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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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72e4b2cdf0
The 8xx cannot access the TBL and TBU registers using mfspr/mtspr It must be accessed using mftb/mftbu Due to this, there is a number of places with #ifdef CONFIG_8xx This patch defines new macros MFTBL(x) and MFTBU(x) on the same model as MFTB(x) and tries to make use of them as much as possible. In arch/powerpc/include/asm/timex.h, we also remove the ifdef for the asm() operands as the compiler doesn't mind unused operands Signed-off-by: Christophe Leroy <christophe.leroy@c-s.fr> Signed-off-by: Michael Ellerman <mpe@ellerman.id.au>
293 lines
6.8 KiB
ArmAsm
293 lines
6.8 KiB
ArmAsm
/*
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* Userland implementation of gettimeofday() for 32 bits processes in a
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* ppc64 kernel for use in the vDSO
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*
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* Copyright (C) 2004 Benjamin Herrenschmuidt (benh@kernel.crashing.org,
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* IBM Corp.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version
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* 2 of the License, or (at your option) any later version.
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*/
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#include <asm/processor.h>
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#include <asm/ppc_asm.h>
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#include <asm/vdso.h>
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#include <asm/asm-offsets.h>
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#include <asm/unistd.h>
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/* Offset for the low 32-bit part of a field of long type */
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#ifdef CONFIG_PPC64
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#define LOPART 4
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#define TSPEC_TV_SEC TSPC64_TV_SEC+LOPART
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#else
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#define LOPART 0
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#define TSPEC_TV_SEC TSPC32_TV_SEC
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#endif
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.text
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/*
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* Exact prototype of gettimeofday
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*
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* int __kernel_gettimeofday(struct timeval *tv, struct timezone *tz);
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*
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*/
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V_FUNCTION_BEGIN(__kernel_gettimeofday)
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.cfi_startproc
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mflr r12
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.cfi_register lr,r12
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mr r10,r3 /* r10 saves tv */
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mr r11,r4 /* r11 saves tz */
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bl __get_datapage@local /* get data page */
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mr r9, r3 /* datapage ptr in r9 */
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cmplwi r10,0 /* check if tv is NULL */
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beq 3f
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lis r7,1000000@ha /* load up USEC_PER_SEC */
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addi r7,r7,1000000@l /* so we get microseconds in r4 */
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bl __do_get_tspec@local /* get sec/usec from tb & kernel */
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stw r3,TVAL32_TV_SEC(r10)
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stw r4,TVAL32_TV_USEC(r10)
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3: cmplwi r11,0 /* check if tz is NULL */
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beq 1f
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lwz r4,CFG_TZ_MINUTEWEST(r9)/* fill tz */
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lwz r5,CFG_TZ_DSTTIME(r9)
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stw r4,TZONE_TZ_MINWEST(r11)
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stw r5,TZONE_TZ_DSTTIME(r11)
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1: mtlr r12
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crclr cr0*4+so
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li r3,0
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blr
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.cfi_endproc
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V_FUNCTION_END(__kernel_gettimeofday)
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/*
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* Exact prototype of clock_gettime()
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*
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* int __kernel_clock_gettime(clockid_t clock_id, struct timespec *tp);
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*
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*/
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V_FUNCTION_BEGIN(__kernel_clock_gettime)
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.cfi_startproc
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/* Check for supported clock IDs */
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cmpli cr0,r3,CLOCK_REALTIME
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cmpli cr1,r3,CLOCK_MONOTONIC
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cror cr0*4+eq,cr0*4+eq,cr1*4+eq
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bne cr0,99f
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mflr r12 /* r12 saves lr */
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.cfi_register lr,r12
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mr r11,r4 /* r11 saves tp */
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bl __get_datapage@local /* get data page */
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mr r9,r3 /* datapage ptr in r9 */
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lis r7,NSEC_PER_SEC@h /* want nanoseconds */
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ori r7,r7,NSEC_PER_SEC@l
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50: bl __do_get_tspec@local /* get sec/nsec from tb & kernel */
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bne cr1,80f /* not monotonic -> all done */
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/*
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* CLOCK_MONOTONIC
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*/
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/* now we must fixup using wall to monotonic. We need to snapshot
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* that value and do the counter trick again. Fortunately, we still
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* have the counter value in r8 that was returned by __do_get_xsec.
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* At this point, r3,r4 contain our sec/nsec values, r5 and r6
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* can be used, r7 contains NSEC_PER_SEC.
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*/
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lwz r5,WTOM_CLOCK_SEC(r9)
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lwz r6,WTOM_CLOCK_NSEC(r9)
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/* We now have our offset in r5,r6. We create a fake dependency
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* on that value and re-check the counter
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*/
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or r0,r6,r5
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xor r0,r0,r0
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add r9,r9,r0
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lwz r0,(CFG_TB_UPDATE_COUNT+LOPART)(r9)
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cmpl cr0,r8,r0 /* check if updated */
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bne- 50b
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/* Calculate and store result. Note that this mimics the C code,
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* which may cause funny results if nsec goes negative... is that
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* possible at all ?
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*/
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add r3,r3,r5
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add r4,r4,r6
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cmpw cr0,r4,r7
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cmpwi cr1,r4,0
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blt 1f
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subf r4,r7,r4
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addi r3,r3,1
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1: bge cr1,80f
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addi r3,r3,-1
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add r4,r4,r7
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80: stw r3,TSPC32_TV_SEC(r11)
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stw r4,TSPC32_TV_NSEC(r11)
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mtlr r12
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crclr cr0*4+so
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li r3,0
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blr
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/*
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* syscall fallback
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*/
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99:
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li r0,__NR_clock_gettime
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sc
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blr
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.cfi_endproc
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V_FUNCTION_END(__kernel_clock_gettime)
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/*
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* Exact prototype of clock_getres()
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*
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* int __kernel_clock_getres(clockid_t clock_id, struct timespec *res);
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*
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*/
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V_FUNCTION_BEGIN(__kernel_clock_getres)
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.cfi_startproc
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/* Check for supported clock IDs */
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cmpwi cr0,r3,CLOCK_REALTIME
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cmpwi cr1,r3,CLOCK_MONOTONIC
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cror cr0*4+eq,cr0*4+eq,cr1*4+eq
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bne cr0,99f
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li r3,0
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cmpli cr0,r4,0
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crclr cr0*4+so
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beqlr
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lis r5,CLOCK_REALTIME_RES@h
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ori r5,r5,CLOCK_REALTIME_RES@l
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stw r3,TSPC32_TV_SEC(r4)
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stw r5,TSPC32_TV_NSEC(r4)
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blr
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/*
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* syscall fallback
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*/
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99:
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li r0,__NR_clock_getres
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sc
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blr
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.cfi_endproc
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V_FUNCTION_END(__kernel_clock_getres)
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/*
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* Exact prototype of time()
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*
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* time_t time(time *t);
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*
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*/
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V_FUNCTION_BEGIN(__kernel_time)
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.cfi_startproc
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mflr r12
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.cfi_register lr,r12
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mr r11,r3 /* r11 holds t */
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bl __get_datapage@local
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mr r9, r3 /* datapage ptr in r9 */
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lwz r3,STAMP_XTIME+TSPEC_TV_SEC(r9)
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cmplwi r11,0 /* check if t is NULL */
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beq 2f
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stw r3,0(r11) /* store result at *t */
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2: mtlr r12
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crclr cr0*4+so
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blr
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.cfi_endproc
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V_FUNCTION_END(__kernel_time)
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/*
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* This is the core of clock_gettime() and gettimeofday(),
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* it returns the current time in r3 (seconds) and r4.
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* On entry, r7 gives the resolution of r4, either USEC_PER_SEC
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* or NSEC_PER_SEC, giving r4 in microseconds or nanoseconds.
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* It expects the datapage ptr in r9 and doesn't clobber it.
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* It clobbers r0, r5 and r6.
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* On return, r8 contains the counter value that can be reused.
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* This clobbers cr0 but not any other cr field.
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*/
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__do_get_tspec:
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.cfi_startproc
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/* Check for update count & load values. We use the low
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* order 32 bits of the update count
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*/
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1: lwz r8,(CFG_TB_UPDATE_COUNT+LOPART)(r9)
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andi. r0,r8,1 /* pending update ? loop */
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bne- 1b
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xor r0,r8,r8 /* create dependency */
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add r9,r9,r0
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/* Load orig stamp (offset to TB) */
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lwz r5,CFG_TB_ORIG_STAMP(r9)
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lwz r6,(CFG_TB_ORIG_STAMP+4)(r9)
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/* Get a stable TB value */
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2: MFTBU(r3)
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MFTBL(r4)
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MFTBU(r0)
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cmplw cr0,r3,r0
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bne- 2b
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/* Subtract tb orig stamp and shift left 12 bits.
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*/
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subfc r4,r6,r4
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subfe r0,r5,r3
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slwi r0,r0,12
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rlwimi. r0,r4,12,20,31
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slwi r4,r4,12
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/*
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* Load scale factor & do multiplication.
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* We only use the high 32 bits of the tb_to_xs value.
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* Even with a 1GHz timebase clock, the high 32 bits of
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* tb_to_xs will be at least 4 million, so the error from
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* ignoring the low 32 bits will be no more than 0.25ppm.
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* The error will just make the clock run very very slightly
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* slow until the next time the kernel updates the VDSO data,
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* at which point the clock will catch up to the kernel's value,
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* so there is no long-term error accumulation.
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*/
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lwz r5,CFG_TB_TO_XS(r9) /* load values */
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mulhwu r4,r4,r5
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li r3,0
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beq+ 4f /* skip high part computation if 0 */
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mulhwu r3,r0,r5
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mullw r5,r0,r5
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addc r4,r4,r5
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addze r3,r3
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4:
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/* At this point, we have seconds since the xtime stamp
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* as a 32.32 fixed-point number in r3 and r4.
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* Load & add the xtime stamp.
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*/
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lwz r5,STAMP_XTIME+TSPEC_TV_SEC(r9)
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lwz r6,STAMP_SEC_FRAC(r9)
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addc r4,r4,r6
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adde r3,r3,r5
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/* We create a fake dependency on the result in r3/r4
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* and re-check the counter
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*/
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or r6,r4,r3
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xor r0,r6,r6
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add r9,r9,r0
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lwz r0,(CFG_TB_UPDATE_COUNT+LOPART)(r9)
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cmplw cr0,r8,r0 /* check if updated */
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bne- 1b
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mulhwu r4,r4,r7 /* convert to micro or nanoseconds */
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blr
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.cfi_endproc
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