sys/vm/vm_glue.c

60727d8bSWarner Losh/*-
796df753SPedro F. Giffuni * SPDX-License-Identifier: (BSD-3-Clause AND MIT-CMU)
51369649SPedro F. Giffuni *
df8bae1dSRodney W. Grimes * Copyright (c) 1991, 1993
df8bae1dSRodney W. Grimes *	The Regents of the University of California.  All rights reserved.
df8bae1dSRodney W. Grimes *
df8bae1dSRodney W. Grimes * This code is derived from software contributed to Berkeley by
df8bae1dSRodney W. Grimes * The Mach Operating System project at Carnegie-Mellon University.
df8bae1dSRodney W. Grimes *
df8bae1dSRodney W. Grimes * Redistribution and use in source and binary forms, with or without
df8bae1dSRodney W. Grimes * modification, are permitted provided that the following conditions
df8bae1dSRodney W. Grimes * are met:
df8bae1dSRodney W. Grimes * 1. Redistributions of source code must retain the above copyright
df8bae1dSRodney W. Grimes *    notice, this list of conditions and the following disclaimer.
df8bae1dSRodney W. Grimes * 2. Redistributions in binary form must reproduce the above copyright
df8bae1dSRodney W. Grimes *    notice, this list of conditions and the following disclaimer in the
df8bae1dSRodney W. Grimes *    documentation and/or other materials provided with the distribution.
fbbd9655SWarner Losh * 3. Neither the name of the University nor the names of its contributors
df8bae1dSRodney W. Grimes *    may be used to endorse or promote products derived from this software
df8bae1dSRodney W. Grimes *    without specific prior written permission.
df8bae1dSRodney W. Grimes *
df8bae1dSRodney W. Grimes * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
df8bae1dSRodney W. Grimes * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
df8bae1dSRodney W. Grimes * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
df8bae1dSRodney W. Grimes * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
df8bae1dSRodney W. Grimes * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
df8bae1dSRodney W. Grimes * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
df8bae1dSRodney W. Grimes * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
df8bae1dSRodney W. Grimes * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
df8bae1dSRodney W. Grimes * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
df8bae1dSRodney W. Grimes * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
df8bae1dSRodney W. Grimes * SUCH DAMAGE.
df8bae1dSRodney W. Grimes *
df8bae1dSRodney W. Grimes *
df8bae1dSRodney W. Grimes * Copyright (c) 1987, 1990 Carnegie-Mellon University.
df8bae1dSRodney W. Grimes * All rights reserved.
df8bae1dSRodney W. Grimes *
df8bae1dSRodney W. Grimes * Permission to use, copy, modify and distribute this software and
df8bae1dSRodney W. Grimes * its documentation is hereby granted, provided that both the copyright
df8bae1dSRodney W. Grimes * notice and this permission notice appear in all copies of the
df8bae1dSRodney W. Grimes * software, derivative works or modified versions, and any portions
df8bae1dSRodney W. Grimes * thereof, and that both notices appear in supporting documentation.
df8bae1dSRodney W. Grimes *
df8bae1dSRodney W. Grimes * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
df8bae1dSRodney W. Grimes * CONDITION.  CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND
df8bae1dSRodney W. Grimes * FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
df8bae1dSRodney W. Grimes *
df8bae1dSRodney W. Grimes * Carnegie Mellon requests users of this software to return to
df8bae1dSRodney W. Grimes *
df8bae1dSRodney W. Grimes *  Software Distribution Coordinator  or  Software.Distribution@CS.CMU.EDU
df8bae1dSRodney W. Grimes *  School of Computer Science
df8bae1dSRodney W. Grimes *  Carnegie Mellon University
df8bae1dSRodney W. Grimes *  Pittsburgh PA 15213-3890
df8bae1dSRodney W. Grimes *
df8bae1dSRodney W. Grimes * any improvements or extensions that they make and grant Carnegie the
df8bae1dSRodney W. Grimes * rights to redistribute these changes.
df8bae1dSRodney W. Grimes */
df8bae1dSRodney W. Grimes
faa5f8d8SAndrzej Bialecki#include "opt_vm.h"
15a7ad60SPeter Wemm#include "opt_kstack_pages.h"
15a7ad60SPeter Wemm#include "opt_kstack_max_pages.h"
b7627840SKonstantin Belousov#include "opt_kstack_usage_prof.h"
e9822d92SJoerg Wunsch
df8bae1dSRodney W. Grimes#include <sys/param.h>
df8bae1dSRodney W. Grimes#include <sys/systm.h>
244f3ec6SMark Johnston#include <sys/asan.h>
b0058196SMark Johnston#include <sys/domainset.h>
104a9b7eSAlexander Kabaev#include <sys/limits.h>
fb919e4dSMark Murray#include <sys/lock.h>
5df87b21SJeff Roberson#include <sys/malloc.h>
10094910SMark Johnston#include <sys/msan.h>
fb919e4dSMark Murray#include <sys/mutex.h>
df8bae1dSRodney W. Grimes#include <sys/proc.h>
1ba5ad42SEdward Tomasz Napierala#include <sys/racct.h>
f7db0c95SMark Johnston#include <sys/refcount.h>
df8bae1dSRodney W. Grimes#include <sys/resourcevar.h>
89f6b863SAttilio Rao#include <sys/rwlock.h>
da61b9a6SAlan Cox#include <sys/sched.h>
da61b9a6SAlan Cox#include <sys/sf_buf.h>
3aa12267SBruce Evans#include <sys/shm.h>
003cf08bSMark Johnston#include <sys/smp.h>
efeaf95aSDavid Greenman#include <sys/vmmeter.h>
5df87b21SJeff Roberson#include <sys/vmem.h>
1005a129SJohn Baldwin#include <sys/sx.h>
ceb0cf87SJohn Dyson#include <sys/sysctl.h>
26f9a767SRodney W. Grimes#include <sys/kernel.h>
0384fff8SJason Evans#include <sys/ktr.h>
a2a1c95cSPeter Wemm#include <sys/unistd.h>
26f9a767SRodney W. Grimes
0b26119bSJeff Roberson#include <vm/uma.h>
df8bae1dSRodney W. Grimes#include <vm/vm.h>
efeaf95aSDavid Greenman#include <vm/vm_param.h>
efeaf95aSDavid Greenman#include <vm/pmap.h>
23984ce5SMark Johnston#include <vm/vm_domainset.h>
efeaf95aSDavid Greenman#include <vm/vm_map.h>
df8bae1dSRodney W. Grimes#include <vm/vm_page.h>
26f9a767SRodney W. Grimes#include <vm/vm_pageout.h>
7a79d066SBojan Novković#include <vm/vm_pagequeue.h>
a136efe9SPeter Wemm#include <vm/vm_object.h>
df8bae1dSRodney W. Grimes#include <vm/vm_kern.h>
efeaf95aSDavid Greenman#include <vm/vm_extern.h>
a136efe9SPeter Wemm#include <vm/vm_pager.h>
7a79d066SBojan Novković#include <vm/vm_phys.h>
efeaf95aSDavid Greenman
b7627840SKonstantin Belousov#include <machine/cpu.h>
b7627840SKonstantin Belousov
3e00c11aSAlan Cox#if VM_NRESERVLEVEL > 1
3e00c11aSAlan Cox#define KVA_KSTACK_QUANTUM_SHIFT (VM_LEVEL_1_ORDER + VM_LEVEL_0_ORDER + \
3e00c11aSAlan Cox    PAGE_SHIFT)
3e00c11aSAlan Cox#elif VM_NRESERVLEVEL > 0
7a79d066SBojan Novković#define KVA_KSTACK_QUANTUM_SHIFT (VM_LEVEL_0_ORDER + PAGE_SHIFT)
7a79d066SBojan Novković#else
7a79d066SBojan Novković#define KVA_KSTACK_QUANTUM_SHIFT (8 + PAGE_SHIFT)
7a79d066SBojan Novković#endif
7a79d066SBojan Novković#define KVA_KSTACK_QUANTUM (1ul << KVA_KSTACK_QUANTUM_SHIFT)
7a79d066SBojan Novković
43a90f3aSAlan Cox/*
43a90f3aSAlan Cox * MPSAFE
2d5c7e45SMatthew Dillon *
2d5c7e45SMatthew Dillon * WARNING!  This code calls vm_map_check_protection() which only checks
2d5c7e45SMatthew Dillon * the associated vm_map_entry range.  It does not determine whether the
2d5c7e45SMatthew Dillon * contents of the memory is actually readable or writable.  In most cases
2d5c7e45SMatthew Dillon * just checking the vm_map_entry is sufficient within the kernel's address
2d5c7e45SMatthew Dillon * space.
43a90f3aSAlan Cox */
9e016408SJohn Baldwinbool
d0389015SEd Mastekernacc(void *addr, int len, int rw)
df8bae1dSRodney W. Grimes{
df8bae1dSRodney W. Grimes	boolean_t rv;
df8bae1dSRodney W. Grimes	vm_offset_t saddr, eaddr;
02c58685SPoul-Henning Kamp	vm_prot_t prot;
df8bae1dSRodney W. Grimes
e50f5c2eSBruce Evans	KASSERT((rw & ~VM_PROT_ALL) == 0,
02c58685SPoul-Henning Kamp	    ("illegal ``rw'' argument to kernacc (%x)\n", rw));
75337a56SAlan Cox
f0165b1cSKonstantin Belousov	if ((vm_offset_t)addr + len > vm_map_max(kernel_map) ||
75337a56SAlan Cox	    (vm_offset_t)addr + len < (vm_offset_t)addr)
9e016408SJohn Baldwin		return (false);
75337a56SAlan Cox
02c58685SPoul-Henning Kamp	prot = rw;
6cde7a16SDavid Greenman	saddr = trunc_page((vm_offset_t)addr);
6cde7a16SDavid Greenman	eaddr = round_page((vm_offset_t)addr + len);
d8834602SAlan Cox	vm_map_lock_read(kernel_map);
df8bae1dSRodney W. Grimes	rv = vm_map_check_protection(kernel_map, saddr, eaddr, prot);
d8834602SAlan Cox	vm_map_unlock_read(kernel_map);
df8bae1dSRodney W. Grimes	return (rv == TRUE);
df8bae1dSRodney W. Grimes}
df8bae1dSRodney W. Grimes
43a90f3aSAlan Cox/*
43a90f3aSAlan Cox * MPSAFE
2d5c7e45SMatthew Dillon *
2d5c7e45SMatthew Dillon * WARNING!  This code calls vm_map_check_protection() which only checks
2d5c7e45SMatthew Dillon * the associated vm_map_entry range.  It does not determine whether the
2d5c7e45SMatthew Dillon * contents of the memory is actually readable or writable.  vmapbuf(),
2d5c7e45SMatthew Dillon * vm_fault_quick(), or copyin()/copout()/su*()/fu*() functions should be
763df3ecSPedro F. Giffuni * used in conjunction with this call.
43a90f3aSAlan Cox */
9e016408SJohn Baldwinbool
d0389015SEd Masteuseracc(void *addr, int len, int rw)
df8bae1dSRodney W. Grimes{
df8bae1dSRodney W. Grimes	boolean_t rv;
02c58685SPoul-Henning Kamp	vm_prot_t prot;
05ba50f5SJake Burkholder	vm_map_t map;
df8bae1dSRodney W. Grimes
e50f5c2eSBruce Evans	KASSERT((rw & ~VM_PROT_ALL) == 0,
02c58685SPoul-Henning Kamp	    ("illegal ``rw'' argument to useracc (%x)\n", rw));
02c58685SPoul-Henning Kamp	prot = rw;
05ba50f5SJake Burkholder	map = &curproc->p_vmspace->vm_map;
05ba50f5SJake Burkholder	if ((vm_offset_t)addr + len > vm_map_max(map) ||
05ba50f5SJake Burkholder	    (vm_offset_t)addr + len < (vm_offset_t)addr) {
9e016408SJohn Baldwin		return (false);
26f9a767SRodney W. Grimes	}
d8834602SAlan Cox	vm_map_lock_read(map);
05ba50f5SJake Burkholder	rv = vm_map_check_protection(map, trunc_page((vm_offset_t)addr),
05ba50f5SJake Burkholder	    round_page((vm_offset_t)addr + len), prot);
d8834602SAlan Cox	vm_map_unlock_read(map);
df8bae1dSRodney W. Grimes	return (rv == TRUE);
df8bae1dSRodney W. Grimes}
df8bae1dSRodney W. Grimes
16929939SDon Lewisint
f0ea4612SDon Lewisvslock(void *addr, size_t len)
16929939SDon Lewis{
bb734798SDon Lewis	vm_offset_t end, last, start;
bb734798SDon Lewis	vm_size_t npages;
bb734798SDon Lewis	int error;
16929939SDon Lewis
bb734798SDon Lewis	last = (vm_offset_t)addr + len;
ce8660e3SDon Lewis	start = trunc_page((vm_offset_t)addr);
bb734798SDon Lewis	end = round_page(last);
bb734798SDon Lewis	if (last < (vm_offset_t)addr || end < (vm_offset_t)addr)
16929939SDon Lewis		return (EINVAL);
16929939SDon Lewis	npages = atop(end - start);
54a3a114SMark Johnston	if (npages > vm_page_max_user_wired)
16929939SDon Lewis		return (ENOMEM);
ce8660e3SDon Lewis	error = vm_map_wire(&curproc->p_vmspace->vm_map, start, end,
d9b2500eSBrian Feldman	    VM_MAP_WIRE_SYSTEM | VM_MAP_WIRE_NOHOLES);
ed9e8bc4SKonstantin Belousov	if (error == KERN_SUCCESS) {
ed9e8bc4SKonstantin Belousov		curthread->td_vslock_sz += len;
ed9e8bc4SKonstantin Belousov		return (0);
ed9e8bc4SKonstantin Belousov	}
ed9e8bc4SKonstantin Belousov
ce8660e3SDon Lewis	/*
ce8660e3SDon Lewis	 * Return EFAULT on error to match copy{in,out}() behaviour
ce8660e3SDon Lewis	 * rather than returning ENOMEM like mlock() would.
ce8660e3SDon Lewis	 */
ed9e8bc4SKonstantin Belousov	return (EFAULT);
16929939SDon Lewis}
16929939SDon Lewis
ce8660e3SDon Lewisvoid
f0ea4612SDon Lewisvsunlock(void *addr, size_t len)
16929939SDon Lewis{
16929939SDon Lewis
ce8660e3SDon Lewis	/* Rely on the parameter sanity checks performed by vslock(). */
ed9e8bc4SKonstantin Belousov	MPASS(curthread->td_vslock_sz >= len);
ed9e8bc4SKonstantin Belousov	curthread->td_vslock_sz -= len;
ce8660e3SDon Lewis	(void)vm_map_unwire(&curproc->p_vmspace->vm_map,
ce8660e3SDon Lewis	    trunc_page((vm_offset_t)addr), round_page((vm_offset_t)addr + len),
16929939SDon Lewis	    VM_MAP_WIRE_SYSTEM | VM_MAP_WIRE_NOHOLES);
16929939SDon Lewis}
16929939SDon Lewis
da61b9a6SAlan Cox/*
da61b9a6SAlan Cox * Pin the page contained within the given object at the given offset.  If the
da61b9a6SAlan Cox * page is not resident, allocate and load it using the given object's pager.
da61b9a6SAlan Cox * Return the pinned page if successful; otherwise, return NULL.
da61b9a6SAlan Cox */
da61b9a6SAlan Coxstatic vm_page_t
be996836SAttilio Raovm_imgact_hold_page(vm_object_t object, vm_ooffset_t offset)
da61b9a6SAlan Cox{
093c7f39SGleb Smirnoff	vm_page_t m;
da61b9a6SAlan Cox	vm_pindex_t pindex;
da61b9a6SAlan Cox
da61b9a6SAlan Cox	pindex = OFF_TO_IDX(offset);
7aaf252cSJeff Roberson	(void)vm_page_grab_valid_unlocked(&m, object, pindex,
c7575748SJeff Roberson	    VM_ALLOC_NORMAL | VM_ALLOC_NOBUSY | VM_ALLOC_WIRED);
da61b9a6SAlan Cox	return (m);
da61b9a6SAlan Cox}
da61b9a6SAlan Cox
da61b9a6SAlan Cox/*
da61b9a6SAlan Cox * Return a CPU private mapping to the page at the given offset within the
da61b9a6SAlan Cox * given object.  The page is pinned before it is mapped.
da61b9a6SAlan Cox */
da61b9a6SAlan Coxstruct sf_buf *
da61b9a6SAlan Coxvm_imgact_map_page(vm_object_t object, vm_ooffset_t offset)
da61b9a6SAlan Cox{
da61b9a6SAlan Cox	vm_page_t m;
da61b9a6SAlan Cox
be996836SAttilio Rao	m = vm_imgact_hold_page(object, offset);
da61b9a6SAlan Cox	if (m == NULL)
da61b9a6SAlan Cox		return (NULL);
da61b9a6SAlan Cox	sched_pin();
da61b9a6SAlan Cox	return (sf_buf_alloc(m, SFB_CPUPRIVATE));
da61b9a6SAlan Cox}
da61b9a6SAlan Cox
da61b9a6SAlan Cox/*
da61b9a6SAlan Cox * Destroy the given CPU private mapping and unpin the page that it mapped.
da61b9a6SAlan Cox */
da61b9a6SAlan Coxvoid
be996836SAttilio Raovm_imgact_unmap_page(struct sf_buf *sf)
da61b9a6SAlan Cox{
da61b9a6SAlan Cox	vm_page_t m;
da61b9a6SAlan Cox
da61b9a6SAlan Cox	m = sf_buf_page(sf);
da61b9a6SAlan Cox	sf_buf_free(sf);
da61b9a6SAlan Cox	sched_unpin();
eeacb3b0SMark Johnston	vm_page_unwire(m, PQ_ACTIVE);
da61b9a6SAlan Cox}
da61b9a6SAlan Cox
1a4fcaebSMarcel Moolenaarvoid
1a4fcaebSMarcel Moolenaarvm_sync_icache(vm_map_t map, vm_offset_t va, vm_offset_t sz)
1a4fcaebSMarcel Moolenaar{
1a4fcaebSMarcel Moolenaar
1a4fcaebSMarcel Moolenaar	pmap_sync_icache(map->pmap, va, sz);
1a4fcaebSMarcel Moolenaar}
1a4fcaebSMarcel Moolenaar
7a79d066SBojan Novkovićstatic vm_object_t kstack_object;
7a79d066SBojan Novkovićstatic vm_object_t kstack_alt_object;
0b26119bSJeff Robersonstatic uma_zone_t kstack_cache;
003cf08bSMark Johnstonstatic int kstack_cache_size;
7a79d066SBojan Novkovićstatic vmem_t *vmd_kstack_arena[MAXMEMDOM];
25c1e164SAndre Oppermann
235750eeSMark Johnstonstatic vm_pindex_t vm_kstack_pindex(vm_offset_t ks, int npages);
235750eeSMark Johnstonstatic vm_object_t vm_thread_kstack_size_to_obj(int npages);
235750eeSMark Johnstonstatic int vm_thread_stack_back(vm_offset_t kaddr, vm_page_t ma[], int npages,
235750eeSMark Johnston    int req_class, int domain);
235750eeSMark Johnston
0b26119bSJeff Robersonstatic int
0b26119bSJeff Robersonsysctl_kstack_cache_size(SYSCTL_HANDLER_ARGS)
0b26119bSJeff Roberson{
91caa9b8SMateusz Guzik	int error, oldsize;
0b26119bSJeff Roberson
91caa9b8SMateusz Guzik	oldsize = kstack_cache_size;
91caa9b8SMateusz Guzik	error = sysctl_handle_int(oidp, arg1, arg2, req);
91caa9b8SMateusz Guzik	if (error == 0 && req->newptr && oldsize != kstack_cache_size)
91caa9b8SMateusz Guzik		uma_zone_set_maxcache(kstack_cache, kstack_cache_size);
0b26119bSJeff Roberson	return (error);
0b26119bSJeff Roberson}
a314aba8SMateusz GuzikSYSCTL_PROC(_vm, OID_AUTO, kstack_cache_size,
a314aba8SMateusz Guzik    CTLTYPE_INT|CTLFLAG_MPSAFE|CTLFLAG_RW, &kstack_cache_size, 0,
a314aba8SMateusz Guzik    sysctl_kstack_cache_size, "IU", "Maximum number of cached kernel stacks");
8a945d10SKonstantin Belousov
49a2507bSAlan Cox/*
7a79d066SBojan Novković *	Allocate a virtual address range from a domain kstack arena, following
7a79d066SBojan Novković *	the specified NUMA policy.
7a79d066SBojan Novković */
7a79d066SBojan Novkovićstatic vm_offset_t
7a79d066SBojan Novkovićvm_thread_alloc_kstack_kva(vm_size_t size, int domain)
7a79d066SBojan Novković{
7a79d066SBojan Novković#ifndef __ILP32__
7a79d066SBojan Novković	int rv;
7a79d066SBojan Novković	vmem_t *arena;
7a79d066SBojan Novković	vm_offset_t addr = 0;
7a79d066SBojan Novković
7a79d066SBojan Novković	size = round_page(size);
7a79d066SBojan Novković	/* Allocate from the kernel arena for non-standard kstack sizes. */
7a79d066SBojan Novković	if (size != ptoa(kstack_pages + KSTACK_GUARD_PAGES)) {
7a79d066SBojan Novković		arena = vm_dom[domain].vmd_kernel_arena;
7a79d066SBojan Novković	} else {
7a79d066SBojan Novković		arena = vmd_kstack_arena[domain];
7a79d066SBojan Novković	}
7a79d066SBojan Novković	rv = vmem_alloc(arena, size, M_BESTFIT | M_NOWAIT, &addr);
7a79d066SBojan Novković	if (rv == ENOMEM)
7a79d066SBojan Novković		return (0);
7a79d066SBojan Novković	KASSERT(atop(addr - VM_MIN_KERNEL_ADDRESS) %
7a79d066SBojan Novković	    (kstack_pages + KSTACK_GUARD_PAGES) == 0,
7a79d066SBojan Novković	    ("%s: allocated kstack KVA not aligned to multiple of kstack size",
7a79d066SBojan Novković	    __func__));
7a79d066SBojan Novković
7a79d066SBojan Novković	return (addr);
7a79d066SBojan Novković#else
7a79d066SBojan Novković	return (kva_alloc(size));
7a79d066SBojan Novković#endif
7a79d066SBojan Novković}
7a79d066SBojan Novković
7a79d066SBojan Novković/*
7a79d066SBojan Novković *	Release a region of kernel virtual memory
7a79d066SBojan Novković *	allocated from the kstack arena.
7a79d066SBojan Novković */
7a79d066SBojan Novkovićstatic __noinline void
7a79d066SBojan Novkovićvm_thread_free_kstack_kva(vm_offset_t addr, vm_size_t size, int domain)
7a79d066SBojan Novković{
7a79d066SBojan Novković	vmem_t *arena;
7a79d066SBojan Novković
7a79d066SBojan Novković	size = round_page(size);
7a79d066SBojan Novković#ifdef __ILP32__
7a79d066SBojan Novković	arena = kernel_arena;
7a79d066SBojan Novković#else
7a79d066SBojan Novković	arena = vmd_kstack_arena[domain];
7a79d066SBojan Novković	if (size != ptoa(kstack_pages + KSTACK_GUARD_PAGES)) {
7a79d066SBojan Novković		arena = vm_dom[domain].vmd_kernel_arena;
7a79d066SBojan Novković	}
7a79d066SBojan Novković#endif
7a79d066SBojan Novković	vmem_free(arena, addr, size);
7a79d066SBojan Novković}
7a79d066SBojan Novković
7a79d066SBojan Novkovićstatic vmem_size_t
7a79d066SBojan Novkovićvm_thread_kstack_import_quantum(void)
7a79d066SBojan Novković{
7a79d066SBojan Novković#ifndef __ILP32__
7a79d066SBojan Novković	/*
7a79d066SBojan Novković	 * The kstack_quantum is larger than KVA_QUANTUM to account
7a79d066SBojan Novković	 * for holes induced by guard pages.
7a79d066SBojan Novković	 */
7a79d066SBojan Novković	return (KVA_KSTACK_QUANTUM * (kstack_pages + KSTACK_GUARD_PAGES));
7a79d066SBojan Novković#else
7a79d066SBojan Novković	return (KVA_KSTACK_QUANTUM);
7a79d066SBojan Novković#endif
7a79d066SBojan Novković}
7a79d066SBojan Novković
7a79d066SBojan Novković/*
7a79d066SBojan Novković * Import KVA from a parent arena into the kstack arena. Imports must be
7a79d066SBojan Novković * a multiple of kernel stack pages + guard pages in size.
7a79d066SBojan Novković *
7a79d066SBojan Novković * Kstack VA allocations need to be aligned so that the linear KVA pindex
7a79d066SBojan Novković * is divisible by the total number of kstack VA pages. This is necessary to
7a79d066SBojan Novković * make vm_kstack_pindex work properly.
7a79d066SBojan Novković *
7a79d066SBojan Novković * We import a multiple of KVA_KSTACK_QUANTUM-sized region from the parent
7a79d066SBojan Novković * arena. The actual size used by the kstack arena is one kstack smaller to
7a79d066SBojan Novković * allow for the necessary alignment adjustments to be made.
7a79d066SBojan Novković */
7a79d066SBojan Novkovićstatic int
7a79d066SBojan Novkovićvm_thread_kstack_arena_import(void *arena, vmem_size_t size, int flags,
7a79d066SBojan Novković    vmem_addr_t *addrp)
7a79d066SBojan Novković{
7a79d066SBojan Novković	int error, rem;
7a79d066SBojan Novković	size_t kpages = kstack_pages + KSTACK_GUARD_PAGES;
7a79d066SBojan Novković
7a79d066SBojan Novković	KASSERT(atop(size) % kpages == 0,
7a79d066SBojan Novković	    ("%s: Size %jd is not a multiple of kstack pages (%d)", __func__,
7a79d066SBojan Novković	    (intmax_t)size, (int)kpages));
7a79d066SBojan Novković
7a79d066SBojan Novković	error = vmem_xalloc(arena, vm_thread_kstack_import_quantum(),
7a79d066SBojan Novković	    KVA_KSTACK_QUANTUM, 0, 0, VMEM_ADDR_MIN, VMEM_ADDR_MAX, flags,
7a79d066SBojan Novković	    addrp);
7a79d066SBojan Novković	if (error) {
7a79d066SBojan Novković		return (error);
7a79d066SBojan Novković	}
7a79d066SBojan Novković
7a79d066SBojan Novković	rem = atop(*addrp - VM_MIN_KERNEL_ADDRESS) % kpages;
7a79d066SBojan Novković	if (rem != 0) {
7a79d066SBojan Novković		/* Bump addr to next aligned address */
7a79d066SBojan Novković		*addrp = *addrp + (kpages - rem) * PAGE_SIZE;
7a79d066SBojan Novković	}
7a79d066SBojan Novković
7a79d066SBojan Novković	return (0);
7a79d066SBojan Novković}
7a79d066SBojan Novković
7a79d066SBojan Novković/*
7a79d066SBojan Novković * Release KVA from a parent arena into the kstack arena. Released imports must
7a79d066SBojan Novković * be a multiple of kernel stack pages + guard pages in size.
7a79d066SBojan Novković */
7a79d066SBojan Novkovićstatic void
7a79d066SBojan Novkovićvm_thread_kstack_arena_release(void *arena, vmem_addr_t addr, vmem_size_t size)
7a79d066SBojan Novković{
7a79d066SBojan Novković	int rem;
7a79d066SBojan Novković	size_t kpages __diagused = kstack_pages + KSTACK_GUARD_PAGES;
7a79d066SBojan Novković
7a79d066SBojan Novković	KASSERT(size % kpages == 0,
7a79d066SBojan Novković	    ("%s: Size %jd is not a multiple of kstack pages (%d)", __func__,
7a79d066SBojan Novković	    (intmax_t)size, (int)kpages));
7a79d066SBojan Novković
7a79d066SBojan Novković	KASSERT((addr - VM_MIN_KERNEL_ADDRESS) % kpages == 0,
7a79d066SBojan Novković	    ("%s: Address %p is not properly aligned (%p)", __func__,
7a79d066SBojan Novković		(void *)addr, (void *)VM_MIN_KERNEL_ADDRESS));
7a79d066SBojan Novković	/*
7a79d066SBojan Novković	 * If the address is not KVA_KSTACK_QUANTUM-aligned we have to decrement
7a79d066SBojan Novković	 * it to account for the shift in kva_import_kstack.
7a79d066SBojan Novković	 */
7a79d066SBojan Novković	rem = addr % KVA_KSTACK_QUANTUM;
7a79d066SBojan Novković	if (rem) {
7a79d066SBojan Novković		KASSERT(rem <= ptoa(kpages),
7a79d066SBojan Novković		    ("%s: rem > kpages (%d), (%d)", __func__, rem,
7a79d066SBojan Novković			(int)kpages));
7a79d066SBojan Novković		addr -= rem;
7a79d066SBojan Novković	}
7a79d066SBojan Novković	vmem_xfree(arena, addr, vm_thread_kstack_import_quantum());
7a79d066SBojan Novković}
7a79d066SBojan Novković
7a79d066SBojan Novković/*
7a79d066SBojan Novković * Create the kernel stack for a new thread.
49a2507bSAlan Cox */
0b26119bSJeff Robersonstatic vm_offset_t
f13fa9dfSMark Johnstonvm_thread_stack_create(struct domainset *ds, int pages)
49a2507bSAlan Cox{
0b26119bSJeff Roberson	vm_page_t ma[KSTACK_MAX_PAGES];
7a79d066SBojan Novković	struct vm_domainset_iter di;
7a79d066SBojan Novković	int req = VM_ALLOC_NORMAL;
7a79d066SBojan Novković	vm_object_t obj;
49a2507bSAlan Cox	vm_offset_t ks;
7a79d066SBojan Novković	int domain, i;
49a2507bSAlan Cox
7a79d066SBojan Novković	obj = vm_thread_kstack_size_to_obj(pages);
7a79d066SBojan Novković	if (vm_ndomains > 1)
7a79d066SBojan Novković		obj->domain.dr_policy = ds;
7a79d066SBojan Novković	vm_domainset_iter_page_init(&di, obj, 0, &domain, &req);
7a79d066SBojan Novković	do {
49a2507bSAlan Cox		/*
49a2507bSAlan Cox		 * Get a kernel virtual address for this thread's kstack.
49a2507bSAlan Cox		 */
7a79d066SBojan Novković		ks = vm_thread_alloc_kstack_kva(ptoa(pages + KSTACK_GUARD_PAGES),
7a79d066SBojan Novković		    domain);
7a79d066SBojan Novković		if (ks == 0)
7a79d066SBojan Novković			continue;
7a79d066SBojan Novković		ks += ptoa(KSTACK_GUARD_PAGES);
0b26119bSJeff Roberson
49a2507bSAlan Cox		/*
f13fa9dfSMark Johnston		 * Allocate physical pages to back the stack.
49a2507bSAlan Cox		 */
7a79d066SBojan Novković		if (vm_thread_stack_back(ks, ma, pages, req, domain) != 0) {
7a79d066SBojan Novković			vm_thread_free_kstack_kva(ks - ptoa(KSTACK_GUARD_PAGES),
7a79d066SBojan Novković			    ptoa(pages + KSTACK_GUARD_PAGES), domain);
7a79d066SBojan Novković			continue;
7a79d066SBojan Novković		}
7a79d066SBojan Novković		if (KSTACK_GUARD_PAGES != 0) {
7a79d066SBojan Novković			pmap_qremove(ks - ptoa(KSTACK_GUARD_PAGES),
7a79d066SBojan Novković			    KSTACK_GUARD_PAGES);
7a79d066SBojan Novković		}
e9ceb9ddSJeff Roberson		for (i = 0; i < pages; i++)
91e31c3cSJeff Roberson			vm_page_valid(ma[i]);
49a2507bSAlan Cox		pmap_qenter(ks, ma, pages);
0b26119bSJeff Roberson		return (ks);
7a79d066SBojan Novković	} while (vm_domainset_iter_page(&di, obj, &domain) == 0);
7a79d066SBojan Novković
7a79d066SBojan Novković	return (0);
49a2507bSAlan Cox}
49a2507bSAlan Cox
7a79d066SBojan Novkovićstatic __noinline void
f13fa9dfSMark Johnstonvm_thread_stack_dispose(vm_offset_t ks, int pages)
49a2507bSAlan Cox{
49a2507bSAlan Cox	vm_page_t m;
f13fa9dfSMark Johnston	vm_pindex_t pindex;
7a79d066SBojan Novković	int i, domain;
7a79d066SBojan Novković	vm_object_t obj = vm_thread_kstack_size_to_obj(pages);
49a2507bSAlan Cox
7a79d066SBojan Novković	pindex = vm_kstack_pindex(ks, pages);
7a79d066SBojan Novković	domain = vm_phys_domain(vtophys(ks));
49a2507bSAlan Cox	pmap_qremove(ks, pages);
7a79d066SBojan Novković	VM_OBJECT_WLOCK(obj);
49a2507bSAlan Cox	for (i = 0; i < pages; i++) {
7a79d066SBojan Novković		m = vm_page_lookup(obj, pindex + i);
49a2507bSAlan Cox		if (m == NULL)
4a9c211aSAllan Jude			panic("%s: kstack already missing?", __func__);
7a79d066SBojan Novković		KASSERT(vm_page_domain(m) == domain,
7a79d066SBojan Novković		    ("%s: page %p domain mismatch, expected %d got %d",
7a79d066SBojan Novković		    __func__, m, domain, vm_page_domain(m)));
e9ceb9ddSJeff Roberson		vm_page_xbusy_claim(m);
88ea538aSMark Johnston		vm_page_unwire_noq(m);
49a2507bSAlan Cox		vm_page_free(m);
49a2507bSAlan Cox	}
7a79d066SBojan Novković	VM_OBJECT_WUNLOCK(obj);
244f3ec6SMark Johnston	kasan_mark((void *)ks, ptoa(pages), ptoa(pages), 0);
7a79d066SBojan Novković	vm_thread_free_kstack_kva(ks - (KSTACK_GUARD_PAGES * PAGE_SIZE),
7a79d066SBojan Novković	    ptoa(pages + KSTACK_GUARD_PAGES), domain);
c3cf0b47SKonstantin Belousov}
c3cf0b47SKonstantin Belousov
c3cf0b47SKonstantin Belousov/*
0b26119bSJeff Roberson * Allocate the kernel stack for a new thread.
0b26119bSJeff Roberson */
0b26119bSJeff Robersonint
0b26119bSJeff Robersonvm_thread_new(struct thread *td, int pages)
0b26119bSJeff Roberson{
0b26119bSJeff Roberson	vm_offset_t ks;
7a79d066SBojan Novković	u_short ks_domain;
0b26119bSJeff Roberson
0b26119bSJeff Roberson	/* Bounds check */
0b26119bSJeff Roberson	if (pages <= 1)
0b26119bSJeff Roberson		pages = kstack_pages;
0b26119bSJeff Roberson	else if (pages > KSTACK_MAX_PAGES)
0b26119bSJeff Roberson		pages = KSTACK_MAX_PAGES;
0b26119bSJeff Roberson
0b26119bSJeff Roberson	ks = 0;
f13fa9dfSMark Johnston	if (pages == kstack_pages && kstack_cache != NULL)
0b26119bSJeff Roberson		ks = (vm_offset_t)uma_zalloc(kstack_cache, M_NOWAIT);
0b26119bSJeff Roberson
0b26119bSJeff Roberson	/*
0b26119bSJeff Roberson	 * Ensure that kstack objects can draw pages from any memory
0b26119bSJeff Roberson	 * domain.  Otherwise a local memory shortage can block a process
0b26119bSJeff Roberson	 * swap-in.
0b26119bSJeff Roberson	 */
0b26119bSJeff Roberson	if (ks == 0)
0b26119bSJeff Roberson		ks = vm_thread_stack_create(DOMAINSET_PREF(PCPU_GET(domain)),
f13fa9dfSMark Johnston		    pages);
0b26119bSJeff Roberson	if (ks == 0)
0b26119bSJeff Roberson		return (0);
7a79d066SBojan Novković
7a79d066SBojan Novković	ks_domain = vm_phys_domain(vtophys(ks));
7a79d066SBojan Novković	KASSERT(ks_domain >= 0 && ks_domain < vm_ndomains,
7a79d066SBojan Novković	    ("%s: invalid domain for kstack %p", __func__, (void *)ks));
0b26119bSJeff Roberson	td->td_kstack = ks;
0b26119bSJeff Roberson	td->td_kstack_pages = pages;
7a79d066SBojan Novković	td->td_kstack_domain = ks_domain;
0b26119bSJeff Roberson	return (1);
0b26119bSJeff Roberson}
0b26119bSJeff Roberson
0b26119bSJeff Roberson/*
8a945d10SKonstantin Belousov * Dispose of a thread's kernel stack.
8a945d10SKonstantin Belousov */
8a945d10SKonstantin Belousovvoid
8a945d10SKonstantin Belousovvm_thread_dispose(struct thread *td)
8a945d10SKonstantin Belousov{
8a945d10SKonstantin Belousov	vm_offset_t ks;
8a945d10SKonstantin Belousov	int pages;
8a945d10SKonstantin Belousov
8a945d10SKonstantin Belousov	pages = td->td_kstack_pages;
8a945d10SKonstantin Belousov	ks = td->td_kstack;
8a945d10SKonstantin Belousov	td->td_kstack = 0;
8a945d10SKonstantin Belousov	td->td_kstack_pages = 0;
7a79d066SBojan Novković	td->td_kstack_domain = MAXMEMDOM;
800da341SMark Johnston	if (pages == kstack_pages) {
244f3ec6SMark Johnston		kasan_mark((void *)ks, 0, ptoa(pages), KASAN_KSTACK_FREED);
0b26119bSJeff Roberson		uma_zfree(kstack_cache, (void *)ks);
800da341SMark Johnston	} else {
f13fa9dfSMark Johnston		vm_thread_stack_dispose(ks, pages);
f13fa9dfSMark Johnston	}
800da341SMark Johnston}
f13fa9dfSMark Johnston
f13fa9dfSMark Johnston/*
7a79d066SBojan Novković * Calculate kstack pindex.
7a79d066SBojan Novković *
7a79d066SBojan Novković * Uses a non-identity mapping if guard pages are
7a79d066SBojan Novković * active to avoid pindex holes in the kstack object.
7a79d066SBojan Novković */
235750eeSMark Johnstonstatic vm_pindex_t
7a79d066SBojan Novkovićvm_kstack_pindex(vm_offset_t ks, int kpages)
7a79d066SBojan Novković{
7a79d066SBojan Novković	vm_pindex_t pindex = atop(ks - VM_MIN_KERNEL_ADDRESS);
7a79d066SBojan Novković
7a79d066SBojan Novković#ifdef __ILP32__
7a79d066SBojan Novković	return (pindex);
7a79d066SBojan Novković#else
7a79d066SBojan Novković	/*
7a79d066SBojan Novković	 * Return the linear pindex if guard pages aren't active or if we are
7a79d066SBojan Novković	 * allocating a non-standard kstack size.
7a79d066SBojan Novković	 */
7a79d066SBojan Novković	if (KSTACK_GUARD_PAGES == 0 || kpages != kstack_pages) {
7a79d066SBojan Novković		return (pindex);
7a79d066SBojan Novković	}
7a79d066SBojan Novković	KASSERT(pindex % (kpages + KSTACK_GUARD_PAGES) >= KSTACK_GUARD_PAGES,
7a79d066SBojan Novković	    ("%s: Attempting to calculate kstack guard page pindex", __func__));
7a79d066SBojan Novković
7a79d066SBojan Novković	return (pindex -
7a79d066SBojan Novković	    (pindex / (kpages + KSTACK_GUARD_PAGES) + 1) * KSTACK_GUARD_PAGES);
7a79d066SBojan Novković#endif
7a79d066SBojan Novković}
7a79d066SBojan Novković
7a79d066SBojan Novković/*
f13fa9dfSMark Johnston * Allocate physical pages, following the specified NUMA policy, to back a
f13fa9dfSMark Johnston * kernel stack.
f13fa9dfSMark Johnston */
235750eeSMark Johnstonstatic int
7a79d066SBojan Novkovićvm_thread_stack_back(vm_offset_t ks, vm_page_t ma[], int npages, int req_class,
7a79d066SBojan Novković    int domain)
f13fa9dfSMark Johnston{
7a79d066SBojan Novković	vm_object_t obj = vm_thread_kstack_size_to_obj(npages);
f13fa9dfSMark Johnston	vm_pindex_t pindex;
7a79d066SBojan Novković	vm_page_t m;
f13fa9dfSMark Johnston	int n;
f13fa9dfSMark Johnston
7a79d066SBojan Novković	pindex = vm_kstack_pindex(ks, npages);
f13fa9dfSMark Johnston
7a79d066SBojan Novković	VM_OBJECT_WLOCK(obj);
f13fa9dfSMark Johnston	for (n = 0; n < npages;) {
7a79d066SBojan Novković		m = vm_page_grab(obj, pindex + n,
7a79d066SBojan Novković		    VM_ALLOC_NOCREAT | VM_ALLOC_WIRED);
7a79d066SBojan Novković		if (m == NULL) {
*6d42d5dbSDoug Moore			m = n > 0 ? ma[n - 1] : vm_page_mpred(obj, pindex);
*6d42d5dbSDoug Moore			m = vm_page_alloc_domain_after(obj, pindex + n, domain,
*6d42d5dbSDoug Moore			    req_class | VM_ALLOC_WIRED, m);
f13fa9dfSMark Johnston		}
7a79d066SBojan Novković		if (m == NULL)
7a79d066SBojan Novković			break;
7a79d066SBojan Novković		ma[n++] = m;
7a79d066SBojan Novković	}
7a79d066SBojan Novković	if (n < npages)
7a79d066SBojan Novković		goto cleanup;
7a79d066SBojan Novković	VM_OBJECT_WUNLOCK(obj);
7a79d066SBojan Novković
7a79d066SBojan Novković	return (0);
7a79d066SBojan Novkovićcleanup:
661a83f9SMark Johnston	for (int i = 0; i < n; i++) {
661a83f9SMark Johnston		m = ma[i];
661a83f9SMark Johnston		(void)vm_page_unwire_noq(m);
661a83f9SMark Johnston		vm_page_free(m);
661a83f9SMark Johnston	}
7a79d066SBojan Novković	VM_OBJECT_WUNLOCK(obj);
7a79d066SBojan Novković
7a79d066SBojan Novković	return (ENOMEM);
7a79d066SBojan Novković}
7a79d066SBojan Novković
235750eeSMark Johnstonstatic vm_object_t
7a79d066SBojan Novkovićvm_thread_kstack_size_to_obj(int npages)
7a79d066SBojan Novković{
7a79d066SBojan Novković	return (npages == kstack_pages ? kstack_object : kstack_alt_object);
8a945d10SKonstantin Belousov}
8a945d10SKonstantin Belousov
0b26119bSJeff Robersonstatic int
0b26119bSJeff Robersonkstack_import(void *arg, void **store, int cnt, int domain, int flags)
8a945d10SKonstantin Belousov{
b48d4efeSMark Johnston	struct domainset *ds;
0b26119bSJeff Roberson	int i;
8a945d10SKonstantin Belousov
b48d4efeSMark Johnston	if (domain == UMA_ANYDOMAIN)
b48d4efeSMark Johnston		ds = DOMAINSET_RR();
b48d4efeSMark Johnston	else
b48d4efeSMark Johnston		ds = DOMAINSET_PREF(domain);
b48d4efeSMark Johnston
0b26119bSJeff Roberson	for (i = 0; i < cnt; i++) {
f13fa9dfSMark Johnston		store[i] = (void *)vm_thread_stack_create(ds, kstack_pages);
0b26119bSJeff Roberson		if (store[i] == NULL)
0b26119bSJeff Roberson			break;
0b26119bSJeff Roberson	}
0b26119bSJeff Roberson	return (i);
0b26119bSJeff Roberson}
8a945d10SKonstantin Belousov
0b26119bSJeff Robersonstatic void
0b26119bSJeff Robersonkstack_release(void *arg, void **store, int cnt)
0b26119bSJeff Roberson{
0b26119bSJeff Roberson	vm_offset_t ks;
0b26119bSJeff Roberson	int i;
8a945d10SKonstantin Belousov
0b26119bSJeff Roberson	for (i = 0; i < cnt; i++) {
0b26119bSJeff Roberson		ks = (vm_offset_t)store[i];
f13fa9dfSMark Johnston		vm_thread_stack_dispose(ks, kstack_pages);
8a945d10SKonstantin Belousov	}
8a945d10SKonstantin Belousov}
8a945d10SKonstantin Belousov
8a945d10SKonstantin Belousovstatic void
0b26119bSJeff Robersonkstack_cache_init(void *null)
8a945d10SKonstantin Belousov{
7a79d066SBojan Novković	vm_size_t kstack_quantum;
7a79d066SBojan Novković	int domain;
7a79d066SBojan Novković
235750eeSMark Johnston	kstack_object = vm_object_allocate(OBJT_PHYS,
f13fa9dfSMark Johnston	    atop(VM_MAX_KERNEL_ADDRESS - VM_MIN_KERNEL_ADDRESS));
0b26119bSJeff Roberson	kstack_cache = uma_zcache_create("kstack_cache",
0b26119bSJeff Roberson	    kstack_pages * PAGE_SIZE, NULL, NULL, NULL, NULL,
0b26119bSJeff Roberson	    kstack_import, kstack_release, NULL,
dfe13344SJeff Roberson	    UMA_ZONE_FIRSTTOUCH);
003cf08bSMark Johnston	kstack_cache_size = imax(128, mp_ncpus * 4);
0b26119bSJeff Roberson	uma_zone_set_maxcache(kstack_cache, kstack_cache_size);
7a79d066SBojan Novković
235750eeSMark Johnston	kstack_alt_object = vm_object_allocate(OBJT_PHYS,
7a79d066SBojan Novković	    atop(VM_MAX_KERNEL_ADDRESS - VM_MIN_KERNEL_ADDRESS));
7a79d066SBojan Novković
7a79d066SBojan Novković	kstack_quantum = vm_thread_kstack_import_quantum();
7a79d066SBojan Novković	/*
7a79d066SBojan Novković	 * Reduce size used by the kstack arena to allow for
7a79d066SBojan Novković	 * alignment adjustments in vm_thread_kstack_arena_import.
7a79d066SBojan Novković	 */
7a79d066SBojan Novković	kstack_quantum -= (kstack_pages + KSTACK_GUARD_PAGES) * PAGE_SIZE;
7a79d066SBojan Novković	/*
7a79d066SBojan Novković	 * Create the kstack_arena for each domain and set kernel_arena as
7a79d066SBojan Novković	 * parent.
7a79d066SBojan Novković	 */
7a79d066SBojan Novković	for (domain = 0; domain < vm_ndomains; domain++) {
7a79d066SBojan Novković		vmd_kstack_arena[domain] = vmem_create("kstack arena", 0, 0,
7a79d066SBojan Novković		    PAGE_SIZE, 0, M_WAITOK);
7a79d066SBojan Novković		KASSERT(vmd_kstack_arena[domain] != NULL,
7a79d066SBojan Novković		    ("%s: failed to create domain %d kstack_arena", __func__,
7a79d066SBojan Novković		    domain));
7a79d066SBojan Novković		vmem_set_import(vmd_kstack_arena[domain],
7a79d066SBojan Novković		    vm_thread_kstack_arena_import,
7a79d066SBojan Novković		    vm_thread_kstack_arena_release,
7a79d066SBojan Novković		    vm_dom[domain].vmd_kernel_arena, kstack_quantum);
7a79d066SBojan Novković	}
8a945d10SKonstantin Belousov}
f13fa9dfSMark JohnstonSYSINIT(vm_kstacks, SI_SUB_KMEM, SI_ORDER_ANY, kstack_cache_init, NULL);
8a945d10SKonstantin Belousov
b7627840SKonstantin Belousov#ifdef KSTACK_USAGE_PROF
b7627840SKonstantin Belousov/*
b7627840SKonstantin Belousov * Track maximum stack used by a thread in kernel.
b7627840SKonstantin Belousov */
b7627840SKonstantin Belousovstatic int max_kstack_used;
b7627840SKonstantin Belousov
b7627840SKonstantin BelousovSYSCTL_INT(_debug, OID_AUTO, max_kstack_used, CTLFLAG_RD,
b7627840SKonstantin Belousov    &max_kstack_used, 0,
c28e39c3SGordon Bergling    "Maximum stack depth used by a thread in kernel");
b7627840SKonstantin Belousov
b7627840SKonstantin Belousovvoid
b7627840SKonstantin Belousovintr_prof_stack_use(struct thread *td, struct trapframe *frame)
b7627840SKonstantin Belousov{
b7627840SKonstantin Belousov	vm_offset_t stack_top;
b7627840SKonstantin Belousov	vm_offset_t current;
b7627840SKonstantin Belousov	int used, prev_used;
b7627840SKonstantin Belousov
b7627840SKonstantin Belousov	/*
b7627840SKonstantin Belousov	 * Testing for interrupted kernel mode isn't strictly
b7627840SKonstantin Belousov	 * needed. It optimizes the execution, since interrupts from
b7627840SKonstantin Belousov	 * usermode will have only the trap frame on the stack.
b7627840SKonstantin Belousov	 */
b7627840SKonstantin Belousov	if (TRAPF_USERMODE(frame))
b7627840SKonstantin Belousov		return;
b7627840SKonstantin Belousov
b7627840SKonstantin Belousov	stack_top = td->td_kstack + td->td_kstack_pages * PAGE_SIZE;
b7627840SKonstantin Belousov	current = (vm_offset_t)(uintptr_t)&stack_top;
b7627840SKonstantin Belousov
b7627840SKonstantin Belousov	/*
b7627840SKonstantin Belousov	 * Try to detect if interrupt is using kernel thread stack.
b7627840SKonstantin Belousov	 * Hardware could use a dedicated stack for interrupt handling.
b7627840SKonstantin Belousov	 */
b7627840SKonstantin Belousov	if (stack_top <= current || current < td->td_kstack)
b7627840SKonstantin Belousov		return;
b7627840SKonstantin Belousov
b7627840SKonstantin Belousov	used = stack_top - current;
b7627840SKonstantin Belousov	for (;;) {
b7627840SKonstantin Belousov		prev_used = max_kstack_used;
b7627840SKonstantin Belousov		if (prev_used >= used)
b7627840SKonstantin Belousov			break;
b7627840SKonstantin Belousov		if (atomic_cmpset_int(&max_kstack_used, prev_used, used))
b7627840SKonstantin Belousov			break;
b7627840SKonstantin Belousov	}
b7627840SKonstantin Belousov}
b7627840SKonstantin Belousov#endif /* KSTACK_USAGE_PROF */
b7627840SKonstantin Belousov
a136efe9SPeter Wemm/*
df8bae1dSRodney W. Grimes * Implement fork's actions on an address space.
df8bae1dSRodney W. Grimes * Here we arrange for the address space to be copied or referenced,
df8bae1dSRodney W. Grimes * allocate a user struct (pcb and kernel stack), then call the
df8bae1dSRodney W. Grimes * machine-dependent layer to fill those in and make the new process
a2a1c95cSPeter Wemm * ready to run.  The new process is set up so that it returns directly
a2a1c95cSPeter Wemm * to user mode to avoid stack copying and relocation problems.
df8bae1dSRodney W. Grimes */
89b57fcfSKonstantin Belousovint
d0389015SEd Mastevm_forkproc(struct thread *td, struct proc *p2, struct thread *td2,
d0389015SEd Maste    struct vmspace *vm2, int flags)
df8bae1dSRodney W. Grimes{
b40ce416SJulian Elischer	struct proc *p1 = td->td_proc;
23984ce5SMark Johnston	struct domainset *dset;
89b57fcfSKonstantin Belousov	int error;
df8bae1dSRodney W. Grimes
91c28bfdSLuoqi Chen	if ((flags & RFPROC) == 0) {
91c28bfdSLuoqi Chen		/*
91c28bfdSLuoqi Chen		 * Divorce the memory, if it is shared, essentially
91c28bfdSLuoqi Chen		 * this changes shared memory amongst threads, into
91c28bfdSLuoqi Chen		 * COW locally.
91c28bfdSLuoqi Chen		 */
91c28bfdSLuoqi Chen		if ((flags & RFMEM) == 0) {
89b57fcfSKonstantin Belousov			error = vmspace_unshare(p1);
89b57fcfSKonstantin Belousov			if (error)
89b57fcfSKonstantin Belousov				return (error);
91c28bfdSLuoqi Chen		}
079b7badSJulian Elischer		cpu_fork(td, p2, td2, flags);
89b57fcfSKonstantin Belousov		return (0);
91c28bfdSLuoqi Chen	}
91c28bfdSLuoqi Chen
5856e12eSJohn Dyson	if (flags & RFMEM) {
5856e12eSJohn Dyson		p2->p_vmspace = p1->p_vmspace;
f7db0c95SMark Johnston		refcount_acquire(&p1->p_vmspace->vm_refcnt);
5856e12eSJohn Dyson	}
23984ce5SMark Johnston	dset = td2->td_domain.dr_policy;
23984ce5SMark Johnston	while (vm_page_count_severe_set(&dset->ds_mask)) {
89d2fb14SKonstantin Belousov		vm_wait_doms(&dset->ds_mask, 0);
0d94caffSDavid Greenman	}
26f9a767SRodney W. Grimes
5856e12eSJohn Dyson	if ((flags & RFMEM) == 0) {
89b57fcfSKonstantin Belousov		p2->p_vmspace = vm2;
df8bae1dSRodney W. Grimes		if (p1->p_vmspace->vm_shm)
dabee6feSPeter Wemm			shmfork(p1, p2);
a2a1c95cSPeter Wemm	}
df8bae1dSRodney W. Grimes
39fb8e6bSJulian Elischer	/*
a2a1c95cSPeter Wemm	 * cpu_fork will copy and update the pcb, set up the kernel stack,
a2a1c95cSPeter Wemm	 * and make the child ready to run.
df8bae1dSRodney W. Grimes	 */
079b7badSJulian Elischer	cpu_fork(td, p2, td2, flags);
89b57fcfSKonstantin Belousov	return (0);
df8bae1dSRodney W. Grimes}
df8bae1dSRodney W. Grimes
df8bae1dSRodney W. Grimes/*
763df3ecSPedro F. Giffuni * Called after process has been wait(2)'ed upon and is being reaped.
eb30c1c0SPeter Wemm * The idea is to reclaim resources that we could not reclaim while
eb30c1c0SPeter Wemm * the process was still executing.
eb30c1c0SPeter Wemm */
eb30c1c0SPeter Wemmvoid
bbb6228eSMateusz Guzikvm_waitproc(struct proc *p)
eb30c1c0SPeter Wemm{
eb30c1c0SPeter Wemm
582ec34cSAlfred Perlstein	vmspace_exitfree(p);		/* and clean-out the vmspace */
eb30c1c0SPeter Wemm}