X-Git-Url: https://git.saurik.com/apple/xnu.git/blobdiff_plain/b4c24cb9d3df001f2892dc4ed451bc769ff28a9f..d7e50217d7adf6e52786a38bcaa4cd698cb9a79e:/osfmk/ppc/savearea_asm.s diff --git a/osfmk/ppc/savearea_asm.s b/osfmk/ppc/savearea_asm.s index d3891b019..fe332b864 100644 --- a/osfmk/ppc/savearea_asm.s +++ b/osfmk/ppc/savearea_asm.s @@ -3,19 +3,22 @@ * * @APPLE_LICENSE_HEADER_START@ * - * The contents of this file constitute Original Code as defined in and - * are subject to the Apple Public Source License Version 1.1 (the - * "License"). You may not use this file except in compliance with the - * License. Please obtain a copy of the License at - * http://www.apple.com/publicsource and read it before using this file. + * Copyright (c) 1999-2003 Apple Computer, Inc. All Rights Reserved. * - * This Original Code and all software distributed under the License are - * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER + * 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 OR NON-INFRINGEMENT. Please see the - * License for the specific language governing rights and limitations - * under the License. + * 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@ */ @@ -34,574 +37,796 @@ #include #include #include -#include #include #include .text +/* Register usage conventions in this code: + * r9 = return address + * r10 = per-proc ptr + * r11 = MSR at entry + * cr6 = feature flags (ie, pf64Bit) + * + * Because much of this code deals with physical addresses, + * there are parallel paths for 32- and 64-bit machines. + */ + + /* - * This routine will add a savearea block to the free list. - * Note really well: we can take NO exceptions of any kind, - * including a PTE miss once the savearea lock is held. That's - * a guaranteed deadlock. That means we must disable for interrutions - * and turn all translation off. + * *********************** + * * s a v e _ q u e u e * + * *********************** * + * void save_queue(ppnum_t pagenum); + * + * This routine will add a savearea block to the free list. * We also queue the block to the free pool list. This is a * circular double linked list. Because this block has no free entries, * it gets queued to the end of the list - * */ - .align 5 .globl EXT(save_queue) LEXT(save_queue) + mflr r9 ; get return address + mr r8,r3 ; move pagenum out of the way + bl saveSetup ; turn translation off, 64-bit on, load many regs + bf-- pf64Bitb,saveQueue32 ; skip if 32-bit processor + + sldi r2,r8,12 ; r2 <-- phys address of page + li r8,sac_cnt ; Get the number of saveareas per page + mr r4,r2 ; Point to start of chain + li r0,SAVempty ; Get empty marker - mfsprg r9,2 ; Get the feature flags - mr r11,r3 ; Save the block - mtcrf 0x04,r9 ; Set the features - mfmsr r12 ; Get the MSR - rlwinm r12,r12,0,MSR_FP_BIT+1,MSR_FP_BIT-1 ; Force floating point off - rlwinm r12,r12,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1 ; Force vectors off - lis r10,hi16(EXT(saveanchor)) ; Get the high part of the anchor - andi. r3,r12,0x7FCF ; Turn off all translation and rupts - ori r10,r10,lo16(EXT(saveanchor)) ; Bottom half of the anchor - - bt pfNoMSRirb,sqNoMSR ; No MSR... - - mtmsr r3 ; Translation and all off - isync ; Toss prefetch - b sqNoMSRx - -sqNoMSR: li r0,loadMSR ; Get the MSR setter SC - sc ; Set it -sqNoMSRx: - - rlwinm. r3,r11,0,0,19 ; (TEST/DEBUG) -#if 0 - bne+ notrapit ; (TEST/DEBUG) - BREAKPOINT_TRAP ; (TEST/DEBUG) -notrapit: ; (TEST/DEBUG) -#endif +saveQueue64a: + addic. r8,r8,-1 ; Keep track of how many we did + stb r0,SAVflags+2(r4) ; Set empty + addi r7,r4,SAVsize ; Point to the next slot + ble- saveQueue64b ; We are done with the chain + std r7,SAVprev(r4) ; Set this chain + mr r4,r7 ; Step to the next + b saveQueue64a ; Fill the whole block... + +saveQueue64b: + bl savelock ; Go lock the save anchor + ld r7,SVfree(0) ; Get the free save area list anchor + lwz r6,SVfreecnt(0) ; Get the number of free saveareas + std r2,SVfree(0) ; Queue in the new one + addi r6,r6,sac_cnt ; Count the ones we are linking in + std r7,SAVprev(r4) ; Queue the old first one off of us + stw r6,SVfreecnt(0) ; Save the new count + b saveQueueExit + + ; Handle 32-bit processor. + +saveQueue32: + slwi r2,r8,12 ; r2 <-- phys address of page li r8,sac_cnt ; Get the number of saveareas per page - mr r4,r11 ; Point to start of chain + mr r4,r2 ; Point to start of chain li r0,SAVempty ; Get empty marker -sqchain: addic. r8,r8,-1 ; Keep track of how many we did +saveQueue32a: + addic. r8,r8,-1 ; Keep track of how many we did stb r0,SAVflags+2(r4) ; Set empty - addi r9,r4,SAVsize ; Point to the next slot - ble- sqchaindn ; We are done with the chain - stw r9,SAVprev(r4) ; Set this chain - mr r4,r9 ; Step to the next - b sqchain ; Fill the whole block... - - .align 5 + addi r7,r4,SAVsize ; Point to the next slot + ble- saveQueue32b ; We are done with the chain + stw r7,SAVprev+4(r4) ; Set this chain + mr r4,r7 ; Step to the next + b saveQueue32a ; Fill the whole block... -sqchaindn: mflr r9 ; Save the return address +saveQueue32b: bl savelock ; Go lock the save anchor - lwz r7,SVfree(r10) ; Get the free save area list anchor - lwz r6,SVfreecnt(r10) ; Get the number of free saveareas + lwz r7,SVfree+4(0) ; Get the free save area list anchor + lwz r6,SVfreecnt(0) ; Get the number of free saveareas - stw r11,SVfree(r10) ; Queue in the new one + stw r2,SVfree+4(0) ; Queue in the new one addi r6,r6,sac_cnt ; Count the ones we are linking in - stw r7,SAVprev(r4) ; Queue the old first one off of us - stw r6,SVfreecnt(r10) ; Save the new count - + stw r7,SAVprev+4(r4) ; Queue the old first one off of us + stw r6,SVfreecnt(0) ; Save the new count + +saveQueueExit: ; join here from 64-bit path bl saveunlock ; Unlock the list and set the adjust count - mtlr r9 ; Restore the return - mtmsr r12 ; Restore interrupts and translation - isync ; Dump any speculations #if FPVECDBG - mfsprg r2,0 ; (TEST/DEBUG) - lwz r2,next_savearea(r2) ; (TEST/DEBUG) + mfsprg r2,1 ; (TEST/DEBUG) mr. r2,r2 ; (TEST/DEBUG) - beqlr- ; (TEST/DEBUG) + beq-- saveRestore ; (TEST/DEBUG) lis r0,hi16(CutTrace) ; (TEST/DEBUG) li r2,0x2201 ; (TEST/DEBUG) oris r0,r0,lo16(CutTrace) ; (TEST/DEBUG) sc ; (TEST/DEBUG) #endif - - blr ; Leave... + b saveRestore ; Restore interrupts and translation /* - * This routine will obtain a savearea. - * Note really well: we can take NO exceptions of any kind, - * including a PTE miss during this process. That's - * a guaranteed deadlock or screwup. That means we must disable for interrutions - * and turn all translation off. - * - * We pass back the virtual address of the one we just obtained - * or a zero if none to allocate. + * ***************************** + * * s a v e _ g e t _ i n i t * + * ***************************** * - * First we try the local list. If that is below a threshold, we will - * lock the free list and replenish. - * - * If there are no saveareas in either list, we will install the - * backpocket and choke. - * - * The save_get_phys call assumes that translation and interruptions are - * already off and that the returned address is physical. + * addr64_t save_get_init(void); * * Note that save_get_init is used in initial processor startup only. It * is used because translation is on, but no tables exist yet and we have * no V=R BAT registers that cover the entire physical memory. - * - * - * NOTE!!! NEVER USE R0, R2, or R12 IN HERE THAT WAY WE DON'T NEED A - * STACK FRAME IN FPU_SAVE, FPU_SWITCH, VEC_SAVE, OR VEC_SWITCH. */ - .align 5 .globl EXT(save_get_init) LEXT(save_get_init) + mflr r9 ; get return address + bl saveSetup ; turn translation off, 64-bit on, load many regs + bfl-- pf64Bitb,saveGet32 ; Get r3 <- savearea, r5 <- page address (with SAC) + btl++ pf64Bitb,saveGet64 ; get one on a 64-bit machine + bl saveRestore ; restore translation etc + mtlr r9 + + ; unpack the physaddr in r3 into a long long in (r3,r4) + + mr r4,r3 ; copy low word of phys address to r4 + li r3,0 ; assume upper word was 0 + bflr-- pf64Bitb ; if 32-bit processor, return + srdi r3,r4,32 ; unpack reg64_t to addr64_t on 64-bit machine + rlwinm r4,r4,0,0,31 + blr + - mfsprg r9,2 ; Get the feature flags - mfmsr r12 ; Get the MSR - rlwinm r12,r12,0,MSR_FP_BIT+1,MSR_FP_BIT-1 ; Force floating point off - rlwinm r12,r12,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1 ; Force vectors off - mtcrf 0x04,r9 ; Set the features - andi. r3,r12,0x7FCF ; Turn off all translation and interrupts - - bt pfNoMSRirb,sgiNoMSR ; No MSR... - - mtmsr r3 ; Translation and all off - isync ; Toss prefetch - b sgiGetPhys ; Go get the savearea... - -sgiNoMSR: li r0,loadMSR ; Get the MSR setter SC - sc ; Set it - -sgiGetPhys: mflr r11 ; Save R11 (save_get_phys does not use this one) - bl EXT(save_get_phys) ; Get a savearea - mtlr r11 ; Restore return - - mtmsr r12 ; Restore translation and exceptions - isync ; Make sure about it - blr ; Return... - +/* + * ******************* + * * s a v e _ g e t * + * ******************* + * + * savearea *save_get(void); + * + * Allocate a savearea, returning a virtual address. NOTE: we must preserve + * r0, r2, and r12. Our callers in cswtch.s depend on this. + */ .align 5 .globl EXT(save_get) LEXT(save_get) - - crclr cr1_eq ; Clear CR1_eq to indicate we want virtual address - mfsprg r9,2 ; Get the feature flags - mfmsr r11 ; Get the MSR - rlwinm. r3,r11,0,MSR_EE_BIT,MSR_EE_BIT ; Are interrupts enabled here? - beq+ sgnomess ; Nope, do not mess with fp or vec... - rlwinm r11,r11,0,MSR_FP_BIT+1,MSR_FP_BIT-1 ; Force floating point off - rlwinm r11,r11,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1 ; Force vectors off - -sgnomess: mtcrf 0x04,r9 ; Set the features - andi. r3,r11,0x7FCF ; Turn off all translation and interrupts - - bt pfNoMSRirb,sgNoMSR ; No MSR... - - mtmsr r3 ; Translation and all off - isync ; Toss prefetch - b csaveget - -sgNoMSR: mr r9,r0 ; Save this - li r0,loadMSR ; Get the MSR setter SC - sc ; Set it - mr r0,r9 ; Restore it + mflr r9 ; get return address + mr r5,r0 ; copy regs before saveSetup nails them + bl saveSetup ; turn translation off, 64-bit on, load many regs + bf-- pf64Bitb,svgt1 ; skip if 32-bit processor + + std r5,tempr0(r10) ; save r0 in per-proc across call to saveGet64 + std r2,tempr2(r10) ; and r2 + std r12,tempr4(r10) ; and r12 + bl saveGet64 ; get r3 <- savearea, r5 <- page address (with SAC) + ld r0,tempr0(r10) ; restore callers regs + ld r2,tempr2(r10) + ld r12,tempr4(r10) + b svgt2 + +svgt1: ; handle 32-bit processor + stw r5,tempr0+4(r10) ; save r0 in per-proc across call to saveGet32 + stw r2,tempr2+4(r10) ; and r2 + stw r12,tempr4+4(r10) ; and r12 + bl saveGet32 ; get r3 <- savearea, r5 <- page address (with SAC) + lwz r0,tempr0+4(r10) ; restore callers regs + lwz r2,tempr2+4(r10) + lwz r12,tempr4+4(r10) + +svgt2: + lwz r5,SACvrswap+4(r5) ; Get the virtual to real translation (only need low word) + mtlr r9 ; restore return address + xor r3,r3,r5 ; convert physaddr to virtual + rlwinm r3,r3,0,0,31 ; 0 upper word if a 64-bit machine - b csaveget ; Join the common... - - .align 5 - .globl EXT(save_get_phys) - -LEXT(save_get_phys) - - crset cr1_eq ; Clear CR1_ne to indicate we want physical address - -csaveget: mfsprg r9,0 ; Get the per proc - lis r10,hi16(EXT(saveanchor)) ; Get the high part of the anchor - lwz r8,lclfreecnt(r9) ; Get the count - lwz r3,lclfree(r9) ; Get the start of local savearea list - cmplwi r8,LocalSaveMin ; Are we too low? - ori r10,r10,lo16(EXT(saveanchor)) ; Bottom half of the anchor - ble- sglow ; We are too low and need to grow list... - -sgreserve: lis r10,0x5555 ; Get top of empty indication - li r6,0 ; zero value - lwz r4,SAVprev(r3) ; Chain to the next one - stw r6,SAVflags(r3) ; Clear flags - ori r10,r10,0x5555 ; And the bottom - subi r8,r8,1 ; Back down count - stw r10,SAVprev(r3) ; Trash this - stw r10,SAVlevel(r3) ; Trash this - stw r4,lclfree(r9) ; Unchain first savearea - rlwinm r5,r3,0,0,19 ; Back up to first page where SAC is - stw r10,SAVact(r3) ; Trash this - stw r8,lclfreecnt(r9) ; Set new count - - btlr+ cr1_eq ; Return now if physical request - - lwz r5,SACvrswap(r5) ; Get the virtual to real translation - - mtmsr r11 ; Restore translation and exceptions - isync ; Make sure about it - #if FPVECDBG -; Note: we do not trace the physical request because this ususally comes from the -; exception vector code - - mr r6,r0 ; (TEST/DEBUG) - mr r7,r2 ; (TEST/DEBUG) + mr r6,r0 ; (TEST/DEBUG) + mr r7,r2 ; (TEST/DEBUG) + mfsprg r2,1 ; (TEST/DEBUG) + mr. r2,r2 ; (TEST/DEBUG) + beq-- svgDBBypass ; (TEST/DEBUG) lis r0,HIGH_ADDR(CutTrace) ; (TEST/DEBUG) li r2,0x2203 ; (TEST/DEBUG) oris r0,r0,LOW_ADDR(CutTrace) ; (TEST/DEBUG) sc ; (TEST/DEBUG) - mr r0,r6 ; (TEST/DEBUG) - mr r2,r7 ; (TEST/DEBUG) +svgDBBypass: ; (TEST/DEBUG) + mr r0,r6 ; (TEST/DEBUG) + mr r2,r7 ; (TEST/DEBUG) #endif - - xor r3,r3,r5 ; Get the virtual address - blr ; Leave... + b saveRestore ; restore MSR and return to our caller + + +/* + * *********************************** + * * s a v e _ g e t _ p h y s _ 3 2 * + * *********************************** + * + * reg64_t save_get_phys(void); + * + * This is the entry normally called from lowmem_vectors.s with + * translation and interrupts already off. + * MUST NOT TOUCH CR7 + */ + .align 5 + .globl EXT(save_get_phys_32) -; -; Here is the slow path which is executed when there are not enough in the local list -; - +LEXT(save_get_phys_32) + mfsprg r10,0 ; get the per-proc ptr + b saveGet32 ; Get r3 <- savearea, r5 <- page address (with SAC) + + +/* + * *********************************** + * * s a v e _ g e t _ p h y s _ 6 4 * + * *********************************** + * + * reg64_t save_get_phys_64(void); + * + * This is the entry normally called from lowmem_vectors.s with + * translation and interrupts already off, and in 64-bit mode. + * MUST NOT TOUCH CR7 + */ .align 5 - -sglow: mflr r9 ; Save the return + .globl EXT(save_get_phys_64) + +LEXT(save_get_phys_64) + mfsprg r10,0 ; get the per-proc ptr + b saveGet64 ; Get r3 <- savearea, r5 <- page address (with SAC) + + +/* + * ********************* + * * s a v e G e t 6 4 * + * ********************* + * + * This is the internal routine to allocate a savearea on a 64-bit processor. + * Note that we must not take any exceptions of any kind, including PTE misses, as that + * would deadlock trying to reenter this routine. We pass back the 64-bit physical address. + * First we try the local list. If that is below a threshold, we try the global free list, + * which requires taking a lock, and replenish. If there are no saveareas in either list, + * we will install the backpocket and choke. This routine assumes that the caller has + * turned translation off, masked interrupts, turned on 64-bit mode, and set up: + * r10 = per-proc ptr + * + * We return: + * r3 = 64-bit physical address of the savearea + * r5 = 64-bit physical address of the page the savearea is in, with SAC + * + * We destroy: + * r2-r8. + * + * MUST NOT TOUCH CR7 + */ + +saveGet64: + lwz r8,lclfreecnt(r10) ; Get the count + ld r3,lclfree(r10) ; Get the start of local savearea list + cmplwi r8,LocalSaveMin ; Are we too low? + ble-- saveGet64GetGlobal ; We are too low and need to grow list... + + ; Get it from the per-processor local list. + +saveGet64GetLocal: + li r2,0x5555 ; get r2 <-- 0x55555555 55555555, our bugbug constant + ld r4,SAVprev(r3) ; Chain to the next one + oris r2,r2,0x5555 + subi r8,r8,1 ; Back down count + rldimi r2,r2,32,0 + + std r2,SAVprev(r3) ; bug next ptr + stw r2,SAVlevel(r3) ; bug context ID + li r6,0 + std r4,lclfree(r10) ; Unchain first savearea + stw r2,SAVact(r3) ; bug activation ptr + rldicr r5,r3,0,51 ; r5 <-- page ptr, where SAC is kept + stw r8,lclfreecnt(r10) ; Set new count + stw r6,SAVflags(r3) ; clear the flags + + blr + + ; Local list was low so replenish from global list. + ; r7 = return address to caller of saveGet64 + ; r8 = lclfreecnt + ; r10 = per-proc ptr + +saveGet64GetGlobal: + mflr r7 ; save return adress + subfic r5,r8,LocalSaveTarget ; Get the number of saveareas we need to grab to get to target bl savelock ; Go lock up the anchor - mtlr r9 ; Restore the return - subfic r5,r8,LocalSaveTarget ; Get the number of saveareas we need to grab to get to target - lwz r9,SVfreecnt(r10) ; Get the number on this list - lwz r8,SVfree(r10) ; Get the head of the save area list + lwz r2,SVfreecnt(0) ; Get the number on this list + ld r8,SVfree(0) ; Get the head of the save area list - sub r3,r9,r5 ; Get number left after we swipe enough for local list - srawi r3,r3,31 ; Get 0 if enough or 0xFFFFFFFF if not + sub r3,r2,r5 ; Get number left after we swipe enough for local list + sradi r3,r3,63 ; Get 0 if enough or -1 if not andc r4,r5,r3 ; Get number to get if there are enough, 0 otherwise - and r5,r9,r3 ; Get 0 if there are enough, number on list otherwise - or. r5,r4,r5 ; Get the number we will move - beq- sgnofree ; There are none to get... + and r5,r2,r3 ; Get 0 if there are enough, number on list otherwise + or. r5,r4,r5 ; r5 <- number we will move from global to local list + beq-- saveGet64NoFree ; There are none to get... mtctr r5 ; Get loop count mr r6,r8 ; Remember the first in the list - -sgtrimf: bdz sgtfdone ; Count down and branch when we hit 0... - lwz r8,SAVprev(r8) ; Get the next - b sgtrimf ; Keep going... - .align 5 - -sgtfdone: lwz r7,SAVprev(r8) ; Get the next one - lwz r4,SVinuse(r10) ; Get the in use count - sub r9,r9,r5 ; Count down what we stole - stw r7,SVfree(r10) ; Set the new first in list +saveGet64c: + bdz saveGet64d ; Count down and branch when we hit 0... + ld r8,SAVprev(r8) ; Get the next + b saveGet64c ; Keep going... + +saveGet64d: + ld r3,SAVprev(r8) ; Get the next one + lwz r4,SVinuse(0) ; Get the in use count + sub r2,r2,r5 ; Count down what we stole + std r3,SVfree(0) ; Set the new first in list add r4,r4,r5 ; Count the ones we just put in the local list as "in use" - stw r9,SVfreecnt(r10) ; Set the new count - mfsprg r9,0 ; Get the per proc - stw r4,SVinuse(r10) ; Set the new in use count + stw r2,SVfreecnt(0) ; Set the new count + stw r4,SVinuse(0) ; Set the new in use count - lwz r4,lclfree(r9) ; Get the old head of list - lwz r3,lclfreecnt(r9) ; Get the old count - stw r6,lclfree(r9) ; Set the new head of the list + ld r4,lclfree(r10) ; Get the old head of list + lwz r3,lclfreecnt(r10) ; Get the old count + std r6,lclfree(r10) ; Set the new head of the list add r3,r3,r5 ; Get the new count - stw r4,SAVprev(r8) ; Point to the old head - stw r3,lclfreecnt(r9) ; Set the new count + std r4,SAVprev(r8) ; Point to the old head + stw r3,lclfreecnt(r10) ; Set the new count - mflr r9 ; Save the return bl saveunlock ; Update the adjust field and unlock - mtlr r9 ; Restore return - b csaveget ; Start over and finally allocate the savearea... - -; -; The local list is below the repopulate threshold and the free list is empty. -; First we check if there are any left in the local list and if so, we allow -; them to be allocated. If not, we release the backpocket list and choke. -; There is nothing more that we can do at this point. Hopefully we stay alive -; long enough to grab some much-needed panic information. -; - -sgnofree: mfsprg r9,0 ; Get the per proc - lwz r8,lclfreecnt(r9) ; Get the count - lwz r3,lclfree(r9) ; Get the start of local savearea list + mtlr r7 ; restore return address + b saveGet64 ; Start over and finally allocate the savearea... + + ; The local list is below the repopulate threshold and the global list is empty. + ; First we check if there are any left in the local list and if so, we allow + ; them to be allocated. If not, we release the backpocket list and choke. + ; There is nothing more that we can do at this point. Hopefully we stay alive + ; long enough to grab some much-needed panic information. + ; r7 = return address to caller of saveGet64 + ; r10 = per-proc ptr + +saveGet64NoFree: + lwz r8,lclfreecnt(r10) ; Get the count mr. r8,r8 ; Are there any reserve to get? - - mflr r9 ; Save the return - beq- sgchoke ; No, go choke and die... + beq-- saveGet64Choke ; No, go choke and die... bl saveunlock ; Update the adjust field and unlock - mtlr r9 ; Restore return - - mfsprg r9,0 ; Get the per proc again - lwz r3,lclfree(r9) ; Get the start of local savearea list - lwz r8,lclfreecnt(r9) ; Get the count - b sgreserve ; We have some left, dip on in... + ld r3,lclfree(r10) ; Get the start of local savearea list + lwz r8,lclfreecnt(r10) ; Get the count + mtlr r7 ; restore return address + b saveGet64GetLocal ; We have some left, dip on in... -; ; We who are about to die salute you. The savearea chain is messed up or ; empty. Add in a few so we have enough to take down the system. -; -sgchoke: lis r9,hi16(EXT(backpocket)) ; Get high order of back pocket +saveGet64Choke: + lis r9,hi16(EXT(backpocket)) ; Get high order of back pocket ori r9,r9,lo16(EXT(backpocket)) ; and low part - lwz r8,SVfreecnt(r9) ; Get the new number of free elements - lwz r7,SVfree(r9) ; Get the head of the chain - lwz r6,SVinuse(r10) ; Get total in the old list + lwz r8,SVfreecnt-saveanchor(r9) ; Get the new number of free elements + ld r7,SVfree-saveanchor(r9) ; Get the head of the chain + lwz r6,SVinuse(0) ; Get total in the old list - stw r8,SVfreecnt(r10) ; Set the new number of free elements + stw r8,SVfreecnt(0) ; Set the new number of free elements add r6,r6,r8 ; Add in the new ones - stw r7,SVfree(r10) ; Set the new head of the chain - stw r6,SVinuse(r10) ; Set total in the new list + std r7,SVfree(0) ; Set the new head of the chain + stw r6,SVinuse(0) ; Set total in the new list +saveGetChokeJoin: ; join in the fun from 32-bit mode lis r0,hi16(Choke) ; Set choke firmware call li r7,0 ; Get a clear register to unlock ori r0,r0,lo16(Choke) ; Set the rest of the choke call li r3,failNoSavearea ; Set failure code - sync ; Make sure all is committed - stw r7,SVlock(r10) ; Unlock the free list + eieio ; Make sure all is committed + stw r7,SVlock(0) ; Unlock the free list sc ; System ABEND - /* - * This routine will return a savearea to the free list. - * Note really well: we can take NO exceptions of any kind, - * including a PTE miss once the savearea lock is held. That's - * a guaranteed deadlock. That means we must disable for interrutions - * and turn all translation off. - * - * We take a virtual address for save_ret. For save_ret_phys we - * assume we are already physical/interrupts off and the address is physical. + * ********************* + * * s a v e G e t 3 2 * + * ********************* * - * Here's a tricky bit, and important: + * This is the internal routine to allocate a savearea on a 32-bit processor. + * Note that we must not take any exceptions of any kind, including PTE misses, as that + * would deadlock trying to reenter this routine. We pass back the 32-bit physical address. + * First we try the local list. If that is below a threshold, we try the global free list, + * which requires taking a lock, and replenish. If there are no saveareas in either list, + * we will install the backpocket and choke. This routine assumes that the caller has + * turned translation off, masked interrupts, and set up: + * r10 = per-proc ptr * - * When we trim the list, we NEVER trim the very first one. This is because that is - * the very last one released and the exception exit code will release the savearea - * BEFORE it is done using it. Wouldn't be too good if another processor started - * using it, eh? So for this case, we are safe so long as the savearea stays on - * the local list. (Note: the exit routine needs to do this because it is in the - * process of restoring all context and it needs to keep it until the last second.) + * We return: + * r3 = 32-bit physical address of the savearea + * r5 = 32-bit physical address of the page the savearea is in, with SAC * + * We destroy: + * r2-r8. */ -; -; Note: when called from interrupt enabled code, we want to turn off vector and -; floating point because we can not guarantee that the enablement will not change -; while we hold a copy of the MSR. We force it off so that the lazy switcher will -; turn it back on if used. However, we need to NOT change it save_ret or save_get -; is called with interrupts disabled. This is because both of these routine are -; called from within the context switcher and changing the enablement would be -; very, very bad..... (especially from within the lazt switcher) -; +saveGet32: + lwz r8,lclfreecnt(r10) ; Get the count + lwz r3,lclfree+4(r10) ; Get the start of local savearea list + cmplwi r8,LocalSaveMin ; Are we too low? + ble- saveGet32GetGlobal ; We are too low and need to grow list... + + ; Get savearea from per-processor local list. + +saveGet32GetLocal: + li r2,0x5555 ; get r2 <-- 0x55555555, our bugbug constant + lwz r4,SAVprev+4(r3) ; Chain to the next one + oris r2,r2,0x5555 + subi r8,r8,1 ; Back down count - .align 5 - .globl EXT(save_ret) + stw r2,SAVprev+4(r3) ; bug next ptr + stw r2,SAVlevel(r3) ; bug context ID + li r6,0 + stw r4,lclfree+4(r10) ; Unchain first savearea + stw r2,SAVact(r3) ; bug activation ptr + rlwinm r5,r3,0,0,19 ; r5 <-- page ptr, where SAC is kept + stw r8,lclfreecnt(r10) ; Set new count + stw r6,SAVflags(r3) ; clear the flags + + blr + + ; Local list was low so replenish from global list. + ; r7 = return address to caller of saveGet32 + ; r8 = lclfreecnt + ; r10 = per-proc ptr + +saveGet32GetGlobal: + mflr r7 ; save return adress + subfic r5,r8,LocalSaveTarget ; Get the number of saveareas we need to grab to get to target + bl savelock ; Go lock up the anchor + + lwz r2,SVfreecnt(0) ; Get the number on this list + lwz r8,SVfree+4(0) ; Get the head of the save area list + + sub r3,r2,r5 ; Get number left after we swipe enough for local list + srawi r3,r3,31 ; Get 0 if enough or -1 if not + andc r4,r5,r3 ; Get number to get if there are enough, 0 otherwise + and r5,r2,r3 ; Get 0 if there are enough, number on list otherwise + or. r5,r4,r5 ; r5 <- number we will move from global to local list + beq- saveGet32NoFree ; There are none to get... + + mtctr r5 ; Get loop count + mr r6,r8 ; Remember the first in the list -LEXT(save_ret) +saveGet32c: + bdz saveGet32d ; Count down and branch when we hit 0... + lwz r8,SAVprev+4(r8) ; Get the next + b saveGet32c ; Keep going... - mfmsr r12 ; Get the MSR - rlwinm. r9,r12,0,MSR_EE_BIT,MSR_EE_BIT ; Are interrupts enabled here? - beq+ EXT(save_ret_join) ; Nope, do not mess with fp or vec... - rlwinm r12,r12,0,MSR_FP_BIT+1,MSR_FP_BIT-1 ; Force floating point off - rlwinm r12,r12,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1 ; Force vectors off +saveGet32d: + lwz r3,SAVprev+4(r8) ; Get the next one + lwz r4,SVinuse(0) ; Get the in use count + sub r2,r2,r5 ; Count down what we stole + stw r3,SVfree+4(0) ; Set the new first in list + add r4,r4,r5 ; Count the ones we just put in the local list as "in use" + stw r2,SVfreecnt(0) ; Set the new count + stw r4,SVinuse(0) ; Set the new in use count + + lwz r4,lclfree+4(r10) ; Get the old head of list + lwz r3,lclfreecnt(r10) ; Get the old count + stw r6,lclfree+4(r10) ; Set the new head of the list + add r3,r3,r5 ; Get the new count + stw r4,SAVprev+4(r8) ; Point to the old head + stw r3,lclfreecnt(r10) ; Set the new count - .globl EXT(save_ret_join) + bl saveunlock ; Update the adjust field and unlock + mtlr r7 ; restore return address + b saveGet32 ; Start over and finally allocate the savearea... + + ; The local list is below the repopulate threshold and the global list is empty. + ; First we check if there are any left in the local list and if so, we allow + ; them to be allocated. If not, we release the backpocket list and choke. + ; There is nothing more that we can do at this point. Hopefully we stay alive + ; long enough to grab some much-needed panic information. + ; r7 = return address to caller of saveGet32 + ; r10 = per-proc ptr + +saveGet32NoFree: + lwz r8,lclfreecnt(r10) ; Get the count + mr. r8,r8 ; Are there any reserve to get? + beq- saveGet32Choke ; No, go choke and die... + bl saveunlock ; Update the adjust field and unlock + lwz r3,lclfree+4(r10) ; Get the start of local savearea list + lwz r8,lclfreecnt(r10) ; Get the count + mtlr r7 ; restore return address + b saveGet32GetLocal ; We have some left, dip on in... + +; We who are about to die salute you. The savearea chain is messed up or +; empty. Add in a few so we have enough to take down the system. -LEXT(save_ret_join) - crclr cr1_eq ; Clear CR1_ne to indicate we have virtual address - mfsprg r9,2 ; Get the feature flags - rlwinm r6,r3,0,0,19 ; Round back down to the savearea page block - lwz r5,SACvrswap(r6) ; Get the conversion to real - mtcrf 0x04,r9 ; Set the features - mfsprg r9,0 ; Get the per proc - xor r8,r3,r5 ; Get the real address of the savearea - andi. r3,r12,0x7FCF ; Turn off all translation and rupts +saveGet32Choke: + lis r9,hi16(EXT(backpocket)) ; Get high order of back pocket + ori r9,r9,lo16(EXT(backpocket)) ; and low part + + lwz r8,SVfreecnt-saveanchor(r9) ; Get the new number of free elements + lwz r7,SVfree+4-saveanchor(r9) ; Get the head of the chain + lwz r6,SVinuse(0) ; Get total in the old list - bt pfNoMSRirb,srNoMSR ; No MSR... + stw r8,SVfreecnt(0) ; Set the new number of free elements + add r6,r6,r8 ; Add in the new ones (why?) + stw r7,SVfree+4(0) ; Set the new head of the chain + stw r6,SVinuse(0) ; Set total in the new list + + b saveGetChokeJoin - mtmsr r3 ; Translation and all off - isync ; Toss prefetch - b srcommon - - .align 5 - -srNoMSR: li r0,loadMSR ; Get the MSR setter SC - sc ; Set it -srNoMSRx: b srcommon ; Join up below... +/* + * ******************* + * * s a v e _ r e t * + * ******************* + * + * void save_ret(struct savearea *); // normal call + * void save_ret_wMSR(struct savearea *,reg64_t); // passes MSR to restore as 2nd arg + * + * Return a savearea passed by virtual address to the free list. + * Note really well: we can take NO exceptions of any kind, + * including a PTE miss once the savearea lock is held. That's + * a guaranteed deadlock. That means we must disable for interrutions + * and turn all translation off. + */ + .globl EXT(save_ret_wMSR) ; alternate entry pt w MSR to restore in r4 + +LEXT(save_ret_wMSR) + crset 31 ; set flag for save_ret_wMSR + b svrt1 ; join common code + + .align 5 + .globl EXT(save_ret) + +LEXT(save_ret) + crclr 31 ; clear flag for save_ret_wMSR +svrt1: ; join from save_ret_wMSR + mflr r9 ; get return address + rlwinm r7,r3,0,0,19 ; get virtual address of SAC area at start of page + mr r8,r3 ; save virtual address + lwz r5,SACvrswap+0(r7) ; get 64-bit converter from V to R + lwz r6,SACvrswap+4(r7) ; both halves, though only bottom used on 32-bit machine +#if FPVECDBG + lis r0,HIGH_ADDR(CutTrace) ; (TEST/DEBUG) + li r2,0x2204 ; (TEST/DEBUG) + oris r0,r0,LOW_ADDR(CutTrace) ; (TEST/DEBUG) + sc ; (TEST/DEBUG) +#endif + bl saveSetup ; turn translation off, 64-bit on, load many regs + bf++ 31,svrt3 ; skip if not save_ret_wMSR + mr r11,r4 ; was save_ret_wMSR, so overwrite saved MSR +svrt3: + bf-- pf64Bitb,svrt4 ; skip if a 32-bit processor + + ; Handle 64-bit processor. + + rldimi r6,r5,32,0 ; merge upper and lower halves of SACvrswap together + xor r3,r8,r6 ; get r3 <- 64-bit physical address of this savearea + bl saveRet64 ; return it + mtlr r9 ; restore return address + b saveRestore64 ; restore MSR + + ; Handle 32-bit processor. + +svrt4: + xor r3,r8,r6 ; get r3 <- 32-bit physical address of this savearea + bl saveRet32 ; return it + mtlr r9 ; restore return address + b saveRestore32 ; restore MSR + +/* + * ***************************** + * * s a v e _ r e t _ p h y s * + * ***************************** + * + * void save_ret_phys(reg64_t); + * + * Called from lowmem vectors to return (ie, free) a savearea by physical address. + * Translation and interrupts are already off, and 64-bit mode is set if defined. + * We can take _no_ exceptions of any kind in this code, including PTE miss, since + * that would result in a deadlock. We expect: + * r3 = phys addr of savearea + * msr = IR, DR, and EE off, SF on + * cr6 = pf64Bit flag + * We destroy: + * r0,r2-r10. + */ .align 5 .globl EXT(save_ret_phys) LEXT(save_ret_phys) + mfsprg r10,0 ; get the per-proc ptr + bf-- pf64Bitb,saveRet32 ; handle 32-bit machine + b saveRet64 ; handle 64-bit machine + - mfsprg r9,0 ; Get the per proc - crset cr1_eq ; Clear CR1_ne to indicate we have physical address - mr r8,r3 ; Save the savearea address - - nop - -srcommon: +/* + * ********************* + * * s a v e R e t 6 4 * + * ********************* + * + * This is the internal routine to free a savearea, passed by 64-bit physical + * address. We assume that IR, DR, and EE are all off, that SF is on, and: + * r3 = phys address of the savearea + * r10 = per-proc ptr + * We destroy: + * r0,r2-r8. + */ + .align 5 + saveRet64: li r0,SAVempty ; Get marker for free savearea - lwz r7,lclfreecnt(r9) ; Get the local count - lwz r6,lclfree(r9) ; Get the old local header + lwz r7,lclfreecnt(r10) ; Get the local count + ld r6,lclfree(r10) ; Get the old local header addi r7,r7,1 ; Pop up the free count - stw r6,SAVprev(r8) ; Plant free chain pointer + std r6,SAVprev(r3) ; Plant free chain pointer cmplwi r7,LocalSaveMax ; Has the list gotten too long? - stb r0,SAVflags+2(r8) ; Mark savearea free - stw r8,lclfree(r9) ; Chain us on in - stw r7,lclfreecnt(r9) ; Bump up the count - bgt- srtrim ; List is too long, go trim it... - - btlr cr1_eq ; Leave if we were a physical request... + stb r0,SAVflags+2(r3) ; Mark savearea free + std r3,lclfree(r10) ; Chain us on in + stw r7,lclfreecnt(r10) ; Bump up the count + bltlr++ ; List not too long, so done - mtmsr r12 ; Restore translation and exceptions - isync ; Make sure about it - -#if FPVECDBG - lis r0,HIGH_ADDR(CutTrace) ; (TEST/DEBUG) - li r2,0x2204 ; (TEST/DEBUG) - mr r3,r8 ; (TEST/DEBUG) - oris r0,r0,LOW_ADDR(CutTrace) ; (TEST/DEBUG) - sc ; (TEST/DEBUG) -#endif - blr ; Leave... - -; -; The local savearea chain has gotten too long. Trim it down to the target. -; Note: never trim the first one, just skip over it. -; - - .align 5 +/* The local savearea chain has gotten too long. Trim it down to the target. + * Here's a tricky bit, and important: + * + * When we trim the list, we NEVER trim the very first one. This is because that is + * the very last one released and the exception exit code will release the savearea + * BEFORE it is done using it. Wouldn't be too good if another processor started + * using it, eh? So for this case, we are safe so long as the savearea stays on + * the local list. (Note: the exit routine needs to do this because it is in the + * process of restoring all context and it needs to keep it until the last second.) + */ -srtrim: - mr r2,r8 ; Save the guy we are releasing - lwz r8,SAVprev(r8) ; Skip over the first + mflr r0 ; save return to caller of saveRet64 + mr r2,r3 ; r2 <- 1st one on local list, which must not be trimmed + ld r3,SAVprev(r3) ; Skip over the first subi r7,r7,LocalSaveTarget ; Figure out how much to trim - mr r6,r8 ; Save the first one to trim + mr r6,r3 ; r6 <- first one to trim mr r5,r7 ; Save the number we are trimming -srtrimming: addic. r7,r7,-1 ; Any left to do? - ble- srtrimmed ; Nope... - lwz r8,SAVprev(r8) ; Skip to the next one - b srtrimming ; Keep going... +saveRet64a: + addic. r7,r7,-1 ; Any left to do? + ble-- saveRet64b ; Nope... + ld r3,SAVprev(r3) ; Skip to the next one + b saveRet64a ; Keep going... - .align 5 - -srtrimmed: lis r10,hi16(EXT(saveanchor)) ; Get the high part of the anchor - lwz r7,SAVprev(r8) ; Point to the next one - ori r10,r10,lo16(EXT(saveanchor)) ; Bottom half of the anchor +saveRet64b: ; r3 <- last one to trim + ld r7,SAVprev(r3) ; Point to the first one not to trim li r4,LocalSaveTarget ; Set the target count - stw r7,SAVprev(r2) ; Trim stuff leaving the one just released as first - stw r4,lclfreecnt(r9) ; Set the current count + std r7,SAVprev(r2) ; Trim stuff leaving the one just released as first + stw r4,lclfreecnt(r10) ; Set the current count - mflr r9 ; Save the return bl savelock ; Lock up the anchor - lwz r3,SVfree(r10) ; Get the old head of the free list - lwz r4,SVfreecnt(r10) ; Get the number of free ones - lwz r7,SVinuse(r10) ; Get the number that are in use - stw r6,SVfree(r10) ; Point to the first trimmed savearea + ld r8,SVfree(0) ; Get the old head of the free list + lwz r4,SVfreecnt(0) ; Get the number of free ones + lwz r7,SVinuse(0) ; Get the number that are in use + std r6,SVfree(0) ; Point to the first trimmed savearea add r4,r4,r5 ; Add number trimmed to free count - stw r3,SAVprev(r8) ; Chain the old head to the tail of the trimmed guys + std r8,SAVprev(r3) ; Chain the old head to the tail of the trimmed guys sub r7,r7,r5 ; Remove the trims from the in use count - stw r4,SVfreecnt(r10) ; Set new free count - stw r7,SVinuse(r10) ; Set new in use count - - bl saveunlock ; Set adjust count and unlock the saveanchor + stw r4,SVfreecnt(0) ; Set new free count + stw r7,SVinuse(0) ; Set new in use count - mtlr r9 ; Restore the return + mtlr r0 ; Restore the return to our caller + b saveunlock ; Set adjust count, unlock the saveanchor, and return + - btlr+ cr1_eq ; Leave if we were a physical request... +/* + * ********************* + * * s a v e R e t 3 2 * + * ********************* + * + * This is the internal routine to free a savearea, passed by 32-bit physical + * address. We assume that IR, DR, and EE are all off, and: + * r3 = phys address of the savearea + * r10 = per-proc ptr + * We destroy: + * r0,r2-r8. + */ + .align 5 + saveRet32: + li r0,SAVempty ; Get marker for free savearea + lwz r7,lclfreecnt(r10) ; Get the local count + lwz r6,lclfree+4(r10) ; Get the old local header + addi r7,r7,1 ; Pop up the free count + stw r6,SAVprev+4(r3) ; Plant free chain pointer + cmplwi r7,LocalSaveMax ; Has the list gotten too long? + stb r0,SAVflags+2(r3) ; Mark savearea free + stw r3,lclfree+4(r10) ; Chain us on in + stw r7,lclfreecnt(r10) ; Bump up the count + bltlr+ ; List not too long, so done - mtmsr r12 ; Restore translation and exceptions - isync ; Make sure about it - -#if FPVECDBG - lis r0,HIGH_ADDR(CutTrace) ; (TEST/DEBUG) - mr r3,r2 ; (TEST/DEBUG) - li r2,0x2205 ; (TEST/DEBUG) - oris r0,r0,LOW_ADDR(CutTrace) ; (TEST/DEBUG) - sc ; (TEST/DEBUG) -#endif - blr ; Leave... - +/* The local savearea chain has gotten too long. Trim it down to the target. + * Here's a tricky bit, and important: + * + * When we trim the list, we NEVER trim the very first one. This is because that is + * the very last one released and the exception exit code will release the savearea + * BEFORE it is done using it. Wouldn't be too good if another processor started + * using it, eh? So for this case, we are safe so long as the savearea stays on + * the local list. (Note: the exit routine needs to do this because it is in the + * process of restoring all context and it needs to keep it until the last second.) + */ -; -; NOTE: This is the most complicated part of savearea maintainence. -; Expect errors here....... -; -; save_trim_free - this routine will trim the free list down to the target count. -; It trims the list and, if the pool page was fully allocated, puts that page on -; the start of the pool list. -; -; If the savearea being released is the last on a pool page (i.e., all entries -; are released), the page is dequeued from the pool and queued to any other -; found during this scan. Note that this queue is maintained virtually. -; -; When the scan is done, the saveanchor lock is released and the list of -; freed pool pages is returned. + mflr r0 ; save return to caller of saveRet32 + mr r2,r3 ; r2 <- 1st one on local list, which must not be trimmed + lwz r3,SAVprev+4(r3) ; Skip over the first + subi r7,r7,LocalSaveTarget ; Figure out how much to trim + mr r6,r3 ; r6 <- first one to trim + mr r5,r7 ; Save the number we are trimming + +saveRet32a: + addic. r7,r7,-1 ; Any left to do? + ble- saveRet32b ; Nope... + lwz r3,SAVprev+4(r3) ; Skip to the next one + b saveRet32a ; Keep going... + +saveRet32b: ; r3 <- last one to trim + lwz r7,SAVprev+4(r3) ; Point to the first one not to trim + li r4,LocalSaveTarget ; Set the target count + stw r7,SAVprev+4(r2) ; Trim stuff leaving the one just released as first + stw r4,lclfreecnt(r10) ; Set the current count + + bl savelock ; Lock up the anchor + + lwz r8,SVfree+4(0) ; Get the old head of the free list + lwz r4,SVfreecnt(0) ; Get the number of free ones + lwz r7,SVinuse(0) ; Get the number that are in use + stw r6,SVfree+4(0) ; Point to the first trimmed savearea + add r4,r4,r5 ; Add number trimmed to free count + stw r8,SAVprev+4(r3) ; Chain the old head to the tail of the trimmed guys + sub r7,r7,r5 ; Remove the trims from the in use count + stw r4,SVfreecnt(0) ; Set new free count + stw r7,SVinuse(0) ; Set new in use count + mtlr r0 ; Restore the return to our caller + b saveunlock ; Set adjust count, unlock the saveanchor, and return -; For latency sake we may want to revisit this code. If we are trimming a -; large number of saveareas, we could be disabled and holding the savearea lock -; for quite a while. It may be that we want to break the trim down into parts. -; Possibly trimming the free list, then individually pushing them into the free pool. -; -; This function expects to be called with translation on and a valid stack. -; +/* + * ******************************* + * * s a v e _ t r i m _ f r e e * + * ******************************* + * + * struct savearea_comm *save_trim_free(void); + * + * Trim the free list down to the target count, ie by -(SVadjust) save areas. + * It trims the list and, if a pool page was fully allocated, puts that page on + * the start of the pool list. + * + * If the savearea being released is the last on a pool page (i.e., all entries + * are released), the page is dequeued from the pool and queued to any other + * found during this scan. Note that this queue is maintained virtually. + * + * When the scan is done, the saveanchor lock is released and the list of + * freed pool pages is returned to our caller. + * + * For latency sake we may want to revisit this code. If we are trimming a + * large number of saveareas, we could be disabled and holding the savearea lock + * for quite a while. It may be that we want to break the trim down into parts. + * Possibly trimming the free list, then individually pushing them into the free pool. + * + * This function expects to be called with translation on and a valid stack. + * It uses the standard ABI, ie we destroy r2 and r3-r11, and return the ptr in r3. + */ .align 5 .globl EXT(save_trim_free) LEXT(save_trim_free) subi r1,r1,(FM_ALIGN(16)+FM_SIZE) ; Make space for 4 registers on stack - mfsprg r9,2 ; Get the feature flags + mflr r9 ; save our return address stw r28,FM_SIZE+0(r1) ; Save R28 - mfmsr r12 ; Get the MSR - rlwinm r12,r12,0,MSR_FP_BIT+1,MSR_FP_BIT-1 ; Force floating point off - rlwinm r12,r12,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1 ; Force vectors off - stw r29,FM_SIZE+4(r1) ; Save R28 - mtcrf 0x04,r9 ; Set the features - stw r30,FM_SIZE+8(r1) ; Save R28 - lis r10,hi16(EXT(saveanchor)) ; Get the high part of the anchor - stw r31,FM_SIZE+12(r1) ; Save R28 - andi. r3,r12,0x7FCF ; Turn off all translation and rupts - ori r10,r10,lo16(EXT(saveanchor)) ; Bottom half of the anchor - mflr r9 ; Save the return - - bt pfNoMSRirb,stNoMSR ; No MSR... - - mtmsr r3 ; Translation and all off - isync ; Toss prefetch - b stNoMSRx - - .align 5 - -stNoMSR: li r0,loadMSR ; Get the MSR setter SC - sc ; Set it - -stNoMSRx: bl savelock ; Go lock up the anchor + stw r29,FM_SIZE+4(r1) ; Save R29 + stw r30,FM_SIZE+8(r1) ; Save R30 + stw r31,FM_SIZE+12(r1) ; Save R31 + + bl saveSetup ; turn off translation and interrupts, load many regs + bl savelock ; Go lock up the anchor - lwz r8,SVadjust(r10) ; How many do we need to clear out? + lwz r8,SVadjust(0) ; How many do we need to clear out? li r3,0 ; Get a 0 neg. r8,r8 ; Get the actual we need to toss (adjust is neg if too many) - lwz r7,SVfree(r10) ; Get the first on the free list - bgt+ stneedtrim ; Yeah, we still need it... - - mtlr r9 ; Restore return - stw r3,SVlock(r10) ; Quick unlock (no need for sync or to set adjust, nothing changed) + ble- save_trim_free1 ; skip if no trimming needed anymore + bf-- pf64Bitb,saveTrim32 ; handle 32-bit processors + b saveTrim64 ; handle 64-bit processors - mtmsr r12 ; Restore translation and exceptions - isync ; Make sure about it +save_trim_free1: ; by the time we were called, no need to trim anymore + stw r3,SVlock(0) ; Quick unlock (no need for sync or to set adjust, nothing changed) + mtlr r9 ; Restore return #if FPVECDBG lis r0,HIGH_ADDR(CutTrace) ; (TEST/DEBUG) @@ -609,34 +834,42 @@ stNoMSRx: bl savelock ; Go lock up the anchor oris r0,r0,LOW_ADDR(CutTrace) ; (TEST/DEBUG) sc ; (TEST/DEBUG) #endif - addi r1,r1,(FM_ALIGN(16)+FM_SIZE) ; Pop stack - have not trashed register so no need to reload - blr ; Leave... + addi r1,r1,(FM_ALIGN(16)+FM_SIZE); Pop stack - have not trashed register so no need to reload + b saveRestore ; restore translation and EE, turn SF off, return to our caller - .align 5 - -stneedtrim: mr r6,r7 ; Save the first one + +/* + * *********************** + * * s a v e T r i m 3 2 * + * *********************** + * + * Handle "save_trim_free" on 32-bit processors. At this point, translation and interrupts + * are off, the savearea anchor is locked, and: + * r8 = #pages to trim (>0) + * r9 = return address + * r10 = per-proc ptr + * r11 = MSR at entry + */ + +saveTrim32: + lwz r7,SVfree+4(0) ; Get the first on the free list + mr r6,r7 ; Save the first one mr r5,r8 ; Save the number we are trimming - nop - nop - sttrimming: addic. r5,r5,-1 ; Any left to do? ble- sttrimmed ; Nope... - lwz r7,SAVprev(r7) ; Skip to the next one + lwz r7,SAVprev+4(r7) ; Skip to the next one b sttrimming ; Keep going... - - .align 5 -sttrimmed: lwz r5,SAVprev(r7) ; Get the next one (for new head of free list) - lwz r4,SVfreecnt(r10) ; Get the free count - stw r5,SVfree(r10) ; Set new head +sttrimmed: lwz r5,SAVprev+4(r7) ; Get the next one (for new head of free list) + lwz r4,SVfreecnt(0) ; Get the free count + stw r5,SVfree+4(0) ; Set new head sub r4,r4,r8 ; Calculate the new free count li r31,0 ; Show we have no free pool blocks yet - cmplwi cr1,r5,0 ; Make sure this is not equal - stw r4,SVfreecnt(r10) ; Set new free count + crclr cr1_eq ; dont exit loop before 1st iteration + stw r4,SVfreecnt(0) ; Set new free count lis r30,hi16(sac_empty) ; Get what empty looks like -; ; NOTE: The savearea size must be 640 (0x280). We are doing a divide by shifts and stuff ; here. ; @@ -644,6 +877,17 @@ sttrimmed: lwz r5,SAVprev(r7) ; Get the next one (for new head of free list) #error Savearea size is not 640!!!!!!!!!!!! #endif + ; Loop over each savearea we are trimming. + ; r6 = next savearea to trim + ; r7 = last savearea to trim + ; r8 = #pages to trim (>0) + ; r9 = return address + ; r10 = per-proc ptr + ; r11 = MSR at entry + ; r30 = what SACalloc looks like when all saveareas are free + ; r31 = free pool block list + ; cr1 = beq set if we just trimmed the last, ie if we are done + sttoss: beq+ cr1,stdone ; All done now... cmplw cr1,r6,r7 ; Have we finished the loop? @@ -661,7 +905,7 @@ sttoss: beq+ cr1,stdone ; All done now... srw r4,r4,r0 ; Get the allocation mask or r5,r5,r4 ; Free this entry cmplw r5,r4 ; Is this the only free entry? - lwz r6,SAVprev(r6) ; Chain to the next trimmed savearea + lwz r6,SAVprev+4(r6) ; Chain to the next trimmed savearea cmplw cr7,r30,r5 ; Does this look empty? stw r5,SACalloc(r2) ; Save back the allocation bits beq- stputpool ; First free entry, go put it into the pool... @@ -673,19 +917,19 @@ sttoss: beq+ cr1,stdone ; All done now... lwz r29,SACflags(r2) ; Get the flags cmplwi cr5,r31,0 ; Is this guy on the release list? - lwz r28,SACnext(r2) ; Get the forward chain + lwz r28,SACnext+4(r2) ; Get the forward chain rlwinm. r0,r29,0,sac_permb,sac_permb ; Is this a permanently allocated area? (also sets 0 needed below) bne- sttoss ; This is permanent entry, do not try to release... - lwz r29,SACprev(r2) ; and the previous + lwz r29,SACprev+4(r2) ; and the previous beq- cr5,stnot1st ; Not first - lwz r0,SACvrswap(r31) ; Load the previous pool page vr conversion + lwz r0,SACvrswap+4(r31) ; Load the previous pool page vr conversion -stnot1st: stw r28,SACnext(r29) ; Previous guy points to my next +stnot1st: stw r28,SACnext+4(r29) ; Previous guy points to my next xor r0,r0,r31 ; Make the last guy virtual - stw r29,SACprev(r28) ; Next guy points back to my previous - stw r0,SAVprev(r2) ; Store the old top virtual as my back chain + stw r29,SACprev+4(r28) ; Next guy points back to my previous + stw r0,SAVprev+4(r2) ; Store the old top virtual as my back chain mr r31,r2 ; My physical is now the head of the chain b sttoss ; Get the next one... @@ -693,31 +937,136 @@ stnot1st: stw r28,SACnext(r29) ; Previous guy points to my next ; A pool block that had no free entries now has one. Stick it on the pool list. ; - .align 5 - -stputpool: lwz r28,SVpoolfwd(r10) ; Get the first guy on the list - stw r2,SVpoolfwd(r10) ; Put us on the top of the list - stw r28,SACnext(r2) ; We point to the old top - stw r2,SACprev(r28) ; Old top guy points back to us - stw r10,SACprev(r2) ; Our back points to the anchor +stputpool: lwz r28,SVpoolfwd+4(0) ; Get the first guy on the list + li r0,saveanchor ; Point to the saveanchor + stw r2,SVpoolfwd+4(0) ; Put us on the top of the list + stw r28,SACnext+4(r2) ; We point to the old top + stw r2,SACprev+4(r28) ; Old top guy points back to us + stw r0,SACprev+4(r2) ; Our back points to the anchor b sttoss ; Go on to the next one... + + +/* + * *********************** + * * s a v e T r i m 6 4 * + * *********************** + * + * Handle "save_trim_free" on 64-bit processors. At this point, translation and interrupts + * are off, SF is on, the savearea anchor is locked, and: + * r8 = #pages to trim (>0) + * r9 = return address + * r10 = per-proc ptr + * r11 = MSR at entry + */ + +saveTrim64: + ld r7,SVfree(0) ; Get the first on the free list + mr r6,r7 ; Save the first one + mr r5,r8 ; Save the number we are trimming -; -; We are all done. Relocate pool release head, restore all, and go. -; +sttrimming64: + addic. r5,r5,-1 ; Any left to do? + ble-- sttrimmed64 ; Nope... + ld r7,SAVprev(r7) ; Skip to the next one + b sttrimming64 ; Keep going... - .align 5 +sttrimmed64: + ld r5,SAVprev(r7) ; Get the next one (for new head of free list) + lwz r4,SVfreecnt(0) ; Get the free count + std r5,SVfree(0) ; Set new head + sub r4,r4,r8 ; Calculate the new free count + li r31,0 ; Show we have no free pool blocks yet + crclr cr1_eq ; dont exit loop before 1st iteration + stw r4,SVfreecnt(0) ; Set new free count + lis r30,hi16(sac_empty) ; Get what empty looks like + + ; Loop over each savearea we are trimming. + ; r6 = next savearea to trim + ; r7 = last savearea to trim + ; r8 = #pages to trim (>0) + ; r9 = return address + ; r10 = per-proc ptr + ; r11 = MSR at entry + ; r30 = what SACalloc looks like when all saveareas are free + ; r31 = free pool block list + ; cr1 = beq set if we just trimmed the last, ie if we are done + ; + ; WARNING: as in the 32-bit path, this code is doing a divide by 640 (SAVsize). + +sttoss64: + beq++ cr1,stdone ; All done now... + + cmpld cr1,r6,r7 ; Have we finished the loop? + + lis r0,0x0044 ; Get top of table + rldicr r2,r6,0,51 ; r2 <- phys addr of savearea block (with control area) + ori r0,r0,0x2200 ; Finish shift table + rlwinm r4,r6,25,27,30 ; Get (addr >> 7) & 0x1E (same as twice high nybble) + lwz r5,SACalloc(r2) ; Get the allocation bits + addi r4,r4,1 ; Shift 1 extra + rlwinm r3,r6,25,31,31 ; Get (addr >> 7) & 1 + rlwnm r0,r0,r4,29,31 ; Get partial index + lis r4,lo16(0x8000) ; Get the bit mask + add r0,r0,r3 ; Make the real index + srw r4,r4,r0 ; Get the allocation mask + or r5,r5,r4 ; Free this entry + cmplw r5,r4 ; Is this the only free entry? + ld r6,SAVprev(r6) ; Chain to the next trimmed savearea + cmplw cr7,r30,r5 ; Does this look empty? + stw r5,SACalloc(r2) ; Save back the allocation bits + beq-- stputpool64 ; First free entry, go put it into the pool... + bne++ cr7,sttoss64 ; Not an empty block + +; We have an empty block. Remove it from the pool list. + + lwz r29,SACflags(r2) ; Get the flags + cmpldi cr5,r31,0 ; Is this guy on the release list? + ld r28,SACnext(r2) ; Get the forward chain + + rlwinm. r0,r29,0,sac_permb,sac_permb ; Is this a permanently allocated area? (also sets 0 needed below) + bne-- sttoss64 ; This is permanent entry, do not try to release... + + ld r29,SACprev(r2) ; and the previous + beq-- cr5,stnot1st64 ; Not first + ld r0,SACvrswap(r31) ; Load the previous pool page vr conversion + +stnot1st64: + std r28,SACnext(r29) ; Previous guy points to my next + xor r0,r0,r31 ; Make the last guy virtual + std r29,SACprev(r28) ; Next guy points back to my previous + std r0,SAVprev(r2) ; Store the old top virtual as my back chain + mr r31,r2 ; My physical is now the head of the chain + b sttoss64 ; Get the next one... + +; A pool block that had no free entries now has one. Stick it on the pool list. + +stputpool64: + ld r28,SVpoolfwd(0) ; Get the first guy on the list + li r0,saveanchor ; Point to the saveanchor + std r2,SVpoolfwd(0) ; Put us on the top of the list + std r28,SACnext(r2) ; We point to the old top + std r2,SACprev(r28) ; Old top guy points back to us + std r0,SACprev(r2) ; Our back points to the anchor + b sttoss64 ; Go on to the next one... + + +; We are all done. Relocate pool release head, restore all, and go. This code +; is used both by the 32 and 64-bit paths. +; r9 = return address +; r10 = per-proc ptr +; r11 = MSR at entry +; r31 = free pool block list + stdone: bl saveunlock ; Unlock the saveanchor and set adjust field mr. r3,r31 ; Move release chain and see if there are any li r5,0 ; Assume either V=R or no release chain beq- stnorel ; Nothing to release... - lwz r5,SACvrswap(r31) ; Get the vr conversion - -stnorel: mtmsr r12 ; Restore translation and exceptions - isync ; Make sure about it + lwz r5,SACvrswap+4(r31) ; Get the vr conversion (only need low half if 64-bit) +stnorel: + bl saveRestore ; restore translation and exceptions, turn off SF mtlr r9 ; Restore the return lwz r28,FM_SIZE+0(r1) ; Restore R28 @@ -726,6 +1075,7 @@ stnorel: mtmsr r12 ; Restore translation and exceptions lwz r31,FM_SIZE+12(r1) ; Restore R31 addi r1,r1,(FM_ALIGN(16)+FM_SIZE) ; Pop the stack xor r3,r3,r5 ; Convert release chain address to virtual + rlwinm r3,r3,0,0,31 ; if 64-bit, clear upper half of virtual address #if FPVECDBG lis r0,HIGH_ADDR(CutTrace) ; (TEST/DEBUG) @@ -734,70 +1084,69 @@ stnorel: mtmsr r12 ; Restore translation and exceptions sc ; (TEST/DEBUG) #endif blr ; Return... - -; -; save_recover - here we scan the free pool and see if we can get -; enough free saveareas to hit target. -; -; If we empty a pool block, remove it from the pool list -; -; + + +/* + * *************************** + * * s a v e _ r e c o v e r * + * *************************** + * + * int save_recover(void); + * + * Returns nonzero if we can get enough saveareas to hit the target. We scan the free + * pool. If we empty a pool block, we remove it from the pool list. + */ .align 5 .globl EXT(save_recover) LEXT(save_recover) - mfsprg r9,2 ; Get the feature flags - mfmsr r12 ; Get the MSR - rlwinm r12,r12,0,MSR_FP_BIT+1,MSR_FP_BIT-1 ; Force floating point off - rlwinm r12,r12,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1 ; Force vectors off - mtcrf 0x04,r9 ; Set the features - lis r10,hi16(EXT(saveanchor)) ; Get the high part of the anchor - andi. r3,r12,0x7FCF ; Turn off all translation and rupts - ori r10,r10,lo16(EXT(saveanchor)) ; Bottom half of the anchor - mflr r9 ; Save the return - - bt pfNoMSRirb,srcNoMSR ; No MSR... - - mtmsr r3 ; Translation and all off - isync ; Toss prefetch - b srcNoMSRx - - .align 5 - -srcNoMSR: li r0,loadMSR ; Get the MSR setter SC - sc ; Set it - -srcNoMSRx: bl savelock ; Go lock up the anchor + mflr r9 ; save return address + bl saveSetup ; turn translation and interrupts off, SF on, load many regs + bl savelock ; lock the savearea anchor - lwz r8,SVadjust(r10) ; How many do we need to clear get? + lwz r8,SVadjust(0) ; How many do we need to clear get? li r3,0 ; Get a 0 mr. r8,r8 ; Do we need any? - bgt+ srcneedmore ; Yeah, we still need it... - + ble-- save_recover1 ; not any more + bf-- pf64Bitb,saveRecover32 ; handle 32-bit processor + b saveRecover64 ; handle 64-bit processor + +save_recover1: ; by the time we locked the anchor, no longer short mtlr r9 ; Restore return - stw r3,SVlock(r10) ; Quick unlock (no need for sync or to set adjust, nothing changed) - - mtmsr r12 ; Restore translation and exceptions - isync ; Make sure about it - + stw r3,SVlock(0) ; Quick unlock (no need for sync or to set adjust, nothing changed) #if FPVECDBG lis r0,HIGH_ADDR(CutTrace) ; (TEST/DEBUG) li r2,0x2208 ; (TEST/DEBUG) oris r0,r0,LOW_ADDR(CutTrace) ; (TEST/DEBUG) sc ; (TEST/DEBUG) #endif - blr ; Leave... + b saveRestore ; turn translation etc back on, return to our caller - .align 5 - -srcneedmore: - mr r6,r10 ; Start at pool anchor - cmplwi cr1,r10,0 ; Make sure we start as not equal - lwz r7,SVfreecnt(r10) ; Get the current free count - -srcnpool: lwz r6,SACnext(r6) ; Point to the next one - cmplw r6,r10 ; Have we wrapped? + +/* + * ***************************** + * * s a v e R e c o v e r 3 2 * + * ***************************** + * + * Handle "save_recover" on 32-bit processors. At this point, translation and interrupts + * are off, the savearea anchor is locked, and: + * r8 = #pages to recover + * r9 = return address + * r10 = per-proc ptr + * r11 = MSR at entry + */ + +saveRecover32: + li r6,saveanchor ; Start at pool anchor + crclr cr1_eq ; initialize the loop test + lwz r7,SVfreecnt(0) ; Get the current free count + + +; Loop over next block in free pool. r6 is the ptr to the last block we looked at. + +srcnpool: lwz r6,SACnext+4(r6) ; Point to the next one + cmplwi r6,saveanchor ; Have we wrapped? beq- srcdone ; Yes, did not have enough... lwz r5,SACalloc(r6) ; Pick up the allocation for this pool block @@ -810,6 +1159,16 @@ srcnpool: lwz r6,SACnext(r6) ; Point to the next one #error Savearea size is not 640!!!!!!!!!!!! #endif +; Loop over free savearea in current block. +; r5 = bitmap of free saveareas in block at r6 (ie, SACalloc) +; r6 = ptr to current free pool block +; r7 = free count +; r8 = #pages more we still need to recover +; r9 = return address +; r10 = per-proc ptr +; r11 = MSR at entry +; cr1 = beq if (r8==0) + srcnext: beq- cr1,srcdone ; We have no more to get... lis r3,0x8000 ; Get the top bit on @@ -825,130 +1184,273 @@ srcnext: beq- cr1,srcdone ; We have no more to get... stw r5,SACalloc(r6) ; Set new allocation bits add r2,r2,r6 ; Get the actual address of the savearea - lwz r3,SVfree(r10) ; Get the head of the chain + lwz r3,SVfree+4(0) ; Get the head of the chain cmplwi cr1,r8,0 ; Do we actually need any more? - stw r2,SVfree(r10) ; Push ourselves in the front - stw r3,SAVprev(r2) ; Chain the rest of the list behind + stw r2,SVfree+4(0) ; Push ourselves in the front + stw r3,SAVprev+4(r2) ; Chain the rest of the list behind bne+ srcnext ; The pool block is not empty yet, try for another... - lwz r2,SACnext(r6) ; Get the next pointer - lwz r3,SACprev(r6) ; Get the previous pointer - stw r3,SACprev(r2) ; The previous of my next points to my previous - stw r2,SACnext(r3) ; The next of my previous points to my next + lwz r2,SACnext+4(r6) ; Get the next pointer + lwz r3,SACprev+4(r6) ; Get the previous pointer + stw r3,SACprev+4(r2) ; The previous of my next points to my previous + stw r2,SACnext+4(r3) ; The next of my previous points to my next bne+ cr1,srcnpool ; We still have more to do... - -srcdone: stw r7,SVfreecnt(r10) ; Set the new free count + + +; Join here from 64-bit path when we have recovered all the saveareas we need to. + +srcdone: stw r7,SVfreecnt(0) ; Set the new free count bl saveunlock ; Unlock the save and set adjust field mtlr r9 ; Restore the return - mtmsr r12 ; Restore translation and exceptions - isync ; Make sure about it - #if FPVECDBG lis r0,HIGH_ADDR(CutTrace) ; (TEST/DEBUG) li r2,0x2209 ; (TEST/DEBUG) oris r0,r0,LOW_ADDR(CutTrace) ; (TEST/DEBUG) sc ; (TEST/DEBUG) #endif - blr ; Leave... + b saveRestore ; turn xlate and EE back on, SF off, and return to our caller + + +/* + * ***************************** + * * s a v e R e c o v e r 6 4 * + * ***************************** + * + * Handle "save_recover" on 64-bit processors. At this point, translation and interrupts + * are off, the savearea anchor is locked, and: + * r8 = #pages to recover + * r9 = return address + * r10 = per-proc ptr + * r11 = MSR at entry + */ + +saveRecover64: + li r6,saveanchor ; Start at pool anchor + crclr cr1_eq ; initialize the loop test + lwz r7,SVfreecnt(0) ; Get the current free count + + +; Loop over next block in free pool. r6 is the ptr to the last block we looked at. + +srcnpool64: + ld r6,SACnext(r6) ; Point to the next one + cmpldi r6,saveanchor ; Have we wrapped? + beq-- srcdone ; Yes, did not have enough... + lwz r5,SACalloc(r6) ; Pick up the allocation for this pool block + + +; Loop over free savearea in current block. +; r5 = bitmap of free saveareas in block at r6 (ie, SACalloc) +; r6 = ptr to current free pool block +; r7 = free count +; r8 = #pages more we still need to recover +; r9 = return address +; r10 = per-proc ptr +; r11 = MSR at entry +; cr1 = beq if (r8==0) ; -; Here is where we lock the saveanchor lock -; We assume R10 points to the saveanchor -; We trash R7 and R3 -; +; WARNING: as in the 32-bit path, we depend on (SAVsize==640) - .align 5 - -savelock: lwarx r7,0,r10 ; Grab the lock value - li r3,1 ; Use part of the delay time - mr. r7,r7 ; Is it locked? */ - bne- sllcks ; Yeah, wait for it to clear... - stwcx. r3,0,r10 ; Try to seize that there durn lock - beq+ sllckd ; Got it... - b savelock ; Collision, try again... +srcnext64: + beq-- cr1,srcdone ; We have no more to get... - .align 5 + lis r3,0x8000 ; Get the top bit on + cntlzw r4,r5 ; Find a free slot + addi r7,r7,1 ; Bump up the free count + srw r3,r3,r4 ; Make a mask + slwi r0,r4,7 ; First multiply by 128 + subi r8,r8,1 ; Decrement the need count + slwi r2,r4,9 ; Then multiply by 512 + andc. r5,r5,r3 ; Clear out the "free" bit + add r2,r2,r0 ; Sum to multiply by 640 -sllcks: lwz r7,SVlock(r10) ; Get that lock in here - mr. r7,r7 ; Is it free yet? - beq+ savelock ; Yeah, try for it again... - b sllcks ; Sniff away... + stw r5,SACalloc(r6) ; Set new allocation bits + + add r2,r2,r6 ; Get the actual address of the savearea + ld r3,SVfree(0) ; Get the head of the chain + cmplwi cr1,r8,0 ; Do we actually need any more? + std r2,SVfree(0) ; Push ourselves in the front + std r3,SAVprev(r2) ; Chain the rest of the list behind - nop ; Force isync to last in ifetch buffer - nop - nop + bne++ srcnext64 ; The pool block is not empty yet, try for another... -sllckd: isync ; Make sure translation is off - blr ; Return.... - + ld r2,SACnext(r6) ; Get the next pointer + ld r3,SACprev(r6) ; Get the previous pointer + std r3,SACprev(r2) ; The previous of my next points to my previous + std r2,SACnext(r3) ; The next of my previous points to my next + bne++ cr1,srcnpool64 ; We still have more to do... + + b srcdone -; -; This is the common routine that sets the saveadjust field and unlocks the savearea -; anchor. -; -; Note that we can not use R9 here because we use it to save the LR across the call. -; Also, R10 is assumed to point to the saveanchor. R3 is also reserved. -; +/* + * ******************* + * * s a v e l o c k * + * ******************* + * + * Lock the savearea anchor, so we can manipulate the free list. + * msr = interrupts and translation off + * We destroy: + * r8, r3, r12 + */ .align 5 +savelock: lwz r8,SVlock(0) ; See if lock is held + cmpwi r8,0 + li r12,saveanchor ; Point to the saveanchor + bne-- savelock ; loop until lock released... + +savelock0: lwarx r8,0,r12 ; Grab the lock value + cmpwi r8,0 ; taken? + li r8,1 ; get nonzero to lock it with + bne-- savelock1 ; already locked, wait for it to clear... + stwcx. r8,0,r12 ; Try to seize that there durn lock + isync ; assume we got it + beqlr++ ; reservation not lost, so we have the lock + b savelock0 ; Try again... + +savelock1: li r8,lgKillResv ; Point to killing field + stwcx. r8,0,r8 ; Kill reservation + b savelock ; Start over.... + + +/* + * *********************** + * * s a v e u n l o c k * + * *********************** + * + * + * This is the common routine that sets the saveadjust field and unlocks the savearea + * anchor. + * msr = interrupts and translation off + * We destroy: + * r2, r5, r6, r8. + */ + .align 5 saveunlock: - lwz r6,SVfreecnt(r10) ; and the number on the free list - lwz r5,SVinuse(r10) ; Pick up the in use count - cmplwi r6,FreeListMin ; Do we have at least the minimum? - blt- sutooshort ; Do not have minumum.... - lwz r7,SVtarget(r10) ; Get the target + lwz r6,SVfreecnt(0) ; and the number on the free list + lwz r5,SVinuse(0) ; Pick up the in use count + subic. r8,r6,FreeListMin ; do we have at least the minimum? + lwz r2,SVtarget(0) ; Get the target + neg r8,r8 ; assuming we are short, get r8 <- shortfall + blt-- saveunlock1 ; skip if fewer than minimum on free list add r6,r6,r5 ; Get the total number of saveareas - addi r5,r7,-SaveLowHysteresis ; Find bottom + addi r5,r2,-SaveLowHysteresis ; Find low end of acceptible range sub r5,r6,r5 ; Make everything below hysteresis negative - sub r7,r7,r6 ; Get the distance from the target - rlwinm r5,r5,0,0,31 ; Clear negative bit + sub r2,r2,r6 ; Get the distance from the target addi r5,r5,-(SaveLowHysteresis + SaveHighHysteresis + 1) ; Subtract full hysteresis range srawi r5,r5,31 ; Get 0xFFFFFFFF if outside range or 0 if inside - and r7,r7,r5 ; Get 0 if in range or distance to target if not + and r8,r2,r5 ; r8 <- 0 if in range or distance to target if not - li r8,0 ; Set a clear value - stw r7,SVadjust(r10) ; Set the adjustment value - - sync ; Make sure everything is done - stw r8,SVlock(r10) ; Unlock the savearea chain +saveunlock1: + li r5,0 ; Set a clear value + stw r8,SVadjust(0) ; Set the adjustment value + eieio ; Make sure everything is done + stw r5,SVlock(0) ; Unlock the savearea chain blr - - .align 5 - -sutooshort: subfic r6,r6,FreeListMin ; Get the number needed to hit minimum - li r8,0 ; Set a clear value - stw r6,SVadjust(r10) ; Set the adjustment value - - sync ; Make sure everything is done - stw r8,SVlock(r10) ; Unlock the savearea chain - blr - - /* - * struct savearea *save_cpv(struct savearea *); Converts a physical savearea address to virtual + * ******************* + * * s a v e _ c p v * + * ******************* + * + * struct savearea *save_cpv(addr64_t saveAreaPhysAddr); + * + * Converts a physical savearea address to virtual. Called with translation on + * and in 32-bit mode. Note that the argument is passed as a long long in (r3,r4). */ .align 5 .globl EXT(save_cpv) LEXT(save_cpv) + mflr r9 ; save return address + mr r8,r3 ; save upper half of phys address here + bl saveSetup ; turn off translation and interrupts, turn SF on + rlwinm r5,r4,0,0,19 ; Round back to the start of the physical savearea block + bf-- pf64Bitb,save_cpv1 ; skip if 32-bit processor + rldimi r5,r8,32,0 ; r5 <- 64-bit phys address of block +save_cpv1: + lwz r6,SACvrswap+4(r5) ; Get the conversion to virtual (only need low half if 64-bit) + mtlr r9 ; restore return address + xor r3,r4,r6 ; convert phys to virtual + rlwinm r3,r3,0,0,31 ; if 64-bit, zero upper half of virtual address + b saveRestore ; turn translation etc back on, SF off, and return r3 + - mfmsr r10 ; Get the current MSR - rlwinm r10,r10,0,MSR_FP_BIT+1,MSR_FP_BIT-1 ; Force floating point off - rlwinm r10,r10,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1 ; Force vectors off - rlwinm r4,r3,0,0,19 ; Round back to the start of the physical savearea block - andi. r9,r10,0x7FEF ; Turn off interrupts and data translation - mtmsr r9 ; Disable DR and EE - isync - - lwz r4,SACvrswap(r4) ; Get the conversion to virtual - mtmsr r10 ; Interrupts and DR back on - isync - xor r3,r3,r4 ; Convert to physical - blr +/* + * ********************* + * * s a v e S e t u p * + * ********************* + * + * This routine is called at the start of all the save-area subroutines. + * It turns off translation, disabled interrupts, turns on 64-bit mode, + * and sets up cr6 with the feature flags (especially pf64Bit). + * + * Note that most save-area routines cannot take _any_ interrupt (such as a + * PTE miss) once the savearea anchor is locked, since that would result in + * instant deadlock as we need a save-area to process any exception. + * We set up: + * r10 = per-proc ptr + * r11 = old MSR + * cr5 = pfNoMSRir feature flag + * cr6 = pf64Bit feature flag + * + * We use r0, r3, r10, and r11. + */ + +saveSetup: + mfmsr r11 ; get msr + mfsprg r3,2 ; get feature flags + li r0,0 + mtcrf 0x2,r3 ; copy pf64Bit to cr6 + ori r0,r0,lo16(MASK(MSR_IR)+MASK(MSR_DR)+MASK(MSR_EE)) + mtcrf 0x4,r3 ; copy pfNoMSRir to cr5 + andc r3,r11,r0 ; turn off IR, DR, and EE + li r0,1 ; get a 1 in case its a 64-bit machine + bf-- pf64Bitb,saveSetup1 ; skip if not a 64-bit machine + rldimi r3,r0,63,MSR_SF_BIT ; turn SF (bit 0) on + mtmsrd r3 ; turn translation and interrupts off, 64-bit mode on + isync ; wait for it to happen + mfsprg r10,0 ; get per-proc ptr + blr +saveSetup1: ; here on 32-bit machines + bt- pfNoMSRirb,saveSetup2 ; skip if cannot turn off IR with a mtmsr + mtmsr r3 ; turn translation and interrupts off + isync ; wait for it to happen + mfsprg r10,0 ; get per-proc ptr + blr +saveSetup2: ; here if pfNoMSRir set for this machine + li r0,loadMSR ; we will "mtmsr r3" via system call + sc + mfsprg r10,0 ; get per-proc ptr + blr + + +/* + * ************************* + * * s a v e R e s t o r e * + * ************************* + * + * Undoes the effect of calling "saveSetup", ie it turns relocation and interrupts back on, + * and turns 64-bit mode back off. + * r11 = old MSR + * cr6 = pf64Bit feature flag + */ + +saveRestore: + bt++ pf64Bitb,saveRestore64 ; handle a 64-bit processor +saveRestore32: + mtmsr r11 ; restore MSR + isync ; wait for translation to start up + blr +saveRestore64: ; 64-bit processor + mtmsrd r11 ; restore MSR + isync ; wait for changes to happen + blr +