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1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643 1644 1645 1646 1647 1648 1649 1650 1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664 1665 1666 1667 1668 1669 1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680 1681 1682 1683 1684 1685 1686 1687 1688 1689 | /* SPDX-License-Identifier: GPL-2.0 */ /* * arch/ia64/kernel/ivt.S * * Copyright (C) 1998-2001, 2003, 2005 Hewlett-Packard Co * Stephane Eranian <eranian@hpl.hp.com> * David Mosberger <davidm@hpl.hp.com> * Copyright (C) 2000, 2002-2003 Intel Co * Asit Mallick <asit.k.mallick@intel.com> * Suresh Siddha <suresh.b.siddha@intel.com> * Kenneth Chen <kenneth.w.chen@intel.com> * Fenghua Yu <fenghua.yu@intel.com> * * 00/08/23 Asit Mallick <asit.k.mallick@intel.com> TLB handling for SMP * 00/12/20 David Mosberger-Tang <davidm@hpl.hp.com> DTLB/ITLB handler now uses virtual PT. * * Copyright (C) 2005 Hewlett-Packard Co * Dan Magenheimer <dan.magenheimer@hp.com> * Xen paravirtualization * Copyright (c) 2008 Isaku Yamahata <yamahata at valinux co jp> * VA Linux Systems Japan K.K. * pv_ops. * Yaozu (Eddie) Dong <eddie.dong@intel.com> */ /* * This file defines the interruption vector table used by the CPU. * It does not include one entry per possible cause of interruption. * * The first 20 entries of the table contain 64 bundles each while the * remaining 48 entries contain only 16 bundles each. * * The 64 bundles are used to allow inlining the whole handler for critical * interruptions like TLB misses. * * For each entry, the comment is as follows: * * // 0x1c00 Entry 7 (size 64 bundles) Data Key Miss (12,51) * entry offset ----/ / / / / * entry number ---------/ / / / * size of the entry -------------/ / / * vector name -------------------------------------/ / * interruptions triggering this vector ----------------------/ * * The table is 32KB in size and must be aligned on 32KB boundary. * (The CPU ignores the 15 lower bits of the address) * * Table is based upon EAS2.6 (Oct 1999) */ #include <linux/pgtable.h> #include <asm/asmmacro.h> #include <asm/break.h> #include <asm/kregs.h> #include <asm/asm-offsets.h> #include <asm/processor.h> #include <asm/ptrace.h> #include <asm/thread_info.h> #include <asm/unistd.h> #include <asm/errno.h> #include <asm/export.h> #if 0 # define PSR_DEFAULT_BITS psr.ac #else # define PSR_DEFAULT_BITS 0 #endif #if 0 /* * This lets you track the last eight faults that occurred on the CPU. Make sure ar.k2 isn't * needed for something else before enabling this... */ # define DBG_FAULT(i) mov r16=ar.k2;; shl r16=r16,8;; add r16=(i),r16;;mov ar.k2=r16 #else # define DBG_FAULT(i) #endif #include "minstate.h" #define FAULT(n) \ mov r31=pr; \ mov r19=n;; /* prepare to save predicates */ \ br.sptk.many dispatch_to_fault_handler .section .text..ivt,"ax" .align 32768 // align on 32KB boundary .global ia64_ivt EXPORT_DATA_SYMBOL(ia64_ivt) ia64_ivt: ///////////////////////////////////////////////////////////////////////////////////////// // 0x0000 Entry 0 (size 64 bundles) VHPT Translation (8,20,47) ENTRY(vhpt_miss) DBG_FAULT(0) /* * The VHPT vector is invoked when the TLB entry for the virtual page table * is missing. This happens only as a result of a previous * (the "original") TLB miss, which may either be caused by an instruction * fetch or a data access (or non-access). * * What we do here is normal TLB miss handing for the _original_ miss, * followed by inserting the TLB entry for the virtual page table page * that the VHPT walker was attempting to access. The latter gets * inserted as long as page table entry above pte level have valid * mappings for the faulting address. The TLB entry for the original * miss gets inserted only if the pte entry indicates that the page is * present. * * do_page_fault gets invoked in the following cases: * - the faulting virtual address uses unimplemented address bits * - the faulting virtual address has no valid page table mapping */ MOV_FROM_IFA(r16) // get address that caused the TLB miss #ifdef CONFIG_HUGETLB_PAGE movl r18=PAGE_SHIFT MOV_FROM_ITIR(r25) #endif ;; RSM_PSR_DT // use physical addressing for data mov r31=pr // save the predicate registers mov r19=IA64_KR(PT_BASE) // get page table base address shl r21=r16,3 // shift bit 60 into sign bit shr.u r17=r16,61 // get the region number into r17 ;; shr.u r22=r21,3 #ifdef CONFIG_HUGETLB_PAGE extr.u r26=r25,2,6 ;; cmp.ne p8,p0=r18,r26 sub r27=r26,r18 ;; (p8) dep r25=r18,r25,2,6 (p8) shr r22=r22,r27 #endif ;; cmp.eq p6,p7=5,r17 // is IFA pointing into to region 5? shr.u r18=r22,PGDIR_SHIFT // get bottom portion of pgd index bit ;; (p7) dep r17=r17,r19,(PAGE_SHIFT-3),3 // put region number bits in place srlz.d LOAD_PHYSICAL(p6, r19, swapper_pg_dir) // region 5 is rooted at swapper_pg_dir .pred.rel "mutex", p6, p7 (p6) shr.u r21=r21,PGDIR_SHIFT+PAGE_SHIFT (p7) shr.u r21=r21,PGDIR_SHIFT+PAGE_SHIFT-3 ;; (p6) dep r17=r18,r19,3,(PAGE_SHIFT-3) // r17=pgd_offset for region 5 (p7) dep r17=r18,r17,3,(PAGE_SHIFT-6) // r17=pgd_offset for region[0-4] cmp.eq p7,p6=0,r21 // unused address bits all zeroes? #if CONFIG_PGTABLE_LEVELS == 4 shr.u r28=r22,PUD_SHIFT // shift pud index into position #else shr.u r18=r22,PMD_SHIFT // shift pmd index into position #endif ;; ld8 r17=[r17] // get *pgd (may be 0) ;; (p7) cmp.eq p6,p7=r17,r0 // was pgd_present(*pgd) == NULL? #if CONFIG_PGTABLE_LEVELS == 4 dep r28=r28,r17,3,(PAGE_SHIFT-3) // r28=pud_offset(pgd,addr) ;; shr.u r18=r22,PMD_SHIFT // shift pmd index into position (p7) ld8 r29=[r28] // get *pud (may be 0) ;; (p7) cmp.eq.or.andcm p6,p7=r29,r0 // was pud_present(*pud) == NULL? dep r17=r18,r29,3,(PAGE_SHIFT-3) // r17=pmd_offset(pud,addr) #else dep r17=r18,r17,3,(PAGE_SHIFT-3) // r17=pmd_offset(pgd,addr) #endif ;; (p7) ld8 r20=[r17] // get *pmd (may be 0) shr.u r19=r22,PAGE_SHIFT // shift pte index into position ;; (p7) cmp.eq.or.andcm p6,p7=r20,r0 // was pmd_present(*pmd) == NULL? dep r21=r19,r20,3,(PAGE_SHIFT-3) // r21=pte_offset(pmd,addr) ;; (p7) ld8 r18=[r21] // read *pte MOV_FROM_ISR(r19) // cr.isr bit 32 tells us if this is an insn miss ;; (p7) tbit.z p6,p7=r18,_PAGE_P_BIT // page present bit cleared? MOV_FROM_IHA(r22) // get the VHPT address that caused the TLB miss ;; // avoid RAW on p7 (p7) tbit.nz.unc p10,p11=r19,32 // is it an instruction TLB miss? dep r23=0,r20,0,PAGE_SHIFT // clear low bits to get page address ;; ITC_I_AND_D(p10, p11, r18, r24) // insert the instruction TLB entry and // insert the data TLB entry (p6) br.cond.spnt.many page_fault // handle bad address/page not present (page fault) MOV_TO_IFA(r22, r24) #ifdef CONFIG_HUGETLB_PAGE MOV_TO_ITIR(p8, r25, r24) // change to default page-size for VHPT #endif /* * Now compute and insert the TLB entry for the virtual page table. We never * execute in a page table page so there is no need to set the exception deferral * bit. */ adds r24=__DIRTY_BITS_NO_ED|_PAGE_PL_0|_PAGE_AR_RW,r23 ;; ITC_D(p7, r24, r25) ;; #ifdef CONFIG_SMP /* * Tell the assemblers dependency-violation checker that the above "itc" instructions * cannot possibly affect the following loads: */ dv_serialize_data /* * Re-check pagetable entry. If they changed, we may have received a ptc.g * between reading the pagetable and the "itc". If so, flush the entry we * inserted and retry. At this point, we have: * * r28 = equivalent of pud_offset(pgd, ifa) * r17 = equivalent of pmd_offset(pud, ifa) * r21 = equivalent of pte_offset(pmd, ifa) * * r29 = *pud * r20 = *pmd * r18 = *pte */ ld8 r25=[r21] // read *pte again ld8 r26=[r17] // read *pmd again #if CONFIG_PGTABLE_LEVELS == 4 ld8 r19=[r28] // read *pud again #endif cmp.ne p6,p7=r0,r0 ;; cmp.ne.or.andcm p6,p7=r26,r20 // did *pmd change #if CONFIG_PGTABLE_LEVELS == 4 cmp.ne.or.andcm p6,p7=r19,r29 // did *pud change #endif mov r27=PAGE_SHIFT<<2 ;; (p6) ptc.l r22,r27 // purge PTE page translation (p7) cmp.ne.or.andcm p6,p7=r25,r18 // did *pte change ;; (p6) ptc.l r16,r27 // purge translation #endif mov pr=r31,-1 // restore predicate registers RFI END(vhpt_miss) .org ia64_ivt+0x400 ///////////////////////////////////////////////////////////////////////////////////////// // 0x0400 Entry 1 (size 64 bundles) ITLB (21) ENTRY(itlb_miss) DBG_FAULT(1) /* * The ITLB handler accesses the PTE via the virtually mapped linear * page table. If a nested TLB miss occurs, we switch into physical * mode, walk the page table, and then re-execute the PTE read and * go on normally after that. */ MOV_FROM_IFA(r16) // get virtual address mov r29=b0 // save b0 mov r31=pr // save predicates .itlb_fault: MOV_FROM_IHA(r17) // get virtual address of PTE movl r30=1f // load nested fault continuation point ;; 1: ld8 r18=[r17] // read *pte ;; mov b0=r29 tbit.z p6,p0=r18,_PAGE_P_BIT // page present bit cleared? (p6) br.cond.spnt page_fault ;; ITC_I(p0, r18, r19) ;; #ifdef CONFIG_SMP /* * Tell the assemblers dependency-violation checker that the above "itc" instructions * cannot possibly affect the following loads: */ dv_serialize_data ld8 r19=[r17] // read *pte again and see if same mov r20=PAGE_SHIFT<<2 // setup page size for purge ;; cmp.ne p7,p0=r18,r19 ;; (p7) ptc.l r16,r20 #endif mov pr=r31,-1 RFI END(itlb_miss) .org ia64_ivt+0x0800 ///////////////////////////////////////////////////////////////////////////////////////// // 0x0800 Entry 2 (size 64 bundles) DTLB (9,48) ENTRY(dtlb_miss) DBG_FAULT(2) /* * The DTLB handler accesses the PTE via the virtually mapped linear * page table. If a nested TLB miss occurs, we switch into physical * mode, walk the page table, and then re-execute the PTE read and * go on normally after that. */ MOV_FROM_IFA(r16) // get virtual address mov r29=b0 // save b0 mov r31=pr // save predicates dtlb_fault: MOV_FROM_IHA(r17) // get virtual address of PTE movl r30=1f // load nested fault continuation point ;; 1: ld8 r18=[r17] // read *pte ;; mov b0=r29 tbit.z p6,p0=r18,_PAGE_P_BIT // page present bit cleared? (p6) br.cond.spnt page_fault ;; ITC_D(p0, r18, r19) ;; #ifdef CONFIG_SMP /* * Tell the assemblers dependency-violation checker that the above "itc" instructions * cannot possibly affect the following loads: */ dv_serialize_data ld8 r19=[r17] // read *pte again and see if same mov r20=PAGE_SHIFT<<2 // setup page size for purge ;; cmp.ne p7,p0=r18,r19 ;; (p7) ptc.l r16,r20 #endif mov pr=r31,-1 RFI END(dtlb_miss) .org ia64_ivt+0x0c00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x0c00 Entry 3 (size 64 bundles) Alt ITLB (19) ENTRY(alt_itlb_miss) DBG_FAULT(3) MOV_FROM_IFA(r16) // get address that caused the TLB miss movl r17=PAGE_KERNEL MOV_FROM_IPSR(p0, r21) movl r19=(((1 << IA64_MAX_PHYS_BITS) - 1) & ~0xfff) mov r31=pr ;; #ifdef CONFIG_DISABLE_VHPT shr.u r22=r16,61 // get the region number into r21 ;; cmp.gt p8,p0=6,r22 // user mode ;; THASH(p8, r17, r16, r23) ;; MOV_TO_IHA(p8, r17, r23) (p8) mov r29=b0 // save b0 (p8) br.cond.dptk .itlb_fault #endif extr.u r23=r21,IA64_PSR_CPL0_BIT,2 // extract psr.cpl and r19=r19,r16 // clear ed, reserved bits, and PTE control bits shr.u r18=r16,57 // move address bit 61 to bit 4 ;; andcm r18=0x10,r18 // bit 4=~address-bit(61) cmp.ne p8,p0=r0,r23 // psr.cpl != 0? or r19=r17,r19 // insert PTE control bits into r19 ;; or r19=r19,r18 // set bit 4 (uncached) if the access was to region 6 (p8) br.cond.spnt page_fault ;; ITC_I(p0, r19, r18) // insert the TLB entry mov pr=r31,-1 RFI END(alt_itlb_miss) .org ia64_ivt+0x1000 ///////////////////////////////////////////////////////////////////////////////////////// // 0x1000 Entry 4 (size 64 bundles) Alt DTLB (7,46) ENTRY(alt_dtlb_miss) DBG_FAULT(4) MOV_FROM_IFA(r16) // get address that caused the TLB miss movl r17=PAGE_KERNEL MOV_FROM_ISR(r20) movl r19=(((1 << IA64_MAX_PHYS_BITS) - 1) & ~0xfff) MOV_FROM_IPSR(p0, r21) mov r31=pr mov r24=PERCPU_ADDR ;; #ifdef CONFIG_DISABLE_VHPT shr.u r22=r16,61 // get the region number into r21 ;; cmp.gt p8,p0=6,r22 // access to region 0-5 ;; THASH(p8, r17, r16, r25) ;; MOV_TO_IHA(p8, r17, r25) (p8) mov r29=b0 // save b0 (p8) br.cond.dptk dtlb_fault #endif cmp.ge p10,p11=r16,r24 // access to per_cpu_data? tbit.z p12,p0=r16,61 // access to region 6? mov r25=PERCPU_PAGE_SHIFT << 2 mov r26=PERCPU_PAGE_SIZE nop.m 0 nop.b 0 ;; (p10) mov r19=IA64_KR(PER_CPU_DATA) (p11) and r19=r19,r16 // clear non-ppn fields extr.u r23=r21,IA64_PSR_CPL0_BIT,2 // extract psr.cpl and r22=IA64_ISR_CODE_MASK,r20 // get the isr.code field tbit.nz p6,p7=r20,IA64_ISR_SP_BIT // is speculation bit on? tbit.nz p9,p0=r20,IA64_ISR_NA_BIT // is non-access bit on? ;; (p10) sub r19=r19,r26 MOV_TO_ITIR(p10, r25, r24) cmp.ne p8,p0=r0,r23 (p9) cmp.eq.or.andcm p6,p7=IA64_ISR_CODE_LFETCH,r22 // check isr.code field (p12) dep r17=-1,r17,4,1 // set ma=UC for region 6 addr (p8) br.cond.spnt page_fault dep r21=-1,r21,IA64_PSR_ED_BIT,1 ;; or r19=r19,r17 // insert PTE control bits into r19 MOV_TO_IPSR(p6, r21, r24) ;; ITC_D(p7, r19, r18) // insert the TLB entry mov pr=r31,-1 RFI END(alt_dtlb_miss) .org ia64_ivt+0x1400 ///////////////////////////////////////////////////////////////////////////////////////// // 0x1400 Entry 5 (size 64 bundles) Data nested TLB (6,45) ENTRY(nested_dtlb_miss) /* * In the absence of kernel bugs, we get here when the virtually mapped linear * page table is accessed non-speculatively (e.g., in the Dirty-bit, Instruction * Access-bit, or Data Access-bit faults). If the DTLB entry for the virtual page * table is missing, a nested TLB miss fault is triggered and control is * transferred to this point. When this happens, we lookup the pte for the * faulting address by walking the page table in physical mode and return to the * continuation point passed in register r30 (or call page_fault if the address is * not mapped). * * Input: r16: faulting address * r29: saved b0 * r30: continuation address * r31: saved pr * * Output: r17: physical address of PTE of faulting address * r29: saved b0 * r30: continuation address * r31: saved pr * * Clobbered: b0, r18, r19, r21, r22, psr.dt (cleared) */ RSM_PSR_DT // switch to using physical data addressing mov r19=IA64_KR(PT_BASE) // get the page table base address shl r21=r16,3 // shift bit 60 into sign bit MOV_FROM_ITIR(r18) ;; shr.u r17=r16,61 // get the region number into r17 extr.u r18=r18,2,6 // get the faulting page size ;; cmp.eq p6,p7=5,r17 // is faulting address in region 5? add r22=-PAGE_SHIFT,r18 // adjustment for hugetlb address add r18=PGDIR_SHIFT-PAGE_SHIFT,r18 ;; shr.u r22=r16,r22 shr.u r18=r16,r18 (p7) dep r17=r17,r19,(PAGE_SHIFT-3),3 // put region number bits in place srlz.d LOAD_PHYSICAL(p6, r19, swapper_pg_dir) // region 5 is rooted at swapper_pg_dir .pred.rel "mutex", p6, p7 (p6) shr.u r21=r21,PGDIR_SHIFT+PAGE_SHIFT (p7) shr.u r21=r21,PGDIR_SHIFT+PAGE_SHIFT-3 ;; (p6) dep r17=r18,r19,3,(PAGE_SHIFT-3) // r17=pgd_offset for region 5 (p7) dep r17=r18,r17,3,(PAGE_SHIFT-6) // r17=pgd_offset for region[0-4] cmp.eq p7,p6=0,r21 // unused address bits all zeroes? #if CONFIG_PGTABLE_LEVELS == 4 shr.u r18=r22,PUD_SHIFT // shift pud index into position #else shr.u r18=r22,PMD_SHIFT // shift pmd index into position #endif ;; ld8 r17=[r17] // get *pgd (may be 0) ;; (p7) cmp.eq p6,p7=r17,r0 // was pgd_present(*pgd) == NULL? dep r17=r18,r17,3,(PAGE_SHIFT-3) // r17=p[u|m]d_offset(pgd,addr) ;; #if CONFIG_PGTABLE_LEVELS == 4 (p7) ld8 r17=[r17] // get *pud (may be 0) shr.u r18=r22,PMD_SHIFT // shift pmd index into position ;; (p7) cmp.eq.or.andcm p6,p7=r17,r0 // was pud_present(*pud) == NULL? dep r17=r18,r17,3,(PAGE_SHIFT-3) // r17=pmd_offset(pud,addr) ;; #endif (p7) ld8 r17=[r17] // get *pmd (may be 0) shr.u r19=r22,PAGE_SHIFT // shift pte index into position ;; (p7) cmp.eq.or.andcm p6,p7=r17,r0 // was pmd_present(*pmd) == NULL? dep r17=r19,r17,3,(PAGE_SHIFT-3) // r17=pte_offset(pmd,addr); (p6) br.cond.spnt page_fault mov b0=r30 br.sptk.many b0 // return to continuation point END(nested_dtlb_miss) .org ia64_ivt+0x1800 ///////////////////////////////////////////////////////////////////////////////////////// // 0x1800 Entry 6 (size 64 bundles) Instruction Key Miss (24) ENTRY(ikey_miss) DBG_FAULT(6) FAULT(6) END(ikey_miss) .org ia64_ivt+0x1c00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x1c00 Entry 7 (size 64 bundles) Data Key Miss (12,51) ENTRY(dkey_miss) DBG_FAULT(7) FAULT(7) END(dkey_miss) .org ia64_ivt+0x2000 ///////////////////////////////////////////////////////////////////////////////////////// // 0x2000 Entry 8 (size 64 bundles) Dirty-bit (54) ENTRY(dirty_bit) DBG_FAULT(8) /* * What we do here is to simply turn on the dirty bit in the PTE. We need to * update both the page-table and the TLB entry. To efficiently access the PTE, * we address it through the virtual page table. Most likely, the TLB entry for * the relevant virtual page table page is still present in the TLB so we can * normally do this without additional TLB misses. In case the necessary virtual * page table TLB entry isn't present, we take a nested TLB miss hit where we look * up the physical address of the L3 PTE and then continue at label 1 below. */ MOV_FROM_IFA(r16) // get the address that caused the fault movl r30=1f // load continuation point in case of nested fault ;; THASH(p0, r17, r16, r18) // compute virtual address of L3 PTE mov r29=b0 // save b0 in case of nested fault mov r31=pr // save pr #ifdef CONFIG_SMP mov r28=ar.ccv // save ar.ccv ;; 1: ld8 r18=[r17] ;; // avoid RAW on r18 mov ar.ccv=r18 // set compare value for cmpxchg or r25=_PAGE_D|_PAGE_A,r18 // set the dirty and accessed bits tbit.z p7,p6 = r18,_PAGE_P_BIT // Check present bit ;; (p6) cmpxchg8.acq r26=[r17],r25,ar.ccv // Only update if page is present mov r24=PAGE_SHIFT<<2 ;; (p6) cmp.eq p6,p7=r26,r18 // Only compare if page is present ;; ITC_D(p6, r25, r18) // install updated PTE ;; /* * Tell the assemblers dependency-violation checker that the above "itc" instructions * cannot possibly affect the following loads: */ dv_serialize_data ld8 r18=[r17] // read PTE again ;; cmp.eq p6,p7=r18,r25 // is it same as the newly installed ;; (p7) ptc.l r16,r24 mov b0=r29 // restore b0 mov ar.ccv=r28 #else ;; 1: ld8 r18=[r17] ;; // avoid RAW on r18 or r18=_PAGE_D|_PAGE_A,r18 // set the dirty and accessed bits mov b0=r29 // restore b0 ;; st8 [r17]=r18 // store back updated PTE ITC_D(p0, r18, r16) // install updated PTE #endif mov pr=r31,-1 // restore pr RFI END(dirty_bit) .org ia64_ivt+0x2400 ///////////////////////////////////////////////////////////////////////////////////////// // 0x2400 Entry 9 (size 64 bundles) Instruction Access-bit (27) ENTRY(iaccess_bit) DBG_FAULT(9) // Like Entry 8, except for instruction access MOV_FROM_IFA(r16) // get the address that caused the fault movl r30=1f // load continuation point in case of nested fault mov r31=pr // save predicates #ifdef CONFIG_ITANIUM /* * Erratum 10 (IFA may contain incorrect address) has "NoFix" status. */ MOV_FROM_IPSR(p0, r17) ;; MOV_FROM_IIP(r18) tbit.z p6,p0=r17,IA64_PSR_IS_BIT // IA64 instruction set? ;; (p6) mov r16=r18 // if so, use cr.iip instead of cr.ifa #endif /* CONFIG_ITANIUM */ ;; THASH(p0, r17, r16, r18) // compute virtual address of L3 PTE mov r29=b0 // save b0 in case of nested fault) #ifdef CONFIG_SMP mov r28=ar.ccv // save ar.ccv ;; 1: ld8 r18=[r17] ;; mov ar.ccv=r18 // set compare value for cmpxchg or r25=_PAGE_A,r18 // set the accessed bit tbit.z p7,p6 = r18,_PAGE_P_BIT // Check present bit ;; (p6) cmpxchg8.acq r26=[r17],r25,ar.ccv // Only if page present mov r24=PAGE_SHIFT<<2 ;; (p6) cmp.eq p6,p7=r26,r18 // Only if page present ;; ITC_I(p6, r25, r26) // install updated PTE ;; /* * Tell the assemblers dependency-violation checker that the above "itc" instructions * cannot possibly affect the following loads: */ dv_serialize_data ld8 r18=[r17] // read PTE again ;; cmp.eq p6,p7=r18,r25 // is it same as the newly installed ;; (p7) ptc.l r16,r24 mov b0=r29 // restore b0 mov ar.ccv=r28 #else /* !CONFIG_SMP */ ;; 1: ld8 r18=[r17] ;; or r18=_PAGE_A,r18 // set the accessed bit mov b0=r29 // restore b0 ;; st8 [r17]=r18 // store back updated PTE ITC_I(p0, r18, r16) // install updated PTE #endif /* !CONFIG_SMP */ mov pr=r31,-1 RFI END(iaccess_bit) .org ia64_ivt+0x2800 ///////////////////////////////////////////////////////////////////////////////////////// // 0x2800 Entry 10 (size 64 bundles) Data Access-bit (15,55) ENTRY(daccess_bit) DBG_FAULT(10) // Like Entry 8, except for data access MOV_FROM_IFA(r16) // get the address that caused the fault movl r30=1f // load continuation point in case of nested fault ;; THASH(p0, r17, r16, r18) // compute virtual address of L3 PTE mov r31=pr mov r29=b0 // save b0 in case of nested fault) #ifdef CONFIG_SMP mov r28=ar.ccv // save ar.ccv ;; 1: ld8 r18=[r17] ;; // avoid RAW on r18 mov ar.ccv=r18 // set compare value for cmpxchg or r25=_PAGE_A,r18 // set the dirty bit tbit.z p7,p6 = r18,_PAGE_P_BIT // Check present bit ;; (p6) cmpxchg8.acq r26=[r17],r25,ar.ccv // Only if page is present mov r24=PAGE_SHIFT<<2 ;; (p6) cmp.eq p6,p7=r26,r18 // Only if page is present ;; ITC_D(p6, r25, r26) // install updated PTE /* * Tell the assemblers dependency-violation checker that the above "itc" instructions * cannot possibly affect the following loads: */ dv_serialize_data ;; ld8 r18=[r17] // read PTE again ;; cmp.eq p6,p7=r18,r25 // is it same as the newly installed ;; (p7) ptc.l r16,r24 mov ar.ccv=r28 #else ;; 1: ld8 r18=[r17] ;; // avoid RAW on r18 or r18=_PAGE_A,r18 // set the accessed bit ;; st8 [r17]=r18 // store back updated PTE ITC_D(p0, r18, r16) // install updated PTE #endif mov b0=r29 // restore b0 mov pr=r31,-1 RFI END(daccess_bit) .org ia64_ivt+0x2c00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x2c00 Entry 11 (size 64 bundles) Break instruction (33) ENTRY(break_fault) /* * The streamlined system call entry/exit paths only save/restore the initial part * of pt_regs. This implies that the callers of system-calls must adhere to the * normal procedure calling conventions. * * Registers to be saved & restored: * CR registers: cr.ipsr, cr.iip, cr.ifs * AR registers: ar.unat, ar.pfs, ar.rsc, ar.rnat, ar.bspstore, ar.fpsr * others: pr, b0, b6, loadrs, r1, r11, r12, r13, r15 * Registers to be restored only: * r8-r11: output value from the system call. * * During system call exit, scratch registers (including r15) are modified/cleared * to prevent leaking bits from kernel to user level. */ DBG_FAULT(11) mov.m r16=IA64_KR(CURRENT) // M2 r16 <- current task (12 cyc) MOV_FROM_IPSR(p0, r29) // M2 (12 cyc) mov r31=pr // I0 (2 cyc) MOV_FROM_IIM(r17) // M2 (2 cyc) mov.m r27=ar.rsc // M2 (12 cyc) mov r18=__IA64_BREAK_SYSCALL // A mov.m ar.rsc=0 // M2 mov.m r21=ar.fpsr // M2 (12 cyc) mov r19=b6 // I0 (2 cyc) ;; mov.m r23=ar.bspstore // M2 (12 cyc) mov.m r24=ar.rnat // M2 (5 cyc) mov.i r26=ar.pfs // I0 (2 cyc) invala // M0|1 nop.m 0 // M mov r20=r1 // A save r1 nop.m 0 movl r30=sys_call_table // X MOV_FROM_IIP(r28) // M2 (2 cyc) cmp.eq p0,p7=r18,r17 // I0 is this a system call? (p7) br.cond.spnt non_syscall // B no -> // // From this point on, we are definitely on the syscall-path // and we can use (non-banked) scratch registers. // /////////////////////////////////////////////////////////////////////// mov r1=r16 // A move task-pointer to "addl"-addressable reg mov r2=r16 // A setup r2 for ia64_syscall_setup add r9=TI_FLAGS+IA64_TASK_SIZE,r16 // A r9 = ¤t_thread_info()->flags adds r16=IA64_TASK_THREAD_ON_USTACK_OFFSET,r16 adds r15=-1024,r15 // A subtract 1024 from syscall number mov r3=NR_syscalls - 1 ;; ld1.bias r17=[r16] // M0|1 r17 = current->thread.on_ustack flag ld4 r9=[r9] // M0|1 r9 = current_thread_info()->flags extr.u r8=r29,41,2 // I0 extract ei field from cr.ipsr shladd r30=r15,3,r30 // A r30 = sys_call_table + 8*(syscall-1024) addl r22=IA64_RBS_OFFSET,r1 // A compute base of RBS cmp.leu p6,p7=r15,r3 // A syscall number in range? ;; lfetch.fault.excl.nt1 [r22] // M0|1 prefetch RBS (p6) ld8 r30=[r30] // M0|1 load address of syscall entry point tnat.nz.or p7,p0=r15 // I0 is syscall nr a NaT? mov.m ar.bspstore=r22 // M2 switch to kernel RBS cmp.eq p8,p9=2,r8 // A isr.ei==2? ;; (p8) mov r8=0 // A clear ei to 0 (p7) movl r30=sys_ni_syscall // X (p8) adds r28=16,r28 // A switch cr.iip to next bundle (p9) adds r8=1,r8 // A increment ei to next slot #ifdef CONFIG_VIRT_CPU_ACCOUNTING_NATIVE ;; mov b6=r30 // I0 setup syscall handler branch reg early #else nop.i 0 ;; #endif mov.m r25=ar.unat // M2 (5 cyc) dep r29=r8,r29,41,2 // I0 insert new ei into cr.ipsr adds r15=1024,r15 // A restore original syscall number // // If any of the above loads miss in L1D, we'll stall here until // the data arrives. // /////////////////////////////////////////////////////////////////////// st1 [r16]=r0 // M2|3 clear current->thread.on_ustack flag #ifdef CONFIG_VIRT_CPU_ACCOUNTING_NATIVE MOV_FROM_ITC(p0, p14, r30, r18) // M get cycle for accounting #else mov b6=r30 // I0 setup syscall handler branch reg early #endif cmp.eq pKStk,pUStk=r0,r17 // A were we on kernel stacks already? and r9=_TIF_SYSCALL_TRACEAUDIT,r9 // A mask trace or audit mov r18=ar.bsp // M2 (12 cyc) (pKStk) br.cond.spnt .break_fixup // B we're already in kernel-mode -- fix up RBS ;; .back_from_break_fixup: (pUStk) addl r1=IA64_STK_OFFSET-IA64_PT_REGS_SIZE,r1 // A compute base of memory stack cmp.eq p14,p0=r9,r0 // A are syscalls being traced/audited? br.call.sptk.many b7=ia64_syscall_setup // B 1: #ifdef CONFIG_VIRT_CPU_ACCOUNTING_NATIVE // mov.m r30=ar.itc is called in advance, and r13 is current add r16=TI_AC_STAMP+IA64_TASK_SIZE,r13 // A add r17=TI_AC_LEAVE+IA64_TASK_SIZE,r13 // A (pKStk) br.cond.spnt .skip_accounting // B unlikely skip ;; ld8 r18=[r16],TI_AC_STIME-TI_AC_STAMP // M get last stamp ld8 r19=[r17],TI_AC_UTIME-TI_AC_LEAVE // M time at leave ;; ld8 r20=[r16],TI_AC_STAMP-TI_AC_STIME // M cumulated stime ld8 r21=[r17] // M cumulated utime sub r22=r19,r18 // A stime before leave ;; st8 [r16]=r30,TI_AC_STIME-TI_AC_STAMP // M update stamp sub r18=r30,r19 // A elapsed time in user ;; add r20=r20,r22 // A sum stime add r21=r21,r18 // A sum utime ;; st8 [r16]=r20 // M update stime st8 [r17]=r21 // M update utime ;; .skip_accounting: #endif mov ar.rsc=0x3 // M2 set eager mode, pl 0, LE, loadrs=0 nop 0 BSW_1(r2, r14) // B (6 cyc) regs are saved, switch to bank 1 ;; SSM_PSR_IC_AND_DEFAULT_BITS_AND_SRLZ_I(r3, r16) // M2 now it's safe to re-enable intr.-collection // M0 ensure interruption collection is on movl r3=ia64_ret_from_syscall // X ;; mov rp=r3 // I0 set the real return addr (p10) br.cond.spnt.many ia64_ret_from_syscall // B return if bad call-frame or r15 is a NaT SSM_PSR_I(p15, p15, r16) // M2 restore psr.i (p14) br.call.sptk.many b6=b6 // B invoke syscall-handker (ignore return addr) br.cond.spnt.many ia64_trace_syscall // B do syscall-tracing thingamagic // NOT REACHED /////////////////////////////////////////////////////////////////////// // On entry, we optimistically assumed that we're coming from user-space. // For the rare cases where a system-call is done from within the kernel, // we fix things up at this point: .break_fixup: add r1=-IA64_PT_REGS_SIZE,sp // A allocate space for pt_regs structure mov ar.rnat=r24 // M2 restore kernel's AR.RNAT ;; mov ar.bspstore=r23 // M2 restore kernel's AR.BSPSTORE br.cond.sptk .back_from_break_fixup END(break_fault) .org ia64_ivt+0x3000 ///////////////////////////////////////////////////////////////////////////////////////// // 0x3000 Entry 12 (size 64 bundles) External Interrupt (4) ENTRY(interrupt) /* interrupt handler has become too big to fit this area. */ br.sptk.many __interrupt END(interrupt) .org ia64_ivt+0x3400 ///////////////////////////////////////////////////////////////////////////////////////// // 0x3400 Entry 13 (size 64 bundles) Reserved DBG_FAULT(13) FAULT(13) .org ia64_ivt+0x3800 ///////////////////////////////////////////////////////////////////////////////////////// // 0x3800 Entry 14 (size 64 bundles) Reserved DBG_FAULT(14) FAULT(14) /* * There is no particular reason for this code to be here, other than that * there happens to be space here that would go unused otherwise. If this * fault ever gets "unreserved", simply moved the following code to a more * suitable spot... * * ia64_syscall_setup() is a separate subroutine so that it can * allocate stacked registers so it can safely demine any * potential NaT values from the input registers. * * On entry: * - executing on bank 0 or bank 1 register set (doesn't matter) * - r1: stack pointer * - r2: current task pointer * - r3: preserved * - r11: original contents (saved ar.pfs to be saved) * - r12: original contents (sp to be saved) * - r13: original contents (tp to be saved) * - r15: original contents (syscall # to be saved) * - r18: saved bsp (after switching to kernel stack) * - r19: saved b6 * - r20: saved r1 (gp) * - r21: saved ar.fpsr * - r22: kernel's register backing store base (krbs_base) * - r23: saved ar.bspstore * - r24: saved ar.rnat * - r25: saved ar.unat * - r26: saved ar.pfs * - r27: saved ar.rsc * - r28: saved cr.iip * - r29: saved cr.ipsr * - r30: ar.itc for accounting (don't touch) * - r31: saved pr * - b0: original contents (to be saved) * On exit: * - p10: TRUE if syscall is invoked with more than 8 out * registers or r15's Nat is true * - r1: kernel's gp * - r3: preserved (same as on entry) * - r8: -EINVAL if p10 is true * - r12: points to kernel stack * - r13: points to current task * - r14: preserved (same as on entry) * - p13: preserved * - p15: TRUE if interrupts need to be re-enabled * - ar.fpsr: set to kernel settings * - b6: preserved (same as on entry) */ GLOBAL_ENTRY(ia64_syscall_setup) #if PT(B6) != 0 # error This code assumes that b6 is the first field in pt_regs. #endif st8 [r1]=r19 // save b6 add r16=PT(CR_IPSR),r1 // initialize first base pointer add r17=PT(R11),r1 // initialize second base pointer ;; alloc r19=ar.pfs,8,0,0,0 // ensure in0-in7 are writable st8 [r16]=r29,PT(AR_PFS)-PT(CR_IPSR) // save cr.ipsr tnat.nz p8,p0=in0 st8.spill [r17]=r11,PT(CR_IIP)-PT(R11) // save r11 tnat.nz p9,p0=in1 (pKStk) mov r18=r0 // make sure r18 isn't NaT ;; st8 [r16]=r26,PT(CR_IFS)-PT(AR_PFS) // save ar.pfs st8 [r17]=r28,PT(AR_UNAT)-PT(CR_IIP) // save cr.iip mov r28=b0 // save b0 (2 cyc) ;; st8 [r17]=r25,PT(AR_RSC)-PT(AR_UNAT) // save ar.unat dep r19=0,r19,38,26 // clear all bits but 0..37 [I0] (p8) mov in0=-1 ;; st8 [r16]=r19,PT(AR_RNAT)-PT(CR_IFS) // store ar.pfs.pfm in cr.ifs extr.u r11=r19,7,7 // I0 // get sol of ar.pfs and r8=0x7f,r19 // A // get sof of ar.pfs st8 [r17]=r27,PT(AR_BSPSTORE)-PT(AR_RSC)// save ar.rsc tbit.nz p15,p0=r29,IA64_PSR_I_BIT // I0 (p9) mov in1=-1 ;; (pUStk) sub r18=r18,r22 // r18=RSE.ndirty*8 tnat.nz p10,p0=in2 add r11=8,r11 ;; (pKStk) adds r16=PT(PR)-PT(AR_RNAT),r16 // skip over ar_rnat field (pKStk) adds r17=PT(B0)-PT(AR_BSPSTORE),r17 // skip over ar_bspstore field tnat.nz p11,p0=in3 ;; (p10) mov in2=-1 tnat.nz p12,p0=in4 // [I0] (p11) mov in3=-1 ;; (pUStk) st8 [r16]=r24,PT(PR)-PT(AR_RNAT) // save ar.rnat (pUStk) st8 [r17]=r23,PT(B0)-PT(AR_BSPSTORE) // save ar.bspstore shl r18=r18,16 // compute ar.rsc to be used for "loadrs" ;; st8 [r16]=r31,PT(LOADRS)-PT(PR) // save predicates st8 [r17]=r28,PT(R1)-PT(B0) // save b0 tnat.nz p13,p0=in5 // [I0] ;; st8 [r16]=r18,PT(R12)-PT(LOADRS) // save ar.rsc value for "loadrs" st8.spill [r17]=r20,PT(R13)-PT(R1) // save original r1 (p12) mov in4=-1 ;; .mem.offset 0,0; st8.spill [r16]=r12,PT(AR_FPSR)-PT(R12) // save r12 .mem.offset 8,0; st8.spill [r17]=r13,PT(R15)-PT(R13) // save r13 (p13) mov in5=-1 ;; st8 [r16]=r21,PT(R8)-PT(AR_FPSR) // save ar.fpsr tnat.nz p13,p0=in6 cmp.lt p10,p9=r11,r8 // frame size can't be more than local+8 ;; mov r8=1 (p9) tnat.nz p10,p0=r15 adds r12=-16,r1 // switch to kernel memory stack (with 16 bytes of scratch) st8.spill [r17]=r15 // save r15 tnat.nz p8,p0=in7 nop.i 0 mov r13=r2 // establish `current' movl r1=__gp // establish kernel global pointer ;; st8 [r16]=r8 // ensure pt_regs.r8 != 0 (see handle_syscall_error) (p13) mov in6=-1 (p8) mov in7=-1 cmp.eq pSys,pNonSys=r0,r0 // set pSys=1, pNonSys=0 movl r17=FPSR_DEFAULT ;; mov.m ar.fpsr=r17 // set ar.fpsr to kernel default value (p10) mov r8=-EINVAL br.ret.sptk.many b7 END(ia64_syscall_setup) .org ia64_ivt+0x3c00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x3c00 Entry 15 (size 64 bundles) Reserved DBG_FAULT(15) FAULT(15) .org ia64_ivt+0x4000 ///////////////////////////////////////////////////////////////////////////////////////// // 0x4000 Entry 16 (size 64 bundles) Reserved DBG_FAULT(16) FAULT(16) #if defined(CONFIG_VIRT_CPU_ACCOUNTING_NATIVE) /* * There is no particular reason for this code to be here, other than * that there happens to be space here that would go unused otherwise. * If this fault ever gets "unreserved", simply moved the following * code to a more suitable spot... * * account_sys_enter is called from SAVE_MIN* macros if accounting is * enabled and if the macro is entered from user mode. */ GLOBAL_ENTRY(account_sys_enter) // mov.m r20=ar.itc is called in advance, and r13 is current add r16=TI_AC_STAMP+IA64_TASK_SIZE,r13 add r17=TI_AC_LEAVE+IA64_TASK_SIZE,r13 ;; ld8 r18=[r16],TI_AC_STIME-TI_AC_STAMP // time at last check in kernel ld8 r19=[r17],TI_AC_UTIME-TI_AC_LEAVE // time at left from kernel ;; ld8 r23=[r16],TI_AC_STAMP-TI_AC_STIME // cumulated stime ld8 r21=[r17] // cumulated utime sub r22=r19,r18 // stime before leave kernel ;; st8 [r16]=r20,TI_AC_STIME-TI_AC_STAMP // update stamp sub r18=r20,r19 // elapsed time in user mode ;; add r23=r23,r22 // sum stime add r21=r21,r18 // sum utime ;; st8 [r16]=r23 // update stime st8 [r17]=r21 // update utime ;; br.ret.sptk.many rp END(account_sys_enter) #endif .org ia64_ivt+0x4400 ///////////////////////////////////////////////////////////////////////////////////////// // 0x4400 Entry 17 (size 64 bundles) Reserved DBG_FAULT(17) FAULT(17) .org ia64_ivt+0x4800 ///////////////////////////////////////////////////////////////////////////////////////// // 0x4800 Entry 18 (size 64 bundles) Reserved DBG_FAULT(18) FAULT(18) .org ia64_ivt+0x4c00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x4c00 Entry 19 (size 64 bundles) Reserved DBG_FAULT(19) FAULT(19) // // --- End of long entries, Beginning of short entries // .org ia64_ivt+0x5000 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5000 Entry 20 (size 16 bundles) Page Not Present (10,22,49) ENTRY(page_not_present) DBG_FAULT(20) MOV_FROM_IFA(r16) RSM_PSR_DT /* * The Linux page fault handler doesn't expect non-present pages to be in * the TLB. Flush the existing entry now, so we meet that expectation. */ mov r17=PAGE_SHIFT<<2 ;; ptc.l r16,r17 ;; mov r31=pr srlz.d br.sptk.many page_fault END(page_not_present) .org ia64_ivt+0x5100 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5100 Entry 21 (size 16 bundles) Key Permission (13,25,52) ENTRY(key_permission) DBG_FAULT(21) MOV_FROM_IFA(r16) RSM_PSR_DT mov r31=pr ;; srlz.d br.sptk.many page_fault END(key_permission) .org ia64_ivt+0x5200 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5200 Entry 22 (size 16 bundles) Instruction Access Rights (26) ENTRY(iaccess_rights) DBG_FAULT(22) MOV_FROM_IFA(r16) RSM_PSR_DT mov r31=pr ;; srlz.d br.sptk.many page_fault END(iaccess_rights) .org ia64_ivt+0x5300 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5300 Entry 23 (size 16 bundles) Data Access Rights (14,53) ENTRY(daccess_rights) DBG_FAULT(23) MOV_FROM_IFA(r16) RSM_PSR_DT mov r31=pr ;; srlz.d br.sptk.many page_fault END(daccess_rights) .org ia64_ivt+0x5400 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5400 Entry 24 (size 16 bundles) General Exception (5,32,34,36,38,39) ENTRY(general_exception) DBG_FAULT(24) MOV_FROM_ISR(r16) mov r31=pr ;; cmp4.eq p6,p0=0,r16 (p6) br.sptk.many dispatch_illegal_op_fault ;; mov r19=24 // fault number br.sptk.many dispatch_to_fault_handler END(general_exception) .org ia64_ivt+0x5500 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5500 Entry 25 (size 16 bundles) Disabled FP-Register (35) ENTRY(disabled_fp_reg) DBG_FAULT(25) rsm psr.dfh // ensure we can access fph ;; srlz.d mov r31=pr mov r19=25 br.sptk.many dispatch_to_fault_handler END(disabled_fp_reg) .org ia64_ivt+0x5600 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5600 Entry 26 (size 16 bundles) Nat Consumption (11,23,37,50) ENTRY(nat_consumption) DBG_FAULT(26) MOV_FROM_IPSR(p0, r16) MOV_FROM_ISR(r17) mov r31=pr // save PR ;; and r18=0xf,r17 // r18 = cr.ipsr.code{3:0} tbit.z p6,p0=r17,IA64_ISR_NA_BIT ;; cmp.ne.or p6,p0=IA64_ISR_CODE_LFETCH,r18 dep r16=-1,r16,IA64_PSR_ED_BIT,1 (p6) br.cond.spnt 1f // branch if (cr.ispr.na == 0 || cr.ipsr.code{3:0} != LFETCH) ;; MOV_TO_IPSR(p0, r16, r18) mov pr=r31,-1 ;; RFI 1: mov pr=r31,-1 ;; FAULT(26) END(nat_consumption) .org ia64_ivt+0x5700 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5700 Entry 27 (size 16 bundles) Speculation (40) ENTRY(speculation_vector) DBG_FAULT(27) /* * A [f]chk.[as] instruction needs to take the branch to the recovery code but * this part of the architecture is not implemented in hardware on some CPUs, such * as Itanium. Thus, in general we need to emulate the behavior. IIM contains * the relative target (not yet sign extended). So after sign extending it we * simply add it to IIP. We also need to reset the EI field of the IPSR to zero, * i.e., the slot to restart into. * * cr.imm contains zero_ext(imm21) */ MOV_FROM_IIM(r18) ;; MOV_FROM_IIP(r17) shl r18=r18,43 // put sign bit in position (43=64-21) ;; MOV_FROM_IPSR(p0, r16) shr r18=r18,39 // sign extend (39=43-4) ;; add r17=r17,r18 // now add the offset ;; MOV_TO_IIP(r17, r19) dep r16=0,r16,41,2 // clear EI ;; MOV_TO_IPSR(p0, r16, r19) ;; RFI END(speculation_vector) .org ia64_ivt+0x5800 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5800 Entry 28 (size 16 bundles) Reserved DBG_FAULT(28) FAULT(28) .org ia64_ivt+0x5900 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5900 Entry 29 (size 16 bundles) Debug (16,28,56) ENTRY(debug_vector) DBG_FAULT(29) FAULT(29) END(debug_vector) .org ia64_ivt+0x5a00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5a00 Entry 30 (size 16 bundles) Unaligned Reference (57) ENTRY(unaligned_access) DBG_FAULT(30) mov r31=pr // prepare to save predicates ;; br.sptk.many dispatch_unaligned_handler END(unaligned_access) .org ia64_ivt+0x5b00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5b00 Entry 31 (size 16 bundles) Unsupported Data Reference (57) ENTRY(unsupported_data_reference) DBG_FAULT(31) FAULT(31) END(unsupported_data_reference) .org ia64_ivt+0x5c00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5c00 Entry 32 (size 16 bundles) Floating-Point Fault (64) ENTRY(floating_point_fault) DBG_FAULT(32) FAULT(32) END(floating_point_fault) .org ia64_ivt+0x5d00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5d00 Entry 33 (size 16 bundles) Floating Point Trap (66) ENTRY(floating_point_trap) DBG_FAULT(33) FAULT(33) END(floating_point_trap) .org ia64_ivt+0x5e00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5e00 Entry 34 (size 16 bundles) Lower Privilege Transfer Trap (66) ENTRY(lower_privilege_trap) DBG_FAULT(34) FAULT(34) END(lower_privilege_trap) .org ia64_ivt+0x5f00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x5f00 Entry 35 (size 16 bundles) Taken Branch Trap (68) ENTRY(taken_branch_trap) DBG_FAULT(35) FAULT(35) END(taken_branch_trap) .org ia64_ivt+0x6000 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6000 Entry 36 (size 16 bundles) Single Step Trap (69) ENTRY(single_step_trap) DBG_FAULT(36) FAULT(36) END(single_step_trap) .org ia64_ivt+0x6100 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6100 Entry 37 (size 16 bundles) Reserved DBG_FAULT(37) FAULT(37) .org ia64_ivt+0x6200 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6200 Entry 38 (size 16 bundles) Reserved DBG_FAULT(38) FAULT(38) .org ia64_ivt+0x6300 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6300 Entry 39 (size 16 bundles) Reserved DBG_FAULT(39) FAULT(39) .org ia64_ivt+0x6400 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6400 Entry 40 (size 16 bundles) Reserved DBG_FAULT(40) FAULT(40) .org ia64_ivt+0x6500 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6500 Entry 41 (size 16 bundles) Reserved DBG_FAULT(41) FAULT(41) .org ia64_ivt+0x6600 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6600 Entry 42 (size 16 bundles) Reserved DBG_FAULT(42) FAULT(42) .org ia64_ivt+0x6700 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6700 Entry 43 (size 16 bundles) Reserved DBG_FAULT(43) FAULT(43) .org ia64_ivt+0x6800 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6800 Entry 44 (size 16 bundles) Reserved DBG_FAULT(44) FAULT(44) .org ia64_ivt+0x6900 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6900 Entry 45 (size 16 bundles) IA-32 Exeception (17,18,29,41,42,43,44,58,60,61,62,72,73,75,76,77) ENTRY(ia32_exception) DBG_FAULT(45) FAULT(45) END(ia32_exception) .org ia64_ivt+0x6a00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6a00 Entry 46 (size 16 bundles) IA-32 Intercept (30,31,59,70,71) ENTRY(ia32_intercept) DBG_FAULT(46) FAULT(46) END(ia32_intercept) .org ia64_ivt+0x6b00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6b00 Entry 47 (size 16 bundles) IA-32 Interrupt (74) ENTRY(ia32_interrupt) DBG_FAULT(47) FAULT(47) END(ia32_interrupt) .org ia64_ivt+0x6c00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6c00 Entry 48 (size 16 bundles) Reserved DBG_FAULT(48) FAULT(48) .org ia64_ivt+0x6d00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6d00 Entry 49 (size 16 bundles) Reserved DBG_FAULT(49) FAULT(49) .org ia64_ivt+0x6e00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6e00 Entry 50 (size 16 bundles) Reserved DBG_FAULT(50) FAULT(50) .org ia64_ivt+0x6f00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x6f00 Entry 51 (size 16 bundles) Reserved DBG_FAULT(51) FAULT(51) .org ia64_ivt+0x7000 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7000 Entry 52 (size 16 bundles) Reserved DBG_FAULT(52) FAULT(52) .org ia64_ivt+0x7100 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7100 Entry 53 (size 16 bundles) Reserved DBG_FAULT(53) FAULT(53) .org ia64_ivt+0x7200 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7200 Entry 54 (size 16 bundles) Reserved DBG_FAULT(54) FAULT(54) .org ia64_ivt+0x7300 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7300 Entry 55 (size 16 bundles) Reserved DBG_FAULT(55) FAULT(55) .org ia64_ivt+0x7400 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7400 Entry 56 (size 16 bundles) Reserved DBG_FAULT(56) FAULT(56) .org ia64_ivt+0x7500 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7500 Entry 57 (size 16 bundles) Reserved DBG_FAULT(57) FAULT(57) .org ia64_ivt+0x7600 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7600 Entry 58 (size 16 bundles) Reserved DBG_FAULT(58) FAULT(58) .org ia64_ivt+0x7700 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7700 Entry 59 (size 16 bundles) Reserved DBG_FAULT(59) FAULT(59) .org ia64_ivt+0x7800 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7800 Entry 60 (size 16 bundles) Reserved DBG_FAULT(60) FAULT(60) .org ia64_ivt+0x7900 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7900 Entry 61 (size 16 bundles) Reserved DBG_FAULT(61) FAULT(61) .org ia64_ivt+0x7a00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7a00 Entry 62 (size 16 bundles) Reserved DBG_FAULT(62) FAULT(62) .org ia64_ivt+0x7b00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7b00 Entry 63 (size 16 bundles) Reserved DBG_FAULT(63) FAULT(63) .org ia64_ivt+0x7c00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7c00 Entry 64 (size 16 bundles) Reserved DBG_FAULT(64) FAULT(64) .org ia64_ivt+0x7d00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7d00 Entry 65 (size 16 bundles) Reserved DBG_FAULT(65) FAULT(65) .org ia64_ivt+0x7e00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7e00 Entry 66 (size 16 bundles) Reserved DBG_FAULT(66) FAULT(66) .org ia64_ivt+0x7f00 ///////////////////////////////////////////////////////////////////////////////////////// // 0x7f00 Entry 67 (size 16 bundles) Reserved DBG_FAULT(67) FAULT(67) //----------------------------------------------------------------------------------- // call do_page_fault (predicates are in r31, psr.dt may be off, r16 is faulting address) ENTRY(page_fault) SSM_PSR_DT_AND_SRLZ_I ;; SAVE_MIN_WITH_COVER alloc r15=ar.pfs,0,0,3,0 MOV_FROM_IFA(out0) MOV_FROM_ISR(out1) SSM_PSR_IC_AND_DEFAULT_BITS_AND_SRLZ_I(r14, r3) adds r3=8,r2 // set up second base pointer SSM_PSR_I(p15, p15, r14) // restore psr.i movl r14=ia64_leave_kernel ;; SAVE_REST mov rp=r14 ;; adds out2=16,r12 // out2 = pointer to pt_regs br.call.sptk.many b6=ia64_do_page_fault // ignore return address END(page_fault) ENTRY(non_syscall) mov ar.rsc=r27 // restore ar.rsc before SAVE_MIN_WITH_COVER ;; SAVE_MIN_WITH_COVER // There is no particular reason for this code to be here, other than that // there happens to be space here that would go unused otherwise. If this // fault ever gets "unreserved", simply moved the following code to a more // suitable spot... alloc r14=ar.pfs,0,0,2,0 MOV_FROM_IIM(out0) add out1=16,sp adds r3=8,r2 // set up second base pointer for SAVE_REST SSM_PSR_IC_AND_DEFAULT_BITS_AND_SRLZ_I(r15, r24) // guarantee that interruption collection is on SSM_PSR_I(p15, p15, r15) // restore psr.i movl r15=ia64_leave_kernel ;; SAVE_REST mov rp=r15 ;; br.call.sptk.many b6=ia64_bad_break // avoid WAW on CFM and ignore return addr END(non_syscall) ENTRY(__interrupt) DBG_FAULT(12) mov r31=pr // prepare to save predicates ;; SAVE_MIN_WITH_COVER // uses r31; defines r2 and r3 SSM_PSR_IC_AND_DEFAULT_BITS_AND_SRLZ_I(r3, r14) // ensure everybody knows psr.ic is back on adds r3=8,r2 // set up second base pointer for SAVE_REST ;; SAVE_REST ;; MCA_RECOVER_RANGE(interrupt) alloc r14=ar.pfs,0,0,2,0 // must be first in an insn group MOV_FROM_IVR(out0, r8) // pass cr.ivr as first arg add out1=16,sp // pass pointer to pt_regs as second arg ;; srlz.d // make sure we see the effect of cr.ivr movl r14=ia64_leave_kernel ;; mov rp=r14 br.call.sptk.many b6=ia64_handle_irq END(__interrupt) /* * There is no particular reason for this code to be here, other than that * there happens to be space here that would go unused otherwise. If this * fault ever gets "unreserved", simply moved the following code to a more * suitable spot... */ ENTRY(dispatch_unaligned_handler) SAVE_MIN_WITH_COVER ;; alloc r14=ar.pfs,0,0,2,0 // now it's safe (must be first in insn group!) MOV_FROM_IFA(out0) adds out1=16,sp SSM_PSR_IC_AND_DEFAULT_BITS_AND_SRLZ_I(r3, r24) // guarantee that interruption collection is on SSM_PSR_I(p15, p15, r3) // restore psr.i adds r3=8,r2 // set up second base pointer ;; SAVE_REST movl r14=ia64_leave_kernel ;; mov rp=r14 br.sptk.many ia64_prepare_handle_unaligned END(dispatch_unaligned_handler) /* * There is no particular reason for this code to be here, other than that * there happens to be space here that would go unused otherwise. If this * fault ever gets "unreserved", simply moved the following code to a more * suitable spot... */ ENTRY(dispatch_to_fault_handler) /* * Input: * psr.ic: off * r19: fault vector number (e.g., 24 for General Exception) * r31: contains saved predicates (pr) */ SAVE_MIN_WITH_COVER_R19 alloc r14=ar.pfs,0,0,5,0 MOV_FROM_ISR(out1) MOV_FROM_IFA(out2) MOV_FROM_IIM(out3) MOV_FROM_ITIR(out4) ;; SSM_PSR_IC_AND_DEFAULT_BITS_AND_SRLZ_I(r3, out0) // guarantee that interruption collection is on mov out0=r15 ;; SSM_PSR_I(p15, p15, r3) // restore psr.i adds r3=8,r2 // set up second base pointer for SAVE_REST ;; SAVE_REST movl r14=ia64_leave_kernel ;; mov rp=r14 br.call.sptk.many b6=ia64_fault END(dispatch_to_fault_handler) /* * Squatting in this space ... * * This special case dispatcher for illegal operation faults allows preserved * registers to be modified through a callback function (asm only) that is handed * back from the fault handler in r8. Up to three arguments can be passed to the * callback function by returning an aggregate with the callback as its first * element, followed by the arguments. */ ENTRY(dispatch_illegal_op_fault) .prologue .body SAVE_MIN_WITH_COVER SSM_PSR_IC_AND_DEFAULT_BITS_AND_SRLZ_I(r3, r24) // guarantee that interruption collection is on ;; SSM_PSR_I(p15, p15, r3) // restore psr.i adds r3=8,r2 // set up second base pointer for SAVE_REST ;; alloc r14=ar.pfs,0,0,1,0 // must be first in insn group mov out0=ar.ec ;; SAVE_REST PT_REGS_UNWIND_INFO(0) ;; br.call.sptk.many rp=ia64_illegal_op_fault .ret0: ;; alloc r14=ar.pfs,0,0,3,0 // must be first in insn group mov out0=r9 mov out1=r10 mov out2=r11 movl r15=ia64_leave_kernel ;; mov rp=r15 mov b6=r8 ;; cmp.ne p6,p0=0,r8 (p6) br.call.dpnt.many b6=b6 // call returns to ia64_leave_kernel br.sptk.many ia64_leave_kernel END(dispatch_illegal_op_fault) |