xref: /titanic_50/usr/src/uts/i86pc/vm/htable.h (revision abc79d9dd51e98eafb6fc25b4a0b4f66bef40b00)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2007 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef	_VM_HTABLE_H
27 #define	_VM_HTABLE_H
28 
29 #pragma ident	"%Z%%M%	%I%	%E% SMI"
30 
31 #ifdef	__cplusplus
32 extern "C" {
33 #endif
34 
35 #if defined(__GNUC__) && defined(_ASM_INLINES) && defined(_KERNEL)
36 #include <asm/htable.h>
37 #endif
38 
39 extern void atomic_andb(uint8_t *addr, uint8_t value);
40 extern void atomic_orb(uint8_t *addr, uint8_t value);
41 extern void atomic_inc16(uint16_t *addr);
42 extern void atomic_dec16(uint16_t *addr);
43 extern void mmu_tlbflush_entry(caddr_t addr);
44 
45 /*
46  * Each hardware page table has an htable_t describing it.
47  *
48  * We use a reference counter mechanism to detect when we can free an htable.
49  * In the implmentation the reference count is split into 2 separate counters:
50  *
51  *	ht_busy is a traditional reference count of uses of the htable pointer
52  *
53  *	ht_valid_cnt is a count of how references are implied by valid PTE/PTP
54  *	         entries in the pagetable
55  *
56  * ht_busy is only incremented by htable_lookup() or htable_create()
57  * while holding the appropriate hash_table mutex. While installing a new
58  * valid PTE or PTP, in order to increment ht_valid_cnt a thread must have
59  * done an htable_lookup() or htable_create() but not the htable_release yet.
60  *
61  * htable_release(), while holding the mutex, can know that if
62  * busy == 1 and valid_cnt == 0, the htable can be free'd.
63  *
64  * The fields have been ordered to make htable_lookup() fast. Hence,
65  * ht_hat, ht_vaddr, ht_level and ht_next need to be clustered together.
66  */
67 struct htable {
68 	struct htable	*ht_next;	/* forward link for hash table */
69 	struct hat	*ht_hat;	/* hat this mapping comes from */
70 	uintptr_t	ht_vaddr;	/* virt addr at start of this table */
71 	int8_t		ht_level;	/* page table level: 0=4K, 1=2M, ... */
72 	uint8_t		ht_flags;	/* see below */
73 	int16_t		ht_busy;	/* implements locking protocol */
74 	int16_t		ht_valid_cnt;	/* # of valid entries in this table */
75 	uint32_t	ht_lock_cnt;	/* # of locked entries in this table */
76 					/* never used for kernel hat */
77 	pfn_t		ht_pfn;		/* pfn of page of the pagetable */
78 	struct htable	*ht_prev;	/* backward link for hash table */
79 	struct htable	*ht_parent;	/* htable that points to this htable */
80 	struct htable	*ht_shares;	/* for HTABLE_SHARED_PFN only */
81 };
82 typedef struct htable htable_t;
83 
84 /*
85  * Flags values for htable ht_flags field:
86  *
87  * HTABLE_VLP - this is the top level htable of a VLP HAT.
88  *
89  * HTABLE_SHARED_PFN - this htable had its PFN assigned from sharing another
90  * 	htable. Used by hat_share() for ISM.
91  */
92 #define	HTABLE_VLP		(0x01)
93 #define	HTABLE_SHARED_PFN	(0x02)
94 
95 /*
96  * The htable hash table hashing function.  The 28 is so that high
97  * order bits are include in the hash index to skew the wrap
98  * around of addresses. Even though the hash buckets are stored per
99  * hat we include the value of hat pointer in the hash function so
100  * that the secondary hash for the htable mutex winds up begin different in
101  * every address space.
102  */
103 #define	HTABLE_HASH(hat, va, lvl)					\
104 	((((va) >> LEVEL_SHIFT(1)) + ((va) >> 28) + (lvl) +		\
105 	((uintptr_t)(hat) >> 4)) & ((hat)->hat_num_hash - 1))
106 
107 /*
108  * Each CPU gets a unique hat_cpu_info structure in cpu_hat_info.
109  */
110 struct hat_cpu_info {
111 	kmutex_t hci_mutex;		/* mutex to ensure sequential usage */
112 #if defined(__amd64)
113 	pfn_t	hci_vlp_pfn;		/* pfn of hci_vlp_l3ptes */
114 	x86pte_t *hci_vlp_l3ptes;	/* VLP Level==3 pagetable (top) */
115 	x86pte_t *hci_vlp_l2ptes;	/* VLP Level==2 pagetable */
116 #endif	/* __amd64 */
117 };
118 
119 
120 /*
121  * Compute the last page aligned VA mapped by an htable.
122  *
123  * Given a va and a level, compute the virtual address of the start of the
124  * next page at that level.
125  *
126  * XX64 - The check for the VA hole needs to be better generalized.
127  */
128 #if defined(__amd64)
129 #define	HTABLE_NUM_PTES(ht)	(((ht)->ht_flags & HTABLE_VLP) ? 4 : 512)
130 
131 #define	HTABLE_LAST_PAGE(ht)						\
132 	((ht)->ht_level == mmu.max_level ? ((uintptr_t)0UL - MMU_PAGESIZE) :\
133 	((ht)->ht_vaddr - MMU_PAGESIZE +				\
134 	((uintptr_t)HTABLE_NUM_PTES(ht) << LEVEL_SHIFT((ht)->ht_level))))
135 
136 #define	NEXT_ENTRY_VA(va, l)	\
137 	((va & LEVEL_MASK(l)) + LEVEL_SIZE(l) == mmu.hole_start ?	\
138 	mmu.hole_end : (va & LEVEL_MASK(l)) + LEVEL_SIZE(l))
139 
140 #elif defined(__i386)
141 
142 #define	HTABLE_NUM_PTES(ht)	\
143 	(!mmu.pae_hat ? 1024 : ((ht)->ht_level == 2 ? 4 : 512))
144 
145 #define	HTABLE_LAST_PAGE(ht)	((ht)->ht_vaddr - MMU_PAGESIZE + \
146 	((uintptr_t)HTABLE_NUM_PTES(ht) << LEVEL_SHIFT((ht)->ht_level)))
147 
148 #define	NEXT_ENTRY_VA(va, l) ((va & LEVEL_MASK(l)) + LEVEL_SIZE(l))
149 
150 #endif
151 
152 #if defined(_KERNEL)
153 
154 /*
155  * initialization function called from hat_init()
156  */
157 extern void htable_init(void);
158 
159 /*
160  * Functions to lookup, or "lookup and create", the htable corresponding
161  * to the virtual address "vaddr"  in the "hat" at the given "level" of
162  * page tables. htable_lookup() may return NULL if no such entry exists.
163  *
164  * On return the given htable is marked busy (a shared lock) - this prevents
165  * the htable from being stolen or freed) until htable_release() is called.
166  *
167  * If kalloc_flag is set on an htable_create() we can't call kmem allocation
168  * routines for this htable, since it's for the kernel hat itself.
169  *
170  * htable_acquire() is used when an htable pointer has been extracted from
171  * an hment and we need to get a reference to the htable.
172  */
173 extern htable_t *htable_lookup(struct hat *hat, uintptr_t vaddr, level_t level);
174 extern htable_t *htable_create(struct hat *hat, uintptr_t vaddr, level_t level,
175 	htable_t *shared);
176 extern void htable_acquire(htable_t *);
177 
178 extern void htable_release(htable_t *ht);
179 extern void htable_destroy(htable_t *ht);
180 
181 /*
182  * Code to free all remaining htables for a hat. Called after the hat is no
183  * longer in use by any thread.
184  */
185 extern void htable_purge_hat(struct hat *hat);
186 
187 /*
188  * Find the htable, page table entry index, and PTE of the given virtual
189  * address.  If not found returns NULL. When found, returns the htable_t *,
190  * sets entry, and has a hold on the htable.
191  */
192 extern htable_t *htable_getpte(struct hat *, uintptr_t, uint_t *, x86pte_t *,
193 	level_t);
194 
195 /*
196  * Similar to hat_getpte(), except that this only succeeds if a valid
197  * page mapping is present.
198  */
199 extern htable_t *htable_getpage(struct hat *hat, uintptr_t va, uint_t *entry);
200 
201 /*
202  * Called to allocate initial/additional htables for reserve.
203  */
204 extern void htable_initial_reserve(uint_t);
205 extern void htable_reserve(uint_t);
206 
207 /*
208  * Used to readjust the htable reserve after the reserve list has been used.
209  * Also called after boot to release left over boot reserves.
210  */
211 extern void htable_adjust_reserve(void);
212 
213 /*
214  * return number of bytes mapped by all the htables in a given hat
215  */
216 extern size_t htable_mapped(struct hat *);
217 
218 
219 /*
220  * Attach initial pagetables as htables
221  */
222 extern void htable_attach(struct hat *, uintptr_t, level_t, struct htable *,
223     pfn_t);
224 
225 /*
226  * Routine to find the next populated htable at or above a given virtual
227  * address. Can specify an upper limit, or HTABLE_WALK_TO_END to indicate
228  * that it should search the entire address space.  Similar to
229  * hat_getpte(), but used for walking through address ranges. It can be
230  * used like this:
231  *
232  *	va = ...
233  *	ht = NULL;
234  *	while (va < end_va) {
235  *		pte = htable_walk(hat, &ht, &va, end_va);
236  *		if (!pte)
237  *			break;
238  *
239  *		... code to operate on page at va ...
240  *
241  *		va += LEVEL_SIZE(ht->ht_level);
242  *	}
243  *	if (ht)
244  *		htable_release(ht);
245  *
246  */
247 extern x86pte_t htable_walk(struct hat *hat, htable_t **ht, uintptr_t *va,
248 	uintptr_t eaddr);
249 
250 #define	HTABLE_WALK_TO_END ((uintptr_t)-1)
251 
252 /*
253  * Utilities convert between virtual addresses and page table entry indeces.
254  */
255 extern uint_t htable_va2entry(uintptr_t va, htable_t *ht);
256 extern uintptr_t htable_e2va(htable_t *ht, uint_t entry);
257 
258 /*
259  * Interfaces that provide access to page table entries via the htable.
260  *
261  * Note that all accesses except x86pte_copy() and x86pte_zero() are atomic.
262  */
263 extern void	x86pte_cpu_init(cpu_t *);
264 extern void	x86pte_cpu_fini(cpu_t *);
265 
266 extern x86pte_t	x86pte_get(htable_t *, uint_t entry);
267 
268 /*
269  * x86pte_set returns LPAGE_ERROR if it's asked to overwrite a page table
270  * link with a large page mapping.
271  */
272 #define	LPAGE_ERROR (-(x86pte_t)1)
273 extern x86pte_t	x86pte_set(htable_t *, uint_t entry, x86pte_t new, void *);
274 
275 extern x86pte_t x86pte_inval(htable_t *ht, uint_t entry,
276 	x86pte_t old, x86pte_t *ptr);
277 
278 extern x86pte_t x86pte_update(htable_t *ht, uint_t entry,
279 	x86pte_t old, x86pte_t new);
280 
281 extern void	x86pte_copy(htable_t *src, htable_t *dest, uint_t entry,
282 	uint_t cnt);
283 
284 /*
285  * access to a pagetable knowing only the pfn
286  */
287 extern x86pte_t *x86pte_mapin(pfn_t, uint_t, htable_t *);
288 extern void x86pte_mapout(void);
289 
290 /*
291  * these are actually inlines for "lock; incw", "lock; decw", etc. instructions.
292  */
293 #define	HTABLE_INC(x)	atomic_inc16((uint16_t *)&x)
294 #define	HTABLE_DEC(x)	atomic_dec16((uint16_t *)&x)
295 #define	HTABLE_LOCK_INC(ht)	atomic_add_32(&(ht)->ht_lock_cnt, 1)
296 #define	HTABLE_LOCK_DEC(ht)	atomic_add_32(&(ht)->ht_lock_cnt, -1)
297 
298 #ifdef __xpv
299 extern void xen_flush_va(caddr_t va);
300 extern void xen_gflush_va(caddr_t va, cpuset_t);
301 extern void xen_flush_tlb(void);
302 extern void xen_gflush_tlb(cpuset_t);
303 extern void xen_pin(pfn_t, level_t);
304 extern void xen_unpin(pfn_t);
305 extern int xen_kpm_page(pfn_t, uint_t);
306 
307 /*
308  * The hypervisor maps all page tables into our address space read-only.
309  * Under normal circumstances, the hypervisor then handles all updates to
310  * the page tables underneath the covers for us.  However, when we are
311  * trying to dump core after a hypervisor panic, the hypervisor is no
312  * longer available to do these updates.  To work around the protection
313  * problem, we simply disable write-protect checking for the duration of a
314  * pagetable update operation.
315  */
316 #define	XPV_ALLOW_PAGETABLE_UPDATES()					\
317 	{								\
318 		if (IN_XPV_PANIC())					\
319 			setcr0((getcr0() & ~CR0_WP) & 0xffffffff); 	\
320 	}
321 #define	XPV_DISALLOW_PAGETABLE_UPDATES()				\
322 	{								\
323 		if (IN_XPV_PANIC() > 0)					\
324 			setcr0((getcr0() | CR0_WP) & 0xffffffff);	\
325 	}
326 
327 #else /* __xpv */
328 
329 #define	XPV_ALLOW_PAGETABLE_UPDATES()
330 #define	XPV_DISALLOW_PAGETABLE_UPDATES()
331 
332 #endif
333 
334 #endif	/* _KERNEL */
335 
336 
337 #ifdef	__cplusplus
338 }
339 #endif
340 
341 #endif	/* _VM_HTABLE_H */
342