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/*
 * This file contains the light-weight system call handlers (fsyscall-handlers).
 *
 * Copyright (C) 2003 Hewlett-Packard Co
 * 	David Mosberger-Tang <davidm@hpl.hp.com>
 *
 * 25-Sep-03 davidm	Implement fsys_rt_sigprocmask().
 * 18-Feb-03 louisk	Implement fsys_gettimeofday().
 * 28-Feb-03 davidm	Fixed several bugs in fsys_gettimeofday().  Tuned it some more,
 *			probably broke it along the way... ;-)
 * 13-Jul-04 clameter   Implement fsys_clock_gettime and revise fsys_gettimeofday to make
 *                      it capable of using memory based clocks without falling back to C code.
 * 08-Feb-07 Fenghua Yu Implement fsys_getcpu.
 *
 */

#include <asm/asmmacro.h>
#include <asm/errno.h>
#include <asm/asm-offsets.h>
#include <asm/percpu.h>
#include <asm/thread_info.h>
#include <asm/sal.h>
#include <asm/signal.h>
#include <asm/unistd.h>

#include "entry.h"
#include "paravirt_inst.h"

/*
 * See Documentation/ia64/fsys.txt for details on fsyscalls.
 *
 * On entry to an fsyscall handler:
 *   r10	= 0 (i.e., defaults to "successful syscall return")
 *   r11	= saved ar.pfs (a user-level value)
 *   r15	= system call number
 *   r16	= "current" task pointer (in normal kernel-mode, this is in r13)
 *   r32-r39	= system call arguments
 *   b6		= return address (a user-level value)
 *   ar.pfs	= previous frame-state (a user-level value)
 *   PSR.be	= cleared to zero (i.e., little-endian byte order is in effect)
 *   all other registers may contain values passed in from user-mode
 *
 * On return from an fsyscall handler:
 *   r11	= saved ar.pfs (as passed into the fsyscall handler)
 *   r15	= system call number (as passed into the fsyscall handler)
 *   r32-r39	= system call arguments (as passed into the fsyscall handler)
 *   b6		= return address (as passed into the fsyscall handler)
 *   ar.pfs	= previous frame-state (as passed into the fsyscall handler)
 */

ENTRY(fsys_ni_syscall)
	.prologue
	.altrp b6
	.body
	mov r8=ENOSYS
	mov r10=-1
	FSYS_RETURN
END(fsys_ni_syscall)

ENTRY(fsys_getpid)
	.prologue
	.altrp b6
	.body
	add r17=IA64_TASK_GROUP_LEADER_OFFSET,r16
	;;
	ld8 r17=[r17]				// r17 = current->group_leader
	add r9=TI_FLAGS+IA64_TASK_SIZE,r16
	;;
	ld4 r9=[r9]
	add r17=IA64_TASK_TGIDLINK_OFFSET,r17
	;;
	and r9=TIF_ALLWORK_MASK,r9
	ld8 r17=[r17]				// r17 = current->group_leader->pids[PIDTYPE_PID].pid
	;;
	add r8=IA64_PID_LEVEL_OFFSET,r17
	;;
	ld4 r8=[r8]				// r8 = pid->level
	add r17=IA64_PID_UPID_OFFSET,r17	// r17 = &pid->numbers[0]
	;;
	shl r8=r8,IA64_UPID_SHIFT
	;;
	add r17=r17,r8				// r17 = &pid->numbers[pid->level]
	;;
	ld4 r8=[r17]				// r8 = pid->numbers[pid->level].nr
	;;
	mov r17=0
	;;
	cmp.ne p8,p0=0,r9
(p8)	br.spnt.many fsys_fallback_syscall
	FSYS_RETURN
END(fsys_getpid)

ENTRY(fsys_getppid)
	.prologue
	.altrp b6
	.body
	add r17=IA64_TASK_GROUP_LEADER_OFFSET,r16
	;;
	ld8 r17=[r17]				// r17 = current->group_leader
	add r9=TI_FLAGS+IA64_TASK_SIZE,r16
	;;

	ld4 r9=[r9]
	add r17=IA64_TASK_REAL_PARENT_OFFSET,r17 // r17 = &current->group_leader->real_parent
	;;
	and r9=TIF_ALLWORK_MASK,r9

1:	ld8 r18=[r17]				// r18 = current->group_leader->real_parent
	;;
	cmp.ne p8,p0=0,r9
	add r8=IA64_TASK_TGID_OFFSET,r18	// r8 = &current->group_leader->real_parent->tgid
	;;

	/*
	 * The .acq is needed to ensure that the read of tgid has returned its data before
	 * we re-check "real_parent".
	 */
	ld4.acq r8=[r8]				// r8 = current->group_leader->real_parent->tgid
#ifdef CONFIG_SMP
	/*
	 * Re-read current->group_leader->real_parent.
	 */
	ld8 r19=[r17]				// r19 = current->group_leader->real_parent
(p8)	br.spnt.many fsys_fallback_syscall
	;;
	cmp.ne p6,p0=r18,r19			// did real_parent change?
	mov r19=0			// i must not leak kernel bits...
(p6)	br.cond.spnt.few 1b			// yes -> redo the read of tgid and the check
	;;
	mov r17=0			// i must not leak kernel bits...
	mov r18=0			// i must not leak kernel bits...
#else
	mov r17=0			// i must not leak kernel bits...
	mov r18=0			// i must not leak kernel bits...
	mov r19=0			// i must not leak kernel bits...
#endif
	FSYS_RETURN
END(fsys_getppid)

ENTRY(fsys_set_tid_address)
	.prologue
	.altrp b6
	.body
	add r9=TI_FLAGS+IA64_TASK_SIZE,r16
	add r17=IA64_TASK_TGIDLINK_OFFSET,r16
	;;
	ld4 r9=[r9]
	tnat.z p6,p7=r32		// check argument register for being NaT
	ld8 r17=[r17]				// r17 = current->pids[PIDTYPE_PID].pid
	;;
	and r9=TIF_ALLWORK_MASK,r9
	add r8=IA64_PID_LEVEL_OFFSET,r17
	add r18=IA64_TASK_CLEAR_CHILD_TID_OFFSET,r16
	;;
	ld4 r8=[r8]				// r8 = pid->level
	add r17=IA64_PID_UPID_OFFSET,r17	// r17 = &pid->numbers[0]
	;;
	shl r8=r8,IA64_UPID_SHIFT
	;;
	add r17=r17,r8				// r17 = &pid->numbers[pid->level]
	;;
	ld4 r8=[r17]				// r8 = pid->numbers[pid->level].nr
	;;
	cmp.ne p8,p0=0,r9
	mov r17=-1
	;;
(p6)	st8 [r18]=r32
(p7)	st8 [r18]=r17
(p8)	br.spnt.many fsys_fallback_syscall
	;;
	mov r17=0			// i must not leak kernel bits...
	mov r18=0			// i must not leak kernel bits...
	FSYS_RETURN
END(fsys_set_tid_address)

#if IA64_GTOD_SEQ_OFFSET !=0
#error fsys_gettimeofday incompatible with changes to struct fsyscall_gtod_data_t
#endif
#if IA64_ITC_JITTER_OFFSET !=0
#error fsys_gettimeofday incompatible with changes to struct itc_jitter_data_t
#endif
#define CLOCK_REALTIME 0
#define CLOCK_MONOTONIC 1
#define CLOCK_DIVIDE_BY_1000 0x4000
#define CLOCK_ADD_MONOTONIC 0x8000

ENTRY(fsys_gettimeofday)
	.prologue
	.altrp b6
	.body
	mov r31 = r32
	tnat.nz p6,p0 = r33		// guard against NaT argument
(p6)    br.cond.spnt.few .fail_einval
	mov r30 = CLOCK_DIVIDE_BY_1000
	;;
.gettime:
	// Register map
	// Incoming r31 = pointer to address where to place result
	//          r30 = flags determining how time is processed
	// r2,r3 = temp r4-r7 preserved
	// r8 = result nanoseconds
	// r9 = result seconds
	// r10 = temporary storage for clock difference
	// r11 = preserved: saved ar.pfs
	// r12 = preserved: memory stack
	// r13 = preserved: thread pointer
	// r14 = address of mask / mask value
	// r15 = preserved: system call number
	// r16 = preserved: current task pointer
	// r17 = (not used)
	// r18 = (not used)
	// r19 = address of itc_lastcycle
	// r20 = struct fsyscall_gtod_data (= address of gtod_lock.sequence)
	// r21 = address of mmio_ptr
	// r22 = address of wall_time or monotonic_time
	// r23 = address of shift / value
	// r24 = address mult factor / cycle_last value
	// r25 = itc_lastcycle value
	// r26 = address clocksource cycle_last
	// r27 = (not used)
	// r28 = sequence number at the beginning of critcal section
	// r29 = address of itc_jitter
	// r30 = time processing flags / memory address
	// r31 = pointer to result
	// Predicates
	// p6,p7 short term use
	// p8 = timesource ar.itc
	// p9 = timesource mmio64
	// p10 = timesource mmio32 - not used
	// p11 = timesource not to be handled by asm code
	// p12 = memory time source ( = p9 | p10) - not used
	// p13 = do cmpxchg with itc_lastcycle
	// p14 = Divide by 1000
	// p15 = Add monotonic
	//
	// Note that instructions are optimized for McKinley. McKinley can
	// process two bundles simultaneously and therefore we continuously
	// try to feed the CPU two bundles and then a stop.

	add r2 = TI_FLAGS+IA64_TASK_SIZE,r16
	tnat.nz p6,p0 = r31		// guard against Nat argument
(p6)	br.cond.spnt.few .fail_einval
	movl r20 = fsyscall_gtod_data // load fsyscall gettimeofday data address
	;;
	ld4 r2 = [r2]			// process work pending flags
	movl r29 = itc_jitter_data	// itc_jitter
	add r22 = IA64_GTOD_WALL_TIME_OFFSET,r20	// wall_time
	add r21 = IA64_CLKSRC_MMIO_OFFSET,r20
	mov pr = r30,0xc000	// Set predicates according to function
	;;
	and r2 = TIF_ALLWORK_MASK,r2
	add r19 = IA64_ITC_LASTCYCLE_OFFSET,r29
(p15)	add r22 = IA64_GTOD_MONO_TIME_OFFSET,r20	// monotonic_time
	;;
	add r26 = IA64_CLKSRC_CYCLE_LAST_OFFSET,r20	// clksrc_cycle_last
	cmp.ne p6, p0 = 0, r2	// Fallback if work is scheduled
(p6)	br.cond.spnt.many fsys_fallback_syscall
	;;
	// Begin critical section
.time_redo:
	ld4.acq r28 = [r20]	// gtod_lock.sequence, Must take first
	;;
	and r28 = ~1,r28	// And make sequence even to force retry if odd
	;;
	ld8 r30 = [r21]		// clocksource->mmio_ptr
	add r24 = IA64_CLKSRC_MULT_OFFSET,r20
	ld4 r2 = [r29]		// itc_jitter value
	add r23 = IA64_CLKSRC_SHIFT_OFFSET,r20
	add r14 = IA64_CLKSRC_MASK_OFFSET,r20
	;;
	ld4 r3 = [r24]		// clocksource mult value
	ld8 r14 = [r14]         // clocksource mask value
	cmp.eq p8,p9 = 0,r30	// use cpu timer if no mmio_ptr
	;;
	setf.sig f7 = r3	// Setup for mult scaling of counter
(p8)	cmp.ne p13,p0 = r2,r0	// need itc_jitter compensation, set p13
	ld4 r23 = [r23]		// clocksource shift value
	ld8 r24 = [r26]		// get clksrc_cycle_last value
(p9)	cmp.eq p13,p0 = 0,r30	// if mmio_ptr, clear p13 jitter control
	;;
	.pred.rel.mutex p8,p9
	MOV_FROM_ITC(p8, p6, r2, r10)	// CPU_TIMER. 36 clocks latency!!!
(p9)	ld8 r2 = [r30]		// MMIO_TIMER. Could also have latency issues..
(p13)	ld8 r25 = [r19]		// get itc_lastcycle value
	ld8 r9 = [r22],IA64_TIMESPEC_TV_NSEC_OFFSET	// tv_sec
	;;
	ld8 r8 = [r22],-IA64_TIMESPEC_TV_NSEC_OFFSET	// tv_nsec
(p13)	sub r3 = r25,r2		// Diff needed before comparison (thanks davidm)
	;;
(p13)	cmp.gt.unc p6,p7 = r3,r0 // check if it is less than last. p6,p7 cleared
	sub r10 = r2,r24	// current_cycle - last_cycle
	;;
(p6)	sub r10 = r25,r24	// time we got was less than last_cycle
(p7)	mov ar.ccv = r25	// more than last_cycle. Prep for cmpxchg
	;;
(p7)	cmpxchg8.rel r3 = [r19],r2,ar.ccv
	;;
(p7)	cmp.ne p7,p0 = r25,r3	// if cmpxchg not successful
	;;
(p7)	sub r10 = r3,r24	// then use new last_cycle instead
	;;
	and r10 = r10,r14	// Apply mask
	;;
	setf.sig f8 = r10
	nop.i 123
	;;
	// fault check takes 5 cycles and we have spare time
EX(.fail_efault, probe.w.fault r31, 3)
	xmpy.l f8 = f8,f7	// nsec_per_cyc*(counter-last_counter)
	;;
	getf.sig r2 = f8
	mf
	;;
	ld4 r10 = [r20]		// gtod_lock.sequence
	shr.u r2 = r2,r23	// shift by factor
	;;
	add r8 = r8,r2		// Add xtime.nsecs
	cmp4.ne p7,p0 = r28,r10
(p7)	br.cond.dpnt.few .time_redo	// sequence number changed, redo
	// End critical section.
	// Now r8=tv->tv_nsec and r9=tv->tv_sec
	mov r10 = r0
	movl r2 = 1000000000
	add r23 = IA64_TIMESPEC_TV_NSEC_OFFSET, r31
(p14)	movl r3 = 2361183241434822607	// Prep for / 1000 hack
	;;
.time_normalize:
	mov r21 = r8
	cmp.ge p6,p0 = r8,r2
(p14)	shr.u r20 = r8, 3 // We can repeat this if necessary just wasting time
	;;
(p14)	setf.sig f8 = r20
(p6)	sub r8 = r8,r2
(p6)	add r9 = 1,r9		// two nops before the branch.
(p14)	setf.sig f7 = r3	// Chances for repeats are 1 in 10000 for gettod
(p6)	br.cond.dpnt.few .time_normalize
	;;
	// Divided by 8 though shift. Now divide by 125
	// The compiler was able to do that with a multiply
	// and a shift and we do the same
EX(.fail_efault, probe.w.fault r23, 3)	// This also costs 5 cycles
(p14)	xmpy.hu f8 = f8, f7		// xmpy has 5 cycles latency so use it
	;;
(p14)	getf.sig r2 = f8
	;;
	mov r8 = r0
(p14)	shr.u r21 = r2, 4
	;;
EX(.fail_efault, st8 [r31] = r9)
EX(.fail_efault, st8 [r23] = r21)
	FSYS_RETURN
.fail_einval:
	mov r8 = EINVAL
	mov r10 = -1
	FSYS_RETURN
.fail_efault:
	mov r8 = EFAULT
	mov r10 = -1
	FSYS_RETURN
END(fsys_gettimeofday)

ENTRY(fsys_clock_gettime)
	.prologue
	.altrp b6
	.body
	cmp4.ltu p6, p0 = CLOCK_MONOTONIC, r32
	// Fallback if this is not CLOCK_REALTIME or CLOCK_MONOTONIC
(p6)	br.spnt.few fsys_fallback_syscall
	mov r31 = r33
	shl r30 = r32,15
	br.many .gettime
END(fsys_clock_gettime)

/*
 * fsys_getcpu doesn't use the third parameter in this implementation. It reads
 * current_thread_info()->cpu and corresponding node in cpu_to_node_map.
 */
ENTRY(fsys_getcpu)
	.prologue
	.altrp b6
	.body
	;;
	add r2=TI_FLAGS+IA64_TASK_SIZE,r16
	tnat.nz p6,p0 = r32			// guard against NaT argument
	add r3=TI_CPU+IA64_TASK_SIZE,r16
	;;
	ld4 r3=[r3]				// M r3 = thread_info->cpu
	ld4 r2=[r2]				// M r2 = thread_info->flags
(p6)    br.cond.spnt.few .fail_einval		// B
	;;
	tnat.nz p7,p0 = r33			// I guard against NaT argument
(p7)    br.cond.spnt.few .fail_einval		// B
	;;
	cmp.ne p6,p0=r32,r0
	cmp.ne p7,p0=r33,r0
	;;
#ifdef CONFIG_NUMA
	movl r17=cpu_to_node_map
	;;
EX(.fail_efault, (p6) probe.w.fault r32, 3)		// M This takes 5 cycles
EX(.fail_efault, (p7) probe.w.fault r33, 3)		// M This takes 5 cycles
	shladd r18=r3,1,r17
	;;
	ld2 r20=[r18]				// r20 = cpu_to_node_map[cpu]
	and r2 = TIF_ALLWORK_MASK,r2
	;;
	cmp.ne p8,p0=0,r2
(p8)	br.spnt.many fsys_fallback_syscall
	;;
	;;
EX(.fail_efault, (p6) st4 [r32] = r3)
EX(.fail_efault, (p7) st2 [r33] = r20)
	mov r8=0
	;;
#else
EX(.fail_efault, (p6) probe.w.fault r32, 3)		// M This takes 5 cycles
EX(.fail_efault, (p7) probe.w.fault r33, 3)		// M This takes 5 cycles
	and r2 = TIF_ALLWORK_MASK,r2
	;;
	cmp.ne p8,p0=0,r2
(p8)	br.spnt.many fsys_fallback_syscall
	;;
EX(.fail_efault, (p6) st4 [r32] = r3)
EX(.fail_efault, (p7) st2 [r33] = r0)
	mov r8=0
	;;
#endif
	FSYS_RETURN
END(fsys_getcpu)

ENTRY(fsys_fallback_syscall)
	.prologue
	.altrp b6
	.body
	/*
	 * We only get here from light-weight syscall handlers.  Thus, we already
	 * know that r15 contains a valid syscall number.  No need to re-check.
	 */
	adds r17=-1024,r15
	movl r14=sys_call_table
	;;
	RSM_PSR_I(p0, r26, r27)
	shladd r18=r17,3,r14
	;;
	ld8 r18=[r18]				// load normal (heavy-weight) syscall entry-point
	MOV_FROM_PSR(p0, r29, r26)		// read psr (12 cyc load latency)
	mov r27=ar.rsc
	mov r21=ar.fpsr
	mov r26=ar.pfs
END(fsys_fallback_syscall)
	/* FALL THROUGH */
GLOBAL_ENTRY(paravirt_fsys_bubble_down)
	.prologue
	.altrp b6
	.body
	/*
	 * We get here for syscalls that don't have a lightweight
	 * handler.  For those, we need to bubble down into the kernel
	 * and that requires setting up a minimal pt_regs structure,
	 * and initializing the CPU state more or less as if an
	 * interruption had occurred.  To make syscall-restarts work,
	 * we setup pt_regs such that cr_iip points to the second
	 * instruction in syscall_via_break.  Decrementing the IP
	 * hence will restart the syscall via break and not
	 * decrementing IP will return us to the caller, as usual.
	 * Note that we preserve the value of psr.pp rather than
	 * initializing it from dcr.pp.  This makes it possible to
	 * distinguish fsyscall execution from other privileged
	 * execution.
	 *
	 * On entry:
	 *	- normal fsyscall handler register usage, except
	 *	  that we also have:
	 *	- r18: address of syscall entry point
	 *	- r21: ar.fpsr
	 *	- r26: ar.pfs
	 *	- r27: ar.rsc
	 *	- r29: psr
	 *
	 * We used to clear some PSR bits here but that requires slow
	 * serialization.  Fortuntely, that isn't really necessary.
	 * The rationale is as follows: we used to clear bits
	 * ~PSR_PRESERVED_BITS in PSR.L.  Since
	 * PSR_PRESERVED_BITS==PSR.{UP,MFL,MFH,PK,DT,PP,SP,RT,IC}, we
	 * ended up clearing PSR.{BE,AC,I,DFL,DFH,DI,DB,SI,TB}.
	 * However,
	 *
	 * PSR.BE : already is turned off in __kernel_syscall_via_epc()
	 * PSR.AC : don't care (kernel normally turns PSR.AC on)
	 * PSR.I  : already turned off by the time paravirt_fsys_bubble_down gets
	 *	    invoked
	 * PSR.DFL: always 0 (kernel never turns it on)
	 * PSR.DFH: don't care --- kernel never touches f32-f127 on its own
	 *	    initiative
	 * PSR.DI : always 0 (kernel never turns it on)
	 * PSR.SI : always 0 (kernel never turns it on)
	 * PSR.DB : don't care --- kernel never enables kernel-level
	 *	    breakpoints
	 * PSR.TB : must be 0 already; if it wasn't zero on entry to
	 *          __kernel_syscall_via_epc, the branch to paravirt_fsys_bubble_down
	 *          will trigger a taken branch; the taken-trap-handler then
	 *          converts the syscall into a break-based system-call.
	 */
	/*
	 * Reading psr.l gives us only bits 0-31, psr.it, and psr.mc.
	 * The rest we have to synthesize.
	 */
#	define PSR_ONE_BITS		((3 << IA64_PSR_CPL0_BIT)	\
					 | (0x1 << IA64_PSR_RI_BIT)	\
					 | IA64_PSR_BN | IA64_PSR_I)

	invala					// M0|1
	movl r14=ia64_ret_from_syscall		// X

	nop.m 0
	movl r28=__kernel_syscall_via_break	// X	create cr.iip
	;;

	mov r2=r16				// A    get task addr to addl-addressable register
	adds r16=IA64_TASK_THREAD_ON_USTACK_OFFSET,r16 // A
	mov r31=pr				// I0   save pr (2 cyc)
	;;
	st1 [r16]=r0				// M2|3 clear current->thread.on_ustack flag
	addl r22=IA64_RBS_OFFSET,r2		// A    compute base of RBS
	add r3=TI_FLAGS+IA64_TASK_SIZE,r2	// A
	;;
	ld4 r3=[r3]				// M0|1 r3 = current_thread_info()->flags
	lfetch.fault.excl.nt1 [r22]		// M0|1 prefetch register backing-store
	nop.i 0
	;;
	mov ar.rsc=0				// M2   set enforced lazy mode, pl 0, LE, loadrs=0
#ifdef CONFIG_VIRT_CPU_ACCOUNTING
	MOV_FROM_ITC(p0, p6, r30, r23)		// M    get cycle for accounting
#else
	nop.m 0
#endif
	nop.i 0
	;;
	mov r23=ar.bspstore			// M2 (12 cyc) save ar.bspstore
	mov.m r24=ar.rnat			// M2 (5 cyc) read ar.rnat (dual-issues!)
	nop.i 0
	;;
	mov ar.bspstore=r22			// M2 (6 cyc) switch to kernel RBS
	movl r8=PSR_ONE_BITS			// X
	;;
	mov r25=ar.unat				// M2 (5 cyc) save ar.unat
	mov r19=b6				// I0   save b6 (2 cyc)
	mov r20=r1				// A    save caller's gp in r20
	;;
	or r29=r8,r29				// A    construct cr.ipsr value to save
	mov b6=r18				// I0   copy syscall entry-point to b6 (7 cyc)
	addl r1=IA64_STK_OFFSET-IA64_PT_REGS_SIZE,r2 // A compute base of memory stack

	mov r18=ar.bsp				// M2   save (kernel) ar.bsp (12 cyc)
	cmp.ne pKStk,pUStk=r0,r0		// A    set pKStk <- 0, pUStk <- 1
	br.call.sptk.many b7=ia64_syscall_setup	// B
	;;
#ifdef CONFIG_VIRT_CPU_ACCOUNTING
	// mov.m r30=ar.itc is called in advance
	add r16=TI_AC_STAMP+IA64_TASK_SIZE,r2
	add r17=TI_AC_LEAVE+IA64_TASK_SIZE,r2
	;;
	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 leave kernel
	;;
	ld8 r20=[r16],TI_AC_STAMP-TI_AC_STIME	// cumulated stime
	ld8 r21=[r17]				// cumulated utime
	sub r22=r19,r18				// stime before leave kernel
	;;
	st8 [r16]=r30,TI_AC_STIME-TI_AC_STAMP	// update stamp
	sub r18=r30,r19				// elapsed time in user mode
	;;
	add r20=r20,r22				// sum stime
	add r21=r21,r18				// sum utime
	;;
	st8 [r16]=r20				// update stime
	st8 [r17]=r21				// update utime
	;;
#endif
	mov ar.rsc=0x3				// M2   set eager mode, pl 0, LE, loadrs=0
	mov rp=r14				// I0   set the real return addr
	and r3=_TIF_SYSCALL_TRACEAUDIT,r3	// A
	;;
	SSM_PSR_I(p0, p6, r22)			// M2   we're on kernel stacks now, reenable irqs
	cmp.eq p8,p0=r3,r0			// A
(p10)	br.cond.spnt.many ia64_ret_from_syscall	// B    return if bad call-frame or r15 is a NaT

	nop.m 0
(p8)	br.call.sptk.many b6=b6			// B    (ignore return address)
	br.cond.spnt ia64_trace_syscall		// B
END(paravirt_fsys_bubble_down)

	.rodata
	.align 8
	.globl paravirt_fsyscall_table

	data8 paravirt_fsys_bubble_down
paravirt_fsyscall_table:
	data8 fsys_ni_syscall
	data8 0				// exit			// 1025
	data8 0				// read
	data8 0				// write
	data8 0				// open
	data8 0				// close
	data8 0				// creat		// 1030
	data8 0				// link
	data8 0				// unlink
	data8 0				// execve
	data8 0				// chdir
	data8 0				// fchdir		// 1035
	data8 0				// utimes
	data8 0				// mknod
	data8 0				// chmod
	data8 0				// chown
	data8 0				// lseek		// 1040
	data8 fsys_getpid		// getpid
	data8 fsys_getppid		// getppid
	data8 0				// mount
	data8 0				// umount
	data8 0				// setuid		// 1045
	data8 0				// getuid
	data8 0				// geteuid
	data8 0				// ptrace
	data8 0				// access
	data8 0				// sync			// 1050
	data8 0				// fsync
	data8 0				// fdatasync
	data8 0				// kill
	data8 0				// rename
	data8 0				// mkdir		// 1055
	data8 0				// rmdir
	data8 0				// dup
	data8 0				// pipe
	data8 0				// times
	data8 0				// brk			// 1060
	data8 0				// setgid
	data8 0				// getgid
	data8 0				// getegid
	data8 0				// acct
	data8 0				// ioctl		// 1065
	data8 0				// fcntl
	data8 0				// umask
	data8 0				// chroot
	data8 0				// ustat
	data8 0				// dup2			// 1070
	data8 0				// setreuid
	data8 0				// setregid
	data8 0				// getresuid
	data8 0				// setresuid
	data8 0				// getresgid		// 1075
	data8 0				// setresgid
	data8 0				// getgroups
	data8 0				// setgroups
	data8 0				// getpgid
	data8 0				// setpgid		// 1080
	data8 0				// setsid
	data8 0				// getsid
	data8 0				// sethostname
	data8 0				// setrlimit
	data8 0				// getrlimit		// 1085
	data8 0				// getrusage
	data8 fsys_gettimeofday		// gettimeofday
	data8 0				// settimeofday
	data8 0				// select
	data8 0				// poll			// 1090
	data8 0				// symlink
	data8 0				// readlink
	data8 0				// uselib
	data8 0				// swapon
	data8 0				// swapoff		// 1095
	data8 0				// reboot
	data8 0				// truncate
	data8 0				// ftruncate
	data8 0				// fchmod
	data8 0				// fchown		// 1100
	data8 0				// getpriority
	data8 0				// setpriority
	data8 0				// statfs
	data8 0				// fstatfs
	data8 0				// gettid		// 1105
	data8 0				// semget
	data8 0				// semop
	data8 0				// semctl
	data8 0				// msgget
	data8 0				// msgsnd		// 1110
	data8 0				// msgrcv
	data8 0				// msgctl
	data8 0				// shmget
	data8 0				// shmat
	data8 0				// shmdt		// 1115
	data8 0				// shmctl
	data8 0				// syslog
	data8 0				// setitimer
	data8 0				// getitimer
	data8 0					 		// 1120
	data8 0
	data8 0
	data8 0				// vhangup
	data8 0				// lchown
	data8 0				// remap_file_pages	// 1125
	data8 0				// wait4
	data8 0				// sysinfo
	data8 0				// clone
	data8 0				// setdomainname
	data8 0				// newuname		// 1130
	data8 0				// adjtimex
	data8 0
	data8 0				// init_module
	data8 0				// delete_module
	data8 0							// 1135
	data8 0
	data8 0				// quotactl
	data8 0				// bdflush
	data8 0				// sysfs
	data8 0				// personality		// 1140
	data8 0				// afs_syscall
	data8 0				// setfsuid
	data8 0				// setfsgid
	data8 0				// getdents
	data8 0				// flock		// 1145
	data8 0				// readv
	data8 0				// writev
	data8 0				// pread64
	data8 0				// pwrite64
	data8 0				// sysctl		// 1150
	data8 0				// mmap
	data8 0				// munmap
	data8 0				// mlock
	data8 0				// mlockall
	data8 0				// mprotect		// 1155
	data8 0				// mremap
	data8 0				// msync
	data8 0				// munlock
	data8 0				// munlockall
	data8 0				// sched_getparam	// 1160
	data8 0				// sched_setparam
	data8 0				// sched_getscheduler
	data8 0				// sched_setscheduler
	data8 0				// sched_yield
	data8 0				// sched_get_priority_max	// 1165
	data8 0				// sched_get_priority_min
	data8 0				// sched_rr_get_interval
	data8 0				// nanosleep
	data8 0				// nfsservctl
	data8 0				// prctl		// 1170
	data8 0				// getpagesize
	data8 0				// mmap2
	data8 0				// pciconfig_read
	data8 0				// pciconfig_write
	data8 0				// perfmonctl		// 1175
	data8 0				// sigaltstack
	data8 0				// rt_sigaction
	data8 0				// rt_sigpending
	data8 0				// rt_sigprocmask
	data8 0				// rt_sigqueueinfo	// 1180
	data8 0				// rt_sigreturn
	data8 0				// rt_sigsuspend
	data8 0				// rt_sigtimedwait
	data8 0				// getcwd
	data8 0				// capget		// 1185
	data8 0				// capset
	data8 0				// sendfile
	data8 0
	data8 0
	data8 0				// socket		// 1190
	data8 0				// bind
	data8 0				// connect
	data8 0				// listen
	data8 0				// accept
	data8 0				// getsockname		// 1195
	data8 0				// getpeername
	data8 0				// socketpair
	data8 0				// send
	data8 0				// sendto
	data8 0				// recv			// 1200
	data8 0				// recvfrom
	data8 0				// shutdown
	data8 0				// setsockopt
	data8 0				// getsockopt
	data8 0				// sendmsg		// 1205
	data8 0				// recvmsg
	data8 0				// pivot_root
	data8 0				// mincore
	data8 0				// madvise
	data8 0				// newstat		// 1210
	data8 0				// newlstat
	data8 0				// newfstat
	data8 0				// clone2
	data8 0				// getdents64
	data8 0				// getunwind		// 1215
	data8 0				// readahead
	data8 0				// setxattr
	data8 0				// lsetxattr
	data8 0				// fsetxattr
	data8 0				// getxattr		// 1220
	data8 0				// lgetxattr
	data8 0				// fgetxattr
	data8 0				// listxattr
	data8 0				// llistxattr
	data8 0				// flistxattr		// 1225
	data8 0				// removexattr
	data8 0				// lremovexattr
	data8 0				// fremovexattr
	data8 0				// tkill
	data8 0				// futex		// 1230
	data8 0				// sched_setaffinity
	data8 0				// sched_getaffinity
	data8 fsys_set_tid_address	// set_tid_address
	data8 0				// fadvise64_64
	data8 0				// tgkill		// 1235
	data8 0				// exit_group
	data8 0				// lookup_dcookie
	data8 0				// io_setup
	data8 0				// io_destroy
	data8 0				// io_getevents		// 1240
	data8 0				// io_submit
	data8 0				// io_cancel
	data8 0				// epoll_create
	data8 0				// epoll_ctl
	data8 0				// epoll_wait		// 1245
	data8 0				// restart_syscall
	data8 0				// semtimedop
	data8 0				// timer_create
	data8 0				// timer_settime
	data8 0				// timer_gettime 	// 1250
	data8 0				// timer_getoverrun
	data8 0				// timer_delete
	data8 0				// clock_settime
	data8 fsys_clock_gettime	// clock_gettime
	data8 0				// clock_getres		// 1255
	data8 0				// clock_nanosleep
	data8 0				// fstatfs64
	data8 0				// statfs64
	data8 0				// mbind
	data8 0				// get_mempolicy	// 1260
	data8 0				// set_mempolicy
	data8 0				// mq_open
	data8 0				// mq_unlink
	data8 0				// mq_timedsend
	data8 0				// mq_timedreceive	// 1265
	data8 0				// mq_notify
	data8 0				// mq_getsetattr
	data8 0				// kexec_load
	data8 0				// vserver
	data8 0				// waitid		// 1270
	data8 0				// add_key
	data8 0				// request_key
	data8 0				// keyctl
	data8 0				// ioprio_set
	data8 0				// ioprio_get		// 1275
	data8 0				// move_pages
	data8 0				// inotify_init
	data8 0				// inotify_add_watch
	data8 0				// inotify_rm_watch
	data8 0				// migrate_pages	// 1280
	data8 0				// openat
	data8 0				// mkdirat
	data8 0				// mknodat
	data8 0				// fchownat
	data8 0				// futimesat		// 1285
	data8 0				// newfstatat
	data8 0				// unlinkat
	data8 0				// renameat
	data8 0				// linkat
	data8 0				// symlinkat		// 1290
	data8 0				// readlinkat
	data8 0				// fchmodat
	data8 0				// faccessat
	data8 0
	data8 0							// 1295
	data8 0				// unshare
	data8 0				// splice
	data8 0				// set_robust_list
	data8 0				// get_robust_list
	data8 0				// sync_file_range	// 1300
	data8 0				// tee
	data8 0				// vmsplice
	data8 0
	data8 fsys_getcpu		// getcpu		// 1304

	// fill in zeros for the remaining entries
	.zero:
	.space paravirt_fsyscall_table + 8*NR_syscalls - .zero, 0