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Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/splash/bmp/@/powerpc/powerpc/pmap_dispatch.c |
/*- * Copyright (c) 2005 Peter Grehan * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/powerpc/powerpc/pmap_dispatch.c 227711 2011-11-19 12:55:32Z marius $"); /* * Dispatch MI pmap calls to the appropriate MMU implementation * through a previously registered kernel object. * * Before pmap_bootstrap() can be called, a CPU module must have * called pmap_mmu_install(). This may be called multiple times: * the highest priority call will be installed as the default * MMU handler when pmap_bootstrap() is called. * * It is required that mutex_init() be called before pmap_bootstrap(), * as the PMAP layer makes extensive use of mutexes. */ #include <sys/param.h> #include <sys/kernel.h> #include <sys/lock.h> #include <sys/ktr.h> #include <sys/mutex.h> #include <sys/systm.h> #include <vm/vm.h> #include <vm/vm_page.h> #include <machine/mmuvar.h> #include <machine/smp.h> #include "mmu_if.h" static mmu_def_t *mmu_def_impl; static mmu_t mmu_obj; static struct mmu_kobj mmu_kernel_obj; static struct kobj_ops mmu_kernel_kops; /* * pmap globals */ struct pmap kernel_pmap_store; struct msgbuf *msgbufp; vm_offset_t msgbuf_phys; vm_offset_t kernel_vm_end; vm_offset_t phys_avail[PHYS_AVAIL_SZ]; vm_offset_t virtual_avail; vm_offset_t virtual_end; int pmap_bootstrapped; void pmap_change_wiring(pmap_t pmap, vm_offset_t va, boolean_t wired) { CTR4(KTR_PMAP, "%s(%p, %#x, %u)", __func__, pmap, va, wired); MMU_CHANGE_WIRING(mmu_obj, pmap, va, wired); } void pmap_clear_modify(vm_page_t m) { CTR2(KTR_PMAP, "%s(%p)", __func__, m); MMU_CLEAR_MODIFY(mmu_obj, m); } void pmap_clear_reference(vm_page_t m) { CTR2(KTR_PMAP, "%s(%p)", __func__, m); MMU_CLEAR_REFERENCE(mmu_obj, m); } void pmap_copy(pmap_t dst_pmap, pmap_t src_pmap, vm_offset_t dst_addr, vm_size_t len, vm_offset_t src_addr) { CTR6(KTR_PMAP, "%s(%p, %p, %#x, %#x, %#x)", __func__, dst_pmap, src_pmap, dst_addr, len, src_addr); MMU_COPY(mmu_obj, dst_pmap, src_pmap, dst_addr, len, src_addr); } void pmap_copy_page(vm_page_t src, vm_page_t dst) { CTR3(KTR_PMAP, "%s(%p, %p)", __func__, src, dst); MMU_COPY_PAGE(mmu_obj, src, dst); } void pmap_enter(pmap_t pmap, vm_offset_t va, vm_prot_t access, vm_page_t p, vm_prot_t prot, boolean_t wired) { CTR6(KTR_PMAP, "pmap_enter(%p, %#x, %#x, %p, %#x, %u)", pmap, va, access, p, prot, wired); MMU_ENTER(mmu_obj, pmap, va, p, prot, wired); } void pmap_enter_object(pmap_t pmap, vm_offset_t start, vm_offset_t end, vm_page_t m_start, vm_prot_t prot) { CTR6(KTR_PMAP, "%s(%p, %#x, %#x, %p, %#x)", __func__, pmap, start, end, m_start, prot); MMU_ENTER_OBJECT(mmu_obj, pmap, start, end, m_start, prot); } void pmap_enter_quick(pmap_t pmap, vm_offset_t va, vm_page_t m, vm_prot_t prot) { CTR5(KTR_PMAP, "%s(%p, %#x, %p, %#x)", __func__, pmap, va, m, prot); MMU_ENTER_QUICK(mmu_obj, pmap, va, m, prot); } vm_paddr_t pmap_extract(pmap_t pmap, vm_offset_t va) { CTR3(KTR_PMAP, "%s(%p, %#x)", __func__, pmap, va); return (MMU_EXTRACT(mmu_obj, pmap, va)); } vm_page_t pmap_extract_and_hold(pmap_t pmap, vm_offset_t va, vm_prot_t prot) { CTR4(KTR_PMAP, "%s(%p, %#x, %#x)", __func__, pmap, va, prot); return (MMU_EXTRACT_AND_HOLD(mmu_obj, pmap, va, prot)); } void pmap_growkernel(vm_offset_t va) { CTR2(KTR_PMAP, "%s(%#x)", __func__, va); MMU_GROWKERNEL(mmu_obj, va); } void pmap_init(void) { CTR1(KTR_PMAP, "%s()", __func__); MMU_INIT(mmu_obj); } boolean_t pmap_is_modified(vm_page_t m) { CTR2(KTR_PMAP, "%s(%p)", __func__, m); return (MMU_IS_MODIFIED(mmu_obj, m)); } boolean_t pmap_is_prefaultable(pmap_t pmap, vm_offset_t va) { CTR3(KTR_PMAP, "%s(%p, %#x)", __func__, pmap, va); return (MMU_IS_PREFAULTABLE(mmu_obj, pmap, va)); } boolean_t pmap_is_referenced(vm_page_t m) { CTR2(KTR_PMAP, "%s(%p)", __func__, m); return (MMU_IS_REFERENCED(mmu_obj, m)); } boolean_t pmap_ts_referenced(vm_page_t m) { CTR2(KTR_PMAP, "%s(%p)", __func__, m); return (MMU_TS_REFERENCED(mmu_obj, m)); } vm_offset_t pmap_map(vm_offset_t *virt, vm_paddr_t start, vm_paddr_t end, int prot) { CTR5(KTR_PMAP, "%s(%p, %#x, %#x, %#x)", __func__, virt, start, end, prot); return (MMU_MAP(mmu_obj, virt, start, end, prot)); } void pmap_object_init_pt(pmap_t pmap, vm_offset_t addr, vm_object_t object, vm_pindex_t pindex, vm_size_t size) { CTR6(KTR_PMAP, "%s(%p, %#x, %p, %u, %#x)", __func__, pmap, addr, object, pindex, size); MMU_OBJECT_INIT_PT(mmu_obj, pmap, addr, object, pindex, size); } boolean_t pmap_page_exists_quick(pmap_t pmap, vm_page_t m) { CTR3(KTR_PMAP, "%s(%p, %p)", __func__, pmap, m); return (MMU_PAGE_EXISTS_QUICK(mmu_obj, pmap, m)); } void pmap_page_init(vm_page_t m) { CTR2(KTR_PMAP, "%s(%p)", __func__, m); MMU_PAGE_INIT(mmu_obj, m); } int pmap_page_wired_mappings(vm_page_t m) { CTR2(KTR_PMAP, "%s(%p)", __func__, m); return (MMU_PAGE_WIRED_MAPPINGS(mmu_obj, m)); } int pmap_pinit(pmap_t pmap) { CTR2(KTR_PMAP, "%s(%p)", __func__, pmap); MMU_PINIT(mmu_obj, pmap); return (1); } void pmap_pinit0(pmap_t pmap) { CTR2(KTR_PMAP, "%s(%p)", __func__, pmap); MMU_PINIT0(mmu_obj, pmap); } void pmap_protect(pmap_t pmap, vm_offset_t start, vm_offset_t end, vm_prot_t prot) { CTR5(KTR_PMAP, "%s(%p, %#x, %#x, %#x)", __func__, pmap, start, end, prot); MMU_PROTECT(mmu_obj, pmap, start, end, prot); } void pmap_qenter(vm_offset_t start, vm_page_t *m, int count) { CTR4(KTR_PMAP, "%s(%#x, %p, %d)", __func__, start, m, count); MMU_QENTER(mmu_obj, start, m, count); } void pmap_qremove(vm_offset_t start, int count) { CTR3(KTR_PMAP, "%s(%#x, %d)", __func__, start, count); MMU_QREMOVE(mmu_obj, start, count); } void pmap_release(pmap_t pmap) { CTR2(KTR_PMAP, "%s(%p)", __func__, pmap); MMU_RELEASE(mmu_obj, pmap); } void pmap_remove(pmap_t pmap, vm_offset_t start, vm_offset_t end) { CTR4(KTR_PMAP, "%s(%p, %#x, %#x)", __func__, pmap, start, end); MMU_REMOVE(mmu_obj, pmap, start, end); } void pmap_remove_all(vm_page_t m) { CTR2(KTR_PMAP, "%s(%p)", __func__, m); MMU_REMOVE_ALL(mmu_obj, m); } void pmap_remove_pages(pmap_t pmap) { CTR2(KTR_PMAP, "%s(%p)", __func__, pmap); MMU_REMOVE_PAGES(mmu_obj, pmap); } void pmap_remove_write(vm_page_t m) { CTR2(KTR_PMAP, "%s(%p)", __func__, m); MMU_REMOVE_WRITE(mmu_obj, m); } void pmap_zero_page(vm_page_t m) { CTR2(KTR_PMAP, "%s(%p)", __func__, m); MMU_ZERO_PAGE(mmu_obj, m); } void pmap_zero_page_area(vm_page_t m, int off, int size) { CTR4(KTR_PMAP, "%s(%p, %d, %d)", __func__, m, off, size); MMU_ZERO_PAGE_AREA(mmu_obj, m, off, size); } void pmap_zero_page_idle(vm_page_t m) { CTR2(KTR_PMAP, "%s(%p)", __func__, m); MMU_ZERO_PAGE_IDLE(mmu_obj, m); } int pmap_mincore(pmap_t pmap, vm_offset_t addr, vm_paddr_t *locked_pa) { CTR3(KTR_PMAP, "%s(%p, %#x)", __func__, pmap, addr); return (MMU_MINCORE(mmu_obj, pmap, addr, locked_pa)); } void pmap_activate(struct thread *td) { CTR2(KTR_PMAP, "%s(%p)", __func__, td); MMU_ACTIVATE(mmu_obj, td); } void pmap_deactivate(struct thread *td) { CTR2(KTR_PMAP, "%s(%p)", __func__, td); MMU_DEACTIVATE(mmu_obj, td); } /* * Increase the starting virtual address of the given mapping if a * different alignment might result in more superpage mappings. */ void pmap_align_superpage(vm_object_t object, vm_ooffset_t offset, vm_offset_t *addr, vm_size_t size) { CTR5(KTR_PMAP, "%s(%p, %#x, %p, %#x)", __func__, object, offset, addr, size); MMU_ALIGN_SUPERPAGE(mmu_obj, object, offset, addr, size); } /* * Routines used in machine-dependent code */ void pmap_bootstrap(vm_offset_t start, vm_offset_t end) { mmu_obj = &mmu_kernel_obj; /* * Take care of compiling the selected class, and * then statically initialise the MMU object */ kobj_class_compile_static(mmu_def_impl, &mmu_kernel_kops); kobj_init_static((kobj_t)mmu_obj, mmu_def_impl); MMU_BOOTSTRAP(mmu_obj, start, end); } void pmap_cpu_bootstrap(int ap) { /* * No KTR here because our console probably doesn't work yet */ return (MMU_CPU_BOOTSTRAP(mmu_obj, ap)); } void * pmap_mapdev(vm_offset_t pa, vm_size_t size) { CTR3(KTR_PMAP, "%s(%#x, %#x)", __func__, pa, size); return (MMU_MAPDEV(mmu_obj, pa, size)); } void * pmap_mapdev_attr(vm_offset_t pa, vm_size_t size, vm_memattr_t attr) { CTR4(KTR_PMAP, "%s(%#x, %#x, %#x)", __func__, pa, size, attr); return (MMU_MAPDEV_ATTR(mmu_obj, pa, size, attr)); } void pmap_page_set_memattr(vm_page_t m, vm_memattr_t ma) { CTR3(KTR_PMAP, "%s(%p, %#x)", __func__, m, ma); return (MMU_PAGE_SET_MEMATTR(mmu_obj, m, ma)); } void pmap_unmapdev(vm_offset_t va, vm_size_t size) { CTR3(KTR_PMAP, "%s(%#x, %#x)", __func__, va, size); MMU_UNMAPDEV(mmu_obj, va, size); } vm_offset_t pmap_kextract(vm_offset_t va) { CTR2(KTR_PMAP, "%s(%#x)", __func__, va); return (MMU_KEXTRACT(mmu_obj, va)); } void pmap_kenter(vm_offset_t va, vm_offset_t pa) { CTR3(KTR_PMAP, "%s(%#x, %#x)", __func__, va, pa); MMU_KENTER(mmu_obj, va, pa); } void pmap_kenter_attr(vm_offset_t va, vm_offset_t pa, vm_memattr_t ma) { CTR4(KTR_PMAP, "%s(%#x, %#x, %#x)", __func__, va, pa, ma); MMU_KENTER_ATTR(mmu_obj, va, pa, ma); } boolean_t pmap_dev_direct_mapped(vm_offset_t pa, vm_size_t size) { CTR3(KTR_PMAP, "%s(%#x, %#x)", __func__, pa, size); return (MMU_DEV_DIRECT_MAPPED(mmu_obj, pa, size)); } void pmap_sync_icache(pmap_t pm, vm_offset_t va, vm_size_t sz) { CTR4(KTR_PMAP, "%s(%p, %#x, %#x)", __func__, pm, va, sz); return (MMU_SYNC_ICACHE(mmu_obj, pm, va, sz)); } vm_offset_t pmap_dumpsys_map(struct pmap_md *md, vm_size_t ofs, vm_size_t *sz) { CTR4(KTR_PMAP, "%s(%p, %#x, %#x)", __func__, md, ofs, *sz); return (MMU_DUMPSYS_MAP(mmu_obj, md, ofs, sz)); } void pmap_dumpsys_unmap(struct pmap_md *md, vm_size_t ofs, vm_offset_t va) { CTR4(KTR_PMAP, "%s(%p, %#x, %#x)", __func__, md, ofs, va); return (MMU_DUMPSYS_UNMAP(mmu_obj, md, ofs, va)); } struct pmap_md * pmap_scan_md(struct pmap_md *prev) { CTR2(KTR_PMAP, "%s(%p)", __func__, prev); return (MMU_SCAN_MD(mmu_obj, prev)); } /* * MMU install routines. Highest priority wins, equal priority also * overrides allowing last-set to win. */ SET_DECLARE(mmu_set, mmu_def_t); boolean_t pmap_mmu_install(char *name, int prio) { mmu_def_t **mmupp, *mmup; static int curr_prio = 0; /* * Try and locate the MMU kobj corresponding to the name */ SET_FOREACH(mmupp, mmu_set) { mmup = *mmupp; if (mmup->name && !strcmp(mmup->name, name) && (prio >= curr_prio || mmu_def_impl == NULL)) { curr_prio = prio; mmu_def_impl = mmup; return (TRUE); } } return (FALSE); }