/*
* Copyright 2000, International Business Machines Corporation and others.
* All Rights Reserved.
- *
+ *
* This software has been released under the terms of the IBM Public
* License. For details, see the LICENSE file in the top-level source
* directory or online at http://www.openafs.org/dl/license10.html
*/
-/* Read a VLDB file and verify it for correctness */
-
-#define VL 0x001 /* good volume entry */
-#define FR 0x002 /* free volume entry */
-#define MH 0x004 /* multi-homed entry */
-
-#define RWH 0x010 /* on rw hash chain */
-#define ROH 0x020 /* on ro hash chain */
-#define BKH 0x040 /* on bk hash chain */
-#define NH 0x080 /* on name hash chain */
-
-#define MHC 0x100 /* on multihomed chain */
-#define FRC 0x200 /* on free chain */
-
#include <afsconfig.h>
#include <afs/param.h>
-RCSID("$Header$");
+#include <roken.h>
-#include <sys/types.h>
-#include <sys/stat.h>
-#include <fcntl.h>
-#include <errno.h>
#ifdef AFS_NT40_ENV
-#include <winsock2.h>
#include <WINNT/afsevent.h>
-#include <io.h>
-#else
-#include <sys/socket.h>
-#include <netdb.h>
-#include <netinet/in.h>
#endif
-#include "vlserver.h"
-#include "vldbint.h"
+
#include <ubik.h>
#include <afs/afsutil.h>
#include <afs/cmd.h>
+#include "vlserver.h"
+#include "vldbint.h"
+
+/* Read a VLDB file and verify it for correctness */
+
+#define VL 0x001 /* good volume entry */
+#define FR 0x002 /* free volume entry */
+#define MH 0x004 /* multi-homed entry */
+
+#define RWH 0x010 /* on rw hash chain */
+#define ROH 0x020 /* on ro hash chain */
+#define BKH 0x040 /* on bk hash chain */
+#define NH 0x080 /* on name hash chain */
+
+#define MHC 0x100 /* on multihomed chain */
+#define FRC 0x200 /* on free chain */
+
+#define REFRW 0x1000 /* linked from something (RW) */
+#define REFRO 0x2000 /* linked from something (RO) */
+#define REFBK 0x4000 /* linked from something (BK) */
+#define REFN 0x8000 /* linked from something (name) */
+
+#define MULTRW 0x10000 /* multiply-chained (RW) */
+#define MULTRO 0x20000 /* multiply-chained (RO) */
+#define MULTBK 0x40000 /* multiply-chained (BK) */
+#define MULTN 0x80000 /* multiply-chained (name) */
+
+#define MISRWH 0x100000 /* mischained (RW) */
+#define MISROH 0x200000 /* mischained (RO) */
+#define MISBKH 0x400000 /* mischained (BK) */
+#define MISNH 0x800000 /* mischained (name) */
+
+#define VLDB_CHECK_NO_VLDB_CHECK_ERROR 0
+#define VLDB_CHECK_WARNING 1
+#define VLDB_CHECK_ERROR 2
+#define VLDB_CHECK_FATAL 4
+#define vldbread(x,y,z) vldbio(x,y,z,0)
+#define vldbwrite(x,y,z) vldbio(x,y,z,1)
+
+#define HDRSIZE 64
+#define ADDR(x) ((x)/sizeof(struct nvlentry))
+#define OFFSET(addr) ((addr) + HDRSIZE)
+
int fd;
-int listentries, listservers, listheader, listuheader, verbose;
+int listentries, listservers, listheader, listuheader, verbose, quiet;
+
+int fix = 0;
+int passes = 0;
+/* if quiet, don't send anything to stdout */
+int quiet = 0;
+/* error level. 0 = no error, 1 = warning, 2 = error, 4 = fatal */
+int error_level = 0;
struct er {
- long addr;
- int type;
+ long addr;
+ int type;
} *record;
-int serveraddrs[MAXSERVERID+2];
-
+afs_int32 maxentries;
+int serveraddrs[MAXSERVERID + 2];
+u_char serverxref[MAXSERVERID + 2]; /**< to resolve cross-linked mh entries */
+int serverref[MAXSERVERID + 2]; /**< which addrs are referenced by vl entries */
+
+struct mhinfo {
+ afs_uint32 addr; /**< vldb file record */
+ char orphan[VL_MHSRV_PERBLK]; /**< unreferenced mh enties */
+} mhinfo[VL_MAX_ADDREXTBLKS];
+
+
+/* Used to control what goes to stdout based on quiet flag */
+void
+quiet_println(const char *fmt,...) {
+ va_list args;
+ if (!quiet) {
+ va_start(args, fmt);
+ vfprintf(stdout, fmt, args);
+ va_end(args);
+ }
+}
-#define HDRSIZE 64
-int readUbikHeader()
+/* Used to set the error level and ship messages to stderr */
+void
+log_error(int eval, const char *fmt, ...)
{
- int offset, r;
- struct ubik_hdr uheader;
-
- offset = lseek(fd, 0, 0);
- if (offset != 0) {
- printf("error: lseek to 0 failed: %d %d\n", offset, errno);
- return(-1);
- }
-
- /* now read the info */
- r = read(fd, &uheader, sizeof(uheader));
- if (r != sizeof(uheader)) {
- printf("error: read of %d bytes failed: %d %d\n", sizeof(uheader), r, errno);
- return(-1);
- }
-
- uheader.magic = ntohl(uheader.magic);
- uheader.size = ntohl(uheader.size);
- uheader.version.epoch = ntohl(uheader.version.epoch);
- uheader.version.counter = ntohl(uheader.version.counter);
-
- if (listuheader) {
- printf("Ubik Header\n");
- printf(" Magic = 0x%x\n", uheader.magic);
- printf(" Size = %u\n", uheader.size);
- printf(" Version.epoch = %u\n", uheader.version.epoch);
- printf(" Version.counter = %u\n", uheader.version.counter);
- }
-
- if (uheader.size != HDRSIZE)
- printf("Ubik header size is %u (should be %u)\n", uheader.size, HDRSIZE);
- if (uheader.magic != UBIK_MAGIC)
- printf("Ubik header magic is 0x%x (should be 0x%x)\n", uheader.magic, UBIK_MAGIC);
-
- return(0);
+ va_list args;
+ if (error_level < eval) error_level = eval ; /* bump up the severity */
+ va_start(args, fmt);
+ vfprintf(stderr, fmt, args);
+ va_end(args);
+
+ if (error_level == VLDB_CHECK_FATAL) exit(VLDB_CHECK_FATAL);
}
-int vldbread(position,buffer,size)
- int position;
- char *buffer;
- int size;
+
+int
+readUbikHeader(void)
{
- int offset, r, p;
-
- /* seek to the correct spot. skip ubik stuff */
- p = position + HDRSIZE;
- offset = lseek(fd, p, 0);
- if (offset != p) {
- printf("error: lseek to %d failed: %d %d\n", p, offset, errno);
- return(-1);
- }
-
- /* now read the info */
- r = read(fd, buffer, size);
- if (r != size) {
- printf("error: read of %d bytes failed: %d %d\n", size, r, errno);
- return(-1);
- }
- return(0);
+ int offset, r;
+ struct ubik_hdr uheader;
+
+ offset = lseek(fd, 0, 0);
+ if (offset != 0) {
+ log_error(VLDB_CHECK_FATAL,"error: lseek to 0 failed: %d %d\n", offset, errno);
+ return (VLDB_CHECK_FATAL);
+ }
+
+ /* now read the info */
+ r = read(fd, &uheader, sizeof(uheader));
+ if (r != sizeof(uheader)) {
+ log_error(VLDB_CHECK_FATAL,"error: read of %lu bytes failed: %d %d\n", sizeof(uheader), r,
+ errno);
+ return (VLDB_CHECK_FATAL);
+ }
+
+ uheader.magic = ntohl(uheader.magic);
+ uheader.size = ntohs(uheader.size);
+ uheader.version.epoch = ntohl(uheader.version.epoch);
+ uheader.version.counter = ntohl(uheader.version.counter);
+
+ if (listuheader) {
+ quiet_println("Ubik Header\n");
+ quiet_println(" Magic = 0x%x\n", uheader.magic);
+ quiet_println(" Size = %u\n", uheader.size);
+ quiet_println(" Version.epoch = %u\n", uheader.version.epoch);
+ quiet_println(" Version.counter = %u\n", uheader.version.counter);
+ }
+
+ if (uheader.size != HDRSIZE)
+ log_error(VLDB_CHECK_WARNING,"VLDB_CHECK_WARNING: Ubik header size is %u (should be %u)\n", uheader.size,
+ HDRSIZE);
+ if (uheader.magic != UBIK_MAGIC)
+ log_error(VLDB_CHECK_ERROR,"Ubik header magic is 0x%x (should be 0x%x)\n", uheader.magic,
+ UBIK_MAGIC);
+
+ return (0);
}
-char *vtype(type)
- int type;
+int
+vldbio(int position, void *buffer, int size, int rdwr)
{
- static char Type[3];
+ int offset, r, p;
+
+ /* seek to the correct spot. skip ubik stuff */
+ p = OFFSET(position);
+ offset = lseek(fd, p, 0);
+ if (offset != p) {
+ log_error(VLDB_CHECK_FATAL,"error: lseek to %d failed: %d %d\n", p, offset, errno);
+ return (-1);
+ }
+
+ if (rdwr == 1)
+ r = write(fd, buffer, size);
+ else
+ r = read(fd, buffer, size);
+
+ if (r != size) {
+ log_error(VLDB_CHECK_FATAL,"error: %s of %d bytes failed: %d %d\n", rdwr==1?"write":"read",
+ size, r, errno);
+ return (-1);
+ }
+ return (0);
+}
- if (type == 0) strcpy(Type,"rw");
- else if (type == 1) strcpy(Type,"ro");
- else if (type == 2) strcpy(Type,"bk");
- else strcpy(Type,"??");
- return(Type);
+char *
+vtype(int type)
+{
+ static char Type[3];
+
+ if (type == 0)
+ strcpy(Type, "rw");
+ else if (type == 1)
+ strcpy(Type, "ro");
+ else if (type == 2)
+ strcpy(Type, "bk");
+ else
+ strcpy(Type, "??");
+ return (Type);
}
-afs_int32 NameHash(volname)
- char *volname;
+afs_int32
+NameHash(char *volname)
{
- unsigned int hash;
- int i;
- char *vchar;
-
- hash = 0;
- for (vchar=volname+strlen(volname)-1; vchar >= volname; vchar--)
- hash = (hash*63) + (*((unsigned char *)vchar) - 63);
- return(hash % HASHSIZE);
+ unsigned int hash;
+ char *vchar;
+
+ hash = 0;
+ for (vchar = volname + strlen(volname) - 1; vchar >= volname; vchar--)
+ hash = (hash * 63) + (*((unsigned char *)vchar) - 63);
+ return (hash % HASHSIZE);
}
-afs_int32 IdHash(volid)
- afs_int32 volid;
+afs_int32
+IdHash(afs_uint32 volid)
{
- return((abs(volid)) % HASHSIZE);
+ return (volid % HASHSIZE);
}
#define LEGALCHARS ".ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_"
-int InvalidVolname(volname)
- char *volname;
+int
+InvalidVolname(char *volname)
{
- char *map;
- int slen;
+ char *map;
+ size_t slen;
+
+ map = LEGALCHARS;
+ slen = strlen(volname);
+ if (slen >= VL_MAXNAMELEN)
+ return 1;
+ if (slen == 0)
+ return 1;
+ return (slen != strspn(volname, map));
+}
+
+int
+validVolumeAddr(afs_uint32 fileOffset)
+{
+ if (ADDR(fileOffset) >= maxentries) {
+ /* Are we in range */
+ return 0;
+ }
+ /*
+ * We cannot test whether the offset is aligned
+ * since the vl entries are not in a regular array
+ */
+ return 1;
+}
- map = LEGALCHARS;
- slen = strlen(volname);
- if (slen >= VL_MAXNAMELEN) return 1;
- return (slen != strspn(volname, map));
+void
+readheader(struct vlheader *headerp)
+{
+ int i, j;
+
+ vldbread(0, (char *)headerp, sizeof(*headerp));
+
+ headerp->vital_header.vldbversion =
+ ntohl(headerp->vital_header.vldbversion);
+ headerp->vital_header.headersize =
+ ntohl(headerp->vital_header.headersize);
+ headerp->vital_header.freePtr = ntohl(headerp->vital_header.freePtr);
+ headerp->vital_header.eofPtr = ntohl(headerp->vital_header.eofPtr);
+ headerp->vital_header.allocs = ntohl(headerp->vital_header.allocs);
+ headerp->vital_header.frees = ntohl(headerp->vital_header.frees);
+ headerp->vital_header.MaxVolumeId =
+ ntohl(headerp->vital_header.MaxVolumeId);
+ headerp->vital_header.totalEntries[0] =
+ ntohl(headerp->vital_header.totalEntries[0]);
+ for (i = 0; i < MAXTYPES; i++)
+ headerp->vital_header.totalEntries[i] =
+ ntohl(headerp->vital_header.totalEntries[1]);
+
+ headerp->SIT = ntohl(headerp->SIT);
+ for (i = 0; i <= MAXSERVERID; i++)
+ headerp->IpMappedAddr[i] = ntohl(headerp->IpMappedAddr[i]);
+ for (i = 0; i < HASHSIZE; i++)
+ headerp->VolnameHash[i] = ntohl(headerp->VolnameHash[i]);
+ for (i = 0; i < MAXTYPES; i++)
+ for (j = 0; j < HASHSIZE; j++)
+ headerp->VolidHash[i][j] = ntohl(headerp->VolidHash[i][j]);
+
+ if (listheader) {
+ quiet_println("vldb header\n");
+ quiet_println(" vldbversion = %u\n",
+ headerp->vital_header.vldbversion);
+ quiet_println(" headersize = %u [actual=%lu]\n",
+ headerp->vital_header.headersize, sizeof(*headerp));
+ quiet_println(" freePtr = 0x%x\n", headerp->vital_header.freePtr);
+ quiet_println(" eofPtr = %u\n", headerp->vital_header.eofPtr);
+ quiet_println(" allocblock calls = %10u\n", headerp->vital_header.allocs);
+ quiet_println(" freeblock calls = %10u\n", headerp->vital_header.frees);
+ quiet_println(" MaxVolumeId = %u\n",
+ headerp->vital_header.MaxVolumeId);
+ quiet_println(" rw vol entries = %u\n",
+ headerp->vital_header.totalEntries[0]);
+ quiet_println(" ro vol entries = %u\n",
+ headerp->vital_header.totalEntries[1]);
+ quiet_println(" bk vol entries = %u\n",
+ headerp->vital_header.totalEntries[2]);
+ quiet_println(" multihome info = 0x%x (%u)\n", headerp->SIT,
+ headerp->SIT);
+ quiet_println(" server ip addr table: size = %d entries\n",
+ MAXSERVERID + 1);
+ quiet_println(" volume name hash table: size = %d buckets\n", HASHSIZE);
+ quiet_println(" volume id hash table: %d tables with %d buckets each\n",
+ MAXTYPES, HASHSIZE);
+ }
+
+ /* Check the header size */
+ if (headerp->vital_header.headersize != sizeof(*headerp))
+ log_error(VLDB_CHECK_WARNING,"Header reports its size as %d (should be %lu)\n",
+ headerp->vital_header.headersize, sizeof(*headerp));
+ return;
}
-readheader(headerp)
- struct vlheader *headerp;
+void
+writeheader(struct vlheader *headerp)
{
- int i,j;
-
- vldbread(0, headerp, sizeof(*headerp));
-
- headerp->vital_header.vldbversion = ntohl(headerp->vital_header.vldbversion);
- headerp->vital_header.headersize = ntohl(headerp->vital_header.headersize);
- headerp->vital_header.freePtr = ntohl(headerp->vital_header.freePtr);
- headerp->vital_header.eofPtr = ntohl(headerp->vital_header.eofPtr);
- headerp->vital_header.allocs = ntohl(headerp->vital_header.allocs);
- headerp->vital_header.frees = ntohl(headerp->vital_header.frees);
- headerp->vital_header.MaxVolumeId = ntohl(headerp->vital_header.MaxVolumeId);
- headerp->vital_header.totalEntries[0] = ntohl(headerp->vital_header.totalEntries[0]);
- for (i=0; i<MAXTYPES; i++)
- headerp->vital_header.totalEntries[i] = ntohl(headerp->vital_header.totalEntries[1]);
-
- headerp->SIT = ntohl(headerp->SIT);
- for (i=0; i<MAXSERVERID; i++)
- headerp->IpMappedAddr[i] = ntohl(headerp->IpMappedAddr[i]);
- for (i=0; i<HASHSIZE; i++)
- headerp->VolnameHash[i] = ntohl(headerp->VolnameHash[i]);
- for (i=0; i<MAXTYPES; i++)
- for (j=0; j<HASHSIZE; j++)
- headerp->VolidHash[i][j] = ntohl(headerp->VolidHash[i][j]);
-
- if (listheader) {
- printf("vldb header\n");
- printf(" vldbversion = %u\n", headerp->vital_header.vldbversion);
- printf(" headersize = %u [actual=%u]\n",
- headerp->vital_header.headersize, sizeof(*headerp));
- printf(" freePtr = 0x%x\n", headerp->vital_header.freePtr);
- printf(" eofPtr = %u\n", headerp->vital_header.eofPtr);
- printf(" allocblock calls = %10u\n", headerp->vital_header.allocs);
- printf(" freeblock calls = %10u\n", headerp->vital_header.frees);
- printf(" MaxVolumeId = %u\n", headerp->vital_header.MaxVolumeId);
- printf(" rw vol entries = %u\n", headerp->vital_header.totalEntries[0]);
- printf(" ro vol entries = %u\n", headerp->vital_header.totalEntries[1]);
- printf(" bk vol entries = %u\n", headerp->vital_header.totalEntries[2]);
- printf(" multihome info = 0x%x (%u)\n", headerp->SIT, headerp->SIT);
- printf(" server ip addr table: size = %d entries\n", MAXSERVERID+1);
- printf(" volume name hash table: size = %d buckets\n", HASHSIZE);
- printf(" volume id hash table: %d tables with %d buckets each\n",
- MAXTYPES, HASHSIZE);
- }
-
- /* Check the header size */
- if (headerp->vital_header.headersize != sizeof(*headerp))
- printf("Header reports its size as %d (should be %d)\n",
- headerp->vital_header.headersize, sizeof(*headerp));
+ int i, j;
+
+ headerp->vital_header.vldbversion =
+ htonl(headerp->vital_header.vldbversion);
+ headerp->vital_header.headersize =
+ htonl(headerp->vital_header.headersize);
+ headerp->vital_header.freePtr = htonl(headerp->vital_header.freePtr);
+ headerp->vital_header.eofPtr = htonl(headerp->vital_header.eofPtr);
+ headerp->vital_header.allocs = htonl(headerp->vital_header.allocs);
+ headerp->vital_header.frees = htonl(headerp->vital_header.frees);
+ headerp->vital_header.MaxVolumeId =
+ htonl(headerp->vital_header.MaxVolumeId);
+ headerp->vital_header.totalEntries[0] =
+ htonl(headerp->vital_header.totalEntries[0]);
+ for (i = 0; i < MAXTYPES; i++)
+ headerp->vital_header.totalEntries[i] =
+ htonl(headerp->vital_header.totalEntries[1]);
+
+ headerp->SIT = htonl(headerp->SIT);
+ for (i = 0; i <= MAXSERVERID; i++)
+ headerp->IpMappedAddr[i] = htonl(headerp->IpMappedAddr[i]);
+ for (i = 0; i < HASHSIZE; i++)
+ headerp->VolnameHash[i] = htonl(headerp->VolnameHash[i]);
+ for (i = 0; i < MAXTYPES; i++)
+ for (j = 0; j < HASHSIZE; j++)
+ headerp->VolidHash[i][j] = htonl(headerp->VolidHash[i][j]);
+
+ vldbwrite(0, (char *)headerp, sizeof(*headerp));
}
-readMH(addr, mhblockP)
- afs_int32 addr;
- struct extentaddr *mhblockP;
+void
+readMH(afs_uint32 addr, int block, struct extentaddr *mhblockP)
{
- int i, j;
- struct extentaddr *e;
-
- vldbread(addr, mhblockP, VL_ADDREXTBLK_SIZE);
-
- mhblockP->ex_count = ntohl(mhblockP->ex_count);
- mhblockP->ex_flags = ntohl(mhblockP->ex_flags);
- for (i=0; i<VL_MAX_ADDREXTBLKS; i++)
- mhblockP->ex_contaddrs[i] = ntohl(mhblockP->ex_contaddrs[i]);
-
- for (i=1; i<VL_MHSRV_PERBLK; i++) {
- e = &(mhblockP[i]);
-
- /* won't convert hostuuid */
- e->ex_uniquifier = ntohl(e->ex_uniquifier);
- for (j=0; j<VL_MAXIPADDRS_PERMH; j++)
- e->ex_addrs[j] = ntohl(e->ex_addrs[j]);
- }
-}
-
-readentry(addr, vlentryp, type)
- afs_int32 addr;
- struct nvlentry *vlentryp;
- afs_int32 *type;
+ int i, j;
+ struct extentaddr *e;
+
+ vldbread(addr, (char *)mhblockP, VL_ADDREXTBLK_SIZE);
+
+ /* Every mh block has the VLCONTBLOCK flag set in the header to
+ * indicate the entry is an 8192 byte extended block. The
+ * VLCONTBLOCK flag is always clear in regular vl entries. The
+ * vlserver depends on the VLCONTBLOCK flag to correctly traverse
+ * the vldb. The flags field is in network byte order. */
+ mhblockP->ex_hdrflags = ntohl(mhblockP->ex_hdrflags);
+
+ if (block == 0) {
+ /* These header fields are only used in the first mh block. */
+ mhblockP->ex_count = ntohl(mhblockP->ex_count);
+ for (i = 0; i < VL_MAX_ADDREXTBLKS; i++) {
+ mhblockP->ex_contaddrs[i] = ntohl(mhblockP->ex_contaddrs[i]);
+ }
+ }
+ for (i = 1; i < VL_MHSRV_PERBLK; i++) {
+ e = &(mhblockP[i]);
+
+ /* won't convert hostuuid */
+ e->ex_uniquifier = ntohl(e->ex_uniquifier);
+ for (j = 0; j < VL_MAXIPADDRS_PERMH; j++)
+ e->ex_addrs[j] = ntohl(e->ex_addrs[j]);
+ }
+ return;
+}
+
+void
+readentry(afs_int32 addr, struct nvlentry *vlentryp, afs_int32 *type)
{
- int i;
-
- vldbread(addr, vlentryp, sizeof(*vlentryp));
-
- for (i=0; i<MAXTYPES; i++)
- vlentryp->volumeId[i] = ntohl(vlentryp->volumeId[i]);
- vlentryp->flags = ntohl(vlentryp->flags);
- vlentryp->LockAfsId = ntohl(vlentryp->LockAfsId);
- vlentryp->LockTimestamp = ntohl(vlentryp->LockTimestamp);
- vlentryp->cloneId = ntohl(vlentryp->cloneId);
- for (i=0; i<MAXTYPES; i++)
- vlentryp->nextIdHash[i] = ntohl(vlentryp->nextIdHash[i]);
- vlentryp->nextNameHash = ntohl(vlentryp->nextNameHash);
- for (i=0; i<NMAXNSERVERS; i++) {
- vlentryp->serverNumber[i] = ntohl(vlentryp->serverNumber[i]);
- vlentryp->serverPartition[i] = ntohl(vlentryp->serverPartition[i]);
- vlentryp->serverFlags[i] = ntohl(vlentryp->serverFlags[i]);
- }
-
- if (vlentryp->flags == VLCONTBLOCK) {
- *type = MH;
- } else if (vlentryp->flags == VLFREE) {
- *type = FR;
- } else {
- *type = VL;
- }
-
- if (listentries) {
- printf("address %u: ", addr);
- if (vlentryp->flags == VLCONTBLOCK) {
- printf("mh extension block\n");
- } else if (vlentryp->flags == VLFREE) {
- printf("free vlentry\n");
- } else {
- printf("vlentry %s\n", vlentryp->name);
- printf(" rw id = %u ; ro id = %u ; bk id = %u\n",
- vlentryp->volumeId[0], vlentryp->volumeId[1], vlentryp->volumeId[2]);
- printf(" flags =");
- if (vlentryp->flags & VLF_RWEXISTS) printf(" rw");
- if (vlentryp->flags & VLF_ROEXISTS) printf(" ro");
- if (vlentryp->flags & VLF_BACKEXISTS) printf(" bk");
- if (vlentryp->flags & 0xffff8fff)
- printf(" errorflag(0x%x)", vlentryp->flags);
- printf("\n");
- printf(" LockAfsId = %d\n", vlentryp->LockAfsId);
- printf(" LockTimestamp = %d\n", vlentryp->LockTimestamp);
- printf(" cloneId = %u\n", vlentryp->cloneId);
- printf(" next hash for rw = %u ; ro = %u ; bk = %u ; name = %u\n",
- vlentryp->nextIdHash[0], vlentryp->nextIdHash[1],
- vlentryp->nextIdHash[2], vlentryp->nextNameHash);
- for (i=0; i<NMAXNSERVERS; i++) {
- if (vlentryp->serverNumber[i] != 255) {
- printf(" server %d ; partition %d ; flags =",
- vlentryp->serverNumber[i], vlentryp->serverPartition[i]);
- if (vlentryp->serverFlags[i] & VLSF_RWVOL) printf(" rw");
- if (vlentryp->serverFlags[i] & VLSF_ROVOL) printf(" ro");
- if (vlentryp->serverFlags[i] & VLSF_BACKVOL) printf(" bk");
- if (vlentryp->serverFlags[i] & VLSF_NEWREPSITE) printf(" newro");
- printf("\n");
- }
+ int i;
+
+ vldbread(addr, (char *)vlentryp, sizeof(*vlentryp));
+
+ for (i = 0; i < MAXTYPES; i++)
+ vlentryp->volumeId[i] = ntohl(vlentryp->volumeId[i]);
+ vlentryp->flags = ntohl(vlentryp->flags);
+ vlentryp->LockAfsId = ntohl(vlentryp->LockAfsId);
+ vlentryp->LockTimestamp = ntohl(vlentryp->LockTimestamp);
+ vlentryp->cloneId = ntohl(vlentryp->cloneId);
+ for (i = 0; i < MAXTYPES; i++)
+ vlentryp->nextIdHash[i] = ntohl(vlentryp->nextIdHash[i]);
+ vlentryp->nextNameHash = ntohl(vlentryp->nextNameHash);
+ for (i = 0; i < NMAXNSERVERS; i++) {
+ /* make sure not to ntohl these, as they're chars, not ints */
+ vlentryp->serverNumber[i] = vlentryp->serverNumber[i];
+ vlentryp->serverPartition[i] = vlentryp->serverPartition[i];
+ vlentryp->serverFlags[i] = vlentryp->serverFlags[i];
+ }
+
+ if (vlentryp->flags == VLCONTBLOCK) {
+ *type = MH;
+ } else if (vlentryp->flags == VLFREE) {
+ *type = FR;
+ } else {
+ *type = VL;
+ }
+
+ if (listentries) {
+ quiet_println("address %u (offset 0x%0x): ", addr, OFFSET(addr));
+ if (vlentryp->flags == VLCONTBLOCK) {
+ quiet_println("mh extension block\n");
+ } else if (vlentryp->flags == VLFREE) {
+ quiet_println("free vlentry\n");
+ } else {
+ quiet_println("vlentry %s\n", vlentryp->name);
+ quiet_println(" rw id = %u ; ro id = %u ; bk id = %u\n",
+ vlentryp->volumeId[0], vlentryp->volumeId[1],
+ vlentryp->volumeId[2]);
+ quiet_println(" flags =");
+ if (vlentryp->flags & VLF_RWEXISTS)
+ quiet_println(" rw");
+ if (vlentryp->flags & VLF_ROEXISTS)
+ quiet_println(" ro");
+ if (vlentryp->flags & VLF_BACKEXISTS)
+ quiet_println(" bk");
+ if (vlentryp->flags & VLOP_MOVE)
+ quiet_println(" lock_move");
+ if (vlentryp->flags & VLOP_RELEASE)
+ quiet_println(" lock_release");
+ if (vlentryp->flags & VLOP_BACKUP)
+ quiet_println(" lock_backup");
+ if (vlentryp->flags & VLOP_DELETE)
+ quiet_println(" lock_delete");
+ if (vlentryp->flags & VLOP_DUMP)
+ quiet_println(" lock_dump");
+
+ /* all bits not covered by VLF_* and VLOP_* constants */
+ if (vlentryp->flags & 0xffff8e0f)
+ quiet_println(" errorflag(0x%x)", vlentryp->flags);
+ quiet_println("\n");
+ quiet_println(" LockAfsId = %d\n", vlentryp->LockAfsId);
+ quiet_println(" LockTimestamp = %d\n", vlentryp->LockTimestamp);
+ quiet_println(" cloneId = %u\n", vlentryp->cloneId);
+ quiet_println
+ (" next hash for rw = %u ; ro = %u ; bk = %u ; name = %u\n",
+ vlentryp->nextIdHash[0], vlentryp->nextIdHash[1],
+ vlentryp->nextIdHash[2], vlentryp->nextNameHash);
+ for (i = 0; i < NMAXNSERVERS; i++) {
+ if (vlentryp->serverNumber[i] != 255) {
+ quiet_println(" server %d ; partition %d ; flags =",
+ vlentryp->serverNumber[i],
+ vlentryp->serverPartition[i]);
+ if (vlentryp->serverFlags[i] & VLSF_RWVOL)
+ quiet_println(" rw");
+ if (vlentryp->serverFlags[i] & VLSF_ROVOL)
+ quiet_println(" ro");
+ if (vlentryp->serverFlags[i] & VLSF_BACKVOL)
+ quiet_println(" bk");
+ if (vlentryp->serverFlags[i] & VLSF_NEWREPSITE)
+ quiet_println(" newro");
+ quiet_println("\n");
+ }
+ }
}
- }
- }
+ }
+ return;
}
-readSIT(base, addr)
- int base;
- int addr;
+void
+writeMH(afs_int32 addr, int block, struct extentaddr *mhblockP)
{
- int i,j,a;
- char sitbuf[VL_ADDREXTBLK_SIZE];
- struct extentaddr *extent;
-
- if (!addr)
- return;
- vldbread(addr, sitbuf, VL_ADDREXTBLK_SIZE);
- extent = (struct extentaddr *)sitbuf;
-
- printf("multihome info block: base %d\n", base);
- if (base == 0) {
- printf(" count = %u\n", ntohl(extent->ex_count));
- printf(" flags = %u\n", ntohl(extent->ex_flags));
- for (i=0; i<VL_MAX_ADDREXTBLKS; i++) {
- printf(" contaddrs[%d] = %u\n", i, ntohl(extent->ex_contaddrs[i]));
- }
- }
- for (i=1; i<VL_MHSRV_PERBLK; i++) {
- /* should we skip this entry */
- for (j=0; j<VL_MAX_ADDREXTBLKS; j++) {
- if (extent[i].ex_addrs[j]) break;
- }
- if (j >= VL_MAX_ADDREXTBLKS) continue;
-
- printf(" base %d index %d:\n", base, i);
-
- printf(" afsuuid = (%x %x %x /%d/%d/ /%x/%x/%x/%x/%x/%x/)\n",
- ntohl(extent[i].ex_hostuuid.time_low),
- ntohl(extent[i].ex_hostuuid.time_mid),
- ntohl(extent[i].ex_hostuuid.time_hi_and_version),
- ntohl(extent[i].ex_hostuuid.clock_seq_hi_and_reserved),
- ntohl(extent[i].ex_hostuuid.clock_seq_low),
- ntohl(extent[i].ex_hostuuid.node[0]), ntohl(extent[i].ex_hostuuid.node[1]),
- ntohl(extent[i].ex_hostuuid.node[2]), ntohl(extent[i].ex_hostuuid.node[3]),
- ntohl(extent[i].ex_hostuuid.node[4]), ntohl(extent[i].ex_hostuuid.node[5]));
- printf(" uniquifier = %u\n", ntohl(extent[i].ex_uniquifier));
- for (j=0; j<VL_MAXIPADDRS_PERMH; j++) {
- a = ntohl(extent[i].ex_addrs[j]);
- if (a) {
- printf(" %d.%d.%d.%d\n",
- (a>>24)&0xff, (a>>16)&0xff,
- (a>>8) &0xff, (a )&0xff);
+ int i, j;
+ struct extentaddr *e;
+
+ if (verbose) {
+ quiet_println("Writing back MH block % at addr %u\n", block, addr);
+ }
+ if (block == 0) {
+ mhblockP->ex_count = htonl(mhblockP->ex_count);
+ mhblockP->ex_hdrflags = htonl(mhblockP->ex_hdrflags);
+ for (i = 0; i < VL_MAX_ADDREXTBLKS; i++) {
+ mhblockP->ex_contaddrs[i] = htonl(mhblockP->ex_contaddrs[i]);
+ }
+ }
+ for (i = 1; i < VL_MHSRV_PERBLK; i++) {
+ e = &(mhblockP[i]);
+ /* hostuuid was not converted */
+ e->ex_uniquifier = htonl(e->ex_uniquifier);
+ for (j = 0; j < VL_MAXIPADDRS_PERMH; j++) {
+ e->ex_addrs[j] = htonl(e->ex_addrs[j]);
}
- }
- }
+ }
+ vldbwrite(addr, (char *)mhblockP, VL_ADDREXTBLK_SIZE);
+}
+
+void
+writeentry(afs_int32 addr, struct nvlentry *vlentryp)
+{
+ int i;
+
+ if (verbose) quiet_println("Writing back entry at addr %u\n", addr);
+ for (i = 0; i < MAXTYPES; i++)
+ vlentryp->volumeId[i] = htonl(vlentryp->volumeId[i]);
+ vlentryp->flags = htonl(vlentryp->flags);
+ vlentryp->LockAfsId = htonl(vlentryp->LockAfsId);
+ vlentryp->LockTimestamp = htonl(vlentryp->LockTimestamp);
+ vlentryp->cloneId = htonl(vlentryp->cloneId);
+ for (i = 0; i < MAXTYPES; i++)
+ vlentryp->nextIdHash[i] = htonl(vlentryp->nextIdHash[i]);
+ vlentryp->nextNameHash = htonl(vlentryp->nextNameHash);
+ for (i = 0; i < NMAXNSERVERS; i++) {
+ /* make sure not to htonl these, as they're chars, not ints */
+ vlentryp->serverNumber[i] = vlentryp->serverNumber[i] ;
+ vlentryp->serverPartition[i] = vlentryp->serverPartition[i] ;
+ vlentryp->serverFlags[i] = vlentryp->serverFlags[i] ;
+ }
+ vldbwrite(addr, (char *)vlentryp, sizeof(*vlentryp));
}
/*
* Record what type of entry it is and its address in the record array.
* Remember what the maximum volume id we found is and check against the header.
*/
-ReadAllEntries(header)
- struct vlheader *header;
+void
+ReadAllEntries(struct vlheader *header)
{
- afs_int32 type, rindex, i, j, e;
- int freecount=0, mhcount=0, vlcount=0;
- int rwcount=0, rocount=0, bkcount=0;
- struct nvlentry vlentry;
- afs_uint32 addr, entrysize, maxvolid=0;
-
- if (verbose)
- printf("Read each entry in the database\n");
- for (addr = header->vital_header.headersize;
- addr < header->vital_header.eofPtr; addr += entrysize) {
-
- /* Remember the highest volume id */
- readentry(addr, &vlentry, &type);
- if (type == VL) {
- if (!(vlentry.flags & VLF_RWEXISTS))
- printf("WARNING: VLDB entry '%s' has no RW volume\n", vlentry.name);
-
- for (i=0; i<MAXTYPES; i++)
- if (maxvolid < vlentry.volumeId[i]) maxvolid = vlentry.volumeId[i];
-
- e = 1;
- for (j=0; j<NMAXNSERVERS; j++) {
- if (vlentry.serverNumber[j] == 255) continue;
- if (vlentry.serverFlags[j] & (VLSF_ROVOL|VLSF_NEWREPSITE)) {
- rocount++;
- continue;
- }
- if (vlentry.serverFlags[j] & VLSF_RWVOL) {
- rwcount++;
- if (vlentry.flags & VLF_BACKEXISTS) bkcount++;
- continue;
- }
- if (e) {
- printf("VLDB entry '%s' contains an unknown RW/RO index serverFlag\n",
- vlentry.name);
- e = 0;
- }
- printf(" index %d : serverNumber %d : serverPartition %d : serverFlag %d\n",
- j, vlentry.serverNumber[j], vlentry.serverPartition[j], vlentry.serverFlags[j]);
+ afs_int32 type, rindex, i, j, e;
+ int freecount = 0, mhcount = 0, vlcount = 0;
+ int rwcount = 0, rocount = 0, bkcount = 0;
+ struct nvlentry vlentry;
+ afs_uint32 addr;
+ afs_uint32 entrysize = 0;
+ afs_uint32 maxvolid = 0;
+
+ if (verbose) quiet_println("Read each entry in the database\n");
+ for (addr = header->vital_header.headersize;
+ addr < header->vital_header.eofPtr; addr += entrysize) {
+
+ /* Remember the highest volume id */
+ readentry(addr, &vlentry, &type);
+ if (type == VL) {
+
+ for (i = 0; i < MAXTYPES; i++)
+ if (maxvolid < vlentry.volumeId[i])
+ maxvolid = vlentry.volumeId[i];
+
+ e = 1;
+ for (j = 0; j < NMAXNSERVERS; j++) {
+ if (vlentry.serverNumber[j] == 255)
+ continue;
+ if (vlentry.serverFlags[j] & (VLSF_ROVOL | VLSF_NEWREPSITE)) {
+ rocount++;
+ continue;
+ }
+ if (vlentry.serverFlags[j] & VLSF_RWVOL) {
+ rwcount++;
+ if (vlentry.flags & VLF_BACKEXISTS)
+ bkcount++;
+ continue;
+ }
+ if (!vlentry.serverFlags[j]) {
+ /*e = 0;*/
+ continue;
+ }
+ if (e) {
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): VLDB entry '%s' contains an unknown RW/RO index serverFlag\n",
+ addr, OFFSET(addr), vlentry.name);
+ e = 0;
+ }
+ quiet_println
+ (" index %d : serverNumber %d : serverPartition %d : serverFlag %d\n",
+ j, vlentry.serverNumber[j], vlentry.serverPartition[j],
+ vlentry.serverFlags[j]);
+ }
}
- }
-
- rindex = addr/sizeof(vlentry);
- if (record[rindex].type) {
- printf("INTERNAL ERROR: record holder %d already in use\n", rindex);
- return;
- }
- record[rindex].addr = addr;
- record[rindex].type = type;
-
- /* Determine entrysize and keep count */
- if (type == VL) {
- entrysize = sizeof(vlentry);
- vlcount++;
- } else if (type == FR) {
- entrysize = sizeof(vlentry);
- freecount++;
- } else if (type == MH) {
- entrysize = VL_ADDREXTBLK_SIZE;
- mhcount++;
- } else {
- printf("Unknown entry at %u\n", addr);
- }
- }
- if (verbose) {
- printf("Found %d entries, %d free entries, %d multihomed blocks\n",
- vlcount, freecount, mhcount);
- printf("Found %d RW volumes, %d BK volumes, %d RO volumes\n",
- rwcount, bkcount, rocount);
- }
-
- /* Check the maxmimum volume id in the header */
- if (maxvolid != header->vital_header.MaxVolumeId-1)
- printf("Header's maximum volume id is %u and largest id found in VLDB is %u\n",
- header->vital_header.MaxVolumeId, maxvolid);
-}
+ rindex = addr / sizeof(vlentry);
+ if (record[rindex].type) {
+ log_error(VLDB_CHECK_ERROR,"INTERNAL VLDB_CHECK_ERROR: record holder %d already in use\n",
+ rindex);
+ return;
+ }
+ record[rindex].addr = addr;
+ record[rindex].type = type;
+
+ /* Determine entrysize and keep count */
+ if (type == VL) {
+ entrysize = sizeof(vlentry);
+ vlcount++;
+ } else if (type == FR) {
+ entrysize = sizeof(vlentry);
+ freecount++;
+ } else if (type == MH) {
+ entrysize = VL_ADDREXTBLK_SIZE;
+ mhcount++;
+ } else {
+ log_error(VLDB_CHECK_ERROR, "address %u (offset 0x%0x): Unknown entry. Aborting\n", addr, OFFSET(addr));
+ break;
+ }
+ }
+ if (verbose) {
+ quiet_println("Found %d entries, %d free entries, %d multihomed blocks\n",
+ vlcount, freecount, mhcount);
+ quiet_println("Found %d RW volumes, %d BK volumes, %d RO volumes\n", rwcount,
+ bkcount, rocount);
+ }
+
+ /* Check the maxmimum volume id in the header */
+ if (maxvolid != header->vital_header.MaxVolumeId - 1)
+ quiet_println
+ ("Header's maximum volume id is %u and largest id found in VLDB is %u\n",
+ header->vital_header.MaxVolumeId, maxvolid);
+}
/*
* Follow each Name hash bucket marking it as read in the record array.
* Record we found it in the name hash within the record array.
* Check that the name is hashed correctly.
*/
-FollowNameHash(header)
- struct vlheader *header;
+void
+FollowNameHash(struct vlheader *header)
{
- int count=0, longest=0, shortest=-1, chainlength;
- struct nvlentry vlentry;
- afs_uint32 addr;
- afs_int32 i, type, rindex;
-
- /* Now follow the Name Hash Table */
- if (verbose)
- printf("Check Volume Name Hash\n");
- for (i=0; i<HASHSIZE; i++) {
- chainlength = 0;
- for (addr = header->VolnameHash[i]; addr; addr=vlentry.nextNameHash) {
- readentry(addr, &vlentry, &type);
- if (type != VL) {
- printf("Name Hash %d: Bad entry at %u: Not a valid vlentry\n", i, addr);
- continue;
+ int count = 0, longest = 0, shortest = -1, chainlength;
+ struct nvlentry vlentry;
+ afs_uint32 addr;
+ afs_int32 i, type, rindex;
+
+ /* Now follow the Name Hash Table */
+ if (verbose) quiet_println("Check Volume Name Hash\n");
+ for (i = 0; i < HASHSIZE; i++) {
+ chainlength = 0;
+
+ if (!validVolumeAddr(header->VolnameHash[i])) {
+ log_error(VLDB_CHECK_ERROR,"Name Hash index %d is out of range: %u\n",
+ i, header->VolnameHash[i]);
+ continue;
}
- rindex = addr/sizeof(vlentry);
-
- if (record[rindex].addr != addr && record[rindex].addr) {
- printf("INTERNAL ERROR: addresses %u and %u use same record slot %d\n",
- record[rindex].addr, addr, rindex);
- }
- if (record[rindex].type & NH) {
- printf("Name Hash %d: Bad entry '%s': Already in the name hash\n",
- i, vlentry.name);
- break;
- }
- record[rindex].type |= NH;
-
- chainlength++;
- count++;
-
- /* Hash the name and check if in correct hash table */
- if (NameHash(vlentry.name) != i) {
- printf("Name Hash %d: Bad entry '%s': Incorrect name hash chain (should be in %d)\n",
- i, vlentry.name, NameHash(vlentry.name));
+ for (addr = header->VolnameHash[i]; addr; addr = vlentry.nextNameHash) {
+ readentry(addr, &vlentry, &type);
+ if (type != VL) {
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Name Hash %d: Not a vlentry\n",
+ addr, OFFSET(addr), i);
+ continue;
+ }
+
+ rindex = ADDR(addr);
+
+ /*
+ * we know that the address is valid because we
+ * checked it either above or below
+ */
+ if (record[rindex].addr != addr && record[rindex].addr) {
+ log_error
+ (VLDB_CHECK_ERROR,"INTERNAL VLDB_CHECK_ERROR: addresses %ld and %u use same record slot %d\n",
+ record[rindex].addr, addr, rindex);
+ }
+ if (record[rindex].type & NH) {
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Name Hash %d: volume name '%s' is already in the name hash\n",
+ addr, OFFSET(addr), i, vlentry.name);
+ record[rindex].type |= MULTN;
+ break;
+ }
+
+ if (!validVolumeAddr(vlentry.nextNameHash)) {
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Name Hash forward link of '%s' is out of range\n",
+ addr, OFFSET(addr), vlentry.name);
+ record[rindex].type |= MULTN;
+ break;
+ }
+
+ record[rindex].type |= NH;
+ record[rindex].type |= REFN;
+
+ chainlength++;
+ count++;
+
+ /* Hash the name and check if in correct hash table */
+ if (NameHash(vlentry.name) != i) {
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Name Hash %d: volume name '%s': Incorrect name hash chain (should be in %d)\n",
+ addr, OFFSET(addr), i, vlentry.name, NameHash(vlentry.name));
+ record[rindex].type |= MULTN;
+ }
}
- }
- if (chainlength > longest) longest = chainlength;
- if ((shortest == -1) || (chainlength < shortest)) shortest = chainlength;
- }
- if (verbose) {
- printf("%d entries in name hash, longest is %d, shortest is %d, average length is %f\n",
- count, longest, shortest, ((float)count/(float)HASHSIZE));
- }
+ if (chainlength > longest)
+ longest = chainlength;
+ if ((shortest == -1) || (chainlength < shortest))
+ shortest = chainlength;
+ }
+ if (verbose) {
+ quiet_println
+ ("%d entries in name hash, longest is %d, shortest is %d, average length is %f\n",
+ count, longest, shortest, ((float)count / (float)HASHSIZE));
+ }
+ return;
}
/*
* Record we found it in the id hash within the record array.
* Check that the ID is hashed correctly.
*/
-FollowIdHash(header)
- struct vlheader *header;
+void
+FollowIdHash(struct vlheader *header)
{
- int count=0, longest=0, shortest=-1, chainlength;
- struct nvlentry vlentry;
- afs_uint32 addr;
- afs_int32 i, j, hash, type, rindex;
-
- /* Now follow the RW, RO, and BK Hash Tables */
- if (verbose)
- printf("Check RW, RO, and BK id Hashes\n");
- for (i=0; i<MAXTYPES; i++) {
- hash = ((i==0)?RWH : ((i==1)?ROH : BKH));
- count = longest = 0; shortest = -1;
-
- for (j=0; j<HASHSIZE; j++) {
- chainlength = 0;
- for (addr=header->VolidHash[i][j]; addr; addr=vlentry.nextIdHash[i]) {
- readentry(addr, &vlentry, &type);
- if (type != VL) {
- printf("%s Id Hash %d: Bad entry at %u: Not a valid vlentry\n",
- vtype(i), j, addr);
- continue;
- }
-
- rindex = addr/sizeof(vlentry);
- if (record[rindex].addr != addr && record[rindex].addr) {
- printf("INTERNAL ERROR: addresses %u and %u use same record slot %d\n",
- record[rindex].addr, addr, rindex);
- }
- if (record[rindex].type & hash) {
- printf("%s Id Hash %d: Bad entry '%s': Already in the the hash table\n",
- vtype(i), j, vlentry.name);
- break;
- }
- record[rindex].type |= hash;
-
- chainlength++;
- count++;
-
- /* Hash the id and check if in correct hash table */
- if (IdHash(vlentry.volumeId[i]) != j) {
- printf("%s Id Hash %d: Bad entry '%s': Incorrect Id hash chain (should be in %d)\n",
- vtype(i), j, vlentry.name, IdHash(vlentry.volumeId[i]));
- }
+ int count = 0, longest = 0, shortest = -1, chainlength;
+ struct nvlentry vlentry;
+ afs_uint32 addr;
+ afs_int32 i, j, hash, type, rindex, ref, badref, badhash;
+
+ /* Now follow the RW, RO, and BK Hash Tables */
+ if (verbose) quiet_println("Check RW, RO, and BK id Hashes\n");
+ for (i = 0; i < MAXTYPES; i++) {
+ hash = ((i == 0) ? RWH : ((i == 1) ? ROH : BKH));
+ ref = ((i == 0) ? REFRW : ((i == 1) ? REFRO : REFBK));
+ badref = ((i == 0) ? MULTRW : ((i == 1) ? MULTRO : MULTBK));
+ badhash = ((i == 0) ? MULTRW : ((i == 1) ? MULTRO : MULTBK));
+ count = longest = 0;
+ shortest = -1;
+
+ for (j = 0; j < HASHSIZE; j++) {
+ chainlength = 0;
+ if (!validVolumeAddr(header->VolidHash[i][j])) {
+ log_error(VLDB_CHECK_ERROR,"%s Hash index %d is out of range: %u\n",
+ vtype(i), j, header->VolidHash[i][j]);
+ continue;
+ }
+
+ for (addr = header->VolidHash[i][j]; addr;
+ addr = vlentry.nextIdHash[i]) {
+ readentry(addr, &vlentry, &type);
+ if (type != VL) {
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): %s Id Hash %d: Not a vlentry\n",
+ addr, OFFSET(addr), vtype(i), j);
+ continue;
+ }
+
+ rindex = ADDR(addr);
+ if (record[rindex].addr != addr && record[rindex].addr) {
+ log_error
+ (VLDB_CHECK_ERROR,"INTERNAL VLDB_CHECK_ERROR: addresses %ld and %u use same record slot %d\n",
+ record[rindex].addr, addr, rindex);
+ }
+ if (record[rindex].type & hash) {
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): %s Id Hash %d: volume name '%s': Already in the hash table\n",
+ addr, OFFSET(addr), vtype(i), j, vlentry.name);
+ record[rindex].type |= badref;
+ break;
+ }
+
+ if (!validVolumeAddr(vlentry.nextIdHash[i])) {
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): %s Id Hash forward link of '%s' is out of range\n",
+ addr, OFFSET(addr), vtype(i), vlentry.name);
+ record[rindex].type |= badref;
+ break;
+ }
+
+ record[rindex].type |= hash;
+ record[rindex].type |= ref;
+
+ chainlength++;
+ count++;
+
+ /* Hash the id and check if in correct hash table */
+ if (IdHash(vlentry.volumeId[i]) != j) {
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): %s Id Hash %d: volume name '%s': Incorrect Id hash chain (should be in %d)\n",
+ addr, OFFSET(addr), vtype(i), j, vlentry.name,
+ IdHash(vlentry.volumeId[i]));
+ record[rindex].type |= badhash;
+ }
+ }
+
+ if (chainlength > longest)
+ longest = chainlength;
+ if ((shortest == -1) || (chainlength < shortest))
+ shortest = chainlength;
}
-
- if (chainlength > longest) longest = chainlength;
- if ((shortest == -1) || (chainlength < shortest)) shortest = chainlength;
- }
- if (verbose) {
- printf("%d entries in %s hash, longest is %d, shortest is %d, average length is %f\n",
- count, vtype(i), longest, shortest, ((float)count/(float)HASHSIZE));
- }
- }
+ if (verbose) {
+ quiet_println
+ ("%d entries in %s hash, longest is %d, shortest is %d, average length is %f\n",
+ count, vtype(i), longest, shortest,((float)count / (float)HASHSIZE));
+ }
+ }
+ return;
}
/*
* Follow the free chain.
* Record we found it in the free chain within the record array.
*/
-FollowFreeChain(header)
- struct vlheader *header;
+void
+FollowFreeChain(struct vlheader *header)
{
- int count=0;
- struct nvlentry vlentry;
- afs_uint32 addr;
- afs_int32 i, type, rindex;
-
- /* Now follow the Free Chain */
- if (verbose)
- printf("Check Volume Free Chain\n");
- for (addr=header->vital_header.freePtr; addr; addr=vlentry.nextIdHash[0]) {
- readentry(addr, &vlentry, &type);
- if (type != FR) {
- printf("Free Chain %d: Bad entry at %u: Not a valid free vlentry (0x%x)\n",
- i, addr, type);
- continue;
- }
-
- rindex = addr/sizeof(vlentry);
- if (record[rindex].addr != addr && record[rindex].addr) {
- printf("INTERNAL ERROR: addresses %u and %u use same record slot %d\n",
- record[rindex].addr, addr, rindex);
- }
- if (record[rindex].type & FRC) {
- printf("Free Chain: Bad entry at %u: Already in the free chain\n", addr);
- break;
- }
- record[rindex].type |= FRC;
-
- count++;
- }
- if (verbose)
- printf("%d entries on free chain\n", count);
+ afs_int32 count = 0;
+ struct nvlentry vlentry;
+ afs_uint32 addr;
+ afs_int32 type, rindex;
+
+ /* Now follow the Free Chain */
+ if (verbose) quiet_println("Check Volume Free Chain\n");
+ for (addr = header->vital_header.freePtr; addr;
+ addr = vlentry.nextIdHash[0]) {
+ readentry(addr, &vlentry, &type);
+ if (type != FR) {
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0%0x): Free Chain %d: Not a free vlentry (0x%x)\n",
+ addr, OFFSET(addr), count, type);
+ continue;
+ }
+
+ rindex = addr / sizeof(vlentry);
+ if (record[rindex].addr != addr && record[rindex].addr) {
+ log_error
+ (VLDB_CHECK_ERROR,"INTERNAL VLDB_CHECK_ERROR: addresses %u (0x%0x) and %ld (0x%0x) use same record slot %d\n",
+ record[rindex].addr, OFFSET(record[rindex].addr), addr, OFFSET(addr), rindex);
+ }
+ if (record[rindex].type & FRC) {
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Free Chain: Already in the free chain\n",
+ addr, OFFSET(addr));
+ break;
+ }
+ record[rindex].type |= FRC;
+
+ count++;
+ }
+ if (verbose)
+ quiet_println("%d entries on free chain\n", count);
+ return;
}
/*
* Read each multihomed block and mark it as found in the record.
* Read each entry in each multihomed block and mark the serveraddrs
* array with the number of ip addresses found for this entry.
- *
+ *
* Then read the IpMappedAddr array in the header.
* Verify that multihomed entries base and index are valid and points to
* a good multhomed entry.
* Mark the serveraddrs array with 1 ip address for regular entries.
- *
- * By the end, the severaddrs array will have a 0 if the entry has no
+ *
+ * By the end, the severaddrs array will have a 0 if the entry has no
* IP addresses in it or the count of the number of IP addresses.
*
- * The code does not verify if there are duplicate IP addresses in the
+ * The code does not verify if there are duplicate IP addresses in the
* list. The vlserver does this when a fileserver registeres itself.
*/
-CheckIpAddrs(header)
- struct vlheader *header;
+void
+CheckIpAddrs(struct vlheader *header)
{
- int mhblocks=0;
- struct nvlentry vlentry;
- afs_uint32 addr;
- afs_int32 i, j, m, rindex;
- afs_int32 mhentries, regentries;
- afs_int32 caddrs[VL_MAX_ADDREXTBLKS];
- char mhblock[VL_ADDREXTBLK_SIZE];
- struct extentaddr *MHblock = (struct extentaddr *)mhblock;
- struct extentaddr *e;
- int ipindex, ipaddrs;
- afsUUID nulluuid;
-
- memset(&nulluuid, 0, sizeof(nulluuid));
-
- if (verbose)
- printf("Check Multihomed blocks\n");
-
- if (header->SIT) {
- /* Read the first MH block and from it, gather the
- * addresses of all the mh blocks.
- */
- readMH(header->SIT, MHblock);
- if (MHblock->ex_flags != VLCONTBLOCK) {
- printf("Multihomed Block 0: Bad entry at %u: Not a valid multihomed block\n",
- header->SIT);
- }
-
- for (i=0; i<VL_MAX_ADDREXTBLKS; i++) {
- caddrs[i] = MHblock->ex_contaddrs[i];
- }
-
- if (header->SIT != caddrs[0]) {
- printf("MH block does not point to self %u in header, %u in block\n",
- header->SIT, caddrs[0]);
- }
-
- /* Now read each MH block and record it in the record array */
- for (i=0; i<VL_MAX_ADDREXTBLKS; i++) {
- if (!caddrs[i]) continue;
-
- readMH(caddrs[i], MHblock);
- if (MHblock->ex_flags != VLCONTBLOCK) {
- printf("Multihomed Block 0: Bad entry at %u: Not a valid multihomed block\n",
- header->SIT);
+ int mhblocks = 0;
+ afs_int32 i, j, m, rindex;
+ afs_int32 mhentries, regentries;
+ char mhblock[VL_ADDREXTBLK_SIZE];
+ struct extentaddr *MHblock = (struct extentaddr *)mhblock;
+ struct extentaddr *e;
+ int ipindex, ipaddrs;
+ afsUUID nulluuid;
+
+ memset(&nulluuid, 0, sizeof(nulluuid));
+
+ if (verbose)
+ quiet_println("Check Multihomed blocks\n");
+
+ if (header->SIT) {
+ /* Read the first MH block and from it, gather the
+ * addresses of all the mh blocks.
+ */
+ readMH(header->SIT, 0, MHblock);
+ if (MHblock->ex_hdrflags != VLCONTBLOCK) {
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Multihomed Block 0: Not a multihomed block\n",
+ header->SIT, OFFSET(header->SIT));
}
- rindex = caddrs[i]/sizeof(vlentry);
- if (record[rindex].addr != caddrs[i] && record[rindex].addr) {
- printf("INTERNAL ERROR: addresses %u and %u use same record slot %d\n",
- record[rindex].addr, caddrs[i], rindex);
+ for (i = 0; i < VL_MAX_ADDREXTBLKS; i++) {
+ mhinfo[i].addr = MHblock->ex_contaddrs[i];
}
- if (record[rindex].type & FRC) {
- printf("MH Blocks Chain %d: Bad entry at %u: Already a MH block\n", i, addr);
- break;
- }
- record[rindex].type |= MHC;
-
- mhblocks++;
- /* Read each entry in a multihomed block.
- * Find the pointer to the entry in the IpMappedAddr array and
- * verify that the entry is good (has IP addresses in it).
- */
- mhentries = 0;
- for (j=1; j<VL_MHSRV_PERBLK; j++) {
- e = (struct extentaddr *)&(MHblock[j]);
-
- /* Search the IpMappedAddr array for the reference to this entry */
- for (ipindex=0; ipindex<MAXSERVERID; ipindex++) {
- if ( ((header->IpMappedAddr[ipindex] & 0xff000000) == 0xff000000) &&
- (((header->IpMappedAddr[ipindex] & 0x00ff0000)>>16) == i) &&
- ((header->IpMappedAddr[ipindex] & 0x0000ffff) == j) ) {
- break;
- }
- }
- if (ipindex >= MAXSERVERID) ipindex = -1;
- else serveraddrs[ipindex] = -1;
-
- if (memcmp(&e->ex_hostuuid, &nulluuid, sizeof(afsUUID)) == 0) {
- if (ipindex != -1) {
- printf("Server Addrs index %d references null MH block %d, index %d\n", i, j);
- serveraddrs[ipindex] = 0; /* avoids printing 2nd error below */
- }
- continue;
- }
-
- /* Step through each ip address and count the good addresses */
- ipaddrs = 0;
- for (m=0; m<VL_MAXIPADDRS_PERMH; m++) {
- if (e->ex_addrs[m]) ipaddrs++;
- }
-
- /* If we found any good ip addresses, mark it in the serveraddrs record */
- if (ipaddrs) {
- mhentries++;
- if (ipindex == -1) {
- printf("MH block %d, index %d: Not referenced by server addrs\n", i, j);
- } else {
- serveraddrs[ipindex] = ipaddrs; /* It is good */
- }
- }
-
- if (listservers && ipaddrs) {
- printf("MH block %d, index %d:", i, j);
- for (m=0; m<VL_MAXIPADDRS_PERMH; m++) {
- if (!e->ex_addrs[m]) continue;
- printf(" %d.%d.%d.%d",
- (e->ex_addrs[m]&0xff000000)>>24,
- (e->ex_addrs[m]&0x00ff0000)>>16,
- (e->ex_addrs[m]&0x0000ff00)>>8,
- (e->ex_addrs[m]&0x000000ff));
- }
- printf("\n");
- }
+ if (header->SIT != mhinfo[0].addr) {
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): MH block does not point to self in header, %u in block\n",
+ header->SIT, OFFSET(header->SIT), mhinfo[0].addr);
}
+
+ /* Now read each MH block and record it in the record array */
+ for (i = 0; i < VL_MAX_ADDREXTBLKS; i++) {
+ if (!mhinfo[i].addr)
+ continue;
+
+ readMH(mhinfo[i].addr, i, MHblock);
+ if (MHblock->ex_hdrflags != VLCONTBLOCK) {
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Multihomed Block %d: Not a multihomed block\n",
+ mhinfo[i].addr, OFFSET(mhinfo[i].addr), i);
+ }
+
+ rindex = mhinfo[i].addr / sizeof(vlentry);
+ if (record[rindex].addr != mhinfo[i].addr && record[rindex].addr) {
+ log_error
+ (VLDB_CHECK_ERROR,"INTERNAL VLDB_CHECK_ERROR: addresses %u (0x%0x) and %u (0x%0x) use same record slot %d\n",
+ record[rindex].addr, OFFSET(record[rindex].addr), mhinfo[i].addr, OFFSET(mhinfo[i].addr), rindex);
+ }
+ if (record[rindex].type & FRC) {
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): MH Blocks Chain %d: Already a MH block\n",
+ record[rindex].addr, OFFSET(record[rindex].addr), i);
+ break;
+ }
+ record[rindex].type |= MHC;
+
+ mhblocks++;
+
+ /* Read each entry in a multihomed block.
+ * Find the pointer to the entry in the IpMappedAddr array and
+ * verify that the entry is good (has IP addresses in it).
+ */
+ mhentries = 0;
+ for (j = 1; j < VL_MHSRV_PERBLK; j++) {
+ int first_ipindex = -1;
+ e = (struct extentaddr *)&(MHblock[j]);
+
+ /* Search the IpMappedAddr array for all the references to this entry. */
+ /* Use the first reference for checking the ip addresses of this entry. */
+ for (ipindex = 0; ipindex <= MAXSERVERID; ipindex++) {
+ if (((header->IpMappedAddr[ipindex] & 0xff000000) == 0xff000000)
+ && (((header-> IpMappedAddr[ipindex] & 0x00ff0000) >> 16) == i)
+ && ((header->IpMappedAddr[ipindex] & 0x0000ffff) == j)) {
+ if (first_ipindex == -1) {
+ first_ipindex = ipindex;
+ } else {
+ serverxref[ipindex] = first_ipindex;
+ }
+ }
+ }
+ ipindex = first_ipindex;
+ if (ipindex != -1)
+ serveraddrs[ipindex] = -1;
+
+ if (memcmp(&e->ex_hostuuid, &nulluuid, sizeof(afsUUID)) == 0) {
+ if (ipindex != -1) {
+ log_error
+ (VLDB_CHECK_ERROR,"Server Addrs index %d references null MH block %d, index %d\n",
+ ipindex, i, j);
+ serveraddrs[ipindex] = 0; /* avoids printing 2nd error below */
+ }
+ continue;
+ }
+
+ /* Step through each ip address and count the good addresses */
+ ipaddrs = 0;
+ for (m = 0; m < VL_MAXIPADDRS_PERMH; m++) {
+ if (e->ex_addrs[m])
+ ipaddrs++;
+ }
+
+ /* If we found any good ip addresses, mark it in the serveraddrs record */
+ if (ipaddrs) {
+ mhentries++;
+ if (ipindex == -1) {
+ mhinfo[i].orphan[j] = 1;
+ log_error
+ (VLDB_CHECK_ERROR,"MH block %d, index %d: Not referenced by server addrs\n",
+ i, j);
+ } else {
+ serveraddrs[ipindex] = ipaddrs; /* It is good */
+ }
+ }
+
+ if (listservers && ipaddrs) {
+ quiet_println("MH block %d, index %d:", i, j);
+ for (m = 0; m < VL_MAXIPADDRS_PERMH; m++) {
+ if (!e->ex_addrs[m])
+ continue;
+ quiet_println(" %d.%d.%d.%d",
+ (e->ex_addrs[m] & 0xff000000) >> 24,
+ (e->ex_addrs[m] & 0x00ff0000) >> 16,
+ (e->ex_addrs[m] & 0x0000ff00) >> 8,
+ (e->ex_addrs[m] & 0x000000ff));
+ }
+ quiet_println("\n");
+ }
+ }
/*
* if (mhentries != MHblock->ex_count) {
- * printf("MH blocks says it has %d entries (found %d)\n",
+ * quiet_println("MH blocks says it has %d entries (found %d)\n",
* MHblock->ex_count, mhentries);
* }
*/
- }
- }
- if (verbose)
- printf("%d multihomed blocks\n", mhblocks);
-
- /* Check the server addresses */
- if (verbose)
- printf("Check server addresses\n");
- mhentries = regentries = 0;
- for (i=0; i<=MAXSERVERID; i++) {
- if (header->IpMappedAddr[i]) {
- if ((header->IpMappedAddr[i] & 0xff000000) == 0xff000000) {
- mhentries++;
- if (((header->IpMappedAddr[i] & 0x00ff0000)>>16) > VL_MAX_ADDREXTBLKS)
- printf("IP Addr for entry %d: Multihome block is bad (%d)\n",
- i, ((header->IpMappedAddr[i] & 0x00ff0000)>>16));
- if ( ((header->IpMappedAddr[i] & 0x0000ffff) > VL_MHSRV_PERBLK) ||
- ((header->IpMappedAddr[i] & 0x0000ffff) < 1) )
- printf("IP Addr for entry %d: Multihome index is bad (%d)\n",
- i, (header->IpMappedAddr[i] & 0x0000ffff));
- if (serveraddrs[i] == -1) {
- printf("warning: IP Addr for entry %d: Multihome entry has no ip addresses\n", i);
- serveraddrs[i] = 0;
- }
- if (listservers) {
- printf(" Server ip addr %d = MH block %d, index %d\n", i,
- (header->IpMappedAddr[i] & 0x00ff0000)>>16,
- (header->IpMappedAddr[i] & 0x0000ffff));
- }
- } else {
- regentries++;
- serveraddrs[i] = 1; /* It is good */
- if (listservers) {
- printf(" Server ip addr %d = %d.%d.%d.%d\n", i,
- (header->IpMappedAddr[i]&0xff000000)>>24,
- (header->IpMappedAddr[i]&0x00ff0000)>>16,
- (header->IpMappedAddr[i]&0x0000ff00)>>8,
- (header->IpMappedAddr[i]&0x000000ff));
- }
}
- }
- }
- if (verbose) {
- printf("%d simple entries, %d multihomed entries, Total = %d\n",
- regentries, mhentries, mhentries+regentries);
- }
+ }
+ if (verbose)
+ quiet_println("%d multihomed blocks\n", mhblocks);
+
+ /* Check the server addresses */
+ if (verbose)
+ quiet_println("Check server addresses\n");
+ mhentries = regentries = 0;
+ for (i = 0; i <= MAXSERVERID; i++) {
+ if (header->IpMappedAddr[i]) {
+ if ((header->IpMappedAddr[i] & 0xff000000) == 0xff000000) {
+ mhentries++;
+ if (((header->IpMappedAddr[i] & 0x00ff0000) >> 16) >
+ VL_MAX_ADDREXTBLKS)
+ log_error
+ (VLDB_CHECK_ERROR,"IP Addr for entry %d: Multihome block is bad (%d)\n",
+ i, ((header->IpMappedAddr[i] & 0x00ff0000) >> 16));
+ if (mhinfo[(header->IpMappedAddr[i] & 0x00ff0000) >> 16].addr == 0)
+ log_error(VLDB_CHECK_ERROR,"IP Addr for entry %d: No such multihome block (%d)\n",
+ i, ((header->IpMappedAddr[i] & 0x00ff0000) >> 16));
+ if (((header->IpMappedAddr[i] & 0x0000ffff) > VL_MHSRV_PERBLK)
+ || ((header->IpMappedAddr[i] & 0x0000ffff) < 1))
+ log_error
+ (VLDB_CHECK_ERROR,"IP Addr for entry %d: Multihome index is bad (%d)\n",
+ i, (header->IpMappedAddr[i] & 0x0000ffff));
+ if (serveraddrs[i] == -1) {
+ log_error
+ (VLDB_CHECK_WARNING,"warning: IP Addr for entry %d: Multihome entry has no ip addresses\n",
+ i);
+ serveraddrs[i] = 0;
+ }
+ if (serverxref[i] != BADSERVERID) {
+ log_error
+ (VLDB_CHECK_WARNING,
+ "warning: MH block %d, index %d is cross-linked by server numbers %d and %d.\n",
+ (header->IpMappedAddr[i] & 0x00ff0000) >> 16,
+ (header->IpMappedAddr[i] & 0x0000ffff),
+ i, serverxref[i]);
+ /* set addresses found/not found for this server number,
+ * using the first index to the mh we found above. */
+ serveraddrs[i] = serveraddrs[serverxref[i]];
+ }
+ if (listservers) {
+ quiet_println(" Server ip addr %d = MH block %d, index %d\n",
+ i, (header->IpMappedAddr[i] & 0x00ff0000) >> 16,
+ (header->IpMappedAddr[i] & 0x0000ffff));
+ }
+ } else {
+ regentries++;
+ serveraddrs[i] = 1; /* It is good */
+ if (listservers) {
+ quiet_println(" Server ip addr %d = %d.%d.%d.%d\n", i,
+ (header->IpMappedAddr[i] & 0xff000000) >> 24,
+ (header->IpMappedAddr[i] & 0x00ff0000) >> 16,
+ (header->IpMappedAddr[i] & 0x0000ff00) >> 8,
+ (header->IpMappedAddr[i] & 0x000000ff));
+ }
+ }
+ }
+ }
+ if (verbose) {
+ quiet_println("%d simple entries, %d multihomed entries, Total = %d\n",
+ regentries, mhentries, mhentries + regentries);
+ }
+ return;
+}
+char *
+nameForAddr(afs_uint32 addr, int hashtype, afs_uint32 *hash, char *buffer)
+{
+ /*
+ * We need to simplify the reporting, while retaining
+ * legible messages. This is a helper function. The return address
+ * is either a fixed char or the provided buffer - so don't use the
+ * name after the valid lifetime of the buffer.
+ */
+ afs_int32 type;
+ struct nvlentry entry;
+ if (!addr) {
+ /* Distinguished, invalid, hash */
+ *hash = 0xFFFFFFFF;
+ return "empty";
+ } else if (!validVolumeAddr(addr)) {
+ /* Different, invalid, hash */
+ *hash = 0XFFFFFFFE;
+ return "invalid";
+ }
+ readentry(addr, &entry, &type);
+ if (VL != type) {
+ *hash = 0XFFFFFFFE;
+ return "invalid";
+ }
+ if (hashtype >= MAXTYPES) {
+ *hash = NameHash(entry.name);
+ } else {
+ *hash = IdHash(entry.volumeId[hashtype]);
+ }
+ sprintf(buffer, "for '%s'", entry.name);
+ return buffer;
}
-WorkerBee(as, arock)
- struct cmd_syndesc *as;
- char *arock;
+void
+reportHashChanges(struct vlheader *header, afs_uint32 oldnamehash[HASHSIZE], afs_uint32 oldidhash[MAXTYPES][HASHSIZE])
{
- char *dbfile;
- afs_int32 maxentries, type;
- struct vlheader header;
- struct nvlentry vlentry;
- int i, j, help=0;
-
- dbfile = as->parms[0].items->data; /* -database */
- listuheader = (as->parms[1].items ? 1 : 0); /* -uheader */
- listheader = (as->parms[2].items ? 1 : 0); /* -vheader */
- listservers = (as->parms[3].items ? 1 : 0); /* -servers */
- listentries = (as->parms[4].items ? 1 : 0); /* -entries */
- verbose = (as->parms[5].items ? 1 : 0); /* -verbose */
-
- /* open the vldb database file */
- fd = open(dbfile, O_RDONLY, 0);
- if (fd < 0) {
- printf("can't open file '%s'. error = %d\n", dbfile, errno);
- return;
- }
-
- /* read the ubik header and the vldb database header*/
- readUbikHeader();
- readheader(&header);
- if (header.vital_header.vldbversion < 3) {
- printf("does not support vldb with version less than 3\n");
- return;
- }
-
- maxentries = (header.vital_header.eofPtr / sizeof(vlentry)) + 1;
- record = (struct er *)malloc(maxentries * sizeof(struct er));
- memset((char *)record, 0, (maxentries * sizeof(struct er)));
- memset((char *)serveraddrs, 0, sizeof(serveraddrs));
-
- /* Will fill in the record array of entries it found */
- ReadAllEntries(&header);
- listentries = 0; /* Listed all the entries */
-
- /* Check the multihomed blocks for valid entries as well as
- * the IpMappedAddrs array in the header for valid entries.
- */
- CheckIpAddrs(&header);
-
- /* Follow the hash tables */
- FollowNameHash(&header);
- FollowIdHash(&header);
-
- /* Follow the chain of free entries */
- FollowFreeChain(&header);
-
- /* Now check the record we have been keeping for inconsistancies
- * For valid vlentries, also check that the server we point to is
- * valid (the serveraddrs array).
- */
- if (verbose)
- printf("Verify each volume entry\n");
- for (i=0; i<maxentries; i++) {
- if (record[i].type == 0) continue;
-
- /* If a vlentry, verify that its name is valid, its name and ids are
- * on the hash chains, and its server numbers are good.
- */
- if (record[i].type & VL) {
- readentry(record[i].addr, &vlentry, &type);
-
- if (InvalidVolname(vlentry.name))
- printf("Volume '%s' at addr has an invalid name\n", vlentry.name, record[i].addr);
-
- if (!(record[i].type & NH))
- printf("Volume '%s' not found in name hash\n", vlentry.name);
-
- if (vlentry.volumeId[0] && !(record[i].type & RWH))
- printf("Volume '%s' id %u not found in RW hash chain\n",
- vlentry.name, vlentry.volumeId[0]);
-
- if (vlentry.volumeId[1] && !(record[i].type & ROH))
- printf("Volume '%s' id %u not found in RO hash chain\n",
- vlentry.name, vlentry.volumeId[1]);
-
- if (vlentry.volumeId[2] && !(record[i].type & BKH))
- printf("Volume '%s' id %u not found in BK hash chain\n",
- vlentry.name, vlentry.volumeId[2]);
-
- for (j=0; j<NMAXNSERVERS; j++) {
- if ( (vlentry.serverNumber[j] != 255) &&
- (serveraddrs[vlentry.serverNumber[j]] == 0) ) {
- printf("Volume '%s', index %d points to empty server entry %d\n",
- vlentry.name, j, vlentry.serverNumber[j]);
- }
+ int i, j;
+ afs_uint32 oldhash, newhash;
+ char oldNameBuffer[10 + VL_MAXNAMELEN];
+ char newNameBuffer[10 + VL_MAXNAMELEN];
+ char *oldname, *newname;
+ /*
+ * report hash changes
+ */
+
+ for (i = 0; i < HASHSIZE; i++) {
+ if (oldnamehash[i] != header->VolnameHash[i]) {
+
+ oldname = nameForAddr(oldnamehash[i], MAXTYPES, &oldhash, oldNameBuffer);
+ newname = nameForAddr(header->VolnameHash[i], MAXTYPES, &newhash, newNameBuffer);
+ if (verbose || (oldhash != newhash)) {
+ quiet_println("FIX: Name hash header at %d was %s, is now %s\n", i, oldname, newname);
+ }
}
+ for (j = 0; j < MAXTYPES; j++) {
+ if (oldidhash[j][i] != header->VolidHash[j][i]) {
+
+ oldname = nameForAddr(oldidhash[j][i], j, &oldhash, oldNameBuffer);
+ newname = nameForAddr(header->VolidHash[j][i], j, &newhash, newNameBuffer);
+ if (verbose || (oldhash != newhash)) {
+ quiet_println("FIX: %s hash header at %d was %s, is now %s\n", vtype(j), i, oldname, newname);
+ }
+ }
+ }
+ }
+}
- if (record[i].type & 0xffffff00)
- printf("Volume '%s' id %u also found on other chains (0x%x)\n",
- vlentry.name, vlentry.volumeId[0], record[i].type);
-
- /* A free entry */
- } else if (record[i].type & FR) {
- if (!(record[i].type & FRC))
- printf("Free vlentry at %u not on free chain\n", record[i].addr);
-
- if (record[i].type & 0xfffffdf0)
- printf("Free vlentry at %u also found on other chains (0x%x)\n",
- record[i].addr, record[i].type);
-
- /* A multihomed entry */
- } else if (record[i].type & MH) {
- if (!(record[i].type & MHC))
- printf("Multihomed block at %u is orphaned\n", record[i].addr);
-
- if (record[i].type & 0xfffffef0)
- printf("Multihomed block at %u also found on other chains (0x%x)\n",
- record[i].addr, record[i].type);
-
- } else {
- printf("Unknown entry type at %u (0x%x)\n", record[i].addr, record[i].type);
- }
- }
+/**
+ * Remove unreferenced, duplicate multi-home address indices.
+ *
+ * Removes entries from IpMappedAddr which where found to be
+ * duplicates. Only entries which are not referenced by vl entries
+ * are removed on this pass.
+ *
+ * @param[inout] header the vldb header to be updated.
+ */
+void
+removeCrossLinkedAddresses(struct vlheader *header)
+{
+ int i;
+
+ for (i = 0; i <= MAXSERVERID; i++) {
+ if (serverref[i] == 0
+ && (header->IpMappedAddr[i] & 0xff000000) == 0xff000000
+ && serverxref[i] != BADSERVERID) {
+ if (serverxref[i] == i) {
+ log_error(VLDB_CHECK_ERROR,
+ "INTERNAL VLDB_CHECK_ERROR: serverxref points to self; index %d\n",
+ i);
+ } else if (header->IpMappedAddr[serverxref[i]] == 0) {
+ log_error(VLDB_CHECK_ERROR,
+ "INTERNAL VLDB_CHECK_ERROR: serverxref points to empty addr; index %d, value %d\n",
+ i, serverxref[i]);
+ } else if (header->IpMappedAddr[serverxref[i]] != header->IpMappedAddr[i]) {
+ log_error(VLDB_CHECK_ERROR,
+ "INTERNAL VLDB_CHECK_ERROR: invalid serverxref; index %d, value %d\n",
+ i, serverxref[i]);
+ } else {
+ quiet_println
+ ("FIX: Removing unreferenced address index %d, which cross-links MH block %d, index %d\n",
+ i, (header->IpMappedAddr[i] & 0x00ff0000) >> 16,
+ (header->IpMappedAddr[i] & 0x0000ffff));
+ header->IpMappedAddr[i] = 0;
+ }
+ }
+ }
}
-main(argc, argv)
- int argc;
- char **argv;
+int
+WorkerBee(struct cmd_syndesc *as, void *arock)
{
- struct cmd_syndesc *ts;
- struct cmd_item *ti;
+ char *dbfile;
+ afs_int32 type;
+ struct vlheader header;
+ struct nvlentry vlentry, vlentry2;
+ int i, j, k;
+ afs_uint32 oldnamehash[HASHSIZE];
+ afs_uint32 oldidhash[MAXTYPES][HASHSIZE];
+
+ error_level = 0; /* start clean with no error status */
+ dbfile = as->parms[0].items->data; /* -database */
+ listuheader = (as->parms[1].items ? 1 : 0); /* -uheader */
+ listheader = (as->parms[2].items ? 1 : 0); /* -vheader */
+ listservers = (as->parms[3].items ? 1 : 0); /* -servers */
+ listentries = (as->parms[4].items ? 1 : 0); /* -entries */
+ verbose = (as->parms[5].items ? 1 : 0); /* -verbose */
+ quiet = (as->parms[6].items ? 1 : 0); /* -quiet */
+ fix = (as->parms[7].items ? 1 : 0); /* -fix */
+
+ /* sanity check */
+ if (quiet && (verbose || listuheader || listheader ||listservers \
+ || listentries)) {
+ log_error(VLDB_CHECK_FATAL," -quiet cannot be used other display flags\n");
+ return VLDB_CHECK_FATAL;
+ }
+
+
+ /* open the vldb database file */
+ fd = open(dbfile, (fix > 0)?O_RDWR:O_RDONLY, 0);
+ if (fd < 0) {
+ log_error(VLDB_CHECK_FATAL,"can't open file '%s'. error = %d\n", dbfile, errno);
+ return 0;
+ }
+
+ /* read the ubik header and the vldb database header */
+ readUbikHeader();
+ readheader(&header);
+ if (header.vital_header.vldbversion < 3) {
+ log_error(VLDB_CHECK_FATAL,"does not support vldb with version less than 3\n");
+ return VLDB_CHECK_FATAL;
+ }
+
+ maxentries = (header.vital_header.eofPtr / sizeof(vlentry)) + 1;
+ record = calloc(maxentries, sizeof(struct er));
+ memset(serveraddrs, 0, sizeof(serveraddrs));
+ memset(mhinfo, 0, sizeof(mhinfo));
+ memset(serverref, 0, sizeof(serverref));
+ for (i = 0; i <= MAXSERVERID; i++) {
+ serverxref[i] = BADSERVERID;
+ }
+
+ /* Will fill in the record array of entries it found */
+ ReadAllEntries(&header);
+ listentries = 0; /* Listed all the entries */
+
+ /* Check the multihomed blocks for valid entries as well as
+ * the IpMappedAddrs array in the header for valid entries.
+ */
+ CheckIpAddrs(&header);
+
+ /* Follow the hash tables */
+ FollowNameHash(&header);
+ FollowIdHash(&header);
+
+ /* Follow the chain of free entries */
+ FollowFreeChain(&header);
+
+ /* Now check the record we have been keeping for inconsistencies
+ * For valid vlentries, also check that the server we point to is
+ * valid (the serveraddrs array).
+ */
+ if (verbose)
+ quiet_println("Verify each volume entry\n");
+ for (i = 0; i < maxentries; i++) {
+ int hash = 0;
+ int nexthash = 0;
+ char *which = NULL;
+
+ if (record[i].type == 0)
+ continue;
+
+ /* If a vlentry, verify that its name is valid, its name and ids are
+ * on the hash chains, and its server numbers are good.
+ */
+ if (record[i].type & VL) {
+ int foundbad = 0;
+ int foundbroken = 0;
+ char volidbuf[256];
+
+ readentry(record[i].addr, &vlentry, &type);
+
+ if (!(vlentry.flags & VLF_RWEXISTS))
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Volume '%s' (%u) has no RW volume\n",
+ record[i].addr, OFFSET(record[i].addr), vlentry.name, vlentry.volumeId[0]);
+
+ if (InvalidVolname(vlentry.name))
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Volume '%s' (%u) has an invalid name\n",
+ record[i].addr, OFFSET(record[i].addr), vlentry.name, vlentry.volumeId[0]);
+
+ if (vlentry.volumeId[0] == 0)
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Volume '%s' (%u) has an invalid volume id\n",
+ record[i].addr, OFFSET(record[i].addr), vlentry.name, vlentry.volumeId[0]);
+
+ if (!(record[i].type & NH)) {
+ hash = NameHash(vlentry.name);
+ which = "name";
+ volidbuf[0]='\0';
+ foundbad = 1;
+ }
+
+ if (vlentry.volumeId[0] && !(record[i].type & RWH)) {
+ hash = IdHash(vlentry.volumeId[0]);
+ which = "RW";
+ sprintf(volidbuf, "id %u ", vlentry.volumeId[0]);
+ foundbad = 1;
+ }
+
+ if (vlentry.volumeId[1] && !(record[i].type & ROH)) {
+ hash = IdHash(vlentry.volumeId[1]);
+ which = "RO";
+ sprintf(volidbuf, "id %u ", vlentry.volumeId[1]);
+ foundbad = 1;
+ }
+
+ if (vlentry.volumeId[2] && !(record[i].type & BKH)) {
+ hash = IdHash(vlentry.volumeId[2]);
+ which = "BK";
+ sprintf(volidbuf, "id %u ", vlentry.volumeId[2]);
+ foundbad = 1;
+ }
+
+ if (!validVolumeAddr(vlentry.nextNameHash) ||
+ record[ADDR(vlentry.nextNameHash)].type & MULTN) {
+ hash = NameHash(vlentry.name);
+ which = "name";
+ volidbuf[0]='\0';
+ if (validVolumeAddr(vlentry.nextNameHash)) {
+ readentry(vlentry.nextNameHash, &vlentry2, &type);
+ nexthash = NameHash(vlentry2.name);
+ } else {
+ nexthash = 0xFFFFFFFF;
+ }
+ if (hash != nexthash)
+ foundbroken = 1;
+ }
+
+ if (!validVolumeAddr(vlentry.nextIdHash[0]) ||
+ record[ADDR(vlentry.nextIdHash[0])].type & MULTRW) {
+ hash = IdHash(vlentry.volumeId[0]);
+ which = "RW";
+ sprintf(volidbuf, "id %u ", vlentry.volumeId[0]);
+ if (validVolumeAddr(vlentry.nextIdHash[0])) {
+ readentry(vlentry.nextIdHash[0], &vlentry2, &type);
+ nexthash = IdHash(vlentry2.volumeId[0]);
+ } else {
+ nexthash = 0xFFFFFFFF;
+ }
+ if (hash != nexthash)
+ foundbroken = 1;
+ }
+
+ if (!validVolumeAddr(vlentry.nextIdHash[1]) ||
+ record[ADDR(vlentry.nextIdHash[1])].type & MULTRO) {
+ hash = IdHash(vlentry.volumeId[1]);
+ which = "RO";
+ sprintf(volidbuf, "id %u ", vlentry.volumeId[1]);
+ if (validVolumeAddr(vlentry.nextIdHash[1])) {
+ readentry(vlentry.nextIdHash[1], &vlentry2, &type);
+ nexthash = IdHash(vlentry2.volumeId[1]);
+ } else {
+ nexthash = 0xFFFFFFFF;
+ }
+ if (hash != nexthash)
+ foundbroken = 1;
+ }
+
+ if (!validVolumeAddr(vlentry.nextIdHash[2]) ||
+ record[ADDR(vlentry.nextIdHash[2])].type & MULTBK) {
+ hash = IdHash(vlentry.volumeId[2]);
+ which = "BK";
+ sprintf(volidbuf, "id %u ", vlentry.volumeId[2]);
+ if (validVolumeAddr(vlentry.nextIdHash[2])) {
+ readentry(vlentry.nextIdHash[2], &vlentry2, &type);
+ nexthash = IdHash(vlentry2.volumeId[2]);
+ } else {
+ nexthash = 0xFFFFFFFF;
+ }
+ if (hash != nexthash)
+ foundbroken = 1;
+ }
+
+ if (foundbroken) {
+ log_error(VLDB_CHECK_ERROR,
+ "address %u (offset 0x%0x): Volume '%s' %s forward link in %s hash chain is broken (hash %d != %d)\n",
+ record[i].addr, OFFSET(record[i].addr),
+ vlentry.name, volidbuf, which, hash, nexthash);
+ } else if (foundbad) {
+ log_error(VLDB_CHECK_ERROR,
+ "address %u (offset 0x%0x): Volume '%s' %snot found in %s hash %d\n",
+ record[i].addr, OFFSET(record[i].addr),
+ vlentry.name, volidbuf, which, hash);
+ }
+
+ for (j = 0; j < NMAXNSERVERS; j++) {
+ if (vlentry.serverNumber[j] != BADSERVERID) {
+ serverref[vlentry.serverNumber[j]] = 1;
+ if (serveraddrs[vlentry.serverNumber[j]] == 0) {
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Volume '%s', index %d points to empty server entry %d\n",
+ record[i].addr, OFFSET(record[i].addr), vlentry.name, j, vlentry.serverNumber[j]);
+ } else if (serverxref[vlentry.serverNumber[j]] != BADSERVERID) {
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Volume '%s', index %d points to server entry %d, which is cross-linked by %d\n",
+ record[i].addr, OFFSET(record[i].addr), vlentry.name, j, vlentry.serverNumber[j], serverxref[vlentry.serverNumber[j]]);
+ }
+ }
+ }
+
+ if (record[i].type & 0xffff0f00)
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Volume '%s' id %u also found on other chains (0x%x)\n",
+ record[i].addr, OFFSET(record[i].addr), vlentry.name, vlentry.volumeId[0], record[i].type);
+
+ /* A free entry */
+ } else if (record[i].type & FR) {
+ if (!(record[i].type & FRC))
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Free vlentry not on free chain\n",
+ record[i].addr, OFFSET(record[i].addr));
+
+ if (record[i].type & 0xfffffdf0)
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Free vlentry also found on other chains (0x%x)\n",
+ record[i].addr, OFFSET(record[i].addr), record[i].type);
+
+ /* A multihomed entry */
+ } else if (record[i].type & MH) {
+ if (!(record[i].type & MHC))
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Multihomed block is orphaned\n",
+ record[i].addr, OFFSET(record[i].addr));
+
+ if (record[i].type & 0xfffffef0)
+ log_error
+ (VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Multihomed block also found on other chains (0x%x)\n",
+ record[i].addr, OFFSET(record[i].addr), record[i].type);
+
+ } else {
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Unknown entry type 0x%x\n",
+ record[i].addr, OFFSET(record[i].addr), record[i].type);
+ }
+ }
- setlinebuf(stdout);
+ if (fix) {
+ /*
+ * If we are fixing we will rebuild the free and hash lists from the ground up.
+ */
+ header.vital_header.freePtr = 0;
+ memcpy(oldnamehash, header.VolnameHash, sizeof(oldnamehash));
+ memset(header.VolnameHash, 0, sizeof(header.VolnameHash));
+
+ memcpy(oldidhash, header.VolidHash, sizeof(oldidhash));
+ memset(header.VolidHash, 0, sizeof(header.VolidHash));
+ quiet_println("Rebuilding %u entries\n", maxentries);
+ } else {
+ quiet_println("Scanning %u entries for possible repairs\n", maxentries);
+ }
+ for (i = 0; i < maxentries; i++) {
+ afs_uint32 hash;
+ if (record[i].type & VL) {
+ readentry(record[i].addr, &vlentry, &type);
+ if (!(record[i].type & REFN)) {
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Record is not in a name chain (type 0x%0x)\n",
+ record[i].addr, OFFSET(record[i].addr), record[i].type);
+ }
+ if (vlentry.volumeId[0] && !(record[i].type & REFRW)) {
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Record not in a RW chain (type 0x%0x)\n",
+ record[i].addr, OFFSET(record[i].addr), record[i].type);
+ }
+ if (vlentry.volumeId[1] && !(record[i].type & REFRO)) {
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Record not in a RO chain (type 0x%0x)\n",
+ record[i].addr, OFFSET(record[i].addr), record[i].type);
+ }
+ if (vlentry.volumeId[2] && !(record[i].type & REFBK)) {
+ log_error(VLDB_CHECK_ERROR,"address %u (offset 0x%0x): Record not in a BK chain (type 0x%0x)\n",
+ record[i].addr, OFFSET(record[i].addr), record[i].type);
+ }
+ if (fix) {
+ afs_uint32 oldhash, newhash;
+ char oldNameBuffer[10 + VL_MAXNAMELEN];
+ char newNameBuffer[10 + VL_MAXNAMELEN];
+ char *oldname, *newname;
+
+ /* Fix broken names and numbers so entries can be inspected and deleted. */
+ if (InvalidVolname(vlentry.name)) {
+ char bogus[VL_MAXNAMELEN];
+ memset(bogus, 0, sizeof(bogus));
+ snprintf(bogus, sizeof(bogus)-1, ".bogus.%ld", record[i].addr);
+ strcpy(vlentry.name, bogus);
+ quiet_println("FIX: Record %ld invalid volume name set to '%s'\n", record[i].addr, bogus);
+ }
+ if (vlentry.volumeId[0] == 0) {
+ afs_uint32 next_volid = header.vital_header.MaxVolumeId++;
+ vlentry.volumeId[0] = next_volid;
+ quiet_println("FIX: Record %ld invalid volume id set to %ld. New max volid is %ld\n",
+ record[i].addr, next_volid, header.vital_header.MaxVolumeId);
+ }
+
+ /*
+ * Put the current hash table contexts into our 'next'
+ * and our address into the hash table.
+ */
+ hash = NameHash(vlentry.name);
+
+ if (vlentry.nextNameHash != header.VolnameHash[hash]) {
+ oldname = nameForAddr(vlentry.nextNameHash, MAXTYPES, &oldhash, oldNameBuffer);
+ newname = nameForAddr(header.VolnameHash[hash], MAXTYPES, &newhash, newNameBuffer);
+ if (verbose || ((oldhash != newhash) &&
+ (0 != vlentry.nextNameHash) &&
+ (0 != header.VolnameHash[hash]))) {
+ /*
+ * That is, only report if we are verbose
+ * or the hash is changing (and one side wasn't NULL
+ */
+ quiet_println("FIX: Name hash link for '%s' was %s, is now %s\n",
+ vlentry.name, oldname, newname);
+ }
+ }
+
+ vlentry.nextNameHash = header.VolnameHash[hash];
+ header.VolnameHash[hash] = record[i].addr;
+
+ for (j = 0; j < MAXTYPES; j++) {
+
+ if (0 == vlentry.volumeId[j]) {
+ /*
+ * No volume of that type. Continue
+ */
+ continue;
+ }
+ hash = IdHash(vlentry.volumeId[j]);
+
+ if (vlentry.nextIdHash[j] != header.VolidHash[j][hash]) {
+ oldname = nameForAddr(vlentry.nextIdHash[j], j, &oldhash, oldNameBuffer);
+ newname = nameForAddr(header.VolidHash[j][hash], j, &newhash, newNameBuffer);
+ if (verbose || ((oldhash != newhash) &&
+ (0 != vlentry.nextIdHash[j]) &&
+ (0 != header.VolidHash[j][hash]))) {
+ quiet_println("FIX: %s hash link for '%s' was %s, is now %s\n",
+ vtype(j), vlentry.name, oldname, newname);
+ }
+ }
+
+ /* Consolidate server numbers which point to the same mh entry.
+ * The serverref flags are not reset here, since we want to make
+ * sure the data is actually written before the server number is
+ * considered unreferenced. */
+ for (k = 0; k < NMAXNSERVERS; k++) {
+ if (vlentry.serverNumber[k] != BADSERVERID
+ && serverxref[vlentry.serverNumber[k]] != BADSERVERID) {
+ u_char oldsn = vlentry.serverNumber[k];
+ u_char newsn = serverxref[oldsn];
+ if (newsn == oldsn) {
+ log_error(VLDB_CHECK_ERROR,
+ "INTERNAL VLDB_CHECK_ERROR: serverxref points to self; index %d\n",
+ oldsn);
+ } else if (header.IpMappedAddr[oldsn] == 0) {
+ log_error(VLDB_CHECK_ERROR,
+ "INTERNAL VLDB_CHECK_ERROR: serverxref; points to empty address; index %d, value %d\n",
+ oldsn, newsn);
+ } else if (header.IpMappedAddr[newsn] != header.IpMappedAddr[oldsn]) {
+ log_error(VLDB_CHECK_ERROR,
+ "INTERNAL VLDB_CHECK_ERROR: invalid serverxref; index %d\n",
+ oldsn);
+ } else {
+ quiet_println
+ ("FIX: Volume '%s', index %d, server number was %d, is now %d\n",
+ vlentry.name, k, oldsn, newsn);
+ vlentry.serverNumber[k] = newsn;
+ }
+ }
+ }
+
+ vlentry.nextIdHash[j] = header.VolidHash[j][hash];
+ header.VolidHash[j][hash] = record[i].addr;
+ }
+ writeentry(record[i].addr, &vlentry);
+ }
+ }
+ else if (record[i].type & MH) {
+ int block, index;
+ char mhblock[VL_ADDREXTBLK_SIZE];
+ struct extentaddr *MHblock = (struct extentaddr *)mhblock;
+
+ if (fix) {
+ for (block = 0; block < VL_MAX_ADDREXTBLKS; block++) {
+ if (mhinfo[block].addr == record[i].addr)
+ break;
+ }
+ if (block == VL_MAX_ADDREXTBLKS) {
+ continue; /* skip orphaned extent block */
+ }
+ readMH(record[i].addr, block, MHblock);
+ for (index = 0; index < VL_MHSRV_PERBLK; index++) {
+ if (mhinfo[block].orphan[index]) {
+ quiet_println("FIX: Removing unreferenced mh entry; block %d, index %d\n",
+ block, index);
+ memset(&(MHblock[index]), 0, sizeof(struct extentaddr));
+ }
+ }
+ writeMH(record[i].addr, block, MHblock);
+ }
+ } else if (record[i].type & FR) {
+ if (fix) {
+ readentry(record[i].addr, &vlentry, &type);
+ vlentry.nextIdHash[0] = header.vital_header.freePtr;
+ header.vital_header.freePtr = record[i].addr;
+ if ((record[i].type & FRC) == 0) {
+ quiet_println
+ ("FIX: Putting free entry on the free chain: addr=%lu (offset 0x%0x)\n",
+ record[i].addr, OFFSET(record[i].addr));
+ }
+ writeentry(record[i].addr, &vlentry);
+ }
+ }
+ }
+ if (fix) {
+ reportHashChanges(&header, oldnamehash, oldidhash);
+ removeCrossLinkedAddresses(&header);
+ writeheader(&header);
+ }
- ts=cmd_CreateSyntax((char *)0, WorkerBee, (char *) 0, "vldb check");
- cmd_AddParm(ts, "-database", CMD_SINGLE, CMD_REQUIRED, "vldb_file");
- cmd_AddParm(ts, "-uheader", CMD_FLAG, CMD_OPTIONAL, "Display UBIK header");
- cmd_AddParm(ts, "-vheader", CMD_FLAG, CMD_OPTIONAL, "Display VLDB header");
- cmd_AddParm(ts, "-servers", CMD_FLAG, CMD_OPTIONAL, "Display server list");
- cmd_AddParm(ts, "-entries", CMD_FLAG, CMD_OPTIONAL, "Display entries");
- cmd_AddParm(ts, "-verbose", CMD_FLAG, CMD_OPTIONAL, "verbose");
+ close(fd);
- return cmd_Dispatch(argc, argv);
+ return error_level;
+}
+
+int
+main(int argc, char **argv)
+{
+ struct cmd_syndesc *ts;
+
+ setlinebuf(stdout);
+
+ ts = cmd_CreateSyntax(NULL, WorkerBee, NULL, 0, "vldb check");
+ cmd_AddParm(ts, "-database", CMD_SINGLE, CMD_REQUIRED, "vldb_file");
+ cmd_AddParm(ts, "-uheader", CMD_FLAG, CMD_OPTIONAL,
+ "Display UBIK header");
+ cmd_AddParm(ts, "-vheader", CMD_FLAG, CMD_OPTIONAL,
+ "Display VLDB header");
+ cmd_AddParm(ts, "-servers", CMD_FLAG, CMD_OPTIONAL,
+ "Display server list");
+ cmd_AddParm(ts, "-entries", CMD_FLAG, CMD_OPTIONAL, "Display entries");
+ cmd_AddParm(ts, "-verbose", CMD_FLAG, CMD_OPTIONAL, "verbose");
+ cmd_AddParm(ts, "-quiet", CMD_FLAG, CMD_OPTIONAL, "quiet");
+ cmd_AddParm(ts, "-fix", CMD_FLAG, CMD_OPTIONAL, "attempt to patch the database (potentially dangerous)");
+
+ return cmd_Dispatch(argc, argv);
}