int len = strlen (vgs[i]);
int j;
for (j = 0; lvs[j] != NULL; ++j) {
- if (STREQLEN (lvs[j], "/dev/", 5) &&
- STREQLEN (&lvs[j][5], vgs[i], len) &&
+ if (strncmp (lvs[j], "/dev/", 5) == 0 &&
+ strncmp (&lvs[j][5], vgs[i], len) == 0 &&
lvs[j][len+5] == '/') {
int64_t size;
CALL (size = guestfs_blockdev_getsize64 (g, lvs[j]), -1);
CALL (what = guestfs_file (g, dev), NULL);
- if (STREQ (what, "x86 boot sector"))
+ if (strcmp (what, "x86 boot sector") == 0)
/* This is what 'file' program shows for Windows/NTFS partitions. */
printf ("<windows/>\n");
else if (strstr (what, "boot sector") != NULL)
display_partitions (g, dev);
- else if (STREQLEN (what, "LVM2", 4))
+ else if (strncmp (what, "LVM2", 4) == 0)
printf ("<physvol/>\n");
else if (strstr (what, "ext2 filesystem data") != NULL)
display_ext234 (g, dev, "ext2");
* That's a limitation of sorts of the Linux kernel. (Actually,
* we could do this if we add the kpartx program to libguestfs).
*/
- if (STRNEQLEN (dev, "/dev/sd", 7) || isdigit (dev[strlen(dev)-1])) {
+ if (strncmp (dev, "/dev/sd", 7) != 0 || isdigit (dev[strlen(dev)-1])) {
printf ("<vm-image dev=\"%s\"/>\n", dev);
return;
}
len = strlen (dev);
for (i = 0; parts[i] != NULL; ++i) {
/* Only display partition if it's in the device. */
- if (STREQLEN (parts[i], dev, len)) {
+ if (strncmp (parts[i], dev, len) == 0) {
int64_t size;
CALL (size = guestfs_blockdev_getsize64 (g, parts[i]), -1);
printf ("<partition dev=\"%s\" size=\"%" PRIi64 "\">\n", parts[i], size);
/* Just pick out a few important fields to display. There
* is much more that could be displayed here.
*/
- if (STREQ (sbfields[i], "Filesystem UUID"))
+ if (strcmp (sbfields[i], "Filesystem UUID") == 0)
printf ("<uuid>%s</uuid>\n", sbfields[i+1]);
- else if (STREQ (sbfields[i], "Block size"))
+ else if (strcmp (sbfields[i], "Block size") == 0)
printf ("<blocksize>%s</blocksize>\n", sbfields[i+1]);
free (sbfields[i]);