1 /*-
2 * Copyright (c) 2013-2015 The FreeBSD Foundation
3 * All rights reserved.
4 *
5 * This software was developed by Konstantin Belousov <kib@FreeBSD.org>
6 * under sponsorship from the FreeBSD Foundation.
7 *
8 * Redistribution and use in source and binary forms, with or without
9 * modification, are permitted provided that the following conditions
10 * are met:
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.
16 *
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
27 * SUCH DAMAGE.
28 *
29 * $FreeBSD$
30 */
31
32 #ifndef __X86_IOMMU_INTEL_DMAR_H
33 #define __X86_IOMMU_INTEL_DMAR_H
34
35 /* Host or physical memory address, after translation. */
36 typedef uint64_t dmar_haddr_t;
37 /* Guest or bus address, before translation. */
38 typedef uint64_t dmar_gaddr_t;
39
40 struct dmar_qi_genseq {
41 u_int gen;
42 uint32_t seq;
43 };
44
45 struct dmar_map_entry {
46 dmar_gaddr_t start;
47 dmar_gaddr_t end;
48 dmar_gaddr_t free_after; /* Free space after the entry */
49 dmar_gaddr_t free_down; /* Max free space below the
50 current R/B tree node */
51 u_int flags;
52 TAILQ_ENTRY(dmar_map_entry) dmamap_link; /* Link for dmamap entries */
53 RB_ENTRY(dmar_map_entry) rb_entry; /* Links for domain entries */
54 TAILQ_ENTRY(dmar_map_entry) unroll_link; /* Link for unroll after
55 dmamap_load failure */
56 struct dmar_domain *domain;
57 struct dmar_qi_genseq gseq;
58 };
59
60 RB_HEAD(dmar_gas_entries_tree, dmar_map_entry);
61 RB_PROTOTYPE(dmar_gas_entries_tree, dmar_map_entry, rb_entry,
62 dmar_gas_cmp_entries);
63
64 #define DMAR_MAP_ENTRY_PLACE 0x0001 /* Fake entry */
65 #define DMAR_MAP_ENTRY_RMRR 0x0002 /* Permanent, not linked by
66 dmamap_link */
67 #define DMAR_MAP_ENTRY_MAP 0x0004 /* Busdma created, linked by
68 dmamap_link */
69 #define DMAR_MAP_ENTRY_UNMAPPED 0x0010 /* No backing pages */
70 #define DMAR_MAP_ENTRY_QI_NF 0x0020 /* qi task, do not free entry */
71 #define DMAR_MAP_ENTRY_READ 0x1000 /* Read permitted */
72 #define DMAR_MAP_ENTRY_WRITE 0x2000 /* Write permitted */
73 #define DMAR_MAP_ENTRY_SNOOP 0x4000 /* Snoop */
74 #define DMAR_MAP_ENTRY_TM 0x8000 /* Transient */
75
76 /*
77 * Locking annotations:
78 * (u) - Protected by dmar unit lock
79 * (d) - Protected by domain lock
80 * (c) - Immutable after initialization
81 */
82
83 /*
84 * The domain abstraction. Most non-constant members of the domain
85 * are protected by owning dmar unit lock, not by the domain lock.
86 * Most important, the dmar lock protects the contexts list.
87 *
88 * The domain lock protects the address map for the domain, and list
89 * of unload entries delayed.
90 *
91 * Page tables pages and pages content is protected by the vm object
92 * lock pgtbl_obj, which contains the page tables pages.
93 */
94 struct dmar_domain {
95 int domain; /* (c) DID, written in context entry */
96 int mgaw; /* (c) Real max address width */
97 int agaw; /* (c) Adjusted guest address width */
98 int pglvl; /* (c) The pagelevel */
99 int awlvl; /* (c) The pagelevel as the bitmask,
100 to set in context entry */
101 dmar_gaddr_t end; /* (c) Highest address + 1 in
102 the guest AS */
103 u_int ctx_cnt; /* (u) Number of contexts owned */
104 u_int refs; /* (u) Refs, including ctx */
105 struct dmar_unit *dmar; /* (c) */
106 struct mtx lock; /* (c) */
107 LIST_ENTRY(dmar_domain) link; /* (u) Member in the dmar list */
108 LIST_HEAD(, dmar_ctx) contexts; /* (u) */
109 vm_object_t pgtbl_obj; /* (c) Page table pages */
110 u_int flags; /* (u) */
111 u_int entries_cnt; /* (d) */
112 struct dmar_gas_entries_tree rb_root; /* (d) */
113 struct dmar_map_entries_tailq unload_entries; /* (d) Entries to
114 unload */
115 struct dmar_map_entry *first_place, *last_place; /* (d) */
116 struct task unload_task; /* (c) */
117 u_int batch_no;
118 };
119
120 struct dmar_ctx {
121 struct bus_dma_tag_dmar ctx_tag; /* (c) Root tag */
122 uint16_t rid; /* (c) pci RID */
123 uint64_t last_fault_rec[2]; /* Last fault reported */
124 struct dmar_domain *domain; /* (c) */
125 LIST_ENTRY(dmar_ctx) link; /* (u) Member in the domain list */
126 u_int refs; /* (u) References from tags */
127 u_int flags; /* (u) */
128 u_long loads; /* atomic updates, for stat only */
129 u_long unloads; /* same */
130 };
131
132 #define DMAR_DOMAIN_GAS_INITED 0x0001
133 #define DMAR_DOMAIN_PGTBL_INITED 0x0002
134 #define DMAR_DOMAIN_IDMAP 0x0010 /* Domain uses identity
135 page table */
136 #define DMAR_DOMAIN_RMRR 0x0020 /* Domain contains RMRR entry,
137 cannot be turned off */
138
139 /* struct dmar_ctx flags */
140 #define DMAR_CTX_FAULTED 0x0001 /* Fault was reported,
141 last_fault_rec is valid */
142 #define DMAR_CTX_DISABLED 0x0002 /* Device is disabled, the
143 ephemeral reference is kept
144 to prevent context destruction */
145
146 #define DMAR_DOMAIN_PGLOCK(dom) VM_OBJECT_WLOCK((dom)->pgtbl_obj)
147 #define DMAR_DOMAIN_PGTRYLOCK(dom) VM_OBJECT_TRYWLOCK((dom)->pgtbl_obj)
148 #define DMAR_DOMAIN_PGUNLOCK(dom) VM_OBJECT_WUNLOCK((dom)->pgtbl_obj)
149 #define DMAR_DOMAIN_ASSERT_PGLOCKED(dom) \
150 VM_OBJECT_ASSERT_WLOCKED((dom)->pgtbl_obj)
151
152 #define DMAR_DOMAIN_LOCK(dom) mtx_lock(&(dom)->lock)
153 #define DMAR_DOMAIN_UNLOCK(dom) mtx_unlock(&(dom)->lock)
154 #define DMAR_DOMAIN_ASSERT_LOCKED(dom) mtx_assert(&(dom)->lock, MA_OWNED)
155
156 struct dmar_msi_data {
157 int irq;
158 int irq_rid;
159 struct resource *irq_res;
160 void *intr_handle;
161 int (*handler)(void *);
162 int msi_data_reg;
163 int msi_addr_reg;
164 int msi_uaddr_reg;
165 void (*enable_intr)(struct dmar_unit *);
166 void (*disable_intr)(struct dmar_unit *);
167 const char *name;
168 };
169
170 #define DMAR_INTR_FAULT 0
171 #define DMAR_INTR_QI 1
172 #define DMAR_INTR_TOTAL 2
173
174 struct dmar_unit {
175 device_t dev;
176 int unit;
177 uint16_t segment;
178 uint64_t base;
179
180 /* Resources */
181 int reg_rid;
182 struct resource *regs;
183
184 struct dmar_msi_data intrs[DMAR_INTR_TOTAL];
185
186 /* Hardware registers cache */
187 uint32_t hw_ver;
188 uint64_t hw_cap;
189 uint64_t hw_ecap;
190 uint32_t hw_gcmd;
191
192 /* Data for being a dmar */
193 struct mtx lock;
194 LIST_HEAD(, dmar_domain) domains;
195 struct unrhdr *domids;
196 vm_object_t ctx_obj;
197 u_int barrier_flags;
198
199 /* Fault handler data */
200 struct mtx fault_lock;
201 uint64_t *fault_log;
202 int fault_log_head;
203 int fault_log_tail;
204 int fault_log_size;
205 struct task fault_task;
206 struct taskqueue *fault_taskqueue;
207
208 /* QI */
209 int qi_enabled;
210 vm_offset_t inv_queue;
211 vm_size_t inv_queue_size;
212 uint32_t inv_queue_avail;
213 uint32_t inv_queue_tail;
214 volatile uint32_t inv_waitd_seq_hw; /* hw writes there on wait
215 descr completion */
216 uint64_t inv_waitd_seq_hw_phys;
217 uint32_t inv_waitd_seq; /* next sequence number to use for wait descr */
218 u_int inv_waitd_gen; /* seq number generation AKA seq overflows */
219 u_int inv_seq_waiters; /* count of waiters for seq */
220 u_int inv_queue_full; /* informational counter */
221
222 /* IR */
223 int ir_enabled;
224 vm_paddr_t irt_phys;
225 dmar_irte_t *irt;
226 u_int irte_cnt;
227 vmem_t *irtids;
228
229 /* Delayed freeing of map entries queue processing */
230 struct dmar_map_entries_tailq tlb_flush_entries;
231 struct task qi_task;
232 struct taskqueue *qi_taskqueue;
233
234 /* Busdma delayed map load */
235 struct task dmamap_load_task;
236 TAILQ_HEAD(, bus_dmamap_dmar) delayed_maps;
237 struct taskqueue *delayed_taskqueue;
238
239 int dma_enabled;
240 };
241
242 #define DMAR_LOCK(dmar) mtx_lock(&(dmar)->lock)
243 #define DMAR_UNLOCK(dmar) mtx_unlock(&(dmar)->lock)
244 #define DMAR_ASSERT_LOCKED(dmar) mtx_assert(&(dmar)->lock, MA_OWNED)
245
246 #define DMAR_FAULT_LOCK(dmar) mtx_lock_spin(&(dmar)->fault_lock)
247 #define DMAR_FAULT_UNLOCK(dmar) mtx_unlock_spin(&(dmar)->fault_lock)
248 #define DMAR_FAULT_ASSERT_LOCKED(dmar) mtx_assert(&(dmar)->fault_lock, MA_OWNED)
249
250 #define DMAR_IS_COHERENT(dmar) (((dmar)->hw_ecap & DMAR_ECAP_C) != 0)
251 #define DMAR_HAS_QI(dmar) (((dmar)->hw_ecap & DMAR_ECAP_QI) != 0)
252 #define DMAR_X2APIC(dmar) \
253 (x2apic_mode && ((dmar)->hw_ecap & DMAR_ECAP_EIM) != 0)
254
255 /* Barrier ids */
256 #define DMAR_BARRIER_RMRR 0
257 #define DMAR_BARRIER_USEQ 1
258
259 struct dmar_unit *dmar_find(device_t dev);
260 struct dmar_unit *dmar_find_hpet(device_t dev, uint16_t *rid);
261 struct dmar_unit *dmar_find_ioapic(u_int apic_id, uint16_t *rid);
262
263 u_int dmar_nd2mask(u_int nd);
264 bool dmar_pglvl_supported(struct dmar_unit *unit, int pglvl);
265 int domain_set_agaw(struct dmar_domain *domain, int mgaw);
266 int dmar_maxaddr2mgaw(struct dmar_unit *unit, dmar_gaddr_t maxaddr,
267 bool allow_less);
268 vm_pindex_t pglvl_max_pages(int pglvl);
269 int domain_is_sp_lvl(struct dmar_domain *domain, int lvl);
270 dmar_gaddr_t pglvl_page_size(int total_pglvl, int lvl);
271 dmar_gaddr_t domain_page_size(struct dmar_domain *domain, int lvl);
272 int calc_am(struct dmar_unit *unit, dmar_gaddr_t base, dmar_gaddr_t size,
273 dmar_gaddr_t *isizep);
274 struct vm_page *dmar_pgalloc(vm_object_t obj, vm_pindex_t idx, int flags);
275 void dmar_pgfree(vm_object_t obj, vm_pindex_t idx, int flags);
276 void *dmar_map_pgtbl(vm_object_t obj, vm_pindex_t idx, int flags,
277 struct sf_buf **sf);
278 void dmar_unmap_pgtbl(struct sf_buf *sf);
279 int dmar_load_root_entry_ptr(struct dmar_unit *unit);
280 int dmar_inv_ctx_glob(struct dmar_unit *unit);
281 int dmar_inv_iotlb_glob(struct dmar_unit *unit);
282 int dmar_flush_write_bufs(struct dmar_unit *unit);
283 void dmar_flush_pte_to_ram(struct dmar_unit *unit, dmar_pte_t *dst);
284 void dmar_flush_ctx_to_ram(struct dmar_unit *unit, dmar_ctx_entry_t *dst);
285 void dmar_flush_root_to_ram(struct dmar_unit *unit, dmar_root_entry_t *dst);
286 int dmar_enable_translation(struct dmar_unit *unit);
287 int dmar_disable_translation(struct dmar_unit *unit);
288 int dmar_load_irt_ptr(struct dmar_unit *unit);
289 int dmar_enable_ir(struct dmar_unit *unit);
290 int dmar_disable_ir(struct dmar_unit *unit);
291 bool dmar_barrier_enter(struct dmar_unit *dmar, u_int barrier_id);
292 void dmar_barrier_exit(struct dmar_unit *dmar, u_int barrier_id);
293 uint64_t dmar_get_timeout(void);
294 void dmar_update_timeout(uint64_t newval);
295
296 int dmar_fault_intr(void *arg);
297 void dmar_enable_fault_intr(struct dmar_unit *unit);
298 void dmar_disable_fault_intr(struct dmar_unit *unit);
299 int dmar_init_fault_log(struct dmar_unit *unit);
300 void dmar_fini_fault_log(struct dmar_unit *unit);
301
302 int dmar_qi_intr(void *arg);
303 void dmar_enable_qi_intr(struct dmar_unit *unit);
304 void dmar_disable_qi_intr(struct dmar_unit *unit);
305 int dmar_init_qi(struct dmar_unit *unit);
306 void dmar_fini_qi(struct dmar_unit *unit);
307 void dmar_qi_invalidate_locked(struct dmar_domain *domain, dmar_gaddr_t start,
308 dmar_gaddr_t size, struct dmar_qi_genseq *psec, bool emit_wait);
309 void dmar_qi_invalidate_ctx_glob_locked(struct dmar_unit *unit);
310 void dmar_qi_invalidate_iotlb_glob_locked(struct dmar_unit *unit);
311 void dmar_qi_invalidate_iec_glob(struct dmar_unit *unit);
312 void dmar_qi_invalidate_iec(struct dmar_unit *unit, u_int start, u_int cnt);
313
314 vm_object_t domain_get_idmap_pgtbl(struct dmar_domain *domain,
315 dmar_gaddr_t maxaddr);
316 void put_idmap_pgtbl(vm_object_t obj);
317 int domain_map_buf(struct dmar_domain *domain, dmar_gaddr_t base,
318 dmar_gaddr_t size, vm_page_t *ma, uint64_t pflags, int flags);
319 int domain_unmap_buf(struct dmar_domain *domain, dmar_gaddr_t base,
320 dmar_gaddr_t size, int flags);
321 void domain_flush_iotlb_sync(struct dmar_domain *domain, dmar_gaddr_t base,
322 dmar_gaddr_t size);
323 int domain_alloc_pgtbl(struct dmar_domain *domain);
324 void domain_free_pgtbl(struct dmar_domain *domain);
325
326 struct dmar_ctx *dmar_instantiate_ctx(struct dmar_unit *dmar, device_t dev,
327 bool rmrr);
328 struct dmar_ctx *dmar_get_ctx_for_dev(struct dmar_unit *dmar, device_t dev,
329 uint16_t rid, bool id_mapped, bool rmrr_init);
330 int dmar_move_ctx_to_domain(struct dmar_domain *domain, struct dmar_ctx *ctx);
331 void dmar_free_ctx_locked(struct dmar_unit *dmar, struct dmar_ctx *ctx);
332 void dmar_free_ctx(struct dmar_ctx *ctx);
333 struct dmar_ctx *dmar_find_ctx_locked(struct dmar_unit *dmar, uint16_t rid);
334 void dmar_domain_unload_entry(struct dmar_map_entry *entry, bool free);
335 void dmar_domain_unload(struct dmar_domain *domain,
336 struct dmar_map_entries_tailq *entries, bool cansleep);
337 void dmar_domain_free_entry(struct dmar_map_entry *entry, bool free);
338
339 int dmar_init_busdma(struct dmar_unit *unit);
340 void dmar_fini_busdma(struct dmar_unit *unit);
341 device_t dmar_get_requester(device_t dev, uint16_t *rid);
342
343 void dmar_gas_init_domain(struct dmar_domain *domain);
344 void dmar_gas_fini_domain(struct dmar_domain *domain);
345 struct dmar_map_entry *dmar_gas_alloc_entry(struct dmar_domain *domain,
346 u_int flags);
347 void dmar_gas_free_entry(struct dmar_domain *domain,
348 struct dmar_map_entry *entry);
349 void dmar_gas_free_space(struct dmar_domain *domain,
350 struct dmar_map_entry *entry);
351 int dmar_gas_map(struct dmar_domain *domain,
352 const struct bus_dma_tag_common *common, dmar_gaddr_t size, int offset,
353 u_int eflags, u_int flags, vm_page_t *ma, struct dmar_map_entry **res);
354 void dmar_gas_free_region(struct dmar_domain *domain,
355 struct dmar_map_entry *entry);
356 int dmar_gas_map_region(struct dmar_domain *domain,
357 struct dmar_map_entry *entry, u_int eflags, u_int flags, vm_page_t *ma);
358 int dmar_gas_reserve_region(struct dmar_domain *domain, dmar_gaddr_t start,
359 dmar_gaddr_t end);
360
361 void dmar_dev_parse_rmrr(struct dmar_domain *domain, device_t dev,
362 struct dmar_map_entries_tailq *rmrr_entries);
363 int dmar_instantiate_rmrr_ctxs(struct dmar_unit *dmar);
364
365 void dmar_quirks_post_ident(struct dmar_unit *dmar);
366 void dmar_quirks_pre_use(struct dmar_unit *dmar);
367
368 int dmar_init_irt(struct dmar_unit *unit);
369 void dmar_fini_irt(struct dmar_unit *unit);
370
371 #define DMAR_GM_CANWAIT 0x0001
372 #define DMAR_GM_CANSPLIT 0x0002
373
374 #define DMAR_PGF_WAITOK 0x0001
375 #define DMAR_PGF_ZERO 0x0002
376 #define DMAR_PGF_ALLOC 0x0004
377 #define DMAR_PGF_NOALLOC 0x0008
378 #define DMAR_PGF_OBJL 0x0010
379
380 extern dmar_haddr_t dmar_high;
381 extern int haw;
382 extern int dmar_tbl_pagecnt;
383 extern int dmar_match_verbose;
384 extern int dmar_batch_coalesce;
385 extern int dmar_check_free;
386
387 static inline uint32_t
388 dmar_read4(const struct dmar_unit *unit, int reg)
389 {
390
391 return (bus_read_4(unit->regs, reg));
392 }
393
394 static inline uint64_t
395 dmar_read8(const struct dmar_unit *unit, int reg)
396 {
397 #ifdef __i386__
398 uint32_t high, low;
399
400 low = bus_read_4(unit->regs, reg);
401 high = bus_read_4(unit->regs, reg + 4);
402 return (low | ((uint64_t)high << 32));
403 #else
404 return (bus_read_8(unit->regs, reg));
405 #endif
406 }
407
408 static inline void
409 dmar_write4(const struct dmar_unit *unit, int reg, uint32_t val)
410 {
411
412 KASSERT(reg != DMAR_GCMD_REG || (val & DMAR_GCMD_TE) ==
413 (unit->hw_gcmd & DMAR_GCMD_TE),
414 ("dmar%d clearing TE 0x%08x 0x%08x", unit->unit,
415 unit->hw_gcmd, val));
416 bus_write_4(unit->regs, reg, val);
417 }
418
419 static inline void
420 dmar_write8(const struct dmar_unit *unit, int reg, uint64_t val)
421 {
422
423 KASSERT(reg != DMAR_GCMD_REG, ("8byte GCMD write"));
424 #ifdef __i386__
425 uint32_t high, low;
426
427 low = val;
428 high = val >> 32;
429 bus_write_4(unit->regs, reg, low);
430 bus_write_4(unit->regs, reg + 4, high);
431 #else
432 bus_write_8(unit->regs, reg, val);
433 #endif
434 }
435
436 /*
437 * dmar_pte_store and dmar_pte_clear ensure that on i386, 32bit writes
438 * are issued in the correct order. For store, the lower word,
439 * containing the P or R and W bits, is set only after the high word
440 * is written. For clear, the P bit is cleared first, then the high
441 * word is cleared.
442 *
443 * dmar_pte_update updates the pte. For amd64, the update is atomic.
444 * For i386, it first disables the entry by clearing the word
445 * containing the P bit, and then defer to dmar_pte_store. The locked
446 * cmpxchg8b is probably available on any machine having DMAR support,
447 * but interrupt translation table may be mapped uncached.
448 */
449 static inline void
450 dmar_pte_store1(volatile uint64_t *dst, uint64_t val)
451 {
452 #ifdef __i386__
453 volatile uint32_t *p;
454 uint32_t hi, lo;
455
456 hi = val >> 32;
457 lo = val;
458 p = (volatile uint32_t *)dst;
459 *(p + 1) = hi;
460 *p = lo;
461 #else
462 *dst = val;
463 #endif
464 }
465
466 static inline void
467 dmar_pte_store(volatile uint64_t *dst, uint64_t val)
468 {
469
470 KASSERT(*dst == 0, ("used pte %p oldval %jx newval %jx",
471 dst, (uintmax_t)*dst, (uintmax_t)val));
472 dmar_pte_store1(dst, val);
473 }
474
475 static inline void
476 dmar_pte_update(volatile uint64_t *dst, uint64_t val)
477 {
478
479 #ifdef __i386__
480 volatile uint32_t *p;
481
482 p = (volatile uint32_t *)dst;
483 *p = 0;
484 #endif
485 dmar_pte_store1(dst, val);
486 }
487
488 static inline void
489 dmar_pte_clear(volatile uint64_t *dst)
490 {
491 #ifdef __i386__
492 volatile uint32_t *p;
493
494 p = (volatile uint32_t *)dst;
495 *p = 0;
496 *(p + 1) = 0;
497 #else
498 *dst = 0;
499 #endif
500 }
501
502 static inline bool
503 dmar_test_boundary(dmar_gaddr_t start, dmar_gaddr_t size,
504 dmar_gaddr_t boundary)
505 {
506
507 if (boundary == 0)
508 return (true);
509 return (start + size <= ((start + boundary) & ~(boundary - 1)));
510 }
511
512 extern struct timespec dmar_hw_timeout;
513
514 #define DMAR_WAIT_UNTIL(cond) \
515 { \
516 struct timespec last, curr; \
517 bool forever; \
518 \
519 if (dmar_hw_timeout.tv_sec == 0 && \
520 dmar_hw_timeout.tv_nsec == 0) { \
521 forever = true; \
522 } else { \
523 forever = false; \
524 nanouptime(&curr); \
525 last = curr; \
526 timespecadd(&last, &dmar_hw_timeout); \
527 } \
528 for (;;) { \
529 if (cond) { \
530 error = 0; \
531 break; \
532 } \
533 nanouptime(&curr); \
534 if (!forever && timespeccmp(&last, &curr, <)) { \
535 error = ETIMEDOUT; \
536 break; \
537 } \
538 cpu_spinwait(); \
539 } \
540 }
541
542 #ifdef INVARIANTS
543 #define TD_PREP_PINNED_ASSERT \
544 int old_td_pinned; \
545 old_td_pinned = curthread->td_pinned
546 #define TD_PINNED_ASSERT \
547 KASSERT(curthread->td_pinned == old_td_pinned, \
548 ("pin count leak: %d %d %s:%d", curthread->td_pinned, \
549 old_td_pinned, __FILE__, __LINE__))
550 #else
551 #define TD_PREP_PINNED_ASSERT
552 #define TD_PINNED_ASSERT
553 #endif
554
555 #endif
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