/* list.c: vinum interface program, list routines */ /*- * Copyright (c) 1997, 1998 * Nan Yang Computer Services Limited. All rights reserved. * * Parts copyright (c) 1997, 1998 Cybernet Corporation, NetMAX project. * * Written by Greg Lehey * * This software is distributed under the so-called ``Berkeley * License'': * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Company nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * This software is provided ``as is'', and any express or implied * warranties, including, but not limited to, the implied warranties of * merchantability and fitness for a particular purpose are disclaimed. * In no event shall the company or contributors be liable for any * direct, indirect, incidental, special, exemplary, or consequential * damages (including, but not limited to, procurement of substitute * goods or services; loss of use, data, or profits; or business * interruption) however caused and on any theory of liability, whether * in contract, strict liability, or tort (including negligence or * otherwise) arising in any way out of the use of this software, even if * advised of the possibility of such damage. * * $Id: list.c,v 1.25 2000/12/20 03:38:43 grog Exp grog $ * $FreeBSD: src/sbin/vinum/list.c,v 1.25.2.4 2001/05/28 05:58:04 grog Exp $ * $DragonFly: src/sbin/vinum/list.c,v 1.10 2007/06/18 05:13:41 dillon Exp $ */ #define _KERNEL_STRUCTURES #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "vext.h" #include #include /* * When a subdisk is reviving or initializing, we * check to see whether it is still progressing * and print a warning if not. We check every 50 * ms, up to a maximum of 5 seconds. This is the * counter value. */ #define STALLCOUNT 100 /* * Take a size in sectors and return a pointer to * a string which represents the size best. If lj * is != 0, return left justified, otherwise in a * fixed 10 character field suitable for columnar * printing. * * Note this uses a static string: it's only * intended to be used immediately for printing. */ char * roughlength(int64_t bytes, int lj) { static char description[16]; if (bytes > (int64_t) MEGABYTE * 10000) /* gigabytes */ sprintf(description, lj ? "%lld GB" : "%10lld GB", (long long)bytes / GIGABYTE); else if (bytes > KILOBYTE * 10000) /* megabytes */ sprintf(description, lj ? "%lld MB" : "%10lld MB", (long long)bytes / MEGABYTE); else if (bytes > 10000) /* kilobytes */ sprintf(description, lj ? "%lld kB" : "%10lld kB", (long long)bytes / KILOBYTE); else /* bytes */ sprintf(description, lj ? "%lld B" : "%10lld B", (long long)bytes); return description; } void vinum_list(int argc, char *argv[], char *argv0[]) { int object; int i; enum objecttype type; if (sflag & (!vflag)) /* just summary stats, */ printf("Object\t\t Reads\t\tBytes\tAverage\tRecover\t Writes" "\t\tBytes\tAverage\t Mblock Mstripe\n\n"); if (argc == 0) listconfig(); /* list everything */ else { for (i = 0; i < argc; i++) { object = find_object(argv[i], &type); /* look for it */ if (vinum_li(object, type)) fprintf(stderr, "Can't find object: %s\n", argv[i]); } } } /* List an object */ int vinum_li(int object, enum objecttype type) { switch (type) { case drive_object: vinum_ldi(object, recurse); break; case sd_object: vinum_lsi(object, recurse); break; case plex_object: vinum_lpi(object, recurse); break; case volume_object: vinum_lvi(object, recurse); break; default: return -1; } return 0; } void vinum_ldi(int driveno, int recurse) { time_t t; /* because Bruce says so */ int sdno; /* for recursion */ get_drive_info(&drive, driveno); if (drive.state != drive_unallocated) { if (vflag) { printf("Drive %s:\tDevice %s\n", drive.label.name, drive.devicename); t = drive.label.date_of_birth.tv_sec; printf("\t\tCreated on %s at %s", drive.label.sysname, ctime(&t)); t = drive.label.last_update.tv_sec; printf("\t\tConfig last updated %s", /* care: \n at end */ ctime(&t)); printf("\t\tSize: %16lld bytes (%lld MB)\n\t\tUsed: %16lld bytes (%lld MB)\n" "\t\tAvailable: %11qd bytes (%d MB)\n", (long long) drive.label.drive_size, /* bytes used */ (long long) (drive.label.drive_size / MEGABYTE), (long long) (drive.label.drive_size - drive.sectors_available * DEV_BSIZE), (long long) (drive.label.drive_size - drive.sectors_available * DEV_BSIZE) / MEGABYTE, (long long) drive.sectors_available * DEV_BSIZE, (int) (drive.sectors_available * DEV_BSIZE / MEGABYTE)); printf("\t\tState: %s\n", drive_state(drive.state)); if (drive.lasterror != 0) printf("\t\tLast error: %s\n", strerror(drive.lasterror)); else printf("\t\tLast error: none\n"); printf("\t\tActive requests:\t%d\n\t\tMaximum active:\t\t%d\n", drive.active, drive.maxactive); if (Verbose) { /* print the free list */ int fe; /* freelist entry */ union freeunion { struct drive_freelist freelist; struct ferq { /* request to pass to ioctl */ int driveno; int fe; } ferq; } freeunion; printf("\t\tFree list contains %d entries:\n\t\t Offset\t Size\n", drive.freelist_entries); for (fe = 0; fe < drive.freelist_entries; fe++) { freeunion.ferq.driveno = drive.driveno; freeunion.ferq.fe = fe; if (ioctl(superdev, VINUM_GETFREELIST, &freeunion.freelist) < 0) { fprintf(stderr, "Can't get free list element %d: %s\n", fe, strerror(errno)); longjmp(command_fail, -1); } printf("\t\t%9lld\t%9lld\n", (long long) freeunion.freelist.offset, (long long) freeunion.freelist.sectors); } } } else if (!sflag) { printf("D %-21s State: %s\tDevice %s\tAvail: %lld/%lld MB", drive.label.name, drive_state(drive.state), drive.devicename, (long long) drive.sectors_available * DEV_BSIZE / MEGABYTE, (long long) (drive.label.drive_size / MEGABYTE)); if (drive.label.drive_size != 0) printf(" (%d%%)", (int) ((drive.sectors_available * 100 * DEV_BSIZE) / (drive.label.drive_size - (DATASTART * DEV_BSIZE)))); } if (sflag) { if (vflag || Verbose) { printf("\t\tReads: \t%16lld\n\t\tBytes read:\t%16lld (%s)\n", (long long) drive.reads, (long long) drive.bytes_read, roughlength(drive.bytes_read, 1)); if (drive.reads != 0) printf("\t\tAverage read:\t%16lld bytes\n", (long long) drive.bytes_read / drive.reads); printf("\t\tWrites: \t%16lld\n\t\tBytes written:\t%16lld (%s)\n", (long long) drive.writes, (long long) drive.bytes_written, roughlength(drive.bytes_written, 1)); if (drive.writes != 0) printf("\t\tAverage write:\t%16lld bytes\n", (long long) (drive.bytes_written / drive.writes)); } else { /* non-verbose stats */ printf("%-15s\t%7lld\t%15lld\t", drive.label.name, (long long) drive.reads, (long long) drive.bytes_read); if (drive.reads != 0) printf("%7lld\t\t", (long long) (drive.bytes_read / drive.reads)); else printf("\t\t"); printf("%7lld\t%15lld\t", (long long) drive.writes, (long long) drive.bytes_written); if (drive.writes != 0) printf("%7lld", (long long) (drive.bytes_written / drive.writes)); } } if (recurse) { printf("\n"); for (sdno = 0; sdno < vinum_conf.subdisks_allocated; sdno++) { get_sd_info(&sd, sdno); if ((sd.state != sd_unallocated) && (sd.driveno == drive.driveno)) vinum_lsi(sd.sdno, 0); } } printf("\n"); } } void vinum_ld(int argc, char *argv[], char *argv0[]) { int i; int driveno; enum objecttype type; if (ioctl(superdev, VINUM_GETCONFIG, &vinum_conf) < 0) { perror("Can't get vinum config"); return; } if (argc == 0) { for (driveno = 0; driveno < vinum_conf.drives_allocated; driveno++) vinum_ldi(driveno, recurse); } else { for (i = 0; i < argc; i++) { driveno = find_object(argv[i], &type); if (type == drive_object) vinum_ldi(driveno, recurse); else fprintf(stderr, "%s is not a drive\n", argv[i]); } } } void vinum_lvi(int volno, int recurse) { get_volume_info(&vol, volno); if (vol.state != volume_unallocated) { if (vflag) { printf("Volume %s:\tSize: %lld bytes (%lld MB)\n" "\t\tState: %s\n\t\tFlags: %s%s%s\n", vol.name, ((long long) vol.size) * DEV_BSIZE, ((long long) vol.size) * DEV_BSIZE / MEGABYTE, volume_state(vol.state), vol.flags & VF_OPEN ? "open " : "", (vol.flags & VF_WRITETHROUGH ? "writethrough " : ""), (vol.flags & VF_RAW ? "raw" : "")); printf("\t\t%d plexes\n\t\tRead policy: ", vol.plexes); if (vol.preferred_plex < 0) /* round robin */ printf("round robin\n"); else { get_plex_info(&plex, vol.plex[vol.preferred_plex]); printf("plex %d (%s)\n", vol.preferred_plex, plex.name); } } else if (!sflag) /* brief */ printf("V %-21s State: %s\tPlexes: %7d\tSize: %s\n", vol.name, volume_state(vol.state), vol.plexes, roughlength(vol.size << DEV_BSHIFT, 0)); if (sflag) { if (vflag || Verbose) { printf("\t\tReads: \t%16lld\n\t\tRecovered:\t%16lld\n\t\tBytes read:\t%16lld (%s)\n", (long long) vol.reads, (long long) vol.recovered_reads, (long long) vol.bytes_read, roughlength(vol.bytes_read, 1)); if (vol.reads != 0) printf("\t\tAverage read:\t%16lld bytes\n", (long long) (vol.bytes_read / vol.reads)); printf("\t\tWrites: \t%16lld\n\t\tBytes written:\t%16lld (%s)\n", (long long) vol.writes, (long long) vol.bytes_written, roughlength(vol.bytes_written, 1)); if (vol.writes != 0) printf("\t\tAverage write:\t%16lld bytes\n", (long long) (vol.bytes_written / vol.writes)); printf("\t\tActive requests:\t%8d\n", vol.active); } else { /* brief stats listing */ printf("%-15s\t%7lld\t%15lld\t", vol.name, (long long) vol.reads, (long long) vol.bytes_read); if (vol.reads != 0) printf("%7lld\t", (long long) (vol.bytes_read / vol.reads)); else printf("\t"); printf("%7lld\t", (long long) vol.recovered_reads); printf("%7lld\t%15lld\t", (long long)vol.writes, (long long)vol.bytes_written); if (vol.writes != 0) printf("%7lld\n", (long long) (vol.bytes_written / vol.writes)); else printf("\n"); } } if (vol.plexes > 0) { int plexno; if (Verbose) { /* brief list */ for (plexno = 0; plexno < vol.plexes; plexno++) { get_plex_info(&plex, vol.plex[plexno]); /* Just a brief summary here */ printf("\t\tPlex %2d:\t%s\t(%s), %s\n", plexno, plex.name, plex_org(plex.organization), roughlength(plex.length << DEV_BSHIFT, 0)); } } if (recurse) { for (plexno = 0; plexno < vol.plexes; plexno++) vinum_lpi(vol.plex[plexno], 0); /* first show the plexes */ for (plexno = 0; plexno < vol.plexes; plexno++) { /* then the subdisks */ get_plex_info(&plex, vol.plex[plexno]); if (plex.subdisks > 0) { int sdno; for (sdno = 0; sdno < plex.subdisks; sdno++) { get_plex_sd_info(&sd, vol.plex[plexno], sdno); vinum_lsi(sd.sdno, 0); } } } printf("\n"); } } } } void vinum_lv(int argc, char *argv[], char *argv0[]) { int i; int volno; enum objecttype type; if (ioctl(superdev, VINUM_GETCONFIG, &vinum_conf) < 0) { perror("Can't get vinum config"); return; } if (argc == 0) for (volno = 0; volno < vinum_conf.volumes_allocated; volno++) vinum_lvi(volno, recurse); else { for (i = 0; i < argc; i++) { volno = find_object(argv[i], &type); if (type == volume_object) vinum_lvi(volno, recurse); else fprintf(stderr, "%s is not a volume\n", argv[i]); } } } void vinum_lpi(int plexno, int recurse) { get_plex_info(&plex, plexno); if (plex.state != plex_unallocated) { if (vflag) { printf("Plex %s:\tSize:\t%9lld bytes (%lld MB)\n\t\tSubdisks: %8d\n", plex.name, (long long) plex.length * DEV_BSIZE, (long long) plex.length * DEV_BSIZE / MEGABYTE, plex.subdisks); printf("\t\tState: %s\n\t\tOrganization: %s", plex_state(plex.state), plex_org(plex.organization)); if (isstriped((&plex))) printf("\tStripe size: %s\n", roughlength(plex.stripesize * DEV_BSIZE, 1)); else printf("\n"); if ((isparity((&plex))) && (plex.checkblock != 0)) printf("\t\tCheck block pointer:\t\t%s (%d%%)\n", roughlength((plex.checkblock << DEV_BSHIFT) * (plex.subdisks - 1), 0), (int) (((u_int64_t) (plex.checkblock * 100)) * (plex.subdisks - 1) / plex.length)); if (plex.volno >= 0) { get_volume_info(&vol, plex.volno); printf("\t\tPart of volume %s\n", vol.name); } } else if (!sflag) { /* non-verbose list */ char *org = ""; /* organization */ switch (plex.organization) { case plex_disorg: /* disorganized */ org = "??"; break; case plex_concat: /* concatenated plex */ org = "C"; break; case plex_striped: /* striped plex */ org = "S"; break; case plex_raid4: /* RAID4 plex */ org = "R4"; break; case plex_raid5: /* RAID5 plex */ org = "R5"; break; } printf("P %-18s %2s State: %s\tSubdisks: %5d\tSize: %s", plex.name, org, plex_state(plex.state), plex.subdisks, roughlength(plex.length << DEV_BSHIFT, 0)); } if (sflag) { if (vflag || Verbose) { printf("\t\tReads: \t%16lld\n\t\tBytes read:\t%16lld (%s)\n", (long long) plex.reads, (long long) plex.bytes_read, roughlength(plex.bytes_read, 1)); if (plex.reads != 0) printf("\t\tAverage read:\t%16lld bytes\n", (long long) (plex.bytes_read / plex.reads)); printf("\t\tWrites: \t%16lld\n\t\tBytes written:\t%16lld (%s)\n", (long long) plex.writes, (long long) plex.bytes_written, roughlength(plex.bytes_written, 1)); if (plex.writes != 0) printf("\t\tAverage write:\t%16lld bytes\n", (long long) (plex.bytes_written / plex.writes)); if (((plex.reads + plex.writes) > 0) && isstriped((&plex))) printf("\t\tMultiblock:\t%16lld (%d%%)\n" "\t\tMultistripe:\t%16lld (%d%%)\n", (long long) plex.multiblock, (int) (plex.multiblock * 100 / (plex.reads + plex.writes)), (long long) plex.multistripe, (int) (plex.multistripe * 100 / (plex.reads + plex.writes))); if (plex.recovered_reads) printf("\t\tRecovered reads:%16lld\n", (long long) plex.recovered_reads); if (plex.degraded_writes) printf("\t\tDegraded writes:%16lld\n", (long long) plex.degraded_writes); if (plex.parityless_writes) printf("\t\tParityless writes:%14lld\n", (long long) plex.parityless_writes); } else { printf("%-15s\t%7lld\t%15lld\t", plex.name, (long long) plex.reads, (long long) plex.bytes_read); if (plex.reads != 0) printf("%7lld\t", (long long) (plex.bytes_read / plex.reads)); else printf("\t"); printf("%7lld\t", (long long) plex.recovered_reads); printf("%7lld\t%15lld\t", (long long) plex.writes, (long long) plex.bytes_written); if (plex.writes != 0) printf("%7lld\t", (long long) (plex.bytes_written / plex.writes)); else printf("\t"); printf("%7lld\t%7lld\n", (long long) plex.multiblock, (long long) plex.multistripe); } } if (plex.subdisks > 0) { int sdno; if (Verbose) { printf("\n"); for (sdno = 0; sdno < plex.subdisks; sdno++) { get_plex_sd_info(&sd, plexno, sdno); printf("\t\tSubdisk %d:\t%s\n\t\t state: %s\tsize %11lld (%lld MB)\n", sdno, sd.name, sd_state(sd.state), (long long) sd.sectors * DEV_BSIZE, (long long) sd.sectors * DEV_BSIZE / MEGABYTE); if (plex.organization == plex_concat) printf("\t\t\toffset %9ld (0x%lx)\n", (long) sd.plexoffset, (long) sd.plexoffset); } } if (recurse) { printf("\n"); for (sdno = 0; sdno < plex.subdisks; sdno++) { get_plex_sd_info(&sd, plexno, sdno); vinum_lsi(sd.sdno, 0); } } } printf("\n"); } } void vinum_lp(int argc, char *argv[], char *argv0[]) { int i; int plexno; enum objecttype type; if (ioctl(superdev, VINUM_GETCONFIG, &vinum_conf) < 0) { perror("Can't get vinum config"); return; } if (argc == 0) { for (plexno = 0; plexno < vinum_conf.plexes_allocated; plexno++) vinum_lpi(plexno, recurse); } else { for (i = 0; i < argc; i++) { plexno = find_object(argv[i], &type); if (type == plex_object) vinum_lpi(plexno, recurse); else fprintf(stderr, "%s is not a plex\n", argv[i]); } } } void vinum_lsi(int sdno, int recurse) { long long revived; /* keep an eye on revive progress */ int times; get_sd_info(&sd, sdno); if (sd.state != sd_unallocated) { if (vflag) { printf("Subdisk %s:\n\t\tSize: %16lld bytes (%lld MB)\n\t\tState: %s\n", sd.name, (long long) sd.sectors * DEV_BSIZE, (long long) sd.sectors / (MEGABYTE / DEV_BSIZE), sd_state(sd.state)); if (sd.flags & VF_RETRYERRORS) printf("\t\tretryerrors\n"); if (sd.plexno >= 0) { get_plex_info(&plex, sd.plexno); printf("\t\tPlex %s", plex.name); printf(" at offset %lld (%s)\n", (long long) sd.plexoffset * DEV_BSIZE, roughlength((long long) sd.plexoffset * DEV_BSIZE, 1)); } if (sd.state == sd_reviving) { if (sd.reviver == 0) printf("\t\t*** Start subdisk with 'start' command ***\n"); else { printf("\t\tReviver PID:\t%d\n", sd.reviver); if (kill(sd.reviver, 0) == -1) { if (errno == ESRCH) /* no process */ printf("\t\t*** Revive process has died ***\n"); /* Don't report a problem that "can't happen" */ } else { revived = sd.revived; /* note how far we were */ /* * Wait for up to a second until we * see some progress with the revive. * Do it like this so we don't have * annoying delays in the listing. */ for (times = 0; times < STALLCOUNT; times++) { get_sd_info(&sd, sdno); if (sd.revived != revived) /* progress? */ break; usleep(50000); } if (times == STALLCOUNT) printf("\t\t*** Revive has stalled ***\n"); } } printf("\t\tRevive pointer:\t\t%s (%d%%)\n", roughlength(sd.revived << DEV_BSHIFT, 0), (int) (((u_int64_t) (sd.revived * 100)) / sd.sectors)); printf("\t\tRevive blocksize:\t%s\n" "\t\tRevive interval:\t%10d seconds\n", roughlength(sd.revive_blocksize, 0), sd.revive_interval); } if (sd.state == sd_initializing) { printf("\t\tInitialize pointer:\t%s (%d%%)\n", roughlength(sd.initialized << DEV_BSHIFT, 0), (int) (((u_int64_t) (sd.initialized * 100)) / sd.sectors)); printf("\t\tInitialize blocksize:\t%s\n" "\t\tInitialize interval:\t%10d seconds\n", roughlength(sd.init_blocksize, 0), sd.init_interval); } get_drive_info(&drive, sd.driveno); if (sd.driveoffset < 0) printf("\t\tDrive %s (%s), no offset\n", drive.label.name, drive.devicename); else if (drive.devicename[0] != '\0') /* has a name */ printf("\t\tDrive %s (%s) at offset %lld (%s)\n", drive.label.name, drive.devicename, (long long) (sd.driveoffset * DEV_BSIZE), roughlength(sd.driveoffset * DEV_BSIZE, 1)); else printf("\t\tDrive %s (*missing*) at offset %lld (%s)\n", drive.label.name, (long long) (sd.driveoffset * DEV_BSIZE), roughlength(sd.driveoffset * DEV_BSIZE, 1)); } else if (!sflag) { /* brief listing, no stats */ if (sd.state == sd_reviving) printf("S %-21s State: R %d%%\t", sd.name, (int) (((u_int64_t) (sd.revived * 100)) / sd.sectors)); else if (sd.state == sd_initializing) printf("S %-21s State: I %d%%\t", sd.name, (int) (((u_int64_t) (sd.initialized * 100)) / sd.sectors)); else printf("S %-21s State: %s\t", sd.name, sd_state(sd.state)); if (sd.plexno == -1) printf("(detached)\t"); else printf("PO: %s ", &(roughlength(sd.plexoffset << DEV_BSHIFT, 0))[2]); /* what a kludge! */ printf("Size: %s\n", roughlength(sd.sectors << DEV_BSHIFT, 0)); if (sd.state == sd_reviving) { if (sd.reviver == 0) printf("\t\t\t*** Start %s with 'start' command ***\n", sd.name); else if (kill(sd.reviver, 0) == -1) { if (errno == ESRCH) /* no process */ printf("\t\t\t*** Revive process for %s has died ***\n", sd.name); /* Don't report a problem that "can't happen" */ } else { revived = sd.revived; /* note how far we were */ /* * Wait for up to a second until we * see some progress with the revive. * Do it like this so we don't have * annoying delays in the listing. */ for (times = 0; times < STALLCOUNT; times++) { get_sd_info(&sd, sdno); if (sd.revived != revived) /* progress? */ break; usleep(50000); } if (times == STALLCOUNT) printf("\t\t\t*** Revive of %s has stalled ***\n", sd.name); } } } if (sflag) { if (vflag || Verbose) { printf("\t\tReads: \t%16lld\n\t\tBytes read:\t%16lld (%s)\n", (long long) sd.reads, (long long) sd.bytes_read, roughlength(sd.bytes_read, 1)); if (sd.reads != 0) printf("\t\tAverage read:\t%16lld bytes\n", (long long) (sd.bytes_read / sd.reads)); printf("\t\tWrites: \t%16lld\n\t\tBytes written:\t%16lld (%s)\n", (long long) sd.writes, (long long) sd.bytes_written, roughlength(sd.bytes_written, 1)); if (sd.writes != 0) printf("\t\tAverage write:\t%16lld bytes\n", (long long) (sd.bytes_written / sd.writes)); } else { printf("%-15s\t%7lld\t%15lld\t", sd.name, (long long) sd.reads, (long long) sd.bytes_read); if (sd.reads != 0) printf("%7lld\t\t", (long long) (sd.bytes_read / sd.reads)); else printf("\t\t"); printf("%7lld\t%15lld\t", (long long) sd.writes, (long long) sd.bytes_written); if (sd.writes != 0) printf("%7lld\n", (long long) (sd.bytes_written / sd.writes)); else printf("\n"); } } if (recurse) vinum_ldi(sd.driveno, 0); if (vflag) printf("\n"); /* make it more readable */ } } void vinum_ls(int argc, char *argv[], char *argv0[]) { int i; int sdno; /* Structures to read kernel data into */ struct _vinum_conf vinum_conf; enum objecttype type; if (ioctl(superdev, VINUM_GETCONFIG, &vinum_conf) < 0) { perror("Can't get vinum config"); return; } if (argc == 0) { for (sdno = 0; sdno < vinum_conf.subdisks_allocated; sdno++) vinum_lsi(sdno, recurse); } else { /* specific subdisks */ for (i = 0; i < argc; i++) { sdno = find_object(argv[i], &type); if (type == sd_object) vinum_lsi(sdno, recurse); else fprintf(stderr, "%s is not a subdisk\n", argv[i]); } } } /* List the complete configuration. * XXX Change this to specific lists */ void listconfig(void) { if (ioctl(superdev, VINUM_GETCONFIG, &vinum_conf) < 0) { perror("Can't get vinum config"); return; } printf("%d drives:\n", vinum_conf.drives_used); if (vinum_conf.drives_used > 0) { vinum_ld(0, NULL, NULL); printf("\n"); } printf("%d volumes:\n", vinum_conf.volumes_used); if (vinum_conf.volumes_used > 0) { vinum_lv(0, NULL, NULL); printf("\n"); } printf("%d plexes:\n", vinum_conf.plexes_used); if (vinum_conf.plexes_used > 0) { vinum_lp(0, NULL, NULL); printf("\n"); } printf("%d subdisks:\n", vinum_conf.subdisks_used); if (vinum_conf.subdisks_used > 0) vinum_ls(0, NULL, NULL); } /* Convert a timeval to Tue Oct 13 13:54:14.0434324 * Return pointer to text */ char * timetext(struct timeval *time) { static char text[30]; time_t t; /* to keep Bruce happy */ t = time->tv_sec; strcpy(text, ctime(&t)); /* to the second */ sprintf(&text[19], ".%06ld", time->tv_usec); /* and the microseconds */ return &text[11]; } void vinum_info(int argc, char *argv[], char *argv0[]) { struct meminfo meminfo; struct mc malloced; int i; #if VINUMDEBUG struct rqinfo rq; #endif if (ioctl(superdev, VINUM_GETCONFIG, &vinum_conf) < 0) { perror("Can't get vinum config"); return; } printf("Flags: 0x%x\n", vinum_conf.flags); if (ioctl(superdev, VINUM_MEMINFO, &meminfo) < 0) { perror("Can't get information"); return; } printf("Total of %d blocks malloced, total memory: %d\nMaximum allocs: %8d, malloc table at %p\n", meminfo.mallocs, meminfo.total_malloced, meminfo.highwater, meminfo.malloced); printf("%d requests active, maximum %d active\n", vinum_conf.active, vinum_conf.maxactive); if (vflag && (!Verbose)) for (i = 0; i < meminfo.mallocs; i++) { malloced.seq = i; if (ioctl(superdev, VINUM_MALLOCINFO, &malloced) < 0) { perror("Can't get information"); return; } if (!(i & 63)) printf("Block\tSequence\t size\t address\t line\t\tfile\n\n"); printf("%6d\t%6d\t\t%6d\t%p\t%6d\t\t%s\n", i, malloced.seq, malloced.size, malloced.address, malloced.line, (char *) &malloced.file); } #if VINUMDEBUG if (Verbose) { printf("\nTime\t\t Event\t Buf\tDev\t Offset\tBytes\tSD\tSDoff\tDoffset\tGoffset\n\n"); for (i = RQINFO_SIZE - 1; i >= 0; i--) { /* go through the request list in order */ *((int *) &rq) = i; if (ioctl(superdev, VINUM_RQINFO, &rq) < 0) { perror("Can't get information"); return; } /* Compress devminor into something printable. */ rq.devminor = (rq.devminor & 0xff) | ((rq.devminor & 0xfff0000) >> 8); switch (rq.type) { case loginfo_unused: /* never been used */ break; case loginfo_user_bp: /* this is the bp when strategy is called */ printf("%s %dVS %s %p\t%d.%-6d 0x%-9llx\t%d\n", timetext(&rq.timestamp), rq.type, rq.info.b.b_flags & BUF_CMD_READ ? "Read " : "Write", rq.bio, rq.devmajor, rq.devminor, rq.info.bio.bio_offset, rq.info.b.b_bcount); break; case loginfo_sdiol: /* subdisk I/O launch */ case loginfo_user_bpl: /* and this is the bp at launch time */ printf("%s %dLR %s %p\t%d.%-6d 0x%-9llx\t%d\n", timetext(&rq.timestamp), rq.type, rq.info.b.b_flags & BUF_CMD_READ ? "Read " : "Write", rq.bio, rq.devmajor, rq.devminor, rq.info.bio.bio_offset, rq.info.b.b_bcount); break; case loginfo_rqe: /* user RQE */ printf("%s 3RQ %s %p\t%d.%-6d 0x%-9llx\t%d\t%d\t%llx\t%x\t%x\n", timetext(&rq.timestamp), rq.info.rqe.b.b_flags & BUF_CMD_READ ? "Read " : "Write", rq.bio, rq.devmajor, rq.devminor, rq.info.rqe.b.b_bio1.bio_offset, rq.info.rqe.b.b_bcount, rq.info.rqe.sdno, rq.info.rqe.sdoffset, rq.info.rqe.dataoffset, rq.info.rqe.groupoffset); break; case loginfo_iodone: /* iodone called */ printf("%s 4DN %s %p\t%d.%-6d 0x%-9llx\t%d\t%d\t%llx\t%x\t%x\n", timetext(&rq.timestamp), rq.info.rqe.b.b_flags & BUF_CMD_READ ? "Read " : "Write", rq.bio, rq.devmajor, rq.devminor, rq.info.rqe.b.b_bio1.bio_offset, rq.info.rqe.b.b_bcount, rq.info.rqe.sdno, rq.info.rqe.sdoffset, rq.info.rqe.dataoffset, rq.info.rqe.groupoffset); break; case loginfo_raid5_data: /* RAID-5 write data block */ printf("%s 5RD %s %p\t%d.%-6d 0x%-9llx\t%d\t%d\t%llx\t%x\t%x\n", timetext(&rq.timestamp), rq.info.rqe.b.b_flags & BUF_CMD_READ ? "Read " : "Write", rq.bio, rq.devmajor, rq.devminor, rq.info.rqe.b.b_bio1.bio_offset, rq.info.rqe.b.b_bcount, rq.info.rqe.sdno, rq.info.rqe.sdoffset, rq.info.rqe.dataoffset, rq.info.rqe.groupoffset); break; case loginfo_raid5_parity: /* RAID-5 write parity block */ printf("%s 6RP %s %p\t%d.%-6d 0x%-9llx\t%d\t%d\t%llx\t%x\t%x\n", timetext(&rq.timestamp), rq.info.rqe.b.b_flags & BUF_CMD_READ ? "Read " : "Write", rq.bio, rq.devmajor, rq.devminor, rq.info.rqe.b.b_bio1.bio_offset, rq.info.rqe.b.b_bcount, rq.info.rqe.sdno, rq.info.rqe.sdoffset, rq.info.rqe.dataoffset, rq.info.rqe.groupoffset); break; case loginfo_sdio: /* subdisk I/O */ printf("%s %dVS %s %p\t\t 0x%-9llx\t%d\t%d\n", timetext(&rq.timestamp), rq.type, rq.info.b.b_flags & BUF_CMD_READ ? "Read " : "Write", rq.bio, rq.info.bio.bio_offset, rq.info.b.b_bcount, rq.devminor); break; case loginfo_sdiodone: /* subdisk I/O done */ printf("%s %dSD %s %p\t\t 0x%-9llx\t%d\t%d\n", timetext(&rq.timestamp), rq.type, rq.info.b.b_flags & BUF_CMD_READ ? "Read " : "Write", rq.bio, rq.info.bio.bio_offset, rq.info.b.b_bcount, rq.devminor); break; case loginfo_lockwait: printf("%s Lockwait %p\t 0x%llx\n", timetext(&rq.timestamp), rq.bio, rq.info.lockinfo.stripe); break; case loginfo_lock: printf("%s Lock %p\t 0x%llx\n", timetext(&rq.timestamp), rq.bio, rq.info.lockinfo.stripe); break; case loginfo_unlock: printf("%s Unlock\t %p\t 0x%llx\n", timetext(&rq.timestamp), rq.bio, rq.info.lockinfo.stripe); break; } } } #endif } /* * Print config file to a file. This is a userland version * of kernel format_config */ void vinum_printconfig(int argc, char *argv[], char *argv0[]) { FILE *of; if (argc > 1) { fprintf(stderr, "Usage: \tprintconfig []\n"); return; } else if (argc == 1) of = fopen(argv[0], "w"); else of = stdout; if (of == NULL) { fprintf(stderr, "Can't open %s: %s\n", argv[0], strerror(errno)); return; } printconfig(of, ""); if (argc == 1) fclose(of); } /* * The guts of printconfig. This is called from * vinum_printconfig and from vinum_create when * called without an argument, in order to give * the user something to edit. */ void printconfig(FILE * of, char *comment) { struct utsname uname_s; time_t now; int i; struct volume vol; struct plex plex; struct sd sd; struct drive drive; if (ioctl(superdev, VINUM_GETCONFIG, &vinum_conf) < 0) { perror("Can't get vinum config"); return; } uname(&uname_s); /* get our system name */ time(&now); /* and the current time */ fprintf(of, "# Vinum configuration of %s, saved at %s", uname_s.nodename, ctime(&now)); /* say who did it */ if (comment[0] != 0) /* abuse this for commented version */ fprintf(of, "# Current configuration:\n"); for (i = 0; i < vinum_conf.drives_allocated; i++) { get_drive_info(&drive, i); if (drive.state != drive_unallocated) { fprintf(of, "%sdrive %s device %s\n", comment, drive.label.name, drive.devicename); } } for (i = 0; i < vinum_conf.volumes_allocated; i++) { get_volume_info(&vol, i); if (vol.state != volume_unallocated) { if (vol.preferred_plex >= 0) /* preferences, */ fprintf(of, "%svolume %s readpol prefer %s\n", comment, vol.name, vinum_conf.plex[vol.preferred_plex].name); else /* default round-robin */ fprintf(of, "%svolume %s\n", comment, vol.name); } } /* Then the plex configuration */ for (i = 0; i < vinum_conf.plexes_allocated; i++) { get_plex_info(&plex, i); if (plex.state != plex_unallocated) { fprintf(of, "%splex name %s org %s ", comment, plex.name, plex_org(plex.organization)); if (isstriped((&plex))) fprintf(of, "%ds ", (int) plex.stripesize); if (plex.volno >= 0) { /* we have a volume */ get_volume_info(&vol, plex.volno); fprintf(of, "vol %s ", vol.name); } else fprintf(of, "detached "); fprintf(of, "\n"); } } /* And finally the subdisk configuration */ for (i = 0; i < vinum_conf.subdisks_allocated; i++) { get_sd_info(&sd, i); if (sd.state != sd_unallocated) { get_drive_info(&drive, sd.driveno); if (sd.plexno >= 0) { get_plex_info(&plex, sd.plexno); fprintf(of, "%ssd name %s drive %s plex %s len %llds driveoffset %llds plexoffset %llds\n", comment, sd.name, drive.label.name, plex.name, (long long) sd.sectors, (long long) sd.driveoffset, (long long) sd.plexoffset); } else fprintf(of, "%ssd name %s drive %s detached len %llds driveoffset %llds\n", comment, sd.name, drive.label.name, (long long) sd.sectors, (long long) sd.driveoffset); } } } void list_defective_objects(void) { int o; /* object */ int heading_needed = 1; if (ioctl(superdev, VINUM_GETCONFIG, &vinum_conf) < 0) { perror("Can't get vinum config"); return; } for (o = 0; o < vinum_conf.drives_allocated; o++) { get_drive_info(&drive, o); if ((drive.state != drive_unallocated) /* drive exists */ &&(drive.state != drive_up)) { /* but it's not up */ if (heading_needed) { printf("Warning: defective objects\n\n"); heading_needed = 0; } vinum_ldi(o, 0); /* print info */ } } for (o = 0; o < vinum_conf.volumes_allocated; o++) { get_volume_info(&vol, o); if ((vol.state != volume_unallocated) /* volume exists */ &&(vol.state != volume_up)) { /* but it's not up */ if (heading_needed) { printf("Warning: defective objects\n\n"); heading_needed = 0; } vinum_lvi(o, 0); /* print info */ } } for (o = 0; o < vinum_conf.plexes_allocated; o++) { get_plex_info(&plex, o); if ((plex.state != plex_unallocated) /* plex exists */ &&(plex.state != plex_up)) { /* but it's not up */ if (heading_needed) { printf("Warning: defective objects\n\n"); heading_needed = 0; } vinum_lpi(o, 0); /* print info */ } } for (o = 0; o < vinum_conf.subdisks_allocated; o++) { get_sd_info(&sd, o); if ((sd.state != sd_unallocated) /* sd exists */ &&(sd.state != sd_up)) { /* but it's not up */ if (heading_needed) { printf("Warning: defective objects\n\n"); heading_needed = 0; } vinum_lsi(o, 0); /* print info */ } } } /* Dump config from specified disk drives */ void vinum_dumpconfig(int argc, char *argv[], char *argv0[]) { int i; if (argc == 0) { /* start everything */ int devs = getnumdevs(); struct statinfo statinfo; char *namelist; char *enamelist; /* end of name list */ int i; char **token; /* list of tokens */ int tokens; /* and their number */ bzero(&statinfo, sizeof(struct statinfo)); statinfo.dinfo = malloc(devs * sizeof(struct statinfo)); namelist = malloc(devs * (DEVSTAT_NAME_LEN + 8)); token = malloc((devs + 1) * sizeof(char *)); if ((statinfo.dinfo == NULL) || (namelist == NULL) || (token == NULL)) { fprintf(stderr, "Can't allocate memory for drive list\n"); return; } bzero(statinfo.dinfo, sizeof(struct devinfo)); tokens = 0; /* no tokens yet */ if (getdevs(&statinfo) < 0) { /* find out what devices we have */ perror("Can't get device list"); return; } namelist[0] = '\0'; /* start with empty namelist */ enamelist = namelist; /* point to the end of the list */ for (i = 0; i < devs; i++) { struct devstat *stat = &statinfo.dinfo->devices[i]; if (((stat->device_type & DEVSTAT_TYPE_MASK) == DEVSTAT_TYPE_DIRECT) /* disk device */ &&((stat->device_type & DEVSTAT_TYPE_PASS) == 0) /* and not passthrough */ &&((stat->device_name[0] != '\0'))) { /* and it has a name */ sprintf(enamelist, "/dev/%s%d", stat->device_name, stat->unit_number); token[tokens] = enamelist; /* point to it */ tokens++; /* one more token */ enamelist = &enamelist[strlen(enamelist) + 1]; /* and start beyond the end */ } } free(statinfo.dinfo); /* don't need the list any more */ for (i = 0; i < tokens; i++) dumpconfig(token[i]); free(namelist); free(token); } else { /* list specified drives */ for (i = 0; i < argc; i++) dumpconfig(argv[i]); } } #define DEVLEN 5 void dumpconfig(char *part) { char partname[MAXPATHLEN]; char *partid; int partition; /* UNIX partition */ int slice; int founddrive; /* flag when we find a vinum drive */ struct disklabel32 label; /* label of this drive */ int driveno; /* fd of drive */ int found; u_int64_t drivelength; if (memcmp(part, "/dev/", DEVLEN) == 0) /* starts with /dev */ memcpy(partname, part, MAXPATHLEN); else { /* prepend */ strcpy(partname, "/dev/"); strncat(&partname[DEVLEN], part, MAXPATHLEN - DEVLEN); } partid = &partname[strlen(partname)]; founddrive = 0; /* no vinum drive found yet on this spindle */ /* first try the partition table */ for (slice = 1; slice < 5; slice++) { sprintf(partid, "s%dc", slice); /* c partition */ driveno = open(partname, O_RDONLY); if (driveno < 0) { if (errno != ENOENT) fprintf(stderr, "Can't open %s: %s (%d)\n", partname, strerror(errno), errno); continue; } if (ioctl(driveno, DIOCGDINFO32, &label) < 0) { fprintf(stderr, "Can't get label from %s: %s (%d)\n", partname, strerror(errno), errno); continue; } for (partition = 0; partition < MAXPARTITIONS; partition++) { if ((partition != 2) /* it's not the c partition */ &&((label.d_partitions[partition].p_fstype == FS_VINUM) /* and it's a Vinum partition */ ||Verbose)) { /* or we're just plain curious */ sprintf(partid, "s%d%c", slice, partition + 'a'); found = check_drive(partname); /* try to open it */ founddrive |= found; /* and note if we were successful at all */ if (label.d_partitions[partition].p_fstype == FS_VINUM) { /* it's a Vinum partition */ drivelength = ((u_int64_t) label.d_partitions[partition].p_size) * DEV_BSIZE; printf("Drive %s: %s (%lld bytes)\n", partname, roughlength(drivelength, 1), (long long)drivelength); if ((!found) && vflag) /* we're talkative */ printf("*** no configuration found ***\n"); } } } } if (founddrive == 0) { /* didn't find anything, */ sprintf(partid, "c"); /* c partition */ driveno = open(partname, O_RDONLY); if (driveno < 0) { if (errno != ENOENT) fprintf(stderr, "Can't open %s: %s (%d)\n", partname, strerror(errno), errno); return; } if (ioctl(driveno, DIOCGDINFO32, &label) < 0) { fprintf(stderr, "Can't get label from %s: %s (%d)\n", partname, strerror(errno), errno); return; } for (partition = 0; partition < MAXPARTITIONS; partition++) { /* try the compatibility partition */ if ((partition != 2) /* it's not the c partition */ &&((label.d_partitions[partition].p_fstype == FS_VINUM) /* and it's a Vinum partition */ ||Verbose)) { /* or we're just plain curious */ sprintf(partid, "%c", partition + 'a'); found = check_drive(partname); /* try to open it */ founddrive |= found; /* and note if we were successful at all */ if (label.d_partitions[partition].p_fstype == FS_VINUM) { /* it's a Vinum partition */ drivelength = ((u_int64_t) label.d_partitions[partition].p_size) * DEV_BSIZE; printf("Drive %s: %s (%lld bytes)\n", partname, roughlength(drivelength, 1), (long long)drivelength); if ((!found) && vflag) /* we're talkative */ printf("*** no configuration found ***\n"); } } } } } /* * Check a drive for a Vinum header. If found, * print configuration information from the drive. * * Return 1 if Vinum config found. */ int check_drive(char *devicename) { int fd; char vinumlabel[DEV_BSIZE]; /* one sector for label */ struct vinum_hdr *hdr = (struct vinum_hdr *) vinumlabel; /* with this structure */ char *config_text; /* read the config info from disk into here */ time_t t; fd = open(devicename, O_RDONLY); if (fd >= 0) { if (lseek(fd, VINUM_LABEL_OFFSET, SEEK_SET) < 0) { fprintf(stderr, "Can't seek label for %s: %s (%d)\n", devicename, strerror(errno), errno); close(fd); return 0; } if (read(fd, vinumlabel, DEV_BSIZE) != DEV_BSIZE) { if (errno != EINVAL) fprintf(stderr, "Can't read label from %s: %s (%d)\n", devicename, strerror(errno), errno); close(fd); return 0; } if ((hdr->magic == VINUM_MAGIC) || (vflag && (hdr->magic == VINUM_NOMAGIC))) { printf("Drive %s:\tDevice %s\n", hdr->label.name, devicename); if (hdr->magic == VINUM_NOMAGIC) printf("*** Drive has been obliterated ***\n"); t = hdr->label.date_of_birth.tv_sec; printf("\t\tCreated on %s at %s", hdr->label.sysname, ctime(&t)); t = hdr->label.last_update.tv_sec; printf("\t\tConfig last updated %s", /* care: \n at end */ ctime(&t)); printf("\t\tSize: %16lld bytes (%lld MB)\n", (long long) hdr->label.drive_size, /* bytes used */ (long long) (hdr->label.drive_size / MEGABYTE)); config_text = (char *) malloc(MAXCONFIG); if (config_text == NULL) fprintf(stderr, "Can't allocate memory\n"); else { if (read(fd, config_text, MAXCONFIG) != MAXCONFIG) fprintf(stderr, "Can't read config from %s: %s (%d)\n", devicename, strerror(errno), errno); else puts(config_text); free(config_text); } } close(fd); return 1; } return 0; } /* Local Variables: */ /* fill-column: 50 */ /* End: */