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tlb.c@ 22f0561

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Last change on this file since 22f0561 was 22f0561, checked in by Jakub Jermar <jakub@…>, 14 years ago

Get rid of kernel static non-identity mappings on ia64.

IO_OFFSET is replaced by legacyio_virt_base and LEGACYIO_USER_BASE.
VIO_OFFSET and FW_OFFSET are removed entirely.
Legacy I/O and IO SAPIC are mapped via hw_map().
Remove corresponding locked translation records.
Cleanup ia64 kernel pio_read/write_8|16|32().

Property mode set to 100644

File size: 19.0 KB

Line
1	/*
2	* Copyright (c) 2006 Jakub Jermar
3	* All rights reserved.
4	*
5	* Redistribution and use in source and binary forms, with or without
6	* modification, are permitted provided that the following conditions
7	* are met:
8	*
9	* - Redistributions of source code must retain the above copyright
10	* notice, this list of conditions and the following disclaimer.
11	* - Redistributions in binary form must reproduce the above copyright
12	* notice, this list of conditions and the following disclaimer in the
13	* documentation and/or other materials provided with the distribution.
14	* - The name of the author may not be used to endorse or promote products
15	* derived from this software without specific prior written permission.
16	*
17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
18	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
19	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
20	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
21	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
22	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
23	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
24	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
25	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
26	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27	*/
28
29	/** @addtogroup ia64mm
30	* @{
31	*/
32	/** @file
33	*/
34
35	/*
36	* TLB management.
37	*/
38
39	#include <mm/tlb.h>
40	#include <mm/asid.h>
41	#include <mm/page.h>
42	#include <mm/as.h>
43	#include <arch/mm/tlb.h>
44	#include <arch/mm/page.h>
45	#include <arch/mm/vhpt.h>
46	#include <arch/barrier.h>
47	#include <arch/interrupt.h>
48	#include <arch/pal/pal.h>
49	#include <arch/asm.h>
50	#include <panic.h>
51	#include <print.h>
52	#include <arch.h>
53	#include <interrupt.h>
54	#include <arch/legacyio.h>
55
56	/** Invalidate all TLB entries. */
57	void tlb_invalidate_all(void)
58	{
59	ipl_t ipl;
60	uintptr_t adr;
61	uint32_t count1, count2, stride1, stride2;
62
63	unsigned int i, j;
64
65	adr = PAL_PTCE_INFO_BASE();
66	count1 = PAL_PTCE_INFO_COUNT1();
67	count2 = PAL_PTCE_INFO_COUNT2();
68	stride1 = PAL_PTCE_INFO_STRIDE1();
69	stride2 = PAL_PTCE_INFO_STRIDE2();
70
71	ipl = interrupts_disable();
72
73	for (i = 0; i < count1; i++) {
74	for (j = 0; j < count2; j++) {
75	asm volatile (
76	"ptc.e %[adr] ;;"
77	:: [adr] "r" (adr)
78	);
79	adr += stride2;
80	}
81	adr += stride1;
82	}
83
84	interrupts_restore(ipl);
85
86	srlz_d();
87	srlz_i();
88
89	#ifdef CONFIG_VHPT
90	vhpt_invalidate_all();
91	#endif
92	}
93
94	/** Invalidate entries belonging to an address space.
95	*
96	* @param asid Address space identifier.
97	*
98	*/
99	void tlb_invalidate_asid(asid_t asid)
100	{
101	tlb_invalidate_all();
102	}
103
104
105	void tlb_invalidate_pages(asid_t asid, uintptr_t page, size_t cnt)
106	{
107	region_register_t rr;
108	bool restore_rr = false;
109	int b = 0;
110	int c = cnt;
111
112	uintptr_t va;
113	va = page;
114
115	rr.word = rr_read(VA2VRN(va));
116	if ((restore_rr = (rr.map.rid != ASID2RID(asid, VA2VRN(va))))) {
117	/*
118	* The selected region register does not contain required RID.
119	* Save the old content of the register and replace the RID.
120	*/
121	region_register_t rr0;
122
123	rr0 = rr;
124	rr0.map.rid = ASID2RID(asid, VA2VRN(va));
125	rr_write(VA2VRN(va), rr0.word);
126	srlz_d();
127	srlz_i();
128	}
129
130	while (c >>= 1)
131	b++;
132	b >>= 1;
133	uint64_t ps;
134
135	switch (b) {
136	case 0: /* cnt 1 - 3 */
137	ps = PAGE_WIDTH;
138	break;
139	case 1: /* cnt 4 - 15 */
140	ps = PAGE_WIDTH + 2;
141	va &= ~((1 << ps) - 1);
142	break;
143	case 2: /* cnt 16 - 63 */
144	ps = PAGE_WIDTH + 4;
145	va &= ~((1 << ps) - 1);
146	break;
147	case 3: /* cnt 64 - 255 */
148	ps = PAGE_WIDTH + 6;
149	va &= ~((1 << ps) - 1);
150	break;
151	case 4: /* cnt 256 - 1023 */
152	ps = PAGE_WIDTH + 8;
153	va &= ~((1 << ps) - 1);
154	break;
155	case 5: /* cnt 1024 - 4095 */
156	ps = PAGE_WIDTH + 10;
157	va &= ~((1 << ps) - 1);
158	break;
159	case 6: /* cnt 4096 - 16383 */
160	ps = PAGE_WIDTH + 12;
161	va &= ~((1 << ps) - 1);
162	break;
163	case 7: /* cnt 16384 - 65535 */
164	case 8: /* cnt 65536 - (256K - 1) */
165	ps = PAGE_WIDTH + 14;
166	va &= ~((1 << ps) - 1);
167	break;
168	default:
169	ps = PAGE_WIDTH + 18;
170	va &= ~((1 << ps) - 1);
171	break;
172	}
173
174	for (; va < (page + cnt * PAGE_SIZE); va += (1 << ps))
175	asm volatile (
176	"ptc.l %[va], %[ps] ;;"
177	:: [va]"r" (va),
178	[ps] "r" (ps << 2)
179	);
180
181	srlz_d();
182	srlz_i();
183
184	if (restore_rr) {
185	rr_write(VA2VRN(va), rr.word);
186	srlz_d();
187	srlz_i();
188	}
189	}
190
191	/** Insert data into data translation cache.
192	*
193	* @param va Virtual page address.
194	* @param asid Address space identifier.
195	* @param entry The rest of TLB entry as required by TLB insertion
196	* format.
197	*
198	*/
199	void dtc_mapping_insert(uintptr_t va, asid_t asid, tlb_entry_t entry)
200	{
201	tc_mapping_insert(va, asid, entry, true);
202	}
203
204	/** Insert data into instruction translation cache.
205	*
206	* @param va Virtual page address.
207	* @param asid Address space identifier.
208	* @param entry The rest of TLB entry as required by TLB insertion
209	* format.
210	*/
211	void itc_mapping_insert(uintptr_t va, asid_t asid, tlb_entry_t entry)
212	{
213	tc_mapping_insert(va, asid, entry, false);
214	}
215
216	/** Insert data into instruction or data translation cache.
217	*
218	* @param va Virtual page address.
219	* @param asid Address space identifier.
220	* @param entry The rest of TLB entry as required by TLB insertion
221	* format.
222	* @param dtc If true, insert into data translation cache, use
223	* instruction translation cache otherwise.
224	*
225	*/
226	void tc_mapping_insert(uintptr_t va, asid_t asid, tlb_entry_t entry, bool dtc)
227	{
228	region_register_t rr;
229	bool restore_rr = false;
230
231	rr.word = rr_read(VA2VRN(va));
232	if ((restore_rr = (rr.map.rid != ASID2RID(asid, VA2VRN(va))))) {
233	/*
234	* The selected region register does not contain required RID.
235	* Save the old content of the register and replace the RID.
236	*/
237	region_register_t rr0;
238
239	rr0 = rr;
240	rr0.map.rid = ASID2RID(asid, VA2VRN(va));
241	rr_write(VA2VRN(va), rr0.word);
242	srlz_d();
243	srlz_i();
244	}
245
246	asm volatile (
247	"mov r8 = psr ;;\n"
248	"rsm %[mask] ;;\n" /* PSR_IC_MASK */
249	"srlz.d ;;\n"
250	"srlz.i ;;\n"
251	"mov cr.ifa = %[va]\n" /* va */
252	"mov cr.itir = %[word1] ;;\n" /* entry.word[1] */
253	"cmp.eq p6, p7 = %[dtc], r0 ;;\n" /* decide between itc and dtc */
254	"(p6) itc.i %[word0] ;;\n"
255	"(p7) itc.d %[word0] ;;\n"
256	"mov psr.l = r8 ;;\n"
257	"srlz.d ;;\n"
258	:: [mask] "i" (PSR_IC_MASK),
259	[va] "r" (va),
260	[word0] "r" (entry.word[0]),
261	[word1] "r" (entry.word[1]),
262	[dtc] "r" (dtc)
263	: "p6", "p7", "r8"
264	);
265
266	if (restore_rr) {
267	rr_write(VA2VRN(va), rr.word);
268	srlz_d();
269	srlz_i();
270	}
271	}
272
273	/** Insert data into instruction translation register.
274	*
275	* @param va Virtual page address.
276	* @param asid Address space identifier.
277	* @param entry The rest of TLB entry as required by TLB insertion
278	* format.
279	* @param tr Translation register.
280	*
281	*/
282	void itr_mapping_insert(uintptr_t va, asid_t asid, tlb_entry_t entry, size_t tr)
283	{
284	tr_mapping_insert(va, asid, entry, false, tr);
285	}
286
287	/** Insert data into data translation register.
288	*
289	* @param va Virtual page address.
290	* @param asid Address space identifier.
291	* @param entry The rest of TLB entry as required by TLB insertion
292	* format.
293	* @param tr Translation register.
294	*
295	*/
296	void dtr_mapping_insert(uintptr_t va, asid_t asid, tlb_entry_t entry, size_t tr)
297	{
298	tr_mapping_insert(va, asid, entry, true, tr);
299	}
300
301	/** Insert data into instruction or data translation register.
302	*
303	* @param va Virtual page address.
304	* @param asid Address space identifier.
305	* @param entry The rest of TLB entry as required by TLB insertion
306	* format.
307	* @param dtr If true, insert into data translation register, use
308	* instruction translation register otherwise.
309	* @param tr Translation register.
310	*
311	*/
312	void tr_mapping_insert(uintptr_t va, asid_t asid, tlb_entry_t entry, bool dtr,
313	size_t tr)
314	{
315	region_register_t rr;
316	bool restore_rr = false;
317
318	rr.word = rr_read(VA2VRN(va));
319	if ((restore_rr = (rr.map.rid != ASID2RID(asid, VA2VRN(va))))) {
320	/*
321	* The selected region register does not contain required RID.
322	* Save the old content of the register and replace the RID.
323	*/
324	region_register_t rr0;
325
326	rr0 = rr;
327	rr0.map.rid = ASID2RID(asid, VA2VRN(va));
328	rr_write(VA2VRN(va), rr0.word);
329	srlz_d();
330	srlz_i();
331	}
332
333	asm volatile (
334	"mov r8 = psr ;;\n"
335	"rsm %[mask] ;;\n" /* PSR_IC_MASK */
336	"srlz.d ;;\n"
337	"srlz.i ;;\n"
338	"mov cr.ifa = %[va]\n" /* va */
339	"mov cr.itir = %[word1] ;;\n" /* entry.word[1] */
340	"cmp.eq p6, p7 = %[dtr], r0 ;;\n" /* decide between itr and dtr */
341	"(p6) itr.i itr[%[tr]] = %[word0] ;;\n"
342	"(p7) itr.d dtr[%[tr]] = %[word0] ;;\n"
343	"mov psr.l = r8 ;;\n"
344	"srlz.d ;;\n"
345	:: [mask] "i" (PSR_IC_MASK),
346	[va] "r" (va),
347	[word1] "r" (entry.word[1]),
348	[word0] "r" (entry.word[0]),
349	[tr] "r" (tr),
350	[dtr] "r" (dtr)
351	: "p6", "p7", "r8"
352	);
353
354	if (restore_rr) {
355	rr_write(VA2VRN(va), rr.word);
356	srlz_d();
357	srlz_i();
358	}
359	}
360
361	/** Insert data into DTLB.
362	*
363	* @param page Virtual page address including VRN bits.
364	* @param frame Physical frame address.
365	* @param dtr If true, insert into data translation register, use data
366	* translation cache otherwise.
367	* @param tr Translation register if dtr is true, ignored otherwise.
368	*
369	*/
370	void dtlb_kernel_mapping_insert(uintptr_t page, uintptr_t frame, bool dtr,
371	size_t tr)
372	{
373	tlb_entry_t entry;
374
375	entry.word[0] = 0;
376	entry.word[1] = 0;
377
378	entry.p = true; /* present */
379	entry.ma = MA_WRITEBACK;
380	entry.a = true; /* already accessed */
381	entry.d = true; /* already dirty */
382	entry.pl = PL_KERNEL;
383	entry.ar = AR_READ \| AR_WRITE;
384	entry.ppn = frame >> PPN_SHIFT;
385	entry.ps = PAGE_WIDTH;
386
387	if (dtr)
388	dtr_mapping_insert(page, ASID_KERNEL, entry, tr);
389	else
390	dtc_mapping_insert(page, ASID_KERNEL, entry);
391	}
392
393	/** Purge kernel entries from DTR.
394	*
395	* Purge DTR entries used by the kernel.
396	*
397	* @param page Virtual page address including VRN bits.
398	* @param width Width of the purge in bits.
399	*
400	*/
401	void dtr_purge(uintptr_t page, size_t width)
402	{
403	asm volatile (
404	"ptr.d %[page], %[width]\n"
405	:: [page] "r" (page),
406	[width] "r" (width << 2)
407	);
408	}
409
410
411	/** Copy content of PTE into data translation cache.
412	*
413	* @param t PTE.
414	*
415	*/
416	void dtc_pte_copy(pte_t *t)
417	{
418	tlb_entry_t entry;
419
420	entry.word[0] = 0;
421	entry.word[1] = 0;
422
423	entry.p = t->p;
424	entry.ma = t->c ? MA_WRITEBACK : MA_UNCACHEABLE;
425	entry.a = t->a;
426	entry.d = t->d;
427	entry.pl = t->k ? PL_KERNEL : PL_USER;
428	entry.ar = t->w ? AR_WRITE : AR_READ;
429	entry.ppn = t->frame >> PPN_SHIFT;
430	entry.ps = PAGE_WIDTH;
431
432	dtc_mapping_insert(t->page, t->as->asid, entry);
433
434	#ifdef CONFIG_VHPT
435	vhpt_mapping_insert(t->page, t->as->asid, entry);
436	#endif
437	}
438
439	/** Copy content of PTE into instruction translation cache.
440	*
441	* @param t PTE.
442	*
443	*/
444	void itc_pte_copy(pte_t *t)
445	{
446	tlb_entry_t entry;
447
448	entry.word[0] = 0;
449	entry.word[1] = 0;
450
451	ASSERT(t->x);
452
453	entry.p = t->p;
454	entry.ma = t->c ? MA_WRITEBACK : MA_UNCACHEABLE;
455	entry.a = t->a;
456	entry.pl = t->k ? PL_KERNEL : PL_USER;
457	entry.ar = t->x ? (AR_EXECUTE \| AR_READ) : AR_READ;
458	entry.ppn = t->frame >> PPN_SHIFT;
459	entry.ps = PAGE_WIDTH;
460
461	itc_mapping_insert(t->page, t->as->asid, entry);
462
463	#ifdef CONFIG_VHPT
464	vhpt_mapping_insert(t->page, t->as->asid, entry);
465	#endif
466	}
467
468	static bool is_kernel_fault(uintptr_t va)
469	{
470	region_register_t rr;
471
472	rr.word = rr_read(VA2VRN(va));
473	rid_t rid = rr.map.rid;
474	return (RID2ASID(rid) == ASID_KERNEL) && (VA2VRN(va) == VRN_KERNEL);
475	}
476
477	/** Instruction TLB fault handler for faults with VHPT turned off.
478	*
479	* @param vector Interruption vector.
480	* @param istate Structure with saved interruption state.
481	*
482	*/
483	void alternate_instruction_tlb_fault(uint64_t vector, istate_t *istate)
484	{
485	uintptr_t va;
486	pte_t *t;
487
488	va = istate->cr_ifa; /* faulting address */
489
490	ASSERT(!is_kernel_fault(va));
491
492	t = page_mapping_find(AS, va, true);
493	if (t) {
494	/*
495	* The mapping was found in software page hash table.
496	* Insert it into data translation cache.
497	*/
498	itc_pte_copy(t);
499	} else {
500	/*
501	* Forward the page fault to address space page fault handler.
502	*/
503	if (as_page_fault(va, PF_ACCESS_EXEC, istate) == AS_PF_FAULT) {
504	fault_if_from_uspace(istate, "Page fault at %p.",
505	(void *) va);
506	panic_memtrap(istate, PF_ACCESS_EXEC, va, NULL);
507	}
508	}
509	}
510
511	static int is_io_page_accessible(int page)
512	{
513	if (TASK->arch.iomap)
514	return bitmap_get(TASK->arch.iomap, page);
515	else
516	return 0;
517	}
518
519	/**
520	* There is special handling of memory mapped legacy io, because of 4KB sized
521	* access for userspace.
522	*
523	* @param va Virtual address of page fault.
524	* @param istate Structure with saved interruption state.
525	*
526	* @return One on success, zero on failure.
527	*
528	*/
529	static int try_memmap_io_insertion(uintptr_t va, istate_t *istate)
530	{
531	if ((va >= LEGACYIO_USER_BASE) && (va < LEGACYIO_USER_BASE + (1 << LEGACYIO_PAGE_WIDTH))) {
532	if (TASK) {
533	uint64_t io_page = (va & ((1 << LEGACYIO_PAGE_WIDTH) - 1)) >>
534	LEGACYIO_SINGLE_PAGE_WIDTH;
535
536	if (is_io_page_accessible(io_page)) {
537	uint64_t page, frame;
538
539	page = LEGACYIO_USER_BASE +
540	(1 << LEGACYIO_SINGLE_PAGE_WIDTH) * io_page;
541	frame = LEGACYIO_PHYS_BASE +
542	(1 << LEGACYIO_SINGLE_PAGE_WIDTH) * io_page;
543
544	tlb_entry_t entry;
545
546	entry.word[0] = 0;
547	entry.word[1] = 0;
548
549	entry.p = true; /* present */
550	entry.ma = MA_UNCACHEABLE;
551	entry.a = true; /* already accessed */
552	entry.d = true; /* already dirty */
553	entry.pl = PL_USER;
554	entry.ar = AR_READ \| AR_WRITE;
555	entry.ppn = frame >> PPN_SHIFT;
556	entry.ps = LEGACYIO_SINGLE_PAGE_WIDTH;
557
558	dtc_mapping_insert(page, TASK->as->asid, entry);
559	return 1;
560	} else {
561	fault_if_from_uspace(istate,
562	"IO access fault at %p.", (void *) va);
563	}
564	}
565	}
566
567	return 0;
568	}
569
570	/** Data TLB fault handler for faults with VHPT turned off.
571	*
572	* @param vector Interruption vector.
573	* @param istate Structure with saved interruption state.
574	*
575	*/
576	void alternate_data_tlb_fault(uint64_t vector, istate_t *istate)
577	{
578	if (istate->cr_isr.sp) {
579	/*
580	* Speculative load. Deffer the exception until a more clever
581	* approach can be used. Currently if we try to find the
582	* mapping for the speculative load while in the kernel, we
583	* might introduce a livelock because of the possibly invalid
584	* values of the address.
585	*/
586	istate->cr_ipsr.ed = true;
587	return;
588	}
589
590	uintptr_t va = istate->cr_ifa; /* faulting address */
591	as_t *as = AS;
592
593	if (is_kernel_fault(va)) {
594	if (va < end_of_identity) {
595	/*
596	* Create kernel identity mapping for low memory.
597	*/
598	dtlb_kernel_mapping_insert(va, KA2PA(va), false, 0);
599	return;
600	} else {
601	as = AS_KERNEL;
602	}
603	}
604
605
606	pte_t *entry = page_mapping_find(as, va, true);
607	if (entry) {
608	/*
609	* The mapping was found in the software page hash table.
610	* Insert it into data translation cache.
611	*/
612	dtc_pte_copy(entry);
613	} else {
614	if (try_memmap_io_insertion(va, istate))
615	return;
616
617	/*
618	* Forward the page fault to the address space page fault
619	* handler.
620	*/
621	if (as_page_fault(va, PF_ACCESS_READ, istate) == AS_PF_FAULT) {
622	fault_if_from_uspace(istate, "Page fault at %p.",
623	(void *) va);
624	panic_memtrap(istate, PF_ACCESS_UNKNOWN, va, NULL);
625	}
626	}
627	}
628
629	/** Data nested TLB fault handler.
630	*
631	* This fault should not occur.
632	*
633	* @param vector Interruption vector.
634	* @param istate Structure with saved interruption state.
635	*
636	*/
637	void data_nested_tlb_fault(uint64_t vector, istate_t *istate)
638	{
639	ASSERT(false);
640	}
641
642	/** Data Dirty bit fault handler.
643	*
644	* @param vector Interruption vector.
645	* @param istate Structure with saved interruption state.
646	*
647	*/
648	void data_dirty_bit_fault(uint64_t vector, istate_t *istate)
649	{
650	uintptr_t va;
651	pte_t *t;
652	as_t *as = AS;
653
654	va = istate->cr_ifa; /* faulting address */
655
656	if (is_kernel_fault(va))
657	as = AS_KERNEL;
658
659	t = page_mapping_find(as, va, true);
660	ASSERT((t) && (t->p));
661	if ((t) && (t->p) && (t->w)) {
662	/*
663	* Update the Dirty bit in page tables and reinsert
664	* the mapping into DTC.
665	*/
666	t->d = true;
667	dtc_pte_copy(t);
668	} else {
669	if (as_page_fault(va, PF_ACCESS_WRITE, istate) == AS_PF_FAULT) {
670	fault_if_from_uspace(istate, "Page fault at %p.",
671	(void *) va);
672	panic_memtrap(istate, PF_ACCESS_WRITE, va, NULL);
673	}
674	}
675	}
676
677	/** Instruction access bit fault handler.
678	*
679	* @param vector Interruption vector.
680	* @param istate Structure with saved interruption state.
681	*
682	*/
683	void instruction_access_bit_fault(uint64_t vector, istate_t *istate)
684	{
685	uintptr_t va;
686	pte_t *t;
687
688	va = istate->cr_ifa; /* faulting address */
689
690	ASSERT(!is_kernel_fault(va));
691
692	t = page_mapping_find(AS, va, true);
693	ASSERT((t) && (t->p));
694	if ((t) && (t->p) && (t->x)) {
695	/*
696	* Update the Accessed bit in page tables and reinsert
697	* the mapping into ITC.
698	*/
699	t->a = true;
700	itc_pte_copy(t);
701	} else {
702	if (as_page_fault(va, PF_ACCESS_EXEC, istate) == AS_PF_FAULT) {
703	fault_if_from_uspace(istate, "Page fault at %p.",
704	(void *) va);
705	panic_memtrap(istate, PF_ACCESS_EXEC, va, NULL);
706	}
707	}
708	}
709
710	/** Data access bit fault handler.
711	*
712	* @param vector Interruption vector.
713	* @param istate Structure with saved interruption state.
714	*
715	*/
716	void data_access_bit_fault(uint64_t vector, istate_t *istate)
717	{
718	uintptr_t va;
719	pte_t *t;
720	as_t *as = AS;
721
722	va = istate->cr_ifa; /* faulting address */
723
724	if (is_kernel_fault(va))
725	as = AS_KERNEL;
726
727	t = page_mapping_find(as, va, true);
728	ASSERT((t) && (t->p));
729	if ((t) && (t->p)) {
730	/*
731	* Update the Accessed bit in page tables and reinsert
732	* the mapping into DTC.
733	*/
734	t->a = true;
735	dtc_pte_copy(t);
736	} else {
737	if (as_page_fault(va, PF_ACCESS_READ, istate) == AS_PF_FAULT) {
738	fault_if_from_uspace(istate, "Page fault at %p.",
739	(void *) va);
740	panic_memtrap(istate, PF_ACCESS_UNKNOWN, va, NULL);
741	}
742	}
743	}
744
745	/** Data access rights fault handler.
746	*
747	* @param vector Interruption vector.
748	* @param istate Structure with saved interruption state.
749	*
750	*/
751	void data_access_rights_fault(uint64_t vector, istate_t *istate)
752	{
753	uintptr_t va;
754	pte_t *t;
755
756	va = istate->cr_ifa; /* faulting address */
757
758	ASSERT(!is_kernel_fault(va));
759
760	/*
761	* Assume a write to a read-only page.
762	*/
763	t = page_mapping_find(AS, va, true);
764	ASSERT((t) && (t->p));
765	ASSERT(!t->w);
766	if (as_page_fault(va, PF_ACCESS_WRITE, istate) == AS_PF_FAULT) {
767	fault_if_from_uspace(istate, "Page fault at %p.",
768	(void *) va);
769	panic_memtrap(istate, PF_ACCESS_WRITE, va, NULL);
770	}
771	}
772
773	/** Page not present fault handler.
774	*
775	* @param vector Interruption vector.
776	* @param istate Structure with saved interruption state.
777	*
778	*/
779	void page_not_present(uint64_t vector, istate_t *istate)
780	{
781	uintptr_t va;
782	pte_t *t;
783
784	va = istate->cr_ifa; /* faulting address */
785
786	ASSERT(!is_kernel_fault(va));
787
788	t = page_mapping_find(AS, va, true);
789	ASSERT(t);
790
791	if (t->p) {
792	/*
793	* If the Present bit is set in page hash table, just copy it
794	* and update ITC/DTC.
795	*/
796	if (t->x)
797	itc_pte_copy(t);
798	else
799	dtc_pte_copy(t);
800	} else {
801	if (as_page_fault(va, PF_ACCESS_READ, istate) == AS_PF_FAULT) {
802	fault_if_from_uspace(istate, "Page fault at %p.",
803	(void *) va);
804	panic_memtrap(istate, PF_ACCESS_UNKNOWN, va, NULL);
805	}
806	}
807	}
808
809	void tlb_arch_init(void)
810	{
811	}
812
813	void tlb_print(void)
814	{
815	}
816
817	/** @}
818	*/

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source: mainline/kernel/arch/ia64/src/mm/tlb.c@ 22f0561

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