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dasdutil.c
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dasdutil.c
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/* DASDUTIL.C (c) Copyright Roger Bowler, 1999-2010 */
/* Hercules DASD Utilities: Common subroutines */
/*-------------------------------------------------------------------*/
/* This module contains common subroutines used by DASD utilities */
/*-------------------------------------------------------------------*/
#include "hstdinc.h"
#define _DASDUTIL_C_
#define _HDASD_DLL_
#include "hercules.h"
#include "dasdblks.h"
#include "devtype.h"
#include "opcode.h"
/*-------------------------------------------------------------------*/
/* External references (defined in ckddasd.c) */
/*-------------------------------------------------------------------*/
extern DEVHND ckddasd_device_hndinfo;
/*-------------------------------------------------------------------*/
/* Internal macro definitions */
/*-------------------------------------------------------------------*/
/*-------------------------------------------------------------------*/
/* Static data areas */
/*-------------------------------------------------------------------*/
static int verbose = 0; /* Be chatty about reads etc. */
static BYTE eighthexFF[] = {0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff};
static BYTE iplpsw[8] = {0x00,0x06,0x00,0x00,0x00,0x00,0x00,0x0F};
static BYTE iplccw1[8] = {0x03,0x00,0x00,0x00,0x00,0x00,0x00,0x01};
static BYTE iplccw2[8] = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
static int nextnum = 0;
#if 0
SYSBLK sysblk; /* Currently required for shared.c */
#endif
/*-------------------------------------------------------------------*/
/* Subroutine to convert a null-terminated string to upper case */
/*-------------------------------------------------------------------*/
DLL_EXPORT void string_to_upper (char *source)
{
int i; /* Array subscript */
for (i = 0; source[i] != '\0'; i++)
source[i] = toupper(source[i]);
} /* end function string_to_upper */
/*-------------------------------------------------------------------*/
/* Subroutine to convert a null-terminated string to lower case */
/*-------------------------------------------------------------------*/
DLL_EXPORT void string_to_lower (char *source)
{
int i; /* Array subscript */
for (i = 0; source[i] != '\0'; i++)
source[i] = tolower(source[i]);
} /* end function string_to_lower */
/*-------------------------------------------------------------------*/
/* Subroutine to convert a string to EBCDIC and pad with blanks */
/*-------------------------------------------------------------------*/
DLL_EXPORT void convert_to_ebcdic (BYTE *dest, int len, char *source)
{
int i; /* Array subscript */
set_codepage(NULL);
for (i = 0; i < len && source[i] != '\0'; i++)
dest[i] = host_to_guest(source[i]);
while (i < len)
dest[i++] = 0x40;
} /* end function convert_to_ebcdic */
/*-------------------------------------------------------------------*/
/* Subroutine to convert an EBCDIC string to an ASCIIZ string. */
/* Removes trailing blanks and adds a terminating null. */
/* Returns the length of the ASCII string excluding terminating null */
/*-------------------------------------------------------------------*/
DLL_EXPORT int make_asciiz (char *dest, int destlen, BYTE *src, int srclen)
{
int len; /* Result length */
set_codepage(NULL);
for (len=0; len < srclen && len < destlen-1; len++)
dest[len] = guest_to_host(src[len]);
while (len > 0 && dest[len-1] == SPACE) len--;
dest[len] = '\0';
return len;
} /* end function make_asciiz */
/*-------------------------------------------------------------------*/
/* Subroutine to print a data block in hex and character format. */
/*-------------------------------------------------------------------*/
DLL_EXPORT void data_dump ( void *addr, int len )
{
unsigned int maxlen = 2048;
unsigned int i, xi, offset, startoff = 0;
BYTE c;
BYTE *pchar;
char print_chars[17];
char hex_chars[64];
char prev_hex[64] = "";
int firstsame = 0;
int lastsame = 0;
set_codepage(NULL);
pchar = (BYTE *)addr;
for (offset=0; ; )
{
if (offset >= maxlen && offset <= len - maxlen)
{
offset += 16;
pchar += 16;
prev_hex[0] = '\0';
continue;
}
if ( offset > 0 )
{
if ( strcmp ( hex_chars, prev_hex ) == 0 )
{
if ( firstsame == 0 ) firstsame = startoff;
lastsame = startoff;
}
else
{
if ( firstsame != 0 )
{
if ( lastsame == firstsame )
printf ("Line %4.4X same as above\n",
firstsame );
else
printf ("Lines %4.4X to %4.4X same as above\n",
firstsame, lastsame );
firstsame = lastsame = 0;
}
printf ("+%4.4X %s %s\n",
startoff, hex_chars, print_chars);
strcpy ( prev_hex, hex_chars );
}
}
if ( offset >= (U32)len ) break;
memset ( print_chars, 0, sizeof(print_chars) );
memset ( hex_chars, SPACE, sizeof(hex_chars) );
startoff = offset;
for (xi=0, i=0; i < 16; i++)
{
c = *pchar++;
if (offset < (U32)len) {
sprintf(hex_chars+xi, "%2.2X", c);
print_chars[i] = '.';
if (isprint(c)) print_chars[i] = c;
c = guest_to_host(c);
if (isprint(c)) print_chars[i] = c;
}
offset++;
xi += 2;
hex_chars[xi] = SPACE;
if ((offset & 3) == 0) xi++;
} /* end for(i) */
hex_chars[xi] = '\0';
} /* end for(offset) */
} /* end function data_dump */
/*-------------------------------------------------------------------*/
/* Subroutine to read a track from the CKD DASD image */
/* Input: */
/* cif -> CKD image file descriptor structure */
/* cyl Cylinder number */
/* head Head number */
/* Output: */
/* The track is read into trkbuf, and curcyl and curhead */
/* are set to the cylinder and head number. */
/* */
/* Return value is 0 if successful, -1 if error */
/*-------------------------------------------------------------------*/
DLL_EXPORT int read_track (CIFBLK *cif, int cyl, int head)
{
int rc; /* Return code */
int trk; /* Track number */
DEVBLK *dev; /* -> CKD device block */
BYTE unitstat; /* Unit status */
/* Exit if required track is already in buffer */
if (cif->curcyl == cyl && cif->curhead == head)
return 0;
dev = &cif->devblk;
if (cif->trkmodif)
{
cif->trkmodif = 0;
if (verbose) /* Issue progress message */
fprintf (stdout, _("HHCDU001I Updating cyl %d head %d\n"),
cif->curcyl, cif->curhead);
trk = (cif->curcyl * cif->heads) + cif->curhead;
rc = (dev->hnd->write)(dev, trk, 0, NULL, cif->trksz, &unitstat);
if (rc < 0)
{
fprintf (stderr, _("HHCDU002E %s write track error: stat=%2.2X\n"),
cif->fname, unitstat);
return -1;
}
}
if (verbose) /* Issue progress message */
fprintf (stdout, _("HHCDU003I Reading cyl %d head %d\n"), cyl, head);
trk = (cyl * cif->heads) + head;
rc = (dev->hnd->read)(dev, trk, &unitstat);
if (rc < 0)
{
fprintf (stderr, _("HHCDU004E %s read track error: stat=%2.2X\n"),
cif->fname, unitstat);
return -1;
}
/* Set current buf, cylinder and head */
cif->trkbuf = dev->buf;
cif->curcyl = cyl;
cif->curhead = head;
return 0;
} /* end function read_track */
/*-------------------------------------------------------------------*/
/* Subroutine to read a block from the CKD DASD image */
/* Input: */
/* cif -> CKD image file descriptor structure */
/* cyl Cylinder number of requested block */
/* head Head number of requested block */
/* rec Record number of requested block */
/* Output: */
/* keyptr Pointer to record key */
/* keylen Actual key length */
/* dataptr Pointer to record data */
/* datalen Actual data length */
/* */
/* Return value is 0 if successful, +1 if end of track, -1 if error */
/*-------------------------------------------------------------------*/
DLL_EXPORT int read_block (CIFBLK *cif, int cyl, int head, int rec, BYTE **keyptr,
int *keylen, BYTE **dataptr, int *datalen)
{
int rc; /* Return code */
BYTE *ptr; /* -> byte in track buffer */
CKDDASD_RECHDR *rechdr; /* -> Record header */
int kl; /* Key length */
int dl; /* Data length */
/* Read the required track into the track buffer if necessary */
rc = read_track (cif, cyl, head);
if (rc < 0) return -1;
/* Search for the requested record in the track buffer */
ptr = cif->trkbuf;
ptr += CKDDASD_TRKHDR_SIZE;
while (1)
{
/* Exit with record not found if end of track */
if (memcmp(ptr, eighthexFF, 8) == 0)
return +1;
/* Extract key length and data length from count field */
rechdr = (CKDDASD_RECHDR*)ptr;
kl = rechdr->klen;
dl = (rechdr->dlen[0] << 8) | rechdr->dlen[1];
/* Exit if requested record number found */
if (rechdr->rec == rec)
break;
/* Issue progress message */
// fprintf (stdout,
// "Skipping CCHHR=%2.2X%2.2X%2.2X%2.2X"
// "%2.2X KL=%2.2X DL=%2.2X%2.2X\n",
// rechdr->cyl[0], rechdr->cyl[1],
// rechdr->head[0], rechdr->head[1],
// rechdr->rec, rechdr->klen,
// rechdr->dlen[0], rechdr->dlen[1]);
/* Point past count key and data to next block */
ptr += CKDDASD_RECHDR_SIZE + kl + dl;
}
/* Return key and data pointers and lengths */
if (keyptr != NULL) *keyptr = ptr + CKDDASD_RECHDR_SIZE;
if (keylen != NULL) *keylen = kl;
if (dataptr != NULL) *dataptr = ptr + CKDDASD_RECHDR_SIZE + kl;
if (datalen != NULL) *datalen = dl;
return 0;
} /* end function read_block */
/*-------------------------------------------------------------------*/
/* Subroutine to search a dataset for a specified key */
/* Input: */
/* cif -> CKD image file descriptor structure */
/* key Key value */
/* keylen Key length */
/* noext Number of extents */
/* extent Dataset extent array */
/* Output: */
/* cyl Cylinder number of requested block */
/* head Head number of requested block */
/* rec Record number of requested block */
/* */
/* Return value is 0 if successful, +1 if key not found, -1 if error */
/*-------------------------------------------------------------------*/
DLL_EXPORT int search_key_equal (CIFBLK *cif, BYTE *key, int keylen, int noext,
DSXTENT extent[], int *cyl, int *head, int *rec)
{
int rc; /* Return code */
int ccyl; /* Cylinder number */
int chead; /* Head number */
int cext; /* Extent sequence number */
int ecyl; /* Extent end cylinder */
int ehead; /* Extent end head */
BYTE *ptr; /* -> byte in track buffer */
CKDDASD_RECHDR *rechdr; /* -> Record header */
int kl; /* Key length */
int dl; /* Data length */
/* Start at first track of first extent */
cext = 0;
ccyl = (extent[cext].xtbcyl[0] << 8) | extent[cext].xtbcyl[1];
chead = (extent[cext].xtbtrk[0] << 8) | extent[cext].xtbtrk[1];
ecyl = (extent[cext].xtecyl[0] << 8) | extent[cext].xtecyl[1];
ehead = (extent[cext].xtetrk[0] << 8) | extent[cext].xtetrk[1];
if (verbose)
{
fprintf (stdout,
_("HHCDU005I Searching extent %d begin (%d,%d) end (%d,%d)\n"),
cext, ccyl, chead, ecyl, ehead);
}
while (1)
{
/* Read the required track into the track buffer */
rc = read_track (cif, ccyl, chead);
if (rc < 0) return -1;
/* Search for the requested record in the track buffer */
ptr = cif->trkbuf;
ptr += CKDDASD_TRKHDR_SIZE;
while (1)
{
/* Exit loop at end of track */
if (memcmp(ptr, eighthexFF, 8) == 0)
break;
/* Extract key length and data length from count field */
rechdr = (CKDDASD_RECHDR*)ptr;
kl = rechdr->klen;
dl = (rechdr->dlen[0] << 8) | rechdr->dlen[1];
/* Return if requested record key found */
if (kl == keylen
&& memcmp(ptr + CKDDASD_RECHDR_SIZE, key, 44) == 0)
{
*cyl = ccyl;
*head = chead;
*rec = rechdr->rec;
return 0;
}
/* Issue progress message */
// fprintf (stdout,
// "Skipping CCHHR=%2.2X%2.2X%2.2X%2.2X"
// "%2.2X KL=%2.2X DL=%2.2X%2.2X\n",
// rechdr->cyl[0], rechdr->cyl[1],
// rechdr->head[0], rechdr->head[1],
// rechdr->rec, rechdr->klen,
// rechdr->dlen[0], rechdr->dlen[1]);
/* Point past count key and data to next block */
ptr += CKDDASD_RECHDR_SIZE + kl + dl;
} /* end while */
/* Point to the next track */
chead++;
if (chead >= cif->heads)
{
ccyl++;
chead = 0;
}
/* Loop if next track is within current extent */
if (ccyl < ecyl || (ccyl == ecyl && chead <= ehead))
continue;
/* Move to next extent */
cext++;
if (cext >= noext) break;
ccyl = (extent[cext].xtbcyl[0] << 8) | extent[cext].xtbcyl[1];
chead = (extent[cext].xtbtrk[0] << 8) | extent[cext].xtbtrk[1];
ecyl = (extent[cext].xtecyl[0] << 8) | extent[cext].xtecyl[1];
ehead = (extent[cext].xtetrk[0] << 8) | extent[cext].xtetrk[1];
if (verbose)
{
fprintf (stdout,
_("HHCDU006I Searching extent %d begin (%d,%d) end (%d,%d)\n"),
cext, ccyl, chead, ecyl, ehead);
}
} /* end while */
/* Return record not found at end of extents */
return +1;
} /* end function search_key_equal */
/*-------------------------------------------------------------------*/
/* Subroutine to convert relative track to cylinder and head */
/* Input: */
/* tt Relative track number */
/* noext Number of extents in dataset */
/* extent Dataset extent array */
/* heads Number of tracks per cylinder */
/* Output: */
/* cyl Cylinder number */
/* head Head number */
/* */
/* Return value is 0 if successful, or -1 if error */
/*-------------------------------------------------------------------*/
DLL_EXPORT int convert_tt (int tt, int noext, DSXTENT extent[], int heads,
int *cyl, int *head)
{
int i; /* Extent sequence number */
int trk; /* Relative track number */
int bcyl; /* Extent begin cylinder */
int btrk; /* Extent begin head */
int ecyl; /* Extent end cylinder */
int etrk; /* Extent end head */
int start; /* Extent begin track */
int end; /* Extent end track */
int extsize; /* Extent size in tracks */
for (i = 0, trk = tt; i < noext; i++)
{
bcyl = (extent[i].xtbcyl[0] << 8) | extent[i].xtbcyl[1];
btrk = (extent[i].xtbtrk[0] << 8) | extent[i].xtbtrk[1];
ecyl = (extent[i].xtecyl[0] << 8) | extent[i].xtecyl[1];
etrk = (extent[i].xtetrk[0] << 8) | extent[i].xtetrk[1];
start = (bcyl * heads) + btrk;
end = (ecyl * heads) + etrk;
extsize = end - start + 1;
if (trk < extsize)
{
trk += start;
*cyl = trk / heads;
*head = trk % heads;
return 0;
}
trk -= extsize;
} /* end for(i) */
fprintf (stderr,
_("HHCDU007E Track %d not found in extent table\n"),
tt);
return -1;
} /* end function convert_tt */
/*-------------------------------------------------------------------*/
/* Subroutine to open a CKD image file */
/* Input: */
/* fname CKD image file name */
/* sfname xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx */
/* omode Open mode: O_RDONLY or O_RDWR */
/* dasdcopy xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx */
/* */
/* The CKD image file is opened, a track buffer is obtained, */
/* and a CKD image file descriptor structure is built. */
/* Return value is a pointer to the CKD image file descriptor */
/* structure if successful, or NULL if unsuccessful. */
/*-------------------------------------------------------------------*/
DLL_EXPORT CIFBLK* open_ckd_image (char *fname, char *sfname, int omode,
int dasdcopy)
{
int fd; /* File descriptor */
int rc; /* Return code */
int len; /* Record length */
CKDDASD_DEVHDR devhdr; /* CKD device header */
CIFBLK *cif; /* CKD image file descriptor */
DEVBLK *dev; /* CKD device block */
CKDDEV *ckd; /* CKD DASD table entry */
char *rmtdev; /* Possible remote device */
char *argv[2]; /* Arguments to */
int argc=0; /* */
char sfxname[FILENAME_MAX*2];/* Suffixed file name */
char typname[64];
char pathname[MAX_PATH]; /* file path in host format */
/* Obtain storage for the file descriptor structure */
cif = (CIFBLK*) calloc (sizeof(CIFBLK), 1);
if (cif == NULL)
{
fprintf (stderr,
_("HHCDU008E Cannot obtain storage for device descriptor "
"buffer: %s\n"),
strerror(errno));
return NULL;
}
/* Initialize the devblk */
dev = &cif->devblk;
if ((omode & O_RDWR) == 0) dev->ckdrdonly = 1;
dev->fd = -1;
dev->batch = 1;
dev->dasdcopy = dasdcopy;
/* If the filename has a `:' then it may be a remote device */
rmtdev = strchr(fname, ':');
/* Read the device header so we can determine the device type */
strcpy (sfxname, fname);
hostpath(pathname, sfxname, sizeof(pathname));
fd = hopen(pathname, omode);
if (fd < 0)
{
/* If no shadow file name was specified, then try opening the
file with the file sequence number in the name */
if (sfname == NULL)
{
int i;
char *s,*suffix;
/* Look for last slash marking end of directory name */
s = strrchr (fname, '/');
if (s == NULL) s = fname;
/* Insert suffix before first dot in file name, or
append suffix to file name if there is no dot.
If the filename already has a place for the suffix
then use that. */
s = strchr (s, '.');
if (s != NULL)
{
i = s - fname;
if (i > 2 && fname[i-2] == '_')
suffix = sfxname + i - 1;
else
{
strcpy (sfxname + i, "_1");
strcat (sfxname, fname + i);
suffix = sfxname + i + 1;
}
}
else
{
if (strlen(sfxname) < 2 || sfxname[strlen(sfxname)-2] != '_')
strcat (sfxname, "_1");
suffix = sfxname + strlen(sfxname) - 1;
}
*suffix = '1';
hostpath(pathname, sfxname, sizeof(pathname));
fd = hopen(pathname, omode);
}
if (fd < 0 && rmtdev == NULL)
{
fprintf (stderr, _("HHCDU009E Cannot open %s: %s\n"),
fname, strerror(errno));
free (cif);
return NULL;
}
else if (fd < 0) strcpy (sfxname, fname);
}
/* If not a possible remote devic, check the dasd header
and set the device type */
if (fd >= 0)
{
len = read (fd, &devhdr, CKDDASD_DEVHDR_SIZE);
if (len < 0)
{
fprintf (stderr, _("HHCDU010E %s read error: %s\n"),
fname, strerror(errno));
close (fd);
free (cif);
return NULL;
}
close (fd);
if (len < (int)CKDDASD_DEVHDR_SIZE
|| (memcmp(devhdr.devid, "CKD_P370", 8)
&& memcmp(devhdr.devid, "CKD_C370", 8)))
{
fprintf (stderr, _("HHCDU011E %s CKD header invalid\n"), fname);
free (cif);
return NULL;
}
/* Set the device type */
ckd = dasd_lookup (DASD_CKDDEV, NULL, devhdr.devtype, 0);
if (ckd == NULL)
{
fprintf(stderr, _("HHCDU012E DASD table entry not found for "
"devtype 0x%2.2X\n"),
devhdr.devtype);
free (cif);
return NULL;
}
dev->devtype = ckd->devt;
snprintf(typname,64,"%4.4X",dev->devtype);
dev->typname=typname; /* Makes HDL Happy */
}
/* Set the device handlers */
dev->hnd = &ckddasd_device_hndinfo;
/* Set the device number */
dev->devnum = ++nextnum;
/* Build arguments for ckddasd_init_handler */
argv[0] = sfxname;
argc++;
if (sfname != NULL)
{
argv[1] = sfname;
argc++;
}
/* Call the device handler initialization function */
rc = (dev->hnd->init)(dev, argc, argv);
if (rc < 0)
{
fprintf (stderr, _("HHCDU013E CKD initialization failed for %s\n"),
fname);
free (cif);
return NULL;
}
/* Call the device start exit */
if (dev->hnd->start) (dev->hnd->start) (dev);
/* Set CIF fields */
cif->fname = fname;
cif->fd = dev->fd;
/* Extract the number of heads and the track size */
cif->heads = dev->ckdheads;
cif->trksz = ((U32)(devhdr.trksize[3]) << 24)
| ((U32)(devhdr.trksize[2]) << 16)
| ((U32)(devhdr.trksize[1]) << 8)
| (U32)(devhdr.trksize[0]);
if (verbose)
{
fprintf (stderr,
_("HHCDU014I %s heads=%d trklen=%d\n"),
cif->fname, cif->heads, cif->trksz);
}
/* Indicate that the track buffer is empty */
cif->curcyl = -1;
cif->curhead = -1;
cif->trkmodif = 0;
return cif;
} /* end function open_ckd_image */
/*-------------------------------------------------------------------*/
/* Subroutine to close a CKD image file */
/* Input: */
/* cif -> CKD image file descriptor structure */
/* */
/* The track buffer is flushed and released, the CKD image file */
/* is closed, and the file descriptor structure is released. */
/* Return value is 0 if successful, -1 if error */
/*-------------------------------------------------------------------*/
DLL_EXPORT int close_ckd_image (CIFBLK *cif)
{
int rc; /* Return code */
int trk; /* Track number */
DEVBLK *dev; /* -> CKD device block */
BYTE unitstat; /* Unit status */
dev = &cif->devblk;
/* Write the last track if modified */
if (cif->trkmodif)
{
if (verbose) /* Issue progress message */
fprintf (stdout, _("HHCDU015I Updating cyl %d head %d\n"),
cif->curcyl, cif->curhead);
trk = (cif->curcyl * cif->heads) + cif->curhead;
rc = (dev->hnd->write)(dev, trk, 0, NULL, cif->trksz, &unitstat);
if (rc < 0)
{
fprintf (stderr, _("HHCDU016E %s write track error: stat=%2.2X\n"),
cif->fname, unitstat);
}
}
/* Call the END exit */
if (dev->hnd->end) (dev->hnd->end) (dev);
/* Close the CKD image file */
(dev->hnd->close)(dev);
/* Release the file descriptor structure */
free (cif);
return 0;
} /* end function close_ckd_image */
/*-------------------------------------------------------------------*/
/* Subroutine to open a FBA image file */
/* Input: */
/* fname FBA image file name */
/* sfname xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx */
/* omode Open mode: O_RDONLY or O_RDWR */
/* dasdcopy xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx */
/* */
/* The FBA image file is opened, a track buffer is obtained, */
/* and a FBA image file descriptor structure is built. */
/* Return value is a pointer to the FBA image file descriptor */
/* structure if successful, or NULL if unsuccessful. */
/*-------------------------------------------------------------------*/
DLL_EXPORT CIFBLK* open_fba_image (char *fname, char *sfname, int omode,
int dasdcopy)
{
int rc; /* Return code */
CIFBLK *cif; /* FBA image file descriptor */
DEVBLK *dev; /* FBA device block */
FBADEV *fba; /* FBA DASD table entry */
char *argv[2]; /* Arguments to */
int argc=0; /* device open */
/* Obtain storage for the file descriptor structure */
cif = (CIFBLK*) calloc (sizeof(CIFBLK), 1);
if (cif == NULL)
{
fprintf (stderr,
_("HHCDU017E Cannot obtain storage for device descriptor "
"buffer: %s\n"),
strerror(errno));
return NULL;
}
/* Initialize the devblk */
dev = &cif->devblk;
if ((omode & O_RDWR) == 0) dev->ckdrdonly = 1;
dev->batch = 1;
dev->dasdcopy = dasdcopy;
/* Set the device type */
fba = dasd_lookup (DASD_FBADEV, NULL, DEFAULT_FBA_TYPE, 0);
if (fba == NULL)
{
fprintf(stderr, _("HHCDU018E DASD table entry not found for "
"devtype 0x%2.2X\n"),
DEFAULT_FBA_TYPE);
free (cif);
return NULL;
}
dev->devtype = fba->devt;
/* Set the device handlers */
dev->hnd = &fbadasd_device_hndinfo;
/* Set the device number */
dev->devnum = ++nextnum;
/* Build arguments for fbadasd_init_handler */
argv[0] = fname;
argc++;
if (sfname != NULL)
{
argv[1] = sfname;
argc++;
}
/* Call the device handler initialization function */
rc = (dev->hnd->init)(dev, argc, argv);
if (rc < 0)
{
fprintf (stderr, _("HHCDU019E FBA initialization failed for %s\n"),
fname);
free (cif);
return NULL;
}
/* Set CIF fields */
cif->fname = fname;
cif->fd = dev->fd;
/* Extract the number of sectors and the sector size */
cif->heads = dev->fbanumblk;
cif->trksz = dev->fbablksiz;
if (verbose)
{
fprintf (stderr,
_("HHCDU020I %s sectors=%d size=%d\n"),
cif->fname, cif->heads, cif->trksz);
}
/* Indicate that the track buffer is empty */
cif->curcyl = -1;
cif->curhead = -1;
cif->trkmodif = 0;
return cif;
} /* end function open_fba_image */
/*-------------------------------------------------------------------*/
/* Subroutine to build extent array for specified dataset */
/* Input: */
/* cif -> CKD image file descriptor structure */
/* dsnama -> Dataset name (ASCIIZ) */
/* Output: */
/* extent Extent array (up to 16 entries) */
/* noext Number of extents */
/* */
/* Return value is 0 if successful, or -1 if error */
/*-------------------------------------------------------------------*/
DLL_EXPORT int build_extent_array (CIFBLK *cif, char *dsnama, DSXTENT extent[],
int *noext)
{
int rc; /* Return code */
int len; /* Record length */
int cyl; /* Cylinder number */
int head; /* Head number */
int rec; /* Record number */
BYTE *vol1data; /* -> Volume label */
FORMAT1_DSCB *f1dscb; /* -> Format 1 DSCB */
FORMAT3_DSCB *f3dscb; /* -> Format 3 DSCB */
FORMAT4_DSCB *f4dscb; /* -> Format 4 DSCB */
BYTE dsname[44]; /* Dataset name (EBCDIC) */
char volser[7]; /* Volume serial (ASCIIZ) */
/* Convert the dataset name to EBCDIC */
convert_to_ebcdic (dsname, sizeof(dsname), dsnama);
/* Read the volume label */
rc = read_block (cif, 0, 0, 3, NULL, NULL, &vol1data, &len);
if (rc < 0) return -1;
if (rc > 0)
{
fprintf (stderr, _("HHCDU021E VOL1 record not found\n"));
return -1;
}
/* Extract the volume serial and the CCHHR of the format 4 DSCB */
make_asciiz (volser, sizeof(volser), vol1data+4, 6);
cyl = (vol1data[11] << 8) | vol1data[12];
head = (vol1data[13] << 8) | vol1data[14];
rec = vol1data[15];
if (verbose)
{
fprintf (stdout,
_("HHCDU022I VOLSER=%s VTOC=%4.4X%4.4X%2.2X\n"),
volser, cyl, head, rec);
}
/* Read the format 4 DSCB */
rc = read_block (cif, cyl, head, rec,
(void *)&f4dscb, &len, NULL, NULL);
if (rc < 0) return -1;
if (rc > 0)
{
fprintf (stderr, _("HHCDU023E F4DSCB record not found\n"));
return -1;
}
if (verbose)
{
fprintf (stdout,
_("HHCDU023I VTOC start %2.2X%2.2X%2.2X%2.2X "
"end %2.2X%2.2X%2.2X%2.2X\n"),
f4dscb->ds4vtoce.xtbcyl[0], f4dscb->ds4vtoce.xtbcyl[1],
f4dscb->ds4vtoce.xtbtrk[0], f4dscb->ds4vtoce.xtbtrk[1],
f4dscb->ds4vtoce.xtecyl[0], f4dscb->ds4vtoce.xtecyl[1],
f4dscb->ds4vtoce.xtetrk[0], f4dscb->ds4vtoce.xtetrk[1]);
}
/* Search for the requested dataset in the VTOC */
rc = search_key_equal (cif, dsname, sizeof(dsname),
1, &(f4dscb->ds4vtoce),
&cyl, &head, &rec);
if (rc < 0) return -1;
if (rc > 0)
{
fprintf (stderr,
_("HHCDU024E Dataset %s not found in VTOC\n"),
dsnama);
return -1;
}
if (verbose)
{
fprintf (stdout,
_("HHCDU025I DSNAME=%s F1DSCB CCHHR=%4.4X%4.4X%2.2X\n"),
dsnama, cyl, head, rec);
}
/* Read the format 1 DSCB */
rc = read_block (cif, cyl, head, rec,
(void *)&f1dscb, &len, NULL, NULL);
if (rc < 0) return -1;
if (rc > 0)
{
fprintf (stderr, _("HHCDU026E F1DSCB record not found\n"));
return -1;
}
/* Extract number of extents and first 3 extent descriptors */
*noext = f1dscb->ds1noepv;
extent[0] = f1dscb->ds1ext1;
extent[1] = f1dscb->ds1ext2;
extent[2] = f1dscb->ds1ext3;
/* Obtain additional extent descriptors */
if (f1dscb->ds1noepv > 3)
{
/* Read the format 3 DSCB */
cyl = (f1dscb->ds1ptrds[0] << 8) | f1dscb->ds1ptrds[1];
head = (f1dscb->ds1ptrds[2] << 8) | f1dscb->ds1ptrds[3];
rec = f1dscb->ds1ptrds[4];
rc = read_block (cif, cyl, head, rec,
(void *)&f3dscb, &len, NULL, NULL);
if (rc < 0) return -1;
if (rc > 0)
{
fprintf (stderr, _("HHCDU027E F3DSCB record not found\n"));
return -1;
}
/* Extract the next 13 extent descriptors */
extent[3] = f3dscb->ds3extnt[0];
extent[4] = f3dscb->ds3extnt[1];
extent[5] = f3dscb->ds3extnt[2];
extent[6] = f3dscb->ds3extnt[3];
extent[7] = f3dscb->ds3adext[0];
extent[8] = f3dscb->ds3adext[1];
extent[9] = f3dscb->ds3adext[2];
extent[10] = f3dscb->ds3adext[3];
extent[11] = f3dscb->ds3adext[4];
extent[12] = f3dscb->ds3adext[5];
extent[13] = f3dscb->ds3adext[6];
extent[14] = f3dscb->ds3adext[7];
extent[15] = f3dscb->ds3adext[8];
}
return 0;
} /* end function build_extent_array */
/*-------------------------------------------------------------------*/
/* Subroutine to calculate physical device track capacities */
/* Input: */
/* cif -> CKD image file descriptor structure */
/* used Number of bytes used so far on track, */
/* excluding home address and record 0 */
/* keylen Key length of proposed new record */
/* datalen Data length of proposed new record */
/* Output: */
/* newused Number of bytes used including proposed new record */
/* trkbaln Number of bytes remaining on track */
/* physlen Number of bytes on physical track (=ds4devtk) */
/* kbconst Overhead for non-last keyed block (=ds4devi) */
/* lbconst Overhead for last keyed block (=ds4devl) */
/* nkconst Overhead difference for non-keyed block (=ds4devk) */
/* devflag Device flag byte for VTOC (=ds4devfg) */
/* tolfact Device tolerance factor (=ds4devtl) */
/* maxdlen Maximum data length for non-keyed record 1 */
/* numrecs Number of records of specified length per track */
/* numhead Number of tracks per cylinder */
/* numcyls Number of cylinders per volume */
/* Note: */
/* A NULL address may be specified for any of the output */
/* fields if the output value is not required. */
/* The return value is 0 if the record will fit on the track, */
/* +1 if record will not fit on track, or -1 if unknown devtype */
/* Note: */
/* Although the virtual DASD image file contains no interrecord */