WebSVN – HelenOS-historic – Blame – /kernel/trunk/arch/ia64/src/mm/tlb.c

Rev	Author	Line No.	Line
740	jermar	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	/*
		30	* TLB management.
		31	*/
		32
		33	#include <mm/tlb.h>
901	jermar	34	#include <mm/asid.h>
902	jermar	35	#include <mm/page.h>
		36	#include <mm/as.h>
818	vana	37	#include <arch/mm/tlb.h>
901	jermar	38	#include <arch/mm/page.h>
819	vana	39	#include <arch/barrier.h>
900	jermar	40	#include <arch/interrupt.h>
928	vana	41	#include <arch/pal/pal.h>
		42	#include <arch/asm.h>
899	jermar	43	#include <typedefs.h>
900	jermar	44	#include <panic.h>
902	jermar	45	#include <arch.h>
740	jermar	46
944	vana	47
		48
756	jermar	49	/** Invalidate all TLB entries. */
740	jermar	50	void tlb_invalidate_all(void)
		51	{
928	vana	52	__address adr;
		53	__u32 count1,count2,stride1,stride2;
		54
		55	int i,j;
		56
		57	adr=PAL_PTCE_INFO_BASE();
		58	count1=PAL_PTCE_INFO_COUNT1();
		59	count2=PAL_PTCE_INFO_COUNT2();
		60	stride1=PAL_PTCE_INFO_STRIDE1();
		61	stride2=PAL_PTCE_INFO_STRIDE2();
		62
		63	interrupts_disable();
		64
		65	for(i=0;i<count1;i++)
		66	{
		67	for(j=0;j<count2;j++)
		68	{
		69	asm volatile
		70	(
		71	"ptc.e %0;;"
		72	:
		73	:"r" (adr)
		74	);
		75	adr+=stride2;
		76	}
		77	adr+=stride1;
		78	}
		79
		80	interrupts_enable();
		81
		82	srlz_d();
		83	srlz_i();
740	jermar	84	}
		85
		86	/** Invalidate entries belonging to an address space.
		87	*
		88	* @param asid Address space identifier.
		89	*/
		90	void tlb_invalidate_asid(asid_t asid)
		91	{
		92	/* TODO */
935	vana	93	tlb_invalidate_all();
740	jermar	94	}
818	vana	95
944	vana	96	extern void d(void);
		97	void d(void)
		98	{
		99	}
935	vana	100
944	vana	101
		102	void tlb_invalidate_pages(asid_t asid, __address va, count_t cnt)
935	vana	103	{
		104
		105
944	vana	106	region_register rr;
		107	bool restore_rr = false;
		108	int b=0;
		109	int c=cnt;
		110	int i;
		111
		112	rr.word = rr_read(VA2VRN(va));
		113	if ((restore_rr = (rr.map.rid != ASID2RID(asid, VA2VRN(va))))) {
		114	/*
		115	* The selected region register does not contain required RID.
		116	* Save the old content of the register and replace the RID.
		117	*/
		118	region_register rr0;
		119
		120	rr0 = rr;
		121	rr0.map.rid = ASID2RID(asid, VA2VRN(va));
		122	rr_write(VA2VRN(va), rr0.word);
		123	srlz_d();
		124	srlz_i();
		125	}
		126
		127	while(c>>=1) b++;
		128	b>>=1;
		129	__u64 ps;
		130
		131	switch(b)
		132	{
		133	case 0: /cnt 1-3/
		134	{
		135	ps=PAGE_WIDTH;
		136	break;
		137	}
		138	case 1: /cnt 4-15/
		139	{
		140	cnt=(cnt/4)+1;
		141	ps=PAGE_WIDTH+2;
		142	va&=~((1<<ps)-1);
		143	break;
		144	}
		145	case 2: /cnt 16-63/
		146	{
		147	cnt=(cnt/16)+1;
		148	ps=PAGE_WIDTH+4;
		149	va&=~((1<<ps)-1);
		150	break;
		151	}
		152	case 3: /cnt 64-255/
		153	{
		154	cnt=(cnt/64)+1;
		155	ps=PAGE_WIDTH+6;
		156	va&=~((1<<ps)-1);
		157	break;
		158	}
		159	case 4: /cnt 256-1023/
		160	{
		161	cnt=(cnt/256)+1;
		162	ps=PAGE_WIDTH+8;
		163	va&=~((1<<ps)-1);
		164	break;
		165	}
		166	case 5: /cnt 1024-4095/
		167	{
		168	cnt=(cnt/1024)+1;
		169	ps=PAGE_WIDTH+10;
		170	va&=~((1<<ps)-1);
		171	break;
		172	}
		173	case 6: /cnt 4096-16383/
		174	{
		175	cnt=(cnt/4096)+1;
		176	ps=PAGE_WIDTH+12;
		177	va&=~((1<<ps)-1);
		178	break;
		179	}
		180	case 7: /cnt 16384-65535/
		181	case 8: /cnt 65536-(256K-1)/
		182	{
		183	cnt=(cnt/16384)+1;
		184	ps=PAGE_WIDTH+14;
		185	va&=~((1<<ps)-1);
		186	break;
		187	}
		188	default:
		189	{
		190	cnt=(cnt/(16384*16))+1;
		191	ps=PAGE_WIDTH+18;
		192	va&=~((1<<ps)-1);
		193	break;
		194	}
		195
		196	}
		197	d();
		198	for(i=0;i<cnt;i++) {
		199	__asm__ volatile
		200	(
		201	"ptc.l %0,%1;;"
		202	:
		203	: "r"(va), "r"(ps<<2)
		204	);
		205	va+=(1<<ps);
		206	}
		207	srlz_d();
		208	srlz_i();
		209
		210
		211	if (restore_rr) {
		212	rr_write(VA2VRN(va), rr.word);
		213	srlz_d();
		214	srlz_i();
		215	}
		216
		217
935	vana	218	}
		219
		220
899	jermar	221	/** Insert data into data translation cache.
		222	*
		223	* @param va Virtual page address.
		224	* @param asid Address space identifier.
		225	* @param entry The rest of TLB entry as required by TLB insertion format.
		226	*/
919	jermar	227	void dtc_mapping_insert(__address va, asid_t asid, tlb_entry_t entry)
		228	{
899	jermar	229	tc_mapping_insert(va, asid, entry, true);
		230	}
818	vana	231
899	jermar	232	/** Insert data into instruction translation cache.
		233	*
		234	* @param va Virtual page address.
		235	* @param asid Address space identifier.
		236	* @param entry The rest of TLB entry as required by TLB insertion format.
		237	*/
919	jermar	238	void itc_mapping_insert(__address va, asid_t asid, tlb_entry_t entry)
		239	{
899	jermar	240	tc_mapping_insert(va, asid, entry, false);
		241	}
818	vana	242
899	jermar	243	/** Insert data into instruction or data translation cache.
		244	*
		245	* @param va Virtual page address.
		246	* @param asid Address space identifier.
		247	* @param entry The rest of TLB entry as required by TLB insertion format.
		248	* @param dtc If true, insert into data translation cache, use instruction translation cache otherwise.
		249	*/
		250	void tc_mapping_insert(__address va, asid_t asid, tlb_entry_t entry, bool dtc)
818	vana	251	{
		252	region_register rr;
899	jermar	253	bool restore_rr = false;
818	vana	254
901	jermar	255	rr.word = rr_read(VA2VRN(va));
		256	if ((restore_rr = (rr.map.rid != ASID2RID(asid, VA2VRN(va))))) {
899	jermar	257	/*
		258	* The selected region register does not contain required RID.
		259	* Save the old content of the register and replace the RID.
		260	*/
		261	region_register rr0;
818	vana	262
899	jermar	263	rr0 = rr;
901	jermar	264	rr0.map.rid = ASID2RID(asid, VA2VRN(va));
		265	rr_write(VA2VRN(va), rr0.word);
899	jermar	266	srlz_d();
		267	srlz_i();
818	vana	268	}
899	jermar	269
		270	__asm__ volatile (
		271	"mov r8=psr;;\n"
900	jermar	272	"rsm %0;;\n" /* PSR_IC_MASK */
899	jermar	273	"srlz.d;;\n"
		274	"srlz.i;;\n"
		275	"mov cr.ifa=%1\n" /* va */
		276	"mov cr.itir=%2;;\n" /* entry.word[1] */
		277	"cmp.eq p6,p7 = %4,r0;;\n" /* decide between itc and dtc */
		278	"(p6) itc.i %3;;\n"
		279	"(p7) itc.d %3;;\n"
		280	"mov psr.l=r8;;\n"
		281	"srlz.d;;\n"
		282	:
900	jermar	283	: "i" (PSR_IC_MASK), "r" (va), "r" (entry.word[1]), "r" (entry.word[0]), "r" (dtc)
		284	: "p6", "p7", "r8"
899	jermar	285	);
		286
		287	if (restore_rr) {
901	jermar	288	rr_write(VA2VRN(va), rr.word);
819	vana	289	srlz_d();
899	jermar	290	srlz_i();
818	vana	291	}
899	jermar	292	}
818	vana	293
899	jermar	294	/** Insert data into instruction translation register.
		295	*
		296	* @param va Virtual page address.
		297	* @param asid Address space identifier.
		298	* @param entry The rest of TLB entry as required by TLB insertion format.
		299	* @param tr Translation register.
		300	*/
		301	void itr_mapping_insert(__address va, asid_t asid, tlb_entry_t entry, index_t tr)
		302	{
		303	tr_mapping_insert(va, asid, entry, false, tr);
		304	}
818	vana	305
899	jermar	306	/** Insert data into data translation register.
		307	*
		308	* @param va Virtual page address.
		309	* @param asid Address space identifier.
		310	* @param entry The rest of TLB entry as required by TLB insertion format.
		311	* @param tr Translation register.
		312	*/
		313	void dtr_mapping_insert(__address va, asid_t asid, tlb_entry_t entry, index_t tr)
		314	{
		315	tr_mapping_insert(va, asid, entry, true, tr);
818	vana	316	}
		317
899	jermar	318	/** Insert data into instruction or data translation register.
		319	*
		320	* @param va Virtual page address.
		321	* @param asid Address space identifier.
		322	* @param entry The rest of TLB entry as required by TLB insertion format.
		323	* @param dtc If true, insert into data translation register, use instruction translation register otherwise.
		324	* @param tr Translation register.
		325	*/
		326	void tr_mapping_insert(__address va, asid_t asid, tlb_entry_t entry, bool dtr, index_t tr)
818	vana	327	{
		328	region_register rr;
899	jermar	329	bool restore_rr = false;
818	vana	330
901	jermar	331	rr.word = rr_read(VA2VRN(va));
		332	if ((restore_rr = (rr.map.rid != ASID2RID(asid, VA2VRN(va))))) {
899	jermar	333	/*
		334	* The selected region register does not contain required RID.
		335	* Save the old content of the register and replace the RID.
		336	*/
		337	region_register rr0;
818	vana	338
899	jermar	339	rr0 = rr;
901	jermar	340	rr0.map.rid = ASID2RID(asid, VA2VRN(va));
		341	rr_write(VA2VRN(va), rr0.word);
899	jermar	342	srlz_d();
		343	srlz_i();
		344	}
818	vana	345
899	jermar	346	__asm__ volatile (
		347	"mov r8=psr;;\n"
900	jermar	348	"rsm %0;;\n" /* PSR_IC_MASK */
899	jermar	349	"srlz.d;;\n"
		350	"srlz.i;;\n"
		351	"mov cr.ifa=%1\n" /* va */
		352	"mov cr.itir=%2;;\n" /* entry.word[1] */
		353	"cmp.eq p6,p7=%5,r0;;\n" /* decide between itr and dtr */
		354	"(p6) itr.i itr[%4]=%3;;\n"
		355	"(p7) itr.d dtr[%4]=%3;;\n"
		356	"mov psr.l=r8;;\n"
		357	"srlz.d;;\n"
		358	:
900	jermar	359	: "i" (PSR_IC_MASK), "r" (va), "r" (entry.word[1]), "r" (entry.word[0]), "r" (tr), "r" (dtr)
		360	: "p6", "p7", "r8"
899	jermar	361	);
		362
		363	if (restore_rr) {
901	jermar	364	rr_write(VA2VRN(va), rr.word);
819	vana	365	srlz_d();
899	jermar	366	srlz_i();
818	vana	367	}
899	jermar	368	}
818	vana	369
901	jermar	370	/** Insert data into DTLB.
		371	*
		372	* @param va Virtual page address.
		373	* @param asid Address space identifier.
		374	* @param entry The rest of TLB entry as required by TLB insertion format.
		375	* @param dtr If true, insert into data translation register, use data translation cache otherwise.
		376	* @param tr Translation register if dtr is true, ignored otherwise.
		377	*/
902	jermar	378	void dtlb_kernel_mapping_insert(__address page, __address frame, bool dtr, index_t tr)
901	jermar	379	{
		380	tlb_entry_t entry;
		381
		382	entry.word[0] = 0;
		383	entry.word[1] = 0;
		384
		385	entry.p = true; /* present */
		386	entry.ma = MA_WRITEBACK;
		387	entry.a = true; /* already accessed */
		388	entry.d = true; /* already dirty */
		389	entry.pl = PL_KERNEL;
		390	entry.ar = AR_READ \| AR_WRITE;
		391	entry.ppn = frame >> PPN_SHIFT;
		392	entry.ps = PAGE_WIDTH;
		393
		394	if (dtr)
		395	dtr_mapping_insert(page, ASID_KERNEL, entry, tr);
		396	else
		397	dtc_mapping_insert(page, ASID_KERNEL, entry);
		398	}
		399
902	jermar	400	/** Copy content of PTE into data translation cache.
		401	*
		402	* @param t PTE.
		403	*/
		404	void dtc_pte_copy(pte_t *t)
		405	{
		406	tlb_entry_t entry;
		407
		408	entry.word[0] = 0;
		409	entry.word[1] = 0;
		410
		411	entry.p = t->p;
		412	entry.ma = t->c ? MA_WRITEBACK : MA_UNCACHEABLE;
		413	entry.a = t->a;
		414	entry.d = t->d;
		415	entry.pl = t->k ? PL_KERNEL : PL_USER;
		416	entry.ar = t->w ? AR_WRITE : AR_READ;
		417	entry.ppn = t->frame >> PPN_SHIFT;
		418	entry.ps = PAGE_WIDTH;
		419
		420	dtc_mapping_insert(t->page, t->as->asid, entry);
		421	}
		422
		423	/** Copy content of PTE into instruction translation cache.
		424	*
		425	* @param t PTE.
		426	*/
		427	void itc_pte_copy(pte_t *t)
		428	{
		429	tlb_entry_t entry;
		430
		431	entry.word[0] = 0;
		432	entry.word[1] = 0;
		433
		434	ASSERT(t->x);
		435
		436	entry.p = t->p;
		437	entry.ma = t->c ? MA_WRITEBACK : MA_UNCACHEABLE;
		438	entry.a = t->a;
		439	entry.pl = t->k ? PL_KERNEL : PL_USER;
		440	entry.ar = t->x ? (AR_EXECUTE \| AR_READ) : AR_READ;
		441	entry.ppn = t->frame >> PPN_SHIFT;
		442	entry.ps = PAGE_WIDTH;
		443
		444	itc_mapping_insert(t->page, t->as->asid, entry);
		445	}
		446
		447	/** Instruction TLB fault handler for faults with VHPT turned off.
		448	*
		449	* @param vector Interruption vector.
		450	* @param pstate Structure with saved interruption state.
		451	*/
900	jermar	452	void alternate_instruction_tlb_fault(__u64 vector, struct exception_regdump *pstate)
899	jermar	453	{
902	jermar	454	region_register rr;
		455	__address va;
		456	pte_t *t;
		457
		458	va = pstate->cr_ifa; /* faulting address */
		459	t = page_mapping_find(AS, va);
		460	if (t) {
		461	/*
		462	* The mapping was found in software page hash table.
		463	* Insert it into data translation cache.
		464	*/
		465	itc_pte_copy(t);
		466	} else {
		467	/*
		468	* Forward the page fault to address space page fault handler.
		469	*/
		470	if (!as_page_fault(va)) {
		471	panic("%s: va=%P, rid=%d\n", __FUNCTION__, pstate->cr_ifa, rr.map.rid);
		472	}
		473	}
899	jermar	474	}
818	vana	475
902	jermar	476	/** Data TLB fault handler for faults with VHPT turned off.
901	jermar	477	*
		478	* @param vector Interruption vector.
		479	* @param pstate Structure with saved interruption state.
		480	*/
900	jermar	481	void alternate_data_tlb_fault(__u64 vector, struct exception_regdump *pstate)
899	jermar	482	{
901	jermar	483	region_register rr;
		484	rid_t rid;
		485	__address va;
902	jermar	486	pte_t *t;
901	jermar	487
		488	va = pstate->cr_ifa; /* faulting address */
		489	rr.word = rr_read(VA2VRN(va));
		490	rid = rr.map.rid;
		491	if (RID2ASID(rid) == ASID_KERNEL) {
		492	if (VA2VRN(va) == VRN_KERNEL) {
		493	/*
		494	* Provide KA2PA(identity) mapping for faulting piece of
		495	* kernel address space.
		496	*/
902	jermar	497	dtlb_kernel_mapping_insert(va, KA2PA(va), false, 0);
901	jermar	498	return;
		499	}
		500	}
919	jermar	501
902	jermar	502	t = page_mapping_find(AS, va);
		503	if (t) {
		504	/*
		505	* The mapping was found in software page hash table.
		506	* Insert it into data translation cache.
		507	*/
		508	dtc_pte_copy(t);
		509	} else {
		510	/*
		511	* Forward the page fault to address space page fault handler.
		512	*/
		513	if (!as_page_fault(va)) {
		514	panic("%s: va=%P, rid=%d\n", __FUNCTION__, pstate->cr_ifa, rr.map.rid);
		515	}
		516	}
818	vana	517	}
		518
902	jermar	519	/** Data nested TLB fault handler.
		520	*
		521	* This fault should not occur.
		522	*
		523	* @param vector Interruption vector.
		524	* @param pstate Structure with saved interruption state.
		525	*/
900	jermar	526	void data_nested_tlb_fault(__u64 vector, struct exception_regdump *pstate)
899	jermar	527	{
		528	panic("%s\n", __FUNCTION__);
		529	}
818	vana	530
902	jermar	531	/** Data Dirty bit fault handler.
		532	*
		533	* @param vector Interruption vector.
		534	* @param pstate Structure with saved interruption state.
		535	*/
900	jermar	536	void data_dirty_bit_fault(__u64 vector, struct exception_regdump *pstate)
819	vana	537	{
902	jermar	538	pte_t *t;
		539
		540	t = page_mapping_find(AS, pstate->cr_ifa);
		541	ASSERT(t && t->p);
		542	if (t && t->p) {
		543	/*
		544	* Update the Dirty bit in page tables and reinsert
		545	* the mapping into DTC.
		546	*/
		547	t->d = true;
		548	dtc_pte_copy(t);
		549	}
899	jermar	550	}
819	vana	551
902	jermar	552	/** Instruction access bit fault handler.
		553	*
		554	* @param vector Interruption vector.
		555	* @param pstate Structure with saved interruption state.
		556	*/
900	jermar	557	void instruction_access_bit_fault(__u64 vector, struct exception_regdump *pstate)
899	jermar	558	{
902	jermar	559	pte_t *t;
		560
		561	t = page_mapping_find(AS, pstate->cr_ifa);
		562	ASSERT(t && t->p);
		563	if (t && t->p) {
		564	/*
		565	* Update the Accessed bit in page tables and reinsert
		566	* the mapping into ITC.
		567	*/
		568	t->a = true;
		569	itc_pte_copy(t);
		570	}
899	jermar	571	}
819	vana	572
902	jermar	573	/** Data access bit fault handler.
		574	*
		575	* @param vector Interruption vector.
		576	* @param pstate Structure with saved interruption state.
		577	*/
900	jermar	578	void data_access_bit_fault(__u64 vector, struct exception_regdump *pstate)
899	jermar	579	{
902	jermar	580	pte_t *t;
		581
		582	t = page_mapping_find(AS, pstate->cr_ifa);
		583	ASSERT(t && t->p);
		584	if (t && t->p) {
		585	/*
		586	* Update the Accessed bit in page tables and reinsert
		587	* the mapping into DTC.
		588	*/
		589	t->a = true;
		590	dtc_pte_copy(t);
		591	}
819	vana	592	}
		593
902	jermar	594	/** Page not present fault handler.
		595	*
		596	* @param vector Interruption vector.
		597	* @param pstate Structure with saved interruption state.
		598	*/
900	jermar	599	void page_not_present(__u64 vector, struct exception_regdump *pstate)
819	vana	600	{
902	jermar	601	region_register rr;
		602	__address va;
		603	pte_t *t;
		604
		605	va = pstate->cr_ifa; /* faulting address */
		606	t = page_mapping_find(AS, va);
		607	ASSERT(t);
		608
		609	if (t->p) {
		610	/*
		611	* If the Present bit is set in page hash table, just copy it
		612	* and update ITC/DTC.
		613	*/
		614	if (t->x)
		615	itc_pte_copy(t);
		616	else
		617	dtc_pte_copy(t);
		618	} else {
		619	if (!as_page_fault(va)) {
		620	panic("%s: va=%P, rid=%d\n", __FUNCTION__, pstate->cr_ifa, rr.map.rid);
		621	}
		622	}
819	vana	623	}

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(root)/kernel/trunk/arch/ia64/src/mm/tlb.c – Rev 944