WebSVN – HelenOS – Blame – /trunk/kernel/arch/ppc32/src/mm/tlb.c/

Rev	Author	Line No.	Line
1215	decky	1	/*
2071	jermar	2	* Copyright (c) 2006 Martin Decky
1215	decky	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
1730	decky	29	/** @addtogroup ppc32mm
1702	cejka	30	* @{
		31	*/
		32	/** @file
		33	*/
		34
1215	decky	35	#include <mm/tlb.h>
1730	decky	36	#include <arch/mm/tlb.h>
		37	#include <arch/interrupt.h>
3594	svoboda	38	#include <interrupt.h>
1730	decky	39	#include <mm/as.h>
		40	#include <arch.h>
		41	#include <print.h>
		42	#include <symtab.h>
3838	decky	43	#include <macros.h>
1215	decky	44
		45
3837	decky	46	static unsigned int seed = 10;
		47	static unsigned int seed_real __attribute__ ((section("K_UNMAPPED_DATA_START"))) = 42;
		48
		49
1730	decky	50	/** Try to find PTE for faulting address
1215	decky	51	*
1730	decky	52	* Try to find PTE for faulting address.
		53	* The as->lock must be held on entry to this function
		54	* if lock is true.
1215	decky	55	*
3193	jermar	56	* @param as Address space.
		57	* @param lock Lock/unlock the address space.
		58	* @param badvaddr Faulting virtual address.
		59	* @param access Access mode that caused the fault.
		60	* @param istate Pointer to interrupted state.
		61	* @param pfrc Pointer to variable where as_page_fault() return code
		62	* will be stored.
		63	* @return PTE on success, NULL otherwise.
1730	decky	64	*
1215	decky	65	*/
3193	jermar	66	static pte_t *
		67	find_mapping_and_check(as_t *as, bool lock, uintptr_t badvaddr, int access,
		68	istate_t istate, int pfrc)
1730	decky	69	{
		70	/*
		71	* Check if the mapping exists in page tables.
		72	*/
		73	pte_t *pte = page_mapping_find(as, badvaddr);
3830	decky	74	if ((pte) && (pte->present)) {
1730	decky	75	/*
		76	* Mapping found in page tables.
		77	* Immediately succeed.
		78	*/
		79	return pte;
		80	} else {
		81	int rc;
		82
		83	/*
		84	* Mapping not found in page tables.
		85	* Resort to higher-level page fault handler.
		86	*/
		87	page_table_unlock(as, lock);
		88	switch (rc = as_page_fault(badvaddr, access, istate)) {
3193	jermar	89	case AS_PF_OK:
		90	/*
		91	* The higher-level page fault handler succeeded,
		92	* The mapping ought to be in place.
		93	*/
		94	page_table_lock(as, lock);
		95	pte = page_mapping_find(as, badvaddr);
3830	decky	96	ASSERT((pte) && (pte->present));
3193	jermar	97	*pfrc = 0;
		98	return pte;
		99	case AS_PF_DEFER:
		100	page_table_lock(as, lock);
		101	*pfrc = rc;
		102	return NULL;
		103	case AS_PF_FAULT:
		104	page_table_lock(as, lock);
		105	*pfrc = rc;
		106	return NULL;
		107	default:
3790	svoboda	108	panic("Unexpected rc (%d).", rc);
1730	decky	109	}
		110	}
		111	}
		112
		113
1780	jermar	114	static void pht_refill_fail(uintptr_t badvaddr, istate_t *istate)
1730	decky	115	{
		116	char *symbol = "";
		117	char *sym2 = "";
		118
3833	decky	119	char *str = get_symtab_entry(istate->pc);
		120	if (str)
		121	symbol = str;
		122	str = get_symtab_entry(istate->lr);
		123	if (str)
		124	sym2 = str;
3594	svoboda	125
		126	fault_if_from_uspace(istate,
3833	decky	127	"PHT Refill Exception on %p.", badvaddr);
3790	svoboda	128	panic("%p: PHT Refill Exception at %p (%s<-%s).", badvaddr,
3193	jermar	129	istate->pc, symbol, sym2);
1730	decky	130	}
		131
		132
3830	decky	133	static void pht_insert(const uintptr_t vaddr, const pte_t *pte)
1730	decky	134	{
1780	jermar	135	uint32_t page = (vaddr >> 12) & 0xffff;
		136	uint32_t api = (vaddr >> 22) & 0x3f;
1730	decky	137
1780	jermar	138	uint32_t vsid;
1730	decky	139	asm volatile (
		140	"mfsrin %0, %1\n"
		141	: "=r" (vsid)
		142	: "r" (vaddr)
		143	);
		144
1780	jermar	145	uint32_t sdr1;
1730	decky	146	asm volatile (
		147	"mfsdr1 %0\n"
		148	: "=r" (sdr1)
		149	);
		150	phte_t phte = (phte_t ) PA2KA(sdr1 & 0xffff0000);
		151
		152	/* Primary hash (xor) */
1780	jermar	153	uint32_t h = 0;
		154	uint32_t hash = vsid ^ page;
		155	uint32_t base = (hash & 0x3ff) << 3;
		156	uint32_t i;
1730	decky	157	bool found = false;
		158
3836	decky	159	/* Find unused or colliding PTE in PTEG */
1730	decky	160	for (i = 0; i < 8; i++) {
3836	decky	161	if ((!phte[base + i].v) \|\|
		162	((phte[base + i].vsid == vsid)
		163	&& (phte[base + i].api == api)
		164	&& (phte[base + i].h == 0))) {
1730	decky	165	found = true;
		166	break;
		167	}
		168	}
		169
		170	if (!found) {
		171	/* Secondary hash (not) */
1780	jermar	172	uint32_t base2 = (~hash & 0x3ff) << 3;
1730	decky	173
3836	decky	174	/* Find unused or colliding PTE in PTEG */
1730	decky	175	for (i = 0; i < 8; i++) {
3193	jermar	176	if ((!phte[base2 + i].v) \|\|
3836	decky	177	((phte[base2 + i].vsid == vsid)
		178	&& (phte[base2 + i].api == api)
		179	&& (phte[base2 + i].h == 1))) {
1730	decky	180	found = true;
		181	base = base2;
		182	h = 1;
		183	break;
		184	}
		185	}
		186
3836	decky	187	if (!found)
3837	decky	188	i = RANDI(seed) % 8;
1730	decky	189	}
		190
		191	phte[base + i].v = 1;
		192	phte[base + i].vsid = vsid;
		193	phte[base + i].h = h;
		194	phte[base + i].api = api;
3830	decky	195	phte[base + i].rpn = pte->pfn;
1730	decky	196	phte[base + i].r = 0;
		197	phte[base + i].c = 0;
3830	decky	198	phte[base + i].wimg = (pte->page_cache_disable ? WIMG_NO_CACHE : 0);
1730	decky	199	phte[base + i].pp = 2; // FIXME
		200	}
		201
		202
		203	/** Process Instruction/Data Storage Interrupt
		204	*
3193	jermar	205	* @param n Interrupt vector number.
		206	* @param istate Interrupted register context.
1730	decky	207	*
		208	*/
		209	void pht_refill(int n, istate_t *istate)
		210	{
1780	jermar	211	uintptr_t badvaddr;
1730	decky	212	pte_t *pte;
		213	int pfrc;
		214	as_t *as;
		215	bool lock;
		216
		217	if (AS == NULL) {
		218	as = AS_KERNEL;
		219	lock = false;
		220	} else {
		221	as = AS;
		222	lock = true;
		223	}
		224
3833	decky	225	if (n == VECTOR_DATA_STORAGE)
		226	badvaddr = istate->dar;
		227	else
1730	decky	228	badvaddr = istate->pc;
		229
		230	page_table_lock(as, lock);
		231
3193	jermar	232	pte = find_mapping_and_check(as, lock, badvaddr,
		233	PF_ACCESS_READ /* FIXME */, istate, &pfrc);
1730	decky	234	if (!pte) {
		235	switch (pfrc) {
3193	jermar	236	case AS_PF_FAULT:
		237	goto fail;
		238	break;
		239	case AS_PF_DEFER:
		240	/*
		241	* The page fault came during copy_from_uspace()
		242	* or copy_to_uspace().
		243	*/
		244	page_table_unlock(as, lock);
		245	return;
		246	default:
3790	svoboda	247	panic("Unexpected pfrc (%d).", pfrc);
1730	decky	248	}
		249	}
		250
3830	decky	251	pte->accessed = 1; /* Record access to PTE */
		252	pht_insert(badvaddr, pte);
1730	decky	253
		254	page_table_unlock(as, lock);
		255	return;
		256
		257	fail:
		258	page_table_unlock(as, lock);
		259	pht_refill_fail(badvaddr, istate);
		260	}
		261
		262
		263	/** Process Instruction/Data Storage Interrupt in Real Mode
		264	*
3193	jermar	265	* @param n Interrupt vector number.
		266	* @param istate Interrupted register context.
1730	decky	267	*
		268	*/
3837	decky	269	bool pht_refill_real(int n, istate_t *istate)
1730	decky	270	{
1780	jermar	271	uintptr_t badvaddr;
1730	decky	272
3833	decky	273	if (n == VECTOR_DATA_STORAGE)
		274	badvaddr = istate->dar;
		275	else
1730	decky	276	badvaddr = istate->pc;
		277
1780	jermar	278	uint32_t physmem;
1730	decky	279	asm volatile (
		280	"mfsprg3 %0\n"
		281	: "=r" (physmem)
		282	);
		283
3837	decky	284	if ((badvaddr < PA2KA(0)) \|\| (badvaddr >= PA2KA(physmem)))
		285	return false;
		286
		287	uint32_t page = (badvaddr >> 12) & 0xffff;
		288	uint32_t api = (badvaddr >> 22) & 0x3f;
		289
		290	uint32_t vsid;
		291	asm volatile (
		292	"mfsrin %0, %1\n"
		293	: "=r" (vsid)
		294	: "r" (badvaddr)
		295	);
		296
		297	uint32_t sdr1;
		298	asm volatile (
		299	"mfsdr1 %0\n"
		300	: "=r" (sdr1)
		301	);
		302	phte_t phte_real = (phte_t ) (sdr1 & 0xffff0000);
		303
		304	/* Primary hash (xor) */
		305	uint32_t h = 0;
		306	uint32_t hash = vsid ^ page;
		307	uint32_t base = (hash & 0x3ff) << 3;
		308	uint32_t i;
		309	bool found = false;
		310
		311	/* Find unused or colliding PTE in PTEG */
		312	for (i = 0; i < 8; i++) {
		313	if ((!phte_real[base + i].v) \|\|
		314	((phte_real[base + i].vsid == vsid)
		315	&& (phte_real[base + i].api == api)
		316	&& (phte_real[base + i].h == 0))) {
		317	found = true;
		318	break;
		319	}
1730	decky	320	}
		321
3837	decky	322	if (!found) {
		323	/* Secondary hash (not) */
		324	uint32_t base2 = (~hash & 0x3ff) << 3;
		325
		326	/* Find unused or colliding PTE in PTEG */
		327	for (i = 0; i < 8; i++) {
		328	if ((!phte_real[base2 + i].v) \|\|
		329	((phte_real[base2 + i].vsid == vsid)
		330	&& (phte_real[base2 + i].api == api)
		331	&& (phte_real[base2 + i].h == 1))) {
		332	found = true;
		333	base = base2;
		334	h = 1;
		335	break;
		336	}
		337	}
		338
		339	if (!found) {
		340	/* Use secondary hash to avoid collisions
		341	with usual PHT refill handler. */
		342	i = RANDI(seed_real) % 8;
		343	base = base2;
		344	h = 1;
		345	}
		346	}
		347
		348	phte_real[base + i].v = 1;
		349	phte_real[base + i].vsid = vsid;
		350	phte_real[base + i].h = h;
		351	phte_real[base + i].api = api;
		352	phte_real[base + i].rpn = KA2PA(badvaddr) >> 12;
		353	phte_real[base + i].r = 0;
		354	phte_real[base + i].c = 0;
		355	phte_real[base + i].wimg = 0;
		356	phte_real[base + i].pp = 2; // FIXME
		357
		358	return true;
1730	decky	359	}
		360
		361
1215	decky	362	void tlb_arch_init(void)
		363	{
1384	decky	364	tlb_invalidate_all();
		365	}
		366
		367
		368	void tlb_invalidate_all(void)
		369	{
1269	decky	370	asm volatile (
1384	decky	371	"tlbsync\n"
1269	decky	372	);
1215	decky	373	}
		374
		375
1384	decky	376	void tlb_invalidate_asid(asid_t asid)
1328	decky	377	{
1780	jermar	378	uint32_t sdr1;
1758	decky	379	asm volatile (
		380	"mfsdr1 %0\n"
		381	: "=r" (sdr1)
		382	);
		383	phte_t phte = (phte_t ) PA2KA(sdr1 & 0xffff0000);
		384
1780	jermar	385	uint32_t i;
1758	decky	386	for (i = 0; i < 8192; i++) {
3193	jermar	387	if ((phte[i].v) && (phte[i].vsid >= (asid << 4)) &&
		388	(phte[i].vsid < ((asid << 4) + 16)))
1758	decky	389	phte[i].v = 0;
		390	}
1384	decky	391	tlb_invalidate_all();
1328	decky	392	}
		393
1730	decky	394
1780	jermar	395	void tlb_invalidate_pages(asid_t asid, uintptr_t page, count_t cnt)
1384	decky	396	{
1730	decky	397	// TODO
1384	decky	398	tlb_invalidate_all();
		399	}
1328	decky	400
1384	decky	401
1736	decky	402	#define PRINT_BAT(name, ureg, lreg) \
		403	asm volatile ( \
		404	"mfspr %0," #ureg "\n" \
		405	"mfspr %1," #lreg "\n" \
		406	: "=r" (upper), "=r" (lower) \
		407	); \
		408	mask = (upper & 0x1ffc) >> 2; \
		409	if (upper & 3) { \
1780	jermar	410	uint32_t tmp = mask; \
1736	decky	411	length = 128; \
		412	while (tmp) { \
		413	if ((tmp & 1) == 0) { \
		414	printf("ibat[0]: error in mask\n"); \
		415	break; \
		416	} \
		417	length <<= 1; \
		418	tmp >>= 1; \
		419	} \
		420	} else \
		421	length = 0; \
3193	jermar	422	printf(name ": page=%.p frame=%.p length=%d KB (mask=%#x)%s%s\n", \
		423	sizeof(upper) * 2, upper & 0xffff0000, sizeof(lower) * 2, \
		424	lower & 0xffff0000, length, mask, \
		425	((upper >> 1) & 1) ? " supervisor" : "", \
		426	(upper & 1) ? " user" : "");
1736	decky	427
		428
1215	decky	429	void tlb_print(void)
		430	{
1780	jermar	431	uint32_t sr;
1733	decky	432
		433	for (sr = 0; sr < 16; sr++) {
1780	jermar	434	uint32_t vsid;
1733	decky	435	asm volatile (
		436	"mfsrin %0, %1\n"
		437	: "=r" (vsid)
		438	: "r" (sr << 28)
		439	);
3837	decky	440	printf("sr[%02u]: vsid=%.*p (asid=%u)%s%s\n", sr,
3193	jermar	441	sizeof(vsid) * 2, vsid & 0xffffff, (vsid & 0xffffff) >> 4,
		442	((vsid >> 30) & 1) ? " supervisor" : "",
		443	((vsid >> 29) & 1) ? " user" : "");
1733	decky	444	}
1736	decky	445
1780	jermar	446	uint32_t upper;
		447	uint32_t lower;
		448	uint32_t mask;
		449	uint32_t length;
1736	decky	450
		451	PRINT_BAT("ibat[0]", 528, 529);
		452	PRINT_BAT("ibat[1]", 530, 531);
		453	PRINT_BAT("ibat[2]", 532, 533);
		454	PRINT_BAT("ibat[3]", 534, 535);
		455
		456	PRINT_BAT("dbat[0]", 536, 537);
		457	PRINT_BAT("dbat[1]", 538, 539);
		458	PRINT_BAT("dbat[2]", 540, 541);
		459	PRINT_BAT("dbat[3]", 542, 543);
1215	decky	460	}
1702	cejka	461
1730	decky	462	/** @}
1702	cejka	463	*/

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