/* * 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 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* * A quick way to generate a cache consistent address to map in a page. * users: ppcopy, pagezero, /proc, dev/mem * * The ppmapin/ppmapout routines provide a quick way of generating a cache * consistent address by reserving a given amount of kernel address space. * The base is PPMAPBASE and its size is PPMAPSIZE. This memory is divided * into x number of sets, where x is the number of colors for the virtual * cache. The number of colors is how many times a page can be mapped * simulatenously in the cache. For direct map caches this translates to * the number of pages in the cache. * Each set will be assigned a group of virtual pages from the reserved memory * depending on its virtual color. * When trying to assign a virtual address we will find out the color for the * physical page in question (if applicable). Then we will try to find an * available virtual page from the set of the appropiate color. */ int pp_slots = 4; /* small default, tuned by cpu module */ /* tuned by cpu module, default is "safe" */ int pp_consistent_coloring = PPAGE_STORES_POLLUTE | PPAGE_LOADS_POLLUTE; static caddr_t ppmap_vaddrs[PPMAPSIZE / MMU_PAGESIZE]; static int nsets; /* number of sets */ static int ppmap_shift; /* set selector */ #ifdef PPDEBUG #define MAXCOLORS 16 /* for debug only */ static int ppalloc_noslot = 0; /* # of allocations from kernelmap */ static int align_hits; static int pp_allocs; /* # of ppmapin requests */ #endif /* PPDEBUG */ /* * There are only 64 TLB entries on spitfire, 16 on cheetah * (fully-associative TLB) so we allow the cpu module to tune the * number to use here via pp_slots. */ static struct ppmap_va { caddr_t ppmap_slots[MAXPP_SLOTS]; } ppmap_va[NCPU]; /* prevent compilation with VAC defined */ #ifdef VAC #error "sun4v ppmapin and ppmapout do not support VAC" #endif void ppmapinit(void) { int nset; caddr_t va; ASSERT(pp_slots <= MAXPP_SLOTS); va = (caddr_t)PPMAPBASE; /* * sun4v does not have a virtual indexed cache and simply * has only one set containing all pages. */ nsets = mmu_btop(PPMAPSIZE); ppmap_shift = MMU_PAGESHIFT; for (nset = 0; nset < nsets; nset++) { ppmap_vaddrs[nset] = (caddr_t)((uintptr_t)va + (nset * MMU_PAGESIZE)); } } /* * Allocate a cache consistent virtual address to map a page, pp, * with protection, vprot; and map it in the MMU, using the most * efficient means possible. The argument avoid is a virtual address * hint which when masked yields an offset into a virtual cache * that should be avoided when allocating an address to map in a * page. An avoid arg of -1 means you don't care, for instance pagezero. * * machine dependent, depends on virtual address space layout, * understands that all kernel addresses have bit 31 set. * * NOTE: For sun4 platforms the meaning of the hint argument is opposite from * that found in other architectures. In other architectures the hint * (called avoid) was used to ask ppmapin to NOT use the specified cache color. * This was used to avoid virtual cache trashing in the bcopy. Unfortunately * in the case of a COW, this later on caused a cache aliasing conflict. In * sun4, the bcopy routine uses the block ld/st instructions so we don't have * to worry about virtual cache trashing. Actually, by using the hint to choose * the right color we can almost guarantee a cache conflict will not occur. */ /*ARGSUSED2*/ caddr_t ppmapin(page_t *pp, uint_t vprot, caddr_t hint) { int nset; caddr_t va; #ifdef PPDEBUG pp_allocs++; #endif /* PPDEBUG */ /* * For sun4v caches are physical caches, we can pick any address * we want. */ for (nset = 0; nset < nsets; nset++) { va = ppmap_vaddrs[nset]; if (va != NULL) { #ifdef PPDEBUG align_hits++; #endif /* PPDEBUG */ if (casptr(&ppmap_vaddrs[nset], va, NULL) == va) { hat_memload(kas.a_hat, va, pp, vprot | HAT_NOSYNC, HAT_LOAD_LOCK); return (va); } } } #ifdef PPDEBUG ppalloc_noslot++; #endif /* PPDEBUG */ /* * No free slots; get a random one from the kernel heap area. */ va = vmem_alloc(heap_arena, PAGESIZE, VM_SLEEP); hat_memload(kas.a_hat, va, pp, vprot | HAT_NOSYNC, HAT_LOAD_LOCK); return (va); } void ppmapout(caddr_t va) { int nset; if (va >= kernelheap && va < ekernelheap) { /* * Space came from kernelmap, flush the page and * return the space. */ hat_unload(kas.a_hat, va, PAGESIZE, (HAT_UNLOAD_NOSYNC | HAT_UNLOAD_UNLOCK)); vmem_free(heap_arena, va, PAGESIZE); } else { /* * Space came from ppmap_vaddrs[], give it back. */ nset = ((uintptr_t)va >> ppmap_shift) & (nsets - 1); hat_unload(kas.a_hat, va, PAGESIZE, (HAT_UNLOAD_NOSYNC | HAT_UNLOAD_UNLOCK)); ASSERT(ppmap_vaddrs[nset] == NULL); ppmap_vaddrs[nset] = va; } } #ifdef DEBUG #define PP_STAT_ADD(stat) (stat)++ uint_t pload, ploadfail; uint_t ppzero, ppzero_short; #else #define PP_STAT_ADD(stat) #endif /* DEBUG */ static void pp_unload_tlb(caddr_t *pslot, caddr_t va) { ASSERT(*pslot == va); vtag_flushpage(va, (uint64_t)ksfmmup); *pslot = NULL; /* release the slot */ } /* * Routine to copy kernel pages during relocation. It will copy one * PAGESIZE page to another PAGESIZE page. This function may be called * above LOCK_LEVEL so it should not grab any locks. */ void ppcopy_kernel__relocatable(page_t *fm_pp, page_t *to_pp) { uint64_t fm_pa, to_pa; size_t nbytes; fm_pa = (uint64_t)(fm_pp->p_pagenum) << MMU_PAGESHIFT; to_pa = (uint64_t)(to_pp->p_pagenum) << MMU_PAGESHIFT; nbytes = MMU_PAGESIZE; for (; nbytes > 0; fm_pa += 32, to_pa += 32, nbytes -= 32) hw_pa_bcopy32(fm_pa, to_pa); } /* * Copy the data from the physical page represented by "frompp" to * that represented by "topp". * * Try to use per cpu mapping first, if that fails then call pp_mapin * to load it. */ void ppcopy(page_t *fm_pp, page_t *to_pp) { caddr_t fm_va; caddr_t to_va; boolean_t fast; ASSERT(PAGE_LOCKED(fm_pp)); ASSERT(PAGE_LOCKED(to_pp)); /* * Try to map using KPM. If it fails, fall back to * ppmapin/ppmapout. */ if ((fm_va = hat_kpm_mapin(fm_pp, NULL)) == NULL || (to_va = hat_kpm_mapin(to_pp, NULL)) == NULL) { if (fm_va != NULL) hat_kpm_mapout(fm_pp, NULL, fm_va); fm_va = ppmapin(fm_pp, PROT_READ, (caddr_t)-1); to_va = ppmapin(to_pp, PROT_READ | PROT_WRITE, fm_va); fast = B_FALSE; } else fast = B_TRUE; bcopy(fm_va, to_va, PAGESIZE); /* Unmap */ if (fast) { hat_kpm_mapout(fm_pp, NULL, fm_va); hat_kpm_mapout(to_pp, NULL, to_va); } else { ppmapout(fm_va); ppmapout(to_va); } } /* * Zero the physical page from off to off + len given by `pp' * without changing the reference and modified bits of page. * * Again, we'll try per cpu mapping first. */ void pagezero(page_t *pp, uint_t off, uint_t len) { caddr_t va; extern int hwblkclr(void *, size_t); extern int use_hw_bzero; boolean_t fast; ASSERT((int)len > 0 && (int)off >= 0 && off + len <= PAGESIZE); ASSERT(PAGE_LOCKED(pp)); PP_STAT_ADD(ppzero); if (len != MMU_PAGESIZE || !use_hw_bzero) { PP_STAT_ADD(ppzero_short); } kpreempt_disable(); /* * Try to use KPM. If that fails, fall back to * ppmapin/ppmapout. */ fast = B_TRUE; va = hat_kpm_mapin(pp, NULL); if (va == NULL) { fast = B_FALSE; va = ppmapin(pp, PROT_READ | PROT_WRITE, (caddr_t)-1); } if (!use_hw_bzero) { bzero(va + off, len); sync_icache(va + off, len); } else if (hwblkclr(va + off, len)) { /* * We may not have used block commit asi. * So flush the I-$ manually */ sync_icache(va + off, len); } else { /* * We have used blk commit, and flushed the I-$. * However we still may have an instruction in the * pipeline. Only a flush will invalidate that. */ doflush(va); } if (fast) { hat_kpm_mapout(pp, NULL, va); } else { ppmapout(va); } kpreempt_enable(); }