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-rw-r--r--arch/ia64/kernel/ivt.S133
1 files changed, 71 insertions, 62 deletions
diff --git a/arch/ia64/kernel/ivt.S b/arch/ia64/kernel/ivt.S
index c71c79262a48..301f2e9d262e 100644
--- a/arch/ia64/kernel/ivt.S
+++ b/arch/ia64/kernel/ivt.S
@@ -91,16 +91,17 @@ ENTRY(vhpt_miss)
91 * (the "original") TLB miss, which may either be caused by an instruction 91 * (the "original") TLB miss, which may either be caused by an instruction
92 * fetch or a data access (or non-access). 92 * fetch or a data access (or non-access).
93 * 93 *
94 * What we do here is normal TLB miss handing for the _original_ miss, followed 94 * What we do here is normal TLB miss handing for the _original_ miss,
95 * by inserting the TLB entry for the virtual page table page that the VHPT 95 * followed by inserting the TLB entry for the virtual page table page
96 * walker was attempting to access. The latter gets inserted as long 96 * that the VHPT walker was attempting to access. The latter gets
97 * as both L1 and L2 have valid mappings for the faulting address. 97 * inserted as long as page table entry above pte level have valid
98 * The TLB entry for the original miss gets inserted only if 98 * mappings for the faulting address. The TLB entry for the original
99 * the L3 entry indicates that the page is present. 99 * miss gets inserted only if the pte entry indicates that the page is
100 * present.
100 * 101 *
101 * do_page_fault gets invoked in the following cases: 102 * do_page_fault gets invoked in the following cases:
102 * - the faulting virtual address uses unimplemented address bits 103 * - the faulting virtual address uses unimplemented address bits
103 * - the faulting virtual address has no L1, L2, or L3 mapping 104 * - the faulting virtual address has no valid page table mapping
104 */ 105 */
105 mov r16=cr.ifa // get address that caused the TLB miss 106 mov r16=cr.ifa // get address that caused the TLB miss
106#ifdef CONFIG_HUGETLB_PAGE 107#ifdef CONFIG_HUGETLB_PAGE
@@ -126,7 +127,7 @@ ENTRY(vhpt_miss)
126#endif 127#endif
127 ;; 128 ;;
128 cmp.eq p6,p7=5,r17 // is IFA pointing into to region 5? 129 cmp.eq p6,p7=5,r17 // is IFA pointing into to region 5?
129 shr.u r18=r22,PGDIR_SHIFT // get bits 33-63 of the faulting address 130 shr.u r18=r22,PGDIR_SHIFT // get bottom portion of pgd index bit
130 ;; 131 ;;
131(p7) dep r17=r17,r19,(PAGE_SHIFT-3),3 // put region number bits in place 132(p7) dep r17=r17,r19,(PAGE_SHIFT-3),3 // put region number bits in place
132 133
@@ -137,38 +138,38 @@ ENTRY(vhpt_miss)
137(p6) shr.u r21=r21,PGDIR_SHIFT+PAGE_SHIFT 138(p6) shr.u r21=r21,PGDIR_SHIFT+PAGE_SHIFT
138(p7) shr.u r21=r21,PGDIR_SHIFT+PAGE_SHIFT-3 139(p7) shr.u r21=r21,PGDIR_SHIFT+PAGE_SHIFT-3
139 ;; 140 ;;
140(p6) dep r17=r18,r19,3,(PAGE_SHIFT-3) // r17=PTA + IFA(33,42)*8 141(p6) dep r17=r18,r19,3,(PAGE_SHIFT-3) // r17=pgd_offset for region 5
141(p7) dep r17=r18,r17,3,(PAGE_SHIFT-6) // r17=PTA + (((IFA(61,63) << 7) | IFA(33,39))*8) 142(p7) dep r17=r18,r17,3,(PAGE_SHIFT-6) // r17=pgd_offset for region[0-4]
142 cmp.eq p7,p6=0,r21 // unused address bits all zeroes? 143 cmp.eq p7,p6=0,r21 // unused address bits all zeroes?
143#ifdef CONFIG_PGTABLE_4 144#ifdef CONFIG_PGTABLE_4
144 shr.u r28=r22,PUD_SHIFT // shift L2 index into position 145 shr.u r28=r22,PUD_SHIFT // shift pud index into position
145#else 146#else
146 shr.u r18=r22,PMD_SHIFT // shift L3 index into position 147 shr.u r18=r22,PMD_SHIFT // shift pmd index into position
147#endif 148#endif
148 ;; 149 ;;
149 ld8 r17=[r17] // fetch the L1 entry (may be 0) 150 ld8 r17=[r17] // get *pgd (may be 0)
150 ;; 151 ;;
151(p7) cmp.eq p6,p7=r17,r0 // was L1 entry NULL? 152(p7) cmp.eq p6,p7=r17,r0 // was pgd_present(*pgd) == NULL?
152#ifdef CONFIG_PGTABLE_4 153#ifdef CONFIG_PGTABLE_4
153 dep r28=r28,r17,3,(PAGE_SHIFT-3) // compute address of L2 page table entry 154 dep r28=r28,r17,3,(PAGE_SHIFT-3) // r28=pud_offset(pgd,addr)
154 ;; 155 ;;
155 shr.u r18=r22,PMD_SHIFT // shift L3 index into position 156 shr.u r18=r22,PMD_SHIFT // shift pmd index into position
156(p7) ld8 r29=[r28] // fetch the L2 entry (may be 0) 157(p7) ld8 r29=[r28] // get *pud (may be 0)
157 ;; 158 ;;
158(p7) cmp.eq.or.andcm p6,p7=r29,r0 // was L2 entry NULL? 159(p7) cmp.eq.or.andcm p6,p7=r29,r0 // was pud_present(*pud) == NULL?
159 dep r17=r18,r29,3,(PAGE_SHIFT-3) // compute address of L3 page table entry 160 dep r17=r18,r29,3,(PAGE_SHIFT-3) // r17=pmd_offset(pud,addr)
160#else 161#else
161 dep r17=r18,r17,3,(PAGE_SHIFT-3) // compute address of L3 page table entry 162 dep r17=r18,r17,3,(PAGE_SHIFT-3) // r17=pmd_offset(pgd,addr)
162#endif 163#endif
163 ;; 164 ;;
164(p7) ld8 r20=[r17] // fetch the L3 entry (may be 0) 165(p7) ld8 r20=[r17] // get *pmd (may be 0)
165 shr.u r19=r22,PAGE_SHIFT // shift L4 index into position 166 shr.u r19=r22,PAGE_SHIFT // shift pte index into position
166 ;; 167 ;;
167(p7) cmp.eq.or.andcm p6,p7=r20,r0 // was L3 entry NULL? 168(p7) cmp.eq.or.andcm p6,p7=r20,r0 // was pmd_present(*pmd) == NULL?
168 dep r21=r19,r20,3,(PAGE_SHIFT-3) // compute address of L4 page table entry 169 dep r21=r19,r20,3,(PAGE_SHIFT-3) // r21=pte_offset(pmd,addr)
169 ;; 170 ;;
170(p7) ld8 r18=[r21] // read the L4 PTE 171(p7) ld8 r18=[r21] // read *pte
171 mov r19=cr.isr // cr.isr bit 0 tells us if this is an insn miss 172 mov r19=cr.isr // cr.isr bit 32 tells us if this is an insn miss
172 ;; 173 ;;
173(p7) tbit.z p6,p7=r18,_PAGE_P_BIT // page present bit cleared? 174(p7) tbit.z p6,p7=r18,_PAGE_P_BIT // page present bit cleared?
174 mov r22=cr.iha // get the VHPT address that caused the TLB miss 175 mov r22=cr.iha // get the VHPT address that caused the TLB miss
@@ -202,25 +203,33 @@ ENTRY(vhpt_miss)
202 dv_serialize_data 203 dv_serialize_data
203 204
204 /* 205 /*
205 * Re-check L2 and L3 pagetable. If they changed, we may have received a ptc.g 206 * Re-check pagetable entry. If they changed, we may have received a ptc.g
206 * between reading the pagetable and the "itc". If so, flush the entry we 207 * between reading the pagetable and the "itc". If so, flush the entry we
207 * inserted and retry. 208 * inserted and retry. At this point, we have:
209 *
210 * r28 = equivalent of pud_offset(pgd, ifa)
211 * r17 = equivalent of pmd_offset(pud, ifa)
212 * r21 = equivalent of pte_offset(pmd, ifa)
213 *
214 * r29 = *pud
215 * r20 = *pmd
216 * r18 = *pte
208 */ 217 */
209 ld8 r25=[r21] // read L4 entry again 218 ld8 r25=[r21] // read *pte again
210 ld8 r26=[r17] // read L3 PTE again 219 ld8 r26=[r17] // read *pmd again
211#ifdef CONFIG_PGTABLE_4 220#ifdef CONFIG_PGTABLE_4
212 ld8 r19=[r28] // read L2 entry again 221 ld8 r19=[r28] // read *pud again
213#endif 222#endif
214 cmp.ne p6,p7=r0,r0 223 cmp.ne p6,p7=r0,r0
215 ;; 224 ;;
216 cmp.ne.or.andcm p6,p7=r26,r20 // did L3 entry change 225 cmp.ne.or.andcm p6,p7=r26,r20 // did *pmd change
217#ifdef CONFIG_PGTABLE_4 226#ifdef CONFIG_PGTABLE_4
218 cmp.ne.or.andcm p6,p7=r19,r29 // did L4 PTE change 227 cmp.ne.or.andcm p6,p7=r19,r29 // did *pud change
219#endif 228#endif
220 mov r27=PAGE_SHIFT<<2 229 mov r27=PAGE_SHIFT<<2
221 ;; 230 ;;
222(p6) ptc.l r22,r27 // purge PTE page translation 231(p6) ptc.l r22,r27 // purge PTE page translation
223(p7) cmp.ne.or.andcm p6,p7=r25,r18 // did L4 PTE change 232(p7) cmp.ne.or.andcm p6,p7=r25,r18 // did *pte change
224 ;; 233 ;;
225(p6) ptc.l r16,r27 // purge translation 234(p6) ptc.l r16,r27 // purge translation
226#endif 235#endif
@@ -235,19 +244,19 @@ END(vhpt_miss)
235ENTRY(itlb_miss) 244ENTRY(itlb_miss)
236 DBG_FAULT(1) 245 DBG_FAULT(1)
237 /* 246 /*
238 * The ITLB handler accesses the L3 PTE via the virtually mapped linear 247 * The ITLB handler accesses the PTE via the virtually mapped linear
239 * page table. If a nested TLB miss occurs, we switch into physical 248 * page table. If a nested TLB miss occurs, we switch into physical
240 * mode, walk the page table, and then re-execute the L3 PTE read 249 * mode, walk the page table, and then re-execute the PTE read and
241 * and go on normally after that. 250 * go on normally after that.
242 */ 251 */
243 mov r16=cr.ifa // get virtual address 252 mov r16=cr.ifa // get virtual address
244 mov r29=b0 // save b0 253 mov r29=b0 // save b0
245 mov r31=pr // save predicates 254 mov r31=pr // save predicates
246.itlb_fault: 255.itlb_fault:
247 mov r17=cr.iha // get virtual address of L3 PTE 256 mov r17=cr.iha // get virtual address of PTE
248 movl r30=1f // load nested fault continuation point 257 movl r30=1f // load nested fault continuation point
249 ;; 258 ;;
2501: ld8 r18=[r17] // read L3 PTE 2591: ld8 r18=[r17] // read *pte
251 ;; 260 ;;
252 mov b0=r29 261 mov b0=r29
253 tbit.z p6,p0=r18,_PAGE_P_BIT // page present bit cleared? 262 tbit.z p6,p0=r18,_PAGE_P_BIT // page present bit cleared?
@@ -262,7 +271,7 @@ ENTRY(itlb_miss)
262 */ 271 */
263 dv_serialize_data 272 dv_serialize_data
264 273
265 ld8 r19=[r17] // read L3 PTE again and see if same 274 ld8 r19=[r17] // read *pte again and see if same
266 mov r20=PAGE_SHIFT<<2 // setup page size for purge 275 mov r20=PAGE_SHIFT<<2 // setup page size for purge
267 ;; 276 ;;
268 cmp.ne p7,p0=r18,r19 277 cmp.ne p7,p0=r18,r19
@@ -279,19 +288,19 @@ END(itlb_miss)
279ENTRY(dtlb_miss) 288ENTRY(dtlb_miss)
280 DBG_FAULT(2) 289 DBG_FAULT(2)
281 /* 290 /*
282 * The DTLB handler accesses the L3 PTE via the virtually mapped linear 291 * The DTLB handler accesses the PTE via the virtually mapped linear
283 * page table. If a nested TLB miss occurs, we switch into physical 292 * page table. If a nested TLB miss occurs, we switch into physical
284 * mode, walk the page table, and then re-execute the L3 PTE read 293 * mode, walk the page table, and then re-execute the PTE read and
285 * and go on normally after that. 294 * go on normally after that.
286 */ 295 */
287 mov r16=cr.ifa // get virtual address 296 mov r16=cr.ifa // get virtual address
288 mov r29=b0 // save b0 297 mov r29=b0 // save b0
289 mov r31=pr // save predicates 298 mov r31=pr // save predicates
290dtlb_fault: 299dtlb_fault:
291 mov r17=cr.iha // get virtual address of L3 PTE 300 mov r17=cr.iha // get virtual address of PTE
292 movl r30=1f // load nested fault continuation point 301 movl r30=1f // load nested fault continuation point
293 ;; 302 ;;
2941: ld8 r18=[r17] // read L3 PTE 3031: ld8 r18=[r17] // read *pte
295 ;; 304 ;;
296 mov b0=r29 305 mov b0=r29
297 tbit.z p6,p0=r18,_PAGE_P_BIT // page present bit cleared? 306 tbit.z p6,p0=r18,_PAGE_P_BIT // page present bit cleared?
@@ -306,7 +315,7 @@ dtlb_fault:
306 */ 315 */
307 dv_serialize_data 316 dv_serialize_data
308 317
309 ld8 r19=[r17] // read L3 PTE again and see if same 318 ld8 r19=[r17] // read *pte again and see if same
310 mov r20=PAGE_SHIFT<<2 // setup page size for purge 319 mov r20=PAGE_SHIFT<<2 // setup page size for purge
311 ;; 320 ;;
312 cmp.ne p7,p0=r18,r19 321 cmp.ne p7,p0=r18,r19
@@ -420,7 +429,7 @@ ENTRY(nested_dtlb_miss)
420 * r30: continuation address 429 * r30: continuation address
421 * r31: saved pr 430 * r31: saved pr
422 * 431 *
423 * Output: r17: physical address of L3 PTE of faulting address 432 * Output: r17: physical address of PTE of faulting address
424 * r29: saved b0 433 * r29: saved b0
425 * r30: continuation address 434 * r30: continuation address
426 * r31: saved pr 435 * r31: saved pr
@@ -450,33 +459,33 @@ ENTRY(nested_dtlb_miss)
450(p6) shr.u r21=r21,PGDIR_SHIFT+PAGE_SHIFT 459(p6) shr.u r21=r21,PGDIR_SHIFT+PAGE_SHIFT
451(p7) shr.u r21=r21,PGDIR_SHIFT+PAGE_SHIFT-3 460(p7) shr.u r21=r21,PGDIR_SHIFT+PAGE_SHIFT-3
452 ;; 461 ;;
453(p6) dep r17=r18,r19,3,(PAGE_SHIFT-3) // r17=PTA + IFA(33,42)*8 462(p6) dep r17=r18,r19,3,(PAGE_SHIFT-3) // r17=pgd_offset for region 5
454(p7) dep r17=r18,r17,3,(PAGE_SHIFT-6) // r17=PTA + (((IFA(61,63) << 7) | IFA(33,39))*8) 463(p7) dep r17=r18,r17,3,(PAGE_SHIFT-6) // r17=pgd_offset for region[0-4]
455 cmp.eq p7,p6=0,r21 // unused address bits all zeroes? 464 cmp.eq p7,p6=0,r21 // unused address bits all zeroes?
456#ifdef CONFIG_PGTABLE_4 465#ifdef CONFIG_PGTABLE_4
457 shr.u r18=r22,PUD_SHIFT // shift L2 index into position 466 shr.u r18=r22,PUD_SHIFT // shift pud index into position
458#else 467#else
459 shr.u r18=r22,PMD_SHIFT // shift L3 index into position 468 shr.u r18=r22,PMD_SHIFT // shift pmd index into position
460#endif 469#endif
461 ;; 470 ;;
462 ld8 r17=[r17] // fetch the L1 entry (may be 0) 471 ld8 r17=[r17] // get *pgd (may be 0)
463 ;; 472 ;;
464(p7) cmp.eq p6,p7=r17,r0 // was L1 entry NULL? 473(p7) cmp.eq p6,p7=r17,r0 // was pgd_present(*pgd) == NULL?
465 dep r17=r18,r17,3,(PAGE_SHIFT-3) // compute address of L2 page table entry 474 dep r17=r18,r17,3,(PAGE_SHIFT-3) // r17=p[u|m]d_offset(pgd,addr)
466 ;; 475 ;;
467#ifdef CONFIG_PGTABLE_4 476#ifdef CONFIG_PGTABLE_4
468(p7) ld8 r17=[r17] // fetch the L2 entry (may be 0) 477(p7) ld8 r17=[r17] // get *pud (may be 0)
469 shr.u r18=r22,PMD_SHIFT // shift L3 index into position 478 shr.u r18=r22,PMD_SHIFT // shift pmd index into position
470 ;; 479 ;;
471(p7) cmp.eq.or.andcm p6,p7=r17,r0 // was L2 entry NULL? 480(p7) cmp.eq.or.andcm p6,p7=r17,r0 // was pud_present(*pud) == NULL?
472 dep r17=r18,r17,3,(PAGE_SHIFT-3) // compute address of L2 page table entry 481 dep r17=r18,r17,3,(PAGE_SHIFT-3) // r17=pmd_offset(pud,addr)
473 ;; 482 ;;
474#endif 483#endif
475(p7) ld8 r17=[r17] // fetch the L3 entry (may be 0) 484(p7) ld8 r17=[r17] // get *pmd (may be 0)
476 shr.u r19=r22,PAGE_SHIFT // shift L4 index into position 485 shr.u r19=r22,PAGE_SHIFT // shift pte index into position
477 ;; 486 ;;
478(p7) cmp.eq.or.andcm p6,p7=r17,r0 // was L3 entry NULL? 487(p7) cmp.eq.or.andcm p6,p7=r17,r0 // was pmd_present(*pmd) == NULL?
479 dep r17=r19,r17,3,(PAGE_SHIFT-3) // compute address of L4 page table entry 488 dep r17=r19,r17,3,(PAGE_SHIFT-3) // r17=pte_offset(pmd,addr);
480(p6) br.cond.spnt page_fault 489(p6) br.cond.spnt page_fault
481 mov b0=r30 490 mov b0=r30
482 br.sptk.many b0 // return to continuation point 491 br.sptk.many b0 // return to continuation point