160727d8bSWarner Losh /*- 2796df753SPedro F. Giffuni * SPDX-License-Identifier: (BSD-3-Clause AND MIT-CMU) 351369649SPedro F. Giffuni * 4df8bae1dSRodney W. Grimes * Copyright (c) 1991, 1993 5df8bae1dSRodney W. Grimes * The Regents of the University of California. All rights reserved. 6df8bae1dSRodney W. Grimes * 7df8bae1dSRodney W. Grimes * This code is derived from software contributed to Berkeley by 8df8bae1dSRodney W. Grimes * The Mach Operating System project at Carnegie-Mellon University. 9df8bae1dSRodney W. Grimes * 10df8bae1dSRodney W. Grimes * Redistribution and use in source and binary forms, with or without 11df8bae1dSRodney W. Grimes * modification, are permitted provided that the following conditions 12df8bae1dSRodney W. Grimes * are met: 13df8bae1dSRodney W. Grimes * 1. Redistributions of source code must retain the above copyright 14df8bae1dSRodney W. Grimes * notice, this list of conditions and the following disclaimer. 15df8bae1dSRodney W. Grimes * 2. Redistributions in binary form must reproduce the above copyright 16df8bae1dSRodney W. Grimes * notice, this list of conditions and the following disclaimer in the 17df8bae1dSRodney W. Grimes * documentation and/or other materials provided with the distribution. 18fbbd9655SWarner Losh * 3. Neither the name of the University nor the names of its contributors 19df8bae1dSRodney W. Grimes * may be used to endorse or promote products derived from this software 20df8bae1dSRodney W. Grimes * without specific prior written permission. 21df8bae1dSRodney W. Grimes * 22df8bae1dSRodney W. Grimes * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 23df8bae1dSRodney W. Grimes * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 24df8bae1dSRodney W. Grimes * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 25df8bae1dSRodney W. Grimes * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 26df8bae1dSRodney W. Grimes * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 27df8bae1dSRodney W. Grimes * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 28df8bae1dSRodney W. Grimes * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 29df8bae1dSRodney W. Grimes * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 30df8bae1dSRodney W. Grimes * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 31df8bae1dSRodney W. Grimes * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 32df8bae1dSRodney W. Grimes * SUCH DAMAGE. 33df8bae1dSRodney W. Grimes * 343c4dd356SDavid Greenman * from: @(#)vm_glue.c 8.6 (Berkeley) 1/5/94 35df8bae1dSRodney W. Grimes * 36df8bae1dSRodney W. Grimes * 37df8bae1dSRodney W. Grimes * Copyright (c) 1987, 1990 Carnegie-Mellon University. 38df8bae1dSRodney W. Grimes * All rights reserved. 39df8bae1dSRodney W. Grimes * 40df8bae1dSRodney W. Grimes * Permission to use, copy, modify and distribute this software and 41df8bae1dSRodney W. Grimes * its documentation is hereby granted, provided that both the copyright 42df8bae1dSRodney W. Grimes * notice and this permission notice appear in all copies of the 43df8bae1dSRodney W. Grimes * software, derivative works or modified versions, and any portions 44df8bae1dSRodney W. Grimes * thereof, and that both notices appear in supporting documentation. 45df8bae1dSRodney W. Grimes * 46df8bae1dSRodney W. Grimes * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" 47df8bae1dSRodney W. Grimes * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND 48df8bae1dSRodney W. Grimes * FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. 49df8bae1dSRodney W. Grimes * 50df8bae1dSRodney W. Grimes * Carnegie Mellon requests users of this software to return to 51df8bae1dSRodney W. Grimes * 52df8bae1dSRodney W. Grimes * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU 53df8bae1dSRodney W. Grimes * School of Computer Science 54df8bae1dSRodney W. Grimes * Carnegie Mellon University 55df8bae1dSRodney W. Grimes * Pittsburgh PA 15213-3890 56df8bae1dSRodney W. Grimes * 57df8bae1dSRodney W. Grimes * any improvements or extensions that they make and grant Carnegie the 58df8bae1dSRodney W. Grimes * rights to redistribute these changes. 59df8bae1dSRodney W. Grimes */ 60df8bae1dSRodney W. Grimes 61874651b1SDavid E. O'Brien #include <sys/cdefs.h> 62874651b1SDavid E. O'Brien __FBSDID("$FreeBSD$"); 63874651b1SDavid E. O'Brien 64faa5f8d8SAndrzej Bialecki #include "opt_vm.h" 6515a7ad60SPeter Wemm #include "opt_kstack_pages.h" 6615a7ad60SPeter Wemm #include "opt_kstack_max_pages.h" 67b7627840SKonstantin Belousov #include "opt_kstack_usage_prof.h" 68e9822d92SJoerg Wunsch 69df8bae1dSRodney W. Grimes #include <sys/param.h> 70df8bae1dSRodney W. Grimes #include <sys/systm.h> 71244f3ec6SMark Johnston #include <sys/asan.h> 72b0058196SMark Johnston #include <sys/domainset.h> 73104a9b7eSAlexander Kabaev #include <sys/limits.h> 74fb919e4dSMark Murray #include <sys/lock.h> 755df87b21SJeff Roberson #include <sys/malloc.h> 7610094910SMark Johnston #include <sys/msan.h> 77fb919e4dSMark Murray #include <sys/mutex.h> 78df8bae1dSRodney W. Grimes #include <sys/proc.h> 791ba5ad42SEdward Tomasz Napierala #include <sys/racct.h> 80f7db0c95SMark Johnston #include <sys/refcount.h> 81df8bae1dSRodney W. Grimes #include <sys/resourcevar.h> 8289f6b863SAttilio Rao #include <sys/rwlock.h> 83da61b9a6SAlan Cox #include <sys/sched.h> 84da61b9a6SAlan Cox #include <sys/sf_buf.h> 853aa12267SBruce Evans #include <sys/shm.h> 86003cf08bSMark Johnston #include <sys/smp.h> 87efeaf95aSDavid Greenman #include <sys/vmmeter.h> 885df87b21SJeff Roberson #include <sys/vmem.h> 891005a129SJohn Baldwin #include <sys/sx.h> 90ceb0cf87SJohn Dyson #include <sys/sysctl.h> 9126f9a767SRodney W. Grimes #include <sys/kernel.h> 920384fff8SJason Evans #include <sys/ktr.h> 93a2a1c95cSPeter Wemm #include <sys/unistd.h> 9426f9a767SRodney W. Grimes 950b26119bSJeff Roberson #include <vm/uma.h> 96df8bae1dSRodney W. Grimes #include <vm/vm.h> 97efeaf95aSDavid Greenman #include <vm/vm_param.h> 98efeaf95aSDavid Greenman #include <vm/pmap.h> 9923984ce5SMark Johnston #include <vm/vm_domainset.h> 100efeaf95aSDavid Greenman #include <vm/vm_map.h> 101df8bae1dSRodney W. Grimes #include <vm/vm_page.h> 10226f9a767SRodney W. Grimes #include <vm/vm_pageout.h> 103a136efe9SPeter Wemm #include <vm/vm_object.h> 104df8bae1dSRodney W. Grimes #include <vm/vm_kern.h> 105efeaf95aSDavid Greenman #include <vm/vm_extern.h> 106a136efe9SPeter Wemm #include <vm/vm_pager.h> 10792da00bbSMatthew Dillon #include <vm/swap_pager.h> 108efeaf95aSDavid Greenman 109b7627840SKonstantin Belousov #include <machine/cpu.h> 110b7627840SKonstantin Belousov 11143a90f3aSAlan Cox /* 11243a90f3aSAlan Cox * MPSAFE 1132d5c7e45SMatthew Dillon * 1142d5c7e45SMatthew Dillon * WARNING! This code calls vm_map_check_protection() which only checks 1152d5c7e45SMatthew Dillon * the associated vm_map_entry range. It does not determine whether the 1162d5c7e45SMatthew Dillon * contents of the memory is actually readable or writable. In most cases 1172d5c7e45SMatthew Dillon * just checking the vm_map_entry is sufficient within the kernel's address 1182d5c7e45SMatthew Dillon * space. 11943a90f3aSAlan Cox */ 120df8bae1dSRodney W. Grimes int 121d0389015SEd Maste kernacc(void *addr, int len, int rw) 122df8bae1dSRodney W. Grimes { 123df8bae1dSRodney W. Grimes boolean_t rv; 124df8bae1dSRodney W. Grimes vm_offset_t saddr, eaddr; 12502c58685SPoul-Henning Kamp vm_prot_t prot; 126df8bae1dSRodney W. Grimes 127e50f5c2eSBruce Evans KASSERT((rw & ~VM_PROT_ALL) == 0, 12802c58685SPoul-Henning Kamp ("illegal ``rw'' argument to kernacc (%x)\n", rw)); 12975337a56SAlan Cox 130f0165b1cSKonstantin Belousov if ((vm_offset_t)addr + len > vm_map_max(kernel_map) || 13175337a56SAlan Cox (vm_offset_t)addr + len < (vm_offset_t)addr) 13275337a56SAlan Cox return (FALSE); 13375337a56SAlan Cox 13402c58685SPoul-Henning Kamp prot = rw; 1356cde7a16SDavid Greenman saddr = trunc_page((vm_offset_t)addr); 1366cde7a16SDavid Greenman eaddr = round_page((vm_offset_t)addr + len); 137d8834602SAlan Cox vm_map_lock_read(kernel_map); 138df8bae1dSRodney W. Grimes rv = vm_map_check_protection(kernel_map, saddr, eaddr, prot); 139d8834602SAlan Cox vm_map_unlock_read(kernel_map); 140df8bae1dSRodney W. Grimes return (rv == TRUE); 141df8bae1dSRodney W. Grimes } 142df8bae1dSRodney W. Grimes 14343a90f3aSAlan Cox /* 14443a90f3aSAlan Cox * MPSAFE 1452d5c7e45SMatthew Dillon * 1462d5c7e45SMatthew Dillon * WARNING! This code calls vm_map_check_protection() which only checks 1472d5c7e45SMatthew Dillon * the associated vm_map_entry range. It does not determine whether the 1482d5c7e45SMatthew Dillon * contents of the memory is actually readable or writable. vmapbuf(), 1492d5c7e45SMatthew Dillon * vm_fault_quick(), or copyin()/copout()/su*()/fu*() functions should be 150763df3ecSPedro F. Giffuni * used in conjunction with this call. 15143a90f3aSAlan Cox */ 152df8bae1dSRodney W. Grimes int 153d0389015SEd Maste useracc(void *addr, int len, int rw) 154df8bae1dSRodney W. Grimes { 155df8bae1dSRodney W. Grimes boolean_t rv; 15602c58685SPoul-Henning Kamp vm_prot_t prot; 15705ba50f5SJake Burkholder vm_map_t map; 158df8bae1dSRodney W. Grimes 159e50f5c2eSBruce Evans KASSERT((rw & ~VM_PROT_ALL) == 0, 16002c58685SPoul-Henning Kamp ("illegal ``rw'' argument to useracc (%x)\n", rw)); 16102c58685SPoul-Henning Kamp prot = rw; 16205ba50f5SJake Burkholder map = &curproc->p_vmspace->vm_map; 16305ba50f5SJake Burkholder if ((vm_offset_t)addr + len > vm_map_max(map) || 16405ba50f5SJake Burkholder (vm_offset_t)addr + len < (vm_offset_t)addr) { 16526f9a767SRodney W. Grimes return (FALSE); 16626f9a767SRodney W. Grimes } 167d8834602SAlan Cox vm_map_lock_read(map); 16805ba50f5SJake Burkholder rv = vm_map_check_protection(map, trunc_page((vm_offset_t)addr), 16905ba50f5SJake Burkholder round_page((vm_offset_t)addr + len), prot); 170d8834602SAlan Cox vm_map_unlock_read(map); 171df8bae1dSRodney W. Grimes return (rv == TRUE); 172df8bae1dSRodney W. Grimes } 173df8bae1dSRodney W. Grimes 17416929939SDon Lewis int 175f0ea4612SDon Lewis vslock(void *addr, size_t len) 17616929939SDon Lewis { 177bb734798SDon Lewis vm_offset_t end, last, start; 178bb734798SDon Lewis vm_size_t npages; 179bb734798SDon Lewis int error; 18016929939SDon Lewis 181bb734798SDon Lewis last = (vm_offset_t)addr + len; 182ce8660e3SDon Lewis start = trunc_page((vm_offset_t)addr); 183bb734798SDon Lewis end = round_page(last); 184bb734798SDon Lewis if (last < (vm_offset_t)addr || end < (vm_offset_t)addr) 18516929939SDon Lewis return (EINVAL); 18616929939SDon Lewis npages = atop(end - start); 18754a3a114SMark Johnston if (npages > vm_page_max_user_wired) 18816929939SDon Lewis return (ENOMEM); 189ce8660e3SDon Lewis error = vm_map_wire(&curproc->p_vmspace->vm_map, start, end, 190d9b2500eSBrian Feldman VM_MAP_WIRE_SYSTEM | VM_MAP_WIRE_NOHOLES); 191ed9e8bc4SKonstantin Belousov if (error == KERN_SUCCESS) { 192ed9e8bc4SKonstantin Belousov curthread->td_vslock_sz += len; 193ed9e8bc4SKonstantin Belousov return (0); 194ed9e8bc4SKonstantin Belousov } 195ed9e8bc4SKonstantin Belousov 196ce8660e3SDon Lewis /* 197ce8660e3SDon Lewis * Return EFAULT on error to match copy{in,out}() behaviour 198ce8660e3SDon Lewis * rather than returning ENOMEM like mlock() would. 199ce8660e3SDon Lewis */ 200ed9e8bc4SKonstantin Belousov return (EFAULT); 20116929939SDon Lewis } 20216929939SDon Lewis 203ce8660e3SDon Lewis void 204f0ea4612SDon Lewis vsunlock(void *addr, size_t len) 20516929939SDon Lewis { 20616929939SDon Lewis 207ce8660e3SDon Lewis /* Rely on the parameter sanity checks performed by vslock(). */ 208ed9e8bc4SKonstantin Belousov MPASS(curthread->td_vslock_sz >= len); 209ed9e8bc4SKonstantin Belousov curthread->td_vslock_sz -= len; 210ce8660e3SDon Lewis (void)vm_map_unwire(&curproc->p_vmspace->vm_map, 211ce8660e3SDon Lewis trunc_page((vm_offset_t)addr), round_page((vm_offset_t)addr + len), 21216929939SDon Lewis VM_MAP_WIRE_SYSTEM | VM_MAP_WIRE_NOHOLES); 21316929939SDon Lewis } 21416929939SDon Lewis 215da61b9a6SAlan Cox /* 216da61b9a6SAlan Cox * Pin the page contained within the given object at the given offset. If the 217da61b9a6SAlan Cox * page is not resident, allocate and load it using the given object's pager. 218da61b9a6SAlan Cox * Return the pinned page if successful; otherwise, return NULL. 219da61b9a6SAlan Cox */ 220da61b9a6SAlan Cox static vm_page_t 221be996836SAttilio Rao vm_imgact_hold_page(vm_object_t object, vm_ooffset_t offset) 222da61b9a6SAlan Cox { 223093c7f39SGleb Smirnoff vm_page_t m; 224da61b9a6SAlan Cox vm_pindex_t pindex; 225da61b9a6SAlan Cox 226da61b9a6SAlan Cox pindex = OFF_TO_IDX(offset); 2277aaf252cSJeff Roberson (void)vm_page_grab_valid_unlocked(&m, object, pindex, 228c7575748SJeff Roberson VM_ALLOC_NORMAL | VM_ALLOC_NOBUSY | VM_ALLOC_WIRED); 229da61b9a6SAlan Cox return (m); 230da61b9a6SAlan Cox } 231da61b9a6SAlan Cox 232da61b9a6SAlan Cox /* 233da61b9a6SAlan Cox * Return a CPU private mapping to the page at the given offset within the 234da61b9a6SAlan Cox * given object. The page is pinned before it is mapped. 235da61b9a6SAlan Cox */ 236da61b9a6SAlan Cox struct sf_buf * 237da61b9a6SAlan Cox vm_imgact_map_page(vm_object_t object, vm_ooffset_t offset) 238da61b9a6SAlan Cox { 239da61b9a6SAlan Cox vm_page_t m; 240da61b9a6SAlan Cox 241be996836SAttilio Rao m = vm_imgact_hold_page(object, offset); 242da61b9a6SAlan Cox if (m == NULL) 243da61b9a6SAlan Cox return (NULL); 244da61b9a6SAlan Cox sched_pin(); 245da61b9a6SAlan Cox return (sf_buf_alloc(m, SFB_CPUPRIVATE)); 246da61b9a6SAlan Cox } 247da61b9a6SAlan Cox 248da61b9a6SAlan Cox /* 249da61b9a6SAlan Cox * Destroy the given CPU private mapping and unpin the page that it mapped. 250da61b9a6SAlan Cox */ 251da61b9a6SAlan Cox void 252be996836SAttilio Rao vm_imgact_unmap_page(struct sf_buf *sf) 253da61b9a6SAlan Cox { 254da61b9a6SAlan Cox vm_page_t m; 255da61b9a6SAlan Cox 256da61b9a6SAlan Cox m = sf_buf_page(sf); 257da61b9a6SAlan Cox sf_buf_free(sf); 258da61b9a6SAlan Cox sched_unpin(); 259eeacb3b0SMark Johnston vm_page_unwire(m, PQ_ACTIVE); 260da61b9a6SAlan Cox } 261da61b9a6SAlan Cox 2621a4fcaebSMarcel Moolenaar void 2631a4fcaebSMarcel Moolenaar vm_sync_icache(vm_map_t map, vm_offset_t va, vm_offset_t sz) 2641a4fcaebSMarcel Moolenaar { 2651a4fcaebSMarcel Moolenaar 2661a4fcaebSMarcel Moolenaar pmap_sync_icache(map->pmap, va, sz); 2671a4fcaebSMarcel Moolenaar } 2681a4fcaebSMarcel Moolenaar 269f13fa9dfSMark Johnston vm_object_t kstack_object; 2700b26119bSJeff Roberson static uma_zone_t kstack_cache; 271003cf08bSMark Johnston static int kstack_cache_size; 27225c1e164SAndre Oppermann 2730b26119bSJeff Roberson static int 2740b26119bSJeff Roberson sysctl_kstack_cache_size(SYSCTL_HANDLER_ARGS) 2750b26119bSJeff Roberson { 27691caa9b8SMateusz Guzik int error, oldsize; 2770b26119bSJeff Roberson 27891caa9b8SMateusz Guzik oldsize = kstack_cache_size; 27991caa9b8SMateusz Guzik error = sysctl_handle_int(oidp, arg1, arg2, req); 28091caa9b8SMateusz Guzik if (error == 0 && req->newptr && oldsize != kstack_cache_size) 28191caa9b8SMateusz Guzik uma_zone_set_maxcache(kstack_cache, kstack_cache_size); 2820b26119bSJeff Roberson return (error); 2830b26119bSJeff Roberson } 284a314aba8SMateusz Guzik SYSCTL_PROC(_vm, OID_AUTO, kstack_cache_size, 285a314aba8SMateusz Guzik CTLTYPE_INT|CTLFLAG_MPSAFE|CTLFLAG_RW, &kstack_cache_size, 0, 286a314aba8SMateusz Guzik sysctl_kstack_cache_size, "IU", "Maximum number of cached kernel stacks"); 2878a945d10SKonstantin Belousov 28849a2507bSAlan Cox /* 28949a2507bSAlan Cox * Create the kernel stack (including pcb for i386) for a new thread. 29049a2507bSAlan Cox */ 2910b26119bSJeff Roberson static vm_offset_t 292f13fa9dfSMark Johnston vm_thread_stack_create(struct domainset *ds, int pages) 29349a2507bSAlan Cox { 2940b26119bSJeff Roberson vm_page_t ma[KSTACK_MAX_PAGES]; 29549a2507bSAlan Cox vm_offset_t ks; 29649a2507bSAlan Cox int i; 29749a2507bSAlan Cox 29849a2507bSAlan Cox /* 29949a2507bSAlan Cox * Get a kernel virtual address for this thread's kstack. 30049a2507bSAlan Cox */ 301ca596a25SJuli Mallett #if defined(__mips__) 302ca596a25SJuli Mallett /* 303ca596a25SJuli Mallett * We need to align the kstack's mapped address to fit within 304ca596a25SJuli Mallett * a single TLB entry. 305ca596a25SJuli Mallett */ 3065df87b21SJeff Roberson if (vmem_xalloc(kernel_arena, (pages + KSTACK_GUARD_PAGES) * PAGE_SIZE, 3075df87b21SJeff Roberson PAGE_SIZE * 2, 0, 0, VMEM_ADDR_MIN, VMEM_ADDR_MAX, 3085df87b21SJeff Roberson M_BESTFIT | M_NOWAIT, &ks)) { 3095df87b21SJeff Roberson ks = 0; 3105df87b21SJeff Roberson } 311ca596a25SJuli Mallett #else 3125df87b21SJeff Roberson ks = kva_alloc((pages + KSTACK_GUARD_PAGES) * PAGE_SIZE); 313ca596a25SJuli Mallett #endif 31489b57fcfSKonstantin Belousov if (ks == 0) { 3154a9c211aSAllan Jude printf("%s: kstack allocation failed\n", __func__); 31689b57fcfSKonstantin Belousov return (0); 31789b57fcfSKonstantin Belousov } 318b0058196SMark Johnston 31949a2507bSAlan Cox if (KSTACK_GUARD_PAGES != 0) { 32049a2507bSAlan Cox pmap_qremove(ks, KSTACK_GUARD_PAGES); 32149a2507bSAlan Cox ks += KSTACK_GUARD_PAGES * PAGE_SIZE; 32249a2507bSAlan Cox } 3230b26119bSJeff Roberson 32449a2507bSAlan Cox /* 325f13fa9dfSMark Johnston * Allocate physical pages to back the stack. 32649a2507bSAlan Cox */ 327f13fa9dfSMark Johnston vm_thread_stack_back(ds, ks, ma, pages, VM_ALLOC_NORMAL); 328e9ceb9ddSJeff Roberson for (i = 0; i < pages; i++) 32991e31c3cSJeff Roberson vm_page_valid(ma[i]); 33049a2507bSAlan Cox pmap_qenter(ks, ma, pages); 3310b26119bSJeff Roberson 3320b26119bSJeff Roberson return (ks); 33349a2507bSAlan Cox } 33449a2507bSAlan Cox 3358a945d10SKonstantin Belousov static void 336f13fa9dfSMark Johnston vm_thread_stack_dispose(vm_offset_t ks, int pages) 33749a2507bSAlan Cox { 33849a2507bSAlan Cox vm_page_t m; 339f13fa9dfSMark Johnston vm_pindex_t pindex; 3408a945d10SKonstantin Belousov int i; 34149a2507bSAlan Cox 342f13fa9dfSMark Johnston pindex = atop(ks - VM_MIN_KERNEL_ADDRESS); 343f13fa9dfSMark Johnston 34449a2507bSAlan Cox pmap_qremove(ks, pages); 345f13fa9dfSMark Johnston VM_OBJECT_WLOCK(kstack_object); 34649a2507bSAlan Cox for (i = 0; i < pages; i++) { 347f13fa9dfSMark Johnston m = vm_page_lookup(kstack_object, pindex + i); 34849a2507bSAlan Cox if (m == NULL) 3494a9c211aSAllan Jude panic("%s: kstack already missing?", __func__); 350e9ceb9ddSJeff Roberson vm_page_xbusy_claim(m); 35188ea538aSMark Johnston vm_page_unwire_noq(m); 35249a2507bSAlan Cox vm_page_free(m); 35349a2507bSAlan Cox } 354f13fa9dfSMark Johnston VM_OBJECT_WUNLOCK(kstack_object); 355244f3ec6SMark Johnston kasan_mark((void *)ks, ptoa(pages), ptoa(pages), 0); 3565df87b21SJeff Roberson kva_free(ks - (KSTACK_GUARD_PAGES * PAGE_SIZE), 35749a2507bSAlan Cox (pages + KSTACK_GUARD_PAGES) * PAGE_SIZE); 358c3cf0b47SKonstantin Belousov } 359c3cf0b47SKonstantin Belousov 360c3cf0b47SKonstantin Belousov /* 3610b26119bSJeff Roberson * Allocate the kernel stack for a new thread. 3620b26119bSJeff Roberson */ 3630b26119bSJeff Roberson int 3640b26119bSJeff Roberson vm_thread_new(struct thread *td, int pages) 3650b26119bSJeff Roberson { 3660b26119bSJeff Roberson vm_offset_t ks; 3670b26119bSJeff Roberson 3680b26119bSJeff Roberson /* Bounds check */ 3690b26119bSJeff Roberson if (pages <= 1) 3700b26119bSJeff Roberson pages = kstack_pages; 3710b26119bSJeff Roberson else if (pages > KSTACK_MAX_PAGES) 3720b26119bSJeff Roberson pages = KSTACK_MAX_PAGES; 3730b26119bSJeff Roberson 3740b26119bSJeff Roberson ks = 0; 375f13fa9dfSMark Johnston if (pages == kstack_pages && kstack_cache != NULL) 3760b26119bSJeff Roberson ks = (vm_offset_t)uma_zalloc(kstack_cache, M_NOWAIT); 3770b26119bSJeff Roberson 3780b26119bSJeff Roberson /* 3790b26119bSJeff Roberson * Ensure that kstack objects can draw pages from any memory 3800b26119bSJeff Roberson * domain. Otherwise a local memory shortage can block a process 3810b26119bSJeff Roberson * swap-in. 3820b26119bSJeff Roberson */ 3830b26119bSJeff Roberson if (ks == 0) 3840b26119bSJeff Roberson ks = vm_thread_stack_create(DOMAINSET_PREF(PCPU_GET(domain)), 385f13fa9dfSMark Johnston pages); 3860b26119bSJeff Roberson if (ks == 0) 3870b26119bSJeff Roberson return (0); 3880b26119bSJeff Roberson td->td_kstack = ks; 3890b26119bSJeff Roberson td->td_kstack_pages = pages; 390244f3ec6SMark Johnston kasan_mark((void *)ks, ptoa(pages), ptoa(pages), 0); 39110094910SMark Johnston kmsan_mark((void *)ks, ptoa(pages), KMSAN_STATE_UNINIT); 3920b26119bSJeff Roberson return (1); 3930b26119bSJeff Roberson } 3940b26119bSJeff Roberson 3950b26119bSJeff Roberson /* 3968a945d10SKonstantin Belousov * Dispose of a thread's kernel stack. 3978a945d10SKonstantin Belousov */ 3988a945d10SKonstantin Belousov void 3998a945d10SKonstantin Belousov vm_thread_dispose(struct thread *td) 4008a945d10SKonstantin Belousov { 4018a945d10SKonstantin Belousov vm_offset_t ks; 4028a945d10SKonstantin Belousov int pages; 4038a945d10SKonstantin Belousov 4048a945d10SKonstantin Belousov pages = td->td_kstack_pages; 4058a945d10SKonstantin Belousov ks = td->td_kstack; 4068a945d10SKonstantin Belousov td->td_kstack = 0; 4078a945d10SKonstantin Belousov td->td_kstack_pages = 0; 408244f3ec6SMark Johnston kasan_mark((void *)ks, 0, ptoa(pages), KASAN_KSTACK_FREED); 4090b26119bSJeff Roberson if (pages == kstack_pages) 4100b26119bSJeff Roberson uma_zfree(kstack_cache, (void *)ks); 4110b26119bSJeff Roberson else 412f13fa9dfSMark Johnston vm_thread_stack_dispose(ks, pages); 413f13fa9dfSMark Johnston } 414f13fa9dfSMark Johnston 415f13fa9dfSMark Johnston /* 416f13fa9dfSMark Johnston * Allocate physical pages, following the specified NUMA policy, to back a 417f13fa9dfSMark Johnston * kernel stack. 418f13fa9dfSMark Johnston */ 419f13fa9dfSMark Johnston void 420f13fa9dfSMark Johnston vm_thread_stack_back(struct domainset *ds, vm_offset_t ks, vm_page_t ma[], 421f13fa9dfSMark Johnston int npages, int req_class) 422f13fa9dfSMark Johnston { 423f13fa9dfSMark Johnston vm_pindex_t pindex; 424f13fa9dfSMark Johnston int n; 425f13fa9dfSMark Johnston 426f13fa9dfSMark Johnston pindex = atop(ks - VM_MIN_KERNEL_ADDRESS); 427f13fa9dfSMark Johnston 428f13fa9dfSMark Johnston VM_OBJECT_WLOCK(kstack_object); 429f13fa9dfSMark Johnston for (n = 0; n < npages;) { 430f13fa9dfSMark Johnston if (vm_ndomains > 1) 431f13fa9dfSMark Johnston kstack_object->domain.dr_policy = ds; 432f13fa9dfSMark Johnston 433f13fa9dfSMark Johnston /* 434f13fa9dfSMark Johnston * Use WAITFAIL to force a reset of the domain selection policy 435f13fa9dfSMark Johnston * if we had to sleep for pages. 436f13fa9dfSMark Johnston */ 437f13fa9dfSMark Johnston n += vm_page_grab_pages(kstack_object, pindex + n, 438f13fa9dfSMark Johnston req_class | VM_ALLOC_WIRED | VM_ALLOC_WAITFAIL, 439f13fa9dfSMark Johnston &ma[n], npages - n); 440f13fa9dfSMark Johnston } 441f13fa9dfSMark Johnston VM_OBJECT_WUNLOCK(kstack_object); 4428a945d10SKonstantin Belousov } 4438a945d10SKonstantin Belousov 4440b26119bSJeff Roberson static int 4450b26119bSJeff Roberson kstack_import(void *arg, void **store, int cnt, int domain, int flags) 4468a945d10SKonstantin Belousov { 447b48d4efeSMark Johnston struct domainset *ds; 4480b26119bSJeff Roberson int i; 4498a945d10SKonstantin Belousov 450b48d4efeSMark Johnston if (domain == UMA_ANYDOMAIN) 451b48d4efeSMark Johnston ds = DOMAINSET_RR(); 452b48d4efeSMark Johnston else 453b48d4efeSMark Johnston ds = DOMAINSET_PREF(domain); 454b48d4efeSMark Johnston 4550b26119bSJeff Roberson for (i = 0; i < cnt; i++) { 456f13fa9dfSMark Johnston store[i] = (void *)vm_thread_stack_create(ds, kstack_pages); 4570b26119bSJeff Roberson if (store[i] == NULL) 4580b26119bSJeff Roberson break; 4590b26119bSJeff Roberson } 4600b26119bSJeff Roberson return (i); 4610b26119bSJeff Roberson } 4628a945d10SKonstantin Belousov 4630b26119bSJeff Roberson static void 4640b26119bSJeff Roberson kstack_release(void *arg, void **store, int cnt) 4650b26119bSJeff Roberson { 4660b26119bSJeff Roberson vm_offset_t ks; 4670b26119bSJeff Roberson int i; 4688a945d10SKonstantin Belousov 4690b26119bSJeff Roberson for (i = 0; i < cnt; i++) { 4700b26119bSJeff Roberson ks = (vm_offset_t)store[i]; 471f13fa9dfSMark Johnston vm_thread_stack_dispose(ks, kstack_pages); 4728a945d10SKonstantin Belousov } 4738a945d10SKonstantin Belousov } 4748a945d10SKonstantin Belousov 4758a945d10SKonstantin Belousov static void 4760b26119bSJeff Roberson kstack_cache_init(void *null) 4778a945d10SKonstantin Belousov { 478f13fa9dfSMark Johnston kstack_object = vm_object_allocate(OBJT_SWAP, 479f13fa9dfSMark Johnston atop(VM_MAX_KERNEL_ADDRESS - VM_MIN_KERNEL_ADDRESS)); 4800b26119bSJeff Roberson kstack_cache = uma_zcache_create("kstack_cache", 4810b26119bSJeff Roberson kstack_pages * PAGE_SIZE, NULL, NULL, NULL, NULL, 4820b26119bSJeff Roberson kstack_import, kstack_release, NULL, 483dfe13344SJeff Roberson UMA_ZONE_FIRSTTOUCH); 484003cf08bSMark Johnston kstack_cache_size = imax(128, mp_ncpus * 4); 4850b26119bSJeff Roberson uma_zone_set_maxcache(kstack_cache, kstack_cache_size); 4868a945d10SKonstantin Belousov } 487f13fa9dfSMark Johnston SYSINIT(vm_kstacks, SI_SUB_KMEM, SI_ORDER_ANY, kstack_cache_init, NULL); 4888a945d10SKonstantin Belousov 489b7627840SKonstantin Belousov #ifdef KSTACK_USAGE_PROF 490b7627840SKonstantin Belousov /* 491b7627840SKonstantin Belousov * Track maximum stack used by a thread in kernel. 492b7627840SKonstantin Belousov */ 493b7627840SKonstantin Belousov static int max_kstack_used; 494b7627840SKonstantin Belousov 495b7627840SKonstantin Belousov SYSCTL_INT(_debug, OID_AUTO, max_kstack_used, CTLFLAG_RD, 496b7627840SKonstantin Belousov &max_kstack_used, 0, 497*c28e39c3SGordon Bergling "Maximum stack depth used by a thread in kernel"); 498b7627840SKonstantin Belousov 499b7627840SKonstantin Belousov void 500b7627840SKonstantin Belousov intr_prof_stack_use(struct thread *td, struct trapframe *frame) 501b7627840SKonstantin Belousov { 502b7627840SKonstantin Belousov vm_offset_t stack_top; 503b7627840SKonstantin Belousov vm_offset_t current; 504b7627840SKonstantin Belousov int used, prev_used; 505b7627840SKonstantin Belousov 506b7627840SKonstantin Belousov /* 507b7627840SKonstantin Belousov * Testing for interrupted kernel mode isn't strictly 508b7627840SKonstantin Belousov * needed. It optimizes the execution, since interrupts from 509b7627840SKonstantin Belousov * usermode will have only the trap frame on the stack. 510b7627840SKonstantin Belousov */ 511b7627840SKonstantin Belousov if (TRAPF_USERMODE(frame)) 512b7627840SKonstantin Belousov return; 513b7627840SKonstantin Belousov 514b7627840SKonstantin Belousov stack_top = td->td_kstack + td->td_kstack_pages * PAGE_SIZE; 515b7627840SKonstantin Belousov current = (vm_offset_t)(uintptr_t)&stack_top; 516b7627840SKonstantin Belousov 517b7627840SKonstantin Belousov /* 518b7627840SKonstantin Belousov * Try to detect if interrupt is using kernel thread stack. 519b7627840SKonstantin Belousov * Hardware could use a dedicated stack for interrupt handling. 520b7627840SKonstantin Belousov */ 521b7627840SKonstantin Belousov if (stack_top <= current || current < td->td_kstack) 522b7627840SKonstantin Belousov return; 523b7627840SKonstantin Belousov 524b7627840SKonstantin Belousov used = stack_top - current; 525b7627840SKonstantin Belousov for (;;) { 526b7627840SKonstantin Belousov prev_used = max_kstack_used; 527b7627840SKonstantin Belousov if (prev_used >= used) 528b7627840SKonstantin Belousov break; 529b7627840SKonstantin Belousov if (atomic_cmpset_int(&max_kstack_used, prev_used, used)) 530b7627840SKonstantin Belousov break; 531b7627840SKonstantin Belousov } 532b7627840SKonstantin Belousov } 533b7627840SKonstantin Belousov #endif /* KSTACK_USAGE_PROF */ 534b7627840SKonstantin Belousov 535a136efe9SPeter Wemm /* 536df8bae1dSRodney W. Grimes * Implement fork's actions on an address space. 537df8bae1dSRodney W. Grimes * Here we arrange for the address space to be copied or referenced, 538df8bae1dSRodney W. Grimes * allocate a user struct (pcb and kernel stack), then call the 539df8bae1dSRodney W. Grimes * machine-dependent layer to fill those in and make the new process 540a2a1c95cSPeter Wemm * ready to run. The new process is set up so that it returns directly 541a2a1c95cSPeter Wemm * to user mode to avoid stack copying and relocation problems. 542df8bae1dSRodney W. Grimes */ 54389b57fcfSKonstantin Belousov int 544d0389015SEd Maste vm_forkproc(struct thread *td, struct proc *p2, struct thread *td2, 545d0389015SEd Maste struct vmspace *vm2, int flags) 546df8bae1dSRodney W. Grimes { 547b40ce416SJulian Elischer struct proc *p1 = td->td_proc; 54823984ce5SMark Johnston struct domainset *dset; 54989b57fcfSKonstantin Belousov int error; 550df8bae1dSRodney W. Grimes 55191c28bfdSLuoqi Chen if ((flags & RFPROC) == 0) { 55291c28bfdSLuoqi Chen /* 55391c28bfdSLuoqi Chen * Divorce the memory, if it is shared, essentially 55491c28bfdSLuoqi Chen * this changes shared memory amongst threads, into 55591c28bfdSLuoqi Chen * COW locally. 55691c28bfdSLuoqi Chen */ 55791c28bfdSLuoqi Chen if ((flags & RFMEM) == 0) { 55889b57fcfSKonstantin Belousov error = vmspace_unshare(p1); 55989b57fcfSKonstantin Belousov if (error) 56089b57fcfSKonstantin Belousov return (error); 56191c28bfdSLuoqi Chen } 562079b7badSJulian Elischer cpu_fork(td, p2, td2, flags); 56389b57fcfSKonstantin Belousov return (0); 56491c28bfdSLuoqi Chen } 56591c28bfdSLuoqi Chen 5665856e12eSJohn Dyson if (flags & RFMEM) { 5675856e12eSJohn Dyson p2->p_vmspace = p1->p_vmspace; 568f7db0c95SMark Johnston refcount_acquire(&p1->p_vmspace->vm_refcnt); 5695856e12eSJohn Dyson } 57023984ce5SMark Johnston dset = td2->td_domain.dr_policy; 57123984ce5SMark Johnston while (vm_page_count_severe_set(&dset->ds_mask)) { 57289d2fb14SKonstantin Belousov vm_wait_doms(&dset->ds_mask, 0); 5730d94caffSDavid Greenman } 57426f9a767SRodney W. Grimes 5755856e12eSJohn Dyson if ((flags & RFMEM) == 0) { 57689b57fcfSKonstantin Belousov p2->p_vmspace = vm2; 577df8bae1dSRodney W. Grimes if (p1->p_vmspace->vm_shm) 578dabee6feSPeter Wemm shmfork(p1, p2); 579a2a1c95cSPeter Wemm } 580df8bae1dSRodney W. Grimes 58139fb8e6bSJulian Elischer /* 582a2a1c95cSPeter Wemm * cpu_fork will copy and update the pcb, set up the kernel stack, 583a2a1c95cSPeter Wemm * and make the child ready to run. 584df8bae1dSRodney W. Grimes */ 585079b7badSJulian Elischer cpu_fork(td, p2, td2, flags); 58689b57fcfSKonstantin Belousov return (0); 587df8bae1dSRodney W. Grimes } 588df8bae1dSRodney W. Grimes 589df8bae1dSRodney W. Grimes /* 590763df3ecSPedro F. Giffuni * Called after process has been wait(2)'ed upon and is being reaped. 591eb30c1c0SPeter Wemm * The idea is to reclaim resources that we could not reclaim while 592eb30c1c0SPeter Wemm * the process was still executing. 593eb30c1c0SPeter Wemm */ 594eb30c1c0SPeter Wemm void 595eb30c1c0SPeter Wemm vm_waitproc(p) 596eb30c1c0SPeter Wemm struct proc *p; 597eb30c1c0SPeter Wemm { 598eb30c1c0SPeter Wemm 599582ec34cSAlfred Perlstein vmspace_exitfree(p); /* and clean-out the vmspace */ 600eb30c1c0SPeter Wemm } 601eb30c1c0SPeter Wemm 60226f9a767SRodney W. Grimes void 603da7bbd2cSJohn Baldwin kick_proc0(void) 604d13ec713SStephan Uphoff { 605d13ec713SStephan Uphoff 606da7bbd2cSJohn Baldwin wakeup(&proc0); 607d13ec713SStephan Uphoff } 608