2 * Copyright (c) 2013 The FreeBSD Foundation
5 * This software was developed by Konstantin Belousov <kib@FreeBSD.org>
6 * under sponsorship from the FreeBSD Foundation.
8 * Redistribution and use in source and binary forms, with or without
9 * modification, are permitted provided that the following conditions
11 * 1. Redistributions of source code must retain the above copyright
12 * notice, this list of conditions and the following disclaimer.
13 * 2. Redistributions in binary form must reproduce the above copyright
14 * notice, this list of conditions and the following disclaimer in the
15 * documentation and/or other materials provided with the distribution.
17 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
18 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
19 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
20 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
21 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
22 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
23 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
24 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
25 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
26 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
30 #include <sys/cdefs.h>
31 __FBSDID("$FreeBSD$");
33 #define RB_AUGMENT(entry) dmar_gas_augment_entry(entry)
35 #include <sys/param.h>
36 #include <sys/systm.h>
37 #include <sys/malloc.h>
39 #include <sys/interrupt.h>
40 #include <sys/kernel.h>
44 #include <sys/rwlock.h>
45 #include <sys/memdesc.h>
46 #include <sys/mutex.h>
47 #include <sys/sysctl.h>
49 #include <sys/taskqueue.h>
52 #include <dev/pci/pcivar.h>
54 #include <vm/vm_extern.h>
55 #include <vm/vm_kern.h>
56 #include <vm/vm_object.h>
57 #include <vm/vm_page.h>
58 #include <vm/vm_map.h>
60 #include <machine/atomic.h>
61 #include <machine/bus.h>
62 #include <machine/md_var.h>
63 #include <machine/specialreg.h>
64 #include <x86/include/busdma_impl.h>
65 #include <x86/iommu/intel_reg.h>
66 #include <x86/iommu/busdma_dmar.h>
67 #include <x86/iommu/intel_dmar.h>
70 * Guest Address Space management.
73 static uma_zone_t dmar_map_entry_zone;
79 dmar_map_entry_zone = uma_zcreate("DMAR_MAP_ENTRY",
80 sizeof(struct dmar_map_entry), NULL, NULL,
81 NULL, NULL, UMA_ALIGN_PTR, 0);
83 SYSINIT(intel_gas, SI_SUB_DRIVERS, SI_ORDER_FIRST, intel_gas_init, NULL);
85 struct dmar_map_entry *
86 dmar_gas_alloc_entry(struct dmar_ctx *ctx, u_int flags)
88 struct dmar_map_entry *res;
90 KASSERT((flags & ~(DMAR_PGF_WAITOK)) == 0,
91 ("unsupported flags %x", flags));
93 res = uma_zalloc(dmar_map_entry_zone, ((flags & DMAR_PGF_WAITOK) !=
94 0 ? M_WAITOK : M_NOWAIT) | M_ZERO);
97 atomic_add_int(&ctx->entries_cnt, 1);
103 dmar_gas_free_entry(struct dmar_ctx *ctx, struct dmar_map_entry *entry)
106 KASSERT(ctx == entry->ctx,
107 ("mismatched free ctx %p entry %p entry->ctx %p", ctx,
109 atomic_subtract_int(&ctx->entries_cnt, 1);
110 uma_zfree(dmar_map_entry_zone, entry);
114 dmar_gas_cmp_entries(struct dmar_map_entry *a, struct dmar_map_entry *b)
117 /* Last entry have zero size, so <= */
118 KASSERT(a->start <= a->end, ("inverted entry %p (%jx, %jx)",
119 a, (uintmax_t)a->start, (uintmax_t)a->end));
120 KASSERT(b->start <= b->end, ("inverted entry %p (%jx, %jx)",
121 b, (uintmax_t)b->start, (uintmax_t)b->end));
122 KASSERT(a->end <= b->start || b->end <= a->start ||
123 a->end == a->start || b->end == b->start,
124 ("overlapping entries %p (%jx, %jx) %p (%jx, %jx)",
125 a, (uintmax_t)a->start, (uintmax_t)a->end,
126 b, (uintmax_t)b->start, (uintmax_t)b->end));
130 else if (b->end < a->end)
136 dmar_gas_augment_entry(struct dmar_map_entry *entry)
138 struct dmar_map_entry *l, *r;
140 for (; entry != NULL; entry = RB_PARENT(entry, rb_entry)) {
141 l = RB_LEFT(entry, rb_entry);
142 r = RB_RIGHT(entry, rb_entry);
143 if (l == NULL && r == NULL) {
144 entry->free_down = entry->free_after;
145 } else if (l == NULL && r != NULL) {
146 entry->free_down = MAX(entry->free_after, r->free_down);
147 } else if (/*l != NULL && */ r == NULL) {
148 entry->free_down = MAX(entry->free_after, l->free_down);
149 } else /* if (l != NULL && r != NULL) */ {
150 entry->free_down = MAX(entry->free_after, l->free_down);
151 entry->free_down = MAX(entry->free_down, r->free_down);
156 RB_GENERATE(dmar_gas_entries_tree, dmar_map_entry, rb_entry,
157 dmar_gas_cmp_entries);
160 dmar_gas_fix_free(struct dmar_ctx *ctx, struct dmar_map_entry *entry)
162 struct dmar_map_entry *next;
164 next = RB_NEXT(dmar_gas_entries_tree, &ctx->rb_root, entry);
165 entry->free_after = (next != NULL ? next->start : ctx->end) -
167 dmar_gas_augment_entry(entry);
172 dmar_gas_check_free(struct dmar_ctx *ctx)
174 struct dmar_map_entry *entry, *next, *l, *r;
177 RB_FOREACH(entry, dmar_gas_entries_tree, &ctx->rb_root) {
178 KASSERT(ctx == entry->ctx,
179 ("mismatched free ctx %p entry %p entry->ctx %p", ctx,
181 next = RB_NEXT(dmar_gas_entries_tree, &ctx->rb_root, entry);
183 MPASS(entry->free_after == ctx->end - entry->end);
185 MPASS(entry->free_after = next->start - entry->end);
186 MPASS(entry->end <= next->start);
188 l = RB_LEFT(entry, rb_entry);
189 r = RB_RIGHT(entry, rb_entry);
190 if (l == NULL && r == NULL) {
191 MPASS(entry->free_down == entry->free_after);
192 } else if (l == NULL && r != NULL) {
193 MPASS(entry->free_down = MAX(entry->free_after,
195 } else if (r == NULL) {
196 MPASS(entry->free_down = MAX(entry->free_after,
199 v = MAX(entry->free_after, l->free_down);
200 v = MAX(entry->free_down, r->free_down);
201 MPASS(entry->free_down == v);
208 dmar_gas_rb_insert(struct dmar_ctx *ctx, struct dmar_map_entry *entry)
210 struct dmar_map_entry *prev, *found;
212 found = RB_INSERT(dmar_gas_entries_tree, &ctx->rb_root, entry);
213 dmar_gas_fix_free(ctx, entry);
214 prev = RB_PREV(dmar_gas_entries_tree, &ctx->rb_root, entry);
216 dmar_gas_fix_free(ctx, prev);
217 return (found == NULL);
221 dmar_gas_rb_remove(struct dmar_ctx *ctx, struct dmar_map_entry *entry)
223 struct dmar_map_entry *prev;
225 prev = RB_PREV(dmar_gas_entries_tree, &ctx->rb_root, entry);
226 RB_REMOVE(dmar_gas_entries_tree, &ctx->rb_root, entry);
228 dmar_gas_fix_free(ctx, prev);
232 dmar_gas_init_ctx(struct dmar_ctx *ctx)
234 struct dmar_map_entry *begin, *end;
236 begin = dmar_gas_alloc_entry(ctx, DMAR_PGF_WAITOK);
237 end = dmar_gas_alloc_entry(ctx, DMAR_PGF_WAITOK);
240 KASSERT(ctx->entries_cnt == 2, ("dirty ctx %p", ctx));
241 KASSERT(RB_EMPTY(&ctx->rb_root), ("non-empty entries %p", ctx));
244 begin->end = DMAR_PAGE_SIZE;
245 begin->free_after = ctx->end - begin->end;
246 begin->flags = DMAR_MAP_ENTRY_PLACE | DMAR_MAP_ENTRY_UNMAPPED;
247 dmar_gas_rb_insert(ctx, begin);
249 end->start = ctx->end;
252 end->flags = DMAR_MAP_ENTRY_PLACE | DMAR_MAP_ENTRY_UNMAPPED;
253 dmar_gas_rb_insert(ctx, end);
255 ctx->first_place = begin;
256 ctx->last_place = end;
257 DMAR_CTX_UNLOCK(ctx);
261 dmar_gas_fini_ctx(struct dmar_ctx *ctx)
263 struct dmar_map_entry *entry, *entry1;
265 DMAR_CTX_ASSERT_LOCKED(ctx);
266 KASSERT(ctx->entries_cnt == 2, ("ctx still in use %p", ctx));
268 entry = RB_MIN(dmar_gas_entries_tree, &ctx->rb_root);
269 KASSERT(entry->start == 0, ("start entry start %p", ctx));
270 KASSERT(entry->end == DMAR_PAGE_SIZE, ("start entry end %p", ctx));
271 KASSERT(entry->flags == DMAR_MAP_ENTRY_PLACE,
272 ("start entry flags %p", ctx));
273 RB_REMOVE(dmar_gas_entries_tree, &ctx->rb_root, entry);
274 dmar_gas_free_entry(ctx, entry);
276 entry = RB_MAX(dmar_gas_entries_tree, &ctx->rb_root);
277 KASSERT(entry->start == ctx->end, ("end entry start %p", ctx));
278 KASSERT(entry->end == ctx->end, ("end entry end %p", ctx));
279 KASSERT(entry->free_after == 0, ("end entry free_after%p", ctx));
280 KASSERT(entry->flags == DMAR_MAP_ENTRY_PLACE,
281 ("end entry flags %p", ctx));
282 RB_REMOVE(dmar_gas_entries_tree, &ctx->rb_root, entry);
283 dmar_gas_free_entry(ctx, entry);
285 RB_FOREACH_SAFE(entry, dmar_gas_entries_tree, &ctx->rb_root, entry1) {
286 KASSERT((entry->flags & DMAR_MAP_ENTRY_RMRR) != 0,
287 ("non-RMRR entry left %p", ctx));
288 RB_REMOVE(dmar_gas_entries_tree, &ctx->rb_root, entry);
289 dmar_gas_free_entry(ctx, entry);
293 struct dmar_gas_match_args {
294 struct dmar_ctx *ctx;
297 const struct bus_dma_tag_common *common;
299 struct dmar_map_entry *entry;
303 dmar_gas_match_one(struct dmar_gas_match_args *a, struct dmar_map_entry *prev,
306 dmar_gaddr_t bs, start;
308 if (a->entry->start + a->size > end)
311 /* DMAR_PAGE_SIZE to create gap after new entry. */
312 if (a->entry->start < prev->end + DMAR_PAGE_SIZE ||
313 a->entry->start + a->size + a->offset + DMAR_PAGE_SIZE >
314 prev->end + prev->free_after)
317 /* No boundary crossing. */
318 if (dmar_test_boundary(a->entry->start + a->offset, a->size,
319 a->common->boundary))
323 * The start + offset to start + offset + size region crosses
324 * the boundary. Check if there is enough space after the
325 * next boundary after the prev->end.
327 bs = (a->entry->start + a->offset + a->common->boundary) &
328 ~(a->common->boundary - 1);
329 start = roundup2(bs, a->common->alignment);
330 /* DMAR_PAGE_SIZE to create gap after new entry. */
331 if (start + a->offset + a->size + DMAR_PAGE_SIZE <=
332 prev->end + prev->free_after &&
333 start + a->offset + a->size <= end &&
334 dmar_test_boundary(start + a->offset, a->size,
335 a->common->boundary)) {
336 a->entry->start = start;
341 * Not enough space to align at the requested boundary, or
342 * boundary is smaller than the size, but allowed to split.
343 * We already checked that start + size does not overlap end.
345 * XXXKIB. It is possible that bs is exactly at the start of
346 * the next entry, then we do not have gap. Ignore for now.
348 if ((a->gas_flags & DMAR_GM_CANSPLIT) != 0) {
349 a->size = bs - a->entry->start;
357 dmar_gas_match_insert(struct dmar_gas_match_args *a,
358 struct dmar_map_entry *prev)
360 struct dmar_map_entry *next;
364 * The prev->end is always aligned on the page size, which
365 * causes page alignment for the entry->start too. The size
366 * is checked to be multiple of the page size.
368 * The page sized gap is created between consequent
369 * allocations to ensure that out-of-bounds accesses fault.
371 a->entry->end = a->entry->start + a->size;
373 next = RB_NEXT(dmar_gas_entries_tree, &a->ctx->rb_root, prev);
374 KASSERT(next->start >= a->entry->end &&
375 next->start - a->entry->start >= a->size &&
376 prev->end <= a->entry->end,
377 ("dmar_gas_match_insert hole failed %p prev (%jx, %jx) "
378 "free_after %jx next (%jx, %jx) entry (%jx, %jx)", a->ctx,
379 (uintmax_t)prev->start, (uintmax_t)prev->end,
380 (uintmax_t)prev->free_after,
381 (uintmax_t)next->start, (uintmax_t)next->end,
382 (uintmax_t)a->entry->start, (uintmax_t)a->entry->end));
384 prev->free_after = a->entry->start - prev->end;
385 a->entry->free_after = next->start - a->entry->end;
387 found = dmar_gas_rb_insert(a->ctx, a->entry);
388 KASSERT(found, ("found dup %p start %jx size %jx",
389 a->ctx, (uintmax_t)a->entry->start, (uintmax_t)a->size));
390 a->entry->flags = DMAR_MAP_ENTRY_MAP;
392 KASSERT(RB_PREV(dmar_gas_entries_tree, &a->ctx->rb_root,
394 ("entry %p prev %p inserted prev %p", a->entry, prev,
395 RB_PREV(dmar_gas_entries_tree, &a->ctx->rb_root, a->entry)));
396 KASSERT(RB_NEXT(dmar_gas_entries_tree, &a->ctx->rb_root,
398 ("entry %p next %p inserted next %p", a->entry, next,
399 RB_NEXT(dmar_gas_entries_tree, &a->ctx->rb_root, a->entry)));
403 dmar_gas_lowermatch(struct dmar_gas_match_args *a, struct dmar_map_entry *prev)
405 struct dmar_map_entry *l;
408 if (prev->end < a->common->lowaddr) {
409 a->entry->start = roundup2(prev->end + DMAR_PAGE_SIZE,
410 a->common->alignment);
411 if (dmar_gas_match_one(a, prev, a->common->lowaddr)) {
412 dmar_gas_match_insert(a, prev);
416 if (prev->free_down < a->size + a->offset + DMAR_PAGE_SIZE)
418 l = RB_LEFT(prev, rb_entry);
420 ret = dmar_gas_lowermatch(a, l);
424 l = RB_RIGHT(prev, rb_entry);
426 return (dmar_gas_lowermatch(a, l));
431 dmar_gas_uppermatch(struct dmar_gas_match_args *a)
433 struct dmar_map_entry *next, *prev, find_entry;
435 find_entry.start = a->common->highaddr;
436 next = RB_NFIND(dmar_gas_entries_tree, &a->ctx->rb_root, &find_entry);
439 prev = RB_PREV(dmar_gas_entries_tree, &a->ctx->rb_root, next);
440 KASSERT(prev != NULL, ("no prev %p %jx", a->ctx,
441 (uintmax_t)find_entry.start));
443 a->entry->start = prev->start + DMAR_PAGE_SIZE;
444 if (a->entry->start < a->common->highaddr)
445 a->entry->start = a->common->highaddr;
446 a->entry->start = roundup2(a->entry->start,
447 a->common->alignment);
448 if (dmar_gas_match_one(a, prev, a->ctx->end)) {
449 dmar_gas_match_insert(a, prev);
454 * XXXKIB. This falls back to linear iteration over
455 * the free space in the high region. But high
456 * regions are almost unused, the code should be
457 * enough to cover the case, although in the
461 next = RB_NEXT(dmar_gas_entries_tree, &a->ctx->rb_root, prev);
462 KASSERT(next != NULL, ("no next %p %jx", a->ctx,
463 (uintmax_t)find_entry.start));
464 if (next->end >= a->ctx->end)
470 dmar_gas_find_space(struct dmar_ctx *ctx,
471 const struct bus_dma_tag_common *common, dmar_gaddr_t size,
472 int offset, u_int flags, struct dmar_map_entry *entry)
474 struct dmar_gas_match_args a;
477 DMAR_CTX_ASSERT_LOCKED(ctx);
478 KASSERT(entry->flags == 0, ("dirty entry %p %p", ctx, entry));
479 KASSERT((size & DMAR_PAGE_MASK) == 0, ("size %jx", (uintmax_t)size));
488 /* Handle lower region. */
489 if (common->lowaddr > 0) {
490 error = dmar_gas_lowermatch(&a, RB_ROOT(&ctx->rb_root));
493 KASSERT(error == ENOMEM,
494 ("error %d from dmar_gas_lowermatch", error));
496 /* Handle upper region. */
497 if (common->highaddr >= ctx->end)
499 error = dmar_gas_uppermatch(&a);
500 KASSERT(error == ENOMEM,
501 ("error %d from dmar_gas_uppermatch", error));
506 dmar_gas_alloc_region(struct dmar_ctx *ctx, struct dmar_map_entry *entry,
509 struct dmar_map_entry *next, *prev;
512 DMAR_CTX_ASSERT_LOCKED(ctx);
514 if ((entry->start & DMAR_PAGE_MASK) != 0 ||
515 (entry->end & DMAR_PAGE_MASK) != 0)
517 if (entry->start >= entry->end)
519 if (entry->end >= ctx->end)
522 next = RB_NFIND(dmar_gas_entries_tree, &ctx->rb_root, entry);
523 KASSERT(next != NULL, ("next must be non-null %p %jx", ctx,
524 (uintmax_t)entry->start));
525 prev = RB_PREV(dmar_gas_entries_tree, &ctx->rb_root, next);
526 /* prev could be NULL */
529 * Adapt to broken BIOSes which specify overlapping RMRR
532 * XXXKIB: this does not handle a case when prev or next
533 * entries are completely covered by the current one, which
536 if (prev != NULL && prev->end > entry->start &&
537 (prev->flags & DMAR_MAP_ENTRY_PLACE) == 0) {
538 if ((prev->flags & DMAR_MAP_ENTRY_RMRR) == 0)
540 entry->start = prev->end;
542 if (next != NULL && next->start < entry->end &&
543 (next->flags & DMAR_MAP_ENTRY_PLACE) == 0) {
544 if ((next->flags & DMAR_MAP_ENTRY_RMRR) == 0)
546 entry->end = next->start;
548 if (entry->end == entry->start)
551 if (prev != NULL && prev->end > entry->start) {
552 /* This assumes that prev is the placeholder entry. */
553 dmar_gas_rb_remove(ctx, prev);
556 if (next != NULL && next->start < entry->end) {
557 dmar_gas_rb_remove(ctx, next);
561 found = dmar_gas_rb_insert(ctx, entry);
562 KASSERT(found, ("found RMRR dup %p start %jx end %jx",
563 ctx, (uintmax_t)entry->start, (uintmax_t)entry->end));
564 entry->flags = DMAR_MAP_ENTRY_RMRR;
567 struct dmar_map_entry *ip, *in;
568 ip = RB_PREV(dmar_gas_entries_tree, &ctx->rb_root, entry);
569 in = RB_NEXT(dmar_gas_entries_tree, &ctx->rb_root, entry);
570 KASSERT(prev == NULL || ip == prev,
571 ("RMRR %p (%jx %jx) prev %p (%jx %jx) ins prev %p (%jx %jx)",
572 entry, entry->start, entry->end, prev,
573 prev == NULL ? 0 : prev->start, prev == NULL ? 0 : prev->end,
574 ip, ip == NULL ? 0 : ip->start, ip == NULL ? 0 : ip->end));
575 KASSERT(next == NULL || in == next,
576 ("RMRR %p (%jx %jx) next %p (%jx %jx) ins next %p (%jx %jx)",
577 entry, entry->start, entry->end, next,
578 next == NULL ? 0 : next->start, next == NULL ? 0 : next->end,
579 in, in == NULL ? 0 : in->start, in == NULL ? 0 : in->end));
586 dmar_gas_free_space(struct dmar_ctx *ctx, struct dmar_map_entry *entry)
589 DMAR_CTX_ASSERT_LOCKED(ctx);
590 KASSERT((entry->flags & (DMAR_MAP_ENTRY_PLACE | DMAR_MAP_ENTRY_RMRR |
591 DMAR_MAP_ENTRY_MAP)) == DMAR_MAP_ENTRY_MAP,
592 ("permanent entry %p %p", ctx, entry));
594 dmar_gas_rb_remove(ctx, entry);
595 entry->flags &= ~DMAR_MAP_ENTRY_MAP;
598 dmar_gas_check_free(ctx);
603 dmar_gas_free_region(struct dmar_ctx *ctx, struct dmar_map_entry *entry)
605 struct dmar_map_entry *next, *prev;
607 DMAR_CTX_ASSERT_LOCKED(ctx);
608 KASSERT((entry->flags & (DMAR_MAP_ENTRY_PLACE | DMAR_MAP_ENTRY_RMRR |
609 DMAR_MAP_ENTRY_MAP)) == DMAR_MAP_ENTRY_RMRR,
610 ("non-RMRR entry %p %p", ctx, entry));
612 prev = RB_PREV(dmar_gas_entries_tree, &ctx->rb_root, entry);
613 next = RB_NEXT(dmar_gas_entries_tree, &ctx->rb_root, entry);
614 dmar_gas_rb_remove(ctx, entry);
615 entry->flags &= ~DMAR_MAP_ENTRY_RMRR;
618 dmar_gas_rb_insert(ctx, ctx->first_place);
620 dmar_gas_rb_insert(ctx, ctx->last_place);
624 dmar_gas_map(struct dmar_ctx *ctx, const struct bus_dma_tag_common *common,
625 dmar_gaddr_t size, int offset, u_int eflags, u_int flags, vm_page_t *ma,
626 struct dmar_map_entry **res)
628 struct dmar_map_entry *entry;
631 KASSERT((flags & ~(DMAR_GM_CANWAIT | DMAR_GM_CANSPLIT)) == 0,
632 ("invalid flags 0x%x", flags));
634 entry = dmar_gas_alloc_entry(ctx, (flags & DMAR_GM_CANWAIT) != 0 ?
635 DMAR_PGF_WAITOK : 0);
639 error = dmar_gas_find_space(ctx, common, size, offset, flags, entry);
640 if (error == ENOMEM) {
641 DMAR_CTX_UNLOCK(ctx);
642 dmar_gas_free_entry(ctx, entry);
647 dmar_gas_check_free(ctx);
650 ("unexpected error %d from dmar_gas_find_entry", error));
651 KASSERT(entry->end < ctx->end, ("allocated GPA %jx, max GPA %jx",
652 (uintmax_t)entry->end, (uintmax_t)ctx->end));
653 entry->flags |= eflags;
654 DMAR_CTX_UNLOCK(ctx);
656 error = ctx_map_buf(ctx, entry->start, entry->end - entry->start, ma,
657 ((eflags & DMAR_MAP_ENTRY_READ) != 0 ? DMAR_PTE_R : 0) |
658 ((eflags & DMAR_MAP_ENTRY_WRITE) != 0 ? DMAR_PTE_W : 0) |
659 ((eflags & DMAR_MAP_ENTRY_SNOOP) != 0 ? DMAR_PTE_SNP : 0) |
660 ((eflags & DMAR_MAP_ENTRY_TM) != 0 ? DMAR_PTE_TM : 0),
661 (flags & DMAR_GM_CANWAIT) != 0 ? DMAR_PGF_WAITOK : 0);
662 if (error == ENOMEM) {
663 dmar_ctx_unload_entry(entry, true);
667 ("unexpected error %d from ctx_map_buf", error));
674 dmar_gas_map_region(struct dmar_ctx *ctx, struct dmar_map_entry *entry,
675 u_int eflags, u_int flags, vm_page_t *ma)
680 KASSERT(entry->flags == 0, ("used RMRR entry %p %p %x", ctx,
681 entry, entry->flags));
682 KASSERT((flags & ~(DMAR_GM_CANWAIT)) == 0,
683 ("invalid flags 0x%x", flags));
685 start = entry->start;
687 error = dmar_gas_alloc_region(ctx, entry, flags);
689 DMAR_CTX_UNLOCK(ctx);
692 entry->flags |= eflags;
693 DMAR_CTX_UNLOCK(ctx);
694 if (entry->end == entry->start)
697 error = ctx_map_buf(ctx, entry->start, entry->end - entry->start,
698 ma + OFF_TO_IDX(start - entry->start),
699 ((eflags & DMAR_MAP_ENTRY_READ) != 0 ? DMAR_PTE_R : 0) |
700 ((eflags & DMAR_MAP_ENTRY_WRITE) != 0 ? DMAR_PTE_W : 0) |
701 ((eflags & DMAR_MAP_ENTRY_SNOOP) != 0 ? DMAR_PTE_SNP : 0) |
702 ((eflags & DMAR_MAP_ENTRY_TM) != 0 ? DMAR_PTE_TM : 0),
703 (flags & DMAR_GM_CANWAIT) != 0 ? DMAR_PGF_WAITOK : 0);
704 if (error == ENOMEM) {
705 dmar_ctx_unload_entry(entry, false);
709 ("unexpected error %d from ctx_map_buf", error));
715 dmar_gas_reserve_region(struct dmar_ctx *ctx, dmar_gaddr_t start,
718 struct dmar_map_entry *entry;
721 entry = dmar_gas_alloc_entry(ctx, DMAR_PGF_WAITOK);
722 entry->start = start;
725 error = dmar_gas_alloc_region(ctx, entry, DMAR_GM_CANWAIT);
727 entry->flags |= DMAR_MAP_ENTRY_UNMAPPED;
728 DMAR_CTX_UNLOCK(ctx);
730 dmar_gas_free_entry(ctx, entry);