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/*
 * arch/ia64/xen/ivt.S
 *
 * Copyright (C) 2005 Hewlett-Packard Co
 *	Dan Magenheimer <dan.magenheimer@hp.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/config.h>

#include <asm/asmmacro.h>
#include <asm/break.h>
#include <asm/ia32.h>
#include <asm/kregs.h>
#include <asm/asm-offsets.h>
#include <asm/pgtable.h>
#include <asm/processor.h>
#include <asm/ptrace.h>
#include <asm/system.h>
#include <asm/thread_info.h>
#include <asm/unistd.h>
#include <asm/errno.h>

#ifdef CONFIG_XEN
#define ia64_ivt xen_ivt
#endif

#if 1
# 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

#define MINSTATE_VIRT	/* needed by minstate.h */
#include "xenminstate.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
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 both L1 and L2 have valid mappings for the faulting address.
	 * The TLB entry for the original miss gets inserted only if
	 * the L3 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 L1, L2, or L3 mapping
	 */
#ifdef CONFIG_XEN
	movl r16=XSI_IFA
	;;
	ld8 r16=[r16]
#ifdef CONFIG_HUGETLB_PAGE
	movl r18=PAGE_SHIFT
	movl r25=XSI_ITIR
	;;
	ld8 r25=[r25]
#endif
	;;
#else
	mov r16=cr.ifa				// get address that caused the TLB miss
#ifdef CONFIG_HUGETLB_PAGE
	movl r18=PAGE_SHIFT
	mov r25=cr.itir
#endif
#endif
	;;
#ifdef CONFIG_XEN
	XEN_HYPER_RSM_PSR_DT;
#else
	rsm psr.dt				// use physical addressing for data
#endif
	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 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 bits 33-63 of the faulting address
	;;
(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=PTA + IFA(33,42)*8
(p7)	dep r17=r18,r17,3,(PAGE_SHIFT-6)	// r17=PTA + (((IFA(61,63) << 7) | IFA(33,39))*8)
	cmp.eq p7,p6=0,r21			// unused address bits all zeroes?
	shr.u r18=r22,PMD_SHIFT			// shift L2 index into position
	;;
	ld8 r17=[r17]				// fetch the L1 entry (may be 0)
	;;
(p7)	cmp.eq p6,p7=r17,r0			// was L1 entry NULL?
	dep r17=r18,r17,3,(PAGE_SHIFT-3)	// compute address of L2 page table entry
	;;
(p7)	ld8 r20=[r17]				// fetch the L2 entry (may be 0)
	shr.u r19=r22,PAGE_SHIFT		// shift L3 index into position
	;;
(p7)	cmp.eq.or.andcm p6,p7=r20,r0		// was L2 entry NULL?
	dep r21=r19,r20,3,(PAGE_SHIFT-3)	// compute address of L3 page table entry
	;;
#ifdef CONFIG_XEN
(p7)	ld8 r18=[r21]				// read the L3 PTE
	movl r19=XSI_ISR
	;;
	ld8 r19=[r19]
	;;
(p7)	tbit.z p6,p7=r18,_PAGE_P_BIT		// page present bit cleared?
	movl r22=XSI_IHA
	;;
	ld8 r22=[r22]
	;;
#else
(p7)	ld8 r18=[r21]				// read the L3 PTE
	mov r19=cr.isr				// cr.isr bit 0 tells us if this is an insn miss
	;;
(p7)	tbit.z p6,p7=r18,_PAGE_P_BIT		// page present bit cleared?
	mov r22=cr.iha				// get the VHPT address that caused the TLB miss
	;;					// avoid RAW on p7
#endif
(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
	;;
#ifdef CONFIG_XEN
	mov r24=r8
	mov r8=r18
	;;
(p10)	XEN_HYPER_ITC_D
	;;
(p11)	XEN_HYPER_ITC_I
	;;
	mov r8=r24
	;;
(p6)	br.cond.spnt.many page_fault		// handle bad address/page not present (page fault)
	;;
	movl r24=XSI_IFA
	;;
	st8 [r24]=r22
	;;
#else
(p10)	itc.i r18				// insert the instruction TLB entry
(p11)	itc.d r18				// insert the data TLB entry
(p6)	br.cond.spnt.many page_fault		// handle bad address/page not present (page fault)
	mov cr.ifa=r22
#endif

#ifdef CONFIG_HUGETLB_PAGE
(p8)	mov cr.itir=r25				// 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
	;;
#ifdef CONFIG_XEN
(p7)	mov r25=r8
(p7)	mov r8=r24
	;;
(p7)	XEN_HYPER_ITC_D
	;;
(p7)	mov r8=r25
	;;
#else
(p7)	itc.d r24
#endif
	;;
#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 L2 and L3 pagetable.  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.
	 */
	ld8 r25=[r21]				// read L3 PTE again
	ld8 r26=[r17]				// read L2 entry again
	;;
	cmp.ne p6,p7=r26,r20			// did L2 entry change
	mov r27=PAGE_SHIFT<<2
	;;
(p6)	ptc.l r22,r27				// purge PTE page translation
(p7)	cmp.ne.or.andcm p6,p7=r25,r18		// did L3 PTE change
	;;
(p6)	ptc.l r16,r27				// purge translation
#endif

	mov pr=r31,-1				// restore predicate registers
#ifdef CONFIG_XEN
	XEN_HYPER_RFI;
#else
	rfi
#endif
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 L3 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 L3 PTE read
	 * and go on normally after that.
	 */
#ifdef CONFIG_XEN
	movl r16=XSI_IFA
	;;
	ld8 r16=[r16]
#else
	mov r16=cr.ifa				// get virtual address
#endif
	mov r29=b0				// save b0
	mov r31=pr				// save predicates
.itlb_fault:
#ifdef CONFIG_XEN
	movl r17=XSI_IHA
	;;
	ld8 r17=[r17]				// get virtual address of L3 PTE
#else
	mov r17=cr.iha				// get virtual address of L3 PTE
#endif
	movl r30=1f				// load nested fault continuation point
	;;
1:	ld8 r18=[r17]				// read L3 PTE
	;;
	mov b0=r29
	tbit.z p6,p0=r18,_PAGE_P_BIT		// page present bit cleared?
(p6)	br.cond.spnt page_fault
	;;
#ifdef CONFIG_XEN
	mov r19=r8
	mov r8=r18
	;;
	XEN_HYPER_ITC_I
	;;
	mov r8=r19
#else
	itc.i r18
#endif
	;;
#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 L3 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
#ifdef CONFIG_XEN
	XEN_HYPER_RFI;
#else
	rfi
#endif
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 L3 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 L3 PTE read
	 * and go on normally after that.
	 */
#ifdef CONFIG_XEN
	movl r16=XSI_IFA
	;;
	ld8 r16=[r16]
#else
	mov r16=cr.ifa				// get virtual address
#endif
	mov r29=b0				// save b0
	mov r31=pr				// save predicates
dtlb_fault:
#ifdef CONFIG_XEN
	movl r17=XSI_IHA
	;;
	ld8 r17=[r17]				// get virtual address of L3 PTE
#else
	mov r17=cr.iha				// get virtual address of L3 PTE
#endif
	movl r30=1f				// load nested fault continuation point
	;;
1:	ld8 r18=[r17]				// read L3 PTE
	;;
	mov b0=r29
	tbit.z p6,p0=r18,_PAGE_P_BIT		// page present bit cleared?
(p6)	br.cond.spnt page_fault
	;;
#ifdef CONFIG_XEN
	mov r19=r8
	mov r8=r18
	;;
	XEN_HYPER_ITC_D
	;;
	mov r8=r19
	;;
#else
	itc.d r18
#endif
	;;
#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 L3 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
#ifdef CONFIG_XEN
	XEN_HYPER_RFI;
#else
	rfi
#endif
END(dtlb_miss)

	.org ia64_ivt+0x0c00
/////////////////////////////////////////////////////////////////////////////////////////
// 0x0c00 Entry 3 (size 64 bundles) Alt ITLB (19)
ENTRY(alt_itlb_miss)
	DBG_FAULT(3)
#ifdef CONFIG_XEN
	movl r31=XSI_IPSR
	;;
	ld8 r21=[r31],XSI_IFA-XSI_IPSR	// get ipsr, point to ifa
	movl r17=PAGE_KERNEL
	;;
	movl r19=(((1 << IA64_MAX_PHYS_BITS) - 1) & ~0xfff)
	;;
	ld8 r16=[r31]		// get ifa
	mov r31=pr
	;;
#else
	mov r16=cr.ifa		// get address that caused the TLB miss
	movl r17=PAGE_KERNEL
	mov r21=cr.ipsr
	movl r19=(((1 << IA64_MAX_PHYS_BITS) - 1) & ~0xfff)
	mov r31=pr
	;;
#endif
#ifdef CONFIG_DISABLE_VHPT
	shr.u r22=r16,61			// get the region number into r21
	;;
	cmp.gt p8,p0=6,r22			// user mode
	;;
#ifndef CONFIG_XEN
(p8)	thash r17=r16
	;;
(p8)	mov cr.iha=r17
#endif
(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
	;;
#ifdef CONFIG_XEN
	mov r18=r8
	mov r8=r19
	;;
	XEN_HYPER_ITC_I
	;;
	mov r8=r18
	;;
	mov pr=r31,-1
	;;
	XEN_HYPER_RFI;
#else
	itc.i r19		// insert the TLB entry
	mov pr=r31,-1
	rfi
#endif
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)
#ifdef CONFIG_XEN
	movl r31=XSI_IPSR
	;;
	ld8 r21=[r31],XSI_ISR-XSI_IPSR	// get ipsr, point to isr
	movl r17=PAGE_KERNEL
	;;
	ld8 r20=[r31],XSI_IFA-XSI_ISR	// get isr, point to ifa
	movl r19=(((1 << IA64_MAX_PHYS_BITS) - 1) & ~0xfff)
	;;
	ld8 r16=[r31]		// get ifa
	mov r31=pr
	;;
#else
	mov r16=cr.ifa		// get address that caused the TLB miss
	movl r17=PAGE_KERNEL
	mov r20=cr.isr
	movl r19=(((1 << IA64_MAX_PHYS_BITS) - 1) & ~0xfff)
	mov r21=cr.ipsr
	mov r31=pr
	;;
#endif
#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
	;;
#ifndef CONFIG_XEN
(p8)	thash r17=r16
	;;
(p8)	mov cr.iha=r17
#endif
(p8)	mov r29=b0				// save b0
(p8)	br.cond.dptk dtlb_fault
#endif
	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?
	shr.u r18=r16,57			// move address bit 61 to bit 4
	and r19=r19,r16				// clear ed, reserved bits, and PTE control bits
	tbit.nz p9,p0=r20,IA64_ISR_NA_BIT	// is non-access bit on?
	;;
	andcm r18=0x10,r18	// bit 4=~address-bit(61)
	cmp.ne p8,p0=r0,r23
(p9)	cmp.eq.or.andcm p6,p7=IA64_ISR_CODE_LFETCH,r22	// check isr.code field
(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
	;;
	or r19=r19,r18		// set bit 4 (uncached) if the access was to region 6
(p6)	mov cr.ipsr=r21
	;;
#ifdef CONFIG_XEN
(p7)	mov r18=r8
(p7)	mov r8=r19
	;;
(p7)	XEN_HYPER_ITC_D
	;;
(p7)	mov r8=r18
	;;
	mov pr=r31,-1
	;;
	XEN_HYPER_RFI;
#else
(p7)	itc.d r19		// insert the TLB entry
	mov pr=r31,-1
	rfi
#endif
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 L3 PTE of faulting address
	 *		r29:	saved b0
	 *		r30:	continuation address
	 *		r31:	saved pr
	 *
	 * Clobbered:	b0, r18, r19, r21, psr.dt (cleared)
	 */
#ifdef CONFIG_XEN
	XEN_HYPER_RSM_PSR_DT;
#else
	rsm psr.dt				// switch to using physical data addressing
#endif
	mov r19=IA64_KR(PT_BASE)		// get the 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
	;;
	cmp.eq p6,p7=5,r17			// is faulting address in region 5?
	shr.u r18=r16,PGDIR_SHIFT		// get bits 33-63 of faulting address
	;;
(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=PTA + IFA(33,42)*8
(p7)	dep r17=r18,r17,3,(PAGE_SHIFT-6)	// r17=PTA + (((IFA(61,63) << 7) | IFA(33,39))*8)
	cmp.eq p7,p6=0,r21			// unused address bits all zeroes?
	shr.u r18=r16,PMD_SHIFT			// shift L2 index into position
	;;
	ld8 r17=[r17]				// fetch the L1 entry (may be 0)
	;;
(p7)	cmp.eq p6,p7=r17,r0			// was L1 entry NULL?
	dep r17=r18,r17,3,(PAGE_SHIFT-3)	// compute address of L2 page table entry
	;;
(p7)	ld8 r17=[r17]				// fetch the L2 entry (may be 0)
	shr.u r19=r16,PAGE_SHIFT		// shift L3 index into position
	;;
(p7)	cmp.eq.or.andcm p6,p7=r17,r0		// was L2 entry NULL?
	dep r17=r19,r17,3,(PAGE_SHIFT-3)	// compute address of L3 page table entry
(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)

	//-----------------------------------------------------------------------------------
	// call do_page_fault (predicates are in r31, psr.dt may be off, r16 is faulting address)
ENTRY(page_fault)
#ifdef CONFIG_XEN
	XEN_HYPER_SSM_PSR_DT;
#else
	ssm psr.dt
	;;
	srlz.i
#endif
	;;
	SAVE_MIN_WITH_COVER
	alloc r15=ar.pfs,0,0,3,0
#ifdef CONFIG_XEN
	movl r3=XSI_ISR
	;;
	ld8 out1=[r3],XSI_IFA-XSI_ISR		// get vcr.isr, point to ifa
	;;
	ld8 out0=[r3]				// get vcr.ifa
	mov r14=1
	;;
	add r3=XSI_PSR_IC-XSI_IFA, r3		// point to vpsr.ic
	;;
	st4 [r3]=r14				// vpsr.ic = 1
	adds r3=8,r2				// set up second base pointer
	;;
#else
	mov out0=cr.ifa
	mov out1=cr.isr
	adds r3=8,r2				// set up second base pointer
	;;
	ssm psr.ic | PSR_DEFAULT_BITS
	;;
	srlz.i					// guarantee that interruption collectin is on
	;;
#endif
#ifdef CONFIG_XEN
	br.cond.sptk.many	xen_page_fault
	;;
done_xen_page_fault:
#endif
(p15)	ssm psr.i				// 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)

	.org ia64_ivt+0x1c00
/////////////////////////////////////////////////////////////////////////////////////////
// 0x1c00 Entry 7 (size 64 bundles) Data Key Miss (12,51)
ENTRY(dkey_miss)
	DBG_FAULT(7)
	FAULT(7)
#ifdef CONFIG_XEN
	// Leaving this code inline above results in an IVT section overflow
	// There is no particular reason for this code to be here...
xen_page_fault:
(p15)	movl r3=XSI_PSR_I
	;;
(p15)	st4 [r3]=r14,XSI_PEND-XSI_PSR_I		// if (p15) vpsr.i = 1
	mov r14=r0
	;;
(p15)	ld4 r14=[r3]				// if (pending_interrupts)
	adds r3=8,r2				// re-set up second base pointer
	;;
(p15)	cmp.ne	p15,p0=r14,r0
	;;
	br.cond.sptk.many done_xen_page_fault
	;;
#endif
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.
	 */
#ifdef CONFIG_XEN
	movl r16=XSI_IFA
	;;
	ld8 r16=[r16]
	;;
#else
	mov r16=cr.ifa				// get the address that caused the fault
#endif
	movl r30=1f				// load continuation point in case of nested fault
	;;
#ifdef CONFIG_XEN
#if 1
	mov r18=r8;
	mov r8=r16;
	XEN_HYPER_THASH;;
	mov r17=r8;
	mov r8=r18;;
#else
	tak r17=r80				// "privified" thash
#endif
#else
	thash r17=r16				// compute virtual address of L3 PTE
#endif
	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
	;;
	cmpxchg8.acq r26=[r17],r25,ar.ccv
	mov r24=PAGE_SHIFT<<2
	;;
	cmp.eq p6,p7=r26,r18
	;;
(p6)	itc.d r25				// 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 r18				// install updated PTE
#endif
	mov pr=r31,-1				// restore pr
#ifdef CONFIG_XEN
	XEN_HYPER_RFI;
#else
	rfi
#endif
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
#ifdef CONFIG_XEN
	movl r16=XSI_IFA
	;;
	ld8 r16=[r16]
	;;
#else
	mov r16=cr.ifa				// get the address that caused the fault
#endif
	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 r17=cr.ipsr
	;;
	mov r18=cr.iip
	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 */
	;;
#ifdef CONFIG_XEN
#if 1
	mov r18=r8;
	mov r8=r16;
	XEN_HYPER_THASH;;
	mov r17=r8;
	mov r8=r18;;
#else
	tak r17=r80				// "privified" thash
#endif
#else
	thash r17=r16				// compute virtual address of L3 PTE
#endif
	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
	;;
	cmpxchg8.acq r26=[r17],r25,ar.ccv
	mov r24=PAGE_SHIFT<<2
	;;
	cmp.eq p6,p7=r26,r18
	;;
#ifdef CONFIG_XEN
	mov r26=r8
	mov r8=r25
	;;
(p6)	XEN_HYPER_ITC_I
	;;
	mov r8=r26
	;;
#else
(p6)	itc.i r25				// install updated PTE
#endif
	;;
	/*
	 * 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 r18				// install updated PTE
#endif /* !CONFIG_SMP */
	mov pr=r31,-1
#ifdef CONFIG_XEN
	XEN_HYPER_RFI;
#else
	rfi
#endif
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
#ifdef CONFIG_XEN
	movl r16=XSI_IFA
	;;
	ld8 r16=[r16]
	;;
#else
	mov r16=cr.ifa				// get the address that caused the fault
#endif
	movl r30=1f				// load continuation point in case of nested fault
	;;
#ifdef CONFIG_XEN
#if 1
	mov r18=r8;
	mov r8=r16;
	XEN_HYPER_THASH;;
	mov r17=r8;
	mov r8=r18;;
#else
	tak r17=r80				// "privified" thash
#endif
#else
	thash r17=r16				// compute virtual address of L3 PTE
#endif
	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
	;;
	cmpxchg8.acq r26=[r17],r25,ar.ccv
	mov r24=PAGE_SHIFT<<2
	;;
	cmp.eq p6,p7=r26,r18
	;;
#ifdef CONFIG_XEN
	mov r26=r8
	mov r8=r25
	;;
(p6)	XEN_HYPER_ITC_D
	;;
	mov r8=r26
	;;
#else
(p6)	itc.d r25				// install updated PTE
#endif
	/*
	 * 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 r18				// install updated PTE
#endif
	mov b0=r29				// restore b0
	mov pr=r31,-1
#ifdef CONFIG_XEN
	XEN_HYPER_RFI;
#else
	rfi
#endif
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 r16=IA64_KR(CURRENT)		// r16 = current task; 12 cycle read lat.
#ifdef CONFIG_XEN
	movl r31=XSI_IPSR
	;;
	ld8 r29=[r31],XSI_IIP-XSI_IPSR		// get ipsr, point to iip
	mov r18=__IA64_BREAK_SYSCALL
	mov r21=ar.fpsr
	;;
	ld8 r28=[r31],XSI_IIM-XSI_IIP		// get iip, point to iim
	mov r19=b6
	mov r25=ar.unat
	;;
	ld8 r17=[r31]				// get iim
	mov r27=ar.rsc
	mov r26=ar.pfs
	;;
#else
	mov r17=cr.iim
	mov r18=__IA64_BREAK_SYSCALL
	mov r21=ar.fpsr
	mov r29=cr.ipsr
	mov r19=b6
	mov r25=ar.unat
	mov r27=ar.rsc
	mov r26=ar.pfs
	mov r28=cr.iip
#endif
	mov r31=pr				// prepare to save predicates
	mov r20=r1
	;;
	adds r16=IA64_TASK_THREAD_ON_USTACK_OFFSET,r16
	cmp.eq p0,p7=r18,r17			// is this a system call? (p7 <- false, if so)
(p7)	br.cond.spnt non_syscall
	;;
	ld1 r17=[r16]				// load current->thread.on_ustack flag
	st1 [r16]=r0				// clear current->thread.on_ustack flag
	add r1=-IA64_TASK_THREAD_ON_USTACK_OFFSET,r16	// set r1 for MINSTATE_START_SAVE_MIN_VIRT
	;;
	invala

	/* adjust return address so we skip over the break instruction: */

	extr.u r8=r29,41,2			// extract ei field from cr.ipsr
	;;
	cmp.eq p6,p7=2,r8			// isr.ei==2?
	mov r2=r1				// setup r2 for ia64_syscall_setup
	;;
(p6)	mov r8=0				// clear ei to 0
(p6)	adds r28=16,r28				// switch cr.iip to next bundle cr.ipsr.ei wrapped
(p7)	adds r8=1,r8				// increment ei to next slot
	;;
	cmp.eq pKStk,pUStk=r0,r17		// are we in kernel mode already?
	dep r29=r8,r29,41,2			// insert new ei into cr.ipsr
	;;

	// switch from user to kernel RBS:
	MINSTATE_START_SAVE_MIN_VIRT
	br.call.sptk.many b7=ia64_syscall_setup
	;;
#ifdef CONFIG_XEN
	mov r2=b0; br.call.sptk b0=xen_bsw1;; mov b0=r2;;
#else
	MINSTATE_END_SAVE_MIN_VIRT		// switch to bank 1


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