entry.S 46.2 KB
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/*
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 * arch/ia64/kernel/entry.S
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 *
 * Kernel entry points.
 *
 * Copyright (C) 1998-2003, 2005 Hewlett-Packard Co
 *	David Mosberger-Tang <davidm@hpl.hp.com>
 * Copyright (C) 1999, 2002-2003
 *	Asit Mallick <Asit.K.Mallick@intel.com>
 * 	Don Dugger <Don.Dugger@intel.com>
 *	Suresh Siddha <suresh.b.siddha@intel.com>
 *	Fenghua Yu <fenghua.yu@intel.com>
 * Copyright (C) 1999 VA Linux Systems
 * Copyright (C) 1999 Walt Drummond <drummond@valinux.com>
 */
/*
 * ia64_switch_to now places correct virtual mapping in in TR2 for
 * kernel stack. This allows us to handle interrupts without changing
 * to physical mode.
 *
 * Jonathan Nicklin	<nicklin@missioncriticallinux.com>
 * Patrick O'Rourke	<orourke@missioncriticallinux.com>
 * 11/07/2000
 */
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/*
 * Copyright (c) 2008 Isaku Yamahata <yamahata at valinux co jp>
 *                    VA Linux Systems Japan K.K.
 *                    pv_ops.
 */
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/*
 * Global (preserved) predicate usage on syscall entry/exit path:
 *
 *	pKStk:		See entry.h.
 *	pUStk:		See entry.h.
 *	pSys:		See entry.h.
 *	pNonSys:	!pSys
 */


#include <asm/asmmacro.h>
#include <asm/cache.h>
#include <asm/errno.h>
#include <asm/kregs.h>
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#include <asm/asm-offsets.h>
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#include <asm/pgtable.h>
#include <asm/percpu.h>
#include <asm/processor.h>
#include <asm/thread_info.h>
#include <asm/unistd.h>

#include "minstate.h"

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#ifdef __IA64_ASM_PARAVIRTUALIZED_NATIVE
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	/*
	 * execve() is special because in case of success, we need to
	 * setup a null register window frame.
	 */
ENTRY(ia64_execve)
	/*
	 * Allocate 8 input registers since ptrace() may clobber them
	 */
	.prologue ASM_UNW_PRLG_RP|ASM_UNW_PRLG_PFS, ASM_UNW_PRLG_GRSAVE(8)
	alloc loc1=ar.pfs,8,2,4,0
	mov loc0=rp
	.body
	mov out0=in0			// filename
	;;				// stop bit between alloc and call
	mov out1=in1			// argv
	mov out2=in2			// envp
	add out3=16,sp			// regs
	br.call.sptk.many rp=sys_execve
.ret0:
#ifdef CONFIG_IA32_SUPPORT
	/*
	 * Check if we're returning to ia32 mode. If so, we need to restore ia32 registers
	 * from pt_regs.
	 */
	adds r16=PT(CR_IPSR)+16,sp
	;;
	ld8 r16=[r16]
#endif
	cmp4.ge p6,p7=r8,r0
	mov ar.pfs=loc1			// restore ar.pfs
	sxt4 r8=r8			// return 64-bit result
	;;
	stf.spill [sp]=f0
(p6)	cmp.ne pKStk,pUStk=r0,r0	// a successful execve() lands us in user-mode...
	mov rp=loc0
(p6)	mov ar.pfs=r0			// clear ar.pfs on success
(p7)	br.ret.sptk.many rp

	/*
	 * In theory, we'd have to zap this state only to prevent leaking of
	 * security sensitive state (e.g., if current->mm->dumpable is zero).  However,
	 * this executes in less than 20 cycles even on Itanium, so it's not worth
	 * optimizing for...).
	 */
	mov ar.unat=0; 		mov ar.lc=0
	mov r4=0;		mov f2=f0;		mov b1=r0
	mov r5=0;		mov f3=f0;		mov b2=r0
	mov r6=0;		mov f4=f0;		mov b3=r0
	mov r7=0;		mov f5=f0;		mov b4=r0
	ldf.fill f12=[sp];	mov f13=f0;		mov b5=r0
	ldf.fill f14=[sp];	ldf.fill f15=[sp];	mov f16=f0
	ldf.fill f17=[sp];	ldf.fill f18=[sp];	mov f19=f0
	ldf.fill f20=[sp];	ldf.fill f21=[sp];	mov f22=f0
	ldf.fill f23=[sp];	ldf.fill f24=[sp];	mov f25=f0
	ldf.fill f26=[sp];	ldf.fill f27=[sp];	mov f28=f0
	ldf.fill f29=[sp];	ldf.fill f30=[sp];	mov f31=f0
#ifdef CONFIG_IA32_SUPPORT
	tbit.nz p6,p0=r16, IA64_PSR_IS_BIT
	movl loc0=ia64_ret_from_ia32_execve
	;;
(p6)	mov rp=loc0
#endif
	br.ret.sptk.many rp
END(ia64_execve)

/*
 * sys_clone2(u64 flags, u64 ustack_base, u64 ustack_size, u64 parent_tidptr, u64 child_tidptr,
 *	      u64 tls)
 */
GLOBAL_ENTRY(sys_clone2)
	/*
	 * Allocate 8 input registers since ptrace() may clobber them
	 */
	.prologue ASM_UNW_PRLG_RP|ASM_UNW_PRLG_PFS, ASM_UNW_PRLG_GRSAVE(8)
	alloc r16=ar.pfs,8,2,6,0
	DO_SAVE_SWITCH_STACK
	adds r2=PT(R16)+IA64_SWITCH_STACK_SIZE+16,sp
	mov loc0=rp
	mov loc1=r16				// save ar.pfs across do_fork
	.body
	mov out1=in1
	mov out3=in2
	tbit.nz p6,p0=in0,CLONE_SETTLS_BIT
	mov out4=in3	// parent_tidptr: valid only w/CLONE_PARENT_SETTID
	;;
(p6)	st8 [r2]=in5				// store TLS in r16 for copy_thread()
	mov out5=in4	// child_tidptr:  valid only w/CLONE_CHILD_SETTID or CLONE_CHILD_CLEARTID
	adds out2=IA64_SWITCH_STACK_SIZE+16,sp	// out2 = &regs
	mov out0=in0				// out0 = clone_flags
	br.call.sptk.many rp=do_fork
.ret1:	.restore sp
	adds sp=IA64_SWITCH_STACK_SIZE,sp	// pop the switch stack
	mov ar.pfs=loc1
	mov rp=loc0
	br.ret.sptk.many rp
END(sys_clone2)

/*
 * sys_clone(u64 flags, u64 ustack_base, u64 parent_tidptr, u64 child_tidptr, u64 tls)
 *	Deprecated.  Use sys_clone2() instead.
 */
GLOBAL_ENTRY(sys_clone)
	/*
	 * Allocate 8 input registers since ptrace() may clobber them
	 */
	.prologue ASM_UNW_PRLG_RP|ASM_UNW_PRLG_PFS, ASM_UNW_PRLG_GRSAVE(8)
	alloc r16=ar.pfs,8,2,6,0
	DO_SAVE_SWITCH_STACK
	adds r2=PT(R16)+IA64_SWITCH_STACK_SIZE+16,sp
	mov loc0=rp
	mov loc1=r16				// save ar.pfs across do_fork
	.body
	mov out1=in1
	mov out3=16				// stacksize (compensates for 16-byte scratch area)
	tbit.nz p6,p0=in0,CLONE_SETTLS_BIT
	mov out4=in2	// parent_tidptr: valid only w/CLONE_PARENT_SETTID
	;;
(p6)	st8 [r2]=in4				// store TLS in r13 (tp)
	mov out5=in3	// child_tidptr:  valid only w/CLONE_CHILD_SETTID or CLONE_CHILD_CLEARTID
	adds out2=IA64_SWITCH_STACK_SIZE+16,sp	// out2 = &regs
	mov out0=in0				// out0 = clone_flags
	br.call.sptk.many rp=do_fork
.ret2:	.restore sp
	adds sp=IA64_SWITCH_STACK_SIZE,sp	// pop the switch stack
	mov ar.pfs=loc1
	mov rp=loc0
	br.ret.sptk.many rp
END(sys_clone)
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#endif /* __IA64_ASM_PARAVIRTUALIZED_NATIVE */
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/*
 * prev_task <- ia64_switch_to(struct task_struct *next)
 *	With Ingo's new scheduler, interrupts are disabled when this routine gets
 *	called.  The code starting at .map relies on this.  The rest of the code
 *	doesn't care about the interrupt masking status.
 */
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GLOBAL_ENTRY(__paravirt_switch_to)
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	.prologue
	alloc r16=ar.pfs,1,0,0,0
	DO_SAVE_SWITCH_STACK
	.body

	adds r22=IA64_TASK_THREAD_KSP_OFFSET,r13
	movl r25=init_task
	mov r27=IA64_KR(CURRENT_STACK)
	adds r21=IA64_TASK_THREAD_KSP_OFFSET,in0
	dep r20=0,in0,61,3		// physical address of "next"
	;;
	st8 [r22]=sp			// save kernel stack pointer of old task
	shr.u r26=r20,IA64_GRANULE_SHIFT
	cmp.eq p7,p6=r25,in0
	;;
	/*
	 * If we've already mapped this task's page, we can skip doing it again.
	 */
(p6)	cmp.eq p7,p6=r26,r27
(p6)	br.cond.dpnt .map
	;;
.done:
	ld8 sp=[r21]			// load kernel stack pointer of new task
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	MOV_TO_KR(CURRENT, in0, r8, r9)		// update "current" application register
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	mov r8=r13			// return pointer to previously running task
	mov r13=in0			// set "current" pointer
	;;
	DO_LOAD_SWITCH_STACK

#ifdef CONFIG_SMP
	sync.i				// ensure "fc"s done by this CPU are visible on other CPUs
#endif
	br.ret.sptk.many rp		// boogie on out in new context

.map:
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	RSM_PSR_IC(r25)			// interrupts (psr.i) are already disabled here
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	movl r25=PAGE_KERNEL
	;;
	srlz.d
	or r23=r25,r20			// construct PA | page properties
	mov r25=IA64_GRANULE_SHIFT<<2
	;;
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	MOV_TO_ITIR(p0, r25, r8)
	MOV_TO_IFA(in0, r8)		// VA of next task...
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	;;
	mov r25=IA64_TR_CURRENT_STACK
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	MOV_TO_KR(CURRENT_STACK, r26, r8, r9)	// remember last page we mapped...
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	;;
	itr.d dtr[r25]=r23		// wire in new mapping...
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	SSM_PSR_IC_AND_SRLZ_D(r8, r9)	// reenable the psr.ic bit
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	br.cond.sptk .done
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END(__paravirt_switch_to)
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#ifdef __IA64_ASM_PARAVIRTUALIZED_NATIVE
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/*
 * Note that interrupts are enabled during save_switch_stack and load_switch_stack.  This
 * means that we may get an interrupt with "sp" pointing to the new kernel stack while
 * ar.bspstore is still pointing to the old kernel backing store area.  Since ar.rsc,
 * ar.rnat, ar.bsp, and ar.bspstore are all preserved by interrupts, this is not a
 * problem.  Also, we don't need to specify unwind information for preserved registers
 * that are not modified in save_switch_stack as the right unwind information is already
 * specified at the call-site of save_switch_stack.
 */

/*
 * save_switch_stack:
 *	- r16 holds ar.pfs
 *	- b7 holds address to return to
 *	- rp (b0) holds return address to save
 */
GLOBAL_ENTRY(save_switch_stack)
	.prologue
	.altrp b7
	flushrs			// flush dirty regs to backing store (must be first in insn group)
	.save @priunat,r17
	mov r17=ar.unat		// preserve caller's
	.body
#ifdef CONFIG_ITANIUM
	adds r2=16+128,sp
	adds r3=16+64,sp
	adds r14=SW(R4)+16,sp
	;;
	st8.spill [r14]=r4,16		// spill r4
	lfetch.fault.excl.nt1 [r3],128
	;;
	lfetch.fault.excl.nt1 [r2],128
	lfetch.fault.excl.nt1 [r3],128
	;;
	lfetch.fault.excl [r2]
	lfetch.fault.excl [r3]
	adds r15=SW(R5)+16,sp
#else
	add r2=16+3*128,sp
	add r3=16,sp
	add r14=SW(R4)+16,sp
	;;
	st8.spill [r14]=r4,SW(R6)-SW(R4)	// spill r4 and prefetch offset 0x1c0
	lfetch.fault.excl.nt1 [r3],128	//		prefetch offset 0x010
	;;
	lfetch.fault.excl.nt1 [r3],128	//		prefetch offset 0x090
	lfetch.fault.excl.nt1 [r2],128	//		prefetch offset 0x190
	;;
	lfetch.fault.excl.nt1 [r3]	//		prefetch offset 0x110
	lfetch.fault.excl.nt1 [r2]	//		prefetch offset 0x210
	adds r15=SW(R5)+16,sp
#endif
	;;
	st8.spill [r15]=r5,SW(R7)-SW(R5)	// spill r5
	mov.m ar.rsc=0			// put RSE in mode: enforced lazy, little endian, pl 0
	add r2=SW(F2)+16,sp		// r2 = &sw->f2
	;;
	st8.spill [r14]=r6,SW(B0)-SW(R6)	// spill r6
	mov.m r18=ar.fpsr		// preserve fpsr
	add r3=SW(F3)+16,sp		// r3 = &sw->f3
	;;
	stf.spill [r2]=f2,32
	mov.m r19=ar.rnat
	mov r21=b0

	stf.spill [r3]=f3,32
	st8.spill [r15]=r7,SW(B2)-SW(R7)	// spill r7
	mov r22=b1
	;;
	// since we're done with the spills, read and save ar.unat:
	mov.m r29=ar.unat
	mov.m r20=ar.bspstore
	mov r23=b2
	stf.spill [r2]=f4,32
	stf.spill [r3]=f5,32
	mov r24=b3
	;;
	st8 [r14]=r21,SW(B1)-SW(B0)		// save b0
	st8 [r15]=r23,SW(B3)-SW(B2)		// save b2
	mov r25=b4
	mov r26=b5
	;;
	st8 [r14]=r22,SW(B4)-SW(B1)		// save b1
	st8 [r15]=r24,SW(AR_PFS)-SW(B3)		// save b3
	mov r21=ar.lc		// I-unit
	stf.spill [r2]=f12,32
	stf.spill [r3]=f13,32
	;;
	st8 [r14]=r25,SW(B5)-SW(B4)		// save b4
	st8 [r15]=r16,SW(AR_LC)-SW(AR_PFS)	// save ar.pfs
	stf.spill [r2]=f14,32
	stf.spill [r3]=f15,32
	;;
	st8 [r14]=r26				// save b5
	st8 [r15]=r21				// save ar.lc
	stf.spill [r2]=f16,32
	stf.spill [r3]=f17,32
	;;
	stf.spill [r2]=f18,32
	stf.spill [r3]=f19,32
	;;
	stf.spill [r2]=f20,32
	stf.spill [r3]=f21,32
	;;
	stf.spill [r2]=f22,32
	stf.spill [r3]=f23,32
	;;
	stf.spill [r2]=f24,32
	stf.spill [r3]=f25,32
	;;
	stf.spill [r2]=f26,32
	stf.spill [r3]=f27,32
	;;
	stf.spill [r2]=f28,32
	stf.spill [r3]=f29,32
	;;
	stf.spill [r2]=f30,SW(AR_UNAT)-SW(F30)
	stf.spill [r3]=f31,SW(PR)-SW(F31)
	add r14=SW(CALLER_UNAT)+16,sp
	;;
	st8 [r2]=r29,SW(AR_RNAT)-SW(AR_UNAT)	// save ar.unat
	st8 [r14]=r17,SW(AR_FPSR)-SW(CALLER_UNAT) // save caller_unat
	mov r21=pr
	;;
	st8 [r2]=r19,SW(AR_BSPSTORE)-SW(AR_RNAT) // save ar.rnat
	st8 [r3]=r21				// save predicate registers
	;;
	st8 [r2]=r20				// save ar.bspstore
	st8 [r14]=r18				// save fpsr
	mov ar.rsc=3		// put RSE back into eager mode, pl 0
	br.cond.sptk.many b7
END(save_switch_stack)

/*
 * load_switch_stack:
 *	- "invala" MUST be done at call site (normally in DO_LOAD_SWITCH_STACK)
 *	- b7 holds address to return to
 *	- must not touch r8-r11
 */
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GLOBAL_ENTRY(load_switch_stack)
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	.prologue
	.altrp b7

	.body
	lfetch.fault.nt1 [sp]
	adds r2=SW(AR_BSPSTORE)+16,sp
	adds r3=SW(AR_UNAT)+16,sp
	mov ar.rsc=0						// put RSE into enforced lazy mode
	adds r14=SW(CALLER_UNAT)+16,sp
	adds r15=SW(AR_FPSR)+16,sp
	;;
	ld8 r27=[r2],(SW(B0)-SW(AR_BSPSTORE))	// bspstore
	ld8 r29=[r3],(SW(B1)-SW(AR_UNAT))	// unat
	;;
	ld8 r21=[r2],16		// restore b0
	ld8 r22=[r3],16		// restore b1
	;;
	ld8 r23=[r2],16		// restore b2
	ld8 r24=[r3],16		// restore b3
	;;
	ld8 r25=[r2],16		// restore b4
	ld8 r26=[r3],16		// restore b5
	;;
	ld8 r16=[r2],(SW(PR)-SW(AR_PFS))	// ar.pfs
	ld8 r17=[r3],(SW(AR_RNAT)-SW(AR_LC))	// ar.lc
	;;
	ld8 r28=[r2]		// restore pr
	ld8 r30=[r3]		// restore rnat
	;;
	ld8 r18=[r14],16	// restore caller's unat
	ld8 r19=[r15],24	// restore fpsr
	;;
	ldf.fill f2=[r14],32
	ldf.fill f3=[r15],32
	;;
	ldf.fill f4=[r14],32
	ldf.fill f5=[r15],32
	;;
	ldf.fill f12=[r14],32
	ldf.fill f13=[r15],32
	;;
	ldf.fill f14=[r14],32
	ldf.fill f15=[r15],32
	;;
	ldf.fill f16=[r14],32
	ldf.fill f17=[r15],32
	;;
	ldf.fill f18=[r14],32
	ldf.fill f19=[r15],32
	mov b0=r21
	;;
	ldf.fill f20=[r14],32
	ldf.fill f21=[r15],32
	mov b1=r22
	;;
	ldf.fill f22=[r14],32
	ldf.fill f23=[r15],32
	mov b2=r23
	;;
	mov ar.bspstore=r27
	mov ar.unat=r29		// establish unat holding the NaT bits for r4-r7
	mov b3=r24
	;;
	ldf.fill f24=[r14],32
	ldf.fill f25=[r15],32
	mov b4=r25
	;;
	ldf.fill f26=[r14],32
	ldf.fill f27=[r15],32
	mov b5=r26
	;;
	ldf.fill f28=[r14],32
	ldf.fill f29=[r15],32
	mov ar.pfs=r16
	;;
	ldf.fill f30=[r14],32
	ldf.fill f31=[r15],24
	mov ar.lc=r17
	;;
	ld8.fill r4=[r14],16
	ld8.fill r5=[r15],16
	mov pr=r28,-1
	;;
	ld8.fill r6=[r14],16
	ld8.fill r7=[r15],16

	mov ar.unat=r18				// restore caller's unat
	mov ar.rnat=r30				// must restore after bspstore but before rsc!
	mov ar.fpsr=r19				// restore fpsr
	mov ar.rsc=3				// put RSE back into eager mode, pl 0
	br.cond.sptk.many b7
END(load_switch_stack)

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GLOBAL_ENTRY(prefetch_stack)
	add r14 = -IA64_SWITCH_STACK_SIZE, sp
	add r15 = IA64_TASK_THREAD_KSP_OFFSET, in0
	;;
	ld8 r16 = [r15]				// load next's stack pointer
	lfetch.fault.excl [r14], 128
	;;
	lfetch.fault.excl [r14], 128
	lfetch.fault [r16], 128
	;;
	lfetch.fault.excl [r14], 128
	lfetch.fault [r16], 128
	;;
	lfetch.fault.excl [r14], 128
	lfetch.fault [r16], 128
	;;
	lfetch.fault.excl [r14], 128
	lfetch.fault [r16], 128
	;;
	lfetch.fault [r16], 128
	br.ret.sptk.many rp
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END(prefetch_stack)
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GLOBAL_ENTRY(kernel_execve)
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	rum psr.ac
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	mov r15=__NR_execve			// put syscall number in place
	break __BREAK_SYSCALL
	br.ret.sptk.many rp
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END(kernel_execve)
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GLOBAL_ENTRY(clone)
	mov r15=__NR_clone			// put syscall number in place
	break __BREAK_SYSCALL
	br.ret.sptk.many rp
END(clone)

	/*
	 * Invoke a system call, but do some tracing before and after the call.
	 * We MUST preserve the current register frame throughout this routine
	 * because some system calls (such as ia64_execve) directly
	 * manipulate ar.pfs.
	 */
GLOBAL_ENTRY(ia64_trace_syscall)
	PT_REGS_UNWIND_INFO(0)
	/*
	 * We need to preserve the scratch registers f6-f11 in case the system
	 * call is sigreturn.
	 */
	adds r16=PT(F6)+16,sp
	adds r17=PT(F7)+16,sp
	;;
 	stf.spill [r16]=f6,32
 	stf.spill [r17]=f7,32
	;;
 	stf.spill [r16]=f8,32
 	stf.spill [r17]=f9,32
	;;
 	stf.spill [r16]=f10
 	stf.spill [r17]=f11
	br.call.sptk.many rp=syscall_trace_enter // give parent a chance to catch syscall args
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	cmp.lt p6,p0=r8,r0			// check tracehook
	adds r2=PT(R8)+16,sp			// r2 = &pt_regs.r8
	adds r3=PT(R10)+16,sp			// r3 = &pt_regs.r10
	mov r10=0
(p6)	br.cond.sptk strace_error		// syscall failed ->
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	adds r16=PT(F6)+16,sp
	adds r17=PT(F7)+16,sp
	;;
	ldf.fill f6=[r16],32
	ldf.fill f7=[r17],32
	;;
	ldf.fill f8=[r16],32
	ldf.fill f9=[r17],32
	;;
	ldf.fill f10=[r16]
	ldf.fill f11=[r17]
	// the syscall number may have changed, so re-load it and re-calculate the
	// syscall entry-point:
	adds r15=PT(R15)+16,sp			// r15 = &pt_regs.r15 (syscall #)
	;;
	ld8 r15=[r15]
	mov r3=NR_syscalls - 1
	;;
	adds r15=-1024,r15
	movl r16=sys_call_table
	;;
	shladd r20=r15,3,r16			// r20 = sys_call_table + 8*(syscall-1024)
	cmp.leu p6,p7=r15,r3
	;;
(p6)	ld8 r20=[r20]				// load address of syscall entry point
(p7)	movl r20=sys_ni_syscall
	;;
	mov b6=r20
	br.call.sptk.many rp=b6			// do the syscall
.strace_check_retval:
	cmp.lt p6,p0=r8,r0			// syscall failed?
	adds r2=PT(R8)+16,sp			// r2 = &pt_regs.r8
	adds r3=PT(R10)+16,sp			// r3 = &pt_regs.r10
	mov r10=0
(p6)	br.cond.sptk strace_error		// syscall failed ->
	;;					// avoid RAW on r10
.strace_save_retval:
.mem.offset 0,0; st8.spill [r2]=r8		// store return value in slot for r8
.mem.offset 8,0; st8.spill [r3]=r10		// clear error indication in slot for r10
	br.call.sptk.many rp=syscall_trace_leave // give parent a chance to catch return value
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.ret3:
(pUStk)	cmp.eq.unc p6,p0=r0,r0			// p6 <- pUStk
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(pUStk)	rsm psr.i				// disable interrupts
586
	br.cond.sptk ia64_work_pending_syscall_end
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strace_error:
	ld8 r3=[r2]				// load pt_regs.r8
	sub r9=0,r8				// negate return value to get errno value
	;;
	cmp.ne p6,p0=r3,r0			// is pt_regs.r8!=0?
	adds r3=16,r2				// r3=&pt_regs.r10
	;;
(p6)	mov r10=-1
(p6)	mov r8=r9
	br.cond.sptk .strace_save_retval
END(ia64_trace_syscall)

	/*
	 * When traced and returning from sigreturn, we invoke syscall_trace but then
	 * go straight to ia64_leave_kernel rather than ia64_leave_syscall.
	 */
GLOBAL_ENTRY(ia64_strace_leave_kernel)
	PT_REGS_UNWIND_INFO(0)
{	/*
	 * Some versions of gas generate bad unwind info if the first instruction of a
	 * procedure doesn't go into the first slot of a bundle.  This is a workaround.
	 */
	nop.m 0
	nop.i 0
	br.call.sptk.many rp=syscall_trace_leave // give parent a chance to catch return value
}
.ret4:	br.cond.sptk ia64_leave_kernel
END(ia64_strace_leave_kernel)

GLOBAL_ENTRY(ia64_ret_from_clone)
	PT_REGS_UNWIND_INFO(0)
{	/*
	 * Some versions of gas generate bad unwind info if the first instruction of a
	 * procedure doesn't go into the first slot of a bundle.  This is a workaround.
	 */
	nop.m 0
	nop.i 0
	/*
	 * We need to call schedule_tail() to complete the scheduling process.
	 * Called by ia64_switch_to() after do_fork()->copy_thread().  r8 contains the
	 * address of the previously executing task.
	 */
	br.call.sptk.many rp=ia64_invoke_schedule_tail
}
.ret8:
	adds r2=TI_FLAGS+IA64_TASK_SIZE,r13
	;;
	ld4 r2=[r2]
	;;
	mov r8=0
	and r2=_TIF_SYSCALL_TRACEAUDIT,r2
	;;
	cmp.ne p6,p0=r2,r0
(p6)	br.cond.spnt .strace_check_retval
	;;					// added stop bits to prevent r8 dependency
END(ia64_ret_from_clone)
	// fall through
GLOBAL_ENTRY(ia64_ret_from_syscall)
	PT_REGS_UNWIND_INFO(0)
	cmp.ge p6,p7=r8,r0			// syscall executed successfully?
	adds r2=PT(R8)+16,sp			// r2 = &pt_regs.r8
	mov r10=r0				// clear error indication in r10
(p7)	br.cond.spnt handle_syscall_error	// handle potential syscall failure
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#ifdef CONFIG_PARAVIRT
	;;
	br.cond.sptk.few ia64_leave_syscall
	;;
#endif /* CONFIG_PARAVIRT */
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END(ia64_ret_from_syscall)
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#ifndef CONFIG_PARAVIRT
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	// fall through
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#endif
#endif /* __IA64_ASM_PARAVIRTUALIZED_NATIVE */

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/*
 * ia64_leave_syscall(): Same as ia64_leave_kernel, except that it doesn't
 *	need to switch to bank 0 and doesn't restore the scratch registers.
 *	To avoid leaking kernel bits, the scratch registers are set to
 *	the following known-to-be-safe values:
 *
 *		  r1: restored (global pointer)
 *		  r2: cleared
 *		  r3: 1 (when returning to user-level)
 *	      r8-r11: restored (syscall return value(s))
 *		 r12: restored (user-level stack pointer)
 *		 r13: restored (user-level thread pointer)
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 *		 r14: set to __kernel_syscall_via_epc
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 *		 r15: restored (syscall #)
 *	     r16-r17: cleared
 *		 r18: user-level b6
 *		 r19: cleared
 *		 r20: user-level ar.fpsr
 *		 r21: user-level b0
 *		 r22: cleared
 *		 r23: user-level ar.bspstore
 *		 r24: user-level ar.rnat
 *		 r25: user-level ar.unat
 *		 r26: user-level ar.pfs
 *		 r27: user-level ar.rsc
 *		 r28: user-level ip
 *		 r29: user-level psr
 *		 r30: user-level cfm
 *		 r31: user-level pr
 *	      f6-f11: cleared
 *		  pr: restored (user-level pr)
 *		  b0: restored (user-level rp)
 *	          b6: restored
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 *		  b7: set to __kernel_syscall_via_epc
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 *	     ar.unat: restored (user-level ar.unat)
 *	      ar.pfs: restored (user-level ar.pfs)
 *	      ar.rsc: restored (user-level ar.rsc)
 *	     ar.rnat: restored (user-level ar.rnat)
 *	 ar.bspstore: restored (user-level ar.bspstore)
 *	     ar.fpsr: restored (user-level ar.fpsr)
 *	      ar.ccv: cleared
 *	      ar.csd: cleared
 *	      ar.ssd: cleared
 */
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GLOBAL_ENTRY(__paravirt_leave_syscall)
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	PT_REGS_UNWIND_INFO(0)
	/*
	 * work.need_resched etc. mustn't get changed by this CPU before it returns to
	 * user- or fsys-mode, hence we disable interrupts early on.
	 *
	 * p6 controls whether current_thread_info()->flags needs to be check for
	 * extra work.  We always check for extra work when returning to user-level.
	 * With CONFIG_PREEMPT, we also check for extra work when the preempt_count
	 * is 0.  After extra work processing has been completed, execution
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	 * resumes at ia64_work_processed_syscall with p6 set to 1 if the extra-work-check
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	 * needs to be redone.
	 */
#ifdef CONFIG_PREEMPT
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	RSM_PSR_I(p0, r2, r18)			// disable interrupts
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	cmp.eq pLvSys,p0=r0,r0			// pLvSys=1: leave from syscall
(pKStk) adds r20=TI_PRE_COUNT+IA64_TASK_SIZE,r13
	;;
	.pred.rel.mutex pUStk,pKStk
(pKStk) ld4 r21=[r20]			// r21 <- preempt_count
(pUStk)	mov r21=0			// r21 <- 0
	;;
	cmp.eq p6,p0=r21,r0		// p6 <- pUStk || (preempt_count == 0)
#else /* !CONFIG_PREEMPT */
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	RSM_PSR_I(pUStk, r2, r18)
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	cmp.eq pLvSys,p0=r0,r0		// pLvSys=1: leave from syscall
(pUStk)	cmp.eq.unc p6,p0=r0,r0		// p6 <- pUStk
#endif
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.global __paravirt_work_processed_syscall;
__paravirt_work_processed_syscall:
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#ifdef CONFIG_VIRT_CPU_ACCOUNTING
	adds r2=PT(LOADRS)+16,r12
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	MOV_FROM_ITC(pUStk, p9, r22, r19)	// fetch time at leave
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	adds r18=TI_FLAGS+IA64_TASK_SIZE,r13
	;;
(p6)	ld4 r31=[r18]				// load current_thread_info()->flags
	ld8 r19=[r2],PT(B6)-PT(LOADRS)		// load ar.rsc value for "loadrs"
	adds r3=PT(AR_BSPSTORE)+16,r12		// deferred
	;;
#else
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	adds r2=PT(LOADRS)+16,r12
	adds r3=PT(AR_BSPSTORE)+16,r12
	adds r18=TI_FLAGS+IA64_TASK_SIZE,r13
	;;
(p6)	ld4 r31=[r18]				// load current_thread_info()->flags
	ld8 r19=[r2],PT(B6)-PT(LOADRS)		// load ar.rsc value for "loadrs"
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	nop.i 0
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	;;
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#endif
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	mov r16=ar.bsp				// M2  get existing backing store pointer
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	ld8 r18=[r2],PT(R9)-PT(B6)		// load b6
(p6)	and r15=TIF_WORK_MASK,r31		// any work other than TIF_SYSCALL_TRACE?
	;;
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	ld8 r23=[r3],PT(R11)-PT(AR_BSPSTORE)	// load ar.bspstore (may be garbage)
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(p6)	cmp4.ne.unc p6,p0=r15, r0		// any special work pending?
(p6)	br.cond.spnt .work_pending_syscall
	;;
	// start restoring the state saved on the kernel stack (struct pt_regs):
	ld8 r9=[r2],PT(CR_IPSR)-PT(R9)
	ld8 r11=[r3],PT(CR_IIP)-PT(R11)
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(pNonSys) break 0		//      bug check: we shouldn't be here if pNonSys is TRUE!
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	;;
	invala			// M0|1 invalidate ALAT
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	RSM_PSR_I_IC(r28, r29, r30)	// M2   turn off interrupts and interruption collection
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	cmp.eq p9,p0=r0,r0	// A    set p9 to indicate that we should restore cr.ifs
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	ld8 r29=[r2],16		// M0|1 load cr.ipsr
	ld8 r28=[r3],16		// M0|1 load cr.iip
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#ifdef CONFIG_VIRT_CPU_ACCOUNTING
(pUStk) add r14=TI_AC_LEAVE+IA64_TASK_SIZE,r13
	;;
	ld8 r30=[r2],16		// M0|1 load cr.ifs
	ld8 r25=[r3],16		// M0|1 load ar.unat
(pUStk) add r15=IA64_TASK_THREAD_ON_USTACK_OFFSET,r13
	;;
#else
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	mov r22=r0		// A    clear r22
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	;;
	ld8 r30=[r2],16		// M0|1 load cr.ifs
	ld8 r25=[r3],16		// M0|1 load ar.unat
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(pUStk) add r14=IA64_TASK_THREAD_ON_USTACK_OFFSET,r13
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	;;
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#endif
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	ld8 r26=[r2],PT(B0)-PT(AR_PFS)	// M0|1 load ar.pfs
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	MOV_FROM_PSR(pKStk, r22, r21)	// M2   read PSR now that interrupts are disabled
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	nop 0
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	;;
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	ld8 r21=[r2],PT(AR_RNAT)-PT(B0) // M0|1 load b0
	ld8 r27=[r3],PT(PR)-PT(AR_RSC)	// M0|1 load ar.rsc
	mov f6=f0			// F    clear f6
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	;;
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	ld8 r24=[r2],PT(AR_FPSR)-PT(AR_RNAT)	// M0|1 load ar.rnat (may be garbage)
	ld8 r31=[r3],PT(R1)-PT(PR)		// M0|1 load predicates
	mov f7=f0				// F    clear f7
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	;;
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	ld8 r20=[r2],PT(R12)-PT(AR_FPSR)	// M0|1 load ar.fpsr
	ld8.fill r1=[r3],16			// M0|1 load r1
(pUStk) mov r17=1				// A
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	;;
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#ifdef CONFIG_VIRT_CPU_ACCOUNTING
(pUStk) st1 [r15]=r17				// M2|3
#else
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(pUStk) st1 [r14]=r17				// M2|3
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#endif
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	ld8.fill r13=[r3],16			// M0|1
	mov f8=f0				// F    clear f8
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	;;
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	ld8.fill r12=[r2]			// M0|1 restore r12 (sp)
	ld8.fill r15=[r3]			// M0|1 restore r15
	mov b6=r18				// I0   restore b6
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817
	LOAD_PHYS_STACK_REG_SIZE(r17)
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	mov f9=f0					// F    clear f9
(pKStk) br.cond.dpnt.many skip_rbs_switch		// B
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	srlz.d				// M0   ensure interruption collection is off (for cover)
	shr.u r18=r19,16		// I0|1 get byte size of existing "dirty" partition
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	COVER				// B    add current frame into dirty partition & set cr.ifs
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	;;
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#ifdef CONFIG_VIRT_CPU_ACCOUNTING
	mov r19=ar.bsp			// M2   get new backing store pointer
	st8 [r14]=r22			// M	save time at leave
	mov f10=f0			// F    clear f10

	mov r22=r0			// A	clear r22
	movl r14=__kernel_syscall_via_epc // X
	;;
#else
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	mov r19=ar.bsp			// M2   get new backing store pointer
	mov f10=f0			// F    clear f10
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	nop.m 0
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	movl r14=__kernel_syscall_via_epc // X
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	;;
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#endif
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	mov.m ar.csd=r0			// M2   clear ar.csd
	mov.m ar.ccv=r0			// M2   clear ar.ccv
	mov b7=r14			// I0   clear b7 (hint with __kernel_syscall_via_epc)
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	mov.m ar.ssd=r0			// M2   clear ar.ssd
	mov f11=f0			// F    clear f11
	br.cond.sptk.many rbs_switch	// B
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END(__paravirt_leave_syscall)
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#ifdef __IA64_ASM_PARAVIRTUALIZED_NATIVE
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#ifdef CONFIG_IA32_SUPPORT
GLOBAL_ENTRY(ia64_ret_from_ia32_execve)
	PT_REGS_UNWIND_INFO(0)
	adds r2=PT(R8)+16,sp			// r2 = &pt_regs.r8
	adds r3=PT(R10)+16,sp			// r3 = &pt_regs.r10
	;;
	.mem.offset 0,0
	st8.spill [r2]=r8	// store return value in slot for r8 and set unat bit
	.mem.offset 8,0
	st8.spill [r3]=r0	// clear error indication in slot for r10 and set unat bit
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#ifdef CONFIG_PARAVIRT
	;;
	// don't fall through, ia64_leave_kernel may be #define'd
	br.cond.sptk.few ia64_leave_kernel
	;;
#endif /* CONFIG_PARAVIRT */
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END(ia64_ret_from_ia32_execve)
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#ifndef CONFIG_PARAVIRT
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	// fall through
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#endif
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#endif /* CONFIG_IA32_SUPPORT */
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#endif /* __IA64_ASM_PARAVIRTUALIZED_NATIVE */

GLOBAL_ENTRY(__paravirt_leave_kernel)
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	PT_REGS_UNWIND_INFO(0)
	/*
	 * work.need_resched etc. mustn't get changed by this CPU before it returns to
	 * user- or fsys-mode, hence we disable interrupts early on.
	 *
	 * p6 controls whether current_thread_info()->flags needs to be check for
	 * extra work.  We always check for extra work when returning to user-level.
	 * With CONFIG_PREEMPT, we also check for extra work when the preempt_count
	 * is 0.  After extra work processing has been completed, execution
	 * resumes at .work_processed_syscall with p6 set to 1 if the extra-work-check
	 * needs to be redone.
	 */
#ifdef CONFIG_PREEMPT
888
	RSM_PSR_I(p0, r17, r31)			// disable interrupts
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	cmp.eq p0,pLvSys=r0,r0			// pLvSys=0: leave from kernel
(pKStk)	adds r20=TI_PRE_COUNT+IA64_TASK_SIZE,r13
	;;
	.pred.rel.mutex pUStk,pKStk
(pKStk)	ld4 r21=[r20]			// r21 <- preempt_count
(pUStk)	mov r21=0			// r21 <- 0
	;;
	cmp.eq p6,p0=r21,r0		// p6 <- pUStk || (preempt_count == 0)
#else
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	RSM_PSR_I(pUStk, r17, r31)
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	cmp.eq p0,pLvSys=r0,r0		// pLvSys=0: leave from kernel
(pUStk)	cmp.eq.unc p6,p0=r0,r0		// p6 <- pUStk
#endif
.work_processed_kernel:
	adds r17=TI_FLAGS+IA64_TASK_SIZE,r13
	;;
(p6)	ld4 r31=[r17]				// load current_thread_info()->flags
	adds r21=PT(PR)+16,r12
	;;

	lfetch [r21],PT(CR_IPSR)-PT(PR)
	adds r2=PT(B6)+16,r12
	adds r3=PT(R16)+16,r12
	;;
	lfetch [r21]
	ld8 r28=[r2],8		// load b6
	adds r29=PT(R24)+16,r12

	ld8.fill r16=[r3],PT(AR_CSD)-PT(R16)
	adds r30=PT(AR_CCV)+16,r12
(p6)	and r19=TIF_WORK_MASK,r31		// any work other than TIF_SYSCALL_TRACE?
	;;
	ld8.fill r24=[r29]
	ld8 r15=[r30]		// load ar.ccv
(p6)	cmp4.ne.unc p6,p0=r19, r0		// any special work pending?
	;;
	ld8 r29=[r2],16		// load b7
	ld8 r30=[r3],16		// load ar.csd
(p6)	br.cond.spnt .work_pending
	;;
	ld8 r31=[r2],16		// load ar.ssd
	ld8.fill r8=[r3],16
	;;
	ld8.fill r9=[r2],16
	ld8.fill r10=[r3],PT(R17)-PT(R10)
	;;
	ld8.fill r11=[r2],PT(R18)-PT(R11)
	ld8.fill r17=[r3],16
	;;
	ld8.fill r18=[r2],16
	ld8.fill r19=[r3],16
	;;
	ld8.fill r20=[r2],16
	ld8.fill r21=[r3],16
	mov ar.csd=r30
	mov ar.ssd=r31
	;;
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	RSM_PSR_I_IC(r23, r22, r25)	// initiate turning off of interrupt and interruption collection
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	invala			// invalidate ALAT
	;;
	ld8.fill r22=[r2],24
	ld8.fill r23=[r3],24
	mov b6=r28
	;;
	ld8.fill r25=[r2],16
	ld8.fill r26=[r3],16
	mov b7=r29
	;;
	ld8.fill r27=[r2],16
	ld8.fill r28=[r3],16
	;;
	ld8.fill r29=[r2],16
	ld8.fill r30=[r3],24
	;;
	ld8.fill r31=[r2],PT(F9)-PT(R31)
	adds r3=PT(F10)-PT(F6),r3
	;;
	ldf.fill f9=[r2],PT(F6)-PT(F9)
	ldf.fill f10=[r3],PT(F8)-PT(F10)
	;;
	ldf.fill f6=[r2],PT(F7)-PT(F6)
	;;
	ldf.fill f7=[r2],PT(F11)-PT(F7)
	ldf.fill f8=[r3],32
	;;
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	srlz.d	// ensure that inter. collection is off (VHPT is don't care, since text is pinned)
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	mov ar.ccv=r15
	;;
	ldf.fill f11=[r2]
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	BSW_0(r2, r3, r15)	// switch back to bank 0 (no stop bit required beforehand...)
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	;;
(pUStk)	mov r18=IA64_KR(CURRENT)// M2 (12 cycle read latency)
	adds r16=PT(CR_IPSR)+16,r12
	adds r17=PT(CR_IIP)+16,r12

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#ifdef CONFIG_VIRT_CPU_ACCOUNTING
	.pred.rel.mutex pUStk,pKStk
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	MOV_FROM_PSR(pKStk, r22, r29)	// M2 read PSR now that interrupts are disabled
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	MOV_FROM_ITC(pUStk, p9, r22, r29)	// M  fetch time at leave
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	nop.i 0
	;;
#else
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	MOV_FROM_PSR(pKStk, r22, r29)	// M2 read PSR now that interrupts are disabled
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	nop.i 0
	nop.i 0
	;;
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#endif
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	ld8 r29=[r16],16	// load cr.ipsr
	ld8 r28=[r17],16	// load cr.iip
	;;
	ld8 r30=[r16],16	// load cr.ifs
	ld8 r25=[r17],16	// load ar.unat
	;;
	ld8 r26=[r16],16	// load ar.pfs
	ld8 r27=[r17],16	// load ar.rsc
	cmp.eq p9,p0=r0,r0	// set p9 to indicate that we should restore cr.ifs
	;;
	ld8 r24=[r16],16	// load ar.rnat (may be garbage)
	ld8 r23=[r17],16	// load ar.bspstore (may be garbage)
	;;
	ld8 r31=[r16],16	// load predicates
	ld8 r21=[r17],16	// load b0
	;;
	ld8 r19=[r16],16	// load ar.rsc value for "loadrs"
	ld8.fill r1=[r17],16	// load r1
	;;
	ld8.fill r12=[r16],16
	ld8.fill r13=[r17],16
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#ifdef CONFIG_VIRT_CPU_ACCOUNTING
(pUStk)	adds r3=TI_AC_LEAVE+IA64_TASK_SIZE,r18
#else
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(pUStk)	adds r18=IA64_TASK_THREAD_ON_USTACK_OFFSET,r18
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#endif
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	;;
	ld8 r20=[r16],16	// ar.fpsr
	ld8.fill r15=[r17],16
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#ifdef CONFIG_VIRT_CPU_ACCOUNTING
(pUStk)	adds r18=IA64_TASK_THREAD_ON_USTACK_OFFSET,r18	// deferred
#endif
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	;;
	ld8.fill r14=[r16],16
	ld8.fill r2=[r17]
(pUStk)	mov r17=1
	;;
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#ifdef CONFIG_VIRT_CPU_ACCOUNTING
	//  mmi_ :  ld8 st1 shr;;         mmi_ : st8 st1 shr;;
	//  mib  :  mov add br        ->  mib  : ld8 add br
	//  bbb_ :  br  nop cover;;       mbb_ : mov br  cover;;
	//
	//  no one require bsp in r16 if (pKStk) branch is selected.
(pUStk)	st8 [r3]=r22		// save time at leave
(pUStk)	st1 [r18]=r17		// restore current->thread.on_ustack
	shr.u r18=r19,16	// get byte size of existing "dirty" partition
	;;
	ld8.fill r3=[r16]	// deferred
	LOAD_PHYS_STACK_REG_SIZE(r17)
(pKStk)	br.cond.dpnt skip_rbs_switch
	mov r16=ar.bsp		// get existing backing store pointer
#else
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	ld8.fill r3=[r16]
(pUStk)	st1 [r18]=r17		// restore current->thread.on_ustack
	shr.u r18=r19,16	// get byte size of existing "dirty" partition
	;;
	mov r16=ar.bsp		// get existing backing store pointer
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	LOAD_PHYS_STACK_REG_SIZE(r17)
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(pKStk)	br.cond.dpnt skip_rbs_switch
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#endif
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	/*
	 * Restore user backing store.
	 *
	 * NOTE: alloc, loadrs, and cover can't be predicated.
	 */
(pNonSys) br.cond.dpnt dont_preserve_current_frame
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	COVER				// add current frame into dirty partition and set cr.ifs
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	;;
	mov r19=ar.bsp			// get new backing store pointer
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rbs_switch:
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	sub r16=r16,r18			// krbs = old bsp - size of dirty partition
	cmp.ne p9,p0=r0,r0		// clear p9 to skip restore of cr.ifs
	;;
	sub r19=r19,r16			// calculate total byte size of dirty partition
	add r18=64,r18			// don't force in0-in7 into memory...
	;;
	shl r19=r19,16			// shift size of dirty partition into loadrs position
	;;
dont_preserve_current_frame:
	/*
	 * To prevent leaking bits between the kernel and user-space,
	 * we must clear the stacked registers in the "invalid" partition here.
	 * Not pretty, but at least it's fast (3.34 registers/cycle on Itanium,
	 * 5 registers/cycle on McKinley).
	 */
#	define pRecurse	p6
#	define pReturn	p7
#ifdef CONFIG_ITANIUM
#	define Nregs	10
#else
#	define Nregs	14
#endif
	alloc loc0=ar.pfs,2,Nregs-2,2,0
	shr.u loc1=r18,9		// RNaTslots <= floor(dirtySize / (64*8))
	sub r17=r17,r18			// r17 = (physStackedSize + 8) - dirtySize
	;;
	mov ar.rsc=r19			// load ar.rsc to be used for "loadrs"
	shladd in0=loc1,3,r17
	mov in1=0
	;;
	TEXT_ALIGN(32)
rse_clear_invalid:
#ifdef CONFIG_ITANIUM
	// cycle 0
 { .mii
	alloc loc0=ar.pfs,2,Nregs-2,2,0
	cmp.lt pRecurse,p0=Nregs*8,in0	// if more than Nregs regs left to clear, (re)curse
	add out0=-Nregs*8,in0
}{ .mfb
	add out1=1,in1			// increment recursion count
	nop.f 0
	nop.b 0				// can't do br.call here because of alloc (WAW on CFM)
	;;
}{ .mfi	// cycle 1
	mov loc1=0
	nop.f 0
	mov loc2=0
}{ .mib
	mov loc3=0
	mov loc4=0
(pRecurse) br.call.sptk.many b0=rse_clear_invalid

}{ .mfi	// cycle 2
	mov loc5=0
	nop.f 0
	cmp.ne pReturn,p0=r0,in1	// if recursion count != 0, we need to do a br.ret
}{ .mib
	mov loc6=0
	mov loc7=0
(pReturn) br.ret.sptk.many b0
}
#else /* !CONFIG_ITANIUM */
	alloc loc0=ar.pfs,2,Nregs-2,2,0
	cmp.lt pRecurse,p0=Nregs*8,in0	// if more than Nregs regs left to clear, (re)curse
	add out0=-Nregs*8,in0
	add out1=1,in1			// increment recursion count
	mov loc1=0
	mov loc2=0
	;;
	mov loc3=0
	mov loc4=0
	mov loc5=0
	mov loc6=0
	mov loc7=0
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(pRecurse) br.call.dptk.few b0=rse_clear_invalid
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	;;
	mov loc8=0
	mov loc9=0
	cmp.ne pReturn,p0=r0,in1	// if recursion count != 0, we need to do a br.ret
	mov loc10=0
	mov loc11=0
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(pReturn) br.ret.dptk.many b0
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#endif /* !CONFIG_ITANIUM */
#	undef pRecurse
#	undef pReturn
	;;
	alloc r17=ar.pfs,0,0,0,0	// drop current register frame
	;;
	loadrs
	;;
skip_rbs_switch:
	mov ar.unat=r25		// M2
(pKStk)	extr.u r22=r22,21,1	// I0 extract current value of psr.pp from r22
(pLvSys)mov r19=r0		// A  clear r19 for leave_syscall, no-op otherwise
	;;
(pUStk)	mov ar.bspstore=r23	// M2
(pKStk)	dep r29=r22,r29,21,1	// I0 update ipsr.pp with psr.pp
(pLvSys)mov r16=r0		// A  clear r16 for leave_syscall, no-op otherwise
	;;
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	MOV_TO_IPSR(p0, r29, r25)	// M2
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	mov ar.pfs=r26		// I0
(pLvSys)mov r17=r0		// A  clear r17 for leave_syscall, no-op otherwise

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	MOV_TO_IFS(p9, r30, r25)// M2
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	mov b0=r21		// I0
(pLvSys)mov r18=r0		// A  clear r18 for leave_syscall, no-op otherwise

	mov ar.fpsr=r20		// M2
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	MOV_TO_IIP(r28, r25)	// M2
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	nop 0
	;;
(pUStk)	mov ar.rnat=r24		// M2 must happen with RSE in lazy mode
	nop 0
(pLvSys)mov r2=r0

	mov ar.rsc=r27		// M2
	mov pr=r31,-1		// I0
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	RFI			// B
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	/*
	 * On entry:
	 *	r20 = &current->thread_info->pre_count (if CONFIG_PREEMPT)
	 *	r31 = current->thread_info->flags
	 * On exit:
	 *	p6 = TRUE if work-pending-check needs to be redone
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	 *
	 * Interrupts are disabled on entry, reenabled depend on work, and
	 * disabled on exit.
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	 */
.work_pending_syscall:
	add r2=-8,r2
	add r3=-8,r3
	;;
	st8 [r2]=r8
	st8 [r3]=r10
.work_pending:
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	tbit.z p6,p0=r31,TIF_NEED_RESCHED	// is resched not needed?
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(p6)	br.cond.sptk.few .notify
#ifdef CONFIG_PREEMPT
(pKStk) dep r21=-1,r0,PREEMPT_ACTIVE_BIT,1
	;;
(pKStk) st4 [r20]=r21
#endif
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	SSM_PSR_I(p0, p6, r2)	// enable interrupts
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	br.call.spnt.many rp=schedule
1212
.ret9:	cmp.eq p6,p0=r0,r0	// p6 <- 1 (re-check)
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	RSM_PSR_I(p0, r2, r20)	// disable interrupts
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	;;
#ifdef CONFIG_PREEMPT
(pKStk)	adds r20=TI_PRE_COUNT+IA64_TASK_SIZE,r13
	;;
(pKStk)	st4 [r20]=r0		// preempt_count() <- 0
#endif
1220
(pLvSys)br.cond.sptk.few  __paravirt_pending_syscall_end
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	br.cond.sptk.many .work_processed_kernel
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.notify:
(pUStk)	br.call.spnt.many rp=notify_resume_user
1225
.ret10:	cmp.ne p6,p0=r0,r0	// p6 <- 0 (don't re-check)
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(pLvSys)br.cond.sptk.few  __paravirt_pending_syscall_end
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	br.cond.sptk.many .work_processed_kernel
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1229 1230
.global __paravirt_pending_syscall_end;
__paravirt_pending_syscall_end:
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	adds r2=PT(R8)+16,r12
	adds r3=PT(R10)+16,r12
	;;
	ld8 r8=[r2]
	ld8 r10=[r3]
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	br.cond.sptk.many __paravirt_work_processed_syscall_target
END(__paravirt_leave_kernel)
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#ifdef __IA64_ASM_PARAVIRTUALIZED_NATIVE
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ENTRY(handle_syscall_error)
	/*
	 * Some system calls (e.g., ptrace, mmap) can return arbitrary values which could
	 * lead us to mistake a negative return value as a failed syscall.  Those syscall
	 * must deposit a non-zero value in pt_regs.r8 to indicate an error.  If
	 * pt_regs.r8 is zero, we assume that the call completed successfully.
	 */
	PT_REGS_UNWIND_INFO(0)
	ld8 r3=[r2]		// load pt_regs.r8
	;;
	cmp.eq p6,p7=r3,r0	// is pt_regs.r8==0?
	;;
(p7)	mov r10=-1
(p7)	sub r8=0,r8		// negate return value to get errno
	br.cond.sptk ia64_leave_syscall
END(handle_syscall_error)

	/*
	 * Invoke schedule_tail(task) while preserving in0-in7, which may be needed
	 * in case a system call gets restarted.
	 */
GLOBAL_ENTRY(ia64_invoke_schedule_tail)
	.prologue ASM_UNW_PRLG_RP|ASM_UNW_PRLG_PFS, ASM_UNW_PRLG_GRSAVE(8)
	alloc loc1=ar.pfs,8,2,1,0
	mov loc0=rp
	mov out0=r8				// Address of previous task
	;;
	br.call.sptk.many rp=schedule_tail
.ret11:	mov ar.pfs=loc1
	mov rp=loc0
	br.ret.sptk.many rp
END(ia64_invoke_schedule_tail)

	/*
1274 1275 1276 1277 1278 1279
	 * Setup stack and call do_notify_resume_user(), keeping interrupts
	 * disabled.
	 *
	 * Note that pSys and pNonSys need to be set up by the caller.
	 * We declare 8 input registers so the system call args get preserved,
	 * in case we need to restart a system call.
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	 */
1281
GLOBAL_ENTRY(notify_resume_user)
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	.prologue ASM_UNW_PRLG_RP|ASM_UNW_PRLG_PFS, ASM_UNW_PRLG_GRSAVE(8)
	alloc loc1=ar.pfs,8,2,3,0 // preserve all eight input regs in case of syscall restart!
	mov r9=ar.unat
	mov loc0=rp				// save return address
	mov out0=0				// there is no "oldset"
	adds out1=8,sp				// out1=&sigscratch->ar_pfs
(pSys)	mov out2=1				// out2==1 => we're in a syscall
	;;
(pNonSys) mov out2=0				// out2==0 => not a syscall
	.fframe 16
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	.spillsp ar.unat, 16
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	st8 [sp]=r9,-16				// allocate space for ar.unat and save it
	st8 [out1]=loc1,-8			// save ar.pfs, out1=&sigscratch
	.body
	br.call.sptk.many rp=do_notify_resume_user
.ret15:	.restore sp
	adds sp=16,sp				// pop scratch stack space
	;;
	ld8 r9=[sp]				// load new unat from sigscratch->scratch_unat
	mov rp=loc0
	;;
	mov ar.unat=r9
	mov ar.pfs=loc1
	br.ret.sptk.many rp
END(notify_resume_user)

ENTRY(sys_rt_sigreturn)
	PT_REGS_UNWIND_INFO(0)
	/*
	 * Allocate 8 input registers since ptrace() may clobber them
	 */
	alloc r2=ar.pfs,8,0,1,0
	.prologue
	PT_REGS_SAVES(16)
	adds sp=-16,sp
	.body
	cmp.eq pNonSys,pSys=r0,r0		// sigreturn isn't a normal syscall...
	;;
	/*
	 * leave_kernel() restores f6-f11 from pt_regs, but since the streamlined
	 * syscall-entry path does not save them we save them here instead.  Note: we
	 * don't need to save any other registers that are not saved by the stream-lined
	 * syscall path, because restore_sigcontext() restores them.
	 */
	adds r16=PT(F6)+32,sp
	adds r17=PT(F7)+32,sp
	;;
 	stf.spill [r16]=f6,32
 	stf.spill [r17]=f7,32
	;;
 	stf.spill [r16]=f8,32
 	stf.spill [r17]=f9,32
	;;
 	stf.spill [r16]=f10
 	stf.spill [r17]=f11
	adds out0=16,sp				// out0 = &sigscratch
	br.call.sptk.many rp=ia64_rt_sigreturn
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.ret19:	.restore sp,0
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	adds sp=16,sp
	;;
	ld8 r9=[sp]				// load new ar.unat
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	mov.sptk b7=r8,ia64_native_leave_kernel
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	;;
	mov ar.unat=r9
	br.many b7
END(sys_rt_sigreturn)

GLOBAL_ENTRY(ia64_prepare_handle_unaligned)
	.prologue
	/*
	 * r16 = fake ar.pfs, we simply need to make sure privilege is still 0
	 */
	mov r16=r0
	DO_SAVE_SWITCH_STACK
	br.call.sptk.many rp=ia64_handle_unaligned	// stack frame setup in ivt
.ret21:	.body
	DO_LOAD_SWITCH_STACK
	br.cond.sptk.many rp				// goes to ia64_leave_kernel
END(ia64_prepare_handle_unaligned)

	//
	// unw_init_running(void (*callback)(info, arg), void *arg)
	//
#	define EXTRA_FRAME_SIZE	((UNW_FRAME_INFO_SIZE+15)&~15)

GLOBAL_ENTRY(unw_init_running)
	.prologue ASM_UNW_PRLG_RP|ASM_UNW_PRLG_PFS, ASM_UNW_PRLG_GRSAVE(2)
	alloc loc1=ar.pfs,2,3,3,0
	;;
	ld8 loc2=[in0],8
	mov loc0=rp
	mov r16=loc1
	DO_SAVE_SWITCH_STACK
	.body

	.prologue ASM_UNW_PRLG_RP|ASM_UNW_PRLG_PFS, ASM_UNW_PRLG_GRSAVE(2)
	.fframe IA64_SWITCH_STACK_SIZE+EXTRA_FRAME_SIZE
	SWITCH_STACK_SAVES(EXTRA_FRAME_SIZE)
	adds sp=-EXTRA_FRAME_SIZE,sp
	.body
	;;
	adds out0=16,sp				// &info
	mov out1=r13				// current
	adds out2=16+EXTRA_FRAME_SIZE,sp	// &switch_stack
	br.call.sptk.many rp=unw_init_frame_info
1:	adds out0=16,sp				// &info
	mov b6=loc2
	mov loc2=gp				// save gp across indirect function call
	;;
	ld8 gp=[in0]
	mov out1=in1				// arg
	br.call.sptk.many rp=b6			// invoke the callback function
1:	mov gp=loc2				// restore gp

	// For now, we don't allow changing registers from within
	// unw_init_running; if we ever want to allow that, we'd
	// have to do a load_switch_stack here:
	.restore sp
	adds sp=IA64_SWITCH_STACK_SIZE+EXTRA_FRAME_SIZE,sp

	mov ar.pfs=loc1
	mov rp=loc0
	br.ret.sptk.many rp
END(unw_init_running)

	.rodata
	.align 8
	.globl sys_call_table
sys_call_table:
	data8 sys_ni_syscall		//  This must be sys_ni_syscall!  See ivt.S.
	data8 sys_exit				// 1025
	data8 sys_read
	data8 sys_write
	data8 sys_open
	data8 sys_close
	data8 sys_creat				// 1030
	data8 sys_link
	data8 sys_unlink
	data8 ia64_execve
	data8 sys_chdir
	data8 sys_fchdir			// 1035
	data8 sys_utimes
	data8 sys_mknod
	data8 sys_chmod
	data8 sys_chown
	data8 sys_lseek				// 1040
	data8 sys_getpid
	data8 sys_getppid
	data8 sys_mount
	data8 sys_umount
	data8 sys_setuid			// 1045
	data8 sys_getuid
	data8 sys_geteuid
	data8 sys_ptrace
	data8 sys_access
	data8 sys_sync				// 1050
	data8 sys_fsync
	data8 sys_fdatasync
	data8 sys_kill
	data8 sys_rename
	data8 sys_mkdir				// 1055
	data8 sys_rmdir
	data8 sys_dup
1445
	data8 sys_ia64_pipe
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	data8 sys_times
	data8 ia64_brk				// 1060
	data8 sys_setgid
	data8 sys_getgid
	data8 sys_getegid
	data8 sys_acct
	data8 sys_ioctl				// 1065
	data8 sys_fcntl
	data8 sys_umask
	data8 sys_chroot
	data8 sys_ustat
	data8 sys_dup2				// 1070
	data8 sys_setreuid
	data8 sys_setregid
	data8 sys_getresuid
	data8 sys_setresuid
	data8 sys_getresgid			// 1075
	data8 sys_setresgid
	data8 sys_getgroups
	data8 sys_setgroups
	data8 sys_getpgid
	data8 sys_setpgid			// 1080
	data8 sys_setsid
	data8 sys_getsid
	data8 sys_sethostname
	data8 sys_setrlimit
	data8 sys_getrlimit			// 1085
	data8 sys_getrusage
	data8 sys_gettimeofday
	data8 sys_settimeofday
	data8 sys_select
	data8 sys_poll				// 1090
	data8 sys_symlink
	data8 sys_readlink
	data8 sys_uselib
	data8 sys_swapon
	data8 sys_swapoff			// 1095
	data8 sys_reboot
	data8 sys_truncate
	data8 sys_ftruncate
	data8 sys_fchmod
	data8 sys_fchown			// 1100
	data8 ia64_getpriority
	data8 sys_setpriority
	data8 sys_statfs
	data8 sys_fstatfs
	data8 sys_gettid			// 1105
	data8 sys_semget
	data8 sys_semop
	data8 sys_semctl
	data8 sys_msgget
	data8 sys_msgsnd			// 1110
	data8 sys_msgrcv
	data8 sys_msgctl
	data8 sys_shmget
S
Stephen Rothwell 已提交
1501
	data8 sys_shmat
L
Linus Torvalds 已提交
1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 1525 1526 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 1538 1539 1540 1541 1542 1543 1544 1545 1546 1547 1548 1549 1550 1551 1552 1553 1554 1555 1556 1557 1558 1559 1560 1561 1562 1563 1564 1565 1566 1567 1568 1569 1570 1571 1572 1573 1574 1575 1576 1577 1578 1579 1580 1581 1582 1583 1584 1585 1586 1587 1588 1589 1590 1591 1592 1593 1594 1595 1596 1597 1598 1599 1600 1601 1602 1603 1604 1605 1606 1607 1608 1609 1610 1611 1612 1613 1614 1615 1616 1617 1618 1619 1620 1621 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
	data8 sys_shmdt				// 1115
	data8 sys_shmctl
	data8 sys_syslog
	data8 sys_setitimer
	data8 sys_getitimer
	data8 sys_ni_syscall			// 1120		/* was: ia64_oldstat */
	data8 sys_ni_syscall					/* was: ia64_oldlstat */
	data8 sys_ni_syscall					/* was: ia64_oldfstat */
	data8 sys_vhangup
	data8 sys_lchown
	data8 sys_remap_file_pages		// 1125
	data8 sys_wait4
	data8 sys_sysinfo
	data8 sys_clone
	data8 sys_setdomainname
	data8 sys_newuname			// 1130
	data8 sys_adjtimex
	data8 sys_ni_syscall					/* was: ia64_create_module */
	data8 sys_init_module
	data8 sys_delete_module
	data8 sys_ni_syscall			// 1135		/* was: sys_get_kernel_syms */
	data8 sys_ni_syscall					/* was: sys_query_module */
	data8 sys_quotactl
	data8 sys_bdflush
	data8 sys_sysfs
	data8 sys_personality			// 1140
	data8 sys_ni_syscall		// sys_afs_syscall
	data8 sys_setfsuid
	data8 sys_setfsgid
	data8 sys_getdents
	data8 sys_flock				// 1145
	data8 sys_readv
	data8 sys_writev
	data8 sys_pread64
	data8 sys_pwrite64
	data8 sys_sysctl			// 1150
	data8 sys_mmap
	data8 sys_munmap
	data8 sys_mlock
	data8 sys_mlockall
	data8 sys_mprotect			// 1155
	data8 ia64_mremap
	data8 sys_msync
	data8 sys_munlock
	data8 sys_munlockall
	data8 sys_sched_getparam		// 1160
	data8 sys_sched_setparam
	data8 sys_sched_getscheduler
	data8 sys_sched_setscheduler
	data8 sys_sched_yield
	data8 sys_sched_get_priority_max	// 1165
	data8 sys_sched_get_priority_min
	data8 sys_sched_rr_get_interval
	data8 sys_nanosleep
	data8 sys_nfsservctl
	data8 sys_prctl				// 1170
	data8 sys_getpagesize
	data8 sys_mmap2
	data8 sys_pciconfig_read
	data8 sys_pciconfig_write
	data8 sys_perfmonctl			// 1175
	data8 sys_sigaltstack
	data8 sys_rt_sigaction
	data8 sys_rt_sigpending
	data8 sys_rt_sigprocmask
	data8 sys_rt_sigqueueinfo		// 1180
	data8 sys_rt_sigreturn
	data8 sys_rt_sigsuspend
	data8 sys_rt_sigtimedwait
	data8 sys_getcwd
	data8 sys_capget			// 1185
	data8 sys_capset
	data8 sys_sendfile64
	data8 sys_ni_syscall		// sys_getpmsg (STREAMS)
	data8 sys_ni_syscall		// sys_putpmsg (STREAMS)
	data8 sys_socket			// 1190
	data8 sys_bind
	data8 sys_connect
	data8 sys_listen
	data8 sys_accept
	data8 sys_getsockname			// 1195
	data8 sys_getpeername
	data8 sys_socketpair
	data8 sys_send
	data8 sys_sendto
	data8 sys_recv				// 1200
	data8 sys_recvfrom
	data8 sys_shutdown
	data8 sys_setsockopt
	data8 sys_getsockopt
	data8 sys_sendmsg			// 1205
	data8 sys_recvmsg
	data8 sys_pivot_root
	data8 sys_mincore
	data8 sys_madvise
	data8 sys_newstat			// 1210
	data8 sys_newlstat
	data8 sys_newfstat
	data8 sys_clone2
	data8 sys_getdents64
	data8 sys_getunwind			// 1215
	data8 sys_readahead
	data8 sys_setxattr
	data8 sys_lsetxattr
	data8 sys_fsetxattr
	data8 sys_getxattr			// 1220
	data8 sys_lgetxattr
	data8 sys_fgetxattr
	data8 sys_listxattr
	data8 sys_llistxattr
	data8 sys_flistxattr			// 1225
	data8 sys_removexattr
	data8 sys_lremovexattr
	data8 sys_fremovexattr
	data8 sys_tkill
	data8 sys_futex				// 1230
	data8 sys_sched_setaffinity
	data8 sys_sched_getaffinity
	data8 sys_set_tid_address
	data8 sys_fadvise64_64
	data8 sys_tgkill 			// 1235
	data8 sys_exit_group
	data8 sys_lookup_dcookie
	data8 sys_io_setup
	data8 sys_io_destroy
	data8 sys_io_getevents			// 1240
	data8 sys_io_submit
	data8 sys_io_cancel
	data8 sys_epoll_create
	data8 sys_epoll_ctl
	data8 sys_epoll_wait			// 1245
	data8 sys_restart_syscall
	data8 sys_semtimedop
	data8 sys_timer_create
	data8 sys_timer_settime
	data8 sys_timer_gettime			// 1250
	data8 sys_timer_getoverrun
	data8 sys_timer_delete
	data8 sys_clock_settime
	data8 sys_clock_gettime
	data8 sys_clock_getres			// 1255
	data8 sys_clock_nanosleep
	data8 sys_fstatfs64
	data8 sys_statfs64
	data8 sys_mbind
	data8 sys_get_mempolicy			// 1260
	data8 sys_set_mempolicy
	data8 sys_mq_open
	data8 sys_mq_unlink
	data8 sys_mq_timedsend
	data8 sys_mq_timedreceive		// 1265
	data8 sys_mq_notify
	data8 sys_mq_getsetattr
Z
Zou Nan hai 已提交
1655
	data8 sys_kexec_load
L
Linus Torvalds 已提交
1656 1657 1658 1659 1660
	data8 sys_ni_syscall			// reserved for vserver
	data8 sys_waitid			// 1270
	data8 sys_add_key
	data8 sys_request_key
	data8 sys_keyctl
1661 1662
	data8 sys_ioprio_set
	data8 sys_ioprio_get			// 1275
1663
	data8 sys_move_pages
R
Robert Love 已提交
1664 1665 1666
	data8 sys_inotify_init
	data8 sys_inotify_add_watch
	data8 sys_inotify_rm_watch
1667
	data8 sys_migrate_pages			// 1280
1668 1669 1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680
	data8 sys_openat
	data8 sys_mkdirat
	data8 sys_mknodat
	data8 sys_fchownat
	data8 sys_futimesat			// 1285
	data8 sys_newfstatat
	data8 sys_unlinkat
	data8 sys_renameat
	data8 sys_linkat
	data8 sys_symlinkat			// 1290
	data8 sys_readlinkat
	data8 sys_fchmodat
	data8 sys_faccessat
A
Alexey Kuznetsov 已提交
1681
	data8 sys_pselect6
1682
	data8 sys_ppoll				// 1295
1683
	data8 sys_unshare
1684
	data8 sys_splice
1685 1686
	data8 sys_set_robust_list
	data8 sys_get_robust_list
1687
	data8 sys_sync_file_range		// 1300
1688
	data8 sys_tee
1689
	data8 sys_vmsplice
D
David Chinner 已提交
1690
	data8 sys_fallocate
1691
	data8 sys_getcpu
1692 1693
	data8 sys_epoll_pwait			// 1305
	data8 sys_utimensat
1694
	data8 sys_signalfd
D
Davide Libenzi 已提交
1695
	data8 sys_ni_syscall
1696
	data8 sys_eventfd
1697 1698 1699
	data8 sys_timerfd_create		// 1310
	data8 sys_timerfd_settime
	data8 sys_timerfd_gettime
T
Tony Luck 已提交
1700 1701 1702 1703 1704 1705
	data8 sys_signalfd4
	data8 sys_eventfd2
	data8 sys_epoll_create1			// 1315
	data8 sys_dup3
	data8 sys_pipe2
	data8 sys_inotify_init1
L
Linus Torvalds 已提交
1706 1707

	.org sys_call_table + 8*NR_syscalls	// guard against failures to increase NR_syscalls
1708
#endif /* __IA64_ASM_PARAVIRTUALIZED_NATIVE */