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Merge branch 'for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/viro/vfs-2.6
[deliverable/linux.git] / arch / ia64 / kvm / vtlb.c
1 /*
2 * vtlb.c: guest virtual tlb handling module.
3 * Copyright (c) 2004, Intel Corporation.
4 * Yaozu Dong (Eddie Dong) <Eddie.dong@intel.com>
5 * Xuefei Xu (Anthony Xu) <anthony.xu@intel.com>
6 *
7 * Copyright (c) 2007, Intel Corporation.
8 * Xuefei Xu (Anthony Xu) <anthony.xu@intel.com>
9 * Xiantao Zhang <xiantao.zhang@intel.com>
10 *
11 * This program is free software; you can redistribute it and/or modify it
12 * under the terms and conditions of the GNU General Public License,
13 * version 2, as published by the Free Software Foundation.
14 *
15 * This program is distributed in the hope it will be useful, but WITHOUT
16 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
17 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
18 * more details.
19 *
20 * You should have received a copy of the GNU General Public License along with
21 * this program; if not, write to the Free Software Foundation, Inc., 59 Temple
22 * Place - Suite 330, Boston, MA 02111-1307 USA.
23 *
24 */
25
26 #include "vcpu.h"
27
28 #include <linux/rwsem.h>
29
30 #include <asm/tlb.h>
31
32 /*
33 * Check to see if the address rid:va is translated by the TLB
34 */
35
36 static int __is_tr_translated(struct thash_data *trp, u64 rid, u64 va)
37 {
38 return ((trp->p) && (trp->rid == rid)
39 && ((va-trp->vadr) < PSIZE(trp->ps)));
40 }
41
42 /*
43 * Only for GUEST TR format.
44 */
45 static int __is_tr_overlap(struct thash_data *trp, u64 rid, u64 sva, u64 eva)
46 {
47 u64 sa1, ea1;
48
49 if (!trp->p || trp->rid != rid)
50 return 0;
51
52 sa1 = trp->vadr;
53 ea1 = sa1 + PSIZE(trp->ps) - 1;
54 eva -= 1;
55 if ((sva > ea1) || (sa1 > eva))
56 return 0;
57 else
58 return 1;
59
60 }
61
62 void machine_tlb_purge(u64 va, u64 ps)
63 {
64 ia64_ptcl(va, ps << 2);
65 }
66
67 void local_flush_tlb_all(void)
68 {
69 int i, j;
70 unsigned long flags, count0, count1;
71 unsigned long stride0, stride1, addr;
72
73 addr = current_vcpu->arch.ptce_base;
74 count0 = current_vcpu->arch.ptce_count[0];
75 count1 = current_vcpu->arch.ptce_count[1];
76 stride0 = current_vcpu->arch.ptce_stride[0];
77 stride1 = current_vcpu->arch.ptce_stride[1];
78
79 local_irq_save(flags);
80 for (i = 0; i < count0; ++i) {
81 for (j = 0; j < count1; ++j) {
82 ia64_ptce(addr);
83 addr += stride1;
84 }
85 addr += stride0;
86 }
87 local_irq_restore(flags);
88 ia64_srlz_i(); /* srlz.i implies srlz.d */
89 }
90
91 int vhpt_enabled(struct kvm_vcpu *vcpu, u64 vadr, enum vhpt_ref ref)
92 {
93 union ia64_rr vrr;
94 union ia64_pta vpta;
95 struct ia64_psr vpsr;
96
97 vpsr = *(struct ia64_psr *)&VCPU(vcpu, vpsr);
98 vrr.val = vcpu_get_rr(vcpu, vadr);
99 vpta.val = vcpu_get_pta(vcpu);
100
101 if (vrr.ve & vpta.ve) {
102 switch (ref) {
103 case DATA_REF:
104 case NA_REF:
105 return vpsr.dt;
106 case INST_REF:
107 return vpsr.dt && vpsr.it && vpsr.ic;
108 case RSE_REF:
109 return vpsr.dt && vpsr.rt;
110
111 }
112 }
113 return 0;
114 }
115
116 struct thash_data *vsa_thash(union ia64_pta vpta, u64 va, u64 vrr, u64 *tag)
117 {
118 u64 index, pfn, rid, pfn_bits;
119
120 pfn_bits = vpta.size - 5 - 8;
121 pfn = REGION_OFFSET(va) >> _REGION_PAGE_SIZE(vrr);
122 rid = _REGION_ID(vrr);
123 index = ((rid & 0xff) << pfn_bits)|(pfn & ((1UL << pfn_bits) - 1));
124 *tag = ((rid >> 8) & 0xffff) | ((pfn >> pfn_bits) << 16);
125
126 return (struct thash_data *)((vpta.base << PTA_BASE_SHIFT) +
127 (index << 5));
128 }
129
130 struct thash_data *__vtr_lookup(struct kvm_vcpu *vcpu, u64 va, int type)
131 {
132
133 struct thash_data *trp;
134 int i;
135 u64 rid;
136
137 rid = vcpu_get_rr(vcpu, va);
138 rid = rid & RR_RID_MASK;;
139 if (type == D_TLB) {
140 if (vcpu_quick_region_check(vcpu->arch.dtr_regions, va)) {
141 for (trp = (struct thash_data *)&vcpu->arch.dtrs, i = 0;
142 i < NDTRS; i++, trp++) {
143 if (__is_tr_translated(trp, rid, va))
144 return trp;
145 }
146 }
147 } else {
148 if (vcpu_quick_region_check(vcpu->arch.itr_regions, va)) {
149 for (trp = (struct thash_data *)&vcpu->arch.itrs, i = 0;
150 i < NITRS; i++, trp++) {
151 if (__is_tr_translated(trp, rid, va))
152 return trp;
153 }
154 }
155 }
156
157 return NULL;
158 }
159
160 static void vhpt_insert(u64 pte, u64 itir, u64 ifa, u64 gpte)
161 {
162 union ia64_rr rr;
163 struct thash_data *head;
164 unsigned long ps, gpaddr;
165
166 ps = itir_ps(itir);
167 rr.val = ia64_get_rr(ifa);
168
169 gpaddr = ((gpte & _PAGE_PPN_MASK) >> ps << ps) |
170 (ifa & ((1UL << ps) - 1));
171
172 head = (struct thash_data *)ia64_thash(ifa);
173 head->etag = INVALID_TI_TAG;
174 ia64_mf();
175 head->page_flags = pte & ~PAGE_FLAGS_RV_MASK;
176 head->itir = rr.ps << 2;
177 head->etag = ia64_ttag(ifa);
178 head->gpaddr = gpaddr;
179 }
180
181 void mark_pages_dirty(struct kvm_vcpu *v, u64 pte, u64 ps)
182 {
183 u64 i, dirty_pages = 1;
184 u64 base_gfn = (pte&_PAGE_PPN_MASK) >> PAGE_SHIFT;
185 spinlock_t *lock = __kvm_va(v->arch.dirty_log_lock_pa);
186 void *dirty_bitmap = (void *)KVM_MEM_DIRTY_LOG_BASE;
187
188 dirty_pages <<= ps <= PAGE_SHIFT ? 0 : ps - PAGE_SHIFT;
189
190 vmm_spin_lock(lock);
191 for (i = 0; i < dirty_pages; i++) {
192 /* avoid RMW */
193 if (!test_bit(base_gfn + i, dirty_bitmap))
194 set_bit(base_gfn + i , dirty_bitmap);
195 }
196 vmm_spin_unlock(lock);
197 }
198
199 void thash_vhpt_insert(struct kvm_vcpu *v, u64 pte, u64 itir, u64 va, int type)
200 {
201 u64 phy_pte, psr;
202 union ia64_rr mrr;
203
204 mrr.val = ia64_get_rr(va);
205 phy_pte = translate_phy_pte(&pte, itir, va);
206
207 if (itir_ps(itir) >= mrr.ps) {
208 vhpt_insert(phy_pte, itir, va, pte);
209 } else {
210 phy_pte &= ~PAGE_FLAGS_RV_MASK;
211 psr = ia64_clear_ic();
212 ia64_itc(type, va, phy_pte, itir_ps(itir));
213 paravirt_dv_serialize_data();
214 ia64_set_psr(psr);
215 }
216
217 if (!(pte&VTLB_PTE_IO))
218 mark_pages_dirty(v, pte, itir_ps(itir));
219 }
220
221 /*
222 * vhpt lookup
223 */
224 struct thash_data *vhpt_lookup(u64 va)
225 {
226 struct thash_data *head;
227 u64 tag;
228
229 head = (struct thash_data *)ia64_thash(va);
230 tag = ia64_ttag(va);
231 if (head->etag == tag)
232 return head;
233 return NULL;
234 }
235
236 u64 guest_vhpt_lookup(u64 iha, u64 *pte)
237 {
238 u64 ret;
239 struct thash_data *data;
240
241 data = __vtr_lookup(current_vcpu, iha, D_TLB);
242 if (data != NULL)
243 thash_vhpt_insert(current_vcpu, data->page_flags,
244 data->itir, iha, D_TLB);
245
246 asm volatile ("rsm psr.ic|psr.i;;"
247 "srlz.d;;"
248 "ld8.s r9=[%1];;"
249 "tnat.nz p6,p7=r9;;"
250 "(p6) mov %0=1;"
251 "(p6) mov r9=r0;"
252 "(p7) extr.u r9=r9,0,53;;"
253 "(p7) mov %0=r0;"
254 "(p7) st8 [%2]=r9;;"
255 "ssm psr.ic;;"
256 "srlz.d;;"
257 /* "ssm psr.i;;" Once interrupts in vmm open, need fix*/
258 : "=r"(ret) : "r"(iha), "r"(pte):"memory");
259
260 return ret;
261 }
262
263 /*
264 * purge software guest tlb
265 */
266
267 static void vtlb_purge(struct kvm_vcpu *v, u64 va, u64 ps)
268 {
269 struct thash_data *cur;
270 u64 start, curadr, size, psbits, tag, rr_ps, num;
271 union ia64_rr vrr;
272 struct thash_cb *hcb = &v->arch.vtlb;
273
274 vrr.val = vcpu_get_rr(v, va);
275 psbits = VMX(v, psbits[(va >> 61)]);
276 start = va & ~((1UL << ps) - 1);
277 while (psbits) {
278 curadr = start;
279 rr_ps = __ffs(psbits);
280 psbits &= ~(1UL << rr_ps);
281 num = 1UL << ((ps < rr_ps) ? 0 : (ps - rr_ps));
282 size = PSIZE(rr_ps);
283 vrr.ps = rr_ps;
284 while (num) {
285 cur = vsa_thash(hcb->pta, curadr, vrr.val, &tag);
286 if (cur->etag == tag && cur->ps == rr_ps)
287 cur->etag = INVALID_TI_TAG;
288 curadr += size;
289 num--;
290 }
291 }
292 }
293
294
295 /*
296 * purge VHPT and machine TLB
297 */
298 static void vhpt_purge(struct kvm_vcpu *v, u64 va, u64 ps)
299 {
300 struct thash_data *cur;
301 u64 start, size, tag, num;
302 union ia64_rr rr;
303
304 start = va & ~((1UL << ps) - 1);
305 rr.val = ia64_get_rr(va);
306 size = PSIZE(rr.ps);
307 num = 1UL << ((ps < rr.ps) ? 0 : (ps - rr.ps));
308 while (num) {
309 cur = (struct thash_data *)ia64_thash(start);
310 tag = ia64_ttag(start);
311 if (cur->etag == tag)
312 cur->etag = INVALID_TI_TAG;
313 start += size;
314 num--;
315 }
316 machine_tlb_purge(va, ps);
317 }
318
319 /*
320 * Insert an entry into hash TLB or VHPT.
321 * NOTES:
322 * 1: When inserting VHPT to thash, "va" is a must covered
323 * address by the inserted machine VHPT entry.
324 * 2: The format of entry is always in TLB.
325 * 3: The caller need to make sure the new entry will not overlap
326 * with any existed entry.
327 */
328 void vtlb_insert(struct kvm_vcpu *v, u64 pte, u64 itir, u64 va)
329 {
330 struct thash_data *head;
331 union ia64_rr vrr;
332 u64 tag;
333 struct thash_cb *hcb = &v->arch.vtlb;
334
335 vrr.val = vcpu_get_rr(v, va);
336 vrr.ps = itir_ps(itir);
337 VMX(v, psbits[va >> 61]) |= (1UL << vrr.ps);
338 head = vsa_thash(hcb->pta, va, vrr.val, &tag);
339 head->page_flags = pte;
340 head->itir = itir;
341 head->etag = tag;
342 }
343
344 int vtr_find_overlap(struct kvm_vcpu *vcpu, u64 va, u64 ps, int type)
345 {
346 struct thash_data *trp;
347 int i;
348 u64 end, rid;
349
350 rid = vcpu_get_rr(vcpu, va);
351 rid = rid & RR_RID_MASK;
352 end = va + PSIZE(ps);
353 if (type == D_TLB) {
354 if (vcpu_quick_region_check(vcpu->arch.dtr_regions, va)) {
355 for (trp = (struct thash_data *)&vcpu->arch.dtrs, i = 0;
356 i < NDTRS; i++, trp++) {
357 if (__is_tr_overlap(trp, rid, va, end))
358 return i;
359 }
360 }
361 } else {
362 if (vcpu_quick_region_check(vcpu->arch.itr_regions, va)) {
363 for (trp = (struct thash_data *)&vcpu->arch.itrs, i = 0;
364 i < NITRS; i++, trp++) {
365 if (__is_tr_overlap(trp, rid, va, end))
366 return i;
367 }
368 }
369 }
370 return -1;
371 }
372
373 /*
374 * Purge entries in VTLB and VHPT
375 */
376 void thash_purge_entries(struct kvm_vcpu *v, u64 va, u64 ps)
377 {
378 if (vcpu_quick_region_check(v->arch.tc_regions, va))
379 vtlb_purge(v, va, ps);
380 vhpt_purge(v, va, ps);
381 }
382
383 void thash_purge_entries_remote(struct kvm_vcpu *v, u64 va, u64 ps)
384 {
385 u64 old_va = va;
386 va = REGION_OFFSET(va);
387 if (vcpu_quick_region_check(v->arch.tc_regions, old_va))
388 vtlb_purge(v, va, ps);
389 vhpt_purge(v, va, ps);
390 }
391
392 u64 translate_phy_pte(u64 *pte, u64 itir, u64 va)
393 {
394 u64 ps, ps_mask, paddr, maddr, io_mask;
395 union pte_flags phy_pte;
396
397 ps = itir_ps(itir);
398 ps_mask = ~((1UL << ps) - 1);
399 phy_pte.val = *pte;
400 paddr = *pte;
401 paddr = ((paddr & _PAGE_PPN_MASK) & ps_mask) | (va & ~ps_mask);
402 maddr = kvm_get_mpt_entry(paddr >> PAGE_SHIFT);
403 io_mask = maddr & GPFN_IO_MASK;
404 if (io_mask && (io_mask != GPFN_PHYS_MMIO)) {
405 *pte |= VTLB_PTE_IO;
406 return -1;
407 }
408 maddr = ((maddr & _PAGE_PPN_MASK) & PAGE_MASK) |
409 (paddr & ~PAGE_MASK);
410 phy_pte.ppn = maddr >> ARCH_PAGE_SHIFT;
411 return phy_pte.val;
412 }
413
414 /*
415 * Purge overlap TCs and then insert the new entry to emulate itc ops.
416 * Notes: Only TC entry can purge and insert.
417 */
418 void thash_purge_and_insert(struct kvm_vcpu *v, u64 pte, u64 itir,
419 u64 ifa, int type)
420 {
421 u64 ps;
422 u64 phy_pte, io_mask, index;
423 union ia64_rr vrr, mrr;
424
425 ps = itir_ps(itir);
426 vrr.val = vcpu_get_rr(v, ifa);
427 mrr.val = ia64_get_rr(ifa);
428
429 index = (pte & _PAGE_PPN_MASK) >> PAGE_SHIFT;
430 io_mask = kvm_get_mpt_entry(index) & GPFN_IO_MASK;
431 phy_pte = translate_phy_pte(&pte, itir, ifa);
432
433 /* Ensure WB attribute if pte is related to a normal mem page,
434 * which is required by vga acceleration since qemu maps shared
435 * vram buffer with WB.
436 */
437 if (!(pte & VTLB_PTE_IO) && ((pte & _PAGE_MA_MASK) != _PAGE_MA_NAT) &&
438 io_mask != GPFN_PHYS_MMIO) {
439 pte &= ~_PAGE_MA_MASK;
440 phy_pte &= ~_PAGE_MA_MASK;
441 }
442
443 vtlb_purge(v, ifa, ps);
444 vhpt_purge(v, ifa, ps);
445
446 if ((ps != mrr.ps) || (pte & VTLB_PTE_IO)) {
447 vtlb_insert(v, pte, itir, ifa);
448 vcpu_quick_region_set(VMX(v, tc_regions), ifa);
449 }
450 if (pte & VTLB_PTE_IO)
451 return;
452
453 if (ps >= mrr.ps)
454 vhpt_insert(phy_pte, itir, ifa, pte);
455 else {
456 u64 psr;
457 phy_pte &= ~PAGE_FLAGS_RV_MASK;
458 psr = ia64_clear_ic();
459 ia64_itc(type, ifa, phy_pte, ps);
460 paravirt_dv_serialize_data();
461 ia64_set_psr(psr);
462 }
463 if (!(pte&VTLB_PTE_IO))
464 mark_pages_dirty(v, pte, ps);
465
466 }
467
468 /*
469 * Purge all TCs or VHPT entries including those in Hash table.
470 *
471 */
472
473 void thash_purge_all(struct kvm_vcpu *v)
474 {
475 int i;
476 struct thash_data *head;
477 struct thash_cb *vtlb, *vhpt;
478 vtlb = &v->arch.vtlb;
479 vhpt = &v->arch.vhpt;
480
481 for (i = 0; i < 8; i++)
482 VMX(v, psbits[i]) = 0;
483
484 head = vtlb->hash;
485 for (i = 0; i < vtlb->num; i++) {
486 head->page_flags = 0;
487 head->etag = INVALID_TI_TAG;
488 head->itir = 0;
489 head->next = 0;
490 head++;
491 };
492
493 head = vhpt->hash;
494 for (i = 0; i < vhpt->num; i++) {
495 head->page_flags = 0;
496 head->etag = INVALID_TI_TAG;
497 head->itir = 0;
498 head->next = 0;
499 head++;
500 };
501
502 local_flush_tlb_all();
503 }
504
505 /*
506 * Lookup the hash table and its collision chain to find an entry
507 * covering this address rid:va or the entry.
508 *
509 * INPUT:
510 * in: TLB format for both VHPT & TLB.
511 */
512 struct thash_data *vtlb_lookup(struct kvm_vcpu *v, u64 va, int is_data)
513 {
514 struct thash_data *cch;
515 u64 psbits, ps, tag;
516 union ia64_rr vrr;
517
518 struct thash_cb *hcb = &v->arch.vtlb;
519
520 cch = __vtr_lookup(v, va, is_data);;
521 if (cch)
522 return cch;
523
524 if (vcpu_quick_region_check(v->arch.tc_regions, va) == 0)
525 return NULL;
526
527 psbits = VMX(v, psbits[(va >> 61)]);
528 vrr.val = vcpu_get_rr(v, va);
529 while (psbits) {
530 ps = __ffs(psbits);
531 psbits &= ~(1UL << ps);
532 vrr.ps = ps;
533 cch = vsa_thash(hcb->pta, va, vrr.val, &tag);
534 if (cch->etag == tag && cch->ps == ps)
535 return cch;
536 }
537
538 return NULL;
539 }
540
541 /*
542 * Initialize internal control data before service.
543 */
544 void thash_init(struct thash_cb *hcb, u64 sz)
545 {
546 int i;
547 struct thash_data *head;
548
549 hcb->pta.val = (unsigned long)hcb->hash;
550 hcb->pta.vf = 1;
551 hcb->pta.ve = 1;
552 hcb->pta.size = sz;
553 head = hcb->hash;
554 for (i = 0; i < hcb->num; i++) {
555 head->page_flags = 0;
556 head->itir = 0;
557 head->etag = INVALID_TI_TAG;
558 head->next = 0;
559 head++;
560 }
561 }
562
563 u64 kvm_get_mpt_entry(u64 gpfn)
564 {
565 u64 *base = (u64 *) KVM_P2M_BASE;
566
567 if (gpfn >= (KVM_P2M_SIZE >> 3))
568 panic_vm(current_vcpu, "Invalid gpfn =%lx\n", gpfn);
569
570 return *(base + gpfn);
571 }
572
573 u64 kvm_lookup_mpa(u64 gpfn)
574 {
575 u64 maddr;
576 maddr = kvm_get_mpt_entry(gpfn);
577 return maddr&_PAGE_PPN_MASK;
578 }
579
580 u64 kvm_gpa_to_mpa(u64 gpa)
581 {
582 u64 pte = kvm_lookup_mpa(gpa >> PAGE_SHIFT);
583 return (pte >> PAGE_SHIFT << PAGE_SHIFT) | (gpa & ~PAGE_MASK);
584 }
585
586 /*
587 * Fetch guest bundle code.
588 * INPUT:
589 * gip: guest ip
590 * pbundle: used to return fetched bundle.
591 */
592 int fetch_code(struct kvm_vcpu *vcpu, u64 gip, IA64_BUNDLE *pbundle)
593 {
594 u64 gpip = 0; /* guest physical IP*/
595 u64 *vpa;
596 struct thash_data *tlb;
597 u64 maddr;
598
599 if (!(VCPU(vcpu, vpsr) & IA64_PSR_IT)) {
600 /* I-side physical mode */
601 gpip = gip;
602 } else {
603 tlb = vtlb_lookup(vcpu, gip, I_TLB);
604 if (tlb)
605 gpip = (tlb->ppn >> (tlb->ps - 12) << tlb->ps) |
606 (gip & (PSIZE(tlb->ps) - 1));
607 }
608 if (gpip) {
609 maddr = kvm_gpa_to_mpa(gpip);
610 } else {
611 tlb = vhpt_lookup(gip);
612 if (tlb == NULL) {
613 ia64_ptcl(gip, ARCH_PAGE_SHIFT << 2);
614 return IA64_FAULT;
615 }
616 maddr = (tlb->ppn >> (tlb->ps - 12) << tlb->ps)
617 | (gip & (PSIZE(tlb->ps) - 1));
618 }
619 vpa = (u64 *)__kvm_va(maddr);
620
621 pbundle->i64[0] = *vpa++;
622 pbundle->i64[1] = *vpa;
623
624 return IA64_NO_FAULT;
625 }
626
627 void kvm_init_vhpt(struct kvm_vcpu *v)
628 {
629 v->arch.vhpt.num = VHPT_NUM_ENTRIES;
630 thash_init(&v->arch.vhpt, VHPT_SHIFT);
631 ia64_set_pta(v->arch.vhpt.pta.val);
632 /*Enable VHPT here?*/
633 }
634
635 void kvm_init_vtlb(struct kvm_vcpu *v)
636 {
637 v->arch.vtlb.num = VTLB_NUM_ENTRIES;
638 thash_init(&v->arch.vtlb, VTLB_SHIFT);
639 }
Linux kernel - Deliverables
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