/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * VM - Hardware Address Translation management. * * This file describes the contents of the sun reference mmu (sfmmu) * specific hat data structures and the sfmmu specific hat procedures. * The machine independent interface is described in . */ #ifndef _VM_MACH_SFMMU_H #define _VM_MACH_SFMMU_H #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif /* * On sun4u platforms, user TSBs are accessed via virtual address by default. * Platforms that support ASI_SCRATCHPAD registers can define UTSB_PHYS in the * platform Makefile to access user TSBs via physical address but must also * designate one ASI_SCRATCHPAD register to hold the second user TSB. To * designate the user TSB scratchpad register, platforms must provide a * definition for SCRATCHPAD_UTSBREG2 below. * * Platforms that use UTSB_PHYS do not allocate 2 locked TLB entries to access * the user TSBs. */ #if defined(UTSB_PHYS) #if defined(_OPL) #define SCRATCHPAD_UTSBREG2 OPL_SCRATCHPAD_UTSBREG4 /* 4M-256M pages */ #define SCRATCHPAD_UTSBREG3 OPL_SCRATCHPAD_UTSBREG5 /* 8K-512K pages */ #define SCRATCHPAD_UTSBREG4 OPL_SCRATCHPAD_UTSBREG6 /* 4M-256M pages */ #else #error "Compiling UTSB_PHYS but no SCRATCHPAD_UTSBREG2 specified" #endif /* _OPL */ #endif /* UTSB_PHYS */ #ifdef _ASM /* * This macro is used to set private/shared secondary context register in * sfmmu_alloc_ctx(). * if is_shctx = 0 then we set the SCONTEXT to cnum and invalidate the * SHARED_CONTEXT register. If is_shctx = 1 then only the SHARED_CONTEXT * register is set. * (See additional comments in sfmmu_alloc_ctx) * Input: * cnum = cnum * is_shctx = sfmmu private/shared flag (0: private, 1: shared) * tmp1 : %o4 scratch * tmp2 : %o5 scratch * label: used as local branch targets */ #define SET_SECCTX(cnum, is_shctx, tmp1, tmp2, label) \ /* BEGIN CSTYLED */ \ brnz,pn is_shctx, label/**/1 ;\ sethi %hi(FLUSH_ADDR), tmp2 ;\ mov MMU_SCONTEXT, tmp1 ;\ stxa cnum, [tmp1]ASI_MMU_CTX ;\ flush tmp2 ;\ sethi %hi(shctx_on), tmp1 ;\ ld [tmp1 + %lo(shctx_on)], tmp1 ;\ brz,pt tmp1, label/**/3 ;\ mov %g0, cnum ;\ ba,pt %xcc, label/**/2 ;\ label/**/1: ;\ set SHCTXREG_VALID_BIT, tmp1 ;\ sllx cnum, CTXREG_CTX_SHIFT, cnum ;\ srlx cnum, CTXREG_CTX_SHIFT, cnum ;\ or cnum, tmp1, cnum ;\ mov cnum, tmp1 ;\ sllx cnum, 32, cnum ;\ or cnum, tmp1, cnum ;\ label/**/2: ;\ mov MMU_SHARED_CONTEXT, tmp1 ;\ stxa cnum, [tmp1]ASI_MMU_CTX ;\ flush tmp2 ;\ label/**/3: /* END CSTYLED */ /* * This macro is to control the pagesizes used for shared context on * Rock systems. */ #define CHECK_SHARED_PGSZ(tsbarea, tte, tmp, use_shctx, label) /* * This macro is used in the MMU code to check if TL should be lowered from * 2 to 1 to pop trapstat's state. See the block comment in trapstat.c * for details. */ #define TSTAT_CHECK_TL1(label, scr1, scr2) \ rdpr %tpc, scr1; \ sethi %hi(KERNELBASE), scr2; \ or scr2, %lo(KERNELBASE), scr2; \ cmp scr1, scr2; \ bgeu %xcc, 9f; \ nop; \ ba label; \ wrpr %g0, 1, %tl; \ 9: /* * The following macros allow us to share majority of the * SFMMU code between sun4u and sun4v platforms. */ #define SETUP_TSB_ASI(qlp, tmp) \ movrz qlp, ASI_N, tmp; \ movrnz qlp, ASI_MEM, tmp; \ mov tmp, %asi /* * Macro to swtich to alternate global register on sun4u platforms * (not applicable to sun4v platforms) */ #define USE_ALTERNATE_GLOBALS(scr) \ rdpr %pstate, scr; \ wrpr scr, PSTATE_MG | PSTATE_AG, %pstate /* * Macro to set %gl register value on sun4v platforms * (not applicable to sun4u platforms) */ #define SET_GL_REG(val) /* * Get MMU data tag access register value * * In: * tagacc, scr1 = scratch registers * Out: * tagacc = MMU data tag access register value */ #define GET_MMU_D_TAGACC(tagacc, scr1) \ mov MMU_TAG_ACCESS, scr1; \ ldxa [scr1]ASI_DMMU, tagacc /* * Get MMU data tag target register * * In: * ttarget, scr1 = scratch registers * Out: * ttarget = MMU data tag target register value */ #define GET_MMU_D_TTARGET(ttarget, scr1) \ ldxa [%g0]ASI_DMMU, ttarget /* * Get MMU data/instruction tag access register values * * In: * dtagacc, itagacc, scr1, scr2 = scratch registers * Out: * dtagacc = MMU data tag access register value * itagacc = MMU instruction tag access register value */ #define GET_MMU_BOTH_TAGACC(dtagacc, itagacc, scr1, scr2) \ mov MMU_TAG_ACCESS, scr1; \ ldxa [scr1]ASI_DMMU, dtagacc; \ ldxa [scr1]ASI_IMMU, itagacc /* * Get MMU data fault address from the tag access register * * In: * daddr, scr1 = scratch registers * Out: * daddr = MMU data fault address */ #define GET_MMU_D_ADDR(daddr, scr1) \ mov MMU_TAG_ACCESS, scr1; \ ldxa [scr1]ASI_DMMU, daddr; \ set TAGACC_CTX_MASK, scr1; \ andn daddr, scr1, daddr /* * Load ITLB entry * * In: * tte = reg containing tte * scr1, scr2, scr3, scr4 = scratch registers (not used) */ #define ITLB_STUFF(tte, scr1, scr2, scr3, scr4) \ stxa tte, [%g0]ASI_ITLB_IN /* * Load DTLB entry * * In: * tte = reg containing tte * scr1, scr2, scr3, scr4 = scratch register (not used) */ #define DTLB_STUFF(tte, scr1, scr2, scr3, scr4) \ stxa tte, [%g0]ASI_DTLB_IN /* * Returns PFN given the TTE and vaddr * * In: * tte = reg containing tte * vaddr = reg containing vaddr * scr1, scr2, scr3 = scratch registers * Out: * tte = PFN value */ #define TTETOPFN(tte, vaddr, label, scr1, scr2, scr3) \ srlx tte, TTE_SZ_SHFT, scr1; \ and scr1, TTE_SZ_BITS, scr1; /* scr1 = tte_size */ \ srlx tte, TTE_SZ2_SHFT, scr3; \ and scr3, TTE_SZ2_BITS, scr3; /* scr3 = tte_size2 */ \ or scr1, scr3, scr1; \ sllx scr1, 1, scr2; \ add scr2, scr1, scr2; /* mulx 3 */ \ sllx tte, TTE_PA_LSHIFT, tte; \ add scr2, MMU_PAGESHIFT + TTE_PA_LSHIFT, scr3; \ /* BEGIN CSTYLED */ \ brz,pt scr2, label/**/1; \ srlx tte, scr3, tte; \ /* END CSTYLED */ \ sllx tte, scr2, tte; \ set 1, scr1; \ add scr2, MMU_PAGESHIFT, scr3; \ sllx scr1, scr3, scr1; \ sub scr1, 1, scr1; /* g2=TTE_PAGE_OFFSET(ttesz) */ \ and vaddr, scr1, scr2; \ srln scr2, MMU_PAGESHIFT, scr2; \ or tte, scr2, tte; \ /* CSTYLED */ \ label/**/1: /* * No support for non-coherent I-cache in sun4u */ #define TTE_SET_EXEC_ML(tte, ttepa, tmp1, label) #define TTE_CLR_SOFTEXEC_ML(tte) #define TTE_CHK_SOFTEXEC_ML(tte) andcc tte, 0, %g0 /* * TTE_SET_REF_ML is a macro that updates the reference bit if it is * not already set. * * Parameters: * tte = reg containing tte * ttepa = physical pointer to tte * tteva = virtual ptr to tte * tsbarea = tsb miss area * tmp1 = tmp reg * label = temporary label */ #define TTE_SET_REF_ML(tte, ttepa, tteva, tsbarea, tmp1, label) \ /* BEGIN CSTYLED */ \ /* check reference bit */ \ andcc tte, TTE_REF_INT, %g0; \ bnz,pt %xcc, label/**/4; /* if ref bit set-skip ahead */ \ nop; \ GET_CPU_IMPL(tmp1); \ cmp tmp1, SPITFIRE_IMPL; \ blt %icc, label/**/2; /* skip flush if FJ-OPL cpus */ \ cmp tmp1, CHEETAH_IMPL; \ bl,a %icc, label/**/1; \ /* update reference bit */ \ lduh [tsbarea + TSBMISS_DMASK], tmp1; \ stxa %g0, [ttepa]ASI_DC_INVAL; /* flush line from dcache */ \ membar #Sync; \ ba label/**/2; \ label/**/1: \ and tteva, tmp1, tmp1; \ stxa %g0, [tmp1]ASI_DC_TAG; /* flush line from dcache */ \ membar #Sync; \ label/**/2: \ or tte, TTE_REF_INT, tmp1; \ casxa [ttepa]ASI_MEM, tte, tmp1; /* update ref bit */ \ cmp tte, tmp1; \ bne,a,pn %xcc, label/**/2; \ ldxa [ttepa]ASI_MEM, tte; /* MMU_READTTE through pa */ \ or tte, TTE_REF_INT, tte; \ label/**/4: \ /* END CSTYLED */ /* * TTE_SET_REFMOD_ML is a macro that updates the reference and modify bits * if not already set. * * Parameters: * tte = reg containing tte * ttepa = physical pointer to tte * tteva = virtual ptr to tte * tsbarea = tsb miss area * tmp1 = tmp reg * label = temporary label * exitlabel = label where to jump to if write perm bit not set. */ #define TTE_SET_REFMOD_ML(tte, ttepa, tteva, tsbarea, tmp1, label, \ exitlabel) \ /* BEGIN CSTYLED */ \ /* check reference bit */ \ andcc tte, TTE_WRPRM_INT, %g0; \ bz,pn %xcc, exitlabel; /* exit if wr_perm not set */ \ nop; \ andcc tte, TTE_HWWR_INT, %g0; \ bnz,pn %xcc, label/**/4; /* nothing to do */ \ nop; \ GET_CPU_IMPL(tmp1); \ cmp tmp1, SPITFIRE_IMPL; \ blt %icc, label/**/2; /* skip flush if FJ-OPL cpus */ \ cmp tmp1, CHEETAH_IMPL; \ bl,a %icc, label/**/1; \ /* update reference bit */ \ lduh [tsbarea + TSBMISS_DMASK], tmp1; \ stxa %g0, [ttepa]ASI_DC_INVAL; /* flush line from dcache */ \ membar #Sync; \ ba label/**/2; \ label/**/1: \ and tteva, tmp1, tmp1; \ stxa %g0, [tmp1]ASI_DC_TAG; /* flush line from dcache */ \ membar #Sync; \ label/**/2: \ or tte, TTE_HWWR_INT | TTE_REF_INT, tmp1; \ casxa [ttepa]ASI_MEM, tte, tmp1; /* update ref/mod bit */ \ cmp tte, tmp1; \ bne,a,pn %xcc, label/**/2; \ ldxa [ttepa]ASI_MEM, tte; /* MMU_READTTE through pa */ \ or tte, TTE_HWWR_INT | TTE_REF_INT, tte; \ label/**/4: \ /* END CSTYLED */ #ifndef UTSB_PHYS /* * Synthesize TSB base register contents for a process with * a single TSB. * * We patch the virtual address mask in at runtime since the * number of significant virtual address bits in the TSB VA * can vary depending upon the TSB slab size being used on the * machine. * * In: * tsbinfo = TSB info pointer (ro) * vabase = value of utsb_vabase (ro) * Out: * tsbreg = value to program into TSB base register */ #define MAKE_TSBREG(tsbreg, tsbinfo, vabase, tmp1, tmp2, label) \ /* BEGIN CSTYLED */ \ ldx [tsbinfo + TSBINFO_VADDR], tmp1; \ .global label/**/_tsbreg_vamask ;\ label/**/_tsbreg_vamask: \ or %g0, RUNTIME_PATCH, tsbreg; \ lduh [tsbinfo + TSBINFO_SZCODE], tmp2; \ sllx tsbreg, TSBREG_VAMASK_SHIFT, tsbreg; \ or vabase, tmp2, tmp2; \ and tmp1, tsbreg, tsbreg; \ or tsbreg, tmp2, tsbreg; \ /* END CSTYLED */ /* * Synthesize TSB base register contents for a process with * two TSBs. See hat_sfmmu.h for the layout of the TSB base * register in this case. * * In: * tsb1 = pointer to first TSB info (ro) * tsb2 = pointer to second TSB info (ro) * Out: * tsbreg = value to program into TSB base register */ #define MAKE_TSBREG_SECTSB(tsbreg, tsb1, tsb2, tmp1, tmp2, tmp3, label) \ /* BEGIN CSTYLED */ \ set TSBREG_MSB_CONST, tmp3 ;\ sllx tmp3, TSBREG_MSB_SHIFT, tsbreg ;\ .global label/**/_tsbreg_vamask ;\ label/**/_tsbreg_vamask: ;\ or %g0, RUNTIME_PATCH, tmp3 ;\ sll tmp3, TSBREG_VAMASK_SHIFT, tmp3 ;\ ldx [tsb1 + TSBINFO_VADDR], tmp1 ;\ ldx [tsb2 + TSBINFO_VADDR], tmp2 ;\ and tmp1, tmp3, tmp1 ;\ and tmp2, tmp3, tmp2 ;\ sllx tmp2, TSBREG_SECTSB_MKSHIFT, tmp2 ;\ or tmp1, tmp2, tmp3 ;\ or tsbreg, tmp3, tsbreg ;\ lduh [tsb1 + TSBINFO_SZCODE], tmp1 ;\ lduh [tsb2 + TSBINFO_SZCODE], tmp2 ;\ and tmp1, TSB_SOFTSZ_MASK, tmp1 ;\ and tmp2, TSB_SOFTSZ_MASK, tmp2 ;\ sllx tmp2, TSBREG_SECSZ_SHIFT, tmp2 ;\ or tmp1, tmp2, tmp3 ;\ or tsbreg, tmp3, tsbreg ;\ /* END CSTYLED */ /* * Load the locked TSB TLB entry. * * In: * tsbinfo = tsb_info pointer as va (ro) * tteidx = shifted index into TLB to load the locked entry (ro) * va = virtual address at which to load the locked TSB entry (ro) * Out: * Scratch: * tmp */ #define LOAD_TSBTTE(tsbinfo, tteidx, va, tmp) \ mov MMU_TAG_ACCESS, tmp; \ stxa va, [tmp]ASI_DMMU; /* set tag access */ \ membar #Sync; \ ldx [tsbinfo + TSBINFO_TTE], tmp; /* fetch locked tte */ \ stxa tmp, [tteidx]ASI_DTLB_ACCESS; /* load locked tte */ \ membar #Sync /* * In the current implementation, TSBs usually come from physically * contiguous chunks of memory up to 4MB in size, but 8K TSBs may be * allocated from 8K chunks of memory under certain conditions. To * prevent aliasing in the virtual address cache when the TSB slab is * 8K in size we must align the reserved (TL>0) TSB virtual address to * have the same low-order bits as the kernel (TL=0) TSB virtual address, * and map 8K TSBs with an 8K TTE. In cases where the TSB reserved VA * range is smaller than the assumed 4M we will patch the shift at * runtime; otherwise we leave it alone (which is why RUNTIME_PATCH * constant doesn't appear below). * * In: * tsbinfo (ro) * resva: reserved VA base for this TSB * Out: * resva: corrected VA for this TSB */ #define RESV_OFFSET(tsbinfo, resva, tmp1, label) \ /* BEGIN CSTYLED */ \ lduh [tsbinfo + TSBINFO_SZCODE], tmp1 ;\ brgz,pn tmp1, label/**/9 ;\ nop ;\ ldx [tsbinfo + TSBINFO_VADDR], tmp1 ;\ .global label/**/_resv_offset ;\ label/**/_resv_offset: ;\ sllx tmp1, (64 - MMU_PAGESHIFT4M), tmp1 ;\ srlx tmp1, (64 - MMU_PAGESHIFT4M), tmp1 ;\ or tmp1, resva, resva ;\ label/**/9: \ /* END CSTYLED */ /* * Determine the pointer of the entry in the first TSB to probe given * the 8K TSB pointer register contents. * * In: * tsbp8k = 8K TSB pointer register (ro) * tmp = scratch register * label = label for hot patching of utsb_vabase * * Out: tsbe_ptr = TSB entry address * * Note: This function is patched at runtime for performance reasons. * Any changes here require sfmmu_patch_utsb fixed. */ #define GET_1ST_TSBE_PTR(tsbp8k, tsbe_ptr, tmp, label) \ /* BEGIN CSTYLED */ \ label/**/_get_1st_tsbe_ptr: ;\ RUNTIME_PATCH_SETX(tsbe_ptr, tmp) ;\ /* tsbeptr = contents of utsb_vabase */ ;\ /* clear upper bits leaving just bits 21:0 of TSB ptr. */ ;\ sllx tsbp8k, TSBREG_FIRTSB_SHIFT, tmp ;\ /* finish clear */ ;\ srlx tmp, TSBREG_FIRTSB_SHIFT, tmp ;\ /* or-in bits 41:22 of the VA to form the real pointer. */ ;\ or tsbe_ptr, tmp, tsbe_ptr \ /* END CSTYLED */ /* * Determine the base address of the second TSB given the 8K TSB * pointer register contents. * * In: * tsbp8k = 8K TSB pointer register (ro) * tmp = scratch register * label = label for hot patching of utsb_vabase * * Out: * tsbbase = TSB base address * * Note: This function is patched at runtime for performance reasons. * Any changes here require sfmmu_patch_utsb fixed. */ #define GET_2ND_TSB_BASE(tsbp8k, tsbbase, tmp, label) \ /* BEGIN CSTYLED */ \ label/**/_get_2nd_tsb_base: ;\ RUNTIME_PATCH_SETX(tsbbase, tmp) ;\ /* tsbbase = contents of utsb4m_vabase */ ;\ /* clear upper bits leaving just bits 21:xx of TSB addr. */ ;\ sllx tsbp8k, TSBREG_SECTSB_LSHIFT, tmp ;\ /* clear lower bits leaving just 21:13 in 8:0 */ ;\ srlx tmp, (TSBREG_SECTSB_RSHIFT + MMU_PAGESHIFT), tmp ;\ /* adjust TSB offset to bits 21:13 */ ;\ sllx tmp, MMU_PAGESHIFT, tmp ;\ or tsbbase, tmp, tsbbase ;\ /* END CSTYLED */ /* * Determine the size code of the second TSB given the 8K TSB * pointer register contents. * * In: * tsbp8k = 8K TSB pointer register (ro) * Out: * size = TSB size code */ #define GET_2ND_TSB_SIZE(tsbp8k, size) \ srlx tsbp8k, TSBREG_SECSZ_SHIFT, size; \ and size, TSB_SOFTSZ_MASK, size /* * Get the location in the 2nd TSB of the tsbe for this fault. * Assumes that the second TSB only contains 4M mappings. * * In: * tagacc = tag access register (clobbered) * tsbp8k = contents of TSB8K pointer register (ro) * tmp1, tmp2 = scratch registers * label = label at which to patch in reserved TSB 4M VA range * Out: * tsbe_ptr = pointer to the tsbe in the 2nd TSB */ #define GET_2ND_TSBE_PTR(tagacc, tsbp8k, tsbe_ptr, tmp1, tmp2, label) \ GET_2ND_TSB_BASE(tsbp8k, tsbe_ptr, tmp2, label); \ /* tsbe_ptr = TSB base address, tmp2 = junk */ \ GET_2ND_TSB_SIZE(tsbp8k, tmp1); \ /* tmp1 = TSB size code */ \ GET_TSBE_POINTER(MMU_PAGESHIFT4M, tsbe_ptr, tagacc, tmp1, tmp2) #else /* !UTSB_PHYS */ /* * Determine the pointer of the entry in the first TSB to probe given * the 8K TSB pointer register contents. * * In: * tagacc = tag access register * tsbe_ptr = 8K TSB pointer register * tmp = scratch registers * * Out: tsbe_ptr = TSB entry address * * Note: This macro is a nop since the 8K TSB pointer register * is the entry pointer and does not need to be decoded. * It is defined to allow for code sharing with sun4v. */ #define GET_1ST_TSBE_PTR(tagacc, tsbe_ptr, tmp1, tmp2) #endif /* !UTSB_PHYS */ /* * Load TSB base register. In the single TSB case this register * contains utsb_vabase, bits 21:13 of tsbinfo->tsb_va, and the * TSB size code in bits 2:0. See hat_sfmmu.h for the layout in * the case where we have multiple TSBs per process. * * In: * tsbreg = value to load (ro) */ #define LOAD_TSBREG(tsbreg, tmp1, tmp2) \ mov MMU_TSB, tmp1; \ sethi %hi(FLUSH_ADDR), tmp2; \ stxa tsbreg, [tmp1]ASI_DMMU; /* dtsb reg */ \ stxa tsbreg, [tmp1]ASI_IMMU; /* itsb reg */ \ flush tmp2 #ifdef UTSB_PHYS #define UTSB_PROBE_ASI ASI_QUAD_LDD_PHYS #else #define UTSB_PROBE_ASI ASI_NQUAD_LD #endif #define PROBE_TSB(tsbe_ptr, tag, tsbtag, label) \ /* BEGIN CSTYLED */ \ ldda [tsbe_ptr]UTSB_PROBE_ASI, tsbtag ;\ cmp tsbtag, tag /* compare tag w/ TSB */ ;\ bne,pn %xcc, label/**/1 /* branch if !match */ ;\ nop \ /* END CSTYLED */ /* * Probe a TSB. If miss continue from the end of the macro for most probes * except jump to TSB miss for 3rd ITSB probe. If hit retry faulted * instruction for DTSB probes. For ITSB probes in case of TSB hit check * execute bit and branch to exec_fault if the bit is not set otherwise retry * faulted instruction. Do ITLB synthesis in case of hit in second ITSB if * synthesis bit is set. * * tsbe_ptr = precomputed TSB entry pointer (in, ro) * vpg_4m = 4M virtual page number for tag matching (in, ro) * label = where to branch to if this is a miss (text) * * For trapstat, we have to explicily use these registers. * g4 = location tag will be retrieved into from TSB (out) * g5 = location data(tte) will be retrieved into from TSB (out) * * In case of first tsb probe tsbe_ptr is %g1. For other tsb probes * move tsbe_ptr into %g1 in case of hit for traptrace. * * If the probe fails and we continue from call site %g4-%g5 are clobbered. * 2nd ITSB probe macro will also clobber %g6 in this case. */ #define PROBE_1ST_DTSB(tsbe_ptr, vpg_4m, label) \ /* BEGIN CSTYLED */ \ PROBE_TSB(tsbe_ptr, vpg_4m, %g4, label) ;\ TT_TRACE(trace_tsbhit) ;\ DTLB_STUFF(%g5, %g1, %g2, %g3, %g4) ;\ retry /* retry faulted instruction */ ;\ label/**/1: \ /* END CSTYLED */ #define PROBE_2ND_DTSB(tsbe_ptr, vpg_4m, label) \ /* BEGIN CSTYLED */ \ PROBE_TSB(tsbe_ptr, vpg_4m, %g4, label) ;\ mov tsbe_ptr, %g1 /* trace_tsbhit wants ptr in %g1 */ ;\ TT_TRACE(trace_tsbhit) ;\ DTLB_STUFF(%g5, %g1, %g2, %g3, %g4) ;\ retry /* retry faulted instruction */ ;\ label/**/1: \ /* END CSTYLED */ #define PROBE_1ST_ITSB(tsbe_ptr, vpg_4m, label) \ /* BEGIN CSTYLED */ \ PROBE_TSB(tsbe_ptr, vpg_4m, %g4, label) ;\ andcc %g5, TTE_EXECPRM_INT, %g0 /* check execute bit */ ;\ bz,pn %icc, exec_fault ;\ nop ;\ TT_TRACE(trace_tsbhit) ;\ ITLB_STUFF(%g5, %g1, %g2, %g3, %g4) ;\ retry /* retry faulted instruction */ ;\ label/**/1: \ /* END CSTYLED */ #define PROBE_2ND_ITSB(tsbe_ptr, vpg_4m, label) \ /* BEGIN CSTYLED */ \ ldda [tsbe_ptr]UTSB_PROBE_ASI, %g4 /* g4 = tag, g5 = data */ ;\ cmp %g4, vpg_4m /* compare tag w/ TSB */ ;\ bne,pn %xcc, label/**/2 /* branch if !match */ ;\ or %g0, TTE4M, %g6 ;\ andcc %g5, TTE_EXECPRM_INT, %g0 /* check execute bit */ ;\ bz,a,pn %icc, label/**/1 ;\ sllx %g6, TTE_SZ_SHFT, %g6 ;\ mov tsbe_ptr, %g1 /* trap trace wants ptr in %g1 */ ;\ TT_TRACE(trace_tsbhit) ;\ ITLB_STUFF(%g5, %g1, %g2, %g3, %g4) ;\ retry /* retry faulted instruction */ ;\ label/**/1: ;\ andcc %g5, TTE_E_SYNTH_INT, %g0 ;\ bz,pn %icc, exec_fault ;\ mov tsbe_ptr, %g1 /* trap trace wants ptr in %g1 */ ;\ or %g5, %g6, %g5 ;\ TT_TRACE(trace_tsbhit) ;\ ITLB_STUFF(%g5, %g1, %g2, %g3, %g4) ;\ retry /* retry faulted instruction */ ;\ label/**/2: /* END CSTYLED */ #ifdef UTSB_PHYS /* * Updates the context filed in the tagaccess register with the shared * context to force the next i/DTLB_STUFF() to load this mapping into * the TLB with the shared context. */ #define SET_SHCTX_TAGACC(tmp1, tmp2, asi) \ /* BEGIN CSTYLED */ \ mov MMU_TAG_ACCESS, tmp2 ;\ ldxa [tmp2]asi, tmp2 /* tmp2 = VA|CTX */ ;\ srlx tmp2, TAGACC_SHIFT, tmp2 ;\ sllx tmp2, TAGACC_SHIFT, tmp2 /* tmp2 = VA */ ;\ mov MMU_SHARED_CONTEXT, tmp1 /* clobber tsbe_ptr */ ;\ ldxa [tmp1]ASI_MMU_CTX, tmp1 /* tmp2 = shctx reg */ ;\ sllx tmp1, SHCTXREG_CTX_LSHIFT, tmp1 ;\ srlx tmp1, SHCTXREG_CTX_LSHIFT, tmp1 /* tmp1 = SHCTX */ ;\ or tmp1, tmp2, tmp1 /* tmp1 = VA|SHCTX */ ;\ mov MMU_TAG_ACCESS, tmp2 ;\ stxa tmp1, [tmp2]asi /* asi = VA|SHCTX */ /* END CSTYLED */ #define PROBE_SHCTX_DTSB(tsbe_ptr, vpg_4m, label) \ /* BEGIN CSTYLED */ \ PROBE_TSB(tsbe_ptr, vpg_4m, %g4, label) ;\ mov tsbe_ptr, %g1 /* trace_tsbhit wants ptr in %g1 */ ;\ TT_TRACE(trace_tsbhit) ;\ SET_SHCTX_TAGACC(%g3, %g4, ASI_DMMU) ;\ DTLB_STUFF(%g5, %g1, %g2, %g3, %g4) ;\ retry /* retry faulted instruction */ ;\ label/**/1: \ /* END CSTYLED */ #define PROBE_3RD_DTSB(tsbe_ptr, vpg_4m, label) \ /* BEGIN CSTYLED */ \ PROBE_SHCTX_DTSB(tsbe_ptr, vpg_4m, label) ;\ /* END CSTYLED */ #define PROBE_4TH_DTSB(tsbe_ptr, vpg_4m, label) \ /* BEGIN CSTYLED */ \ PROBE_SHCTX_DTSB(tsbe_ptr, vpg_4m, label) ;\ /* END CSTYLED */ #define PROBE_SHCTX_ITSB(tsbe_ptr, vpg_4m, label) \ /* BEGIN CSTYLED */ \ PROBE_TSB(tsbe_ptr, vpg_4m, %g4, label) ;\ andcc %g5, TTE_EXECPRM_INT, %g0 /* check execute bit */ ;\ bz,pn %icc, exec_fault ;\ mov tsbe_ptr, %g1 /* for traptrace sake */ ;\ TT_TRACE(trace_tsbhit) ;\ SET_SHCTX_TAGACC(%g3, %g4, ASI_IMMU) ;\ ITLB_STUFF(%g5, %g1, %g2, %g3, %g4) ;\ retry /* retry faulted instruction */ ;\ label/**/1: /* END CSTYLED */ #define PROBE_3RD_ITSB(tsbe_ptr, vpg_4m, label) \ /* BEGIN CSTYLED */ \ PROBE_SHCTX_ITSB(tsbe_ptr, vpg_4m, sfmmu_tsb_miss_tt) ;\ /* END CSTYLED */ #define PROBE_4TH_ITSB(tsbe_ptr, vpg_4m, label) \ /* BEGIN CSTYLED */ \ PROBE_SHCTX_ITSB(tsbe_ptr, vpg_4m, label) ;\ /* END CSTYLED */ /* * The traptype is supplied by caller. * * If iTSB miss, store shctx into IMMU TAG ACCESS REG * If dTSB miss, store shctx into DMMU TAG ACCESS REG * Thus the [D|I]TLB_STUFF will work as expected. */ #define SAVE_CTX1(traptype, tmp1, tmp2, label) \ /* BEGIN CSTYLED */ \ cmp traptype, FAST_IMMU_MISS_TT ;\ be,pn %icc, label/**/1 ;\ nop ;\ SET_SHCTX_TAGACC(tmp1, tmp2, ASI_DMMU) ;\ membar #Sync ;\ ba,a label/**/2 ;\ label/**/1: ;\ SET_SHCTX_TAGACC(tmp1, tmp2, ASI_IMMU) ;\ sethi %hi(FLUSH_ADDR), tmp1 ;\ flush tmp1 ;\ label/**/2: /* END CSTYLED */ #endif /* UTSB_PHYS */ #endif /* _ASM */ #ifdef __cplusplus } #endif #endif /* _VM_MACH_SFMMU_H */