Use afs_sfsize_t for *_SIZE results

[openafs.git] / src / volser / dumpstuff.c

/*
 * 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
 */

#include <afsconfig.h>
#include <afs/param.h>


#include <sys/types.h>
#include <ctype.h>
#include <stdio.h>
#include <errno.h>
#include <string.h>
#ifdef AFS_NT40_ENV
#include <fcntl.h>
#else
#include <sys/param.h>
#include <sys/file.h>
#include <sys/uio.h>
#include <netinet/in.h>
#include <unistd.h>
#endif
#include <sys/stat.h>
#ifdef AFS_PTHREAD_ENV
#include <assert.h>
#else /* AFS_PTHREAD_ENV */
#include <afs/assert.h>
#endif /* AFS_PTHREAD_ENV */
#include <rx/xdr.h>
#include <rx/rx.h>
#include <afs/afsint.h>
#include <afs/nfs.h>
#include <afs/errors.h>
#include <lock.h>
#include <lwp.h>
#include <afs/ihandle.h>
#include <afs/vnode.h>
#include <afs/volume.h>
#include <afs/partition.h>
#include "dump.h"
#include <afs/daemon_com.h>
#include <afs/fssync.h>
#include <afs/acl.h>
#include <afs/com_err.h>
#include <afs/vol_prototypes.h>
#include "volser.h"
#include "volint.h"
#include "dumpstuff.h"

#ifndef AFS_NT40_ENV
#ifdef O_LARGEFILE
#define afs_stat        stat64
#define afs_fstat       fstat64
#else /* !O_LARGEFILE */
#define afs_stat        stat
#define afs_fstat       fstat
#endif /* !O_LARGEFILE */
#endif /* !AFS_NT40_ENV */

/*@printflike@*/ extern void Log(const char *format, ...);

extern int DoLogging;


/* Forward Declarations */
static int DumpDumpHeader(register struct iod *iodp, register Volume * vp,
                          afs_int32 fromtime);
static int DumpPartial(register struct iod *iodp, register Volume * vp,
                       afs_int32 fromtime, int dumpAllDirs);
static int DumpVnodeIndex(register struct iod *iodp, Volume * vp,
                          VnodeClass class, afs_int32 fromtime,
                          int forcedump);
static int DumpVnode(register struct iod *iodp, struct VnodeDiskObject *v,
                     int volid, int vnodeNumber, int dumpEverything);
static int ReadDumpHeader(register struct iod *iodp, struct DumpHeader *hp);
static int ReadVnodes(register struct iod *iodp, Volume * vp, int incremental,
                      afs_int32 * Lbuf, afs_int32 s1, afs_int32 * Sbuf,
                      afs_int32 s2, afs_int32 delo);
static afs_fsize_t volser_WriteFile(int vn, struct iod *iodp,
                                    FdHandle_t * handleP, int tag,
                                    Error * status);

static int SizeDumpDumpHeader(register struct iod *iodp, register Volume * vp,
                              afs_int32 fromtime,
                              register struct volintSize *size);
static int SizeDumpPartial(register struct iod *iodp, register Volume * vp,
                           afs_int32 fromtime, int dumpAllDirs,
                           register struct volintSize *size);
static int SizeDumpVnodeIndex(register struct iod *iodp, Volume * vp,
                              VnodeClass class, afs_int32 fromtime,
                              int forcedump,
                              register struct volintSize *size);
static int SizeDumpVnode(register struct iod *iodp, struct VnodeDiskObject *v,
                         int volid, int vnodeNumber, int dumpEverything,
                         register struct volintSize *size);

#define MAX_SECTIONS    3
#define MIN_TLV_TAG     5
#define MAX_TLV_TAG     0x60
#define MAX_STANDARD_TAG 0x7a
static afs_uint32 oldtags[MAX_SECTIONS][16];
int oldtagsInited = 0;

static void
RegisterTag(afs_int32 section, unsigned char tag)
{
    afs_uint32 off = tag >> 5;
    afs_uint32 mask = 1 << (tag & 0x1f);
    oldtags[section][off] |= mask;
}

static void
initNonStandardTags(void)
{
    RegisterTag(0, 'n');                /* volume name */
    RegisterTag(0, 't');                /* fromtime, V_backupDate */
    RegisterTag(1, 'A');                /* V_accessDate */
    RegisterTag(1, 'C');                /* V_creationDate */
    RegisterTag(1, 'D');                /* V_dayUseDate */
    RegisterTag(1, 'E');                /* V_expirationDate */
    RegisterTag(1, 'M');                /* nullstring (motd) */
    RegisterTag(1, 'U');                /* V_updateDate */
    RegisterTag(1, 'W');                /* V_weekUse */
    RegisterTag(1, 'Z');                /* V_dayUse */
    RegisterTag(1, 'O');                /* V_offlineMessage */
    RegisterTag(1, 'b');                /* V_blessed */
    RegisterTag(1, 'n');                /* V_name */
    RegisterTag(1, 's');                /* V_inService */
    RegisterTag(1, 't');                /* V_type */
    RegisterTag(2, 'A');                /* VVnodeDiskACL */
    RegisterTag(2, 'b');                /* modeBits */
    RegisterTag(2, 'f');                /* small file */
    RegisterTag(2, 'h');                /* large file */
    RegisterTag(2, 'l');                /* linkcount */
    RegisterTag(2, 't');                /* type */
    oldtagsInited = 1;
}

static void
iod_Init(register struct iod *iodp, register struct rx_call *call)
{
    iodp->call = call;
    iodp->haveOldChar = 0;
    iodp->ncalls = 1;
    iodp->calls = (struct rx_call **)0;
}

static void
iod_InitMulti(struct iod *iodp, struct rx_call **calls, int ncalls,
              int *codes)
{

    iodp->calls = calls;
    iodp->haveOldChar = 0;
    iodp->ncalls = ncalls;
    iodp->codes = codes;
    iodp->call = (struct rx_call *)0;
}

/* N.B. iod_Read doesn't check for oldchar (see previous comment) */
#define iod_Read(iodp, buf, nbytes) rx_Read((iodp)->call, buf, nbytes)

/* For the single dump case, it's ok to just return the "bytes written"
 * that rx_Write returns, since all the callers of iod_Write abort when
 * the returned value is less than they expect.  For the multi dump case,
 * I don't think we want half the replicas to go bad just because one 
 * connection timed out, but if they all time out, then we should give up. 
 */
static int
iod_Write(struct iod *iodp, char *buf, int nbytes)
{
    int code, i;
    int one_success = 0;

    assert((iodp->call && iodp->ncalls == 1 && !iodp->calls)
           || (!iodp->call && iodp->ncalls >= 1 && iodp->calls));

    if (iodp->call) {
        code = rx_Write(iodp->call, buf, nbytes);
        return code;
    }

    for (i = 0; i < iodp->ncalls; i++) {
        if (iodp->calls[i] && !iodp->codes[i]) {
            code = rx_Write(iodp->calls[i], buf, nbytes);
            if (code != nbytes) {       /* everything gets merged into a single error */
                iodp->codes[i] = VOLSERDUMPERROR;       /* but that's exactly what the */
            } /* standard dump does, anyways */
            else {
                one_success = TRUE;
            }
        }
    }                           /* for all calls */

    if (one_success)
        return nbytes;
    else
        return 0;
}

static void
iod_ungetc(struct iod *iodp, int achar)
{
    iodp->oldChar = achar;
    iodp->haveOldChar = 1;
}

static int
iod_getc(register struct iod *iodp)
{
    unsigned char t;

    if (iodp->haveOldChar) {
        iodp->haveOldChar = 0;
        return iodp->oldChar;
    }
    if (iod_Read(iodp, (char *) &t, 1) == 1)
        return t;
    return EOF;
}

static int
ReadShort(register struct iod *iodp, register unsigned short *sp)
{
    register int b1, b0;
    b1 = iod_getc(iodp);
    if (b1 == EOF)
        return 0;
    b0 = iod_getc(iodp);
    if (b0 == EOF)
        return 0;
    *sp = (b1 << 8) | b0;
    return 1;
}

static int
ReadInt32(register struct iod *iodp, afs_uint32 * lp)
{
    afs_uint32 register b3, b2, b1, b0;
    b3 = iod_getc(iodp);
    if (b3 == EOF)
        return 0;
    b2 = iod_getc(iodp);
    if (b2 == EOF)
        return 0;
    b1 = iod_getc(iodp);
    if (b1 == EOF)
        return 0;
    b0 = iod_getc(iodp);
    if (b0 == EOF)
        return 0;
    *lp = (((((b3 << 8) | b2) << 8) | b1) << 8) | b0;
    return 1;
}

static void
ReadString(register struct iod *iodp, register char *to, register int maxa)
{
    register int c;

    *to = '\0';
    if (maxa == 0)
        return;

    while (maxa--) {
        if ((*to++ = c = iod_getc(iodp)) == 0 || c == EOF)
            break;
    }
    if (to[-1]) {
        while ((c = iod_getc(iodp)) && c != EOF);
        to[-1] = '\0';
    }
}

static void
ReadByteString(register struct iod *iodp, register byte * to,
               register int size)
{
    while (size--)
        *to++ = iod_getc(iodp);
}

/*
 * returns 1 on success and 0 otherwise
 */
static afs_int32
ReadStandardTagLen(register struct iod *iodp, unsigned char tag, afs_int32 section,
                        afs_size_t *length)
{
    afs_int32 code, i;
    afs_uint32 off = tag >> 5;
    afs_uint32 mask = 1 << (tag & 0x1f);
    unsigned char len, buf[8], *p;

    if (!oldtagsInited)
        initNonStandardTags();

    if (tag < MIN_TLV_TAG
      || tag > MAX_STANDARD_TAG
      || section >= MAX_SECTIONS
      || (oldtags[section][ off] & mask)) {
        Log("Trying to use ReadStandardTag with tag 0x%02x for section %d, aborting\n", tag, section);
        return 0;
    }
    if (tag <= MAX_TLV_TAG) {
        len = iod_getc(iodp);
        if (len < 128)
            *length = len;
        else {
            len &= 0x7f;
            if ((code = iod_Read(iodp, (char *)buf, len)) != len)
                return VOLSERDUMPERROR;
            *length = 0;
            p = (unsigned char *)&buf;
            for (i=0; i<len; i++) {
                *length = ((*length) << 8) | *p++;
            }
        }
    } else {
        if (tag < MAX_STANDARD_TAG)
            *length = 4;
    }
    return 1;
}

static char skipbuf[256];

static afs_int32
SkipData(register struct iod *iodp, afs_size_t length)
{
    while (length > 256) {
        if (iod_Read(iodp, (char *)&skipbuf, 256) != 256)
            return 0;
        length -= 256;
    }
    if (iod_Read(iodp, (char *)&skipbuf, length) != length)
        return 0;
    return 1;
}

static char *secname[3] = {"ReadDumpHeader", "ReadVolumeHeader", "ReadVnodes"};

static int
HandleUnknownTag(struct iod *iodp, int tag, afs_int32 section,
                afs_int32 critical)
{
    afs_size_t taglen = 0;
    afs_uint32 trash;

    if (critical) {
        Log("%s: unknown critical tag x%02x, aborting\n",
                secname[section], tag);
        return 0;
    }
    Log("%s: unknown tag x%02x found, skipping\n", secname[section], tag);
    if (tag >= 0x06 && tag <= 0x60) {
        if (!ReadStandardTagLen(iodp, tag, 1, &taglen)) {
            Log("%s: error reading length field for tag x%02x, aborting\n",
                secname[section], tag);
            return 0;
        }
        if (!SkipData(iodp, taglen)) {
            Log("%s: error skipping %llu bytes for tag x%02x, aborting\n",
                secname[section], taglen, tag);
            return 0;
        }
        return 1;
    }
    if (tag >= 0x61 && tag <= 0x7a) {
        if (!ReadInt32(iodp, &trash)) {
            Log("%s: error skipping int32 for tag x%02x, aborting\n",
                secname[section], tag);
            return 0;
        }
        return 1;
    }
    if (tag >= 0x7b && tag < 0x80)      /* dataless tag */
        return 1;
    Log("%s: unknown invalid tag x%02x, aborting\n", secname[section], tag);
    return 0;
}

static int
ReadVolumeHeader(register struct iod *iodp, VolumeDiskData * vol)
{
    register int tag;
    afs_uint32 trash;
    afs_int32 critical = 0;
    memset(vol, 0, sizeof(*vol));
    while ((tag = iod_getc(iodp)) > D_MAX && tag != EOF) {
        if (critical)
            critical--;
        switch (tag) {
        case 'i':
            if (!ReadInt32(iodp, &vol->id))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'v':
            if (!ReadInt32(iodp, &trash))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'n':
            ReadString(iodp, vol->name, sizeof(vol->name));
            /*this means the name of the retsored volume could be possibly different. In conjunction with SAFSVolSignalRestore */
            break;
        case 's':
            vol->inService = iod_getc(iodp);
            break;
        case 'b':
            vol->blessed = iod_getc(iodp);
            break;
        case 'u':
            if (!ReadInt32(iodp, &vol->uniquifier))
                return VOLSERREAD_DUMPERROR;
            break;
        case 't':
            vol->type = iod_getc(iodp);
            break;
        case 'p':
            if (!ReadInt32(iodp, &vol->parentId))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'c':
            if (!ReadInt32(iodp, &vol->cloneId))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'q':
            if (!ReadInt32(iodp, (afs_uint32 *) & vol->maxquota))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'm':
            if (!ReadInt32(iodp, (afs_uint32 *) & vol->minquota))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'd':
            if (!ReadInt32(iodp, (afs_uint32 *) & vol->diskused))
                return VOLSERREAD_DUMPERROR;    /* Bogus:  should calculate this */
            break;
        case 'f':
            if (!ReadInt32(iodp, (afs_uint32 *) & vol->filecount))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'a':
            if (!ReadInt32(iodp, &vol->accountNumber))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'o':
            if (!ReadInt32(iodp, &vol->owner))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'C':
            if (!ReadInt32(iodp, &vol->creationDate))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'A':
            if (!ReadInt32(iodp, &vol->accessDate))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'U':
            if (!ReadInt32(iodp, &vol->updateDate))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'E':
            if (!ReadInt32(iodp, &vol->expirationDate))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'B':
            if (!ReadInt32(iodp, &vol->backupDate))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'O':
            ReadString(iodp, vol->offlineMessage,
                       sizeof(vol->offlineMessage));
            break;
        case 'M':
            /*
             * Detailed volume statistics are never stored in dumps,
             * so we just restore either the null string if this volume
             * had already been set to store statistics, or the old motd
             * contents otherwise.  It doesn't matter, since this field
             * will soon get initialized anyway.
             */
            ReadString(iodp, (char *)(vol->stat_reads), VMSGSIZE);
            break;
        case 'W':{
                unsigned short length;
                int i;
                afs_uint32 data;
                if (!ReadShort(iodp, &length))
                    return VOLSERREAD_DUMPERROR;
                for (i = 0; i < length; i++) {
                    if (!ReadInt32(iodp, &data))
                        return VOLSERREAD_DUMPERROR;
                    if (i < sizeof(vol->weekUse) / sizeof(vol->weekUse[0]))
                        vol->weekUse[i] = data;
                }
                break;
            }
        case 'D':
            if (!ReadInt32(iodp, &vol->dayUseDate))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'Z':
            if (!ReadInt32(iodp, (afs_uint32 *) & vol->dayUse))
                return VOLSERREAD_DUMPERROR;
            break;
        case 'V':
            if (!ReadInt32(iodp, (afs_uint32 *) &trash/*volUpdateCounter*/))
                return VOLSERREAD_DUMPERROR;
            break;
        case 0x7e:
            critical = 2;
            break;
        default:
            if (!HandleUnknownTag(iodp, tag, 1, critical))
                return VOLSERREAD_DUMPERROR;
        }
    }
    iod_ungetc(iodp, tag);
    return 0;
}

static int
DumpTag(register struct iod *iodp, register int tag)
{
    char p;

    p = tag;
    return ((iod_Write(iodp, &p, 1) == 1) ? 0 : VOLSERDUMPERROR);

}

static int
DumpByte(register struct iod *iodp, char tag, byte value)
{
    char tbuffer[2];
    register byte *p = (unsigned char *)tbuffer;
    *p++ = tag;
    *p = value;
    return ((iod_Write(iodp, tbuffer, 2) == 2) ? 0 : VOLSERDUMPERROR);
}

#define putint32(p, v)  *p++ = v>>24, *p++ = v>>16, *p++ = v>>8, *p++ = v
#define putshort(p, v) *p++ = v>>8, *p++ = v

static int
DumpDouble(register struct iod *iodp, char tag, register afs_uint32 value1,
           register afs_uint32 value2)
{
    char tbuffer[9];
    register byte *p = (unsigned char *)tbuffer;
    *p++ = tag;
    putint32(p, value1);
    putint32(p, value2);
    return ((iod_Write(iodp, tbuffer, 9) == 9) ? 0 : VOLSERDUMPERROR);
}

static int
DumpInt32(register struct iod *iodp, char tag, register afs_uint32 value)
{
    char tbuffer[5];
    register byte *p = (unsigned char *)tbuffer;
    *p++ = tag;
    putint32(p, value);
    return ((iod_Write(iodp, tbuffer, 5) == 5) ? 0 : VOLSERDUMPERROR);
}

static int
DumpArrayInt32(register struct iod *iodp, char tag,
               register afs_uint32 * array, register int nelem)
{
    char tbuffer[4];
    register afs_uint32 v;
    int code = 0;
    register byte *p = (unsigned char *)tbuffer;
    *p++ = tag;
    putshort(p, nelem);
    code = iod_Write(iodp, tbuffer, 3);
    if (code != 3)
        return VOLSERDUMPERROR;
    while (nelem--) {
        p = (unsigned char *)tbuffer;
        v = *array++;           /*this was register */

        putint32(p, v);
        code = iod_Write(iodp, tbuffer, 4);
        if (code != 4)
            return VOLSERDUMPERROR;
    }
    return 0;
}

static int
DumpShort(register struct iod *iodp, char tag, unsigned int value)
{
    char tbuffer[3];
    register byte *p = (unsigned char *)tbuffer;
    *p++ = tag;
    *p++ = value >> 8;
    *p = value;
    return ((iod_Write(iodp, tbuffer, 3) == 3) ? 0 : VOLSERDUMPERROR);
}

static int
DumpBool(register struct iod *iodp, char tag, unsigned int value)
{
    char tbuffer[2];
    register byte *p = (unsigned char *)tbuffer;
    *p++ = tag;
    *p = value;
    return ((iod_Write(iodp, tbuffer, 2) == 2) ? 0 : VOLSERDUMPERROR);
}

static int
DumpString(register struct iod *iodp, char tag, register char *s)
{
    register int n;
    int code = 0;
    code = iod_Write(iodp, &tag, 1);
    if (code != 1)
        return VOLSERDUMPERROR;
    n = strlen(s) + 1;
    code = iod_Write(iodp, s, n);
    if (code != n)
        return VOLSERDUMPERROR;
    return 0;
}

static int
DumpByteString(register struct iod *iodp, char tag, register byte * bs,
               register int nbytes)
{
    int code = 0;

    code = iod_Write(iodp, &tag, 1);
    if (code != 1)
        return VOLSERDUMPERROR;
    code = iod_Write(iodp, (char *)bs, nbytes);
    if (code != nbytes)
        return VOLSERDUMPERROR;
    return 0;
}

static afs_int32
DumpStandardTag(register struct iod *iodp, char tag, afs_uint32 section)
{
    afs_int32 code;
    afs_uint32 off = tag >> 5;
    afs_uint32 mask = 1 << (tag & 0x1f);

    if (!oldtagsInited)
        initNonStandardTags();

    if (tag < MIN_TLV_TAG
      || tag > MAX_STANDARD_TAG
      || section >= MAX_SECTIONS
      || (oldtags[section][ off] & mask)) {
        Log("Trying to use DumpStandardTag with tag 0x%02x for section %d, aborting\n", tag, section);
        return VOLSERDUMPERROR;
    }
    code = iod_Write(iodp, &tag, 1);
    return 0;
}

AFS_UNUSED
static afs_int32
DumpStandardTagLen(register struct iod *iodp, char tag, afs_uint32 section,
                        afs_size_t length)
{
    char buf[10];
    char *p;
    afs_int32 code, len;

    if (tag < MIN_TLV_TAG || tag > MAX_TLV_TAG) {
        Log("Trying to use DumpStandardTagLen with tag 0x%02x for section %d, aborting\n", tag, section);
        return VOLSERDUMPERROR;
    }
    code = DumpStandardTag(iodp, tag, section);
    if (code)
        return code;
    p = &buf[9];
    if (length < 128) { /* byte after tag contains length */
        *p-- = length;
        len = 1;
    } else {            /* byte after tag contains length of length field | 0x80 */
        for (len=0; length; length=length >> 8) {
            *p-- = length;
            len++;
        }
        *p-- = len + 128;
        len += 1;
    }
    p++;
    code = iod_Write(iodp, p, len);
    if (code != len)
        return VOLSERDUMPERROR;
    return 0;
}

static int
DumpFile(struct iod *iodp, int vnode, FdHandle_t * handleP)
{
    int code = 0, error = 0;
    afs_int32 pad = 0;
    afs_int32 offset = 0;
    afs_sfsize_t nbytes, howBig;
    ssize_t n;
    size_t howMany;
    afs_foff_t lcode = 0;
    byte *p;
    afs_uint32 hi, lo;
#ifndef AFS_NT40_ENV
    struct afs_stat status;
#endif
    afs_sfsize_t size;
#ifdef  AFS_AIX_ENV
#include <sys/statfs.h>
#if defined(AFS_AIX52_ENV)
    struct statfs64 tstatfs;
#else /* !AFS_AIX52_ENV */
    struct statfs tstatfs;
#endif /* !AFS_AIX52_ENV */
    int statfs_code;
#endif

#ifdef AFS_NT40_ENV
    howBig = _filelength(handleP->fd_fd);
    howMany = 4096;

#else
    afs_fstat(handleP->fd_fd, &status);
    howBig = status.st_size;

#ifdef  AFS_AIX_ENV
    /* Unfortunately in AIX valuable fields such as st_blksize are 
     * gone from the stat structure.
     */
#if defined(AFS_AIX52_ENV)
    statfs_code = fstatfs64(handleP->fd_fd, &tstatfs);
#else /* !AFS_AIX52_ENV */
    statfs_code = fstatfs(handleP->fd_fd, &tstatfs);
#endif /* !AFS_AIX52_ENV */
    if (statfs_code != 0) {
        Log("DumpFile: fstatfs returned error code %d on descriptor %d\n", errno, handleP->fd_fd);
        return VOLSERDUMPERROR;
    }
    howMany = tstatfs.f_bsize;
#else
    howMany = status.st_blksize;
#endif /* AFS_AIX_ENV */
#endif /* AFS_NT40_ENV */


    size = FDH_SIZE(handleP);
    SplitInt64(size, hi, lo);
    if (hi == 0L) {
        code = DumpInt32(iodp, 'f', lo);
    } else {
        code = DumpDouble(iodp, 'h', hi, lo);
    }
    if (code) {
        return VOLSERDUMPERROR;
    }

    p = malloc(howMany);
    if (!p) {
        Log("1 Volser: DumpFile: not enough memory to allocate %u bytes\n", (unsigned)howMany);
        return VOLSERDUMPERROR;
    }

    for (nbytes = size; (nbytes && !error); nbytes -= howMany) {
        if (nbytes < howMany)
            howMany = nbytes;

        /* Read the data - unless we know we can't */
        n = (lcode ? 0 : FDH_READ(handleP, p, howMany));

        /* If read any good data and we null padded previously, log the
         * amount that we had null padded.
         */
        if ((n > 0) && pad) {
            Log("1 Volser: DumpFile: Null padding file %d bytes at offset %u\n", pad, offset);
            pad = 0;
        }

        /* If didn't read enough data, null padd the rest of the buffer. This
         * can happen if, for instance, the media has some bad spots. We don't
         * want to quit the dump, so we start null padding.
         */
        if (n < howMany) {
            /* Record the read error */
            if (n < 0) {
                n = 0;
                Log("1 Volser: DumpFile: Error reading inode %s for vnode %d: %s\n", PrintInode(NULL, handleP->fd_ih->ih_ino), vnode, afs_error_message(errno));
            } else if (!pad) {
                Log("1 Volser: DumpFile: Error reading inode %s for vnode %d\n", PrintInode(NULL, handleP->fd_ih->ih_ino), vnode);
            }

            /* Pad the rest of the buffer with zeros. Remember offset we started 
             * padding. Keep total tally of padding.
             */
            memset(p + n, 0, howMany - n);
            if (!pad)
                offset = (howBig - nbytes) + n;
            pad += (howMany - n);

            /* Now seek over the data we could not get. An error here means we
             * can't do the next read.
             */
            lcode = FDH_SEEK(handleP, (size_t)((size - nbytes) + howMany), SEEK_SET);
            if (lcode != ((size - nbytes) + howMany)) {
                if (lcode < 0) {
                    Log("1 Volser: DumpFile: Error seeking in inode %s for vnode %d: %s\n", PrintInode(NULL, handleP->fd_ih->ih_ino), vnode, afs_error_message(errno));
                } else {
                    Log("1 Volser: DumpFile: Error seeking in inode %s for vnode %d\n", PrintInode(NULL, handleP->fd_ih->ih_ino), vnode);
                    lcode = -1;
                }
            } else {
                lcode = 0;
            }
        }

        /* Now write the data out */
        if (iod_Write(iodp, (char *)p, howMany) != howMany)
            error = VOLSERDUMPERROR;
#ifndef AFS_PTHREAD_ENV
        IOMGR_Poll();
#endif
    }

    if (pad) {                  /* Any padding we hadn't reported yet */
        Log("1 Volser: DumpFile: Null padding file: %d bytes at offset %u\n",
            pad, offset);
    }

    free(p);
    return error;
}

static int
DumpVolumeHeader(register struct iod *iodp, register Volume * vp)
{
    int code = 0;
    static char nullString[1] = "";     /*The ``contents'' of motd */

    if (!code)
        code = DumpTag(iodp, D_VOLUMEHEADER);
    if (!code) {
        code = DumpInt32(iodp, 'i', V_id(vp));
    }
    if (!code)
        code = DumpInt32(iodp, 'v', V_stamp(vp).version);
    if (!code)
        code = DumpString(iodp, 'n', V_name(vp));
    if (!code)
        code = DumpBool(iodp, 's', V_inService(vp));
    if (!code)
        code = DumpBool(iodp, 'b', V_blessed(vp));
    if (!code)
        code = DumpInt32(iodp, 'u', V_uniquifier(vp));
    if (!code)
        code = DumpByte(iodp, 't', (byte) V_type(vp));
    if (!code) {
        code = DumpInt32(iodp, 'p', V_parentId(vp));
    }
    if (!code)
        code = DumpInt32(iodp, 'c', V_cloneId(vp));
    if (!code)
        code = DumpInt32(iodp, 'q', V_maxquota(vp));
    if (!code)
        code = DumpInt32(iodp, 'm', V_minquota(vp));
    if (!code)
        code = DumpInt32(iodp, 'd', V_diskused(vp));
    if (!code)
        code = DumpInt32(iodp, 'f', V_filecount(vp));
    if (!code)
        code = DumpInt32(iodp, 'a', V_accountNumber(vp));
    if (!code)
        code = DumpInt32(iodp, 'o', V_owner(vp));
    if (!code)
        code = DumpInt32(iodp, 'C', V_creationDate(vp));        /* Rw volume creation date */
    if (!code)
        code = DumpInt32(iodp, 'A', V_accessDate(vp));
    if (!code)
        code = DumpInt32(iodp, 'U', V_updateDate(vp));
    if (!code)
        code = DumpInt32(iodp, 'E', V_expirationDate(vp));
    if (!code)
        code = DumpInt32(iodp, 'B', V_backupDate(vp));  /* Rw volume backup clone date */
    if (!code)
        code = DumpString(iodp, 'O', V_offlineMessage(vp));
    /*
     * We do NOT dump the detailed volume statistics residing in the old
     * motd field, since we cannot tell from the info in a dump whether
     * statistics data has been put there.  Instead, we dump a null string,
     * just as if that was what the motd contained.
     */
    if (!code)
        code = DumpString(iodp, 'M', nullString);
    if (!code)
        code =
            DumpArrayInt32(iodp, 'W', (afs_uint32 *) V_weekUse(vp),
                           sizeof(V_weekUse(vp)) / sizeof(V_weekUse(vp)[0]));
    if (!code)
        code = DumpInt32(iodp, 'D', V_dayUseDate(vp));
    if (!code)
        code = DumpInt32(iodp, 'Z', V_dayUse(vp));
    return code;
}

static int
DumpEnd(register struct iod *iodp)
{
    return (DumpInt32(iodp, D_DUMPEND, DUMPENDMAGIC));
}

/* Guts of the dump code */

/* Dump a whole volume */
int
DumpVolume(register struct rx_call *call, register Volume * vp,
           afs_int32 fromtime, int dumpAllDirs)
{
    struct iod iod;
    int code = 0;
    register struct iod *iodp = &iod;
    iod_Init(iodp, call);

    if (!code)
        code = DumpDumpHeader(iodp, vp, fromtime);

    if (!code)
        code = DumpPartial(iodp, vp, fromtime, dumpAllDirs);

/* hack follows.  Errors should be handled quite differently in this version of dump than they used to be.*/
    if (rx_Error(iodp->call)) {
        Log("1 Volser: DumpVolume: Rx call failed during dump, error %d\n",
            rx_Error(iodp->call));
        return VOLSERDUMPERROR;
    }
    if (!code)
        code = DumpEnd(iodp);

    return code;
}

/* Dump a volume to multiple places*/
int
DumpVolMulti(struct rx_call **calls, int ncalls, Volume * vp,
             afs_int32 fromtime, int dumpAllDirs, int *codes)
{
    struct iod iod;
    int code = 0;
    iod_InitMulti(&iod, calls, ncalls, codes);

    if (!code)
        code = DumpDumpHeader(&iod, vp, fromtime);
    if (!code)
        code = DumpPartial(&iod, vp, fromtime, dumpAllDirs);
    if (!code)
        code = DumpEnd(&iod);
    return code;
}

/* A partial dump (no dump header) */
static int
DumpPartial(register struct iod *iodp, register Volume * vp,
            afs_int32 fromtime, int dumpAllDirs)
{
    int code = 0;
    if (!code)
        code = DumpVolumeHeader(iodp, vp);
    if (!code)
        code = DumpVnodeIndex(iodp, vp, vLarge, fromtime, dumpAllDirs);
    if (!code)
        code = DumpVnodeIndex(iodp, vp, vSmall, fromtime, 0);
    return code;
}

static int
DumpVnodeIndex(register struct iod *iodp, Volume * vp, VnodeClass class,
               afs_int32 fromtime, int forcedump)
{
    register int code = 0;
    register struct VnodeClassInfo *vcp = &VnodeClassInfo[class];
    char buf[SIZEOF_LARGEDISKVNODE];
    struct VnodeDiskObject *vnode = (struct VnodeDiskObject *)buf;
    StreamHandle_t *file;
    FdHandle_t *fdP;
    afs_sfsize_t size, nVnodes;
    int flag;
    register int vnodeIndex;

    fdP = IH_OPEN(vp->vnodeIndex[class].handle);
    assert(fdP != NULL);
    file = FDH_FDOPEN(fdP, "r+");
    assert(file != NULL);
    size = OS_SIZE(fdP->fd_fd);
    assert(size != -1);
    nVnodes = (size / vcp->diskSize) - 1;
    if (nVnodes > 0) {
        assert((nVnodes + 1) * vcp->diskSize == size);
        assert(STREAM_SEEK(file, vcp->diskSize, 0) == 0);
    } else
        nVnodes = 0;
    for (vnodeIndex = 0;
         nVnodes && STREAM_READ(vnode, vcp->diskSize, 1, file) == 1 && !code;
         nVnodes--, vnodeIndex++) {
        flag = forcedump || (vnode->serverModifyTime >= fromtime);
        /* Note:  the >= test is very important since some old volumes may not have
         * a serverModifyTime.  For an epoch dump, this results in 0>=0 test, which
         * does dump the file! */
        if (!code)
            code =
                DumpVnode(iodp, vnode, V_id(vp),
                          bitNumberToVnodeNumber(vnodeIndex, class), flag);
#ifndef AFS_PTHREAD_ENV
        if (!flag)
            IOMGR_Poll();       /* if we dont' xfr data, but scan instead, could lose conn */
#endif
    }
    STREAM_CLOSE(file);
    FDH_CLOSE(fdP);
    return code;
}

static int
DumpDumpHeader(register struct iod *iodp, register Volume * vp,
               afs_int32 fromtime)
{
    int code = 0;
    int UseLatestReadOnlyClone = 1;
    afs_int32 dumpTimes[2];
    iodp->device = vp->device;
    iodp->parentId = V_parentId(vp);
    iodp->dumpPartition = vp->partition;
    if (!code)
        code = DumpDouble(iodp, D_DUMPHEADER, DUMPBEGINMAGIC, DUMPVERSION);
    if (!code)
        code =
            DumpInt32(iodp, 'v',
                      UseLatestReadOnlyClone ? V_id(vp) : V_parentId(vp));
    if (!code)
        code = DumpString(iodp, 'n', V_name(vp));
    dumpTimes[0] = fromtime;
    dumpTimes[1] = V_backupDate(vp);    /* Until the time the clone was made */
    if (!code)
        code = DumpArrayInt32(iodp, 't', (afs_uint32 *) dumpTimes, 2);
    return code;
}

static int
DumpVnode(register struct iod *iodp, struct VnodeDiskObject *v, int volid,
          int vnodeNumber, int dumpEverything)
{
    int code = 0;
    IHandle_t *ihP;
    FdHandle_t *fdP;

    if (!v || v->type == vNull)
        return code;
    if (!code)
        code = DumpDouble(iodp, D_VNODE, vnodeNumber, v->uniquifier);
    if (!dumpEverything)
        return code;
    if (!code)
        code = DumpByte(iodp, 't', (byte) v->type);
    if (!code)
        code = DumpShort(iodp, 'l', v->linkCount);      /* May not need this */
    if (!code)
        code = DumpInt32(iodp, 'v', v->dataVersion);
    if (!code)
        code = DumpInt32(iodp, 'm', v->unixModifyTime);
    if (!code)
        code = DumpInt32(iodp, 'a', v->author);
    if (!code)
        code = DumpInt32(iodp, 'o', v->owner);
    if (!code && v->group)
        code = DumpInt32(iodp, 'g', v->group);  /* default group is 0 */
    if (!code)
        code = DumpShort(iodp, 'b', v->modeBits);
    if (!code)
        code = DumpInt32(iodp, 'p', v->parent);
    if (!code)
        code = DumpInt32(iodp, 's', v->serverModifyTime);
    if (v->type == vDirectory) {
        acl_HtonACL(VVnodeDiskACL(v));
        if (!code)
            code =
                DumpByteString(iodp, 'A', (byte *) VVnodeDiskACL(v),
                               VAclDiskSize(v));
    }
    if (VNDISK_GET_INO(v)) {
        IH_INIT(ihP, iodp->device, iodp->parentId, VNDISK_GET_INO(v));
        fdP = IH_OPEN(ihP);
        if (fdP == NULL) {
            Log("1 Volser: DumpVnode: dump: Unable to open inode %llu for vnode %u (volume %i); not dumped, error %d\n", (afs_uintmax_t) VNDISK_GET_INO(v), vnodeNumber, volid, errno);
            IH_RELEASE(ihP);
            return VOLSERREAD_DUMPERROR;
        }
        code = DumpFile(iodp, vnodeNumber, fdP);
        FDH_CLOSE(fdP);
        IH_RELEASE(ihP);
    }
    return code;
}


int
ProcessIndex(Volume * vp, VnodeClass class, afs_int32 ** Bufp, int *sizep,
             int del)
{
    int i, nVnodes, offset, code;
    afs_int32 *Buf;
    int cnt = 0;
    afs_sfsize_t size;
    StreamHandle_t *afile;
    FdHandle_t *fdP;
    struct VnodeClassInfo *vcp = &VnodeClassInfo[class];
    char buf[SIZEOF_LARGEDISKVNODE], zero[SIZEOF_LARGEDISKVNODE];
    register struct VnodeDiskObject *vnode = (struct VnodeDiskObject *)buf;

    memset(zero, 0, sizeof(zero));      /* zero out our proto-vnode */
    fdP = IH_OPEN(vp->vnodeIndex[class].handle);
    if (fdP == NULL)
        return -1;
    afile = FDH_FDOPEN(fdP, "r+");
    if (del) {
        int cnt1 = 0;
        Buf = *Bufp;
        for (i = 0; i < *sizep; i++) {
            if (Buf[i]) {
                cnt++;
                STREAM_SEEK(afile, Buf[i], 0);
                code = STREAM_READ(vnode, vcp->diskSize, 1, afile);
                if (code == 1) {
                    if (vnode->type != vNull && VNDISK_GET_INO(vnode)) {
                        cnt1++;
                        if (DoLogging) {
                            Log("RestoreVolume %u Cleanup: Removing old vnode=%u inode=%llu size=unknown\n", 
                     V_id(vp), bitNumberToVnodeNumber(i, class), 
                     (afs_uintmax_t) VNDISK_GET_INO(vnode));
                        }
                        IH_DEC(V_linkHandle(vp), VNDISK_GET_INO(vnode),
                               V_parentId(vp));
                        DOPOLL;
                    }
                    STREAM_SEEK(afile, Buf[i], 0);
                    (void)STREAM_WRITE(zero, vcp->diskSize, 1, afile);  /* Zero it out */
                }
                Buf[i] = 0;
            }
        }
        if (DoLogging) {
            Log("RestoreVolume Cleanup: Removed %d inodes for volume %d\n",
                cnt1, V_id(vp));
        }
        STREAM_FLUSH(afile);    /* ensure 0s are on the disk */
        OS_SYNC(afile->str_fd);
    } else {
        size = OS_SIZE(fdP->fd_fd);
        assert(size != -1);
        nVnodes =
            (size <=
             vcp->diskSize ? 0 : size - vcp->diskSize) >> vcp->logSize;
        if (nVnodes > 0) {
            if (DoLogging) {
                Log("RestoreVolume ProcessIndex: Set up %d inodes for volume %d\n",
                    nVnodes, V_id(vp));
            }
            Buf = (afs_int32 *) malloc(nVnodes * sizeof(afs_int32));
            if (Buf == NULL) {
                STREAM_CLOSE(afile);
                FDH_CLOSE(fdP);
                return -1;
            }
            memset(Buf, 0, nVnodes * sizeof(afs_int32));
            STREAM_SEEK(afile, offset = vcp->diskSize, 0);
            while (1) {
                code = STREAM_READ(vnode, vcp->diskSize, 1, afile);
                if (code != 1) {
                    break;
                }
                if (vnode->type != vNull && VNDISK_GET_INO(vnode)) {
                    Buf[(offset >> vcp->logSize) - 1] = offset;
                    cnt++;
                }
                offset += vcp->diskSize;
            }
            if (DoLogging) {
                Log("RestoreVolume ProcessIndex: found %d inodes\n", cnt);
            }
            *Bufp = Buf;
            *sizep = nVnodes;
        }
    }
    STREAM_CLOSE(afile);
    FDH_CLOSE(fdP);
    return 0;
}


int
RestoreVolume(register struct rx_call *call, Volume * avp, int incremental,
              struct restoreCookie *cookie)
{
    VolumeDiskData vol;
    struct DumpHeader header;
    afs_uint32 endMagic;
    Error error = 0, vupdate;
    register Volume *vp;
    struct iod iod;
    register struct iod *iodp = &iod;
    afs_int32 *b1 = NULL, *b2 = NULL;
    int s1 = 0, s2 = 0, delo = 0, tdelo;
    int tag;

    iod_Init(iodp, call);

    vp = avp;

    if (!ReadDumpHeader(iodp, &header)) {
        Log("1 Volser: RestoreVolume: Error reading header file for dump; aborted\n");
        return VOLSERREAD_DUMPERROR;
    }
    if (iod_getc(iodp) != D_VOLUMEHEADER) {
        Log("1 Volser: RestoreVolume: Volume header missing from dump; not restored\n");
        return VOLSERREAD_DUMPERROR;
    }
    if (ReadVolumeHeader(iodp, &vol) == VOLSERREAD_DUMPERROR)
        return VOLSERREAD_DUMPERROR;

    if (!delo)
        delo = ProcessIndex(vp, vLarge, &b1, &s1, 0);
    if (!delo)
        delo = ProcessIndex(vp, vSmall, &b2, &s2, 0);
    if (delo < 0) {
        Log("1 Volser: RestoreVolume: ProcessIndex failed; not restored\n");
        error = VOLSERREAD_DUMPERROR;
        goto out;
    }

    strncpy(vol.name, cookie->name, VOLSER_OLDMAXVOLNAME);
    vol.type = cookie->type;
    vol.cloneId = cookie->clone;
    vol.parentId = cookie->parent;

    tdelo = delo;
    while (1) {
        if (ReadVnodes(iodp, vp, 0, b1, s1, b2, s2, tdelo)) {
            error = VOLSERREAD_DUMPERROR;
            goto clean;
        }
        tag = iod_getc(iodp);
        if (tag != D_VOLUMEHEADER)
            break;

        if (ReadVolumeHeader(iodp, &vol) == VOLSERREAD_DUMPERROR) {
            error = VOLSERREAD_DUMPERROR;
            goto out;
        }
    }
    if (tag != D_DUMPEND || !ReadInt32(iodp, &endMagic)
        || endMagic != DUMPENDMAGIC) {
        Log("1 Volser: RestoreVolume: End of dump not found; restore aborted\n");
        error = VOLSERREAD_DUMPERROR;
        goto clean;
    }


    if (iod_getc(iodp) != EOF) {
        Log("1 Volser: RestoreVolume: Unrecognized postamble in dump; restore aborted\n");
        error = VOLSERREAD_DUMPERROR;
        goto clean;
    }

    if (!delo) {
        delo = ProcessIndex(vp, vLarge, &b1, &s1, 1);
        if (!delo)
            delo = ProcessIndex(vp, vSmall, &b2, &s2, 1);
        if (delo < 0) {
            error = VOLSERREAD_DUMPERROR;
            goto clean;
        }
    }

  clean:
    ClearVolumeStats(&vol);
    CopyVolumeHeader(&vol, &V_disk(vp));
    V_destroyMe(vp) = 0;
    VUpdateVolume(&vupdate, vp);
    if (vupdate) {
        Log("1 Volser: RestoreVolume: Unable to rewrite volume header; restore aborted\n");
        error = VOLSERREAD_DUMPERROR;
        goto out;
    }
  out:
    /* Free the malloced space above */
    if (b1)
        free((char *)b1);
    if (b2)
        free((char *)b2);
    return error;
}

static int
ReadVnodes(register struct iod *iodp, Volume * vp, int incremental,
           afs_int32 * Lbuf, afs_int32 s1, afs_int32 * Sbuf, afs_int32 s2,
           afs_int32 delo)
{
    afs_int32 vnodeNumber;
    char buf[SIZEOF_LARGEDISKVNODE];
    register int tag;
    struct VnodeDiskObject *vnode = (struct VnodeDiskObject *)buf;
    struct VnodeDiskObject oldvnode;
    int idx;
    VnodeClass class;
    struct VnodeClassInfo *vcp;
    IHandle_t *tmpH;
    FdHandle_t *fdP;
    Inode nearInode;
    afs_int32 critical = 0;

    tag = iod_getc(iodp);
    V_pref(vp, nearInode);
    while (tag == D_VNODE) {
        int haveStuff = 0;
        memset(buf, 0, sizeof(buf));
        if (!ReadInt32(iodp, (afs_uint32 *) & vnodeNumber))
            break;

        if (!ReadInt32(iodp, &vnode->uniquifier))
            return VOLSERREAD_DUMPERROR;

        if (DoLogging) {
            Log("ReadVnodes: setup %d/%d\n", vnodeNumber, vnode->uniquifier);
        }
        while ((tag = iod_getc(iodp)) > D_MAX && tag != EOF) {
            haveStuff = 1;
            if (critical)
                critical--;
            switch (tag) {
            case 't':
                vnode->type = (VnodeType) iod_getc(iodp);
                break;
            case 'l':
                {
                    unsigned short tlc;
                    if (!ReadShort(iodp, &tlc))
                        return VOLSERREAD_DUMPERROR;
                    vnode->linkCount = (signed int)tlc;
                }
                break;
            case 'v':
                if (!ReadInt32(iodp, &vnode->dataVersion))
                    return VOLSERREAD_DUMPERROR;
                break;
            case 'm':
                if (!ReadInt32(iodp, &vnode->unixModifyTime))
                    return VOLSERREAD_DUMPERROR;
                break;
            case 's':
                if (!ReadInt32(iodp, &vnode->serverModifyTime))
                    return VOLSERREAD_DUMPERROR;
                break;
            case 'a':
                if (!ReadInt32(iodp, &vnode->author))
                    return VOLSERREAD_DUMPERROR;
                break;
            case 'o':
                if (!ReadInt32(iodp, &vnode->owner))
                    return VOLSERREAD_DUMPERROR;
                break;
            case 'g':
                if (!ReadInt32(iodp, (afs_uint32 *) & vnode->group))
                    return VOLSERREAD_DUMPERROR;
                break;
            case 'b':{
                    unsigned short modeBits;
                    if (!ReadShort(iodp, &modeBits))
                        return VOLSERREAD_DUMPERROR;
                    vnode->modeBits = (unsigned int)modeBits;
                    break;
                }
            case 'p':
                if (!ReadInt32(iodp, &vnode->parent))
                    return VOLSERREAD_DUMPERROR;
                break;
            case 'A':
                ReadByteString(iodp, (byte *) VVnodeDiskACL(vnode),
                               VAclDiskSize(vnode));
                acl_NtohACL(VVnodeDiskACL(vnode));
                break;
            case 'h':
            case 'f':{
                    Inode ino;
                    Error error;
                    afs_fsize_t vnodeLength;

                    ino =
                        IH_CREATE(V_linkHandle(vp), V_device(vp),
                                  VPartitionPath(V_partition(vp)), nearInode,
                                  V_parentId(vp), vnodeNumber,
                                  vnode->uniquifier, vnode->dataVersion);
                    if (!VALID_INO(ino)) {
                        Log("1 Volser: ReadVnodes: IH_CREATE: %s - restore aborted\n",
                            afs_error_message(errno));
                        return VOLSERREAD_DUMPERROR;
                    }
                    nearInode = ino;
                    VNDISK_SET_INO(vnode, ino);
                    IH_INIT(tmpH, vp->device, V_parentId(vp), ino);
                    fdP = IH_OPEN(tmpH);
                    if (fdP == NULL) {
                        Log("1 Volser: ReadVnodes: IH_OPEN: %s - restore aborted\n",
                            afs_error_message(errno));
                        IH_RELEASE(tmpH);
                        return VOLSERREAD_DUMPERROR;
                    }
                    vnodeLength =
                        volser_WriteFile(vnodeNumber, iodp, fdP, tag, &error);
                    VNDISK_SET_LEN(vnode, vnodeLength);
                    FDH_REALLYCLOSE(fdP);
                    IH_RELEASE(tmpH);
                    if (error) {
                        Log("1 Volser: ReadVnodes: IDEC inode %llu\n",
                            (afs_uintmax_t) ino);
                        IH_DEC(V_linkHandle(vp), ino, V_parentId(vp));
                        return VOLSERREAD_DUMPERROR;
                    }
                    break;
                }
            case 0x7e:
                critical = 2;
                break;
            default:
                if (!HandleUnknownTag(iodp, tag, 2, critical))
                    return VOLSERREAD_DUMPERROR;
            }
        }

        class = vnodeIdToClass(vnodeNumber);
        vcp = &VnodeClassInfo[class];

        /* Mark this vnode as in this dump - so we don't delete it later */
        if (!delo) {
            idx = (vnodeIndexOffset(vcp, vnodeNumber) >> vcp->logSize) - 1;
            if (class == vLarge) {
                if (Lbuf && (idx < s1))
                    Lbuf[idx] = 0;
            } else {
                if (Sbuf && (idx < s2))
                    Sbuf[idx] = 0;
            }
        }

        if (haveStuff) {
            FdHandle_t *fdP = IH_OPEN(vp->vnodeIndex[class].handle);
            if (fdP == NULL) {
                Log("1 Volser: ReadVnodes: Error opening vnode index: %s; restore aborted\n",
                    afs_error_message(errno));
                return VOLSERREAD_DUMPERROR;
            }
            if (FDH_SEEK(fdP, vnodeIndexOffset(vcp, vnodeNumber), SEEK_SET) <
                0) {
                Log("1 Volser: ReadVnodes: Error seeking into vnode index: %s; restore aborted\n",
                    afs_error_message(errno));
                FDH_REALLYCLOSE(fdP);
                return VOLSERREAD_DUMPERROR;
            }
            if (FDH_READ(fdP, &oldvnode, sizeof(oldvnode)) ==
                sizeof(oldvnode)) {
                if (oldvnode.type != vNull && VNDISK_GET_INO(&oldvnode)) {
                    IH_DEC(V_linkHandle(vp), VNDISK_GET_INO(&oldvnode),
                           V_parentId(vp));
                }
            }
            vnode->vnodeMagic = vcp->magic;
            if (FDH_SEEK(fdP, vnodeIndexOffset(vcp, vnodeNumber), SEEK_SET) <
                0) {
                Log("1 Volser: ReadVnodes: Error seeking into vnode index: %s; restore aborted\n",
                    afs_error_message(errno));
                FDH_REALLYCLOSE(fdP);
                return VOLSERREAD_DUMPERROR;
            }
            if (FDH_WRITE(fdP, vnode, vcp->diskSize) != vcp->diskSize) {
                Log("1 Volser: ReadVnodes: Error writing vnode index: %s; restore aborted\n",
                    afs_error_message(errno));
                FDH_REALLYCLOSE(fdP);
                return VOLSERREAD_DUMPERROR;
            }
            FDH_CLOSE(fdP);
        }
    }
    iod_ungetc(iodp, tag);

    return 0;
}


/* called with disk file only.  Note that we don't have to worry about rx_Read
 * needing to read an ungetc'd character, since the ReadInt32 will have read
 * it instead.
 */
static afs_fsize_t
volser_WriteFile(int vn, struct iod *iodp, FdHandle_t * handleP, int tag,
                 Error * status)
{
    afs_int32 code;
    ssize_t nBytes;
    afs_fsize_t filesize;
    afs_fsize_t written = 0;
    size_t size = 8192;
    register afs_fsize_t nbytes;
    unsigned char *p;


    *status = 0;
#ifdef AFS_64BIT_ENV
    {
        afs_uint32 filesize_high = 0L, filesize_low = 0L;
        if (tag == 'h') {
            if (!ReadInt32(iodp, &filesize_high)) {
                *status = 1;
                return 0;
            }
        }
        if (!ReadInt32(iodp, &filesize_low)) {
            *status = 1;
            return 0;
        }
        FillInt64(filesize, filesize_high, filesize_low);
    }
#else /* !AFS_64BIT_ENV */
    if (!ReadInt32(iodp, &filesize)) {
        *status = 1;
        return (0);
    }
#endif /* !AFS_64BIT_ENV */
    p = (unsigned char *)malloc(size);
    if (p == NULL) {
        *status = 2;
        return (0);
    }
    for (nbytes = filesize; nbytes; nbytes -= size) {
        if (nbytes < size)
            size = nbytes;

        if ((code = iod_Read(iodp, (char *) p, size)) != size) {
            Log("1 Volser: WriteFile: Error reading dump file %d size=%llu nbytes=%u (%d of %u): %s; restore aborted\n", vn, (afs_uintmax_t) filesize, nbytes, code, (unsigned)size, afs_error_message(errno));
            *status = 3;
            break;
        }
        nBytes = FDH_WRITE(handleP, p, size);
        if (nBytes > 0)
            written += nBytes;
        if (nBytes != size) {
            Log("1 Volser: WriteFile: Error writing (%u) bytes to vnode %d: %s; restore aborted\n", (int)(nBytes & 0xffffffff), vn, afs_error_message(errno));
            *status = 4;
            break;
        }
    }
    free(p);
    return (written);
}

static int
ReadDumpHeader(register struct iod *iodp, struct DumpHeader *hp)
{
    register int tag;
    afs_uint32 beginMagic;
    afs_int32 critical = 0;
    if (iod_getc(iodp) != D_DUMPHEADER || !ReadInt32(iodp, &beginMagic)
        || !ReadInt32(iodp, (afs_uint32 *) & hp->version)
        || beginMagic != DUMPBEGINMAGIC)
        return 0;
    hp->volumeId = 0;
    hp->nDumpTimes = 0;
    while ((tag = iod_getc(iodp)) > D_MAX) {
        unsigned short arrayLength;
        register int i;
        if (critical)
            critical--;
        switch (tag) {
        case 'v':
            if (!ReadInt32(iodp, &hp->volumeId))
                return 0;
            break;
        case 'n':
            ReadString(iodp, hp->volumeName, sizeof(hp->volumeName));
            break;
        case 't':
            if (!ReadShort(iodp, &arrayLength))
                return 0;
            hp->nDumpTimes = (arrayLength >> 1);
            for (i = 0; i < hp->nDumpTimes; i++)
                if (!ReadInt32(iodp, (afs_uint32 *) & hp->dumpTimes[i].from)
                    || !ReadInt32(iodp, (afs_uint32 *) & hp->dumpTimes[i].to))
                    return 0;
            break;
        case 0x7e:
            critical = 2;
            break;
        default:
            if (!HandleUnknownTag(iodp, tag, 0, critical))
                return VOLSERREAD_DUMPERROR;
        }
    }
    if (!hp->volumeId || !hp->nDumpTimes) {
        return 0;
    }
    iod_ungetc(iodp, tag);
    return 1;
}


/* ----- Below are the calls that calculate dump size ----- */

static int
SizeDumpVolumeHeader(register struct iod *iodp, register Volume * vp,
                     register struct volintSize *v_size)
{
    int code = 0;
    static char nullString[1] = "";     /*The ``contents'' of motd */
    afs_uint64 addvar;

/*     if (!code) code = DumpTag(iodp, D_VOLUMEHEADER); */
    FillInt64(addvar,0, 1);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) {code = DumpInt32(iodp, 'i',V_id(vp));} */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'v',V_stamp(vp).version); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpString(iodp, 'n',V_name(vp)); */
    FillInt64(addvar,0, (2 + strlen(V_name(vp))));
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpBool(iodp, 's',V_inService(vp)); */
    FillInt64(addvar,0, 2);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpBool(iodp, 'b',V_blessed(vp)); */
    FillInt64(addvar,0, 2);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'u',V_uniquifier(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpByte(iodp, 't',(byte)V_type(vp)); */
    FillInt64(addvar,0, 2);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code){ code = DumpInt32(iodp, 'p',V_parentId(vp));} */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'c',V_cloneId(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'q',V_maxquota(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'm',V_minquota(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'd',V_diskused(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'f',V_filecount(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'a', V_accountNumber(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'o', V_owner(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'C',V_creationDate(vp));       /\* Rw volume creation date *\/ */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'A',V_accessDate(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'U',V_updateDate(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'E',V_expirationDate(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'B',V_backupDate(vp));         /\* Rw volume backup clone date *\/ */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpString(iodp, 'O',V_offlineMessage(vp)); */
    FillInt64(addvar,0, (2 + strlen(V_offlineMessage(vp))));
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     /\* */
/*      * We do NOT dump the detailed volume statistics residing in the old */
/*      * motd field, since we cannot tell from the info in a dump whether */
/*      * statistics data has been put there.  Instead, we dump a null string, */
/*      * just as if that was what the motd contained. */
/*      *\/ */
/*     if (!code) code = DumpString(iodp, 'M', nullString); */
    FillInt64(addvar,0, (2 + strlen(nullString)));
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpArrayInt32(iodp, 'W', (afs_uint32 *)V_weekUse(vp), sizeof(V_weekUse(vp))/sizeof(V_weekUse(vp)[0])); */
    FillInt64(addvar,0, (3 + 4 * (sizeof(V_weekUse(vp)) / sizeof(V_weekUse(vp)[0]))));
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'D', V_dayUseDate(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'Z', V_dayUse(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
    return code;
}

static int
SizeDumpEnd(register struct iod *iodp, register struct volintSize *v_size)
{
    int code = 0;
    afs_uint64 addvar;
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
    return code;
}

int
SizeDumpVolume(register struct rx_call *call, register Volume * vp,
               afs_int32 fromtime, int dumpAllDirs,
               register struct volintSize *v_size)
{
    int code = 0;
    register struct iod *iodp = (struct iod *)0;
/*    iod_Init(iodp, call); */

    if (!code)
        code = SizeDumpDumpHeader(iodp, vp, fromtime, v_size);
    if (!code)
        code = SizeDumpPartial(iodp, vp, fromtime, dumpAllDirs, v_size);
    if (!code)
        code = SizeDumpEnd(iodp, v_size);

    return code;
}

static int
SizeDumpDumpHeader(register struct iod *iodp, register Volume * vp,
                   afs_int32 fromtime, register struct volintSize *v_size)
{
    int code = 0;
/*    int UseLatestReadOnlyClone = 1; */
/*    afs_int32 dumpTimes[2]; */
    afs_uint64 addvar;
/*    iodp->device = vp->device; */
/*    iodp->parentId = V_parentId(vp); */
/*    iodp->dumpPartition = vp->partition; */

    ZeroInt64(v_size->dump_size);       /* initialize the size */
/*     if (!code) code = DumpDouble(iodp, D_DUMPHEADER, DUMPBEGINMAGIC, DUMPVERSION); */
    FillInt64(addvar,0, 9);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'v', UseLatestReadOnlyClone? V_id(vp): V_parentId(vp)); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpString(iodp, 'n',V_name(vp)); */
    FillInt64(addvar,0, (2 + strlen(V_name(vp))));
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     dumpTimes[0] = fromtime; */
/*     dumpTimes[1] = V_backupDate(vp); /\* Until the time the clone was made *\/ */
/*     if (!code) code = DumpArrayInt32(iodp, 't', (afs_uint32 *)dumpTimes, 2); */
    FillInt64(addvar,0, (3 + 4 * 2));
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
    return code;
}

static int
SizeDumpVnode(register struct iod *iodp, struct VnodeDiskObject *v, int volid,
              int vnodeNumber, int dumpEverything,
              register struct volintSize *v_size)
{
    int code = 0;
    afs_uint64 addvar;

    if (!v || v->type == vNull)
        return code;
/*     if (!code) code = DumpDouble(iodp, D_VNODE, vnodeNumber, v->uniquifier); */
    FillInt64(addvar,0, 9);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
    if (!dumpEverything)
        return code;
/*     if (!code)  code = DumpByte(iodp, 't',(byte)v->type); */
    FillInt64(addvar,0, 2);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpShort(iodp, 'l', v->linkCount); /\* May not need this *\/ */
    FillInt64(addvar,0, 3);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'v', v->dataVersion); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'm', v->unixModifyTime); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'a', v->author); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'o', v->owner); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code && v->group) code = DumpInt32(iodp, 'g', v->group);    /\* default group is 0 *\/ */
    if (v->group) {
        FillInt64(addvar,0, 5);
        AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
    }
/*     if (!code) code = DumpShort(iodp, 'b', v->modeBits); */
    FillInt64(addvar,0, 3);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 'p', v->parent); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
/*     if (!code) code = DumpInt32(iodp, 's', v->serverModifyTime); */
    FillInt64(addvar,0, 5);
    AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
    if (v->type == vDirectory) {
/*      acl_HtonACL(VVnodeDiskACL(v)); */
/*      if (!code) code = DumpByteString(iodp, 'A', (byte *) VVnodeDiskACL(v), VAclDiskSize(v)); */
        FillInt64(addvar,0, (1 + VAclDiskSize(v)));
        AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
    }

    if (VNDISK_GET_INO(v)) {
        FillInt64(addvar,0, (v->length + 5));
        AddUInt64(v_size->dump_size, addvar, &v_size->dump_size);
    }
    return code;
}

/* A partial dump (no dump header) */
static int
SizeDumpPartial(register struct iod *iodp, register Volume * vp,
                afs_int32 fromtime, int dumpAllDirs,
                register struct volintSize *v_size)
{
    int code = 0;
    if (!code)
        code = SizeDumpVolumeHeader(iodp, vp, v_size);
    if (!code)
        code =
            SizeDumpVnodeIndex(iodp, vp, vLarge, fromtime, dumpAllDirs,
                               v_size);
    if (!code)
        code = SizeDumpVnodeIndex(iodp, vp, vSmall, fromtime, 0, v_size);
    return code;
}

static int
SizeDumpVnodeIndex(register struct iod *iodp, Volume * vp, VnodeClass class,
                   afs_int32 fromtime, int forcedump,
                   register struct volintSize *v_size)
{
    register int code = 0;
    register struct VnodeClassInfo *vcp = &VnodeClassInfo[class];
    char buf[SIZEOF_LARGEDISKVNODE];
    struct VnodeDiskObject *vnode = (struct VnodeDiskObject *)buf;
    StreamHandle_t *file;
    FdHandle_t *fdP;
    afs_sfsize_t size, nVnodes;
    int flag;
    register int vnodeIndex;

    fdP = IH_OPEN(vp->vnodeIndex[class].handle);
    assert(fdP != NULL);
    file = FDH_FDOPEN(fdP, "r+");
    assert(file != NULL);
    size = OS_SIZE(fdP->fd_fd);
    assert(size != -1);
    nVnodes = (size / vcp->diskSize) - 1;
    if (nVnodes > 0) {
        assert((nVnodes + 1) * vcp->diskSize == size);
        assert(STREAM_SEEK(file, vcp->diskSize, 0) == 0);
    } else
        nVnodes = 0;
    for (vnodeIndex = 0;
         nVnodes && STREAM_READ(vnode, vcp->diskSize, 1, file) == 1 && !code;
         nVnodes--, vnodeIndex++) {
        flag = forcedump || (vnode->serverModifyTime >= fromtime);
        /* Note:  the >= test is very important since some old volumes may not have
         * a serverModifyTime.  For an epoch dump, this results in 0>=0 test, which
         * does dump the file! */
        if (!code)
            code =
                SizeDumpVnode(iodp, vnode, V_id(vp),
                              bitNumberToVnodeNumber(vnodeIndex, class), flag,
                              v_size);
    }
    STREAM_CLOSE(file);
    FDH_CLOSE(fdP);
    return code;
}