/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 1998, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright 2015 Nexenta Systems, Inc. All rights reserved. * Copyright 2020 Joyent, Inc. * Copyright 2024 MNX Cloud, Inc. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "dconf.h" #include "minfree.h" #include "utils.h" #include "swap.h" typedef struct dc_token { const char *tok_name; int (*tok_parse)(dumpconf_t *, char *); int (*tok_print)(const dumpconf_t *, FILE *); } dc_token_t; static int print_device(const dumpconf_t *, FILE *); static int print_savdir(const dumpconf_t *, FILE *); static int print_content(const dumpconf_t *, FILE *); static int print_enable(const dumpconf_t *, FILE *); static int print_csave(const dumpconf_t *, FILE *); static const dc_token_t tokens[] = { { "DUMPADM_DEVICE", dconf_str2device, print_device }, { "DUMPADM_SAVDIR", dconf_str2savdir, print_savdir }, { "DUMPADM_CONTENT", dconf_str2content, print_content }, { "DUMPADM_ENABLE", dconf_str2enable, print_enable }, { "DUMPADM_CSAVE", dconf_str2csave, print_csave }, { NULL, NULL, NULL } }; static const char DC_STR_ON[] = "on"; /* On string */ static const char DC_STR_OFF[] = "off"; /* Off string */ static const char DC_STR_YES[] = "yes"; /* Enable on string */ static const char DC_STR_NO[] = "no"; /* Enable off string */ static const char DC_STR_SWAP[] = "swap"; /* Default dump device */ static const char DC_STR_NONE[] = "none"; /* The pages included in the dump */ static const char DC_STR_KERNEL[] = "kernel"; /* Kernel only */ static const char DC_STR_CURPROC[] = "curproc"; /* Kernel + current process */ static const char DC_STR_ALL[] = "all"; /* All pages */ /* * Permissions and ownership for the configuration file: */ #define DC_OWNER 0 /* Uid 0 (root) */ #define DC_GROUP 1 /* Gid 1 (other) */ #define DC_PERM (S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH) /* Mode 0644 */ static void dconf_init(dumpconf_t *dcp, int dcmode) { struct utsname ut; /* * Default device for dumps is 'swap' (appropriate swap device), * and default savecore directory is /var/crash/`uname -n`, * which is compatible with pre-dumpadm behavior. */ (void) strcpy(dcp->dc_device, DC_STR_SWAP); (void) strcpy(dcp->dc_savdir, "/var/crash"); if (uname(&ut) != -1) { (void) strcat(dcp->dc_savdir, "/"); (void) strcat(dcp->dc_savdir, ut.nodename); } /* * Default is contents kernel, savecore enabled on reboot, * savecore saves compressed core files. */ dcp->dc_cflags = DUMP_KERNEL; dcp->dc_enable = DC_ON; dcp->dc_csave = DC_COMPRESSED; dcp->dc_mode = dcmode; dcp->dc_conf_fp = NULL; dcp->dc_conf_fd = -1; dcp->dc_dump_fd = -1; dcp->dc_readonly = false; dcp->dc_parsable = false; dcp->dc_headers = true; } int dconf_open(dumpconf_t *dcp, const char *dpath, const char *fpath, int dcmode) { char buf[BUFSIZ]; int line; const char *fpmode = "r+"; dconf_init(dcp, dcmode); if ((dcp->dc_dump_fd = open(dpath, O_RDWR)) == -1) { warn(gettext("failed to open %s"), dpath); return (-1); } if ((dcp->dc_conf_fd = open(fpath, O_RDWR | O_CREAT, DC_PERM)) == -1) { /* * Attempt to open the file read-only. */ if ((dcp->dc_conf_fd = open(fpath, O_RDONLY)) == -1) { warn(gettext("failed to open %s"), fpath); return (-1); } dcp->dc_readonly = true; fpmode = "r"; } if ((dcp->dc_conf_fp = fdopen(dcp->dc_conf_fd, fpmode)) == NULL) { warn(gettext("failed to open stream for %s"), fpath); return (-1); } /* * If we're in override mode, the current kernel settings override the * default settings and anything invalid in the configuration file. */ if (dcmode == DC_OVERRIDE) (void) dconf_getdev(dcp); for (line = 1; fgets(buf, BUFSIZ, dcp->dc_conf_fp) != NULL; line++) { char name[BUFSIZ], value[BUFSIZ]; const dc_token_t *tokp; int len; if (buf[0] == '#' || buf[0] == '\n') continue; /* * Look for "name=value", with optional whitespace on either * side, terminated by a newline, and consuming the whole line. */ /* LINTED - unbounded string specifier */ if (sscanf(buf, " %[^=]=%s \n%n", name, value, &len) == 2 && name[0] != '\0' && value[0] != '\0' && len == strlen(buf)) { /* * Locate a matching token in the tokens[] table, * and invoke its parsing function. */ for (tokp = tokens; tokp->tok_name != NULL; tokp++) { if (strcmp(name, tokp->tok_name) == 0) { if (tokp->tok_parse(dcp, value) == -1) { warn(gettext("\"%s\", line %d: " "warning: invalid %s\n"), fpath, line, name); } break; } } /* * If we hit the end of the tokens[] table, * no matching token was found. */ if (tokp->tok_name == NULL) { warn(gettext("\"%s\", line %d: warning: " "invalid token: %s\n"), fpath, line, name); } } else { warn(gettext("\"%s\", line %d: syntax error\n"), fpath, line); } } /* * If we're not in override mode, the current kernel settings * override the settings read from the configuration file. */ if (dcmode == DC_CURRENT) return (dconf_getdev(dcp)); return (0); } int dconf_getdev(dumpconf_t *dcp) { int status = 0; if ((dcp->dc_cflags = ioctl(dcp->dc_dump_fd, DIOCGETCONF, 0)) == -1) { warn(gettext("failed to get kernel dump settings")); status = -1; } if (ioctl(dcp->dc_dump_fd, DIOCGETDEV, dcp->dc_device) == -1) { if (errno != ENODEV) { warn(gettext("failed to get dump device")); status = -1; } else dcp->dc_device[0] = '\0'; } return (status); } int dconf_close(dumpconf_t *dcp) { if (fclose(dcp->dc_conf_fp) == 0) { (void) close(dcp->dc_dump_fd); return (0); } return (-1); } int dconf_write(dumpconf_t *dcp) { const dc_token_t *tokp; if (fseeko(dcp->dc_conf_fp, (off_t)0, SEEK_SET) == -1) { warn(gettext("failed to seek config file")); return (-1); } if (ftruncate(dcp->dc_conf_fd, (off_t)0) == -1) { warn(gettext("failed to truncate config file")); return (-1); } (void) fputs("#\n# dumpadm.conf\n#\n" "# Configuration parameters for system crash dump.\n" "# Do NOT edit this file by hand -- use dumpadm(8) instead.\n" "#\n", dcp->dc_conf_fp); for (tokp = tokens; tokp->tok_name != NULL; tokp++) { if (fprintf(dcp->dc_conf_fp, "%s=", tokp->tok_name) == -1 || tokp->tok_print(dcp, dcp->dc_conf_fp) == -1) { warn(gettext("failed to write token")); return (-1); } } if (fflush(dcp->dc_conf_fp) != 0) warn(gettext("warning: failed to flush config file")); if (fsync(dcp->dc_conf_fd) == -1) warn(gettext("warning: failed to sync config file to disk")); if (fchmod(dcp->dc_conf_fd, DC_PERM) == -1) warn(gettext("warning: failed to reset mode on config file")); if (fchown(dcp->dc_conf_fd, DC_OWNER, DC_GROUP) == -1) warn(gettext("warning: failed to reset owner on config file")); return (0); } static int open_stat64(const char *path, struct stat64 *stp) { int fd = open64(path, O_RDONLY); if (fd >= 0) { int status = fstat64(fd, stp); (void) close(fd); return (status); } return (-1); } static int dconf_swap_compare(const swapent_t *s1, const swapent_t *s2) { struct stat64 st1, st2; int prefer_s1 = -1; /* Return value to move s1 left (s1 < s2) */ int prefer_s2 = 1; /* Return value to move s2 left (s1 > s2) */ /* * First try: open and fstat each swap entry. If either system * call fails, arbitrarily prefer the other entry. */ if (open_stat64(s1->ste_path, &st1) == -1) return (prefer_s2); if (open_stat64(s2->ste_path, &st2) == -1) return (prefer_s1); /* * Second try: if both entries are block devices, or if * neither is a block device, prefer the larger. */ if (S_ISBLK(st1.st_mode) == S_ISBLK(st2.st_mode)) { if (st2.st_size > st1.st_size) return (prefer_s2); return (prefer_s1); } /* * Third try: prefer the entry that is a block device. */ if (S_ISBLK(st2.st_mode)) return (prefer_s2); return (prefer_s1); } static int dconf_dev_ioctl(dumpconf_t *dcp, int cmd) { if (ioctl(dcp->dc_dump_fd, cmd, dcp->dc_device) == 0) return (0); switch (errno) { case ENOTSUP: warn(gettext("dumps not supported on %s\n"), dcp->dc_device); break; case EBUSY: warn(gettext("device %s is already in use\n"), dcp->dc_device); break; case EBADR: /* ZFS pool is too fragmented to support a dump device */ warn(gettext("device %s is too fragmented to be used as " "a dump device\n"), dcp->dc_device); break; default: /* * NOTE: The stmsboot(8) command's boot-up script parses this * error to get the dump device name. If you change the format * of this message, make sure that stmsboot(8) is in sync. */ warn(gettext("cannot use %s as dump device"), dcp->dc_device); } return (-1); } int dconf_update(dumpconf_t *dcp, int checkinuse) { int oconf; int error; char *msg; error = 0; if (checkinuse && (dm_inuse(dcp->dc_device, &msg, DM_WHO_DUMP, &error) || error)) { if (error != 0) { warn(gettext("failed to determine if %s is" " in use"), dcp->dc_device); } else { warn(msg); free(msg); return (-1); } } /* * Save the existing dump configuration in case something goes wrong. */ if ((oconf = ioctl(dcp->dc_dump_fd, DIOCGETCONF, 0)) == -1) { warn(gettext("failed to get kernel dump configuration")); return (-1); } oconf &= DUMP_CONTENT; dcp->dc_cflags &= DUMP_CONTENT; if (ioctl(dcp->dc_dump_fd, DIOCSETCONF, dcp->dc_cflags) == -1) { warn(gettext("failed to update kernel dump configuration")); return (-1); } if (strcmp(dcp->dc_device, DC_STR_SWAP) == 0) { swaptbl_t *swt; int i; if ((swt = swap_list()) == NULL) goto err; if (swt->swt_n == 0) { warn(gettext("no swap devices are available\n")); free(swt); goto err; } qsort(&swt->swt_ent[0], swt->swt_n, sizeof (swapent_t), (int (*)(const void *, const void *))dconf_swap_compare); /* * Iterate through the prioritized list of swap entries, * trying to configure one as the dump device. */ for (i = 0; i < swt->swt_n; i++) { if (ioctl(dcp->dc_dump_fd, DIOCSETDEV, swt->swt_ent[i].ste_path) == 0) { (void) strcpy(dcp->dc_device, swt->swt_ent[i].ste_path); break; } } if (i == swt->swt_n) { warn(gettext("no swap devices could be configured " "as the dump device\n")); free(swt); goto err; } free(swt); } else if (strcmp(dcp->dc_device, DC_STR_NONE) == 0) { if (ioctl(dcp->dc_dump_fd, DIOCRMDEV, NULL) == -1) { warn(gettext("failed to remove dump device")); return (-1); } } else if (dcp->dc_device[0] != '\0') { /* * If we're not in forcible update mode, then fail the change * if the selected device cannot be used as the dump device, * or if it is not big enough to hold the dump. */ if (dcp->dc_mode == DC_CURRENT) { struct stat64 st; uint64_t d; if (dconf_dev_ioctl(dcp, DIOCTRYDEV) == -1) goto err; if (open_stat64(dcp->dc_device, &st) == -1) { warn(gettext("failed to access %s"), dcp->dc_device); goto err; } if ((error = zvol_check_dump_config( dcp->dc_device)) > 0) goto err; if (ioctl(dcp->dc_dump_fd, DIOCGETDUMPSIZE, &d) == -1) { warn(gettext("failed to get kernel dump size")); goto err; } if (st.st_size < d) { warn(gettext("dump device %s is too small to " "hold a system dump\ndump size %llu " "bytes, device size %lld bytes\n"), dcp->dc_device, d, st.st_size); goto err; } } if (dconf_dev_ioctl(dcp, DIOCSETDEV) == -1) goto err; } /* * Now that we've updated the dump device, we need to issue another * ioctl to re-read the config flags to determine whether we * obtained DUMP_EXCL access on our dump device. */ if ((dcp->dc_cflags = ioctl(dcp->dc_dump_fd, DIOCGETCONF, 0)) == -1) { warn(gettext("failed to re-read kernel dump configuration")); return (-1); } return (0); err: (void) ioctl(dcp->dc_dump_fd, DIOCSETCONF, oconf); return (-1); } int dconf_write_uuid(dumpconf_t *dcp) { char uuidstr[36 + 1]; uuid_t uu; int err; uuid_generate(uu); uuid_unparse(uu, uuidstr); err = ioctl(dcp->dc_dump_fd, DIOCSETUUID, uuidstr); if (err) warn(gettext("kernel image uuid write failed")); return (err == 0); } int dconf_get_dumpsize(dumpconf_t *dcp) { char buf[32]; uint64_t d; if (ioctl(dcp->dc_dump_fd, DIOCGETDUMPSIZE, &d) == -1) { warn(gettext("failed to get kernel dump size")); return (-1); } if (dcp->dc_parsable) (void) snprintf(buf, sizeof (buf), "%llu", d); else zfs_nicenum(d, buf, sizeof (buf)); if (dcp->dc_headers) (void) printf(gettext("Estimated dump size: ")); (void) printf("%s\n", buf); return (0); } void dconf_print(dumpconf_t *dcp, FILE *fp) { u_longlong_t min; char *content; if (dcp->dc_cflags & DUMP_ALL) content = gettext("all"); else if (dcp->dc_cflags & DUMP_CURPROC) content = gettext("kernel and current process"); else content = gettext("kernel"); (void) fprintf(fp, gettext(" Dump content: %s pages\n"), content); if (dcp->dc_device[0] != '\0') { (void) fprintf(fp, gettext(" Dump device: %s (%s)\n"), dcp->dc_device, (dcp->dc_cflags & DUMP_EXCL) ? gettext("dedicated") : gettext("swap")); } else { (void) fprintf(fp, gettext(" Dump device: none " "(dumps disabled)\n")); } (void) fprintf(fp, gettext("Savecore directory: %s"), dcp->dc_savdir); if (minfree_read(dcp->dc_savdir, &min) == 0) { if (min < 1024 || (min % 1024) != 0) (void) fprintf(fp, gettext(" (minfree = %lluKB)"), min); else (void) fprintf(fp, gettext(" (minfree = %lluMB)"), min / 1024); } (void) fprintf(fp, gettext("\n")); (void) fprintf(fp, gettext(" Savecore enabled: %s\n"), (dcp->dc_enable == DC_OFF) ? gettext("no") : gettext("yes")); (void) fprintf(fp, gettext(" Save compressed: %s\n"), (dcp->dc_csave == DC_UNCOMPRESSED) ? gettext("off") : gettext("on")); } int dconf_str2device(dumpconf_t *dcp, char *buf) { if (strcasecmp(buf, DC_STR_SWAP) == 0) { (void) strcpy(dcp->dc_device, DC_STR_SWAP); return (0); } if (strcasecmp(buf, DC_STR_NONE) == 0) { (void) strcpy(dcp->dc_device, DC_STR_NONE); return (0); } if (valid_abspath(buf)) { (void) strcpy(dcp->dc_device, buf); return (0); } return (-1); } int dconf_str2savdir(dumpconf_t *dcp, char *buf) { if (valid_abspath(buf)) { (void) strcpy(dcp->dc_savdir, buf); return (0); } return (-1); } int dconf_str2content(dumpconf_t *dcp, char *buf) { if (strcasecmp(buf, DC_STR_KERNEL) == 0) { dcp->dc_cflags = (dcp->dc_cflags & ~DUMP_CONTENT) | DUMP_KERNEL; return (0); } if (strcasecmp(buf, DC_STR_CURPROC) == 0) { dcp->dc_cflags = (dcp->dc_cflags & ~DUMP_CONTENT) | DUMP_CURPROC; return (0); } if (strcasecmp(buf, DC_STR_ALL) == 0) { dcp->dc_cflags = (dcp->dc_cflags & ~DUMP_CONTENT) | DUMP_ALL; return (0); } warn(gettext("invalid dump content type -- %s\n"), buf); return (-1); } int dconf_str2enable(dumpconf_t *dcp, char *buf) { if (strcasecmp(buf, DC_STR_YES) == 0) { dcp->dc_enable = DC_ON; return (0); } if (strcasecmp(buf, DC_STR_NO) == 0) { dcp->dc_enable = DC_OFF; return (0); } warn(gettext("invalid enable value -- %s\n"), buf); return (-1); } int dconf_str2csave(dumpconf_t *dcp, char *buf) { if (strcasecmp(buf, DC_STR_ON) == 0) { dcp->dc_csave = DC_COMPRESSED; return (0); } if (strcasecmp(buf, DC_STR_OFF) == 0) { dcp->dc_csave = DC_UNCOMPRESSED; return (0); } warn(gettext("invalid save compressed value -- %s\n"), buf); return (-1); } static int print_content(const dumpconf_t *dcp, FILE *fp) { const char *content; if (dcp->dc_cflags & DUMP_ALL) content = DC_STR_ALL; else if (dcp->dc_cflags & DUMP_CURPROC) content = DC_STR_CURPROC; else content = DC_STR_KERNEL; return (fprintf(fp, "%s\n", content)); } static int print_device(const dumpconf_t *dcp, FILE *fp) { return (fprintf(fp, "%s\n", (dcp->dc_device[0] != '\0') ? dcp->dc_device : DC_STR_SWAP)); } static int print_enable(const dumpconf_t *dcp, FILE *fp) { return (fprintf(fp, "%s\n", (dcp->dc_enable == DC_OFF) ? DC_STR_NO : DC_STR_YES)); } static int print_csave(const dumpconf_t *dcp, FILE *fp) { return (fprintf(fp, "%s\n", (dcp->dc_csave == DC_COMPRESSED) ? DC_STR_ON : DC_STR_OFF)); } static int print_savdir(const dumpconf_t *dcp, FILE *fp) { return (fprintf(fp, "%s\n", dcp->dc_savdir)); }