/* * Copyright (c) 2003 Apple Computer, Inc. All rights reserved. * * @APPLE_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. 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_LICENSE_HEADER_END@ */ #include #include // EXT, LEXT #include #include .text .align 2 #define MP_SPIN_TRIES 1000 /* The user mode spinlock library. There are many versions, * in order to take advantage of a few special cases: * - no barrier instructions (SYNC,ISYNC) are needed if UP * - 64-bit processors can use LWSYNC instead of SYNC (if MP) * - 32-bit processors can use ISYNC/EIEIO instead of SYNC (if MP) * - branch hints appropriate to the processor (+ vs ++ etc) * - potentially custom relinquish strategies (not used at present) * - fixes for errata as necessary * * The convention for lockwords is that 0==free and -1==locked. */ spinlock_32_try_mp: mr r5, r3 li r3, 1 1: lwarx r4,0,r5 li r6,-1 // locked == -1 cmpwi r4,0 bne- 2f stwcx. r6,0,r5 isync // cancel speculative execution beqlr+ b 1b 2: li r3,0 // we did not get the lock blr COMMPAGE_DESCRIPTOR(spinlock_32_try_mp,_COMM_PAGE_SPINLOCK_TRY,0,k64Bit+kUP,kCommPage32) spinlock_32_try_up: mr r5, r3 li r3, 1 1: lwarx r4,0,r5 li r6,-1 // locked == -1 cmpwi r4,0 bne- 2f stwcx. r6,0,r5 beqlr+ b 1b 2: li r3,0 // we did not get the lock blr COMMPAGE_DESCRIPTOR(spinlock_32_try_up,_COMM_PAGE_SPINLOCK_TRY,kUP,k64Bit,kCommPage32) spinlock_32_lock_mp: li r5,MP_SPIN_TRIES 1: lwarx r4,0,r3 li r6,-1 // locked == -1 cmpwi r4,0 bne- 2f stwcx. r6,0,r3 isync // cancel speculative execution beqlr+ // we return void b 1b 2: subic. r5,r5,1 // try again before relinquish? bne 1b ba _COMM_PAGE_RELINQUISH COMMPAGE_DESCRIPTOR(spinlock_32_lock_mp,_COMM_PAGE_SPINLOCK_LOCK,0,k64Bit+kUP,kCommPage32) spinlock_32_lock_up: 1: lwarx r4,0,r3 li r6,-1 // locked == -1 cmpwi r4,0 bnea- _COMM_PAGE_RELINQUISH // always depress on UP (let lock owner run) stwcx. r6,0,r3 beqlr+ // we return void b 1b COMMPAGE_DESCRIPTOR(spinlock_32_lock_up,_COMM_PAGE_SPINLOCK_LOCK,kUP,k64Bit,kCommPage32) spinlock_32_unlock_mp: li r4,0 isync // complete prior stores before unlock eieio // (using isync/eieio is faster than a sync) stw r4,0(r3) blr COMMPAGE_DESCRIPTOR(spinlock_32_unlock_mp,_COMM_PAGE_SPINLOCK_UNLOCK,0,k64Bit+kUP,kCommPage32) spinlock_32_unlock_up: li r4,0 stw r4,0(r3) blr COMMPAGE_DESCRIPTOR(spinlock_32_unlock_up,_COMM_PAGE_SPINLOCK_UNLOCK,kUP,k64Bit,kCommPage32) spinlock_64_try_mp: mr r5, r3 li r3, 1 1: lwarx r4,0,r5 li r6,-1 // locked == -1 cmpwi r4,0 bne-- 2f stwcx. r6,0,r5 isync // cancel speculative execution beqlr++ b 1b 2: li r6,-4 stwcx. r5,r6,r1 // clear the pending reservation (using red zone) li r3,0 // we did not get the lock blr COMMPAGE_DESCRIPTOR(spinlock_64_try_mp,_COMM_PAGE_SPINLOCK_TRY,k64Bit,kUP,kCommPageBoth) spinlock_64_try_up: mr r5, r3 li r3, 1 1: lwarx r4,0,r5 li r6,-1 // locked == -1 cmpwi r4,0 bne-- 2f stwcx. r6,0,r5 beqlr++ b 1b 2: li r6,-4 stwcx. r5,r6,r1 // clear the pending reservation (using red zone) li r3,0 // we did not get the lock blr COMMPAGE_DESCRIPTOR(spinlock_64_try_up,_COMM_PAGE_SPINLOCK_TRY,k64Bit+kUP,0,kCommPageBoth) spinlock_64_lock_mp: li r5,MP_SPIN_TRIES 1: lwarx r4,0,r3 li r6,-1 // locked == -1 cmpwi r4,0 bne-- 2f stwcx. r6,0,r3 isync // cancel speculative execution beqlr++ // we return void b 1b 2: li r6,-4 stwcx. r3,r6,r1 // clear the pending reservation (using red zone) subic. r5,r5,1 // try again before relinquish? bne-- 1b // mispredict this one (a cheap back-off) ba _COMM_PAGE_RELINQUISH COMMPAGE_DESCRIPTOR(spinlock_64_lock_mp,_COMM_PAGE_SPINLOCK_LOCK,k64Bit,kUP,kCommPageBoth) spinlock_64_lock_up: 1: lwarx r4,0,r3 li r6,-1 // locked == -1 cmpwi r4,0 bne-- 2f stwcx. r6,0,r3 beqlr++ // we return void b 1b 2: // always relinquish on UP (let lock owner run) li r6,-4 stwcx. r3,r6,r1 // clear the pending reservation (using red zone) ba _COMM_PAGE_RELINQUISH COMMPAGE_DESCRIPTOR(spinlock_64_lock_up,_COMM_PAGE_SPINLOCK_LOCK,k64Bit+kUP,0,kCommPageBoth) spinlock_64_unlock_mp: lwsync // complete prior stores before unlock li r4,0 stw r4,0(r3) blr COMMPAGE_DESCRIPTOR(spinlock_64_unlock_mp,_COMM_PAGE_SPINLOCK_UNLOCK,k64Bit,kUP,kCommPageBoth) spinlock_64_unlock_up: li r4,0 stw r4,0(r3) blr COMMPAGE_DESCRIPTOR(spinlock_64_unlock_up,_COMM_PAGE_SPINLOCK_UNLOCK,k64Bit+kUP,0,kCommPageBoth) spinlock_relinquish: mr r12,r3 // preserve lockword ptr across relinquish li r3,0 // THREAD_NULL li r4,1 // SWITCH_OPTION_DEPRESS li r5,1 // timeout (ms) li r0,-61 // SYSCALL_THREAD_SWITCH sc // relinquish mr r3,r12 ba _COMM_PAGE_SPINLOCK_LOCK COMMPAGE_DESCRIPTOR(spinlock_relinquish,_COMM_PAGE_RELINQUISH,0,0,kCommPageBoth)