static const cmdinfo_t pop_cmd =
{ "pop", NULL, pop_f, 0, 0, 0, NULL,
- "pop location from the stack", pop_help };
+ N_("pop location from the stack"), pop_help };
static const cmdinfo_t push_cmd =
- { "push", NULL, push_f, 0, 2, 0, "[command]",
- "push location to the stack", push_help };
+ { "push", NULL, push_f, 0, 2, 0, N_("[command]"),
+ N_("push location to the stack"), push_help };
static const cmdinfo_t stack_cmd =
{ "stack", NULL, stack_f, 0, 0, 0, NULL,
- "view the location stack", stack_help };
+ N_("view the location stack"), stack_help };
static const cmdinfo_t forward_cmd =
{ "forward", "f", forward_f, 0, 0, 0, NULL,
- "move forward to next entry in the position ring", forward_help };
+ N_("move forward to next entry in the position ring"), forward_help };
static const cmdinfo_t back_cmd =
{ "back", "b", back_f, 0, 0, 0, NULL,
- "move to the previous location in the position ring", back_help };
+ N_("move to the previous location in the position ring"), back_help };
static const cmdinfo_t ring_cmd =
{ "ring", NULL, ring_f, 0, 1, 0, NULL,
- "show position ring or move to a specific entry", ring_help };
+ N_("show position ring or move to a specific entry"), ring_help };
iocur_t *iocur_base;
iocur_t *iocur_top;
int len)
{
if (iocur_top == NULL || off + len > BBTOB(iocur_top->blen))
- dbprintf("can't set block offset to %d\n", off);
+ dbprintf(_("can't set block offset to %d\n"), off);
else {
iocur_top->boff = off;
iocur_top->off = ((xfs_off_t)iocur_top->bb << BBSHIFT) + off;
pop_cur(void)
{
if (iocur_sp < 0) {
- dbprintf("can't pop anything from I/O stack\n");
+ dbprintf(_("can't pop anything from I/O stack\n"));
return;
}
if (iocur_top->buf)
static void
pop_help(void)
{
- dbprintf(
+ dbprintf(_(
"\n"
" Changes the address and data type to the first entry on the stack.\n"
"\n"
- );
+ ));
}
void
int i;
dbprintf("%s\n", tag);
- dbprintf("\tbyte offset %lld, length %d\n", ioc->off, ioc->len);
- dbprintf("\tbuffer block %lld (fsbno %lld), %d bb%s\n", ioc->bb,
+ dbprintf(_("\tbyte offset %lld, length %d\n"), ioc->off, ioc->len);
+ dbprintf(_("\tbuffer block %lld (fsbno %lld), %d bb%s\n"), ioc->bb,
(xfs_dfsbno_t)XFS_DADDR_TO_FSB(mp, ioc->bb), ioc->blen,
ioc->blen == 1 ? "" : "s");
if (ioc->use_bbmap) {
- dbprintf("\tblock map");
+ dbprintf(_("\tblock map"));
for (i = 0; i < ioc->blen; i++)
dbprintf(" %d:%lld", i, ioc->bbmap.b[i]);
dbprintf("\n");
}
- dbprintf("\tinode %lld, dir inode %lld, type %s\n", ioc->ino,
- ioc->dirino, ioc->typ == NULL ? "none" : ioc->typ->name);
+ dbprintf(_("\tinode %lld, dir inode %lld, type %s\n"), ioc->ino,
+ ioc->dirino, ioc->typ == NULL ? _("none") : ioc->typ->name);
}
void
iocur_t *ioc;
if (ring_current == -1) {
- dbprintf("no entries in location ring.\n");
+ dbprintf(_("no entries in location ring.\n"));
return;
}
- dbprintf(" type bblock bblen fsbno inode\n");
+ dbprintf(_(" type bblock bblen fsbno inode\n"));
i = ring_head;
for (;;) {
/* check we can execute command */
ct = find_command(argv[1]);
if (ct == NULL) {
- dbprintf("no such command %s\n", argv[1]);
+ dbprintf(_("no such command %s\n"), argv[1]);
return 0;
}
if (!ct->canpush) {
- dbprintf("no push form allowed for %s\n", argv[1]);
+ dbprintf(_("no push form allowed for %s\n"), argv[1]);
return 0;
}
}
static void
push_help(void)
{
- dbprintf(
+ dbprintf(_(
"\n"
" Allows you to push the current address and data type on the stack for\n"
" later return. 'push' also accepts an additional command to execute after\n"
" storing the current address (ex: 'push a rootino' from the superblock).\n"
"\n"
- );
+ ));
}
/* move forward through the ring */
char **argv)
{
if (ring_current == -1) {
- dbprintf("ring is empty\n");
+ dbprintf(_("ring is empty\n"));
return 0;
}
if (ring_current == ring_head) {
- dbprintf("no further entries\n");
+ dbprintf(_("no further entries\n"));
return 0;
}
static void
forward_help(void)
{
- dbprintf(
+ dbprintf(_(
"\n"
" The 'forward' ('f') command moves to the next location in the position\n"
" ring, updating the current position and data type. If the current location\n"
" is the top entry in the ring, then the 'forward' command will have\n"
" no effect.\n"
"\n"
- );
+ ));
}
/* move backwards through the ring */
char **argv)
{
if (ring_current == -1) {
- dbprintf("ring is empty\n");
+ dbprintf(_("ring is empty\n"));
return 0;
}
if (ring_current == ring_tail) {
- dbprintf("no previous entries\n");
+ dbprintf(_("no previous entries\n"));
return 0;
}
static void
back_help(void)
{
- dbprintf(
+ dbprintf(_(
"\n"
" The 'back' ('b') command moves to the previous location in the position\n"
" ring, updating the current position and data type. If the current location\n"
" is the last entry in the ring, then the 'back' command will have no effect.\n"
"\n"
- );
+ ));
}
/* show or go to specific point in ring */
return 0;
}
- index = (int)strtoul(argv[0], NULL, 0);
+ index = (int)strtoul(argv[1], NULL, 0);
if (index < 0 || index >= RING_ENTRIES)
- dbprintf("invalid entry: %d\n", index);
+ dbprintf(_("invalid entry: %d\n"), index);
ring_current = index;
static void
ring_help(void)
{
- dbprintf(
+ dbprintf(_(
"\n"
" The position ring automatically keeps track of each disk location and\n"
" structure type for each change of position you make during your xfs_db\n"
" Note: Unlike the 'stack', 'push' and 'pop' commands, the ring tracks your\n"
" location implicitly. Use the 'push' and 'pop' commands if you wish to\n"
" store a specific location explicitly for later return.\n"
-"\n",
+"\n"),
RING_ENTRIES);
}
bbno = bbmap->b[j];
if (lseek64(x.dfd, bbno << BBSHIFT, SEEK_SET) < 0) {
rval = errno;
- dbprintf("can't seek in filesystem at bb %lld\n", bbno);
+ dbprintf(_("can't seek in filesystem at bb %lld\n"), bbno);
return rval;
}
c = BBTOB(bbmap ? 1 : count);
bbno = bbmap->b[j];
if (lseek64(x.dfd, bbno << BBSHIFT, SEEK_SET) < 0) {
rval = errno;
- dbprintf("can't seek in filesystem at bb %lld\n", bbno);
+ dbprintf(_("can't seek in filesystem at bb %lld\n"), bbno);
if (*bufp == NULL)
xfree(buf);
buf = NULL;
int ret;
if (iocur_sp < 0) {
- dbprintf("nothing to write\n");
+ dbprintf(_("nothing to write\n"));
return;
}
ret = write_bbs(iocur_top->bb, iocur_top->blen, iocur_top->buf,
iocur_top->use_bbmap ? &iocur_top->bbmap : NULL);
if (ret == -1)
- dbprintf("incomplete write, block: %lld\n",
+ dbprintf(_("incomplete write, block: %lld\n"),
(iocur_base + iocur_sp)->bb);
else if (ret != 0)
- dbprintf("write error: %s\n", strerror(ret));
+ dbprintf(_("write error: %s\n"), strerror(ret));
/* re-read buffer from disk */
ret = read_bbs(iocur_top->bb, iocur_top->blen, &iocur_top->buf,
iocur_top->use_bbmap ? &iocur_top->bbmap : NULL);
if (ret == -1)
- dbprintf("incomplete read, block: %lld\n",
+ dbprintf(_("incomplete read, block: %lld\n"),
(iocur_base + iocur_sp)->bb);
else if (ret != 0)
- dbprintf("read error: %s\n", strerror(ret));
+ dbprintf(_("read error: %s\n"), strerror(ret));
}
void
__uint16_t mode;
if (iocur_sp < 0) {
- dbprintf("set_cur no stack element to set\n");
+ dbprintf(_("set_cur no stack element to set\n"));
return;
}
#ifdef DEBUG
if (bbmap)
- printf("xfs_db got a bbmap for %lld\n", (long long)d);
+ printf(_("xfs_db got a bbmap for %lld\n"), (long long)d);
#endif
ino = iocur_top->ino;
dirino = iocur_top->dirino;
static void
stack_help(void)
{
- dbprintf(
+ dbprintf(_(
"\n"
" The stack is used to explicitly store your location and data type\n"
" for later return. The 'push' operation stores the current address\n"
" The 'stack' allows explicit location saves, see 'ring' for implicit\n"
" position tracking.\n"
"\n"
- );
+ ));
}
/*ARGSUSED*/