldwin 			break;
266dd540b46SJohn Baldwin 		}
267dd540b46SJohn Baldwin 		slot = num_mem;
268dd540b46SJohn Baldwin 		for (i = 0; i < num_mem; i++) {
269dd540b46SJohn Baldwin 			if (mem_info[i].end <= mem->BaseAddress)
270dd540b46SJohn Baldwin 				continue;
271dd540b46SJohn Baldwin 			if (mem_info[i].start <
272dd540b46SJohn Baldwin 			    (mem->BaseAddress + mem->Length)) {
273dd540b46SJohn Baldwin 				printf("SRAT: Overlapping memory entries\n");
274dd540b46SJohn Baldwin 				*(int *)arg = ENXIO;
275dd540b46SJohn Baldwin 				return;
276dd540b46SJohn Baldwin 			}
277dd540b46SJohn Baldwin 			slot = i;
278dd540b46SJohn Baldwin 		}
279dd540b46SJohn Baldwin 		for (i = num_mem; i > slot; i--)
280dd540b46SJohn Baldwin 			mem_info[i] = mem_info[i - 1];
281dd540b46SJohn Baldwin 		mem_info[slot].start = mem->BaseAddress;
282dd540b46SJohn Baldwin 		mem_info[slot].end = mem->BaseAddress + mem->Length;
283dd540b46SJohn Baldwin 		mem_info[slot].domain = mem->ProximityDomain;
284dd540b46SJohn Baldwin 		num_mem++;
285dd540b46SJohn Baldwin 		break;
286dd540b46SJohn Baldwin 	}
287dd540b46SJohn Baldwin }
288dd540b46SJohn Baldwin 
289dd540b46SJohn Baldwin /*
290dd540b46SJohn Baldwin  * Ensure each memory domain has at least one CPU and that each CPU
291dd540b46SJohn Baldwin  * has at least one memory domain.
292dd540b46SJohn Baldwin  */
293dd540b46SJohn Baldwin static int
294dd540b46SJohn Baldwin check_domains(void)
295dd540b46SJohn Baldwin {
296dd540b46SJohn Baldwin 	int found, i, j;
297dd540b46SJohn Baldwin 
298dd540b46SJohn Baldwin 	for (i = 0; i < num_mem; i++) {
299dd540b46SJohn Baldwin 		found = 0;
30084525e55SRoger Pau Monné 		for (j = 0; j <= max_apic_id; j++)
3016676877bSJohn Baldwin 			if (cpus[j].enabled &&
3026676877bSJohn Baldwin 			    cpus[j].domain == mem_info[i].domain) {
303dd540b46SJohn Baldwin 				cpus[j].has_memory = 1;
304dd540b46SJohn Baldwin 				found++;
305dd540b46SJohn Baldwin 			}
306dd540b46SJohn Baldwin 		if (!found) {
307dd540b46SJohn Baldwin 			printf("SRAT: No CPU found for memory domain %d\n",
308dd540b46SJohn Baldwin 			    mem_info[i].domain);
309dd540b46SJohn Baldwin 			return (ENXIO);
310dd540b46SJohn Baldwin 		}
311dd540b46SJohn Baldwin 	}
31284525e55SRoger Pau Monné 	for (i = 0; i <= max_apic_id; i++)
313dd540b46SJohn Baldwin 		if (cpus[i].enabled && !cpus[i].has_memory) {
314dd540b46SJohn Baldwin 			printf("SRAT: No memory found for CPU %d\n", i);
315dd540b46SJohn Baldwin 			return (ENXIO);
316dd540b46SJohn Baldwin 		}
317dd540b46SJohn Baldwin 	return (0);
318dd540b46SJohn Baldwin }
319dd540b46SJohn Baldwin 
320dd540b46SJohn Baldwin /*
321dd540b46SJohn Baldwin  * Check that the SRAT memory regions cover all of the regions in
322dd540b46SJohn Baldwin  * phys_avail[].
323dd540b46SJohn Baldwin  */
324dd540b46SJohn Baldwin static int
325dd540b46SJohn Baldwin check_phys_avail(void)
326dd540b46SJohn Baldwin {
327dd540b46SJohn Baldwin 	vm_paddr_t address;
328dd540b46SJohn Baldwin 	int i, j;
329dd540b46SJohn Baldwin 
330dd540b46SJohn Baldwin 	/* j is the current offset into phys_avail[]. */
331dd540b46SJohn Baldwin 	address = phys_avail[0];
332dd540b46SJohn Baldwin 	j = 0;
333dd540b46SJohn Baldwin 	for (i = 0; i < num_mem; i++) {
334dd540b46SJohn Baldwin 		/*
335dd540b46SJohn Baldwin 		 * Consume as many phys_avail[] entries as fit in this
336dd540b46SJohn Baldwin 		 * region.
337dd540b46SJohn Baldwin 		 */
338dd540b46SJohn Baldwin 		while (address >= mem_info[i].start &&
339dd540b46SJohn Baldwin 		    address <= mem_info[i].end) {
340dd540b46SJohn Baldwin 			/*
341dd540b46SJohn Baldwin 			 * If we cover the rest of this phys_avail[] entry,
342dd540b46SJohn Baldwin 			 * advance to the next entry.
343dd540b46SJohn Baldwin 			 */
344dd540b46SJohn Baldwin 			if (phys_avail[j + 1] <= mem_info[i].end) {
345dd540b46SJohn Baldwin 				j += 2;
346dd540b46SJohn Baldwin 				if (phys_avail[j] == 0 &&
347dd540b46SJohn Baldwin 				    phys_avail[j + 1] == 0) {
348dd540b46SJohn Baldwin 					return (0);
349dd540b46SJohn Baldwin 				}
350dd540b46SJohn Baldwin 				address = phys_avail[j];
351dd540b46SJohn Baldwin 			} else
352dd540b46SJohn Baldwin 				address = mem_info[i].end + 1;
353dd540b46SJohn Baldwin 		}
354dd540b46SJohn Baldwin 	}
3555ab0f0c3SKonstantin Belousov 	printf("SRAT: No memory region found for 0x%jx - 0x%jx\n",
356dd540b46SJohn Baldwin 	    (uintmax_t)phys_avail[j], (uintmax_t)phys_avail[j + 1]);
357dd540b46SJohn Baldwin 	return (ENXIO);
358dd540b46SJohn Baldwin }
359dd540b46SJohn Baldwin 
360dd540b46SJohn Baldwin /*
361dd540b46SJohn Baldwin  * Renumber the memory domains to be compact and zero-based if not
36228990874SJohn Baldwin  * already.  Returns an error if there are too many domains.
363dd540b46SJohn Baldwin  */
36428990874SJohn Baldwin static int
365dd540b46SJohn Baldwin renumber_domains(void)
366dd540b46SJohn Baldwin {
3677e226537SAttilio Rao 	int i, j, slot;
368dd540b46SJohn Baldwin 
369dd540b46SJohn Baldwin 	/* Enumerate all the domains. */
37062d70a81SJohn Baldwin 	ndomain = 0;
371dd540b46SJohn Baldwin 	for (i = 0; i < num_mem; i++) {
372dd540b46SJohn Baldwin 		/* See if this domain is already known. */
37362d70a81SJohn Baldwin 		for (j = 0; j < ndomain; j++) {
37462d70a81SJohn Baldwin 			if (domain_pxm[j] >= mem_info[i].domain)
375dd540b46SJohn Baldwin 				break;
376dd540b46SJohn Baldwin 		}
37762d70a81SJohn Baldwin 		if (j < ndomain && domain_pxm[j] == mem_info[i].domain)
378dd540b46SJohn Baldwin 			continue;
379dd540b46SJohn Baldwin 
3803765b809SConrad Meyer 		if (ndomain >= MAXMEMDOM) {
3813765b809SConrad Meyer 			ndomain = 1;
3823765b809SConrad Meyer 			printf("SRAT: Too many memory domains\n");
3833765b809SConrad Meyer 			return (EFBIG);
3843765b809SConrad Meyer 		}
3853765b809SConrad Meyer 
386dd540b46SJohn Baldwin 		/* Insert the new domain at slot 'j'. */
387dd540b46SJohn Baldwin 		slot = j;
38862d70a81SJohn Baldwin 		for (j = ndomain; j > slot; j--)
38962d70a81SJohn Baldwin 			domain_pxm[j] = domain_pxm[j - 1];
39062d70a81SJohn Baldwin 		domain_pxm[slot] = mem_info[i].domain;
39162d70a81SJohn Baldwin 		ndomain++;
392dd540b46SJohn Baldwin 	}
393dd540b46SJohn Baldwin 
39462d70a81SJohn Baldwin 	/* Renumber each domain to its index in the sorted 'domain_pxm' list. */
39562d70a81SJohn Baldwin 	for (i = 0; i < ndomain; i++) {
396dd540b46SJohn Baldwin 		/*
397dd540b46SJohn Baldwin 		 * If the domain is already the right value, no need
398dd540b46SJohn Baldwin 		 * to renumber.
399dd540b46SJohn Baldwin 		 */
40062d70a81SJohn Baldwin 		if (domain_pxm[i] == i)
401dd540b46SJohn Baldwin 			continue;
402dd540b46SJohn Baldwin 
403dd540b46SJohn Baldwin 		/* Walk the cpu[] and mem_info[] arrays to renumber. */
404dd540b46SJohn Baldwin 		for (j = 0; j < num_mem; j++)
40562d70a81SJohn Baldwin 			if (mem_info[j].domain == domain_pxm[i])
406dd540b46SJohn Baldwin 				mem_info[j].domain = i;
40784525e55SRoger Pau Monné 		for (j = 0; j <= max_apic_id; j++)
40862d70a81SJohn Baldwin 			if (cpus[j].enabled && cpus[j].domain == domain_pxm[i])
409dd540b46SJohn Baldwin 				cpus[j].domain = i;
410dd540b46SJohn Baldwin 	}
4117e226537SAttilio Rao 
41228990874SJohn Baldwin 	return (0);
413dd540b46SJohn Baldwin }
414dd540b46SJohn Baldwin 
415dd540b46SJohn Baldwin /*
416dd540b46SJohn Baldwin  * Look for an ACPI System Resource Affinity Table ("SRAT")
417dd540b46SJohn Baldwin  */
418415d7ccaSAdrian Chadd static int
419415d7ccaSAdrian Chadd parse_srat(void)
420dd540b46SJohn Baldwin {
42184525e55SRoger Pau Monné 	unsigned int idx, size;
42284525e55SRoger Pau Monné 	vm_paddr_t addr;
423dd540b46SJohn Baldwin 	int error;
424dd540b46SJohn Baldwin 
425dd540b46SJohn Baldwin 	if (resource_disabled("srat", 0))
426415d7ccaSAdrian Chadd 		return (-1);
427dd540b46SJohn Baldwin 
428dd540b46SJohn Baldwin 	srat_physaddr = acpi_find_table(ACPI_SIG_SRAT);
429dd540b46SJohn Baldwin 	if (srat_physaddr == 0)
430415d7ccaSAdrian Chadd 		return (-1);
431dd540b46SJohn Baldwin 
432dd540b46SJohn Baldwin 	/*
43384525e55SRoger Pau Monné 	 * Allocate data structure:
43484525e55SRoger Pau Monné 	 *
43584525e55SRoger Pau Monné 	 * Find the last physical memory region and steal some memory from
43684525e55SRoger Pau Monné 	 * it. This is done because at this point in the boot process
43784525e55SRoger Pau Monné 	 * malloc is still not usable.
43884525e55SRoger Pau Monné 	 */
43984525e55SRoger Pau Monné 	for (idx = 0; phys_avail[idx + 1] != 0; idx += 2);
44084525e55SRoger Pau Monné 	KASSERT(idx != 0, ("phys_avail is empty!"));
44184525e55SRoger Pau Monné 	idx -= 2;
44284525e55SRoger Pau Monné 
44384525e55SRoger Pau Monné 	size =  sizeof(*cpus) * (max_apic_id + 1);
44484525e55SRoger Pau Monné 	addr = trunc_page(phys_avail[idx + 1] - size);
44584525e55SRoger Pau Monné 	KASSERT(addr >= phys_avail[idx],
44684525e55SRoger Pau Monné 	    ("Not enough memory for SRAT table items"));
44784525e55SRoger Pau Monné 	phys_avail[idx + 1] = addr - 1;
44884525e55SRoger Pau Monné 
449c642d2f5SRoger Pau Monné 	/*
450c642d2f5SRoger Pau Monné 	 * We cannot rely on PHYS_TO_DMAP because this code is also used in
451c642d2f5SRoger Pau Monné 	 * i386, so use pmap_mapbios to map the memory, this will end up using
452c642d2f5SRoger Pau Monné 	 * the default memory attribute (WB), and the DMAP when available.
453c642d2f5SRoger Pau Monné 	 */
454c642d2f5SRoger Pau Monné 	cpus = (struct cpu_info *)pmap_mapbios(addr, size);
45545ff071dSRoger Pau Monné 	bzero(cpus, size);
45684525e55SRoger Pau Monné 
45784525e55SRoger Pau Monné 	/*
458dd540b46SJohn Baldwin 	 * Make a pass over the table to populate the cpus[] and
459dd540b46SJohn Baldwin 	 * mem_info[] tables.
460dd540b46SJohn Baldwin 	 */
461dd540b46SJohn Baldwin 	srat = acpi_map_table(srat_physaddr, ACPI_SIG_SRAT);
462dd540b46SJohn Baldwin 	error = 0;
463dd540b46SJohn Baldwin 	srat_walk_table(srat_parse_entry, &error);
464dd540b46SJohn Baldwin 	acpi_unmap_table(srat);
465dd540b46SJohn Baldwin 	srat = NULL;
46628990874SJohn Baldwin 	if (error || check_domains() != 0 || check_phys_avail() != 0 ||
46728990874SJohn Baldwin 	    renumber_domains() != 0) {
468dd540b46SJohn Baldwin 		srat_physaddr = 0;
469415d7ccaSAdrian Chadd 		return (-1);
470dd540b46SJohn Baldwin 	}
471dd540b46SJohn Baldwin 
472b6715dabSJeff Roberson #ifdef NUMA
473dd540b46SJohn Baldwin 	/* Point vm_phys at our memory affinity table. */
47462d70a81SJohn Baldwin 	vm_ndomains = ndomain;
475dd540b46SJohn Baldwin 	mem_affinity = mem_info;
47662d70a81SJohn Baldwin #endif
477415d7ccaSAdrian Chadd 
478415d7ccaSAdrian Chadd 	return (0);
479dd540b46SJohn Baldwin }
480415d7ccaSAdrian Chadd 
481415d7ccaSAdrian Chadd static void
482415d7ccaSAdrian Chadd init_mem_locality(void)
483415d7ccaSAdrian Chadd {
484415d7ccaSAdrian Chadd 	int i;
485415d7ccaSAdrian Chadd 
486415d7ccaSAdrian Chadd 	/*
4874f5e270aSAdrian Chadd 	 * For now, assume -1 == "no locality information for
488415d7ccaSAdrian Chadd 	 * this pairing.
489415d7ccaSAdrian Chadd 	 */
490415d7ccaSAdrian Chadd 	for (i = 0; i < MAXMEMDOM * MAXMEMDOM; i++)
491415d7ccaSAdrian Chadd 		vm_locality_table[i] = -1;
492415d7ccaSAdrian Chadd }
493415d7ccaSAdrian Chadd 
494415d7ccaSAdrian Chadd static void
495415d7ccaSAdrian Chadd parse_acpi_tables(void *dummy)
496415d7ccaSAdrian Chadd {
497415d7ccaSAdrian Chadd 
498415d7ccaSAdrian Chadd 	if (parse_srat() < 0)
499415d7ccaSAdrian Chadd 		return;
500415d7ccaSAdrian Chadd 	init_mem_locality();
501415d7ccaSAdrian Chadd 	(void) parse_slit();
502415d7ccaSAdrian Chadd }
503415d7ccaSAdrian Chadd SYSINIT(parse_acpi_tables, SI_SUB_VM - 1, SI_ORDER_FIRST, parse_acpi_tables,
504415d7ccaSAdrian Chadd     NULL);
505dd540b46SJohn Baldwin 
506dd540b46SJohn Baldwin static void
507dd540b46SJohn Baldwin srat_walk_table(acpi_subtable_handler *handler, void *arg)
508dd540b46SJohn Baldwin {
509dd540b46SJohn Baldwin 
510dd540b46SJohn Baldwin 	acpi_walk_subtables(srat + 1, (char *)srat + srat->Header.Length,
511dd540b46SJohn Baldwin 	    handler, arg);
512dd540b46SJohn Baldwin }
513dd540b46SJohn Baldwin 
514dd540b46SJohn Baldwin /*
515c0ae6688SJohn Baldwin  * Setup per-CPU domain IDs.
516dd540b46SJohn Baldwin  */
517dd540b46SJohn Baldwin static void
518dd540b46SJohn Baldwin srat_set_cpus(void *dummy)
519dd540b46SJohn Baldwin {
520dd540b46SJohn Baldwin 	struct cpu_info *cpu;
521dd540b46SJohn Baldwin 	struct pcpu *pc;
522dd540b46SJohn Baldwin 	u_int i;
523dd540b46SJohn Baldwin 
524dd540b46SJohn Baldwin 	if (srat_physaddr == 0)
525dd540b46SJohn Baldwin 		return;
526dd540b46SJohn Baldwin 	for (i = 0; i < MAXCPU; i++) {
527dd540b46SJohn Baldwin 		if (CPU_ABSENT(i))
528dd540b46SJohn Baldwin 			continue;
529dd540b46SJohn Baldwin 		pc = pcpu_find(i);
530dd540b46SJohn Baldwin 		KASSERT(pc != NULL, ("no pcpu data for CPU %u", i));
531dd540b46SJohn Baldwin 		cpu = &cpus[pc->pc_apic_id];
532dd540b46SJohn Baldwin 		if (!cpu->enabled)
533dd540b46SJohn Baldwin 			panic("SRAT: CPU with APIC ID %u is not known",
534dd540b46SJohn Baldwin 			    pc->pc_apic_id);
535*ab3059a8SMatt Macy #ifdef NUMA
536dd540b46SJohn Baldwin 		pc->pc_domain = cpu->domain;
537*ab3059a8SMatt Macy #else
538*ab3059a8SMatt Macy 		pc->pc_domain = 0;
539*ab3059a8SMatt Macy #endif
540*ab3059a8SMatt Macy 		CPU_SET(i, &cpuset_domain[pc->pc_domain]);
541dd540b46SJohn Baldwin 		if (bootverbose)
542dd540b46SJohn Baldwin 			printf("SRAT: CPU %u has memory domain %d\n", i,
543*ab3059a8SMatt Macy 			    pc->pc_domain);
544dd540b46SJohn Baldwin 	}
545c642d2f5SRoger Pau Monné 
546c642d2f5SRoger Pau Monné 	/* Last usage of the cpus array, unmap it. */
54772446721SRoger Pau Monné 	pmap_unmapbios((vm_offset_t)cpus, sizeof(*cpus) * (max_apic_id + 1));
548c642d2f5SRoger Pau Monné 	cpus = NULL;
549dd540b46SJohn Baldwin }
550dd540b46SJohn Baldwin SYSINIT(srat_set_cpus, SI_SUB_CPU, SI_ORDER_ANY, srat_set_cpus, NULL);
551fc4f524aSAdrian Chadd 
552fc4f524aSAdrian Chadd /*
553fc4f524aSAdrian Chadd  * Map a _PXM value to a VM domain ID.
554fc4f524aSAdrian Chadd  *
555fc4f524aSAdrian Chadd  * Returns the domain ID, or -1 if no domain ID was found.
556fc4f524aSAdrian Chadd  */
557fc4f524aSAdrian Chadd int
558fc4f524aSAdrian Chadd acpi_map_pxm_to_vm_domainid(int pxm)
559fc4f524aSAdrian Chadd {
560fc4f524aSAdrian Chadd 	int i;
561fc4f524aSAdrian Chadd 
56262d70a81SJohn Baldwin 	for (i = 0; i < ndomain; i++) {
56362d70a81SJohn Baldwin 		if (domain_pxm[i] == pxm)
564fc4f524aSAdrian Chadd 			return (i);
565fc4f524aSAdrian Chadd 	}
566fc4f524aSAdrian Chadd 
567fc4f524aSAdrian Chadd 	return (-1);
568fc4f524aSAdrian Chadd }
569fc4f524aSAdrian Chadd 
57062d70a81SJohn Baldwin #else /* MAXMEMDOM == 1 */
57162d70a81SJohn Baldwin 
57262d70a81SJohn Baldwin int
57362d70a81SJohn Baldwin acpi_map_pxm_to_vm_domainid(int pxm)
57462d70a81SJohn Baldwin {
57562d70a81SJohn Baldwin 
57662d70a81SJohn Baldwin 	return (-1);
57762d70a81SJohn Baldwin }
57862d70a81SJohn Baldwin 
579941646f5SAttilio Rao #endif /* MAXMEMDOM > 1 */
580