xref: /titanic_41/usr/src/uts/i86pc/vm/hat_kdi.c (revision 60405de4d8688d96dd05157c28db3ade5c9bc234)
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, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 
23 /*
24  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
25  * Use is subject to license terms.
26  */
27 
28 #pragma ident	"%Z%%M%	%I%	%E% SMI"
29 
30 /*
31  * HAT interfaces used by the kernel debugger to interact with the VM system.
32  * These interfaces are invoked when the world is stopped.  As such, no blocking
33  * operations may be performed.
34  */
35 
36 #include <sys/cpuvar.h>
37 #include <sys/kdi_impl.h>
38 #include <sys/errno.h>
39 #include <sys/systm.h>
40 #include <sys/sysmacros.h>
41 #include <sys/mman.h>
42 #include <sys/bootconf.h>
43 #include <sys/cmn_err.h>
44 #include <vm/seg_kmem.h>
45 #include <vm/hat_i86.h>
46 #include <sys/machsystm.h>
47 
48 /*
49  * The debugger needs direct access to the PTE of one page table entry
50  * in order to implement vtop and physical read/writes
51  */
52 extern uintptr_t ptable_va;
53 static uintptr_t hat_kdi_page = 0;	/* vaddr for phsical page accesses */
54 static x86pte_t *hat_kdi_pte = NULL;	/* vaddr of pte for hat_kdi_page */
55 uint_t hat_kdi_use_pae;			/* if 0, use x86pte32_t for pte type */
56 
57 /*
58  * Allocate virtual page to use for kernel debugger accesses to physical memory.
59  * This is done very early in boot - before vmem allocator is available, so
60  * we use a special hand picked address. (blech) The address is one page
61  * above where the hat will put pages for pagetables -- see ptable_alloc() --
62  * and is outside of the kernel's address space.
63  *
64  * We'll pick a new VA after the kernel's hat has been initialized.
65  */
66 void
67 hat_boot_kdi_init(void)
68 {
69 
70 	/*
71 	 * The 1st ptable_va page is for the HAT, we use the 2nd.
72 	 */
73 	hat_kdi_page = ptable_va + MMU_PAGESIZE;
74 #if defined(__amd64)
75 	hat_kdi_use_pae = 1;
76 #elif defined(__i386)
77 	hat_kdi_use_pae = 0;
78 #endif
79 }
80 
81 /*
82  * Switch to using a page in the kernel's va range for physical memory access.
83  * We need to allocate a virtual page, then permanently map in the page that
84  * contains the PTE to it.
85  */
86 void
87 hat_kdi_init(void)
88 {
89 	htable_t *ht;
90 
91 	/*
92 	 * Get an kernel page VA to use for phys mem access. Then make sure
93 	 * the VA has a page table.
94 	 */
95 	hat_kdi_use_pae = mmu.pae_hat;
96 	hat_kdi_page = (uintptr_t)vmem_alloc(heap_arena, PAGESIZE, VM_SLEEP);
97 	ht = htable_create(kas.a_hat, hat_kdi_page, 0, NULL);
98 
99 	/*
100 	 * Get an address at which to put the pagetable and devload it.
101 	 */
102 	hat_kdi_pte = vmem_xalloc(heap_arena, MMU_PAGESIZE, MMU_PAGESIZE, 0,
103 	    0, NULL, NULL, VM_SLEEP);
104 	hat_devload(kas.a_hat, (caddr_t)hat_kdi_pte, MMU_PAGESIZE, ht->ht_pfn,
105 	    PROT_READ | PROT_WRITE | HAT_NOSYNC | HAT_UNORDERED_OK,
106 	    HAT_LOAD | HAT_LOAD_NOCONSIST);
107 	hat_kdi_pte = (x86pte_t *)((uintptr_t)hat_kdi_pte +
108 	    (htable_va2entry(hat_kdi_page, ht) << mmu.pte_size_shift));
109 
110 	HTABLE_INC(ht->ht_valid_cnt);
111 	htable_release(ht);
112 }
113 
114 /*ARGSUSED*/
115 int
116 kdi_vtop(uintptr_t va, uint64_t *pap)
117 {
118 	uintptr_t vaddr = va;
119 	size_t	len;
120 	pfn_t	pfn;
121 	uint_t	prot;
122 	int	level;
123 	x86pte_t pte;
124 	int	index;
125 
126 	/*
127 	 * if the mmu struct isn't relevant yet, we need to probe
128 	 * the boot loader's pagetables.
129 	 */
130 	if (!khat_running) {
131 		if (hat_boot_probe(&vaddr, &len, &pfn, &prot) == 0)
132 			return (ENOENT);
133 		if (vaddr > va)
134 			return (ENOENT);
135 		if (vaddr < va)
136 			pfn += mmu_btop(va - vaddr);
137 		*pap = (uint64_t)mmu_ptob(pfn) + (vaddr & MMU_PAGEOFFSET);
138 		return (0);
139 	}
140 
141 	/*
142 	 * We can't go through normal hat routines, so we'll use
143 	 * kdi_pread() to walk the page tables
144 	 */
145 	*pap = getcr3() & MMU_PAGEMASK;
146 	for (level = mmu.max_level; ; --level) {
147 		index = (va >> LEVEL_SHIFT(level)) & (mmu.ptes_per_table - 1);
148 		*pap += index << mmu.pte_size_shift;
149 		pte = 0;
150 		if (kdi_pread((caddr_t)&pte, mmu.pte_size, *pap, &len) != 0)
151 			return (ENOENT);
152 		if (pte == 0)
153 			return (ENOENT);
154 		if (level > 0 && level <= mmu.max_page_level &&
155 		    (pte & PT_PAGESIZE)) {
156 			*pap = pte & PT_PADDR_LGPG;
157 			break;
158 		} else {
159 			*pap = pte & PT_PADDR;
160 			if (level == 0)
161 				break;
162 		}
163 	}
164 	*pap += va & LEVEL_OFFSET(level);
165 	return (0);
166 }
167 
168 static int
169 kdi_prw(caddr_t buf, size_t nbytes, uint64_t pa, size_t *ncopiedp, int doread)
170 {
171 	size_t	ncopied = 0;
172 	off_t	pgoff;
173 	size_t	sz;
174 	caddr_t	va;
175 	caddr_t	from;
176 	caddr_t	to;
177 	x86pte_t pte;
178 
179 	/*
180 	 * if this is called before any initialization - fail
181 	 */
182 	if (hat_kdi_page == 0)
183 		return (EAGAIN);
184 
185 	while (nbytes > 0) {
186 		/*
187 		 * figure out the addresses and construct a minimal PTE
188 		 */
189 		pgoff = pa & MMU_PAGEOFFSET;
190 		sz = MIN(nbytes, MMU_PAGESIZE - pgoff);
191 		va = (caddr_t)hat_kdi_page + pgoff;
192 		pte = MAKEPTE(btop(pa), 0);
193 		if (doread) {
194 			from = va;
195 			to = buf;
196 		} else {
197 			PTE_SET(pte, PT_WRITABLE);
198 			from = buf;
199 			to = va;
200 		}
201 
202 		/*
203 		 * map the physical page
204 		 */
205 		if (hat_kdi_pte == NULL)
206 			(void) hat_boot_remap(hat_kdi_page, btop(pa));
207 		else if (hat_kdi_use_pae)
208 			*hat_kdi_pte = pte;
209 		else
210 			*(x86pte32_t *)hat_kdi_pte = pte;
211 		mmu_tlbflush_entry((caddr_t)hat_kdi_page);
212 
213 		bcopy(from, to, sz);
214 
215 		/*
216 		 * erase the mapping
217 		 */
218 		if (hat_kdi_pte == NULL)
219 			hat_boot_demap(hat_kdi_page);
220 		else if (hat_kdi_use_pae)
221 			*hat_kdi_pte = 0;
222 		else
223 			*(x86pte32_t *)hat_kdi_pte = 0;
224 		mmu_tlbflush_entry((caddr_t)hat_kdi_page);
225 
226 		buf += sz;
227 		pa += sz;
228 		nbytes -= sz;
229 		ncopied += sz;
230 	}
231 
232 	if (ncopied == 0)
233 		return (ENOENT);
234 
235 	*ncopiedp = ncopied;
236 	return (0);
237 }
238 
239 int
240 kdi_pread(caddr_t buf, size_t nbytes, uint64_t addr, size_t *ncopiedp)
241 {
242 	return (kdi_prw(buf, nbytes, addr, ncopiedp, 1));
243 }
244 
245 int
246 kdi_pwrite(caddr_t buf, size_t nbytes, uint64_t addr, size_t *ncopiedp)
247 {
248 	return (kdi_prw(buf, nbytes, addr, ncopiedp, 0));
249 }
250 
251 
252 /*
253  * Return the number of bytes, relative to the beginning of a given range, that
254  * are non-toxic (can be read from and written to with relative impunity).
255  */
256 /*ARGSUSED*/
257 size_t
258 kdi_range_is_nontoxic(uintptr_t va, size_t sz, int write)
259 {
260 #ifdef __amd64
261 	extern uintptr_t toxic_addr;
262 	extern size_t	toxic_size;
263 
264 	/*
265 	 * Check 64 bit toxic range.
266 	 */
267 	if (toxic_addr != 0 &&
268 	    va + sz >= toxic_addr &&
269 	    va < toxic_addr + toxic_size)
270 		return (va < toxic_addr ? toxic_addr - va : 0);
271 
272 	/*
273 	 * avoid any Virtual Address hole
274 	 */
275 	if (va + sz >= hole_start && va < hole_end)
276 		return (va < hole_start ? hole_start - va : 0);
277 
278 	return (sz);
279 
280 #else
281 	extern void *device_arena_contains(void *, size_t, size_t *);
282 	uintptr_t v;
283 
284 	v = (uintptr_t)device_arena_contains((void *)va, sz, NULL);
285 	if (v == 0)
286 		return (sz);
287 	else if (v <= va)
288 		return (0);
289 	else
290 		return (v - va);
291 
292 #endif
293 }
294 
295 void
296 hat_kdi_fini(void)
297 {
298 }
299