/* * Copyright (c) 2003-2005 Apple Computer, Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ #include #include // EXT, LEXT #include #include /* The red zone is used to move data between GPRs and FPRs: */ #define rzTicks -8 // elapsed ticks since timestamp (double) #define rzSeconds -16 // seconds since timestamp (double) #define rzUSeconds -24 // useconds since timestamp (double) .text .align 2 // ********************************* // * G E T T I M E O F D A Y _ 3 2 * // ********************************* // // This is a subroutine of gettimeofday.c that gets the seconds and microseconds // in user mode, usually without having to make a system call. We do not deal with // the timezone. The kernel maintains the following values in the comm page: // // _COMM_PAGE_TIMESTAMP = 64 bit seconds timestamp // // _COMM_PAGE_TIMEBASE = the timebase at which the timestamp was valid // // _COMM_PAGE_SEC_PER_TICK = multiply timebase ticks by this to get seconds (double) // // _COMM_PAGE_2_TO_52 = double precision constant 2**52 // // _COMM_PAGE_10_TO_6 = double precision constant 10**6 // // We have to be careful to read these values atomically. The kernel updates them // asynchronously to account for drift or time changes (eg, ntp.) We adopt the // convention that (timebase==0) means the timestamp is invalid, in which case we // return a bad status so our caller can make the system call. // // r3 = ptr to user's timeval structure (should not be null) gettimeofday_32: // int gettimeofday(timeval *tp); 0: lwz r5,_COMM_PAGE_TIMEBASE+0(0) // r5,r6 = TBR at timestamp lwz r6,_COMM_PAGE_TIMEBASE+4(0) lwz r8,_COMM_PAGE_TIMESTAMP+4(0) // r8 = timestamp 32 bit seconds lfd f1,_COMM_PAGE_SEC_PER_TICK(0) 1: mftbu r10 // r10,r11 = current timebase mftb r11 mftbu r12 cmplw r10,r12 bne- 1b or. r0,r5,r6 // timebase 0? (ie, is timestamp invalid?) sync // create a barrier (patched to NOP if UP) lwz r0,_COMM_PAGE_TIMEBASE+0(0) // then load data a 2nd time lwz r12,_COMM_PAGE_TIMEBASE+4(0) lwz r9,_COMM_PAGE_TIMESTAMP+4(0) cmplw cr6,r5,r0 // did we read a consistent set? cmplw cr7,r6,r12 beq- 3f // timestamp is disabled so return bad status cmplw cr5,r9,r8 crand cr0_eq,cr6_eq,cr7_eq crand cr0_eq,cr0_eq,cr5_eq bne- 0b // loop until we have a consistent set of data subfc r11,r6,r11 // compute ticks since timestamp lwz r9,_COMM_PAGE_2_TO_52(0) // get exponent for (2**52) subfe r10,r5,r10 // complete 64-bit subtract lfd f2,_COMM_PAGE_2_TO_52(0) // f2 <- (2**52) srwi. r0,r10,2 // if more than 2**34 ticks have elapsed... stw r11,rzTicks+4(r1) // store elapsed ticks into red zone or r10,r10,r9 // convert long-long in (r10,r11) into double bne- 3f // ...call kernel to reprime timestamp stw r10,rzTicks(r1) // complete double mffs f7 mtfsfi 7,1 lfd f3,rzTicks(r1) // get elapsed ticks since timestamp + 2**52 fsub f4,f3,f2 // subtract 2**52 and normalize fmul f5,f4,f1 // f5 <- elapsed seconds since timestamp lfd f3,_COMM_PAGE_10_TO_6(0) // get 10**6 fctiwz f6,f5 // convert to integer stfd f6,rzSeconds(r1) // store integer seconds into red zone stw r9,rzSeconds(r1) // prepare to reload as floating pt lfd f6,rzSeconds(r1) // get seconds + 2**52 fsub f6,f6,f2 // f6 <- integral seconds fsub f6,f5,f6 // f6 <- fractional part of elapsed seconds fmul f6,f6,f3 // f6 <- fractional elapsed useconds fctiwz f6,f6 // convert useconds to integer stfd f6,rzUSeconds(r1) // store useconds into red zone mtfsf 0xff,f7 lwz r5,rzSeconds+4(r1) // r5 <- seconds since timestamp lwz r7,rzUSeconds+4(r1) // r7 <- useconds since timestamp add r6,r8,r5 // add elapsed seconds to timestamp seconds stw r6,0(r3) // store secs//usecs into user's timeval stw r7,4(r3) li r3,0 // return success blr 3: // too long since last timestamp or this code is disabled li r3,1 // return bad status so our caller will make syscall blr COMMPAGE_DESCRIPTOR(gettimeofday_32,_COMM_PAGE_GETTIMEOFDAY,0,k64Bit,kCommPageSYNC+kCommPage32) // *************************************** // * G E T T I M E O F D A Y _ G 5 _ 3 2 * // *************************************** // // This routine is called in 32-bit mode on 64-bit processors. A timeval is a struct of // a long seconds and int useconds, so its size depends on mode. gettimeofday_g5_32: // int gettimeofday(timeval *tp); 0: ld r6,_COMM_PAGE_TIMEBASE(0) // r6 = TBR at timestamp ld r8,_COMM_PAGE_TIMESTAMP(0) // r8 = timestamp (seconds) lfd f1,_COMM_PAGE_SEC_PER_TICK(0) mftb r10 // r10 = get current timebase lwsync // create a barrier if MP (patched to NOP if UP) ld r11,_COMM_PAGE_TIMEBASE(0) // then get data a 2nd time ld r12,_COMM_PAGE_TIMESTAMP(0) cmpdi cr1,r6,0 // is the timestamp disabled? cmpld cr6,r6,r11 // did we read a consistent set? cmpld cr7,r8,r12 beq-- cr1,3f // exit if timestamp disabled crand cr6_eq,cr7_eq,cr6_eq sub r11,r10,r6 // compute elapsed ticks from timestamp bne-- cr6,0b // loop until we have a consistent set of data srdi. r0,r11,35 // has it been more than 2**35 ticks since last timestamp? std r11,rzTicks(r1) // put ticks in redzone where we can "lfd" it bne-- 3f // timestamp too old, so reprime mffs f7 mtfsfi 7,1 lfd f3,rzTicks(r1) // get elapsed ticks since timestamp (fixed pt) fcfid f4,f3 // float the tick count fmul f5,f4,f1 // f5 <- elapsed seconds since timestamp lfd f3,_COMM_PAGE_10_TO_6(0) // get 10**6 fctidz f6,f5 // convert integer seconds to fixed pt stfd f6,rzSeconds(r1) // save fixed pt integer seconds in red zone fcfid f6,f6 // float the integer seconds fsub f6,f5,f6 // f6 <- fractional part of elapsed seconds fmul f6,f6,f3 // f6 <- fractional elapsed useconds fctidz f6,f6 // convert useconds to fixed pt integer stfd f6,rzUSeconds(r1) // store useconds into red zone mtfsf 0xff,f7 lwz r5,rzSeconds+4(r1) // r5 <- seconds since timestamp lwz r7,rzUSeconds+4(r1) // r7 <- useconds since timestamp add r6,r8,r5 // add elapsed seconds to timestamp seconds stw r6,0(r3) // store secs//usecs into user's timeval stw r7,4(r3) li r3,0 // return success blr 3: // too long since last timestamp or this code is disabled li r3,1 // return bad status so our caller will make syscall blr COMMPAGE_DESCRIPTOR(gettimeofday_g5_32,_COMM_PAGE_GETTIMEOFDAY,k64Bit,0,kCommPageSYNC+kCommPage32) // *************************************** // * G E T T I M E O F D A Y _ G 5 _ 6 4 * // *************************************** // // This routine is called in 64-bit mode on 64-bit processors. A timeval is a struct of // a long seconds and int useconds, so its size depends on mode. gettimeofday_g5_64: // int gettimeofday(timeval *tp); 0: ld r6,_COMM_PAGE_TIMEBASE(0) // r6 = TBR at timestamp ld r8,_COMM_PAGE_TIMESTAMP(0) // r8 = timestamp (seconds) lfd f1,_COMM_PAGE_SEC_PER_TICK(0) mftb r10 // r10 = get current timebase lwsync // create a barrier if MP (patched to NOP if UP) ld r11,_COMM_PAGE_TIMEBASE(0) // then get data a 2nd time ld r12,_COMM_PAGE_TIMESTAMP(0) cmpdi cr1,r6,0 // is the timestamp disabled? cmpld cr6,r6,r11 // did we read a consistent set? cmpld cr7,r8,r12 beq-- cr1,3f // exit if timestamp disabled crand cr6_eq,cr7_eq,cr6_eq sub r11,r10,r6 // compute elapsed ticks from timestamp bne-- cr6,0b // loop until we have a consistent set of data srdi. r0,r11,35 // has it been more than 2**35 ticks since last timestamp? std r11,rzTicks(r1) // put ticks in redzone where we can "lfd" it bne-- 3f // timestamp too old, so reprime mffs f7 mtfsfi 7,1 lfd f3,rzTicks(r1) // get elapsed ticks since timestamp (fixed pt) fcfid f4,f3 // float the tick count fmul f5,f4,f1 // f5 <- elapsed seconds since timestamp lfd f3,_COMM_PAGE_10_TO_6(0) // get 10**6 fctidz f6,f5 // convert integer seconds to fixed pt stfd f6,rzSeconds(r1) // save fixed pt integer seconds in red zone fcfid f6,f6 // float the integer seconds fsub f6,f5,f6 // f6 <- fractional part of elapsed seconds fmul f6,f6,f3 // f6 <- fractional elapsed useconds fctidz f6,f6 // convert useconds to fixed pt integer stfd f6,rzUSeconds(r1) // store useconds into red zone mtfsf 0xff,f7 lwz r5,rzSeconds+4(r1) // r5 <- seconds since timestamp lwz r7,rzUSeconds+4(r1) // r7 <- useconds since timestamp add r6,r8,r5 // add elapsed seconds to timestamp seconds std r6,0(r3) // store secs//usecs into user's timeval stw r7,8(r3) li r3,0 // return success blr 3: // too long since last timestamp or this code is disabled li r3,1 // return bad status so our caller will make syscall blr COMMPAGE_DESCRIPTOR(gettimeofday_g5_64,_COMM_PAGE_GETTIMEOFDAY,k64Bit,0,kCommPageSYNC+kCommPage64)