librump/rumpkern/vm.c

1.69   pooka /*	$NetBSD: vm.c,v 1.69 2009/12/04 17:15:47 pooka Exp $	*/
 1.1   pooka
 1.1   pooka /*
 1.1   pooka  * Copyright (c) 2007 Antti Kantee.  All Rights Reserved.
 1.1   pooka  *
 1.1   pooka  * Development of this software was supported by Google Summer of Code.
 1.1   pooka  *
 1.1   pooka  * Redistribution and use in source and binary forms, with or without
 1.1   pooka  * modification, are permitted provided that the following conditions
 1.1   pooka  * are met:
 1.1   pooka  * 1. Redistributions of source code must retain the above copyright
 1.1   pooka  *    notice, this list of conditions and the following disclaimer.
 1.1   pooka  * 2. Redistributions in binary form must reproduce the above copyright
 1.1   pooka  *    notice, this list of conditions and the following disclaimer in the
 1.1   pooka  *    documentation and/or other materials provided with the distribution.
 1.1   pooka  *
 1.1   pooka  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS
 1.1   pooka  * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 1.1   pooka  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 1.1   pooka  * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
 1.1   pooka  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 1.1   pooka  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
 1.1   pooka  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 1.1   pooka  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 1.1   pooka  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 1.1   pooka  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 1.1   pooka  * SUCH DAMAGE.
 1.1   pooka  */
 1.1   pooka
 1.1   pooka /*
 1.1   pooka  * Virtual memory emulation routines.  Contents:
 1.1   pooka  *  + anon objects & pager
 1.1   pooka  *  + misc support routines
 1.1   pooka  */
 1.1   pooka
 1.1   pooka /*
 1.5   pooka  * XXX: we abuse pg->uanon for the virtual address of the storage
 1.1   pooka  * for each page.  phys_addr would fit the job description better,
 1.1   pooka  * except that it will create unnecessary lossage on some platforms
 1.1   pooka  * due to not being a pointer type.
 1.1   pooka  */
 1.1   pooka
1.48   pooka #include <sys/cdefs.h>
1.69   pooka __KERNEL_RCSID(0, "$NetBSD: vm.c,v 1.69 2009/12/04 17:15:47 pooka Exp $");
1.48   pooka
 1.1   pooka #include <sys/param.h>
1.40   pooka #include <sys/atomic.h>
1.67   pooka #include <sys/kmem.h>
1.69   pooka #include <sys/mman.h>
 1.1   pooka #include <sys/null.h>
 1.1   pooka #include <sys/vnode.h>
 1.1   pooka #include <sys/buf.h>
 1.1   pooka
1.34   pooka #include <machine/pmap.h>
1.34   pooka
1.34   pooka #include <rump/rumpuser.h>
1.34   pooka
 1.1   pooka #include <uvm/uvm.h>
1.56   pooka #include <uvm/uvm_ddb.h>
 1.1   pooka #include <uvm/uvm_prot.h>
1.58      he #include <uvm/uvm_readahead.h>
 1.1   pooka
1.13   pooka #include "rump_private.h"
 1.1   pooka
1.24    yamt static int ao_get(struct uvm_object *, voff_t, struct vm_page **,
1.24    yamt 	int *, int, vm_prot_t, int, int);
1.24    yamt static int ao_put(struct uvm_object *, voff_t, voff_t, int);
1.24    yamt
1.24    yamt const struct uvm_pagerops aobj_pager = {
1.24    yamt 	.pgo_get = ao_get,
1.24    yamt 	.pgo_put = ao_put,
1.24    yamt };
1.24    yamt
1.25      ad kmutex_t uvm_pageqlock;
1.25      ad
 1.1   pooka struct uvmexp uvmexp;
 1.7   pooka struct uvm uvm;
 1.1   pooka
 1.1   pooka struct vmspace rump_vmspace;
 1.1   pooka struct vm_map rump_vmmap;
1.50   pooka static struct vm_map_kernel kmem_map_store;
1.50   pooka struct vm_map *kmem_map = &kmem_map_store.vmk_map;
1.32      ad const struct rb_tree_ops uvm_page_tree_ops;
 1.1   pooka
1.35   pooka static struct vm_map_kernel kernel_map_store;
1.35   pooka struct vm_map *kernel_map = &kernel_map_store.vmk_map;
1.35   pooka
 1.1   pooka /*
 1.1   pooka  * vm pages
 1.1   pooka  */
 1.1   pooka
1.22   pooka /* called with the object locked */
 1.1   pooka struct vm_page *
 1.6   pooka rumpvm_makepage(struct uvm_object *uobj, voff_t off)
 1.1   pooka {
 1.1   pooka 	struct vm_page *pg;
 1.1   pooka
1.27   pooka 	pg = kmem_zalloc(sizeof(struct vm_page), KM_SLEEP);
 1.1   pooka 	pg->offset = off;
 1.5   pooka 	pg->uobject = uobj;
 1.1   pooka
1.27   pooka 	pg->uanon = (void *)kmem_zalloc(PAGE_SIZE, KM_SLEEP);
1.22   pooka 	pg->flags = PG_CLEAN|PG_BUSY|PG_FAKE;
 1.1   pooka
1.31      ad 	TAILQ_INSERT_TAIL(&uobj->memq, pg, listq.queue);
1.59   pooka 	uobj->uo_npages++;
1.21   pooka
 1.1   pooka 	return pg;
 1.1   pooka }
 1.1   pooka
1.61   pooka /* these are going away very soon */
1.61   pooka void rumpvm_enterva(vaddr_t addr, struct vm_page *pg) {}
1.61   pooka void rumpvm_flushva(struct uvm_object *uobj) {}
1.61   pooka
1.61   pooka struct vm_page *
1.61   pooka uvm_pagealloc_strat(struct uvm_object *uobj, voff_t off, struct vm_anon *anon,
1.61   pooka 	int flags, int strat, int free_list)
1.61   pooka {
1.61   pooka
1.61   pooka 	return rumpvm_makepage(uobj, off);
1.61   pooka }
1.61   pooka
1.21   pooka /*
1.21   pooka  * Release a page.
1.21   pooka  *
1.22   pooka  * Called with the vm object locked.
1.21   pooka  */
 1.1   pooka void
1.22   pooka uvm_pagefree(struct vm_page *pg)
 1.1   pooka {
 1.5   pooka 	struct uvm_object *uobj = pg->uobject;
 1.1   pooka
1.22   pooka 	if (pg->flags & PG_WANTED)
1.22   pooka 		wakeup(pg);
1.22   pooka
1.59   pooka 	uobj->uo_npages--;
1.31      ad 	TAILQ_REMOVE(&uobj->memq, pg, listq.queue);
1.27   pooka 	kmem_free((void *)pg->uanon, PAGE_SIZE);
1.27   pooka 	kmem_free(pg, sizeof(*pg));
 1.1   pooka }
 1.1   pooka
1.15   pooka void
1.61   pooka uvm_pagezero(struct vm_page *pg)
1.15   pooka {
1.15   pooka
1.61   pooka 	pg->flags &= ~PG_CLEAN;
1.61   pooka 	memset((void *)pg->uanon, 0, PAGE_SIZE);
1.15   pooka }
1.15   pooka
 1.1   pooka /*
 1.1   pooka  * Anon object stuff
 1.1   pooka  */
 1.1   pooka
 1.1   pooka static int
 1.1   pooka ao_get(struct uvm_object *uobj, voff_t off, struct vm_page **pgs,
 1.1   pooka 	int *npages, int centeridx, vm_prot_t access_type,
 1.1   pooka 	int advice, int flags)
 1.1   pooka {
 1.1   pooka 	struct vm_page *pg;
 1.1   pooka 	int i;
 1.1   pooka
 1.1   pooka 	if (centeridx)
 1.1   pooka 		panic("%s: centeridx != 0 not supported", __func__);
 1.1   pooka
 1.1   pooka 	/* loop over pages */
 1.1   pooka 	off = trunc_page(off);
 1.1   pooka 	for (i = 0; i < *npages; i++) {
1.23   pooka  retrylookup:
1.10   pooka 		pg = uvm_pagelookup(uobj, off + (i << PAGE_SHIFT));
 1.1   pooka 		if (pg) {
1.23   pooka 			if (pg->flags & PG_BUSY) {
1.23   pooka 				pg->flags |= PG_WANTED;
1.23   pooka 				UVM_UNLOCK_AND_WAIT(pg, &uobj->vmobjlock, 0,
1.23   pooka 				    "aogetpg", 0);
1.23   pooka 				goto retrylookup;
1.23   pooka 			}
1.23   pooka 			pg->flags |= PG_BUSY;
 1.1   pooka 			pgs[i] = pg;
 1.1   pooka 		} else {
 1.6   pooka 			pg = rumpvm_makepage(uobj, off + (i << PAGE_SHIFT));
 1.1   pooka 			pgs[i] = pg;
 1.1   pooka 		}
 1.1   pooka 	}
1.26   pooka 	mutex_exit(&uobj->vmobjlock);
 1.1   pooka
 1.1   pooka 	return 0;
 1.1   pooka
 1.1   pooka }
 1.1   pooka
 1.1   pooka static int
 1.1   pooka ao_put(struct uvm_object *uobj, voff_t start, voff_t stop, int flags)
 1.1   pooka {
 1.1   pooka 	struct vm_page *pg;
 1.1   pooka
 1.1   pooka 	/* we only free all pages for now */
1.23   pooka 	if ((flags & PGO_FREE) == 0 || (flags & PGO_ALLPAGES) == 0) {
1.26   pooka 		mutex_exit(&uobj->vmobjlock);
 1.1   pooka 		return 0;
1.23   pooka 	}
 1.1   pooka
 1.1   pooka 	while ((pg = TAILQ_FIRST(&uobj->memq)) != NULL)
1.22   pooka 		uvm_pagefree(pg);
1.26   pooka 	mutex_exit(&uobj->vmobjlock);
 1.1   pooka
 1.1   pooka 	return 0;
 1.1   pooka }
 1.1   pooka
 1.1   pooka struct uvm_object *
 1.1   pooka uao_create(vsize_t size, int flags)
 1.1   pooka {
 1.1   pooka 	struct uvm_object *uobj;
 1.1   pooka
1.27   pooka 	uobj = kmem_zalloc(sizeof(struct uvm_object), KM_SLEEP);
 1.1   pooka 	uobj->pgops = &aobj_pager;
 1.1   pooka 	TAILQ_INIT(&uobj->memq);
1.26   pooka 	mutex_init(&uobj->vmobjlock, MUTEX_DEFAULT, IPL_NONE);
 1.1   pooka
 1.1   pooka 	return uobj;
 1.1   pooka }
 1.1   pooka
 1.1   pooka void
 1.1   pooka uao_detach(struct uvm_object *uobj)
 1.1   pooka {
 1.1   pooka
1.29   pooka 	mutex_enter(&uobj->vmobjlock);
 1.1   pooka 	ao_put(uobj, 0, 0, PGO_ALLPAGES | PGO_FREE);
1.55   pooka 	mutex_destroy(&uobj->vmobjlock);
1.27   pooka 	kmem_free(uobj, sizeof(*uobj));
 1.1   pooka }
 1.1   pooka
 1.1   pooka /*
 1.1   pooka  * Misc routines
 1.1   pooka  */
 1.1   pooka
1.61   pooka static kmutex_t pagermtx;
1.61   pooka
 1.1   pooka void
1.53  cegger rumpvm_init(void)
 1.1   pooka {
 1.1   pooka
 1.1   pooka 	uvmexp.free = 1024*1024; /* XXX */
 1.7   pooka 	uvm.pagedaemon_lwp = NULL; /* doesn't match curlwp */
1.38   pooka 	rump_vmspace.vm_map.pmap = pmap_kernel();
1.21   pooka
1.61   pooka 	mutex_init(&pagermtx, MUTEX_DEFAULT, 0);
1.25      ad 	mutex_init(&uvm_pageqlock, MUTEX_DEFAULT, 0);
1.35   pooka
1.50   pooka 	kernel_map->pmap = pmap_kernel();
1.35   pooka 	callback_head_init(&kernel_map_store.vmk_reclaim_callback, IPL_VM);
1.50   pooka 	kmem_map->pmap = pmap_kernel();
1.50   pooka 	callback_head_init(&kmem_map_store.vmk_reclaim_callback, IPL_VM);
 1.1   pooka }
 1.1   pooka
 1.1   pooka
 1.1   pooka void
 1.7   pooka uvm_pagewire(struct vm_page *pg)
 1.7   pooka {
 1.7   pooka
 1.7   pooka 	/* nada */
 1.7   pooka }
 1.7   pooka
 1.7   pooka void
 1.7   pooka uvm_pageunwire(struct vm_page *pg)
 1.7   pooka {
 1.7   pooka
 1.7   pooka 	/* nada */
 1.7   pooka }
 1.7   pooka
1.69   pooka /*
1.69   pooka  * This satisfies the "disgusting mmap hack" used by proplib.
1.69   pooka  * We probably should grow some more assertables to make sure we're
1.69   pooka  * not satisfying anything we shouldn't be satisfying.  At least we
1.69   pooka  * should make sure it's the local machine we're mmapping ...
1.69   pooka  */
1.49   pooka int
1.49   pooka uvm_mmap(struct vm_map *map, vaddr_t *addr, vsize_t size, vm_prot_t prot,
1.49   pooka 	vm_prot_t maxprot, int flags, void *handle, voff_t off, vsize_t locklim)
1.49   pooka {
1.69   pooka 	void *uaddr;
1.69   pooka 	int error;
1.49   pooka
1.69   pooka 	if (prot != (VM_PROT_READ | VM_PROT_WRITE))
1.69   pooka 		panic("uvm_mmap() variant unsupported");
1.69   pooka 	if (flags != (MAP_PRIVATE | MAP_ANON))
1.69   pooka 		panic("uvm_mmap() variant unsupported");
1.69   pooka 	/* no reason in particular, but cf. uvm_default_mapaddr() */
1.69   pooka 	if (*addr != 0)
1.69   pooka 		panic("uvm_mmap() variant unsupported");
1.69   pooka
1.69   pooka 	uaddr = rumpuser_anonmmap(size, 0, 0, &error);
1.69   pooka 	if (uaddr == NULL)
1.69   pooka 		return error;
1.69   pooka
1.69   pooka 	*addr = (vaddr_t)uaddr;
1.69   pooka 	return 0;
1.49   pooka }
1.49   pooka
1.61   pooka struct pagerinfo {
1.61   pooka 	vaddr_t pgr_kva;
1.61   pooka 	int pgr_npages;
1.61   pooka 	struct vm_page **pgr_pgs;
1.61   pooka 	bool pgr_read;
1.61   pooka
1.61   pooka 	LIST_ENTRY(pagerinfo) pgr_entries;
1.61   pooka };
1.61   pooka static LIST_HEAD(, pagerinfo) pagerlist = LIST_HEAD_INITIALIZER(pagerlist);
1.61   pooka
1.61   pooka /*
1.61   pooka  * Pager "map" in routine.  Instead of mapping, we allocate memory
1.61   pooka  * and copy page contents there.  Not optimal or even strictly
1.61   pooka  * correct (the caller might modify the page contents after mapping
1.61   pooka  * them in), but what the heck.  Assumes UVMPAGER_MAPIN_WAITOK.
1.61   pooka  */
 1.7   pooka vaddr_t
1.61   pooka uvm_pagermapin(struct vm_page **pgs, int npages, int flags)
 1.7   pooka {
1.61   pooka 	struct pagerinfo *pgri;
1.61   pooka 	vaddr_t curkva;
1.61   pooka 	int i;
1.61   pooka
1.61   pooka 	/* allocate structures */
1.61   pooka 	pgri = kmem_alloc(sizeof(*pgri), KM_SLEEP);
1.61   pooka 	pgri->pgr_kva = (vaddr_t)kmem_alloc(npages * PAGE_SIZE, KM_SLEEP);
1.61   pooka 	pgri->pgr_npages = npages;
1.61   pooka 	pgri->pgr_pgs = kmem_alloc(sizeof(struct vm_page *) * npages, KM_SLEEP);
1.61   pooka 	pgri->pgr_read = (flags & UVMPAGER_MAPIN_READ) != 0;
1.61   pooka
1.61   pooka 	/* copy contents to "mapped" memory */
1.61   pooka 	for (i = 0, curkva = pgri->pgr_kva;
1.61   pooka 	    i < npages;
1.61   pooka 	    i++, curkva += PAGE_SIZE) {
1.61   pooka 		/*
1.61   pooka 		 * We need to copy the previous contents of the pages to
1.61   pooka 		 * the window even if we are reading from the
1.61   pooka 		 * device, since the device might not fill the contents of
1.61   pooka 		 * the full mapped range and we will end up corrupting
1.61   pooka 		 * data when we unmap the window.
1.61   pooka 		 */
1.61   pooka 		memcpy((void*)curkva, pgs[i]->uanon, PAGE_SIZE);
1.61   pooka 		pgri->pgr_pgs[i] = pgs[i];
1.61   pooka 	}
1.61   pooka
1.61   pooka 	mutex_enter(&pagermtx);
1.61   pooka 	LIST_INSERT_HEAD(&pagerlist, pgri, pgr_entries);
1.61   pooka 	mutex_exit(&pagermtx);
 1.7   pooka
1.61   pooka 	return pgri->pgr_kva;
 1.7   pooka }
 1.7   pooka
1.61   pooka /*
1.61   pooka  * map out the pager window.  return contents from VA to page storage
1.61   pooka  * and free structures.
1.61   pooka  *
1.61   pooka  * Note: does not currently support partial frees
1.61   pooka  */
1.61   pooka void
1.61   pooka uvm_pagermapout(vaddr_t kva, int npages)
 1.7   pooka {
1.61   pooka 	struct pagerinfo *pgri;
1.61   pooka 	vaddr_t curkva;
1.61   pooka 	int i;
 1.7   pooka
1.61   pooka 	mutex_enter(&pagermtx);
1.61   pooka 	LIST_FOREACH(pgri, &pagerlist, pgr_entries) {
1.61   pooka 		if (pgri->pgr_kva == kva)
1.61   pooka 			break;
1.61   pooka 	}
1.61   pooka 	KASSERT(pgri);
1.61   pooka 	if (pgri->pgr_npages != npages)
1.61   pooka 		panic("uvm_pagermapout: partial unmapping not supported");
1.61   pooka 	LIST_REMOVE(pgri, pgr_entries);
1.61   pooka 	mutex_exit(&pagermtx);
1.61   pooka
1.61   pooka 	if (pgri->pgr_read) {
1.61   pooka 		for (i = 0, curkva = pgri->pgr_kva;
1.61   pooka 		    i < pgri->pgr_npages;
1.61   pooka 		    i++, curkva += PAGE_SIZE) {
1.61   pooka 			memcpy(pgri->pgr_pgs[i]->uanon,(void*)curkva,PAGE_SIZE);
1.21   pooka 		}
1.21   pooka 	}
1.10   pooka
1.61   pooka 	kmem_free(pgri->pgr_pgs, npages * sizeof(struct vm_page *));
1.61   pooka 	kmem_free((void*)pgri->pgr_kva, npages * PAGE_SIZE);
1.61   pooka 	kmem_free(pgri, sizeof(*pgri));
 1.7   pooka }
 1.7   pooka
1.61   pooka /*
1.61   pooka  * convert va in pager window to page structure.
1.61   pooka  * XXX: how expensive is this (global lock, list traversal)?
1.61   pooka  */
1.14   pooka struct vm_page *
1.14   pooka uvm_pageratop(vaddr_t va)
1.14   pooka {
1.61   pooka 	struct pagerinfo *pgri;
1.61   pooka 	struct vm_page *pg = NULL;
1.61   pooka 	int i;
1.14   pooka
1.61   pooka 	mutex_enter(&pagermtx);
1.61   pooka 	LIST_FOREACH(pgri, &pagerlist, pgr_entries) {
1.61   pooka 		if (pgri->pgr_kva <= va
1.61   pooka 		    && va < pgri->pgr_kva + pgri->pgr_npages*PAGE_SIZE)
1.21   pooka 			break;
1.61   pooka 	}
1.61   pooka 	if (pgri) {
1.61   pooka 		i = (va - pgri->pgr_kva) >> PAGE_SHIFT;
1.61   pooka 		pg = pgri->pgr_pgs[i];
1.61   pooka 	}
1.61   pooka 	mutex_exit(&pagermtx);
1.21   pooka
1.61   pooka 	return pg;
1.61   pooka }
1.15   pooka
1.61   pooka /* Called with the vm object locked */
1.61   pooka struct vm_page *
1.61   pooka uvm_pagelookup(struct uvm_object *uobj, voff_t off)
1.61   pooka {
1.61   pooka 	struct vm_page *pg;
1.61   pooka
1.61   pooka 	TAILQ_FOREACH(pg, &uobj->memq, listq.queue) {
1.61   pooka 		if (pg->offset == off) {
1.61   pooka 			return pg;
1.61   pooka 		}
1.61   pooka 	}
1.61   pooka
1.61   pooka 	return NULL;
1.14   pooka }
1.14   pooka
 1.7   pooka void
1.22   pooka uvm_page_unbusy(struct vm_page **pgs, int npgs)
1.22   pooka {
1.22   pooka 	struct vm_page *pg;
1.22   pooka 	int i;
1.22   pooka
1.22   pooka 	for (i = 0; i < npgs; i++) {
1.22   pooka 		pg = pgs[i];
1.22   pooka 		if (pg == NULL)
1.22   pooka 			continue;
1.22   pooka
1.22   pooka 		KASSERT(pg->flags & PG_BUSY);
1.22   pooka 		if (pg->flags & PG_WANTED)
1.22   pooka 			wakeup(pg);
1.36   pooka 		if (pg->flags & PG_RELEASED)
1.36   pooka 			uvm_pagefree(pg);
1.36   pooka 		else
1.36   pooka 			pg->flags &= ~(PG_WANTED|PG_BUSY);
1.22   pooka 	}
1.22   pooka }
1.22   pooka
1.22   pooka void
 1.7   pooka uvm_estimatepageable(int *active, int *inactive)
 1.7   pooka {
 1.7   pooka
1.19   pooka 	/* XXX: guessing game */
1.19   pooka 	*active = 1024;
1.19   pooka 	*inactive = 1024;
 1.7   pooka }
 1.7   pooka
1.39   pooka struct vm_map_kernel *
1.39   pooka vm_map_to_kernel(struct vm_map *map)
1.39   pooka {
1.39   pooka
1.39   pooka 	return (struct vm_map_kernel *)map;
1.39   pooka }
1.39   pooka
1.41   pooka bool
1.41   pooka vm_map_starved_p(struct vm_map *map)
1.41   pooka {
1.41   pooka
1.41   pooka 	return false;
1.41   pooka }
1.41   pooka
1.39   pooka void
1.39   pooka uvm_pageout_start(int npages)
1.39   pooka {
1.39   pooka
1.39   pooka 	uvmexp.paging += npages;
1.39   pooka }
1.39   pooka
1.39   pooka void
1.39   pooka uvm_pageout_done(int npages)
1.39   pooka {
1.39   pooka
1.39   pooka 	uvmexp.paging -= npages;
1.39   pooka
1.39   pooka 	/*
1.39   pooka 	 * wake up either of pagedaemon or LWPs waiting for it.
1.39   pooka 	 */
1.39   pooka
1.39   pooka 	if (uvmexp.free <= uvmexp.reserve_kernel) {
1.39   pooka 		wakeup(&uvm.pagedaemon);
1.39   pooka 	} else {
1.39   pooka 		wakeup(&uvmexp.free);
1.39   pooka 	}
1.39   pooka }
1.39   pooka
1.41   pooka int
1.41   pooka uvm_loan(struct vm_map *map, vaddr_t start, vsize_t len, void *v, int flags)
1.41   pooka {
1.41   pooka
1.41   pooka 	panic("%s: unimplemented", __func__);
1.41   pooka }
1.41   pooka
1.41   pooka void
1.41   pooka uvm_unloan(void *v, int npages, int flags)
1.41   pooka {
1.41   pooka
1.41   pooka 	panic("%s: unimplemented", __func__);
1.41   pooka }
1.41   pooka
1.43   pooka int
1.43   pooka uvm_loanuobjpages(struct uvm_object *uobj, voff_t pgoff, int orignpages,
1.43   pooka 	struct vm_page **opp)
1.43   pooka {
1.43   pooka
1.43   pooka 	panic("%s: unimplemented", __func__);
1.43   pooka }
1.43   pooka
1.56   pooka void
1.56   pooka uvm_object_printit(struct uvm_object *uobj, bool full,
1.56   pooka 	void (*pr)(const char *, ...))
1.56   pooka {
1.56   pooka
1.56   pooka 	/* nada for now */
1.56   pooka }
1.56   pooka
1.68   pooka vaddr_t
1.68   pooka uvm_default_mapaddr(struct proc *p, vaddr_t base, vsize_t sz)
1.68   pooka {
1.68   pooka
1.68   pooka 	return 0;
1.68   pooka }
1.68   pooka
 1.9   pooka /*
1.12   pooka  * UVM km
1.12   pooka  */
1.12   pooka
1.12   pooka vaddr_t
1.12   pooka uvm_km_alloc(struct vm_map *map, vsize_t size, vsize_t align, uvm_flag_t flags)
1.12   pooka {
1.12   pooka 	void *rv;
1.50   pooka 	int alignbit, error;
1.50   pooka
1.50   pooka 	alignbit = 0;
1.50   pooka 	if (align) {
1.50   pooka 		alignbit = ffs(align)-1;
1.50   pooka 	}
1.50   pooka
1.50   pooka 	rv = rumpuser_anonmmap(size, alignbit, flags & UVM_KMF_EXEC, &error);
1.50   pooka 	if (rv == NULL) {
1.50   pooka 		if (flags & (UVM_KMF_CANFAIL | UVM_KMF_NOWAIT))
1.50   pooka 			return 0;
1.50   pooka 		else
1.50   pooka 			panic("uvm_km_alloc failed");
1.50   pooka 	}
1.12   pooka
1.50   pooka 	if (flags & UVM_KMF_ZERO)
1.12   pooka 		memset(rv, 0, size);
1.12   pooka
1.12   pooka 	return (vaddr_t)rv;
1.12   pooka }
1.12   pooka
1.12   pooka void
1.12   pooka uvm_km_free(struct vm_map *map, vaddr_t vaddr, vsize_t size, uvm_flag_t flags)
1.12   pooka {
1.12   pooka
1.50   pooka 	rumpuser_unmap((void *)vaddr, size);
1.12   pooka }
1.12   pooka
1.12   pooka struct vm_map *
1.12   pooka uvm_km_suballoc(struct vm_map *map, vaddr_t *minaddr, vaddr_t *maxaddr,
1.12   pooka 	vsize_t size, int pageable, bool fixed, struct vm_map_kernel *submap)
1.12   pooka {
1.12   pooka
1.12   pooka 	return (struct vm_map *)417416;
1.12   pooka }
1.40   pooka
1.40   pooka vaddr_t
1.40   pooka uvm_km_alloc_poolpage(struct vm_map *map, bool waitok)
1.40   pooka {
1.40   pooka
1.40   pooka 	return (vaddr_t)rumpuser_malloc(PAGE_SIZE, !waitok);
1.40   pooka }
1.40   pooka
1.40   pooka void
1.40   pooka uvm_km_free_poolpage(struct vm_map *map, vaddr_t addr)
1.40   pooka {
1.40   pooka
1.50   pooka 	rumpuser_unmap((void *)addr, PAGE_SIZE);
1.50   pooka }
1.50   pooka
1.50   pooka vaddr_t
1.50   pooka uvm_km_alloc_poolpage_cache(struct vm_map *map, bool waitok)
1.50   pooka {
1.50   pooka 	void *rv;
1.50   pooka 	int error;
1.50   pooka
1.50   pooka 	rv = rumpuser_anonmmap(PAGE_SIZE, PAGE_SHIFT, 0, &error);
1.50   pooka 	if (rv == NULL && waitok)
1.50   pooka 		panic("fixme: poolpage alloc failed");
1.50   pooka
1.50   pooka 	return (vaddr_t)rv;
1.50   pooka }
1.50   pooka
1.50   pooka void
1.50   pooka uvm_km_free_poolpage_cache(struct vm_map *map, vaddr_t vaddr)
1.50   pooka {
1.50   pooka
1.50   pooka 	rumpuser_unmap((void *)vaddr, PAGE_SIZE);
1.40   pooka }
1.57   pooka
1.57   pooka /*
1.57   pooka  * Mapping and vm space locking routines.
1.57   pooka  * XXX: these don't work for non-local vmspaces
1.57   pooka  */
1.57   pooka int
1.57   pooka uvm_vslock(struct vmspace *vs, void *addr, size_t len, vm_prot_t access)
1.57   pooka {
1.57   pooka
1.57   pooka 	KASSERT(vs == &rump_vmspace);
1.57   pooka 	return 0;
1.57   pooka }
1.57   pooka
1.57   pooka void
1.57   pooka uvm_vsunlock(struct vmspace *vs, void *addr, size_t len)
1.57   pooka {
1.57   pooka
1.57   pooka 	KASSERT(vs == &rump_vmspace);
1.57   pooka }
1.57   pooka
1.57   pooka void
1.57   pooka vmapbuf(struct buf *bp, vsize_t len)
1.57   pooka {
1.57   pooka
1.57   pooka 	bp->b_saveaddr = bp->b_data;
1.57   pooka }
1.57   pooka
1.57   pooka void
1.57   pooka vunmapbuf(struct buf *bp, vsize_t len)
1.57   pooka {
1.57   pooka
1.57   pooka 	bp->b_data = bp->b_saveaddr;
1.57   pooka 	bp->b_saveaddr = 0;
1.57   pooka }
1.61   pooka
1.61   pooka void
1.61   pooka uvm_wait(const char *msg)
1.61   pooka {
1.61   pooka
1.61   pooka 	/* nothing to wait for */
1.61   pooka }
1.61   pooka
1.66   pooka void
1.66   pooka uvmspace_free(struct vmspace *vm)
1.66   pooka {
1.66   pooka
1.66   pooka 	/* nothing for now */
1.66   pooka }
1.66   pooka
1.66   pooka int
1.66   pooka uvm_io(struct vm_map *map, struct uio *uio)
1.66   pooka {
1.66   pooka
1.66   pooka 	/*
1.66   pooka 	 * just do direct uio for now.  but this needs some vmspace
1.66   pooka 	 * olympics for rump_sysproxy.
1.66   pooka 	 */
1.66   pooka 	return uiomove((void *)(vaddr_t)uio->uio_offset, uio->uio_resid, uio);
1.66   pooka }
1.66   pooka
1.61   pooka /*
1.61   pooka  * page life cycle stuff.  it really doesn't exist, so just stubs.
1.61   pooka  */
1.61   pooka
1.61   pooka void
1.61   pooka uvm_pageactivate(struct vm_page *pg)
1.61   pooka {
1.61   pooka
1.61   pooka 	/* nada */
1.61   pooka }
1.61   pooka
1.61   pooka void
1.61   pooka uvm_pagedeactivate(struct vm_page *pg)
1.61   pooka {
1.61   pooka
1.61   pooka 	/* nada */
1.61   pooka }
1.61   pooka
1.61   pooka void
1.61   pooka uvm_pagedequeue(struct vm_page *pg)
1.61   pooka {
1.61   pooka
1.61   pooka 	/* nada*/
1.61   pooka }
1.61   pooka
1.61   pooka void
1.61   pooka uvm_pageenqueue(struct vm_page *pg)
1.61   pooka {
1.61   pooka
1.61   pooka 	/* nada */
1.61   pooka }