/* * Parisc tlb and cache flushing support * Copyright (C) 2000 Hewlett-Packard (John Marvin) * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* * NOTE: fdc,fic, and pdc instructions that use base register modification * should only use index and base registers that are not shadowed, * so that the fast path emulation in the non access miss handler * can be used. */ #ifdef __LP64__ #define ADDIB addib,* #define CMPB cmpb,* #define ANDCM andcm,* .level 2.0w #else #define ADDIB addib, #define CMPB cmpb, #define ANDCM andcm .level 2.0 #endif #include #include #include #include .text .align 128 .export flush_tlb_all_local,code flush_tlb_all_local: .proc .callinfo NO_CALLS .entry /* * The pitlbe and pdtlbe instructions should only be used to * flush the entire tlb. Also, there needs to be no intervening * tlb operations, e.g. tlb misses, so the operation needs * to happen in real mode with all interruptions disabled. */ /* * Once again, we do the rfi dance ... some day we need examine * all of our uses of this type of code and see what can be * consolidated. */ rsm PSW_SM_I,%r19 /* relied upon translation! */ nop nop nop nop nop nop nop rsm PSW_SM_Q,%r0 /* Turn off Q bit to load iia queue */ ldil L%REAL_MODE_PSW, %r1 ldo R%REAL_MODE_PSW(%r1), %r1 mtctl %r1, %cr22 mtctl %r0, %cr17 mtctl %r0, %cr17 ldil L%PA(1f),%r1 ldo R%PA(1f)(%r1),%r1 mtctl %r1, %cr18 ldo 4(%r1), %r1 mtctl %r1, %cr18 rfi nop 1: ldil L%PA(cache_info),%r1 ldo R%PA(cache_info)(%r1),%r1 /* Flush Instruction Tlb */ LDREG ITLB_SID_BASE(%r1),%r20 LDREG ITLB_SID_STRIDE(%r1),%r21 LDREG ITLB_SID_COUNT(%r1),%r22 LDREG ITLB_OFF_BASE(%r1),%arg0 LDREG ITLB_OFF_STRIDE(%r1),%arg1 LDREG ITLB_OFF_COUNT(%r1),%arg2 LDREG ITLB_LOOP(%r1),%arg3 ADDIB= -1,%arg3,fitoneloop /* Preadjust and test */ movb,<,n %arg3,%r31,fitdone /* If loop < 0, skip */ copy %arg0,%r28 /* Init base addr */ fitmanyloop: /* Loop if LOOP >= 2 */ mtsp %r20,%sr1 add %r21,%r20,%r20 /* increment space */ copy %arg2,%r29 /* Init middle loop count */ fitmanymiddle: /* Loop if LOOP >= 2 */ ADDIB> -1,%r31,fitmanymiddle /* Adjusted inner loop decr */ pitlbe 0(%sr1,%r28) pitlbe,m %arg1(%sr1,%r28) /* Last pitlbe and addr adjust */ ADDIB> -1,%r29,fitmanymiddle /* Middle loop decr */ copy %arg3,%r31 /* Re-init inner loop count */ movb,tr %arg0,%r28,fitmanyloop /* Re-init base addr */ ADDIB<=,n -1,%r22,fitdone /* Outer loop count decr */ fitoneloop: /* Loop if LOOP = 1 */ mtsp %r20,%sr1 copy %arg0,%r28 /* init base addr */ copy %arg2,%r29 /* init middle loop count */ fitonemiddle: /* Loop if LOOP = 1 */ ADDIB> -1,%r29,fitonemiddle /* Middle loop count decr */ pitlbe,m %arg1(%sr1,%r28) /* pitlbe for one loop */ ADDIB> -1,%r22,fitoneloop /* Outer loop count decr */ add %r21,%r20,%r20 /* increment space */ fitdone: /* Flush Data Tlb */ LDREG DTLB_SID_BASE(%r1),%r20 LDREG DTLB_SID_STRIDE(%r1),%r21 LDREG DTLB_SID_COUNT(%r1),%r22 LDREG DTLB_OFF_BASE(%r1),%arg0 LDREG DTLB_OFF_STRIDE(%r1),%arg1 LDREG DTLB_OFF_COUNT(%r1),%arg2 LDREG DTLB_LOOP(%r1),%arg3 ADDIB= -1,%arg3,fdtoneloop /* Preadjust and test */ movb,<,n %arg3,%r31,fdtdone /* If loop < 0, skip */ copy %arg0,%r28 /* Init base addr */ fdtmanyloop: /* Loop if LOOP >= 2 */ mtsp %r20,%sr1 add %r21,%r20,%r20 /* increment space */ copy %arg2,%r29 /* Init middle loop count */ fdtmanymiddle: /* Loop if LOOP >= 2 */ ADDIB> -1,%r31,fdtmanymiddle /* Adjusted inner loop decr */ pdtlbe 0(%sr1,%r28) pdtlbe,m %arg1(%sr1,%r28) /* Last pdtlbe and addr adjust */ ADDIB> -1,%r29,fdtmanymiddle /* Middle loop decr */ copy %arg3,%r31 /* Re-init inner loop count */ movb,tr %arg0,%r28,fdtmanyloop /* Re-init base addr */ ADDIB<=,n -1,%r22,fdtdone /* Outer loop count decr */ fdtoneloop: /* Loop if LOOP = 1 */ mtsp %r20,%sr1 copy %arg0,%r28 /* init base addr */ copy %arg2,%r29 /* init middle loop count */ fdtonemiddle: /* Loop if LOOP = 1 */ ADDIB> -1,%r29,fdtonemiddle /* Middle loop count decr */ pdtlbe,m %arg1(%sr1,%r28) /* pdtlbe for one loop */ ADDIB> -1,%r22,fdtoneloop /* Outer loop count decr */ add %r21,%r20,%r20 /* increment space */ fdtdone: /* Switch back to virtual mode */ rsm PSW_SM_Q,%r0 /* clear Q bit to load iia queue */ ldil L%KERNEL_PSW, %r1 ldo R%KERNEL_PSW(%r1), %r1 or %r1,%r19,%r1 /* Set I bit if set on entry */ mtctl %r1, %cr22 mtctl %r0, %cr17 mtctl %r0, %cr17 ldil L%(2f), %r1 ldo R%(2f)(%r1), %r1 mtctl %r1, %cr18 ldo 4(%r1), %r1 mtctl %r1, %cr18 rfi nop 2: bv %r0(%r2) nop .exit .procend .export flush_instruction_cache_local,code .import cache_info,data flush_instruction_cache_local: .proc .callinfo NO_CALLS .entry mtsp %r0,%sr1 ldil L%cache_info,%r1 ldo R%cache_info(%r1),%r1 /* Flush Instruction Cache */ LDREG ICACHE_BASE(%r1),%arg0 LDREG ICACHE_STRIDE(%r1),%arg1 LDREG ICACHE_COUNT(%r1),%arg2 LDREG ICACHE_LOOP(%r1),%arg3 ADDIB= -1,%arg3,fioneloop /* Preadjust and test */ movb,<,n %arg3,%r31,fisync /* If loop < 0, do sync */ fimanyloop: /* Loop if LOOP >= 2 */ ADDIB> -1,%r31,fimanyloop /* Adjusted inner loop decr */ fice 0(%sr1,%arg0) fice,m %arg1(%sr1,%arg0) /* Last fice and addr adjust */ movb,tr %arg3,%r31,fimanyloop /* Re-init inner loop count */ ADDIB<=,n -1,%arg2,fisync /* Outer loop decr */ fioneloop: /* Loop if LOOP = 1 */ ADDIB> -1,%arg2,fioneloop /* Outer loop count decr */ fice,m %arg1(%sr1,%arg0) /* Fice for one loop */ fisync: sync bv %r0(%r2) nop .exit .procend .export flush_data_cache_local,code .import cache_info,data flush_data_cache_local: .proc .callinfo NO_CALLS .entry mtsp %r0,%sr1 ldil L%cache_info,%r1 ldo R%cache_info(%r1),%r1 /* Flush Data Cache */ LDREG DCACHE_BASE(%r1),%arg0 LDREG DCACHE_STRIDE(%r1),%arg1 LDREG DCACHE_COUNT(%r1),%arg2 LDREG DCACHE_LOOP(%r1),%arg3 rsm PSW_SM_I,%r22 ADDIB= -1,%arg3,fdoneloop /* Preadjust and test */ movb,<,n %arg3,%r31,fdsync /* If loop < 0, do sync */ fdmanyloop: /* Loop if LOOP >= 2 */ ADDIB> -1,%r31,fdmanyloop /* Adjusted inner loop decr */ fdce 0(%sr1,%arg0) fdce,m %arg1(%sr1,%arg0) /* Last fdce and addr adjust */ movb,tr %arg3,%r31,fdmanyloop /* Re-init inner loop count */ ADDIB<=,n -1,%arg2,fdsync /* Outer loop decr */ fdoneloop: /* Loop if LOOP = 1 */ ADDIB> -1,%arg2,fdoneloop /* Outer loop count decr */ fdce,m %arg1(%sr1,%arg0) /* Fdce for one loop */ fdsync: syncdma sync mtsm %r22 bv %r0(%r2) nop .exit .procend .export copy_user_page_asm,code copy_user_page_asm: .proc .callinfo NO_CALLS .entry ldi 64,%r1 /* * This loop is optimized for PCXL/PCXL2 ldw/ldw and stw/stw * bundles (very restricted rules for bundling). It probably * does OK on PCXU and better, but we could do better with * ldd/std instructions. Note that until (if) we start saving * the full 64 bit register values on interrupt, we can't * use ldd/std on a 32 bit kernel. */ 1: ldw 0(%r25),%r19 ldw 4(%r25),%r20 ldw 8(%r25),%r21 ldw 12(%r25),%r22 stw %r19,0(%r26) stw %r20,4(%r26) stw %r21,8(%r26) stw %r22,12(%r26) ldw 16(%r25),%r19 ldw 20(%r25),%r20 ldw 24(%r25),%r21 ldw 28(%r25),%r22 stw %r19,16(%r26) stw %r20,20(%r26) stw %r21,24(%r26) stw %r22,28(%r26) ldw 32(%r25),%r19 ldw 36(%r25),%r20 ldw 40(%r25),%r21 ldw 44(%r25),%r22 stw %r19,32(%r26) stw %r20,36(%r26) stw %r21,40(%r26) stw %r22,44(%r26) ldw 48(%r25),%r19 ldw 52(%r25),%r20 ldw 56(%r25),%r21 ldw 60(%r25),%r22 stw %r19,48(%r26) stw %r20,52(%r26) stw %r21,56(%r26) stw %r22,60(%r26) ldo 64(%r26),%r26 ADDIB> -1,%r1,1b ldo 64(%r25),%r25 bv %r0(%r2) nop .exit .procend #if (TMPALIAS_MAP_START >= 0x80000000UL) Warning TMPALIAS_MAP_START changed. If > 2 Gb, code in pacache.S is bogus #endif /* * NOTE: Code in clear_user_page has a hard coded dependency on the * maximum alias boundary being 4 Mb. We've been assured by the * parisc chip designers that there will not ever be a parisc * chip with a larger alias boundary (Never say never :-) ). * * Subtle: the dtlb miss handlers support the temp alias region by * "knowing" that if a dtlb miss happens within the temp alias * region it must have occurred while in clear_user_page. Since * this routine makes use of processor local translations, we * don't want to insert them into the kernel page table. Instead, * we load up some general registers (they need to be registers * which aren't shadowed) with the physical page numbers (preshifted * for tlb insertion) needed to insert the translations. When we * miss on the translation, the dtlb miss handler inserts the * translation into the tlb using these values: * * %r26 physical page (shifted for tlb insert) of "to" translation * %r23 physical page (shifted for tlb insert) of "from" translation */ #if 0 /* * We can't do this since copy_user_page is used to bring in * file data that might have instructions. Since the data would * then need to be flushed out so the i-fetch can see it, it * makes more sense to just copy through the kernel translation * and flush it. * * I'm still keeping this around because it may be possible to * use it if more information is passed into copy_user_page(). * Have to do some measurements to see if it is worthwhile to * lobby for such a change. */ .export copy_user_page_asm,code copy_user_page_asm: .proc .callinfo NO_CALLS .entry ldil L%(__PAGE_OFFSET),%r1 sub %r26,%r1,%r26 sub %r25,%r1,%r23 /* move physical addr into non shadowed reg */ ldil L%(TMPALIAS_MAP_START),%r28 #ifdef __LP64__ extrd,u %r26,56,32,%r26 /* convert phys addr to tlb insert format */ extrd,u %r23,56,32,%r23 /* convert phys addr to tlb insert format */ depd %r24,63,22,%r28 /* Form aliased virtual address 'to' */ depdi 0,63,12,%r28 /* Clear any offset bits */ copy %r28,%r29 depdi 1,41,1,%r29 /* Form aliased virtual address 'from' */ #else extrw,u %r26,24,25,%r26 /* convert phys addr to tlb insert format */ extrw,u %r23,24,25,%r23 /* convert phys addr to tlb insert format */ depw %r24,31,22,%r28 /* Form aliased virtual address 'to' */ depwi 0,31,12,%r28 /* Clear any offset bits */ copy %r28,%r29 depwi 1,9,1,%r29 /* Form aliased virtual address 'from' */ #endif /* Purge any old translations */ pdtlb 0(%r28) pdtlb 0(%r29) ldi 64,%r1 /* * This loop is optimized for PCXL/PCXL2 ldw/ldw and stw/stw * bundles (very restricted rules for bundling). It probably * does OK on PCXU and better, but we could do better with * ldd/std instructions. Note that until (if) we start saving * the full 64 bit register values on interrupt, we can't * use ldd/std on a 32 bit kernel. */ 1: ldw 0(%r29),%r19 ldw 4(%r29),%r20 ldw 8(%r29),%r21 ldw 12(%r29),%r22 stw %r19,0(%r28) stw %r20,4(%r28) stw %r21,8(%r28) stw %r22,12(%r28) ldw 16(%r29),%r19 ldw 20(%r29),%r20 ldw 24(%r29),%r21 ldw 28(%r29),%r22 stw %r19,16(%r28) stw %r20,20(%r28) stw %r21,24(%r28) stw %r22,28(%r28) ldw 32(%r29),%r19 ldw 36(%r29),%r20 ldw 40(%r29),%r21 ldw 44(%r29),%r22 stw %r19,32(%r28) stw %r20,36(%r28) stw %r21,40(%r28) stw %r22,44(%r28) ldw 48(%r29),%r19 ldw 52(%r29),%r20 ldw 56(%r29),%r21 ldw 60(%r29),%r22 stw %r19,48(%r28) stw %r20,52(%r28) stw %r21,56(%r28) stw %r22,60(%r28) ldo 64(%r28),%r28 ADDIB> -1,%r1,1b ldo 64(%r29),%r29 bv %r0(%r2) nop .exit .procend #endif .export clear_user_page_asm,code clear_user_page_asm: .proc .callinfo NO_CALLS .entry tophys_r1 %r26 ldil L%(TMPALIAS_MAP_START),%r28 #ifdef __LP64__ extrd,u %r26,56,32,%r26 /* convert phys addr to tlb insert format */ depd %r25,63,22,%r28 /* Form aliased virtual address 'to' */ depdi 0,63,12,%r28 /* Clear any offset bits */ #else extrw,u %r26,24,25,%r26 /* convert phys addr to tlb insert format */ depw %r25,31,22,%r28 /* Form aliased virtual address 'to' */ depwi 0,31,12,%r28 /* Clear any offset bits */ #endif /* Purge any old translation */ pdtlb 0(%r28) ldi 64,%r1 1: stw %r0,0(%r28) stw %r0,4(%r28) stw %r0,8(%r28) stw %r0,12(%r28) stw %r0,16(%r28) stw %r0,20(%r28) stw %r0,24(%r28) stw %r0,28(%r28) stw %r0,32(%r28) stw %r0,36(%r28) stw %r0,40(%r28) stw %r0,44(%r28) stw %r0,48(%r28) stw %r0,52(%r28) stw %r0,56(%r28) stw %r0,60(%r28) ADDIB> -1,%r1,1b ldo 64(%r28),%r28 bv %r0(%r2) nop .exit .procend .export flush_kernel_dcache_page flush_kernel_dcache_page: .proc .callinfo NO_CALLS .entry ldil L%dcache_stride,%r1 ldw R%dcache_stride(%r1),%r23 #ifdef __LP64__ depdi,z 1,63-PAGE_SHIFT,1,%r25 #else depwi,z 1,31-PAGE_SHIFT,1,%r25 #endif add %r26,%r25,%r25 sub %r25,%r23,%r25 1: fdc,m %r23(%r26) fdc,m %r23(%r26) fdc,m %r23(%r26) fdc,m %r23(%r26) fdc,m %r23(%r26) fdc,m %r23(%r26) fdc,m %r23(%r26) fdc,m %r23(%r26) fdc,m %r23(%r26) fdc,m %r23(%r26) fdc,m %r23(%r26) fdc,m %r23(%r26) fdc,m %r23(%r26) fdc,m %r23(%r26) fdc,m %r23(%r26) CMPB<< %r26,%r25,1b fdc,m %r23(%r26) sync bv %r0(%r2) nop .exit .procend .export purge_kernel_dcache_page purge_kernel_dcache_page: .proc .callinfo NO_CALLS .entry ldil L%dcache_stride,%r1 ldw R%dcache_stride(%r1),%r23 #ifdef __LP64__ depdi,z 1,63-PAGE_SHIFT,1,%r25 #else depwi,z 1,31-PAGE_SHIFT,1,%r25 #endif add %r26,%r25,%r25 sub %r25,%r23,%r25 1: pdc,m %r23(%r26) pdc,m %r23(%r26) pdc,m %r23(%r26) pdc,m %r23(%r26) pdc,m %r23(%r26) pdc,m %r23(%r26) pdc,m %r23(%r26) pdc,m %r23(%r26) pdc,m %r23(%r26) pdc,m %r23(%r26) pdc,m %r23(%r26) pdc,m %r23(%r26) pdc,m %r23(%r26) pdc,m %r23(%r26) pdc,m %r23(%r26) CMPB<< %r26,%r25,1b pdc,m %r23(%r26) sync bv %r0(%r2) nop .exit .procend #if 0 /* Currently not used, but it still is a possible alternate * solution. */ .export flush_alias_page flush_alias_page: .proc .callinfo NO_CALLS .entry tophys_r1 %r26 ldil L%(TMPALIAS_MAP_START),%r28 #ifdef __LP64__ extrd,u %r26,56,32,%r26 /* convert phys addr to tlb insert format */ depd %r25,63,22,%r28 /* Form aliased virtual address 'to' */ depdi 0,63,12,%r28 /* Clear any offset bits */ #else extrw,u %r26,24,25,%r26 /* convert phys addr to tlb insert format */ depw %r25,31,22,%r28 /* Form aliased virtual address 'to' */ depwi 0,31,12,%r28 /* Clear any offset bits */ #endif /* Purge any old translation */ pdtlb 0(%r28) ldil L%dcache_stride,%r1 ldw R%dcache_stride(%r1),%r23 #ifdef __LP64__ depdi,z 1,63-PAGE_SHIFT,1,%r29 #else depwi,z 1,31-PAGE_SHIFT,1,%r29 #endif add %r28,%r29,%r29 sub %r29,%r23,%r29 1: fdc,m %r23(%r28) fdc,m %r23(%r28) fdc,m %r23(%r28) fdc,m %r23(%r28) fdc,m %r23(%r28) fdc,m %r23(%r28) fdc,m %r23(%r28) fdc,m %r23(%r28) fdc,m %r23(%r28) fdc,m %r23(%r28) fdc,m %r23(%r28) fdc,m %r23(%r28) fdc,m %r23(%r28) fdc,m %r23(%r28) fdc,m %r23(%r28) CMPB<< %r28,%r29,1b fdc,m %r23(%r28) sync bv %r0(%r2) nop .exit .procend #endif .export flush_user_dcache_range_asm flush_user_dcache_range_asm: .proc .callinfo NO_CALLS .entry ldil L%dcache_stride,%r1 ldw R%dcache_stride(%r1),%r23 ldo -1(%r23),%r21 ANDCM %r26,%r21,%r26 1: CMPB<<,n %r26,%r25,1b fdc,m %r23(%sr3,%r26) sync bv %r0(%r2) nop .exit .procend .export flush_kernel_dcache_range_asm flush_kernel_dcache_range_asm: .proc .callinfo NO_CALLS .entry ldil L%dcache_stride,%r1 ldw R%dcache_stride(%r1),%r23 ldo -1(%r23),%r21 ANDCM %r26,%r21,%r26 1: CMPB<<,n %r26,%r25,1b fdc,m %r23(%r26) sync syncdma bv %r0(%r2) nop .exit .procend .export flush_user_icache_range_asm flush_user_icache_range_asm: .proc .callinfo NO_CALLS .entry ldil L%icache_stride,%r1 ldw R%icache_stride(%r1),%r23 ldo -1(%r23),%r21 ANDCM %r26,%r21,%r26 1: CMPB<<,n %r26,%r25,1b fic,m %r23(%sr3,%r26) sync bv %r0(%r2) nop .exit .procend .export flush_kernel_icache_page flush_kernel_icache_page: .proc .callinfo NO_CALLS .entry ldil L%icache_stride,%r1 ldw R%icache_stride(%r1),%r23 #ifdef __LP64__ depdi,z 1,63-PAGE_SHIFT,1,%r25 #else depwi,z 1,31-PAGE_SHIFT,1,%r25 #endif add %r26,%r25,%r25 sub %r25,%r23,%r25 1: fic,m %r23(%r26) fic,m %r23(%r26) fic,m %r23(%r26) fic,m %r23(%r26) fic,m %r23(%r26) fic,m %r23(%r26) fic,m %r23(%r26) fic,m %r23(%r26) fic,m %r23(%r26) fic,m %r23(%r26) fic,m %r23(%r26) fic,m %r23(%r26) fic,m %r23(%r26) fic,m %r23(%r26) fic,m %r23(%r26) CMPB<< %r26,%r25,1b fic,m %r23(%r26) sync bv %r0(%r2) nop .exit .procend .export flush_kernel_icache_range_asm flush_kernel_icache_range_asm: .proc .callinfo NO_CALLS .entry ldil L%icache_stride,%r1 ldw R%icache_stride(%r1),%r23 ldo -1(%r23),%r21 ANDCM %r26,%r21,%r26 1: CMPB<<,n %r26,%r25,1b fic,m %r23(%r26) sync bv %r0(%r2) nop .exit .procend .align 128 .export disable_sr_hashing_asm,code disable_sr_hashing_asm: .proc .callinfo NO_CALLS .entry /* Switch to real mode */ ssm 0,%r0 /* relied upon translation! */ nop nop nop nop nop nop nop rsm (PSW_SM_Q|PSW_SM_I),%r0 /* disable Q&I to load the iia queue */ ldil L%REAL_MODE_PSW, %r1 ldo R%REAL_MODE_PSW(%r1), %r1 mtctl %r1, %cr22 mtctl %r0, %cr17 mtctl %r0, %cr17 ldil L%PA(1f),%r1 ldo R%PA(1f)(%r1),%r1 mtctl %r1, %cr18 ldo 4(%r1), %r1 mtctl %r1, %cr18 rfi nop 1: cmpib,=,n SRHASH_PCXST,%r26,srdis_pcxs cmpib,=,n SRHASH_PCXL,%r26,srdis_pcxl cmpib,=,n SRHASH_PA20,%r26,srdis_pa20 b,n srdis_done srdis_pcxs: /* Disable Space Register Hashing for PCXS,PCXT,PCXT' */ .word 0x141c1a00 /* mfdiag %dr0,%r28 */ .word 0x141c1a00 /* must issue twice */ depwi 0,18,1,%r28 /* Clear DHE (dcache hash enable) */ depwi 0,20,1,%r28 /* Clear IHE (icache hash enable) */ .word 0x141c1600 /* mtdiag %r28,%dr0 */ .word 0x141c1600 /* must issue twice */ b,n srdis_done srdis_pcxl: /* Disable Space Register Hashing for PCXL */ .word 0x141c0600 /* mfdiag %dr0,%r28 */ depwi 0,28,2,%r28 /* Clear DHASH_EN & IHASH_EN */ .word 0x141c0240 /* mtdiag %r28,%dr0 */ b,n srdis_done srdis_pa20: /* Disable Space Register Hashing for PCXU,PCXU+,PCXW,PCXW+ */ .word 0x144008bc /* mfdiag %dr2,%r28 */ depdi 0,54,1,%r28 /* clear DIAG_SPHASH_ENAB (bit 54) */ .word 0x145c1840 /* mtdiag %r28,%dr2 */ srdis_done: /* Switch back to virtual mode */ rsm PSW_SM_Q,%r0 /* clear Q bit to load iia queue */ ldil L%KERNEL_PSW, %r1 ldo R%KERNEL_PSW(%r1), %r1 mtctl %r1, %cr22 mtctl %r0, %cr17 mtctl %r0, %cr17 ldil L%(2f), %r1 ldo R%(2f)(%r1), %r1 mtctl %r1, %cr18 ldo 4(%r1), %r1 mtctl %r1, %cr18 rfi nop 2: bv %r0(%r2) nop .exit .procend .end