1ad4240feSJulian Elischer /*- 2*51369649SPedro F. Giffuni * SPDX-License-Identifier: BSD-3-Clause 3*51369649SPedro F. Giffuni * 4ad4240feSJulian Elischer * Copyright (c) 1986, 1988, 1991, 1993 5ad4240feSJulian Elischer * The Regents of the University of California. All rights reserved. 6ad4240feSJulian Elischer * (c) UNIX System Laboratories, Inc. 7ad4240feSJulian Elischer * All or some portions of this file are derived from material licensed 8ad4240feSJulian Elischer * to the University of California by American Telephone and Telegraph 9ad4240feSJulian Elischer * Co. or Unix System Laboratories, Inc. and are reproduced herein with 10ad4240feSJulian Elischer * the permission of UNIX System Laboratories, Inc. 11ad4240feSJulian Elischer * 12ad4240feSJulian Elischer * Redistribution and use in source and binary forms, with or without 13ad4240feSJulian Elischer * modification, are permitted provided that the following conditions 14ad4240feSJulian Elischer * are met: 15ad4240feSJulian Elischer * 1. Redistributions of source code must retain the above copyright 16ad4240feSJulian Elischer * notice, this list of conditions and the following disclaimer. 17ad4240feSJulian Elischer * 2. Redistributions in binary form must reproduce the above copyright 18ad4240feSJulian Elischer * notice, this list of conditions and the following disclaimer in the 19ad4240feSJulian Elischer * documentation and/or other materials provided with the distribution. 2069a28758SEd Maste * 3. Neither the name of the University nor the names of its contributors 21ad4240feSJulian Elischer * may be used to endorse or promote products derived from this software 22ad4240feSJulian Elischer * without specific prior written permission. 23ad4240feSJulian Elischer * 24ad4240feSJulian Elischer * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 25ad4240feSJulian Elischer * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 26ad4240feSJulian Elischer * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 27ad4240feSJulian Elischer * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 28ad4240feSJulian Elischer * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 29ad4240feSJulian Elischer * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 30ad4240feSJulian Elischer * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 31ad4240feSJulian Elischer * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 32ad4240feSJulian Elischer * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 33ad4240feSJulian Elischer * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 34ad4240feSJulian Elischer * SUCH DAMAGE. 35ad4240feSJulian Elischer * 36ad4240feSJulian Elischer * @(#)kern_shutdown.c 8.3 (Berkeley) 1/21/94 37ad4240feSJulian Elischer */ 38ad4240feSJulian Elischer 39677b542eSDavid E. O'Brien #include <sys/cdefs.h> 40677b542eSDavid E. O'Brien __FBSDID("$FreeBSD$"); 41677b542eSDavid E. O'Brien 42618c7db3SRobert Watson #include "opt_ddb.h" 43480f31c2SKonrad Witaszczyk #include "opt_ekcd.h" 4464a16434SMark Johnston #include "opt_gzio.h" 452d50560aSMarcel Moolenaar #include "opt_kdb.h" 466d58e6cbSBruce Evans #include "opt_panic.h" 479923b511SScott Long #include "opt_sched.h" 482be767e0SAttilio Rao #include "opt_watchdog.h" 49ad4240feSJulian Elischer 50ad4240feSJulian Elischer #include <sys/param.h> 51ad4240feSJulian Elischer #include <sys/systm.h> 529626b608SPoul-Henning Kamp #include <sys/bio.h> 53fc8f7066SBruce Evans #include <sys/buf.h> 541d79f1bbSJohn Baldwin #include <sys/conf.h> 551d79f1bbSJohn Baldwin #include <sys/cons.h> 561d79f1bbSJohn Baldwin #include <sys/eventhandler.h> 570d3d0cc3SEdward Tomasz Napierala #include <sys/filedesc.h> 5864a16434SMark Johnston #include <sys/gzio.h> 5976ca6f88SJamie Gritton #include <sys/jail.h> 602d50560aSMarcel Moolenaar #include <sys/kdb.h> 61ad4240feSJulian Elischer #include <sys/kernel.h> 62e6592ee5SPeter Wemm #include <sys/kerneldump.h> 635e950839SLuoqi Chen #include <sys/kthread.h> 643945a964SAlfred Perlstein #include <sys/ktr.h> 65dcd7d9b7SMaxim Sobolev #include <sys/malloc.h> 66ac0ad63fSBruce Evans #include <sys/mount.h> 67acd3428bSRobert Watson #include <sys/priv.h> 681d79f1bbSJohn Baldwin #include <sys/proc.h> 691d79f1bbSJohn Baldwin #include <sys/reboot.h> 701d79f1bbSJohn Baldwin #include <sys/resourcevar.h> 7189f6b863SAttilio Rao #include <sys/rwlock.h> 7220e25d7dSPeter Wemm #include <sys/sched.h> 73248bb937SAttilio Rao #include <sys/smp.h> 74ad4240feSJulian Elischer #include <sys/sysctl.h> 75ad4240feSJulian Elischer #include <sys/sysproto.h> 76fa2b39a1SAttilio Rao #include <sys/vnode.h> 772be767e0SAttilio Rao #include <sys/watchdog.h> 78ad4240feSJulian Elischer 79480f31c2SKonrad Witaszczyk #include <crypto/rijndael/rijndael-api-fst.h> 80480f31c2SKonrad Witaszczyk #include <crypto/sha2/sha256.h> 81480f31c2SKonrad Witaszczyk 82618c7db3SRobert Watson #include <ddb/ddb.h> 83618c7db3SRobert Watson 8426502503SMarcel Moolenaar #include <machine/cpu.h> 85bdb9ab0dSMark Johnston #include <machine/dump.h> 86d39e457bSPoul-Henning Kamp #include <machine/pcb.h> 87752dff3dSJake Burkholder #include <machine/smp.h> 88ad4240feSJulian Elischer 89aed55708SRobert Watson #include <security/mac/mac_framework.h> 90aed55708SRobert Watson 910909f38aSPawel Jakub Dawidek #include <vm/vm.h> 920909f38aSPawel Jakub Dawidek #include <vm/vm_object.h> 930909f38aSPawel Jakub Dawidek #include <vm/vm_page.h> 940909f38aSPawel Jakub Dawidek #include <vm/vm_pager.h> 950909f38aSPawel Jakub Dawidek #include <vm/swap_pager.h> 960909f38aSPawel Jakub Dawidek 97ad4240feSJulian Elischer #include <sys/signalvar.h> 98ad4240feSJulian Elischer 995dc5dab6SConrad Meyer static MALLOC_DEFINE(M_DUMPER, "dumper", "dumper block buffer"); 1005dc5dab6SConrad Meyer 101ad4240feSJulian Elischer #ifndef PANIC_REBOOT_WAIT_TIME 102ad4240feSJulian Elischer #define PANIC_REBOOT_WAIT_TIME 15 /* default to 15 seconds */ 103ad4240feSJulian Elischer #endif 1043b251028SColin Percival static int panic_reboot_wait_time = PANIC_REBOOT_WAIT_TIME; 105af3b2549SHans Petter Selasky SYSCTL_INT(_kern, OID_AUTO, panic_reboot_wait_time, CTLFLAG_RWTUN, 1061cdbb9edSColin Percival &panic_reboot_wait_time, 0, 1071cdbb9edSColin Percival "Seconds to wait before rebooting after a panic"); 108ad4240feSJulian Elischer 109ad4240feSJulian Elischer /* 110ad4240feSJulian Elischer * Note that stdarg.h and the ANSI style va_start macro is used for both 111ad4240feSJulian Elischer * ANSI and traditional C compilers. 112ad4240feSJulian Elischer */ 113ad4240feSJulian Elischer #include <machine/stdarg.h> 114ad4240feSJulian Elischer 1152d50560aSMarcel Moolenaar #ifdef KDB 1162d50560aSMarcel Moolenaar #ifdef KDB_UNATTENDED 1179959b1a8SMike Smith int debugger_on_panic = 0; 118ad4240feSJulian Elischer #else 1199959b1a8SMike Smith int debugger_on_panic = 1; 120ad4240feSJulian Elischer #endif 1213d7618d8SDavid E. O'Brien SYSCTL_INT(_debug, OID_AUTO, debugger_on_panic, 122af3b2549SHans Petter Selasky CTLFLAG_RWTUN | CTLFLAG_SECURE, 1231c5151f3SDavid E. O'Brien &debugger_on_panic, 0, "Run debugger on kernel panic"); 124e485b64bSJohn Baldwin 1252d50560aSMarcel Moolenaar #ifdef KDB_TRACE 12608a9c205SAndriy Gapon static int trace_on_panic = 1; 127e485b64bSJohn Baldwin #else 12808a9c205SAndriy Gapon static int trace_on_panic = 0; 129e485b64bSJohn Baldwin #endif 1303d7618d8SDavid E. O'Brien SYSCTL_INT(_debug, OID_AUTO, trace_on_panic, 131af3b2549SHans Petter Selasky CTLFLAG_RWTUN | CTLFLAG_SECURE, 1321c5151f3SDavid E. O'Brien &trace_on_panic, 0, "Print stack trace on kernel panic"); 1332d50560aSMarcel Moolenaar #endif /* KDB */ 134ad4240feSJulian Elischer 13508a9c205SAndriy Gapon static int sync_on_panic = 0; 136af3b2549SHans Petter Selasky SYSCTL_INT(_kern, OID_AUTO, sync_on_panic, CTLFLAG_RWTUN, 137259ed917SPeter Wemm &sync_on_panic, 0, "Do a sync before rebooting from a panic"); 138259ed917SPeter Wemm 13948f1a492SWarner Losh static bool poweroff_on_panic = 0; 14048f1a492SWarner Losh SYSCTL_BOOL(_kern, OID_AUTO, poweroff_on_panic, CTLFLAG_RWTUN, 14148f1a492SWarner Losh &poweroff_on_panic, 0, "Do a power off instead of a reboot on a panic"); 14248f1a492SWarner Losh 14348f1a492SWarner Losh static bool powercycle_on_panic = 0; 14448f1a492SWarner Losh SYSCTL_BOOL(_kern, OID_AUTO, powercycle_on_panic, CTLFLAG_RWTUN, 14548f1a492SWarner Losh &powercycle_on_panic, 0, "Do a power cycle instead of a reboot on a panic"); 14648f1a492SWarner Losh 1476472ac3dSEd Schouten static SYSCTL_NODE(_kern, OID_AUTO, shutdown, CTLFLAG_RW, 0, 1486472ac3dSEd Schouten "Shutdown environment"); 149db82a982SMike Smith 150fa2b39a1SAttilio Rao #ifndef DIAGNOSTIC 151fa2b39a1SAttilio Rao static int show_busybufs; 152fa2b39a1SAttilio Rao #else 153fa2b39a1SAttilio Rao static int show_busybufs = 1; 154fa2b39a1SAttilio Rao #endif 155fa2b39a1SAttilio Rao SYSCTL_INT(_kern_shutdown, OID_AUTO, show_busybufs, CTLFLAG_RW, 156fa2b39a1SAttilio Rao &show_busybufs, 0, ""); 157fa2b39a1SAttilio Rao 1582eb0015aSColin Percival int suspend_blocked = 0; 1592eb0015aSColin Percival SYSCTL_INT(_kern, OID_AUTO, suspend_blocked, CTLFLAG_RW, 1602eb0015aSColin Percival &suspend_blocked, 0, "Block suspend due to a pending shutdown"); 1612eb0015aSColin Percival 162480f31c2SKonrad Witaszczyk #ifdef EKCD 163480f31c2SKonrad Witaszczyk FEATURE(ekcd, "Encrypted kernel crash dumps support"); 164480f31c2SKonrad Witaszczyk 165480f31c2SKonrad Witaszczyk MALLOC_DEFINE(M_EKCD, "ekcd", "Encrypted kernel crash dumps data"); 166480f31c2SKonrad Witaszczyk 167480f31c2SKonrad Witaszczyk struct kerneldumpcrypto { 168480f31c2SKonrad Witaszczyk uint8_t kdc_encryption; 169480f31c2SKonrad Witaszczyk uint8_t kdc_iv[KERNELDUMP_IV_MAX_SIZE]; 170480f31c2SKonrad Witaszczyk keyInstance kdc_ki; 171480f31c2SKonrad Witaszczyk cipherInstance kdc_ci; 172480f31c2SKonrad Witaszczyk uint32_t kdc_dumpkeysize; 173480f31c2SKonrad Witaszczyk struct kerneldumpkey kdc_dumpkey[]; 174480f31c2SKonrad Witaszczyk }; 175480f31c2SKonrad Witaszczyk #endif 176480f31c2SKonrad Witaszczyk 17764a16434SMark Johnston #ifdef GZIO 17864a16434SMark Johnston struct kerneldumpgz { 17964a16434SMark Johnston struct gzio_stream *kdgz_stream; 18064a16434SMark Johnston uint8_t *kdgz_buf; 18164a16434SMark Johnston size_t kdgz_resid; 18264a16434SMark Johnston }; 18364a16434SMark Johnston 18464a16434SMark Johnston static struct kerneldumpgz *kerneldumpgz_create(struct dumperinfo *di, 18564a16434SMark Johnston uint8_t compression); 18664a16434SMark Johnston static void kerneldumpgz_destroy(struct dumperinfo *di); 18764a16434SMark Johnston static int kerneldumpgz_write_cb(void *cb, size_t len, off_t off, void *arg); 18864a16434SMark Johnston 18964a16434SMark Johnston static int kerneldump_gzlevel = 6; 19064a16434SMark Johnston SYSCTL_INT(_kern, OID_AUTO, kerneldump_gzlevel, CTLFLAG_RWTUN, 19164a16434SMark Johnston &kerneldump_gzlevel, 0, 19264a16434SMark Johnston "Kernel crash dump gzip compression level"); 19364a16434SMark Johnston #endif /* GZIO */ 19464a16434SMark Johnston 1955230cfd2SJulian Elischer /* 196ad4240feSJulian Elischer * Variable panicstr contains argument to first call to panic; used as flag 197ad4240feSJulian Elischer * to indicate that the kernel has already called panic. 198ad4240feSJulian Elischer */ 199ad4240feSJulian Elischer const char *panicstr; 200ad4240feSJulian Elischer 20116a011f9SPaul Saab int dumping; /* system is dumping */ 20236a52c3cSJeff Roberson int rebooting; /* system is rebooting */ 20381661c94SPoul-Henning Kamp static struct dumperinfo dumper; /* our selected dumper */ 2042d50560aSMarcel Moolenaar 2052d50560aSMarcel Moolenaar /* Context information for dump-debuggers. */ 2062d50560aSMarcel Moolenaar static struct pcb dumppcb; /* Registers. */ 207ac6e25ecSHartmut Brandt lwpid_t dumptid; /* Thread ID. */ 20816a011f9SPaul Saab 2090d3d0cc3SEdward Tomasz Napierala static struct cdevsw reroot_cdevsw = { 2100d3d0cc3SEdward Tomasz Napierala .d_version = D_VERSION, 2110d3d0cc3SEdward Tomasz Napierala .d_name = "reroot", 2120d3d0cc3SEdward Tomasz Napierala }; 2130d3d0cc3SEdward Tomasz Napierala 21482acbcf5SPeter Wemm static void poweroff_wait(void *, int); 21582acbcf5SPeter Wemm static void shutdown_halt(void *junk, int howto); 21682acbcf5SPeter Wemm static void shutdown_panic(void *junk, int howto); 21782acbcf5SPeter Wemm static void shutdown_reset(void *junk, int howto); 2180d3d0cc3SEdward Tomasz Napierala static int kern_reroot(void); 219f06a54f0SPoul-Henning Kamp 220fcb893a8SMike Smith /* register various local shutdown events */ 221fcb893a8SMike Smith static void 222fcb893a8SMike Smith shutdown_conf(void *unused) 223fcb893a8SMike Smith { 224e95499bdSAlfred Perlstein 225e95499bdSAlfred Perlstein EVENTHANDLER_REGISTER(shutdown_final, poweroff_wait, NULL, 226fd104c15SRebecca Cran SHUTDOWN_PRI_FIRST); 227e95499bdSAlfred Perlstein EVENTHANDLER_REGISTER(shutdown_final, shutdown_halt, NULL, 228e95499bdSAlfred Perlstein SHUTDOWN_PRI_LAST + 100); 229e95499bdSAlfred Perlstein EVENTHANDLER_REGISTER(shutdown_final, shutdown_panic, NULL, 230e95499bdSAlfred Perlstein SHUTDOWN_PRI_LAST + 100); 231e95499bdSAlfred Perlstein EVENTHANDLER_REGISTER(shutdown_final, shutdown_reset, NULL, 232e95499bdSAlfred Perlstein SHUTDOWN_PRI_LAST + 200); 233fcb893a8SMike Smith } 234ad4240feSJulian Elischer 235237fdd78SRobert Watson SYSINIT(shutdown_conf, SI_SUB_INTRINSIC, SI_ORDER_ANY, shutdown_conf, NULL); 236fcb893a8SMike Smith 237ad4240feSJulian Elischer /* 2380d3d0cc3SEdward Tomasz Napierala * The only reason this exists is to create the /dev/reroot/ directory, 2390d3d0cc3SEdward Tomasz Napierala * used by reroot code in init(8) as a mountpoint for tmpfs. 2400d3d0cc3SEdward Tomasz Napierala */ 2410d3d0cc3SEdward Tomasz Napierala static void 2420d3d0cc3SEdward Tomasz Napierala reroot_conf(void *unused) 2430d3d0cc3SEdward Tomasz Napierala { 2440d3d0cc3SEdward Tomasz Napierala int error; 2450d3d0cc3SEdward Tomasz Napierala struct cdev *cdev; 2460d3d0cc3SEdward Tomasz Napierala 2470d3d0cc3SEdward Tomasz Napierala error = make_dev_p(MAKEDEV_CHECKNAME | MAKEDEV_WAITOK, &cdev, 2480d3d0cc3SEdward Tomasz Napierala &reroot_cdevsw, NULL, UID_ROOT, GID_WHEEL, 0600, "reroot/reroot"); 2490d3d0cc3SEdward Tomasz Napierala if (error != 0) { 2500d3d0cc3SEdward Tomasz Napierala printf("%s: failed to create device node, error %d", 2510d3d0cc3SEdward Tomasz Napierala __func__, error); 2520d3d0cc3SEdward Tomasz Napierala } 2530d3d0cc3SEdward Tomasz Napierala } 2540d3d0cc3SEdward Tomasz Napierala 2550d3d0cc3SEdward Tomasz Napierala SYSINIT(reroot_conf, SI_SUB_DEVFS, SI_ORDER_ANY, reroot_conf, NULL); 2560d3d0cc3SEdward Tomasz Napierala 2570d3d0cc3SEdward Tomasz Napierala /* 2580c14ff0eSRobert Watson * The system call that results in a reboot. 259ad4240feSJulian Elischer */ 260835a82eeSMatthew Dillon /* ARGSUSED */ 261ad4240feSJulian Elischer int 2628451d0ddSKip Macy sys_reboot(struct thread *td, struct reboot_args *uap) 263ad4240feSJulian Elischer { 264ad4240feSJulian Elischer int error; 265ad4240feSJulian Elischer 266a2ecb9b7SRobert Watson error = 0; 267a2ecb9b7SRobert Watson #ifdef MAC 26830d239bcSRobert Watson error = mac_system_check_reboot(td->td_ucred, uap->opt); 269a2ecb9b7SRobert Watson #endif 270a2ecb9b7SRobert Watson if (error == 0) 271acd3428bSRobert Watson error = priv_check(td, PRIV_REBOOT); 272a2ecb9b7SRobert Watson if (error == 0) { 2730d3d0cc3SEdward Tomasz Napierala if (uap->opt & RB_REROOT) { 2740d3d0cc3SEdward Tomasz Napierala error = kern_reroot(); 2750d3d0cc3SEdward Tomasz Napierala } else { 276835a82eeSMatthew Dillon mtx_lock(&Giant); 27776e18b25SMarcel Moolenaar kern_reboot(uap->opt); 278835a82eeSMatthew Dillon mtx_unlock(&Giant); 279a2ecb9b7SRobert Watson } 2800d3d0cc3SEdward Tomasz Napierala } 281835a82eeSMatthew Dillon return (error); 282ad4240feSJulian Elischer } 283ad4240feSJulian Elischer 284ad4240feSJulian Elischer /* 285ad4240feSJulian Elischer * Called by events that want to shut down.. e.g <CTL><ALT><DEL> on a PC 286ad4240feSJulian Elischer */ 287ad4240feSJulian Elischer void 2883e755f76SMike Smith shutdown_nice(int howto) 289ad4240feSJulian Elischer { 290e95499bdSAlfred Perlstein 291ad4240feSJulian Elischer if (initproc != NULL) { 292912d5937SEd Schouten /* Send a signal to init(8) and have it shutdown the world. */ 29387729a2bSJohn Baldwin PROC_LOCK(initproc); 294912d5937SEd Schouten if (howto & RB_POWEROFF) 295912d5937SEd Schouten kern_psignal(initproc, SIGUSR2); 2967d41b6f0SWarner Losh else if (howto & RB_POWERCYCLE) 2977d41b6f0SWarner Losh kern_psignal(initproc, SIGWINCH); 298912d5937SEd Schouten else if (howto & RB_HALT) 299912d5937SEd Schouten kern_psignal(initproc, SIGUSR1); 300912d5937SEd Schouten else 3018451d0ddSKip Macy kern_psignal(initproc, SIGINT); 30287729a2bSJohn Baldwin PROC_UNLOCK(initproc); 303ad4240feSJulian Elischer } else { 304912d5937SEd Schouten /* No init(8) running, so simply reboot. */ 3058f5b107bSEd Schouten kern_reboot(howto | RB_NOSYNC); 306ad4240feSJulian Elischer } 307ad4240feSJulian Elischer } 308ad4240feSJulian Elischer 30972dfe7a3SPoul-Henning Kamp static void 31082acbcf5SPeter Wemm print_uptime(void) 31172dfe7a3SPoul-Henning Kamp { 31272dfe7a3SPoul-Henning Kamp int f; 31372dfe7a3SPoul-Henning Kamp struct timespec ts; 31472dfe7a3SPoul-Henning Kamp 31572dfe7a3SPoul-Henning Kamp getnanouptime(&ts); 31672dfe7a3SPoul-Henning Kamp printf("Uptime: "); 31772dfe7a3SPoul-Henning Kamp f = 0; 31872dfe7a3SPoul-Henning Kamp if (ts.tv_sec >= 86400) { 3194a6404dfSJohn Baldwin printf("%ldd", (long)ts.tv_sec / 86400); 32072dfe7a3SPoul-Henning Kamp ts.tv_sec %= 86400; 32172dfe7a3SPoul-Henning Kamp f = 1; 32272dfe7a3SPoul-Henning Kamp } 32372dfe7a3SPoul-Henning Kamp if (f || ts.tv_sec >= 3600) { 3244a6404dfSJohn Baldwin printf("%ldh", (long)ts.tv_sec / 3600); 32572dfe7a3SPoul-Henning Kamp ts.tv_sec %= 3600; 32672dfe7a3SPoul-Henning Kamp f = 1; 32772dfe7a3SPoul-Henning Kamp } 32872dfe7a3SPoul-Henning Kamp if (f || ts.tv_sec >= 60) { 3294a6404dfSJohn Baldwin printf("%ldm", (long)ts.tv_sec / 60); 33072dfe7a3SPoul-Henning Kamp ts.tv_sec %= 60; 33172dfe7a3SPoul-Henning Kamp f = 1; 33272dfe7a3SPoul-Henning Kamp } 3334a6404dfSJohn Baldwin printf("%lds\n", (long)ts.tv_sec); 33472dfe7a3SPoul-Henning Kamp } 33572dfe7a3SPoul-Henning Kamp 336299cceefSMarcel Moolenaar int 337299cceefSMarcel Moolenaar doadump(boolean_t textdump) 338d39e457bSPoul-Henning Kamp { 339299cceefSMarcel Moolenaar boolean_t coredump; 340f6b4f5caSGavin Atkinson int error; 341e95499bdSAlfred Perlstein 342f6b4f5caSGavin Atkinson error = 0; 343299cceefSMarcel Moolenaar if (dumping) 344299cceefSMarcel Moolenaar return (EBUSY); 345299cceefSMarcel Moolenaar if (dumper.dumper == NULL) 346299cceefSMarcel Moolenaar return (ENXIO); 347f6449d9dSJulian Elischer 348d39e457bSPoul-Henning Kamp savectx(&dumppcb); 3492d50560aSMarcel Moolenaar dumptid = curthread->td_tid; 350d39e457bSPoul-Henning Kamp dumping++; 351299cceefSMarcel Moolenaar 352299cceefSMarcel Moolenaar coredump = TRUE; 353618c7db3SRobert Watson #ifdef DDB 354299cceefSMarcel Moolenaar if (textdump && textdump_pending) { 355299cceefSMarcel Moolenaar coredump = FALSE; 356618c7db3SRobert Watson textdump_dumpsys(&dumper); 357299cceefSMarcel Moolenaar } 358618c7db3SRobert Watson #endif 359299cceefSMarcel Moolenaar if (coredump) 360f6b4f5caSGavin Atkinson error = dumpsys(&dumper); 361299cceefSMarcel Moolenaar 3629e473363SRuslan Ermilov dumping--; 363f6b4f5caSGavin Atkinson return (error); 364d39e457bSPoul-Henning Kamp } 365d39e457bSPoul-Henning Kamp 366ad4240feSJulian Elischer /* 36770ce93f4SNate Lawson * Shutdown the system cleanly to prepare for reboot, halt, or power off. 368ad4240feSJulian Elischer */ 36976e18b25SMarcel Moolenaar void 37076e18b25SMarcel Moolenaar kern_reboot(int howto) 371ad4240feSJulian Elischer { 37298082691SJeff Roberson static int once = 0; 373ad4240feSJulian Elischer 374f7ebc7ceSMarcel Moolenaar #if defined(SMP) 37570ce93f4SNate Lawson /* 37670ce93f4SNate Lawson * Bind us to CPU 0 so that all shutdown code runs there. Some 37770ce93f4SNate Lawson * systems don't shutdown properly (i.e., ACPI power off) if we 37870ce93f4SNate Lawson * run on another processor. 37970ce93f4SNate Lawson */ 38035370593SAndriy Gapon if (!SCHEDULER_STOPPED()) { 381982d11f8SJeff Roberson thread_lock(curthread); 38220e25d7dSPeter Wemm sched_bind(curthread, 0); 383982d11f8SJeff Roberson thread_unlock(curthread); 38435370593SAndriy Gapon KASSERT(PCPU_GET(cpuid) == 0, ("boot: not running on cpu 0")); 38535370593SAndriy Gapon } 38620e25d7dSPeter Wemm #endif 38736a52c3cSJeff Roberson /* We're in the process of rebooting. */ 38836a52c3cSJeff Roberson rebooting = 1; 38920e25d7dSPeter Wemm 39061e96500SJohn Baldwin /* We are out of the debugger now. */ 3912d50560aSMarcel Moolenaar kdb_active = 0; 39261e96500SJohn Baldwin 3935230cfd2SJulian Elischer /* 3945230cfd2SJulian Elischer * Do any callouts that should be done BEFORE syncing the filesystems. 3955230cfd2SJulian Elischer */ 396fcb893a8SMike Smith EVENTHANDLER_INVOKE(shutdown_pre_sync, howto); 3975230cfd2SJulian Elischer 3985230cfd2SJulian Elischer /* 3995230cfd2SJulian Elischer * Now sync filesystems 4005230cfd2SJulian Elischer */ 40198082691SJeff Roberson if (!cold && (howto & RB_NOSYNC) == 0 && once == 0) { 40298082691SJeff Roberson once = 1; 40398082691SJeff Roberson bufshutdown(show_busybufs); 404ad4240feSJulian Elischer } 4055230cfd2SJulian Elischer 40672dfe7a3SPoul-Henning Kamp print_uptime(); 40772dfe7a3SPoul-Henning Kamp 408bf8696b4SAndriy Gapon cngrab(); 409bf8696b4SAndriy Gapon 4105230cfd2SJulian Elischer /* 4115230cfd2SJulian Elischer * Ok, now do things that assume all filesystem activity has 4125230cfd2SJulian Elischer * been completed. 4135230cfd2SJulian Elischer */ 414fcb893a8SMike Smith EVENTHANDLER_INVOKE(shutdown_post_sync, howto); 41570ce93f4SNate Lawson 416f6449d9dSJulian Elischer if ((howto & (RB_HALT|RB_DUMP)) == RB_DUMP && !cold && !dumping) 417299cceefSMarcel Moolenaar doadump(TRUE); 4182cfa0a03SJustin T. Gibbs 4192cfa0a03SJustin T. Gibbs /* Now that we're going to really halt the system... */ 420fcb893a8SMike Smith EVENTHANDLER_INVOKE(shutdown_final, howto); 4212cfa0a03SJustin T. Gibbs 422fcb893a8SMike Smith for(;;) ; /* safety against shutdown_reset not working */ 423fcb893a8SMike Smith /* NOTREACHED */ 424fcb893a8SMike Smith } 425fcb893a8SMike Smith 426fcb893a8SMike Smith /* 4270d3d0cc3SEdward Tomasz Napierala * The system call that results in changing the rootfs. 4280d3d0cc3SEdward Tomasz Napierala */ 4290d3d0cc3SEdward Tomasz Napierala static int 4300d3d0cc3SEdward Tomasz Napierala kern_reroot(void) 4310d3d0cc3SEdward Tomasz Napierala { 4320d3d0cc3SEdward Tomasz Napierala struct vnode *oldrootvnode, *vp; 4330d3d0cc3SEdward Tomasz Napierala struct mount *mp, *devmp; 4340d3d0cc3SEdward Tomasz Napierala int error; 4350d3d0cc3SEdward Tomasz Napierala 4360d3d0cc3SEdward Tomasz Napierala if (curproc != initproc) 4370d3d0cc3SEdward Tomasz Napierala return (EPERM); 4380d3d0cc3SEdward Tomasz Napierala 4390d3d0cc3SEdward Tomasz Napierala /* 4400d3d0cc3SEdward Tomasz Napierala * Mark the filesystem containing currently-running executable 4410d3d0cc3SEdward Tomasz Napierala * (the temporary copy of init(8)) busy. 4420d3d0cc3SEdward Tomasz Napierala */ 4430d3d0cc3SEdward Tomasz Napierala vp = curproc->p_textvp; 4440d3d0cc3SEdward Tomasz Napierala error = vn_lock(vp, LK_SHARED); 4450d3d0cc3SEdward Tomasz Napierala if (error != 0) 4460d3d0cc3SEdward Tomasz Napierala return (error); 4470d3d0cc3SEdward Tomasz Napierala mp = vp->v_mount; 4480d3d0cc3SEdward Tomasz Napierala error = vfs_busy(mp, MBF_NOWAIT); 4490d3d0cc3SEdward Tomasz Napierala if (error != 0) { 4500d3d0cc3SEdward Tomasz Napierala vfs_ref(mp); 4510d3d0cc3SEdward Tomasz Napierala VOP_UNLOCK(vp, 0); 4520d3d0cc3SEdward Tomasz Napierala error = vfs_busy(mp, 0); 4530d3d0cc3SEdward Tomasz Napierala vn_lock(vp, LK_SHARED | LK_RETRY); 4540d3d0cc3SEdward Tomasz Napierala vfs_rel(mp); 4550d3d0cc3SEdward Tomasz Napierala if (error != 0) { 4560d3d0cc3SEdward Tomasz Napierala VOP_UNLOCK(vp, 0); 4570d3d0cc3SEdward Tomasz Napierala return (ENOENT); 4580d3d0cc3SEdward Tomasz Napierala } 4590d3d0cc3SEdward Tomasz Napierala if (vp->v_iflag & VI_DOOMED) { 4600d3d0cc3SEdward Tomasz Napierala VOP_UNLOCK(vp, 0); 4610d3d0cc3SEdward Tomasz Napierala vfs_unbusy(mp); 4620d3d0cc3SEdward Tomasz Napierala return (ENOENT); 4630d3d0cc3SEdward Tomasz Napierala } 4640d3d0cc3SEdward Tomasz Napierala } 4650d3d0cc3SEdward Tomasz Napierala VOP_UNLOCK(vp, 0); 4660d3d0cc3SEdward Tomasz Napierala 4670d3d0cc3SEdward Tomasz Napierala /* 4680d3d0cc3SEdward Tomasz Napierala * Remove the filesystem containing currently-running executable 4690d3d0cc3SEdward Tomasz Napierala * from the mount list, to prevent it from being unmounted 4700d3d0cc3SEdward Tomasz Napierala * by vfs_unmountall(), and to avoid confusing vfs_mountroot(). 4710d3d0cc3SEdward Tomasz Napierala * 4720d3d0cc3SEdward Tomasz Napierala * Also preserve /dev - forcibly unmounting it could cause driver 4730d3d0cc3SEdward Tomasz Napierala * reinitialization. 4740d3d0cc3SEdward Tomasz Napierala */ 4750d3d0cc3SEdward Tomasz Napierala 4760d3d0cc3SEdward Tomasz Napierala vfs_ref(rootdevmp); 4770d3d0cc3SEdward Tomasz Napierala devmp = rootdevmp; 4780d3d0cc3SEdward Tomasz Napierala rootdevmp = NULL; 4790d3d0cc3SEdward Tomasz Napierala 4800d3d0cc3SEdward Tomasz Napierala mtx_lock(&mountlist_mtx); 4810d3d0cc3SEdward Tomasz Napierala TAILQ_REMOVE(&mountlist, mp, mnt_list); 4820d3d0cc3SEdward Tomasz Napierala TAILQ_REMOVE(&mountlist, devmp, mnt_list); 4830d3d0cc3SEdward Tomasz Napierala mtx_unlock(&mountlist_mtx); 4840d3d0cc3SEdward Tomasz Napierala 4850d3d0cc3SEdward Tomasz Napierala oldrootvnode = rootvnode; 4860d3d0cc3SEdward Tomasz Napierala 4870d3d0cc3SEdward Tomasz Napierala /* 4880d3d0cc3SEdward Tomasz Napierala * Unmount everything except for the two filesystems preserved above. 4890d3d0cc3SEdward Tomasz Napierala */ 4900d3d0cc3SEdward Tomasz Napierala vfs_unmountall(); 4910d3d0cc3SEdward Tomasz Napierala 4920d3d0cc3SEdward Tomasz Napierala /* 4930d3d0cc3SEdward Tomasz Napierala * Add /dev back; vfs_mountroot() will move it into its new place. 4940d3d0cc3SEdward Tomasz Napierala */ 4950d3d0cc3SEdward Tomasz Napierala mtx_lock(&mountlist_mtx); 4960d3d0cc3SEdward Tomasz Napierala TAILQ_INSERT_HEAD(&mountlist, devmp, mnt_list); 4970d3d0cc3SEdward Tomasz Napierala mtx_unlock(&mountlist_mtx); 4980d3d0cc3SEdward Tomasz Napierala rootdevmp = devmp; 4990d3d0cc3SEdward Tomasz Napierala vfs_rel(rootdevmp); 5000d3d0cc3SEdward Tomasz Napierala 5010d3d0cc3SEdward Tomasz Napierala /* 5020d3d0cc3SEdward Tomasz Napierala * Mount the new rootfs. 5030d3d0cc3SEdward Tomasz Napierala */ 5040d3d0cc3SEdward Tomasz Napierala vfs_mountroot(); 5050d3d0cc3SEdward Tomasz Napierala 5060d3d0cc3SEdward Tomasz Napierala /* 5070d3d0cc3SEdward Tomasz Napierala * Update all references to the old rootvnode. 5080d3d0cc3SEdward Tomasz Napierala */ 5090d3d0cc3SEdward Tomasz Napierala mountcheckdirs(oldrootvnode, rootvnode); 5100d3d0cc3SEdward Tomasz Napierala 5110d3d0cc3SEdward Tomasz Napierala /* 5120d3d0cc3SEdward Tomasz Napierala * Add the temporary filesystem back and unbusy it. 5130d3d0cc3SEdward Tomasz Napierala */ 5140d3d0cc3SEdward Tomasz Napierala mtx_lock(&mountlist_mtx); 5150d3d0cc3SEdward Tomasz Napierala TAILQ_INSERT_TAIL(&mountlist, mp, mnt_list); 5160d3d0cc3SEdward Tomasz Napierala mtx_unlock(&mountlist_mtx); 5170d3d0cc3SEdward Tomasz Napierala vfs_unbusy(mp); 5180d3d0cc3SEdward Tomasz Napierala 5190d3d0cc3SEdward Tomasz Napierala return (0); 5200d3d0cc3SEdward Tomasz Napierala } 5210d3d0cc3SEdward Tomasz Napierala 5220d3d0cc3SEdward Tomasz Napierala /* 523fcb893a8SMike Smith * If the shutdown was a clean halt, behave accordingly. 524fcb893a8SMike Smith */ 525fcb893a8SMike Smith static void 526fcb893a8SMike Smith shutdown_halt(void *junk, int howto) 527fcb893a8SMike Smith { 528e95499bdSAlfred Perlstein 529ad4240feSJulian Elischer if (howto & RB_HALT) { 530ad4240feSJulian Elischer printf("\n"); 531ad4240feSJulian Elischer printf("The operating system has halted.\n"); 532ad4240feSJulian Elischer printf("Please press any key to reboot.\n\n"); 533d13d3630SJulian Elischer switch (cngetc()) { 534d13d3630SJulian Elischer case -1: /* No console, just die */ 535d13d3630SJulian Elischer cpu_halt(); 536d13d3630SJulian Elischer /* NOTREACHED */ 537d13d3630SJulian Elischer default: 5382cfa0a03SJustin T. Gibbs howto &= ~RB_HALT; 539d13d3630SJulian Elischer break; 540d13d3630SJulian Elischer } 541fcb893a8SMike Smith } 542fcb893a8SMike Smith } 543ad4240feSJulian Elischer 544fcb893a8SMike Smith /* 545fcb893a8SMike Smith * Check to see if the system paniced, pause and then reboot 546fcb893a8SMike Smith * according to the specified delay. 547fcb893a8SMike Smith */ 548fcb893a8SMike Smith static void 549fcb893a8SMike Smith shutdown_panic(void *junk, int howto) 550fcb893a8SMike Smith { 551fcb893a8SMike Smith int loop; 552fcb893a8SMike Smith 553fcb893a8SMike Smith if (howto & RB_DUMP) { 5541cdbb9edSColin Percival if (panic_reboot_wait_time != 0) { 5551cdbb9edSColin Percival if (panic_reboot_wait_time != -1) { 5562cfa0a03SJustin T. Gibbs printf("Automatic reboot in %d seconds - " 5572cfa0a03SJustin T. Gibbs "press a key on the console to abort\n", 5581cdbb9edSColin Percival panic_reboot_wait_time); 5591cdbb9edSColin Percival for (loop = panic_reboot_wait_time * 10; 5602cfa0a03SJustin T. Gibbs loop > 0; --loop) { 561ad4240feSJulian Elischer DELAY(1000 * 100); /* 1/10th second */ 562a7f8f2abSBruce Evans /* Did user type a key? */ 563a7f8f2abSBruce Evans if (cncheckc() != -1) 564ad4240feSJulian Elischer break; 565ad4240feSJulian Elischer } 566ad4240feSJulian Elischer if (!loop) 567fcb893a8SMike Smith return; 568ad4240feSJulian Elischer } 569ad4240feSJulian Elischer } else { /* zero time specified - reboot NOW */ 570fcb893a8SMike Smith return; 571ad4240feSJulian Elischer } 572422702e9SNik Clayton printf("--> Press a key on the console to reboot,\n"); 573422702e9SNik Clayton printf("--> or switch off the system now.\n"); 574ad4240feSJulian Elischer cngetc(); 575ad4240feSJulian Elischer } 576fcb893a8SMike Smith } 577fcb893a8SMike Smith 578fcb893a8SMike Smith /* 579fcb893a8SMike Smith * Everything done, now reset 580fcb893a8SMike Smith */ 581fcb893a8SMike Smith static void 582fcb893a8SMike Smith shutdown_reset(void *junk, int howto) 583fcb893a8SMike Smith { 584e95499bdSAlfred Perlstein 585ad4240feSJulian Elischer printf("Rebooting...\n"); 586ad4240feSJulian Elischer DELAY(1000000); /* wait 1 sec for printf's to complete and be read */ 587248bb937SAttilio Rao 588248bb937SAttilio Rao /* 589248bb937SAttilio Rao * Acquiring smp_ipi_mtx here has a double effect: 590248bb937SAttilio Rao * - it disables interrupts avoiding CPU0 preemption 591248bb937SAttilio Rao * by fast handlers (thus deadlocking against other CPUs) 592248bb937SAttilio Rao * - it avoids deadlocks against smp_rendezvous() or, more 593248bb937SAttilio Rao * generally, threads busy-waiting, with this spinlock held, 594248bb937SAttilio Rao * and waiting for responses by threads on other CPUs 595248bb937SAttilio Rao * (ie. smp_tlb_shootdown()). 5960a2d5feaSAttilio Rao * 5970a2d5feaSAttilio Rao * For the !SMP case it just needs to handle the former problem. 598248bb937SAttilio Rao */ 5990a2d5feaSAttilio Rao #ifdef SMP 600248bb937SAttilio Rao mtx_lock_spin(&smp_ipi_mtx); 6010a2d5feaSAttilio Rao #else 6020a2d5feaSAttilio Rao spinlock_enter(); 6030a2d5feaSAttilio Rao #endif 604248bb937SAttilio Rao 605269fb9d7SJulian Elischer /* cpu_boot(howto); */ /* doesn't do anything at the moment */ 606ad4240feSJulian Elischer cpu_reset(); 607fcb893a8SMike Smith /* NOTREACHED */ /* assuming reset worked */ 608ad4240feSJulian Elischer } 609ad4240feSJulian Elischer 610a0d20ecbSGleb Smirnoff #if defined(WITNESS) || defined(INVARIANT_SUPPORT) 6113945a964SAlfred Perlstein static int kassert_warn_only = 0; 612a94053baSAlfred Perlstein #ifdef KDB 613a94053baSAlfred Perlstein static int kassert_do_kdb = 0; 614a94053baSAlfred Perlstein #endif 6153945a964SAlfred Perlstein #ifdef KTR 6163945a964SAlfred Perlstein static int kassert_do_ktr = 0; 6173945a964SAlfred Perlstein #endif 6183945a964SAlfred Perlstein static int kassert_do_log = 1; 6193945a964SAlfred Perlstein static int kassert_log_pps_limit = 4; 6203945a964SAlfred Perlstein static int kassert_log_mute_at = 0; 6213945a964SAlfred Perlstein static int kassert_log_panic_at = 0; 6223945a964SAlfred Perlstein static int kassert_warnings = 0; 6233945a964SAlfred Perlstein 6243945a964SAlfred Perlstein SYSCTL_NODE(_debug, OID_AUTO, kassert, CTLFLAG_RW, NULL, "kassert options"); 6253945a964SAlfred Perlstein 626af3b2549SHans Petter Selasky SYSCTL_INT(_debug_kassert, OID_AUTO, warn_only, CTLFLAG_RWTUN, 6273945a964SAlfred Perlstein &kassert_warn_only, 0, 6283945a964SAlfred Perlstein "KASSERT triggers a panic (1) or just a warning (0)"); 6293945a964SAlfred Perlstein 630a94053baSAlfred Perlstein #ifdef KDB 631af3b2549SHans Petter Selasky SYSCTL_INT(_debug_kassert, OID_AUTO, do_kdb, CTLFLAG_RWTUN, 632a94053baSAlfred Perlstein &kassert_do_kdb, 0, "KASSERT will enter the debugger"); 633a94053baSAlfred Perlstein #endif 634a94053baSAlfred Perlstein 6353945a964SAlfred Perlstein #ifdef KTR 636af3b2549SHans Petter Selasky SYSCTL_UINT(_debug_kassert, OID_AUTO, do_ktr, CTLFLAG_RWTUN, 6373945a964SAlfred Perlstein &kassert_do_ktr, 0, 6383945a964SAlfred Perlstein "KASSERT does a KTR, set this to the KTRMASK you want"); 6393945a964SAlfred Perlstein #endif 6403945a964SAlfred Perlstein 641af3b2549SHans Petter Selasky SYSCTL_INT(_debug_kassert, OID_AUTO, do_log, CTLFLAG_RWTUN, 6423945a964SAlfred Perlstein &kassert_do_log, 0, "KASSERT triggers a panic (1) or just a warning (0)"); 6433945a964SAlfred Perlstein 644af3b2549SHans Petter Selasky SYSCTL_INT(_debug_kassert, OID_AUTO, warnings, CTLFLAG_RWTUN, 6453945a964SAlfred Perlstein &kassert_warnings, 0, "number of KASSERTs that have been triggered"); 6463945a964SAlfred Perlstein 647af3b2549SHans Petter Selasky SYSCTL_INT(_debug_kassert, OID_AUTO, log_panic_at, CTLFLAG_RWTUN, 6483945a964SAlfred Perlstein &kassert_log_panic_at, 0, "max number of KASSERTS before we will panic"); 6493945a964SAlfred Perlstein 650af3b2549SHans Petter Selasky SYSCTL_INT(_debug_kassert, OID_AUTO, log_pps_limit, CTLFLAG_RWTUN, 6513945a964SAlfred Perlstein &kassert_log_pps_limit, 0, "limit number of log messages per second"); 6523945a964SAlfred Perlstein 653af3b2549SHans Petter Selasky SYSCTL_INT(_debug_kassert, OID_AUTO, log_mute_at, CTLFLAG_RWTUN, 6543945a964SAlfred Perlstein &kassert_log_mute_at, 0, "max number of KASSERTS to log"); 6553945a964SAlfred Perlstein 6563945a964SAlfred Perlstein static int kassert_sysctl_kassert(SYSCTL_HANDLER_ARGS); 6573945a964SAlfred Perlstein 6583945a964SAlfred Perlstein SYSCTL_PROC(_debug_kassert, OID_AUTO, kassert, 6593945a964SAlfred Perlstein CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_SECURE, NULL, 0, 6603945a964SAlfred Perlstein kassert_sysctl_kassert, "I", "set to trigger a test kassert"); 6613945a964SAlfred Perlstein 6623945a964SAlfred Perlstein static int 6633945a964SAlfred Perlstein kassert_sysctl_kassert(SYSCTL_HANDLER_ARGS) 6643945a964SAlfred Perlstein { 6653945a964SAlfred Perlstein int error, i; 6663945a964SAlfred Perlstein 6673945a964SAlfred Perlstein error = sysctl_wire_old_buffer(req, sizeof(int)); 6683945a964SAlfred Perlstein if (error == 0) { 6693945a964SAlfred Perlstein i = 0; 6703945a964SAlfred Perlstein error = sysctl_handle_int(oidp, &i, 0, req); 6713945a964SAlfred Perlstein } 6723945a964SAlfred Perlstein if (error != 0 || req->newptr == NULL) 6733945a964SAlfred Perlstein return (error); 6743945a964SAlfred Perlstein KASSERT(0, ("kassert_sysctl_kassert triggered kassert %d", i)); 6753945a964SAlfred Perlstein return (0); 6763945a964SAlfred Perlstein } 6773945a964SAlfred Perlstein 6783945a964SAlfred Perlstein /* 6793945a964SAlfred Perlstein * Called by KASSERT, this decides if we will panic 6803945a964SAlfred Perlstein * or if we will log via printf and/or ktr. 6813945a964SAlfred Perlstein */ 6823945a964SAlfred Perlstein void 6833945a964SAlfred Perlstein kassert_panic(const char *fmt, ...) 6843945a964SAlfred Perlstein { 6853945a964SAlfred Perlstein static char buf[256]; 6863945a964SAlfred Perlstein va_list ap; 6873945a964SAlfred Perlstein 6883945a964SAlfred Perlstein va_start(ap, fmt); 6893945a964SAlfred Perlstein (void)vsnprintf(buf, sizeof(buf), fmt, ap); 6903945a964SAlfred Perlstein va_end(ap); 6913945a964SAlfred Perlstein 6923945a964SAlfred Perlstein /* 6933945a964SAlfred Perlstein * panic if we're not just warning, or if we've exceeded 6943945a964SAlfred Perlstein * kassert_log_panic_at warnings. 6953945a964SAlfred Perlstein */ 6963945a964SAlfred Perlstein if (!kassert_warn_only || 6973945a964SAlfred Perlstein (kassert_log_panic_at > 0 && 6983945a964SAlfred Perlstein kassert_warnings >= kassert_log_panic_at)) { 6993945a964SAlfred Perlstein va_start(ap, fmt); 7003945a964SAlfred Perlstein vpanic(fmt, ap); 7013945a964SAlfred Perlstein /* NORETURN */ 7023945a964SAlfred Perlstein } 7033945a964SAlfred Perlstein #ifdef KTR 7043945a964SAlfred Perlstein if (kassert_do_ktr) 7053945a964SAlfred Perlstein CTR0(ktr_mask, buf); 7063945a964SAlfred Perlstein #endif /* KTR */ 7073945a964SAlfred Perlstein /* 7083945a964SAlfred Perlstein * log if we've not yet met the mute limit. 7093945a964SAlfred Perlstein */ 7103945a964SAlfred Perlstein if (kassert_do_log && 7113945a964SAlfred Perlstein (kassert_log_mute_at == 0 || 7123945a964SAlfred Perlstein kassert_warnings < kassert_log_mute_at)) { 7133945a964SAlfred Perlstein static struct timeval lasterr; 7143945a964SAlfred Perlstein static int curerr; 7153945a964SAlfred Perlstein 7163945a964SAlfred Perlstein if (ppsratecheck(&lasterr, &curerr, kassert_log_pps_limit)) { 7173945a964SAlfred Perlstein printf("KASSERT failed: %s\n", buf); 7183945a964SAlfred Perlstein kdb_backtrace(); 7193945a964SAlfred Perlstein } 7203945a964SAlfred Perlstein } 721a94053baSAlfred Perlstein #ifdef KDB 722a94053baSAlfred Perlstein if (kassert_do_kdb) { 723a94053baSAlfred Perlstein kdb_enter(KDB_WHY_KASSERT, buf); 724a94053baSAlfred Perlstein } 725a94053baSAlfred Perlstein #endif 7263945a964SAlfred Perlstein atomic_add_int(&kassert_warnings, 1); 7273945a964SAlfred Perlstein } 7283945a964SAlfred Perlstein #endif 7293945a964SAlfred Perlstein 730ad4240feSJulian Elischer /* 731ad4240feSJulian Elischer * Panic is called on unresolvable fatal errors. It prints "panic: mesg", 732ad4240feSJulian Elischer * and then reboots. If we are called twice, then we avoid trying to sync 733ad4240feSJulian Elischer * the disks as this often leads to recursive panics. 734ad4240feSJulian Elischer */ 735ad4240feSJulian Elischer void 7369a6dc4b6SPoul-Henning Kamp panic(const char *fmt, ...) 737ad4240feSJulian Elischer { 7383945a964SAlfred Perlstein va_list ap; 7393945a964SAlfred Perlstein 7403945a964SAlfred Perlstein va_start(ap, fmt); 7413945a964SAlfred Perlstein vpanic(fmt, ap); 7423945a964SAlfred Perlstein } 7433945a964SAlfred Perlstein 744da10a603SMark Johnston void 7453945a964SAlfred Perlstein vpanic(const char *fmt, va_list ap) 7463945a964SAlfred Perlstein { 74764dd590eSAndriy Gapon #ifdef SMP 74835370593SAndriy Gapon cpuset_t other_cpus; 74964dd590eSAndriy Gapon #endif 750fe799533SAndrew Gallatin struct thread *td = curthread; 751e485b64bSJohn Baldwin int bootopt, newpanic; 75299237364SAndrey A. Chernov static char buf[256]; 753ad4240feSJulian Elischer 75435370593SAndriy Gapon spinlock_enter(); 75535370593SAndriy Gapon 7560384fff8SJason Evans #ifdef SMP 7571a5333c3SJohn Baldwin /* 7586898bee9SAndriy Gapon * stop_cpus_hard(other_cpus) should prevent multiple CPUs from 7596898bee9SAndriy Gapon * concurrently entering panic. Only the winner will proceed 7606898bee9SAndriy Gapon * further. 7611a5333c3SJohn Baldwin */ 76235370593SAndriy Gapon if (panicstr == NULL && !kdb_active) { 76335370593SAndriy Gapon other_cpus = all_cpus; 76435370593SAndriy Gapon CPU_CLR(PCPU_GET(cpuid), &other_cpus); 76535370593SAndriy Gapon stop_cpus_hard(other_cpus); 76635370593SAndriy Gapon } 76742d33c1fSMark Johnston #endif 76835370593SAndriy Gapon 76935370593SAndriy Gapon /* 7709ad64f27SMark Johnston * Ensure that the scheduler is stopped while panicking, even if panic 7719ad64f27SMark Johnston * has been entered from kdb. 77235370593SAndriy Gapon */ 7735d7380f8SAttilio Rao td->td_stopsched = 1; 7740384fff8SJason Evans 775e3adb685SAttilio Rao bootopt = RB_AUTOBOOT; 776e485b64bSJohn Baldwin newpanic = 0; 777ad4240feSJulian Elischer if (panicstr) 778ad4240feSJulian Elischer bootopt |= RB_NOSYNC; 779e485b64bSJohn Baldwin else { 780e3adb685SAttilio Rao bootopt |= RB_DUMP; 781ad4240feSJulian Elischer panicstr = fmt; 782e485b64bSJohn Baldwin newpanic = 1; 783e485b64bSJohn Baldwin } 784ad4240feSJulian Elischer 7854f1b4577SIan Dowse if (newpanic) { 7862127f260SArchie Cobbs (void)vsnprintf(buf, sizeof(buf), fmt, ap); 78799237364SAndrey A. Chernov panicstr = buf; 788bf8696b4SAndriy Gapon cngrab(); 7899a6dc4b6SPoul-Henning Kamp printf("panic: %s\n", buf); 7904f1b4577SIan Dowse } else { 7914f1b4577SIan Dowse printf("panic: "); 7924f1b4577SIan Dowse vprintf(fmt, ap); 7939a6dc4b6SPoul-Henning Kamp printf("\n"); 7944f1b4577SIan Dowse } 79547d81897SSteve Passe #ifdef SMP 79655c45354SJohn Baldwin printf("cpuid = %d\n", PCPU_GET(cpuid)); 7972bcc63c5SJohn Baldwin #endif 7986cf0c1dbSGleb Smirnoff printf("time = %jd\n", (intmax_t )time_second); 7992d50560aSMarcel Moolenaar #ifdef KDB 800e485b64bSJohn Baldwin if (newpanic && trace_on_panic) 8012d50560aSMarcel Moolenaar kdb_backtrace(); 802ad4240feSJulian Elischer if (debugger_on_panic) 8033de213ccSRobert Watson kdb_enter(KDB_WHY_PANIC, "panic"); 8041432aa0cSJohn Baldwin #endif 805982d11f8SJeff Roberson /*thread_lock(td); */ 806fe799533SAndrew Gallatin td->td_flags |= TDF_INPANIC; 807982d11f8SJeff Roberson /* thread_unlock(td); */ 808259ed917SPeter Wemm if (!sync_on_panic) 809259ed917SPeter Wemm bootopt |= RB_NOSYNC; 81048f1a492SWarner Losh if (poweroff_on_panic) 81148f1a492SWarner Losh bootopt |= RB_POWEROFF; 81248f1a492SWarner Losh if (powercycle_on_panic) 81348f1a492SWarner Losh bootopt |= RB_POWERCYCLE; 81476e18b25SMarcel Moolenaar kern_reboot(bootopt); 815ad4240feSJulian Elischer } 816ad4240feSJulian Elischer 817e0d898b4SJulian Elischer /* 818db82a982SMike Smith * Support for poweroff delay. 819b22692bdSNick Hibma * 820b22692bdSNick Hibma * Please note that setting this delay too short might power off your machine 821b22692bdSNick Hibma * before the write cache on your hard disk has been flushed, leading to 822b22692bdSNick Hibma * soft-updates inconsistencies. 823db82a982SMike Smith */ 8249eec6969SMike Smith #ifndef POWEROFF_DELAY 8259eec6969SMike Smith # define POWEROFF_DELAY 5000 8269eec6969SMike Smith #endif 8279eec6969SMike Smith static int poweroff_delay = POWEROFF_DELAY; 8289eec6969SMike Smith 829db82a982SMike Smith SYSCTL_INT(_kern_shutdown, OID_AUTO, poweroff_delay, CTLFLAG_RW, 8303eb9ab52SEitan Adler &poweroff_delay, 0, "Delay before poweroff to write disk caches (msec)"); 831db82a982SMike Smith 832fcb893a8SMike Smith static void 833fcb893a8SMike Smith poweroff_wait(void *junk, int howto) 834db82a982SMike Smith { 835e95499bdSAlfred Perlstein 8367d41b6f0SWarner Losh if ((howto & (RB_POWEROFF | RB_POWERCYCLE)) == 0 || poweroff_delay <= 0) 837db82a982SMike Smith return; 838db82a982SMike Smith DELAY(poweroff_delay * 1000); 839db82a982SMike Smith } 8405e950839SLuoqi Chen 8415e950839SLuoqi Chen /* 8425e950839SLuoqi Chen * Some system processes (e.g. syncer) need to be stopped at appropriate 8435e950839SLuoqi Chen * points in their main loops prior to a system shutdown, so that they 8445e950839SLuoqi Chen * won't interfere with the shutdown process (e.g. by holding a disk buf 8455e950839SLuoqi Chen * to cause sync to fail). For each of these system processes, register 8465e950839SLuoqi Chen * shutdown_kproc() as a handler for one of shutdown events. 8475e950839SLuoqi Chen */ 8485e950839SLuoqi Chen static int kproc_shutdown_wait = 60; 8495e950839SLuoqi Chen SYSCTL_INT(_kern_shutdown, OID_AUTO, kproc_shutdown_wait, CTLFLAG_RW, 8503eb9ab52SEitan Adler &kproc_shutdown_wait, 0, "Max wait time (sec) to stop for each process"); 8515e950839SLuoqi Chen 8525e950839SLuoqi Chen void 853ffc831daSJohn Baldwin kproc_shutdown(void *arg, int howto) 8545e950839SLuoqi Chen { 8555e950839SLuoqi Chen struct proc *p; 8565e950839SLuoqi Chen int error; 8575e950839SLuoqi Chen 8585e950839SLuoqi Chen if (panicstr) 8595e950839SLuoqi Chen return; 8605e950839SLuoqi Chen 8615e950839SLuoqi Chen p = (struct proc *)arg; 862b1c81391SNate Lawson printf("Waiting (max %d seconds) for system process `%s' to stop... ", 8634f9d48e4SJohn Baldwin kproc_shutdown_wait, p->p_comm); 8643745c395SJulian Elischer error = kproc_suspend(p, kproc_shutdown_wait * hz); 8655e950839SLuoqi Chen 8665e950839SLuoqi Chen if (error == EWOULDBLOCK) 867b1c81391SNate Lawson printf("timed out\n"); 8685e950839SLuoqi Chen else 869b1c81391SNate Lawson printf("done\n"); 8705e950839SLuoqi Chen } 87181661c94SPoul-Henning Kamp 8727ab24ea3SJulian Elischer void 8737ab24ea3SJulian Elischer kthread_shutdown(void *arg, int howto) 8747ab24ea3SJulian Elischer { 8757ab24ea3SJulian Elischer struct thread *td; 8767ab24ea3SJulian Elischer int error; 8777ab24ea3SJulian Elischer 8787ab24ea3SJulian Elischer if (panicstr) 8797ab24ea3SJulian Elischer return; 8807ab24ea3SJulian Elischer 8817ab24ea3SJulian Elischer td = (struct thread *)arg; 8827ab24ea3SJulian Elischer printf("Waiting (max %d seconds) for system thread `%s' to stop... ", 8834f9d48e4SJohn Baldwin kproc_shutdown_wait, td->td_name); 8847ab24ea3SJulian Elischer error = kthread_suspend(td, kproc_shutdown_wait * hz); 8857ab24ea3SJulian Elischer 8867ab24ea3SJulian Elischer if (error == EWOULDBLOCK) 8877ab24ea3SJulian Elischer printf("timed out\n"); 8887ab24ea3SJulian Elischer else 8897ab24ea3SJulian Elischer printf("done\n"); 8907ab24ea3SJulian Elischer } 8917ab24ea3SJulian Elischer 892bad7e7f3SAlfred Perlstein static char dumpdevname[sizeof(((struct cdev*)NULL)->si_name)]; 893bad7e7f3SAlfred Perlstein SYSCTL_STRING(_kern_shutdown, OID_AUTO, dumpdevname, CTLFLAG_RD, 894bad7e7f3SAlfred Perlstein dumpdevname, 0, "Device for kernel dumps"); 895bad7e7f3SAlfred Perlstein 89664a16434SMark Johnston static int _dump_append(struct dumperinfo *di, void *virtual, 89764a16434SMark Johnston vm_offset_t physical, size_t length); 89864a16434SMark Johnston 899480f31c2SKonrad Witaszczyk #ifdef EKCD 900480f31c2SKonrad Witaszczyk static struct kerneldumpcrypto * 901480f31c2SKonrad Witaszczyk kerneldumpcrypto_create(size_t blocksize, uint8_t encryption, 902480f31c2SKonrad Witaszczyk const uint8_t *key, uint32_t encryptedkeysize, const uint8_t *encryptedkey) 903480f31c2SKonrad Witaszczyk { 904480f31c2SKonrad Witaszczyk struct kerneldumpcrypto *kdc; 905480f31c2SKonrad Witaszczyk struct kerneldumpkey *kdk; 906480f31c2SKonrad Witaszczyk uint32_t dumpkeysize; 907480f31c2SKonrad Witaszczyk 908480f31c2SKonrad Witaszczyk dumpkeysize = roundup2(sizeof(*kdk) + encryptedkeysize, blocksize); 909480f31c2SKonrad Witaszczyk kdc = malloc(sizeof(*kdc) + dumpkeysize, M_EKCD, M_WAITOK | M_ZERO); 910480f31c2SKonrad Witaszczyk 911480f31c2SKonrad Witaszczyk arc4rand(kdc->kdc_iv, sizeof(kdc->kdc_iv), 0); 912480f31c2SKonrad Witaszczyk 913480f31c2SKonrad Witaszczyk kdc->kdc_encryption = encryption; 914480f31c2SKonrad Witaszczyk switch (kdc->kdc_encryption) { 915480f31c2SKonrad Witaszczyk case KERNELDUMP_ENC_AES_256_CBC: 916480f31c2SKonrad Witaszczyk if (rijndael_makeKey(&kdc->kdc_ki, DIR_ENCRYPT, 256, key) <= 0) 917480f31c2SKonrad Witaszczyk goto failed; 918480f31c2SKonrad Witaszczyk break; 919480f31c2SKonrad Witaszczyk default: 920480f31c2SKonrad Witaszczyk goto failed; 921480f31c2SKonrad Witaszczyk } 922480f31c2SKonrad Witaszczyk 923480f31c2SKonrad Witaszczyk kdc->kdc_dumpkeysize = dumpkeysize; 924480f31c2SKonrad Witaszczyk kdk = kdc->kdc_dumpkey; 925480f31c2SKonrad Witaszczyk kdk->kdk_encryption = kdc->kdc_encryption; 926480f31c2SKonrad Witaszczyk memcpy(kdk->kdk_iv, kdc->kdc_iv, sizeof(kdk->kdk_iv)); 927480f31c2SKonrad Witaszczyk kdk->kdk_encryptedkeysize = htod32(encryptedkeysize); 928480f31c2SKonrad Witaszczyk memcpy(kdk->kdk_encryptedkey, encryptedkey, encryptedkeysize); 929480f31c2SKonrad Witaszczyk 930480f31c2SKonrad Witaszczyk return (kdc); 931480f31c2SKonrad Witaszczyk failed: 932480f31c2SKonrad Witaszczyk explicit_bzero(kdc, sizeof(*kdc) + dumpkeysize); 933480f31c2SKonrad Witaszczyk free(kdc, M_EKCD); 934480f31c2SKonrad Witaszczyk return (NULL); 935480f31c2SKonrad Witaszczyk } 936480f31c2SKonrad Witaszczyk 93750ef60daSMark Johnston static int 938480f31c2SKonrad Witaszczyk kerneldumpcrypto_init(struct kerneldumpcrypto *kdc) 939480f31c2SKonrad Witaszczyk { 940480f31c2SKonrad Witaszczyk uint8_t hash[SHA256_DIGEST_LENGTH]; 941480f31c2SKonrad Witaszczyk SHA256_CTX ctx; 942480f31c2SKonrad Witaszczyk struct kerneldumpkey *kdk; 943480f31c2SKonrad Witaszczyk int error; 944480f31c2SKonrad Witaszczyk 945480f31c2SKonrad Witaszczyk error = 0; 946480f31c2SKonrad Witaszczyk 947480f31c2SKonrad Witaszczyk if (kdc == NULL) 948480f31c2SKonrad Witaszczyk return (0); 949480f31c2SKonrad Witaszczyk 950480f31c2SKonrad Witaszczyk /* 951480f31c2SKonrad Witaszczyk * When a user enters ddb it can write a crash dump multiple times. 952480f31c2SKonrad Witaszczyk * Each time it should be encrypted using a different IV. 953480f31c2SKonrad Witaszczyk */ 954480f31c2SKonrad Witaszczyk SHA256_Init(&ctx); 955480f31c2SKonrad Witaszczyk SHA256_Update(&ctx, kdc->kdc_iv, sizeof(kdc->kdc_iv)); 956480f31c2SKonrad Witaszczyk SHA256_Final(hash, &ctx); 957480f31c2SKonrad Witaszczyk bcopy(hash, kdc->kdc_iv, sizeof(kdc->kdc_iv)); 958480f31c2SKonrad Witaszczyk 959480f31c2SKonrad Witaszczyk switch (kdc->kdc_encryption) { 960480f31c2SKonrad Witaszczyk case KERNELDUMP_ENC_AES_256_CBC: 961480f31c2SKonrad Witaszczyk if (rijndael_cipherInit(&kdc->kdc_ci, MODE_CBC, 962480f31c2SKonrad Witaszczyk kdc->kdc_iv) <= 0) { 963480f31c2SKonrad Witaszczyk error = EINVAL; 964480f31c2SKonrad Witaszczyk goto out; 965480f31c2SKonrad Witaszczyk } 966480f31c2SKonrad Witaszczyk break; 967480f31c2SKonrad Witaszczyk default: 968480f31c2SKonrad Witaszczyk error = EINVAL; 969480f31c2SKonrad Witaszczyk goto out; 970480f31c2SKonrad Witaszczyk } 971480f31c2SKonrad Witaszczyk 972480f31c2SKonrad Witaszczyk kdk = kdc->kdc_dumpkey; 973480f31c2SKonrad Witaszczyk memcpy(kdk->kdk_iv, kdc->kdc_iv, sizeof(kdk->kdk_iv)); 974480f31c2SKonrad Witaszczyk out: 975480f31c2SKonrad Witaszczyk explicit_bzero(hash, sizeof(hash)); 976480f31c2SKonrad Witaszczyk return (error); 977480f31c2SKonrad Witaszczyk } 978480f31c2SKonrad Witaszczyk 97901938d36SMark Johnston static uint32_t 980480f31c2SKonrad Witaszczyk kerneldumpcrypto_dumpkeysize(const struct kerneldumpcrypto *kdc) 981480f31c2SKonrad Witaszczyk { 982480f31c2SKonrad Witaszczyk 983480f31c2SKonrad Witaszczyk if (kdc == NULL) 984480f31c2SKonrad Witaszczyk return (0); 985480f31c2SKonrad Witaszczyk return (kdc->kdc_dumpkeysize); 986480f31c2SKonrad Witaszczyk } 98701938d36SMark Johnston #endif /* EKCD */ 988480f31c2SKonrad Witaszczyk 98964a16434SMark Johnston #ifdef GZIO 99064a16434SMark Johnston static struct kerneldumpgz * 99164a16434SMark Johnston kerneldumpgz_create(struct dumperinfo *di, uint8_t compression) 99264a16434SMark Johnston { 99364a16434SMark Johnston struct kerneldumpgz *kdgz; 99464a16434SMark Johnston 99564a16434SMark Johnston if (compression != KERNELDUMP_COMP_GZIP) 99664a16434SMark Johnston return (NULL); 99764a16434SMark Johnston kdgz = malloc(sizeof(*kdgz), M_DUMPER, M_WAITOK | M_ZERO); 99864a16434SMark Johnston kdgz->kdgz_stream = gzio_init(kerneldumpgz_write_cb, GZIO_DEFLATE, 99964a16434SMark Johnston di->maxiosize, kerneldump_gzlevel, di); 100064a16434SMark Johnston if (kdgz->kdgz_stream == NULL) { 100164a16434SMark Johnston free(kdgz, M_DUMPER); 100264a16434SMark Johnston return (NULL); 100364a16434SMark Johnston } 100464a16434SMark Johnston kdgz->kdgz_buf = malloc(di->maxiosize, M_DUMPER, M_WAITOK | M_NODUMP); 100564a16434SMark Johnston return (kdgz); 100664a16434SMark Johnston } 100764a16434SMark Johnston 100864a16434SMark Johnston static void 100964a16434SMark Johnston kerneldumpgz_destroy(struct dumperinfo *di) 101064a16434SMark Johnston { 101164a16434SMark Johnston struct kerneldumpgz *kdgz; 101264a16434SMark Johnston 101364a16434SMark Johnston kdgz = di->kdgz; 101464a16434SMark Johnston if (kdgz == NULL) 101564a16434SMark Johnston return; 101664a16434SMark Johnston gzio_fini(kdgz->kdgz_stream); 101764a16434SMark Johnston explicit_bzero(kdgz->kdgz_buf, di->maxiosize); 101864a16434SMark Johnston free(kdgz->kdgz_buf, M_DUMPER); 101964a16434SMark Johnston free(kdgz, M_DUMPER); 102064a16434SMark Johnston } 102164a16434SMark Johnston #endif /* GZIO */ 102264a16434SMark Johnston 102381661c94SPoul-Henning Kamp /* Registration of dumpers */ 102481661c94SPoul-Henning Kamp int 1025480f31c2SKonrad Witaszczyk set_dumper(struct dumperinfo *di, const char *devname, struct thread *td, 102664a16434SMark Johnston uint8_t compression, uint8_t encryption, const uint8_t *key, 102764a16434SMark Johnston uint32_t encryptedkeysize, const uint8_t *encryptedkey) 102881661c94SPoul-Henning Kamp { 10295a3a8ec0SAlfred Perlstein size_t wantcopy; 10305ebb15b9SPawel Jakub Dawidek int error; 10315ebb15b9SPawel Jakub Dawidek 10325ebb15b9SPawel Jakub Dawidek error = priv_check(td, PRIV_SETDUMPER); 10335ebb15b9SPawel Jakub Dawidek if (error != 0) 10345ebb15b9SPawel Jakub Dawidek return (error); 1035e95499bdSAlfred Perlstein 103681661c94SPoul-Henning Kamp if (di == NULL) { 1037480f31c2SKonrad Witaszczyk error = 0; 1038480f31c2SKonrad Witaszczyk goto cleanup; 103981661c94SPoul-Henning Kamp } 104081661c94SPoul-Henning Kamp if (dumper.dumper != NULL) 104181661c94SPoul-Henning Kamp return (EBUSY); 104281661c94SPoul-Henning Kamp dumper = *di; 1043480f31c2SKonrad Witaszczyk dumper.blockbuf = NULL; 1044480f31c2SKonrad Witaszczyk dumper.kdc = NULL; 104564a16434SMark Johnston dumper.kdgz = NULL; 1046480f31c2SKonrad Witaszczyk 1047480f31c2SKonrad Witaszczyk if (encryption != KERNELDUMP_ENC_NONE) { 1048480f31c2SKonrad Witaszczyk #ifdef EKCD 1049480f31c2SKonrad Witaszczyk dumper.kdc = kerneldumpcrypto_create(di->blocksize, encryption, 1050480f31c2SKonrad Witaszczyk key, encryptedkeysize, encryptedkey); 1051480f31c2SKonrad Witaszczyk if (dumper.kdc == NULL) { 1052480f31c2SKonrad Witaszczyk error = EINVAL; 1053480f31c2SKonrad Witaszczyk goto cleanup; 1054480f31c2SKonrad Witaszczyk } 1055480f31c2SKonrad Witaszczyk #else 1056480f31c2SKonrad Witaszczyk error = EOPNOTSUPP; 1057480f31c2SKonrad Witaszczyk goto cleanup; 1058480f31c2SKonrad Witaszczyk #endif 1059480f31c2SKonrad Witaszczyk } 1060480f31c2SKonrad Witaszczyk 10615a3a8ec0SAlfred Perlstein wantcopy = strlcpy(dumpdevname, devname, sizeof(dumpdevname)); 10625a3a8ec0SAlfred Perlstein if (wantcopy >= sizeof(dumpdevname)) { 1063bad7e7f3SAlfred Perlstein printf("set_dumper: device name truncated from '%s' -> '%s'\n", 1064bad7e7f3SAlfred Perlstein devname, dumpdevname); 1065bad7e7f3SAlfred Perlstein } 1066480f31c2SKonrad Witaszczyk 106764a16434SMark Johnston if (compression != KERNELDUMP_COMP_NONE) { 106864a16434SMark Johnston #ifdef GZIO 106964a16434SMark Johnston /* 107064a16434SMark Johnston * We currently can't support simultaneous encryption and 107164a16434SMark Johnston * compression. 107264a16434SMark Johnston */ 107364a16434SMark Johnston if (encryption != KERNELDUMP_ENC_NONE) { 107464a16434SMark Johnston error = EOPNOTSUPP; 107564a16434SMark Johnston goto cleanup; 107664a16434SMark Johnston } 107764a16434SMark Johnston dumper.kdgz = kerneldumpgz_create(&dumper, compression); 107864a16434SMark Johnston if (dumper.kdgz == NULL) { 107964a16434SMark Johnston error = EINVAL; 108064a16434SMark Johnston goto cleanup; 108164a16434SMark Johnston } 108264a16434SMark Johnston #else 108364a16434SMark Johnston error = EOPNOTSUPP; 108464a16434SMark Johnston goto cleanup; 108564a16434SMark Johnston #endif 108664a16434SMark Johnston } 108764a16434SMark Johnston 10885dc5dab6SConrad Meyer dumper.blockbuf = malloc(di->blocksize, M_DUMPER, M_WAITOK | M_ZERO); 108981661c94SPoul-Henning Kamp return (0); 1090480f31c2SKonrad Witaszczyk cleanup: 1091480f31c2SKonrad Witaszczyk #ifdef EKCD 1092480f31c2SKonrad Witaszczyk if (dumper.kdc != NULL) { 1093480f31c2SKonrad Witaszczyk explicit_bzero(dumper.kdc, sizeof(*dumper.kdc) + 1094480f31c2SKonrad Witaszczyk dumper.kdc->kdc_dumpkeysize); 1095480f31c2SKonrad Witaszczyk free(dumper.kdc, M_EKCD); 1096480f31c2SKonrad Witaszczyk } 1097480f31c2SKonrad Witaszczyk #endif 109864a16434SMark Johnston 109964a16434SMark Johnston #ifdef GZIO 110064a16434SMark Johnston kerneldumpgz_destroy(&dumper); 110164a16434SMark Johnston #endif 110264a16434SMark Johnston 1103480f31c2SKonrad Witaszczyk if (dumper.blockbuf != NULL) { 1104480f31c2SKonrad Witaszczyk explicit_bzero(dumper.blockbuf, dumper.blocksize); 1105480f31c2SKonrad Witaszczyk free(dumper.blockbuf, M_DUMPER); 1106480f31c2SKonrad Witaszczyk } 1107480f31c2SKonrad Witaszczyk explicit_bzero(&dumper, sizeof(dumper)); 1108480f31c2SKonrad Witaszczyk dumpdevname[0] = '\0'; 1109480f31c2SKonrad Witaszczyk return (error); 111081661c94SPoul-Henning Kamp } 111181661c94SPoul-Henning Kamp 1112480f31c2SKonrad Witaszczyk static int 1113480f31c2SKonrad Witaszczyk dump_check_bounds(struct dumperinfo *di, off_t offset, size_t length) 1114007b1b7bSRuslan Ermilov { 1115007b1b7bSRuslan Ermilov 1116007b1b7bSRuslan Ermilov if (length != 0 && (offset < di->mediaoffset || 1117007b1b7bSRuslan Ermilov offset - di->mediaoffset + length > di->mediasize)) { 111858379067SAttilio Rao printf("Attempt to write outside dump device boundaries.\n" 111958379067SAttilio Rao "offset(%jd), mediaoffset(%jd), length(%ju), mediasize(%jd).\n", 112058379067SAttilio Rao (intmax_t)offset, (intmax_t)di->mediaoffset, 112158379067SAttilio Rao (uintmax_t)length, (intmax_t)di->mediasize); 112258379067SAttilio Rao return (ENOSPC); 1123007b1b7bSRuslan Ermilov } 112446fcd1afSMark Johnston if (length % di->blocksize != 0) { 112546fcd1afSMark Johnston printf("Attempt to write partial block of length %ju.\n", 112646fcd1afSMark Johnston (uintmax_t)length); 112746fcd1afSMark Johnston return (EINVAL); 112846fcd1afSMark Johnston } 112946fcd1afSMark Johnston if (offset % di->blocksize != 0) { 113046fcd1afSMark Johnston printf("Attempt to write at unaligned offset %jd.\n", 113146fcd1afSMark Johnston (intmax_t)offset); 113246fcd1afSMark Johnston return (EINVAL); 1133480f31c2SKonrad Witaszczyk } 1134480f31c2SKonrad Witaszczyk 113546fcd1afSMark Johnston return (0); 113601938d36SMark Johnston } 113701938d36SMark Johnston 1138480f31c2SKonrad Witaszczyk #ifdef EKCD 1139480f31c2SKonrad Witaszczyk static int 1140480f31c2SKonrad Witaszczyk dump_encrypt(struct kerneldumpcrypto *kdc, uint8_t *buf, size_t size) 1141480f31c2SKonrad Witaszczyk { 1142480f31c2SKonrad Witaszczyk 1143480f31c2SKonrad Witaszczyk switch (kdc->kdc_encryption) { 1144480f31c2SKonrad Witaszczyk case KERNELDUMP_ENC_AES_256_CBC: 1145480f31c2SKonrad Witaszczyk if (rijndael_blockEncrypt(&kdc->kdc_ci, &kdc->kdc_ki, buf, 1146480f31c2SKonrad Witaszczyk 8 * size, buf) <= 0) { 1147480f31c2SKonrad Witaszczyk return (EIO); 1148480f31c2SKonrad Witaszczyk } 1149480f31c2SKonrad Witaszczyk if (rijndael_cipherInit(&kdc->kdc_ci, MODE_CBC, 1150480f31c2SKonrad Witaszczyk buf + size - 16 /* IV size for AES-256-CBC */) <= 0) { 1151480f31c2SKonrad Witaszczyk return (EIO); 1152480f31c2SKonrad Witaszczyk } 1153480f31c2SKonrad Witaszczyk break; 1154480f31c2SKonrad Witaszczyk default: 1155480f31c2SKonrad Witaszczyk return (EINVAL); 1156480f31c2SKonrad Witaszczyk } 1157480f31c2SKonrad Witaszczyk 1158480f31c2SKonrad Witaszczyk return (0); 1159480f31c2SKonrad Witaszczyk } 1160480f31c2SKonrad Witaszczyk 1161480f31c2SKonrad Witaszczyk /* Encrypt data and call dumper. */ 1162480f31c2SKonrad Witaszczyk static int 116346fcd1afSMark Johnston dump_encrypted_write(struct dumperinfo *di, void *virtual, 116446fcd1afSMark Johnston vm_offset_t physical, off_t offset, size_t length) 1165480f31c2SKonrad Witaszczyk { 1166480f31c2SKonrad Witaszczyk static uint8_t buf[KERNELDUMP_BUFFER_SIZE]; 1167480f31c2SKonrad Witaszczyk struct kerneldumpcrypto *kdc; 1168480f31c2SKonrad Witaszczyk int error; 1169480f31c2SKonrad Witaszczyk size_t nbytes; 1170480f31c2SKonrad Witaszczyk 1171480f31c2SKonrad Witaszczyk kdc = di->kdc; 1172480f31c2SKonrad Witaszczyk 1173480f31c2SKonrad Witaszczyk while (length > 0) { 1174480f31c2SKonrad Witaszczyk nbytes = MIN(length, sizeof(buf)); 1175480f31c2SKonrad Witaszczyk bcopy(virtual, buf, nbytes); 1176480f31c2SKonrad Witaszczyk 1177480f31c2SKonrad Witaszczyk if (dump_encrypt(kdc, buf, nbytes) != 0) 1178480f31c2SKonrad Witaszczyk return (EIO); 1179480f31c2SKonrad Witaszczyk 118046fcd1afSMark Johnston error = dump_write(di, buf, physical, offset, nbytes); 1181480f31c2SKonrad Witaszczyk if (error != 0) 1182480f31c2SKonrad Witaszczyk return (error); 1183480f31c2SKonrad Witaszczyk 1184480f31c2SKonrad Witaszczyk offset += nbytes; 1185480f31c2SKonrad Witaszczyk virtual = (void *)((uint8_t *)virtual + nbytes); 1186480f31c2SKonrad Witaszczyk length -= nbytes; 1187480f31c2SKonrad Witaszczyk } 1188480f31c2SKonrad Witaszczyk 1189480f31c2SKonrad Witaszczyk return (0); 1190480f31c2SKonrad Witaszczyk } 1191480f31c2SKonrad Witaszczyk 1192480f31c2SKonrad Witaszczyk static int 119364a16434SMark Johnston dump_write_key(struct dumperinfo *di, off_t offset) 1194480f31c2SKonrad Witaszczyk { 119501938d36SMark Johnston struct kerneldumpcrypto *kdc; 1196480f31c2SKonrad Witaszczyk 119701938d36SMark Johnston kdc = di->kdc; 119801938d36SMark Johnston if (kdc == NULL) 119901938d36SMark Johnston return (0); 120064a16434SMark Johnston return (dump_write(di, kdc->kdc_dumpkey, 0, offset, 120101938d36SMark Johnston kdc->kdc_dumpkeysize)); 1202007b1b7bSRuslan Ermilov } 120301938d36SMark Johnston #endif /* EKCD */ 1204007b1b7bSRuslan Ermilov 120564a16434SMark Johnston #ifdef GZIO 120664a16434SMark Johnston static int 120764a16434SMark Johnston kerneldumpgz_write_cb(void *base, size_t length, off_t offset, void *arg) 120864a16434SMark Johnston { 120964a16434SMark Johnston struct dumperinfo *di; 121064a16434SMark Johnston size_t resid, rlength; 121164a16434SMark Johnston int error; 121264a16434SMark Johnston 121364a16434SMark Johnston di = arg; 121464a16434SMark Johnston 121564a16434SMark Johnston if (length % di->blocksize != 0) { 121664a16434SMark Johnston /* 121764a16434SMark Johnston * This must be the final write after flushing the compression 121864a16434SMark Johnston * stream. Write as many full blocks as possible and stash the 121964a16434SMark Johnston * residual data in the dumper's block buffer. It will be 122064a16434SMark Johnston * padded and written in dump_finish(). 122164a16434SMark Johnston */ 122264a16434SMark Johnston rlength = rounddown(length, di->blocksize); 122364a16434SMark Johnston if (rlength != 0) { 122464a16434SMark Johnston error = _dump_append(di, base, 0, rlength); 122564a16434SMark Johnston if (error != 0) 122664a16434SMark Johnston return (error); 122764a16434SMark Johnston } 122864a16434SMark Johnston resid = length - rlength; 122964a16434SMark Johnston memmove(di->blockbuf, (uint8_t *)base + rlength, resid); 123064a16434SMark Johnston di->kdgz->kdgz_resid = resid; 123164a16434SMark Johnston return (EAGAIN); 123264a16434SMark Johnston } 123364a16434SMark Johnston return (_dump_append(di, base, 0, length)); 123464a16434SMark Johnston } 123564a16434SMark Johnston #endif /* GZIO */ 123664a16434SMark Johnston 123764a16434SMark Johnston /* 123864a16434SMark Johnston * Write a kerneldumpheader at the specified offset. The header structure is 512 123964a16434SMark Johnston * bytes in size, but we must pad to the device sector size. 124064a16434SMark Johnston */ 1241480f31c2SKonrad Witaszczyk static int 1242480f31c2SKonrad Witaszczyk dump_write_header(struct dumperinfo *di, struct kerneldumpheader *kdh, 124364a16434SMark Johnston off_t offset) 1244480f31c2SKonrad Witaszczyk { 1245e9666bf6SMark Johnston void *buf; 1246e9666bf6SMark Johnston size_t hdrsz; 1247480f31c2SKonrad Witaszczyk 1248e9666bf6SMark Johnston hdrsz = sizeof(*kdh); 1249e9666bf6SMark Johnston if (hdrsz > di->blocksize) 1250e9666bf6SMark Johnston return (ENOMEM); 1251e9666bf6SMark Johnston 1252e9666bf6SMark Johnston if (hdrsz == di->blocksize) 1253e9666bf6SMark Johnston buf = kdh; 1254e9666bf6SMark Johnston else { 1255e9666bf6SMark Johnston buf = di->blockbuf; 1256e9666bf6SMark Johnston memset(buf, 0, di->blocksize); 1257e9666bf6SMark Johnston memcpy(buf, kdh, hdrsz); 1258e9666bf6SMark Johnston } 1259e9666bf6SMark Johnston 126064a16434SMark Johnston return (dump_write(di, buf, 0, offset, di->blocksize)); 12615dc5dab6SConrad Meyer } 12625dc5dab6SConrad Meyer 126350ef60daSMark Johnston /* 126450ef60daSMark Johnston * Don't touch the first SIZEOF_METADATA bytes on the dump device. This is to 126550ef60daSMark Johnston * protect us from metadata and metadata from us. 126650ef60daSMark Johnston */ 126750ef60daSMark Johnston #define SIZEOF_METADATA (64 * 1024) 126850ef60daSMark Johnston 126950ef60daSMark Johnston /* 127064a16434SMark Johnston * Do some preliminary setup for a kernel dump: initialize state for encryption, 127164a16434SMark Johnston * if requested, and make sure that we have enough space on the dump device. 127264a16434SMark Johnston * 127364a16434SMark Johnston * We set things up so that the dump ends before the last sector of the dump 127464a16434SMark Johnston * device, at which the trailing header is written. 127564a16434SMark Johnston * 127664a16434SMark Johnston * +-----------+------+-----+----------------------------+------+ 127764a16434SMark Johnston * | | lhdr | key | ... kernel dump ... | thdr | 127864a16434SMark Johnston * +-----------+------+-----+----------------------------+------+ 127964a16434SMark Johnston * 1 blk opt <------- dump extent --------> 1 blk 128064a16434SMark Johnston * 128164a16434SMark Johnston * Dumps written using dump_append() start at the beginning of the extent. 128264a16434SMark Johnston * Uncompressed dumps will use the entire extent, but compressed dumps typically 128364a16434SMark Johnston * will not. The true length of the dump is recorded in the leading and trailing 128464a16434SMark Johnston * headers once the dump has been completed. 128550ef60daSMark Johnston */ 128650ef60daSMark Johnston int 128746fcd1afSMark Johnston dump_start(struct dumperinfo *di, struct kerneldumpheader *kdh) 128850ef60daSMark Johnston { 128964a16434SMark Johnston uint64_t dumpextent; 129001938d36SMark Johnston uint32_t keysize; 129150ef60daSMark Johnston 129201938d36SMark Johnston #ifdef EKCD 129364a16434SMark Johnston int error = kerneldumpcrypto_init(di->kdc); 129450ef60daSMark Johnston if (error != 0) 129550ef60daSMark Johnston return (error); 129601938d36SMark Johnston keysize = kerneldumpcrypto_dumpkeysize(di->kdc); 129701938d36SMark Johnston #else 129801938d36SMark Johnston keysize = 0; 129901938d36SMark Johnston #endif 130050ef60daSMark Johnston 130164a16434SMark Johnston dumpextent = dtoh64(kdh->dumpextent); 130264a16434SMark Johnston if (di->mediasize < SIZEOF_METADATA + dumpextent + 2 * di->blocksize + 130364a16434SMark Johnston keysize) { 130464a16434SMark Johnston #ifdef GZIO 130564a16434SMark Johnston if (di->kdgz != NULL) { 130664a16434SMark Johnston /* 130764a16434SMark Johnston * We don't yet know how much space the compressed dump 130864a16434SMark Johnston * will occupy, so try to use the whole swap partition 130964a16434SMark Johnston * (minus the first 64KB) in the hope that the 131064a16434SMark Johnston * compressed dump will fit. If that doesn't turn out to 131164a16434SMark Johnston * be enouch, the bounds checking in dump_write() 131264a16434SMark Johnston * will catch us and cause the dump to fail. 131364a16434SMark Johnston */ 131464a16434SMark Johnston dumpextent = di->mediasize - SIZEOF_METADATA - 131564a16434SMark Johnston 2 * di->blocksize - keysize; 131664a16434SMark Johnston kdh->dumpextent = htod64(dumpextent); 131764a16434SMark Johnston } else 131801938d36SMark Johnston #endif 131964a16434SMark Johnston return (E2BIG); 132064a16434SMark Johnston } 132164a16434SMark Johnston 132264a16434SMark Johnston /* The offset at which to begin writing the dump. */ 132364a16434SMark Johnston di->dumpoff = di->mediaoffset + di->mediasize - di->blocksize - 132464a16434SMark Johnston dumpextent; 132550ef60daSMark Johnston 132650ef60daSMark Johnston return (0); 132750ef60daSMark Johnston } 132850ef60daSMark Johnston 132964a16434SMark Johnston static int 133064a16434SMark Johnston _dump_append(struct dumperinfo *di, void *virtual, vm_offset_t physical, 133146fcd1afSMark Johnston size_t length) 133246fcd1afSMark Johnston { 133346fcd1afSMark Johnston int error; 133446fcd1afSMark Johnston 133546fcd1afSMark Johnston #ifdef EKCD 133646fcd1afSMark Johnston if (di->kdc != NULL) 133746fcd1afSMark Johnston error = dump_encrypted_write(di, virtual, physical, di->dumpoff, 133846fcd1afSMark Johnston length); 133946fcd1afSMark Johnston else 134046fcd1afSMark Johnston #endif 134146fcd1afSMark Johnston error = dump_write(di, virtual, physical, di->dumpoff, length); 134246fcd1afSMark Johnston if (error == 0) 134346fcd1afSMark Johnston di->dumpoff += length; 134446fcd1afSMark Johnston return (error); 134546fcd1afSMark Johnston } 134646fcd1afSMark Johnston 134764a16434SMark Johnston /* 134864a16434SMark Johnston * Write to the dump device starting at dumpoff. When compression is enabled, 134964a16434SMark Johnston * writes to the device will be performed using a callback that gets invoked 135064a16434SMark Johnston * when the compression stream's output buffer is full. 135164a16434SMark Johnston */ 135264a16434SMark Johnston int 135364a16434SMark Johnston dump_append(struct dumperinfo *di, void *virtual, vm_offset_t physical, 135464a16434SMark Johnston size_t length) 135564a16434SMark Johnston { 135664a16434SMark Johnston #ifdef GZIO 135764a16434SMark Johnston void *buf; 135864a16434SMark Johnston 135964a16434SMark Johnston if (di->kdgz != NULL) { 136064a16434SMark Johnston /* Bounce through a buffer to avoid gzip CRC errors. */ 136164a16434SMark Johnston if (length > di->maxiosize) 136264a16434SMark Johnston return (EINVAL); 136364a16434SMark Johnston buf = di->kdgz->kdgz_buf; 136464a16434SMark Johnston memmove(buf, virtual, length); 136564a16434SMark Johnston return (gzio_write(di->kdgz->kdgz_stream, buf, length)); 136664a16434SMark Johnston } 136764a16434SMark Johnston #endif 136864a16434SMark Johnston return (_dump_append(di, virtual, physical, length)); 136964a16434SMark Johnston } 137064a16434SMark Johnston 137164a16434SMark Johnston /* 137264a16434SMark Johnston * Write to the dump device at the specified offset. 137364a16434SMark Johnston */ 137446fcd1afSMark Johnston int 137546fcd1afSMark Johnston dump_write(struct dumperinfo *di, void *virtual, vm_offset_t physical, 137646fcd1afSMark Johnston off_t offset, size_t length) 137746fcd1afSMark Johnston { 137846fcd1afSMark Johnston int error; 137946fcd1afSMark Johnston 138046fcd1afSMark Johnston error = dump_check_bounds(di, offset, length); 138146fcd1afSMark Johnston if (error != 0) 138246fcd1afSMark Johnston return (error); 138346fcd1afSMark Johnston return (di->dumper(di->priv, virtual, physical, offset, length)); 138446fcd1afSMark Johnston } 138546fcd1afSMark Johnston 138650ef60daSMark Johnston /* 138764a16434SMark Johnston * Perform kernel dump finalization: flush the compression stream, if necessary, 138864a16434SMark Johnston * write the leading and trailing kernel dump headers now that we know the true 138964a16434SMark Johnston * length of the dump, and optionally write the encryption key following the 139064a16434SMark Johnston * leading header. 139150ef60daSMark Johnston */ 139250ef60daSMark Johnston int 139346fcd1afSMark Johnston dump_finish(struct dumperinfo *di, struct kerneldumpheader *kdh) 139450ef60daSMark Johnston { 139564a16434SMark Johnston uint64_t extent; 139664a16434SMark Johnston uint32_t keysize; 139750ef60daSMark Johnston int error; 139850ef60daSMark Johnston 139964a16434SMark Johnston extent = dtoh64(kdh->dumpextent); 140064a16434SMark Johnston 140164a16434SMark Johnston #ifdef EKCD 140264a16434SMark Johnston keysize = kerneldumpcrypto_dumpkeysize(di->kdc); 140364a16434SMark Johnston #else 140464a16434SMark Johnston keysize = 0; 140564a16434SMark Johnston #endif 140664a16434SMark Johnston 140764a16434SMark Johnston #ifdef GZIO 140864a16434SMark Johnston if (di->kdgz != NULL) { 140964a16434SMark Johnston error = gzio_flush(di->kdgz->kdgz_stream); 141064a16434SMark Johnston if (error == EAGAIN) { 141164a16434SMark Johnston /* We have residual data in di->blockbuf. */ 141264a16434SMark Johnston error = dump_write(di, di->blockbuf, 0, di->dumpoff, 141364a16434SMark Johnston di->blocksize); 141464a16434SMark Johnston di->dumpoff += di->kdgz->kdgz_resid; 141564a16434SMark Johnston di->kdgz->kdgz_resid = 0; 141664a16434SMark Johnston } 141764a16434SMark Johnston if (error != 0) 141864a16434SMark Johnston return (error); 141964a16434SMark Johnston 142064a16434SMark Johnston /* 142164a16434SMark Johnston * We now know the size of the compressed dump, so update the 142264a16434SMark Johnston * header accordingly and recompute parity. 142364a16434SMark Johnston */ 142464a16434SMark Johnston kdh->dumplength = htod64(di->dumpoff - 142564a16434SMark Johnston (di->mediaoffset + di->mediasize - di->blocksize - extent)); 142664a16434SMark Johnston kdh->parity = 0; 142764a16434SMark Johnston kdh->parity = kerneldump_parity(kdh); 142864a16434SMark Johnston 142964a16434SMark Johnston gzio_reset(di->kdgz->kdgz_stream); 143064a16434SMark Johnston } 143164a16434SMark Johnston #endif 143264a16434SMark Johnston 143364a16434SMark Johnston /* 143464a16434SMark Johnston * Write kerneldump headers at the beginning and end of the dump extent. 143564a16434SMark Johnston * Write the key after the leading header. 143664a16434SMark Johnston */ 143764a16434SMark Johnston error = dump_write_header(di, kdh, 143864a16434SMark Johnston di->mediaoffset + di->mediasize - 2 * di->blocksize - extent - 143964a16434SMark Johnston keysize); 144064a16434SMark Johnston if (error != 0) 144164a16434SMark Johnston return (error); 144264a16434SMark Johnston 144364a16434SMark Johnston #ifdef EKCD 144464a16434SMark Johnston error = dump_write_key(di, 144564a16434SMark Johnston di->mediaoffset + di->mediasize - di->blocksize - extent - keysize); 144664a16434SMark Johnston if (error != 0) 144764a16434SMark Johnston return (error); 144864a16434SMark Johnston #endif 144964a16434SMark Johnston 145064a16434SMark Johnston error = dump_write_header(di, kdh, 145164a16434SMark Johnston di->mediaoffset + di->mediasize - di->blocksize); 145250ef60daSMark Johnston if (error != 0) 145350ef60daSMark Johnston return (error); 145450ef60daSMark Johnston 145550ef60daSMark Johnston (void)dump_write(di, NULL, 0, 0, 0); 145650ef60daSMark Johnston return (0); 145750ef60daSMark Johnston } 145850ef60daSMark Johnston 1459e6592ee5SPeter Wemm void 146001938d36SMark Johnston dump_init_header(const struct dumperinfo *di, struct kerneldumpheader *kdh, 146101938d36SMark Johnston char *magic, uint32_t archver, uint64_t dumplen) 1462e6592ee5SPeter Wemm { 1463ab384d75SMark Johnston size_t dstsize; 1464e6592ee5SPeter Wemm 1465e6592ee5SPeter Wemm bzero(kdh, sizeof(*kdh)); 14667a9c38e6SAlan Somers strlcpy(kdh->magic, magic, sizeof(kdh->magic)); 14677a9c38e6SAlan Somers strlcpy(kdh->architecture, MACHINE_ARCH, sizeof(kdh->architecture)); 1468e6592ee5SPeter Wemm kdh->version = htod32(KERNELDUMPVERSION); 1469e6592ee5SPeter Wemm kdh->architectureversion = htod32(archver); 1470e6592ee5SPeter Wemm kdh->dumplength = htod64(dumplen); 147164a16434SMark Johnston kdh->dumpextent = kdh->dumplength; 1472e6592ee5SPeter Wemm kdh->dumptime = htod64(time_second); 147301938d36SMark Johnston #ifdef EKCD 147401938d36SMark Johnston kdh->dumpkeysize = htod32(kerneldumpcrypto_dumpkeysize(di->kdc)); 147501938d36SMark Johnston #else 147601938d36SMark Johnston kdh->dumpkeysize = 0; 147701938d36SMark Johnston #endif 147801938d36SMark Johnston kdh->blocksize = htod32(di->blocksize); 14797a9c38e6SAlan Somers strlcpy(kdh->hostname, prison0.pr_hostname, sizeof(kdh->hostname)); 1480ab384d75SMark Johnston dstsize = sizeof(kdh->versionstring); 1481ab384d75SMark Johnston if (strlcpy(kdh->versionstring, version, dstsize) >= dstsize) 1482ab384d75SMark Johnston kdh->versionstring[dstsize - 2] = '\n'; 1483e6592ee5SPeter Wemm if (panicstr != NULL) 14847a9c38e6SAlan Somers strlcpy(kdh->panicstring, panicstr, sizeof(kdh->panicstring)); 148564a16434SMark Johnston #ifdef GZIO 148664a16434SMark Johnston if (di->kdgz != NULL) 148764a16434SMark Johnston kdh->compression = KERNELDUMP_COMP_GZIP; 148864a16434SMark Johnston #endif 1489e6592ee5SPeter Wemm kdh->parity = kerneldump_parity(kdh); 1490e6592ee5SPeter Wemm } 14913af72c11SBjoern A. Zeeb 14923af72c11SBjoern A. Zeeb #ifdef DDB 14933af72c11SBjoern A. Zeeb DB_SHOW_COMMAND(panic, db_show_panic) 14943af72c11SBjoern A. Zeeb { 14953af72c11SBjoern A. Zeeb 14963af72c11SBjoern A. Zeeb if (panicstr == NULL) 14973af72c11SBjoern A. Zeeb db_printf("panicstr not set\n"); 14983af72c11SBjoern A. Zeeb else 14993af72c11SBjoern A. Zeeb db_printf("panic: %s\n", panicstr); 15003af72c11SBjoern A. Zeeb } 15013af72c11SBjoern A. Zeeb #endif 1502