-static char rcsid[] = "$Id: scsi-changer-driver.c,v 1.52.2.1 2006/11/01 13:55:55 martinea Exp $";
+static char rcsid[] = "$Id: scsi-changer-driver.c,v 1.52 2006/07/21 00:25:50 martinea Exp $";
/*
* Interface to control a tape robot/library connected to the SCSI bus
*
* Copyright (c) Thomas Hepper th@ant.han.de
*/
-#include <amanda.h>
+#include "amanda.h"
#include "arglist.h"
-/*
-#ifdef HAVE_STDIO_H
-*/
-#include <stdio.h>
-/*
-#endif
-*/
-#ifdef HAVE_STDLIB_H
-#include <stdlib.h>
-#endif
-#ifdef HAVE_FCNTL_H
-#include <fcntl.h>
-#endif
-#ifdef HAVE_ERRNO_H
-#include <errno.h>
-#endif
-#ifdef HAVE_STRING_H
-#include <string.h>
-#endif
-#ifdef HAVE_UNISTD_H
-#include <unistd.h>
-#endif
-#
-#ifdef STDC_HEADERS
-#include <stdarg.h>
-#else
-#include <varargs.h>
-#endif
#include "scsi-defs.h"
-#include "tapeio.h"
+#include "device.h"
extern FILE *debug_file;
extern changer_t *changer; /* Needed for the infos about emubarcode and labelfile */
char *chgscsi_label = NULL; /* Result pointer for tape_rdlabel */
char *chgscsi_result = NULL; /* Needed for the result string of MapBarCode */
+/*
+ * This used to be in tape-src/tapeio.c; this is the Device API version.
+ */
+
+static char *
+tape_rdlabel(
+ char *devname,
+ char **datestamp,
+ char **label)
+{
+ Device *dev;
+ char *r = NULL;
+
+ dev = device_open(devname);
+ if (dev->status != DEVICE_STATUS_SUCCESS) {
+ r = g_strdup(device_error_or_status(dev));
+ g_object_unref(dev);
+ return r;
+ }
+
+ if (!device_configure(dev, TRUE) || !device_read_label(dev)) {
+ r = g_strdup(device_error_or_status(dev));
+ g_object_unref(dev);
+ return r;
+ }
+
+ *datestamp = g_strdup(dev->volume_time);
+ *label = g_strdup(dev->volume_label);
+
+ return NULL;
+}
+
/*
* First all functions which are called from extern
*/
int count;
char *cwd;
- printf("# Please replace every ??? with the correct parameter. It is not possible\n");
- printf("# to guess everything :-)\n");
- printf("# If the option is not needed, cleanmax for example if you have no cleaning\n");
- printf("# tape remove the line.\n");
- printf("#\n");
- printf("number_configs 1 # Number of configs, you can have more than 1 config\n");
- printf(" # if you have for example more than one drive, or you\n");
- printf(" # to split your lib to use different dump levels\n");
- printf(" #\n");
- printf("emubarcode 1 # If you drive has no barcode reader this will try\n");
- printf(" # keep an inventory of your tapes to find them faster\n");
- printf(" #\n");
- printf("havebarcode 0 # Set this to 1 if you have an library with an installed\n");
- printf(" # barcode reader\n");
- printf(" #\n");
- printf("debuglevel 0:0 # For debuging, see the docs /docs/TAPE-CHANGER\n");
- printf(" #\n");
- printf("eject ??? # set this to 1 if your drive needs an eject before move\n");
- printf(" #\n");
- printf("sleep ??? # How long to wait after an eject command before moving\n");
- printf(" # the tape\n");
- printf(" #\n");
+ g_printf(_("# Please replace every ??? with the correct parameter.\n"));
+ g_printf(_("# It is not possible to guess everything :-)\n"));
+ g_printf(_("# Remove the line if the option is not needed."));
+ g_printf(_("# Example: cleanmax if you have no cleaning tape"));
+ g_printf(_("#\n"));
+ g_printf(_(
+ "number_configs 1 # Number of configs, you can have more than 1 config\n"
+ " # if you have for example more than one drive, or you\n"
+ " # to split your lib to use different dump levels\n"
+ " #\n"));
+ g_printf(_(
+ "emubarcode 1 # If you drive has no barcode reader this will try\n"
+ " # keep an inventory of your tapes to find them faster\n"
+ " #\n"));
+ g_printf(_(
+ "havebarcode 0 # Set this to 1 if you have a library with a\n"
+ " # barcode reader\n"
+ " #\n"));
+ g_printf(_(
+ "debuglevel 0:0 # For debuging, see the docs /docs/TAPE-CHANGER\n"
+ " #\n"));
+ g_printf(_(
+ "eject ??? # set this to 1 if your drive needs an eject before move\n"
+ " #\n"));
+ g_printf(_(
+ "sleep ??? # How long to wait after an eject command before moving\n"
+ " # the tape\n"
+ " #\n"));
for (count = 0; count < CHG_MAXDEV ; count++)
{
{
if (pDev[count].inquiry != NULL && pDev[count].inquiry->type == TYPE_CHANGER)
{
- printf("changerdev %s # This is the device to communicate with the robot\n", pDev[count].dev);
+ g_printf(_("changerdev %s # This is the device to communicate with the robot\n"), pDev[count].dev);
break;
}
}
{
pDev[count].functions->function_status(count, 1);
} else {
- printf("changerdev ??? # Ups nothing found. Please check the docs\n");
+ g_printf(_("changerdev ??? # Ups nothing found. Please check the docs\n"));
}
- printf(" #\n");
- printf(" # Here now comes the config for the first tape\n");
- printf("config 0 # This value is the one which is used in the amanda\n");
- printf(" # config file to tell the chg-scsi programm which tape\n");
- printf(" # and which slots to use\n");
- printf(" #\n");
- printf("cleancart ??? # The slot where the cleaning tape is located\n");
- printf(" # remove it if you have no cleaning tape\n");
- printf(" #\n");
- printf("drivenum 0 # Which tape drive to use if there are more than one drive\n");
- printf(" #\n");
- printf("dev ??? # Which is the raw device to read/write data from the tape\n");
- printf(" # It is important to use the non rewinding tape, like\n");
- printf(" # /dev/nrst0 on linux, /dev/nrsa0 on BSD ....\n");
- printf(" #\n");
+ g_printf(_(
+ " #\n"));
+ g_printf(_(
+ " # Here now comes the config for the first tape\n"));
+ g_printf(_(
+ "config 0 # This value is the one which is used in the amanda\n"
+ " # config file to tell the chg-scsi programm which tape\n"
+ " # and which slots to use\n"
+ " #\n"));
+ g_printf(_(
+ "cleancart ??? # The slot where the cleaning tape is located\n"
+ " # remove it if you have no cleaning tape\n"
+ " #\n"));
+ g_printf(_(
+ "drivenum 0 # Which tape drive to use if there are more than one drive\n"
+ " #\n"));
+ g_printf(_(
+ "dev ??? # Which is the raw device to read/write data from the tape\n"
+ " # It is important to use the non rewinding tape, like\n"
+ " # /dev/nrst0 on linux, /dev/nrsa0 on BSD ....\n"
+ " #\n"));
/*
* OK now lets see if we have an direct SCSI channel
{
if (pDev[count].inquiry != NULL && pDev[count].inquiry->type == TYPE_TAPE)
{
- printf("scsitapedev %s # This is the device to communicate with the tape\n", pDev[count].dev);
- printf(" # to get some device stats, not so importatn, and\n");
- printf(" # if you run in problems delete it complete\n");
- printf(" #\n");
+ g_printf(_(
+ "scsitapedev %s # This is the device to communicate with the tape\n"
+ " # to get some device stats, not so important, and\n"
+ " # if you run into problems delete it completely\n"
+ " #\n"), pDev[count].dev);
break;
}
}
if (STE != 0)
{
- printf("startuse 0 # Which is the first slot to use\n");
- printf(" #\n");
- printf("enduse " SIZE_T_FMT " # Which is the last slot to use\n", STE);
+ g_printf(_(
+ "startuse 0 # Which is the first slot to use\n"
+ " #\n"));
+ g_printf(_(
+ "enduse %zu # Which is the last slot to use.\n"), STE);
} else {
- printf("startuse ??? # Which is the first slot to use\n");
- printf(" #\n");
- printf("enduse ??? # Which is the last slot to use\n");
+ g_printf(_(
+ "startuse ??? # Which is the first slot to use\n"
+ " #\n"));
+ g_printf(_(
+ "enduse ??? # Which is the last slot to use.\n"));
}
- printf(" # decrement this value by 1 if you have an\n");
- printf(" # cleaning tape in the last slot\n");
- printf(" #\n");
+ g_printf(_(
+ " # Decrement this value by 1 if you have a\n"
+ " # cleaning tape in the last slot\n"
+ " #\n"));
if ((cwd = getcwd(NULL, 0)) == NULL) {
- cwd = "<unknown>";
+ cwd = _("<unknown>");
}
- printf("statfile %s/tape0-slot #\n",cwd);
- printf("cleanfile %s/tape0-clean #\n", cwd);
- printf("usagecount %s/tape0-totaltime #\n", cwd);
- printf("tapestatus %s/tape0-tapestatus #\n", cwd);
- printf("labelfile %s/labelfile #\n", cwd);
+ g_printf(_("statfile %s/tape0-slot #\n"),cwd);
+ g_printf(_("cleanfile %s/tape0-clean #\n"), cwd);
+ g_printf(_("usagecount %s/tape0-totaltime #\n"), cwd);
+ g_printf(_("tapestatus %s/tape0-tapestatus #\n"), cwd);
+ g_printf(_("labelfile %s/labelfile #\n"), cwd);
}
(void)start; /* Quiet unused parameter warning */
(void)stop; /* Quiet unused parameter warning */
- DebugPrint(DEBUG_INFO,SECTION_MAP_BARCODE, "##### START Inventory\n");
+ DebugPrint(DEBUG_INFO,SECTION_MAP_BARCODE, _("##### START Inventory\n"));
pbarcoderes = alloc(SIZEOF(MBC_T));
memset(pbarcoderes, 0 , SIZEOF(MBC_T));
if (inv_done != 0)
{
- DebugPrint(DEBUG_INFO,SECTION_MAP_BARCODE, "##### STOP inv_done -> %d Inventory\n",inv_done);
+ DebugPrint(DEBUG_INFO,SECTION_MAP_BARCODE, _("##### STOP inv_done -> %d Inventory\n"),inv_done);
free(pbarcoderes);
return;
/*NOTREACHED*/
*/
if (load(INDEX_CHANGER, drive, x ) != 0)
{
- DebugPrint(DEBUG_ERROR,SECTION_MAP_BARCODE, "Load drive(%d) from(%d) failed\n", drive, x);
+ DebugPrint(DEBUG_ERROR,SECTION_MAP_BARCODE, _("Load drive(%d) from(%d) failed\n"), drive, x);
continue;
}
MapBarCode(labelfile, pbarcoderes);
}
} else {
- DebugPrint(DEBUG_ERROR,SECTION_MAP_BARCODE, "Read label failed\n");
+ DebugPrint(DEBUG_ERROR,SECTION_MAP_BARCODE, _("Read label failed\n"));
}
if (eject)
(void)unload(INDEX_TAPE, drive, x);
}
- DebugPrint(DEBUG_INFO,SECTION_MAP_BARCODE, "##### STOP Inventory\n");
+ DebugPrint(DEBUG_INFO,SECTION_MAP_BARCODE, _("##### STOP Inventory\n"));
free(pbarcoderes);
}
int slot)
{
extern OpenFiles_T *pDev;
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### START isempty\n");
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,_("##### START isempty\n"));
if (ElementStatusValid == 0)
{
if ( pDev[fd].functions->function_status(fd, 1) != 0)
{
- DebugPrint(DEBUG_ERROR,SECTION_TAPE,"##### STOP isempty [-1]\n");
+ DebugPrint(DEBUG_ERROR,SECTION_TAPE,_("##### STOP isempty [-1]\n"));
return(-1);
/*NOTREACHED*/
}
if (pSTE[slot].status == 'E')
{
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### STOP isempty [1]\n");
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,_("##### STOP isempty [1]\n"));
return(1);
/*NOTREACHED*/
}
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### STOP isempty [0]\n");
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,_("##### STOP isempty [0]\n"));
return(0);
}
/* Return 1 if cleaning is needed */
int ret;
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### START get_clean_state\n");
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,_("##### START get_clean_state\n"));
if (pDev[INDEX_TAPECTL].SCSI == 0)
{
- DebugPrint(DEBUG_ERROR,SECTION_TAPE,"##### STOP get_clean_state [-1]\n");
+ DebugPrint(DEBUG_ERROR,SECTION_TAPE,_("##### STOP get_clean_state [-1]\n"));
return(-1);
/*NOTREACHED*/
}
ret=pDev[INDEX_TAPECTL].functions->function_clean(tapedev);
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### STOP get_clean_state [%d]\n", ret);
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,_("##### STOP get_clean_state [%d]\n"), ret);
return(ret);
}
extern OpenFiles_T *pDev;
int ret;
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### START eject_tape %s\n",tapedev);
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,_("##### START eject_tape %s\n"),tapedev);
if (pDev[INDEX_TAPECTL].functions == NULL)
return(-1);
{
DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### tape_eject eject\n");
ret=pDev[INDEX_TAPECTL].functions->function_eject(tapedev, type);
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### STOP (SCSI)eject_tape [%d]\n", ret);
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,_("##### STOP (SCSI)eject_tape [%d]\n"), ret);
return(ret);
/*NOTREACHED*/
}
if (pDev[INDEX_TAPE].avail == 1)
{
ret=Tape_Ioctl(INDEX_TAPE, IOCTL_EJECT);
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### STOP (ioctl)eject_tape [%d]\n", ret);
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,_("##### STOP (ioctl)eject_tape [%d]\n"), ret);
return(ret);
/*NOTREACHED*/
}
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### STOP eject_tape [-1]\n");
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,_("##### STOP eject_tape [-1]\n"));
return(-1);
}
size_t x;
size_t end;
- DebugPrint(DEBUG_INFO,SECTION_ELEMENT,"###### START find_empty\n");
+ DebugPrint(DEBUG_INFO,SECTION_ELEMENT,_("###### START find_empty\n"));
if (ElementStatusValid == 0)
{
if ( pDev[fd].functions->function_status(fd , 1) != 0)
{
DebugPrint(DEBUG_ERROR,SECTION_ELEMENT,
- "###### END find_empty [-1]\n");
+ _("###### END find_empty [-1]\n"));
return((ssize_t)-1);
/*NOTREACHED*/
}
}
DebugPrint(DEBUG_INFO, SECTION_ELEMENT,
- "start at " SIZE_T_FMT ", end at " SIZE_T_FMT "\n",
- (SIZE_T_FMT_TYPE)start,
- (SIZE_T_FMT_TYPE)end);
+ _("start at %zu, end at %zu\n"),
+ (size_t)start,
+ (size_t)end);
for (x = start; x < end; x++)
{
if (pSTE[x].status == 'E')
{
DebugPrint(DEBUG_INFO,SECTION_ELEMENT,
- "###### END find_empty [" SIZE_T_FMT "]\n", x);
+ _("###### END find_empty [%lu]\n"), x);
return((ssize_t)x);
/*NOTREACHED*/
}
}
- DebugPrint(DEBUG_ERROR,SECTION_ELEMENT,"###### END find_empty [-1]\n");
+ DebugPrint(DEBUG_ERROR,SECTION_ELEMENT,_("###### END find_empty [-1]\n"));
return((ssize_t)-1);
}
{
extern OpenFiles_T *pDev;
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"###### START drive_loaded\n");
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"%-20s : fd %d drivenum %d \n", "drive_loaded", fd, drivenum);
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,_("###### START drive_loaded\n"));
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,
+ _(" drive_loaded : fd %d drivenum %d \n"), fd, drivenum);
if (ElementStatusValid == 0)
{
if (pDev[INDEX_CHANGER].functions->function_status(INDEX_CHANGER, 1) != 0)
{
- DebugPrint(DEBUG_ERROR,SECTION_TAPE,"Fatal error\n");
+ DebugPrint(DEBUG_ERROR,SECTION_TAPE,_("Fatal error\n"));
return(-1);
/*NOTREACHED*/
}
}
if (pDTE[drivenum].status == 'E') {
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"###### STOP drive_loaded (empty)\n");
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,_("###### STOP drive_loaded (empty)\n"));
return(0);
/*NOTREACHED*/
}
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"###### STOP drive_loaded (not empty)\n");
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,_("###### STOP drive_loaded (not empty)\n"));
return(1);
}
extern int do_inventory;
MBC_T *pbarcoderes;
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"###### START unload\n");
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"%-20s : fd %d, slot %d, drive %d \n", "unload", fd, slot, drive);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("###### START unload\n"));
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,
+ _(" unload : fd %d, slot %d, drive %d \n"),
+ fd, slot, drive);
pbarcoderes = alloc(SIZEOF(MBC_T));
memset(pbarcoderes, 0, SIZEOF(MBC_T));
{
if (pDev[INDEX_CHANGER].functions->function_status(INDEX_CHANGER , 1) != 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"Element Status not valid, reset failed\n");
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP unload (-1)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,_("Element Status not valid, reset failed\n"));
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,_("##### STOP unload (-1)\n"));
free(pbarcoderes);
return(-1);
/*NOTREACHED*/
}
}
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"%-20s : unload drive %d[%d] slot %d[%d]\n", "unload",
- drive,
- pDTE[drive].address,
- slot,
- pSTE[slot].address);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,
+ _(" unload : unload drive %d[%d] slot %d[%d]\n"),
+ drive, pDTE[drive].address, slot, pSTE[slot].address);
/*
* Unloading an empty tape unit makes no sense
*/
if (pDTE[drive].status == 'E')
{
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"unload : Drive %d address %d is empty\n", drive, pDTE[drive].address);
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP unload (-1)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,_("unload : Drive %d address %d is empty\n"), drive, pDTE[drive].address);
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,_("##### STOP unload (-1)\n"));
free(pbarcoderes);
return(-1);
/*NOTREACHED*/
*/
if (pSTE[slot].status == 'F')
{
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"unload : Slot %d address %d is full\n", drive, pSTE[slot].address);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("unload : Slot %d address %d is full\n"), drive, pSTE[slot].address);
if ( ElementStatusValid == 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "unload: Element Status not valid, can't find an empty slot\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("unload: Element Status not valid, can't find an empty slot\n"));
free(pbarcoderes);
return(-1);
/*NOTREACHED*/
slot = find_empty(fd, 0, 0);
if (slot == -1 )
{
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "unload: No Empty slot found\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("unload: No Empty slot found\n"));
free(pbarcoderes);
return(-1);
/*NOTREACHED*/
}
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"unload : found empty one, try to unload to slot %d\n", slot);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("unload : found empty one, try to unload to slot %d\n"), slot);
}
*/
if (pDev[INDEX_CHANGER].functions->function_move(INDEX_CHANGER,
pDTE[drive].address, pSTE[slot].address) != 0) {
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP unload (-1 move failed)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,_("##### STOP unload (-1 move failed)\n"));
free(pbarcoderes);
return(-1);
/*NOTREACHED*/
*/
if (pDev[INDEX_CHANGER].functions->function_status(INDEX_CHANGER , 1) != 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP unload (-1 update status failed)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,_("##### STOP unload (-1 update status failed)\n"));
free(pbarcoderes);
return(-1);
/*NOTREACHED*/
} else {
if (slot != pbarcoderes->data.slot)
{
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"Slot DB out of sync, slot %d != map %d",slot, pbarcoderes->data.slot);
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,_("Slot DB out of sync, slot %d != map %d"),slot, pbarcoderes->data.slot);
do_inventory = 1;
}
}
}
}
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP unload(0)\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### STOP unload(0)\n"));
free(pbarcoderes);
return(0);
}
extern int do_inventory;
MBC_T *pbarcoderes;
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"###### START load\n");
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"%-20s : fd %d, drive %d, slot %d \n", "load", fd, drive, slot);
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("###### START load\n"));
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("%-20s : fd %d, drive %d, slot %d \n"), "load", fd, drive, slot);
pbarcoderes = alloc(SIZEOF(MBC_T));
memset(pbarcoderes, 0 , SIZEOF(MBC_T));
{
if (pDev[fd].functions->function_status(fd, 1) != 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"##### STOP load (-1)\n");
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"##### STOP load (-1 update status failed)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,_("##### STOP load (-1)\n"));
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,_("##### STOP load (-1 update status failed)\n"));
free(pbarcoderes);
return(-1);
/*NOTREACHED*/
*/
if ((size_t)slot >= STE)
{
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"load : slot %d ge STE %d\n",slot, STE);
- ChgExit("load", "slot >= STE", FATAL);
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,_("load : slot %d ge STE %d\n"),slot, STE);
+ ChgExit("load", _("slot >= STE"), FATAL);
/*NOTREACHED*/
}
*/
if (drive >= (int)DTE)
{
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"load : drive %d ge DTE %d\n",drive, DTE);
- ChgExit("load", "drive >= DTE", FATAL);
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,_("load : drive %d ge DTE %d\n"),drive, DTE);
+ ChgExit("load", _("drive >= DTE"), FATAL);
/*NOTREACHED*/
}
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"load : load drive %d[%d] slot %d[%d]\n",drive,
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("load : load drive %d[%d] slot %d[%d]\n"),drive,
pDTE[drive].address,
slot,
pSTE[slot].address);
if (pDTE[drive].status == 'F')
{
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"load : Drive %d address %d is full\n", drive, pDTE[drive].address);
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"##### STOP load (-1 update status failed)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,_("load : Drive %d address %d is full\n"), drive, pDTE[drive].address);
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,_("##### STOP load (-1 update status failed)\n"));
free(pbarcoderes);
return(-1);
/*NOTREACHED*/
if (pSTE[slot].status == 'E')
{
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"load : Slot %d address %d is empty\n", drive, pSTE[slot].address);
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"##### STOP load (-1 update status failed)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,_("load : Slot %d address %d is empty\n"), drive, pSTE[slot].address);
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,_("##### STOP load (-1 update status failed)\n"));
free(pbarcoderes);
return(-1);
/*NOTREACHED*/
*/
if (pDev[fd].functions->function_status(fd, 1) != 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"##### STOP load (-1 update status failed)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,_("##### STOP load (-1 update status failed)\n"));
free(pbarcoderes);
return(-1);
/*NOTREACHED*/
} else { /* We got something, is it correct ? */
if (slot != pbarcoderes->data.slot && do_inventory == 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"Slot DB out of sync, slot %d != map %d",slot, pbarcoderes->data.slot);
- ChgExit("Load", "Label DB out of sync", FATAL);
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,_("Slot DB out of sync, slot %d != map %d"),slot, pbarcoderes->data.slot);
+ ChgExit("Load", _("Label DB out of sync"), FATAL);
/*NOTREACHED*/
} else { /* OK, so increment the load count */
pbarcoderes->action = UPDATE_SLOT;
if (BarCode(INDEX_CHANGER) == 1 && changer->emubarcode == 1)
{
- ChgExit("Load", "BarCode == 1 and emubarcode == 1", FATAL);
+ ChgExit("Load", _("BarCode == 1 and emubarcode == 1"), FATAL);
/*NOTREACHED*/
}
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"##### STOP load (%d)\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("##### STOP load (%d)\n"),ret);
free(pbarcoderes);
return(ret);
/*NOTREACHED*/
}
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"##### STOP load (%d)\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("##### STOP load (%d)\n"),ret);
free(pbarcoderes);
return(ret);
}
{
extern OpenFiles_T *pDev;
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"###### START get_slot_count\n");
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"%-20s : fd %d\n", "get_slot_count", fd);
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("###### START get_slot_count\n"));
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("%-20s : fd %d\n"), "get_slot_count", fd);
if (ElementStatusValid == 0)
{
pDev[fd].functions->function_status(fd, 1);
}
DebugPrint(DEBUG_INFO, SECTION_ELEMENT,
- "##### STOP get_slot_count (" SIZE_T_FMT ")\n",
- (SIZE_T_FMT_TYPE)STE);
+ _("##### STOP get_slot_count (%zu)\n"), STE);
return((ssize_t)STE);
/*
* return the number of slots in the robot
extern OpenFiles_T *pDev;
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"###### START get_drive_count\n");
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-20s : fd %d\n", "get_drive_count", fd);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("###### START get_drive_count\n"));
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%-20s : fd %d\n"), "get_drive_count", fd);
if (ElementStatusValid == 0)
{
if ( pDev[fd].functions->function_status(fd, 1) != 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_SCSI, "Error getting drive count\n");
- DebugPrint(DEBUG_ERROR, SECTION_SCSI, "##### STOP get_drive_count (-1)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI, _("Error getting drive count\n"));
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI, _("##### STOP get_drive_count (-1)\n"));
return(-1);
/*NOTREACHED*/
}
}
DebugPrint(DEBUG_INFO, SECTION_SCSI,
- "###### STOP get_drive_count (" SIZE_T_FMT " drives)\n",
- (SIZE_T_FMT_TYPE)DTE);
+ _("###### STOP get_drive_count (%zu drives)\n"), DTE);
return((ssize_t)DTE);
}
if (!DeviceName)
return 1;
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START OpenDevice\n");
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"OpenDevice : %s\n", DeviceName);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### START OpenDevice\n"));
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("OpenDevice : %s\n"), DeviceName);
pDev[ip].ConfigName = strdup(ConfigName);
pDev[ip].dev = strdup(DeviceName);
{
pDev[ip].functions = p;
strncpy(pDev[ip].ident, ident, 17);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"override using ident = %s, type = %s\n",p->ident, p->type);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP OpenDevice\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("override using ident = %s, type = %s\n"),p->ident, p->type);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP OpenDevice\n"));
return(1);
/*NOTREACHED*/
}
p++;
}
- ChgExit("OpenDevice", "ident not found", FATAL);
+ ChgExit("OpenDevice", _("ident not found"), FATAL);
/*NOTREACHED*/
} else {
while(p->ident != NULL)
if (strcmp(pDev[ip].ident, p->ident) == 0)
{
pDev[ip].functions = p;
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"using ident = %s, type = %s\n",p->ident, p->type);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP OpenDevice\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("using ident = %s, type = %s\n"),p->ident, p->type);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP OpenDevice\n"));
return(1);
/*NOTREACHED*/
}
/* divide generic in generic_type, where type is the */
/* num returned by the inquiry command */
p = (ChangerCMD_T *)&ChangerIO;
- snprintf(&tmpstr[0], SIZEOF(tmpstr), "%s_%s","generic",pDev[0].type);
+ g_snprintf(&tmpstr[0], SIZEOF(tmpstr), "%s_%s","generic",pDev[0].type);
DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### OpenDevice trying GENERIC Device %s\n",tmpstr);
while(p->ident != NULL)
{
if (strcmp(tmpstr, p->ident) == 0)
{
pDev[ip].functions = p;
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"using ident = %s, type = %s\n",p->ident, p->type);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP OpenDevice\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("using ident = %s, type = %s\n"),p->ident, p->type);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP OpenDevice\n"));
return(1);
/*NOTREACHED*/
}
p++;
}
} else { /* Something failed, lets see what */
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"##### STOP OpenDevice failed\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("##### STOP OpenDevice failed\n"));
}
pDev[ip].functions = NULL;
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP OpenDevice (nothing found) !!\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP OpenDevice (nothing found) !!\n"));
return(0);
}
int ret;
extern OpenFiles_T *pDev;
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### START BarCode\n");
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"%-20s : fd %d\n", "BarCode", fd);
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("##### START BarCode\n"));
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("%-20s : fd %d\n"), "BarCode", fd);
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"Ident = [%s], function = [%s]\n", pDev[fd].ident,
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("Ident = [%s], function = [%s]\n"), pDev[fd].ident,
pDev[fd].functions->ident);
ret = pDev[fd].functions->function_barcode(fd);
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### STOP BarCode (%d)\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("##### STOP BarCode (%d)\n"),ret);
return(ret);
}
time_t cnt = 0;
RequestSense_T *pRequestSense;
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### START Tape_Ready\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### START Tape_Ready\n"));
/*
* Which device should we use to get the
if (pDev[fd].avail == 1 && pDev[fd].SCSI == 0)
{
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"Tape_Ready : Can't send SCSI commands, try ioctl\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("Tape_Ready : Can't send SCSI commands, try ioctl\n"));
/*
* Do we get an non negative result.
* If yes this function is available
{
if ( ret & TAPE_ONLINE)
{
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"Tape_Ready : Ready after %d seconds\n",cnt);
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP Tape_Ready\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("Tape_Ready : Ready after %d seconds\n"),cnt);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### STOP Tape_Ready\n"));
return(0);
/*NOTREACHED*/
}
ret = Tape_Status(fd);
}
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"Tape_Ready : not ready, stop after %d seconds\n",cnt);
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP Tape_Ready\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("Tape_Ready : not ready, stop after %d seconds\n"),cnt);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### STOP Tape_Ready\n"));
return(0);
/*NOTREACHED*/
}
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"Tape_Ready : no ioctl interface, will sleep for %d seconds\n", wait_time);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("Tape_Ready : no ioctl interface, will sleep for %d seconds\n"), wait_time);
sleep(wait_time);
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP Tape_Ready\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### STOP Tape_Ready\n"));
return(0);
/*NOTREACHED*/
}
switch (SenseHandler(fd, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_NO:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeReady (TestUnitReady) SENSE_NO\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("TapeReady (TestUnitReady) SENSE_NO\n"));
done = 1;
break;
case SENSE_TAPE_NOT_ONLINE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeReady (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("TapeReady (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n"));
break;
case SENSE_IGNORE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeReady (TestUnitReady) SENSE_IGNORE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("TapeReady (TestUnitReady) SENSE_IGNORE\n"));
done = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"TapeReady (TestUnitReady) SENSE_ABORT\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("TapeReady (TestUnitReady) SENSE_ABORT\n"));
amfree(pRequestSense);
return(-1);
/*NOTREACHED*/
case SENSE_RETRY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeReady (TestUnitReady) SENSE_RETRY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("TapeReady (TestUnitReady) SENSE_RETRY\n"));
break;
default:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeReady (TestUnitReady) default (SENSE)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("TapeReady (TestUnitReady) default (SENSE)\n"));
done = 1;
break;
}
break;
case SCSI_ERROR:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"TapeReady (TestUnitReady) SCSI_ERROR\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("TapeReady (TestUnitReady) SCSI_ERROR\n"));
free(pRequestSense);
return(-1);
/*NOTREACHED*/
case SCSI_BUSY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeReady (TestUnitReady) SCSI_BUSY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("TapeReady (TestUnitReady) SCSI_BUSY\n"));
break;
case SCSI_CHECK:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeReady (TestUnitReady) SCSI_CHECK\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("TapeReady (TestUnitReady) SCSI_CHECK\n"));
break;
default:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"TapeReady (TestUnitReady) unknown (%d)\n",ret);
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("TapeReady (TestUnitReady) unknown (%d)\n"),ret);
break;
}
sleep(1);
}
amfree(pRequestSense);
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"Tape_Ready after %d sec\n", cnt);
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP Tape_Ready\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("Tape_Ready after %d sec\n"), cnt);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### STOP Tape_Ready\n"));
return(0);
}
SC_COM_T *pSCSICommand;
int x;
- DebugPrint(DEBUG_INFO, SECTION_SCSI, "##### START DecodeSCSI\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI, _("##### START DecodeSCSI\n"));
pSCSICommand = (SC_COM_T *)&SCSICommand;
while (pSCSICommand->name != NULL)
{
if (CDB[0] == pSCSICommand->command)
{
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%s %s", string, pSCSICommand->name);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%s %s"), string, pSCSICommand->name);
for (x=0; x < pSCSICommand->length; x++)
{
DebugPrint(DEBUG_INFO, SECTION_SCSI," %02X", CDB[x]);
}
DebugPrint(DEBUG_INFO, SECTION_SCSI,"\n");
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP DecodeSCSI\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP DecodeSCSI\n"));
return(0);
/*NOTREACHED*/
}
pSCSICommand++;
}
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"Not found %X\n", CDB[0]);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP DecodeSCSI\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("Not found %X\n"), CDB[0]);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP DecodeSCSI\n"));
return(0);
}
(void)pstring; /* Quiet unused parameter warning */
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START DecodeModeSense\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### START DecodeModeSense\n"));
dump_hex(buffer, 255, DEBUG_INFO, SECTION_SCSI);
*/
buffer = buffer + 4 + offset;
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"buffer length = %d\n", length);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("buffer length = %d\n"), length);
if (block) /* Do we have an block descriptor page ?*/
{
if (out != NULL)
- fprintf(out, "DecodeModeSense : Density Code %x\n", (unsigned)buffer[0]);
+ g_fprintf(out, _("DecodeModeSense : Density Code %x\n"), (unsigned)buffer[0]);
buffer++;
if (out != NULL)
- fprintf(out, "DecodeModeSense : Number of Blocks %d\n", V3(buffer));
+ g_fprintf(out, _("DecodeModeSense : Number of Blocks %d\n"), V3(buffer));
buffer = buffer + 4;
if (out != NULL)
- fprintf(out, "DecodeModeSense : Block Length %d\n", V3(buffer));
+ g_fprintf(out, _("DecodeModeSense : Block Length %d\n"), V3(buffer));
buffer = buffer + 3;
}
prp = (ReadWriteErrorRecoveryPage_T *)buffer;
if (out != NULL)
{
- fprintf(out, "DecodeModeSense : Read/Write Error Recovery Page\n");
- fprintf(out,"\tTransfer Block %d\n", prp->tb);
- fprintf(out,"\tEnable Early Recovery %d\n", prp->eer);
- fprintf(out,"\tPost Error %d\n", prp->per);
- fprintf(out,"\tDisable Transfer on Error %d\n", prp->dte);
- fprintf(out,"\tDisable ECC Correction %d\n", prp->dcr);
- fprintf(out,"\tRead Retry Count %d\n", prp->ReadRetryCount);
- fprintf(out,"\tWrite Retry Count %d\n", prp->WriteRetryCount);
+ g_fprintf(out, _("DecodeModeSense : Read/Write Error Recovery Page\n"));
+ g_fprintf(out,_("\tTransfer Block %d\n"), prp->tb);
+ g_fprintf(out,_("\tEnable Early Recovery %d\n"), prp->eer);
+ g_fprintf(out,_("\tPost Error %d\n"), prp->per);
+ g_fprintf(out,_("\tDisable Transfer on Error %d\n"), prp->dte);
+ g_fprintf(out,_("\tDisable ECC Correction %d\n"), prp->dcr);
+ g_fprintf(out,_("\tRead Retry Count %d\n"), prp->ReadRetryCount);
+ g_fprintf(out,_("\tWrite Retry Count %d\n"), prp->WriteRetryCount);
}
buffer++;
break;
pdrp = (DisconnectReconnectPage_T *)buffer;
if (out != NULL)
{
- fprintf(out, "DecodeModeSense : Disconnect/Reconnect Page\n");
- fprintf(out,"\tBuffer Full Ratio %d\n", pdrp->BufferFullRatio);
- fprintf(out,"\tBuffer Empty Ratio %d\n", pdrp->BufferEmptyRatio);
- fprintf(out,"\tBus Inactivity Limit %d\n",
+ g_fprintf(out, _("DecodeModeSense : Disconnect/Reconnect Page\n"));
+ g_fprintf(out,_("\tBuffer Full Ratio %d\n"), pdrp->BufferFullRatio);
+ g_fprintf(out,_("\tBuffer Empty Ratio %d\n"), pdrp->BufferEmptyRatio);
+ g_fprintf(out,_("\tBus Inactivity Limit %d\n"),
V2(pdrp->BusInactivityLimit));
- fprintf(out,"\tDisconnect Time Limit %d\n",
+ g_fprintf(out,_("\tDisconnect Time Limit %d\n"),
V2(pdrp->DisconnectTimeLimit));
- fprintf(out,"\tConnect Time Limit %d\n",
+ g_fprintf(out,_("\tConnect Time Limit %d\n"),
V2(pdrp->ConnectTimeLimit));
- fprintf(out,"\tMaximum Burst Size %d\n",
+ g_fprintf(out,_("\tMaximum Burst Size %d\n"),
V2(pdrp->MaximumBurstSize));
- fprintf(out,"\tDTDC %d\n", pdrp->DTDC);
+ g_fprintf(out,_("\tDTDC %d\n"), pdrp->DTDC);
}
buffer++;
break;
pEAAPage = (EAAPage_T *)buffer;
if (out != NULL)
{
- fprintf(out,"DecodeModeSense : Element Address Assignment Page\n");
- fprintf(out,"\tMedium Transport Element Address %d\n",
+ g_fprintf(out,_("DecodeModeSense : Element Address Assignment Page\n"));
+ g_fprintf(out,_("\tMedium Transport Element Address %d\n"),
V2(pEAAPage->MediumTransportElementAddress));
- fprintf(out,"\tNumber of Medium Transport Elements %d\n",
+ g_fprintf(out,_("\tNumber of Medium Transport Elements %d\n"),
V2(pEAAPage->NoMediumTransportElements));
- fprintf(out, "\tFirst Storage Element Address %d\n",
+ g_fprintf(out, _("\tFirst Storage Element Address %d\n"),
V2(pEAAPage->FirstStorageElementAddress));
- fprintf(out, "\tNumber of Storage Elements %d\n",
+ g_fprintf(out, _("\tNumber of Storage Elements %d\n"),
V2(pEAAPage->NoStorageElements));
- fprintf(out, "\tFirst Import/Export Element Address %d\n",
+ g_fprintf(out, _("\tFirst Import/Export Element Address %d\n"),
V2(pEAAPage->FirstImportExportElementAddress));
- fprintf(out, "\tNumber of ImportExport Elements %d\n",
+ g_fprintf(out, _("\tNumber of ImportExport Elements %d\n"),
V2(pEAAPage->NoImportExportElements));
- fprintf(out, "\tFirst Data Transfer Element Address %d\n",
+ g_fprintf(out, _("\tFirst Data Transfer Element Address %d\n"),
V2(pEAAPage->FirstDataTransferElementAddress));
- fprintf(out, "\tNumber of Data Transfer Elements %d\n",
+ g_fprintf(out, _("\tNumber of Data Transfer Elements %d\n"),
V2(pEAAPage->NoDataTransferElements));
}
buffer++;
pDeviceCapabilitiesPage = (DeviceCapabilitiesPage_T *)buffer;
if (out != NULL)
{
- fprintf(out, "DecodeModeSense : MT can store data cartridges %d\n",
+ g_fprintf(out, _("DecodeModeSense : MT can store data cartridges %d\n"),
pDeviceCapabilitiesPage->MT);
- fprintf(out, "DecodeModeSense : ST can store data cartridges %d\n",
+ g_fprintf(out, _("DecodeModeSense : ST can store data cartridges %d\n"),
pDeviceCapabilitiesPage->ST);
- fprintf(out, "DecodeModeSense : IE can store data cartridges %d\n",
+ g_fprintf(out, _("DecodeModeSense : IE can store data cartridges %d\n"),
pDeviceCapabilitiesPage->IE);
- fprintf(out, "DecodeModeSense : DT can store data cartridges %d\n",
+ g_fprintf(out, _("DecodeModeSense : DT can store data cartridges %d\n"),
pDeviceCapabilitiesPage->DT);
- fprintf(out, "DecodeModeSense : MT to MT %d\n",
+ g_fprintf(out, _("DecodeModeSense : MT to MT %d\n"),
pDeviceCapabilitiesPage->MT2MT);
- fprintf(out, "DecodeModeSense : MT to ST %d\n",
+ g_fprintf(out, _("DecodeModeSense : MT to ST %d\n"),
pDeviceCapabilitiesPage->MT2ST);
- fprintf(out, "DecodeModeSense : MT to IE %d\n",
+ g_fprintf(out, _("DecodeModeSense : MT to IE %d\n"),
pDeviceCapabilitiesPage->MT2IE);
- fprintf(out, "DecodeModeSense : MT to DT %d\n",
+ g_fprintf(out, _("DecodeModeSense : MT to DT %d\n"),
pDeviceCapabilitiesPage->MT2DT);
- fprintf(out, "DecodeModeSense : ST to MT %d\n",
+ g_fprintf(out, _("DecodeModeSense : ST to MT %d\n"),
pDeviceCapabilitiesPage->ST2ST);
- fprintf(out, "DecodeModeSense : ST to MT %d\n",
+ g_fprintf(out, _("DecodeModeSense : ST to MT %d\n"),
pDeviceCapabilitiesPage->ST2ST);
- fprintf(out, "DecodeModeSense : ST to DT %d\n",
+ g_fprintf(out, _("DecodeModeSense : ST to DT %d\n"),
pDeviceCapabilitiesPage->ST2DT);
- fprintf(out, "DecodeModeSense : IE to MT %d\n",
+ g_fprintf(out, _("DecodeModeSense : IE to MT %d\n"),
pDeviceCapabilitiesPage->IE2MT);
- fprintf(out, "DecodeModeSense : IE to ST %d\n",
+ g_fprintf(out, _("DecodeModeSense : IE to ST %d\n"),
pDeviceCapabilitiesPage->IE2IE);
- fprintf(out, "DecodeModeSense : IE to ST %d\n",
+ g_fprintf(out, _("DecodeModeSense : IE to ST %d\n"),
pDeviceCapabilitiesPage->IE2DT);
- fprintf(out, "DecodeModeSense : IE to ST %d\n",
+ g_fprintf(out, _("DecodeModeSense : IE to ST %d\n"),
pDeviceCapabilitiesPage->IE2DT);
- fprintf(out, "DecodeModeSense : DT to MT %d\n",
+ g_fprintf(out, _("DecodeModeSense : DT to MT %d\n"),
pDeviceCapabilitiesPage->DT2MT);
- fprintf(out, "DecodeModeSense : DT to ST %d\n",
+ g_fprintf(out, _("DecodeModeSense : DT to ST %d\n"),
pDeviceCapabilitiesPage->DT2ST);
- fprintf(out, "DecodeModeSense : DT to IE %d\n",
+ g_fprintf(out, _("DecodeModeSense : DT to IE %d\n"),
pDeviceCapabilitiesPage->DT2IE);
- fprintf(out, "DecodeModeSense : DT to DT %d\n",
+ g_fprintf(out, _("DecodeModeSense : DT to DT %d\n"),
pDeviceCapabilitiesPage->DT2DT);
}
buffer++;
return(0);
/*NOTREACHED*/
}
- fprintf(out,"##### START DecodeSense\n");
- fprintf(out,"%sSense Keys\n", pstring);
+ g_fprintf(out,_("##### START DecodeSense\n"));
+ g_fprintf(out,_("%sSense Keys\n"), pstring);
if (sense->ErrorCode == 0x70)
{
- fprintf(out,"\tExtended Sense \n");
+ g_fprintf(out,_("\tExtended Sense \n"));
} else {
- fprintf(out,"\tErrorCode %02x\n", sense->ErrorCode);
- fprintf(out,"\tValid %d\n", sense->Valid);
+ g_fprintf(out,_("\tErrorCode %02x\n"), sense->ErrorCode);
+ g_fprintf(out,_("\tValid %d\n"), sense->Valid);
}
- fprintf(out,"\tASC %02X\n", sense->AdditionalSenseCode);
- fprintf(out,"\tASCQ %02X\n", sense->AdditionalSenseCodeQualifier);
- fprintf(out,"\tSense key %02X\n", sense->SenseKey);
+ g_fprintf(out,_("\tASC %02X\n"), sense->AdditionalSenseCode);
+ g_fprintf(out,_("\tASCQ %02X\n"), sense->AdditionalSenseCodeQualifier);
+ g_fprintf(out,_("\tSense key %02X\n"), sense->SenseKey);
switch (sense->SenseKey)
{
case 0:
- fprintf(out,"\t\tNo Sense\n");
+ g_fprintf(out,_("\t\tNo Sense\n"));
break;
case 1:
- fprintf(out,"\t\tRecoverd Error\n");
+ g_fprintf(out,_("\t\tRecoverd Error\n"));
break;
case 2:
- fprintf(out,"\t\tNot Ready\n");
+ g_fprintf(out,_("\t\tNot Ready\n"));
break;
case 3:
- fprintf(out,"\t\tMedium Error\n");
+ g_fprintf(out,_("\t\tMedium Error\n"));
break;
case 4:
- fprintf(out,"\t\tHardware Error\n");
+ g_fprintf(out,_("\t\tHardware Error\n"));
break;
case 5:
- fprintf(out,"\t\tIllegal Request\n");
+ g_fprintf(out,_("\t\tIllegal Request\n"));
break;
case 6:
- fprintf(out,"\t\tUnit Attention\n");
+ g_fprintf(out,_("\t\tUnit Attention\n"));
break;
case 7:
- fprintf(out,"\t\tData Protect\n");
+ g_fprintf(out,_("\t\tData Protect\n"));
break;
case 8:
- fprintf(out,"\t\tBlank Check\n");
+ g_fprintf(out,_("\t\tBlank Check\n"));
break;
case 9:
- fprintf(out,"\t\tVendor uniq\n");
+ g_fprintf(out,_("\t\tVendor uniq\n"));
break;
case 0xa:
- fprintf(out,"\t\tCopy Aborted\n");
+ g_fprintf(out,_("\t\tCopy Aborted\n"));
break;
case 0xb:
- fprintf(out,"\t\tAborted Command\n");
+ g_fprintf(out,_("\t\tAborted Command\n"));
break;
case 0xc:
- fprintf(out,"\t\tEqual\n");
+ g_fprintf(out,_("\t\tEqual\n"));
break;
case 0xd:
- fprintf(out,"\t\tVolume Overflow\n");
+ g_fprintf(out,_("\t\tVolume Overflow\n"));
break;
case 0xe:
- fprintf(out,"\t\tMiscompare\n");
+ g_fprintf(out,_("\t\tMiscompare\n"));
break;
case 0xf:
- fprintf(out,"\t\tReserved\n");
+ g_fprintf(out,_("\t\tReserved\n"));
break;
}
return(0);
{
ExtendedRequestSense_T *p;
- fprintf(out,"##### START DecodeExtSense\n");
+ g_fprintf(out,_("##### START DecodeExtSense\n"));
p = sense;
- fprintf(out,"%sExtended Sense\n", pstring);
+ g_fprintf(out,_("%sExtended Sense\n"), pstring);
DecodeSense((RequestSense_T *)p, pstring, out);
- fprintf(out,"\tLog Parameter Page Code %02X\n", sense->LogParameterPageCode);
- fprintf(out,"\tLog Parameter Code %02X\n", sense->LogParameterCode);
- fprintf(out,"\tUnderrun/Overrun Counter %02X\n", sense->UnderrunOverrunCounter);
- fprintf(out,"\tRead/Write Error Counter %d\n", V3((char *)sense->ReadWriteDataErrorCounter));
+ g_fprintf(out,_("\tLog Parameter Page Code %02X\n"), sense->LogParameterPageCode);
+ g_fprintf(out,_("\tLog Parameter Code %02X\n"), sense->LogParameterCode);
+ g_fprintf(out,_("\tUnderrun/Overrun Counter %02X\n"), sense->UnderrunOverrunCounter);
+ g_fprintf(out,_("\tRead/Write Error Counter %d\n"), V3((char *)sense->ReadWriteDataErrorCounter));
if (sense->AdditionalSenseLength > (u_char)sizeof(RequestSense_T))
{
if (sense->PF)
- fprintf(out,"\tPower Fail\n");
+ g_fprintf(out,_("\tPower Fail\n"));
if (sense->BPE)
- fprintf(out,"\tSCSI Bus Parity Error\n");
+ g_fprintf(out,_("\tSCSI Bus Parity Error\n"));
if (sense->FPE)
- fprintf(out,"\tFormatted Buffer parity Error\n");
+ g_fprintf(out,_("\tFormatted Buffer parity Error\n"));
if (sense->ME)
- fprintf(out,"\tMedia Error\n");
+ g_fprintf(out,_("\tMedia Error\n"));
if (sense->ECO)
- fprintf(out,"\tError Counter Overflow\n");
+ g_fprintf(out,_("\tError Counter Overflow\n"));
if (sense->TME)
- fprintf(out,"\tTapeMotion Error\n");
+ g_fprintf(out,_("\tTapeMotion Error\n"));
if (sense->TNP)
- fprintf(out,"\tTape Not Present\n");
+ g_fprintf(out,_("\tTape Not Present\n"));
if (sense->LBOT)
- fprintf(out,"\tLogical Beginning of tape\n");
+ g_fprintf(out,_("\tLogical Beginning of tape\n"));
if (sense->TMD)
- fprintf(out,"\tTape Mark Detect Error\n");
+ g_fprintf(out,_("\tTape Mark Detect Error\n"));
if (sense->WP)
- fprintf(out,"\tWrite Protect\n");
+ g_fprintf(out,_("\tWrite Protect\n"));
if (sense->FMKE)
- fprintf(out,"\tFilemark Error\n");
+ g_fprintf(out,_("\tFilemark Error\n"));
if (sense->URE)
- fprintf(out,"\tUnder Run Error\n");
+ g_fprintf(out,_("\tUnder Run Error\n"));
if (sense->WEI)
- fprintf(out,"\tWrite Error 1\n");
+ g_fprintf(out,_("\tWrite Error 1\n"));
if (sense->SSE)
- fprintf(out,"\tServo System Error\n");
+ g_fprintf(out,_("\tServo System Error\n"));
if (sense->FE)
- fprintf(out,"\tFormatter Error\n");
+ g_fprintf(out,_("\tFormatter Error\n"));
if (sense->UCLN)
- fprintf(out,"\tCleaning Cartridge is empty\n");
+ g_fprintf(out,_("\tCleaning Cartridge is empty\n"));
if (sense->RRR)
- fprintf(out,"\tReverse Retries Required\n");
+ g_fprintf(out,_("\tReverse Retries Required\n"));
if (sense->CLND)
- fprintf(out,"\tTape Drive has been cleaned\n");
+ g_fprintf(out,_("\tTape Drive has been cleaned\n"));
if (sense->CLN)
- fprintf(out,"\tTape Drive needs to be cleaned\n");
+ g_fprintf(out,_("\tTape Drive needs to be cleaned\n"));
if (sense->PEOT)
- fprintf(out,"\tPhysical End of Tape\n");
+ g_fprintf(out,_("\tPhysical End of Tape\n"));
if (sense->WSEB)
- fprintf(out,"\tWrite Splice Error\n");
+ g_fprintf(out,_("\tWrite Splice Error\n"));
if (sense->WSEO)
- fprintf(out,"\tWrite Splice Error\n");
- fprintf(out,"\tRemaing 1024 byte tape blocks %d\n", V3((char *)sense->RemainingTape));
- fprintf(out,"\tTracking Retry Counter %02X\n", sense->TrackingRetryCounter);
- fprintf(out,"\tRead/Write Retry Counter %02X\n", sense->ReadWriteRetryCounter);
- fprintf(out,"\tFault Sympton Code %02X\n", sense->FaultSymptomCode);
+ g_fprintf(out,_("\tWrite Splice Error\n"));
+ g_fprintf(out,_("\tRemaing 1024 byte tape blocks %d\n"), V3((char *)sense->RemainingTape));
+ g_fprintf(out,_("\tTracking Retry Counter %02X\n"), sense->TrackingRetryCounter);
+ g_fprintf(out,_("\tRead/Write Retry Counter %02X\n"), sense->ReadWriteRetryCounter);
+ g_fprintf(out,_("\tFault Sympton Code %02X\n"), sense->FaultSymptomCode);
}
return(0);
}
PrintInquiry(
SCSIInquiry_T * SCSIInquiry)
{
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START PrintInquiry\n");
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-15s %x\n", "qualifier", SCSIInquiry->qualifier);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-15s %x\n", "type", SCSIInquiry->type);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-15s %x\n", "data_format", SCSIInquiry->data_format);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-15s %X\n", "ansi_version", SCSIInquiry->ansi_version);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-15s %X\n", "ecma_version", SCSIInquiry->ecma_version);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-15s %X\n", "iso_version", SCSIInquiry->iso_version);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-15s %X\n", "type_modifier", SCSIInquiry->type_modifier);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-15s %x\n", "removable", SCSIInquiry->removable);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-15s %.8s\n", "vendor_info", SCSIInquiry->vendor_info);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-15s %.16s\n", "prod_ident", SCSIInquiry->prod_ident);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-15s %.4s\n", "prod_version", SCSIInquiry->prod_version);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-15s %.19s\n", "vendor_specific", SCSIInquiry->vendor_specific);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### START PrintInquiry\n"));
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%-15s %x\n"), "qualifier", SCSIInquiry->qualifier);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%-15s %x\n"), "type", SCSIInquiry->type);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%-15s %x\n"), "data_format", SCSIInquiry->data_format);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%-15s %X\n"), "ansi_version", SCSIInquiry->ansi_version);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%-15s %X\n"), "ecma_version", SCSIInquiry->ecma_version);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%-15s %X\n"), "iso_version", SCSIInquiry->iso_version);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%-15s %X\n"), "type_modifier", SCSIInquiry->type_modifier);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%-15s %x\n"), "removable", SCSIInquiry->removable);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%-15s %.8s\n"), "vendor_info", SCSIInquiry->vendor_info);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%-15s %.16s\n"), "prod_ident", SCSIInquiry->prod_ident);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%-15s %.4s\n"), "prod_version", SCSIInquiry->prod_version);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("%-15s %.19s\n"), "vendor_specific", SCSIInquiry->vendor_specific);
return(0);
}
int
DoNothing0(void)
{
- dbprintf(("##### START DoNothing\n"));
+ dbprintf(_("##### START DoNothing\n"));
return(0);
}
{
(void)unused1; /* Quiet unused parameter warning */
- dbprintf(("##### START DoNothing\n"));
+ dbprintf(_("##### START DoNothing\n"));
return(0);
}
(void)unused1; /* Quiet unused parameter warning */
(void)unused2; /* Quiet unused parameter warning */
- dbprintf(("##### START DoNothing\n"));
+ dbprintf(_("##### START DoNothing\n"));
return(0);
}
(void)unused2; /* Quiet unused parameter warning */
(void)unused3; /* Quiet unused parameter warning */
- dbprintf(("##### START DoNothing\n"));
+ dbprintf(_("##### START DoNothing\n"));
return(0);
}
int
GenericFree(void)
{
- dbprintf(("##### START GenericFree\n"));
+ dbprintf(_("##### START GenericFree\n"));
return(0);
}
int
GenericSearch(void)
{
- dbprintf(("##### START GenericSearch\n"));
+ dbprintf(_("##### START GenericSearch\n"));
return(0);
}
ModePageTreeFrogVendorUnique_T *pVendor;
- dbprintf(("##### START TreeFrogBarCode\n"));
+ dbprintf(_("##### START TreeFrogBarCode\n"));
if (pModePage == NULL)
{
pModePage = alloc(0xff);
if (SCSI_ModeSense(DeviceFD, pModePage, 0xff, 0x0, 0x3f) == 0)
{
- DecodeModeSense(pModePage, 0, "TreeFrogBarCode :", 0, debug_file);
+ DecodeModeSense(pModePage, 0, _("TreeFrogBarCode :"), 0, debug_file);
if (pVendorUnique == NULL)
{
- dbprintf(("TreeFrogBarCode : no pVendorUnique\n"));
+ dbprintf(_("TreeFrogBarCode : no pVendorUnique\n"));
return(0);
/*NOTREACHED*/
}
pVendor = ( ModePageTreeFrogVendorUnique_T *)pVendorUnique;
- dbprintf(("TreeFrogBarCode : EBARCO %d\n", pVendor->EBARCO));
- dbprintf(("TreeFrogCheckSum : CHKSUM %d\n", pVendor->CHKSUM));
+ dbprintf(_("TreeFrogBarCode : EBARCO %d\n"), pVendor->EBARCO);
+ dbprintf(_("TreeFrogCheckSum : CHKSUM %d\n"), pVendor->CHKSUM);
dump_hex((u_char *)pDev[INDEX_CHANGER].inquiry, INQUIRY_SIZE, DEBUG_INFO, SECTION_ELEMENT);
return(pVendor->EBARCO);
ModePageEXB120VendorUnique_T *pVendor;
ModePageEXB120VendorUnique_T *pVendorWork;
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### START EXB_BarCode\n");
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("##### START EXB_BarCode\n"));
if (pModePage == NULL && LibModeSenseValid == 0)
{
pModePage = alloc(0xff);
if (SCSI_ModeSense(DeviceFD, pModePage, 0xff, 0x8, 0x3f) == 0)
{
- DecodeModeSense(pModePage, 0, "EXB_BarCode :", 0, debug_file);
+ DecodeModeSense(pModePage, 0, _("EXB_BarCode :"), 0, debug_file);
LibModeSenseValid = 1;
} else {
LibModeSenseValid = -1;
{
if (pVendorUnique == NULL)
{
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"EXB_BarCode : no pVendorUnique\n");
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("EXB_BarCode : no pVendorUnique\n"));
return(0);
/*NOTREACHED*/
}
pVendor = ( ModePageEXB120VendorUnique_T *)pVendorUnique;
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"EXB_BarCode : NBL %d\n", pVendor->NBL);
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"EXB_BarCode : PS %d\n", pVendor->PS);
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("EXB_BarCode : NBL %d\n"), pVendor->NBL);
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("EXB_BarCode : PS %d\n"), pVendor->PS);
if (pVendor->NBL == 1 && pVendor->PS == 1 )
{
pVendorWork = alloc((size_t)pVendor->ParameterListLength + 2);
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"EXB_BarCode : setting NBL to 1\n");
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("EXB_BarCode : setting NBL to 1\n"));
memcpy(pVendorWork, pVendor, (size_t)pVendor->ParameterListLength + 2);
pVendorWork->NBL = 0;
pVendorWork->PS = 0;
pVendorWork->RSVD0 = 0;
if (SCSI_ModeSelect(DeviceFD, (u_char *)pVendorWork, (u_char)(pVendorWork->ParameterListLength + 2), 0, 1, 0) == 0)
{
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"EXB_BarCode : SCSI_ModeSelect OK\n");
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("EXB_BarCode : SCSI_ModeSelect OK\n"));
/* Hack !!!!!!
*/
pVendor->NBL = 0;
*/
GenericResetStatus(DeviceFD);
} else {
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"EXB_BarCode : SCSI_ModeSelect failed\n");
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("EXB_BarCode : SCSI_ModeSelect failed\n"));
}
amfree(pVendorWork);
}
dump_hex((u_char *)pDev[INDEX_CHANGER].inquiry, INQUIRY_SIZE, DEBUG_INFO, SECTION_BARCODE);
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"EXB_BarCode : vendor_specific[19] %x\n",
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("EXB_BarCode : vendor_specific[19] %x\n"),
pDev[INDEX_CHANGER].inquiry->vendor_specific[19]);
}
return(1);
{
(void)DeviceFD; /* Quiet unused parameter warning */
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### START NoBarCode\n");
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### STOP NoBarCode\n");
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("##### START NoBarCode\n"));
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("##### STOP NoBarCode\n"));
return(0);
}
{
(void)DeviceFD; /* Quiet unused parameter warning */
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### START GenericBarCode\n");
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("##### START GenericBarCode\n"));
if ( changer->havebarcode >= 1)
{
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### STOP GenericBarCode (havebarcode) => %d\n",changer->havebarcode);
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("##### STOP GenericBarCode (havebarcode) => %d\n"),changer->havebarcode);
return(1);
/*NOTREACHED*/
}
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### STOP GenericBarCode => 0\n");
+ DebugPrint(DEBUG_INFO, SECTION_BARCODE,_("##### STOP GenericBarCode => 0\n"));
return(0);
}
{
extern OpenFiles_T *pDev;
int ret = 0;
- dbprintf(("##### START SenseHandler\n"));
+ dbprintf(_("##### START SenseHandler\n"));
if (pDev[DeviceFD].inqdone == 1)
{
- dbprintf(("Ident = [%s], function = [%s]\n", pDev[DeviceFD].ident,
- pDev[DeviceFD].functions->ident));
+ dbprintf(_("Ident = [%s], function = [%s]\n"), pDev[DeviceFD].ident,
+ pDev[DeviceFD].functions->ident);
ret = pDev[DeviceFD].functions->function_error(DeviceFD, flag, SenseKey, AdditionalSenseCode, AdditionalSenseCodeQualifier, buffer);
} else {
- dbprintf((" Ups no sense\n"));
+ dbprintf(_(" Ups no sense\n"));
}
- dbprintf(("#### STOP SenseHandler\n"));
+ dbprintf(_("#### STOP SenseHandler\n"));
return(ret);
}
int cnt;
RequestSense_T *pRequestSense;
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### START TapeStatus\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### START TapeStatus\n"));
/*
* If it is an device which understand SCSI commands the
for (done = 0, cnt = 0; !done && (cnt < 60); cnt++)
{
ret = SCSI_TestUnitReady(INDEX_TAPECTL, pRequestSense);
- DebugPrint(DEBUG_INFO, SECTION_SCSI, "TapeStatus TestUnitReady ret %d\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI, _("TapeStatus TestUnitReady ret %d\n"),ret);
switch (ret)
{
case SCSI_OK:
{
case SENSE_IGNORE:
case SENSE_NO:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeStatus (TestUnitReady) SENSE_NO\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("TapeStatus (TestUnitReady) SENSE_NO\n"));
pDTE[0].status = 'F';
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### FULL\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### FULL\n"));
done = 1;
break;
case SENSE_TAPE_NOT_ONLINE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeStatus (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("TapeStatus (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n"));
pDTE[0].status = 'E';
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### EMPTY\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### EMPTY\n"));
done = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"TapeStatus (TestUnitReady) SENSE_ABORT\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("TapeStatus (TestUnitReady) SENSE_ABORT\n"));
done = 1;
break;
case SENSE_RETRY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeStatus (TestUnitReady) SENSE_RETRY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("TapeStatus (TestUnitReady) SENSE_RETRY\n"));
break;
default:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeStatus (TestUnitReady) default (SENSE)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("TapeStatus (TestUnitReady) default (SENSE)\n"));
break;
}
break;
case SCSI_ERROR:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"TapeStatus (TestUnitReady) SCSI_ERROR\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("TapeStatus (TestUnitReady) SCSI_ERROR\n"));
done = 1;
break;
case SCSI_BUSY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeStatus (TestUnitReady) SCSI_BUSY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("TapeStatus (TestUnitReady) SCSI_BUSY\n"));
break;
case SCSI_CHECK:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeStatus (TestUnitReady) SCSI_CHECK\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("TapeStatus (TestUnitReady) SCSI_CHECK\n"));
break;
default:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"TapeStatus (TestUnitReady) unknown (%d)\n",ret);
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("TapeStatus (TestUnitReady) unknown (%d)\n"),ret);
break;
}
if ( ret & TAPE_ONLINE)
{
pDTE[0].status ='F';
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### FULL\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### FULL\n"));
} else {
pDTE[0].status = 'E';
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### EMPTY\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### EMPTY\n"));
}
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP TapeStatus\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### STOP TapeStatus\n"));
}
return(0);
}
(void)Device; /* Quiet unused parameter warning */
- dbprintf(("##### START DLT4000Eject\n"));
+ dbprintf(_("##### START DLT4000Eject\n"));
pRequestSense = alloc(SIZEOF(RequestSense_T));
pExtendedRequestSense = alloc(SIZEOF(ExtendedRequestSense_T));
if ( type > 1)
{
- dbprintf(("DLT4000Eject : use mtio ioctl for eject on %s\n", pDev[INDEX_TAPE].dev));
+ dbprintf(_("DLT4000Eject : use mtio ioctl for eject on %s\n"), pDev[INDEX_TAPE].dev);
free(pExtendedRequestSense);
free(pRequestSense);
return(Tape_Ioctl(INDEX_TAPE, IOCTL_EJECT));
if (pDev[INDEX_TAPECTL].SCSI == 0)
{
- dbprintf(("DLT4000Eject : Device %s not able to receive SCSI commands\n", pDev[INDEX_TAPE].dev));
+ dbprintf(_("DLT4000Eject : Device %s not able to receive SCSI commands\n"), pDev[INDEX_TAPE].dev);
free(pExtendedRequestSense);
free(pRequestSense);
return(Tape_Ioctl(INDEX_TAPE, IOCTL_EJECT));
}
- dbprintf(("DLT4000Eject : SCSI eject on %s = %s\n", pDev[INDEX_TAPECTL].dev, pDev[INDEX_TAPECTL].ConfigName));
+ dbprintf(_("DLT4000Eject : SCSI eject on %s = %s\n"), pDev[INDEX_TAPECTL].dev, pDev[INDEX_TAPECTL].ConfigName);
RequestSense(INDEX_TAPECTL, pExtendedRequestSense, 0);
- DecodeExtSense(pExtendedRequestSense, "DLT4000Eject : ", debug_file);
+ DecodeExtSense(pExtendedRequestSense, _("DLT4000Eject : "), debug_file);
/* Unload the tape, 0 == wait for success
* 0 == unload
*/
ret = SCSI_LoadUnload(INDEX_TAPECTL, pRequestSense, 0, 0);
RequestSense(INDEX_TAPECTL, pExtendedRequestSense, 0);
- DecodeExtSense(pExtendedRequestSense, "DLT4000Eject : ", debug_file);
+ DecodeExtSense(pExtendedRequestSense, _("DLT4000Eject : "), debug_file);
/* < 0 == fatal */
if (ret >= 0) {
while (!done && cnt < 300)
{
ret = SCSI_TestUnitReady(INDEX_TAPECTL, pRequestSense);
- DebugPrint(DEBUG_INFO, SECTION_SCSI, "DLT4000Eject TestUnitReady ret %d\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI, _("DLT4000Eject TestUnitReady ret %d\n"),ret);
switch (ret)
{
case SCSI_OK:
switch (SenseHandler(INDEX_TAPECTL, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_NO:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"DLT4000Eject (TestUnitReady) SENSE_NO\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("DLT4000Eject (TestUnitReady) SENSE_NO\n"));
done = 1;
break;
case SENSE_TAPE_NOT_ONLINE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"DLT4000Eject (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("DLT4000Eject (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n"));
done = 1;
break;
case SENSE_IGNORE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"DLT4000Eject (TestUnitReady) SENSE_IGNORE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("DLT4000Eject (TestUnitReady) SENSE_IGNORE\n"));
done = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"DLT4000Eject (TestUnitReady) SENSE_ABORT\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("DLT4000Eject (TestUnitReady) SENSE_ABORT\n"));
free(pExtendedRequestSense);
free(pRequestSense);
return(-1);
/*NOTREACHED*/
case SENSE_RETRY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"DLT4000Eject (TestUnitReady) SENSE_RETRY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("DLT4000Eject (TestUnitReady) SENSE_RETRY\n"));
break;
default:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"DLT4000Eject (TestUnitReady) default (SENSE)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("DLT4000Eject (TestUnitReady) default (SENSE)\n"));
done = 1;
break;
}
break;
case SCSI_ERROR:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"DLT4000Eject (TestUnitReady) SCSI_ERROR\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("DLT4000Eject (TestUnitReady) SCSI_ERROR\n"));
free(pExtendedRequestSense);
free(pRequestSense);
return(-1);
/*NOTREACHED*/
case SCSI_BUSY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"DLT4000Eject (TestUnitReady) SCSI_BUSY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("DLT4000Eject (TestUnitReady) SCSI_BUSY\n"));
break;
case SCSI_CHECK:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"DLT4000Eject (TestUnitReady) SCSI_CHECK\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("DLT4000Eject (TestUnitReady) SCSI_CHECK\n"));
break;
default:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"DLT4000Eject (TestUnitReady) unknown (%d)\n",ret);
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("DLT4000Eject (TestUnitReady) unknown (%d)\n"),ret);
break;
}
sleep(2);
}
- dbprintf(("DLT4000Eject : Ready after %d sec, done = %d\n", cnt * 2, done));
+ dbprintf(_("DLT4000Eject : Ready after %d sec, done = %d\n"), cnt * 2, done);
free(pExtendedRequestSense);
free(pRequestSense);
(void)Device; /* Quiet unused parameter warning */
(void)type; /* Quiet unused parameter warning */
- DebugPrint(DEBUG_INFO, SECTION_TAPE, "##### START GenericEject\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE, _("##### START GenericEject\n"));
pRequestSense = alloc(SIZEOF(RequestSense_T));
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"GenericEject : SCSI eject on %s = %s\n",
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("GenericEject : SCSI eject on %s = %s\n"),
pDev[INDEX_TAPECTL].dev, pDev[INDEX_TAPECTL].ConfigName);
/*
while (!done && cnt < 300)
{
ret = SCSI_TestUnitReady(INDEX_TAPECTL, pRequestSense);
- DebugPrint(DEBUG_INFO, SECTION_SCSI, "GenericEject TestUnitReady ret %d\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI, _("GenericEject TestUnitReady ret %d\n"),ret);
switch (ret)
{
case SCSI_OK:
switch (SenseHandler(INDEX_TAPECTL, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_NO:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericEject (TestUnitReady) SENSE_NO\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericEject (TestUnitReady) SENSE_NO\n"));
break;
case SENSE_TAPE_NOT_ONLINE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericEject (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericEject (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n"));
done = 1;
break;
case SENSE_IGNORE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericEject (TestUnitReady) SENSE_IGNORE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericEject (TestUnitReady) SENSE_IGNORE\n"));
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"GenericEject (TestUnitReady) SENSE_ABORT\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("GenericEject (TestUnitReady) SENSE_ABORT\n"));
free(pRequestSense);
return(-1);
/*NOTREACHED*/
case SENSE_RETRY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericEject (TestUnitReady) SENSE_RETRY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericEject (TestUnitReady) SENSE_RETRY\n"));
break;
default:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericEject (TestUnitReady) default (SENSE)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericEject (TestUnitReady) default (SENSE)\n"));
break;
}
break;
case SCSI_ERROR:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"GenericEject (TestUnitReady) SCSI_ERROR\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("GenericEject (TestUnitReady) SCSI_ERROR\n"));
free(pRequestSense);
return(-1);
/*NOTREACHED*/
case SCSI_BUSY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericEject (TestUnitReady) SCSI_BUSY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericEject (TestUnitReady) SCSI_BUSY\n"));
break;
case SCSI_CHECK:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericEject (TestUnitReady) SCSI_CHECK\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericEject (TestUnitReady) SCSI_CHECK\n"));
break;
default:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"GenericEject (TestUnitReady) unknown (%d)\n",ret);
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("GenericEject (TestUnitReady) unknown (%d)\n"),ret);
break;
}
cnt++;
sleep(2);
}
} else {
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"GenericEject : Device can't understand SCSI try ioctl\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("GenericEject : Device can't understand SCSI try ioctl\n"));
Tape_Ioctl(INDEX_TAPECTL, IOCTL_EJECT);
}
DebugPrint(DEBUG_INFO, SECTION_TAPE,
- "GenericEject : Ready after %d sec\n", cnt * 2);
+ _("GenericEject : Ready after %d sec\n"), cnt * 2);
free(pRequestSense);
return(0);
}
CDB_T CDB;
extern OpenFiles_T *pDev;
RequestSense_T *pRequestSense;
- char *errstr; /* Used by tape_rewind */
int ret;
int cnt = 0;
int done;
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### START GenericRewind pDEV -> %d\n",DeviceFD);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### START GenericRewind pDEV -> %d\n"),DeviceFD);
/*
while (!done)
{
ret = SCSI_TestUnitReady(DeviceFD, (RequestSense_T *)pRequestSense );
- DebugPrint(DEBUG_INFO, SECTION_TAPE, "GenericRewind (TestUnitReady) ret %d\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE, _("GenericRewind (TestUnitReady) ret %d\n"),ret);
switch (ret)
{
case SCSI_OK:
switch (SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_NO:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_NO\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) SENSE_NO\n"));
done = 1;
break;
case SENSE_TAPE_NOT_ONLINE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n"));
free(pRequestSense);
return(-1);
/*NOTREACHED*/
case SENSE_IGNORE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_IGNORE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) SENSE_IGNORE\n"));
done = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_ABORT\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("GenericRewind (TestUnitReady) SENSE_ABORT\n"));
free(pRequestSense);
return(-1);
/*NOTREACHED*/
case SENSE_RETRY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_RETRY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) SENSE_RETRY\n"));
break;
default:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) default (SENSE)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) default (SENSE)\n"));
done = 1;
break;
} /* switch (SenseHandler(DeviceFD, 0, pRequestSense->SenseKey.... */
break;
case SCSI_ERROR:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"GenericRewind (TestUnitReady) SCSI_ERROR\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("GenericRewind (TestUnitReady) SCSI_ERROR\n"));
free(pRequestSense);
return(-1);
/*NOTREACHED*/
case SCSI_BUSY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SCSI_BUSY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) SCSI_BUSY\n"));
break;
case SCSI_CHECK:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SCSI_CHECK\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) SCSI_CHECK\n"));
break;
default:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"GenericRewind (TestUnitReady) unknown (%d)\n",ret);
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("GenericRewind (TestUnitReady) unknown (%d)\n"),ret);
break;
}
sleep(1);
- DebugPrint(DEBUG_INFO, SECTION_TAPE," Wait .... (%d)\n",cnt);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_(" Wait .... (%d)\n"),cnt);
if (cnt > 180)
{
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP GenericRewind (-1)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,_("##### STOP GenericRewind (-1)\n"));
free(pRequestSense);
return(-1);
/*NOTREACHED*/
pRequestSense,
SIZEOF(RequestSense_T));
- DecodeSense(pRequestSense, "GenericRewind : ", debug_file);
+ DecodeSense(pRequestSense, _("GenericRewind : "), debug_file);
if (ret > 0)
{
}
if (ret < 0)
{
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"GenericRewind : failed %d\n", ret);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("GenericRewind : failed %d\n"), ret);
done = 1;
}
}
while (!done && (cnt < 300))
{
ret = SCSI_TestUnitReady(DeviceFD, pRequestSense);
- DebugPrint(DEBUG_INFO, SECTION_SCSI, "GenericRewind TestUnitReady ret %d\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI, _("GenericRewind TestUnitReady ret %d\n"),ret);
switch (ret)
{
case SCSI_OK:
switch (SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_NO:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_NO\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) SENSE_NO\n"));
done = 1;
break;
case SENSE_TAPE_NOT_ONLINE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n"));
free(pRequestSense);
return(-1);
/*NOTREACHED*/
case SENSE_IGNORE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_IGNORE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) SENSE_IGNORE\n"));
done = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_ABORT\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("GenericRewind (TestUnitReady) SENSE_ABORT\n"));
free(pRequestSense);
return(-1);
/*NOTREACHED*/
case SENSE_RETRY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_RETRY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) SENSE_RETRY\n"));
break;
default:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) default (SENSE)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) default (SENSE)\n"));
done = 1;
break;
}
break;
case SCSI_ERROR:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"GenericRewind (TestUnitReady) SCSI_ERROR\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("GenericRewind (TestUnitReady) SCSI_ERROR\n"));
return(-1);
/*NOTREACHED*/
case SCSI_BUSY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SCSI_BUSY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) SCSI_BUSY\n"));
break;
case SCSI_CHECK:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SCSI_CHECK\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("GenericRewind (TestUnitReady) SCSI_CHECK\n"));
break;
default:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"GenericRewind (TestUnitReady) unknown (%d)\n",ret);
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("GenericRewind (TestUnitReady) unknown (%d)\n"),ret);
break;
}
amfree(pRequestSense);
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"GenericRewind : Ready after %d sec, "
- "done = %d\n", cnt * 2, done);
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP GenericRewind (0)\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("GenericRewind : Ready after %d sec, "
+ "done = %d\n"), cnt * 2, done);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### STOP GenericRewind (0)\n"));
} else {
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"GenericRewind : use ioctl rewind\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("GenericRewind : use ioctl rewind\n"));
if (pDev[DeviceFD].devopen == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"Close Device\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("Close Device\n"));
SCSI_CloseDevice(DeviceFD);
}
- /* We don't retry if it fails; that is left to the vtape driver. */
- if ((errstr = tape_rewind(pDev[DeviceFD].dev)) == NULL) {
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"Rewind OK,\n", cnt);
- } else {
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"Rewind failed %s\n",errstr);
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP GenericRewind (-1)\n");
- return(-1);
- /*NOTREACHED*/
- }
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP GenericRewind (0)\n");
+ /* no actual rewind operation here -- the device itself will handle that */
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### STOP GenericRewind (0)\n"));
}
return(0);
(void)Device; /* Quiet unused parameter warning */
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### START GenericClean\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### START GenericClean\n"));
if (pDev[INDEX_TAPECTL].SCSI == 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"GenericClean : can't send SCSI commands\n");
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP GenericClean\n");
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,_("GenericClean : can't send SCSI commands\n"));
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,_("##### STOP GenericClean\n"));
return(0);
/*NOTREACHED*/
}
if ( RequestSense(INDEX_TAPECTL, &ExtRequestSense, 1) == 0)
{
- DecodeExtSense(&ExtRequestSense, "GenericClean : ", debug_file);
+ DecodeExtSense(&ExtRequestSense, _("GenericClean : "), debug_file);
if(ExtRequestSense.CLN) {
ret = 1;
} else {
ret = 0;
}
} else {
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"Got error from RequestSense\n");
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,_("Got error from RequestSense\n"));
}
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP GenericClean (%d)\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### STOP GenericClean (%d)\n"),ret);
return(ret);
}
int ret = 0;
int retry = 1;
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT, "##### START GenericResetStatus\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT, _("##### START GenericResetStatus\n"));
pRequestSense = alloc(SIZEOF(RequestSense_T));
if (ret < 0)
{
- /* fprintf(stderr, "%s: Request Sense[Inquiry]: %02X", */
+ /* g_fprintf(stderr, _("%s: Request Sense[Inquiry]: %02X"), */
/* "chs", ((u_char *) &pRequestSense)[0]); */
/* for (i = 1; i < SIZEOF(RequestSense_T); i++) */
- /* fprintf(stderr, " %02X", ((u_char *) &pRequestSense)[i]); */
- /* fprintf(stderr, "\n"); */
+ /* g_fprintf(stderr, " %02X", ((u_char *) &pRequestSense)[i]); */
+ /* g_fprintf(stderr, "\n"); */
free(pRequestSense);
return(ret);
/*NOTREACHED*/
retry++;
if (retry < MAX_RETRIES )
{
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT, "GenericResetStatus : retry %d\n", retry);
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT, _("GenericResetStatus : retry %d\n"), retry);
sleep(2);
} else {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericResetStatus : return (-1)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("GenericResetStatus : return (-1)\n"));
free(pRequestSense);
return(-1);
/*NOTREACHED*/
}
break;
default:
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericResetStatus : (default) return (-1)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("GenericResetStatus : (default) return (-1)\n"));
free(pRequestSense);
return(-1);
/*NOTREACHED*/
if (ret == 0)
retry = 0;
}
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "##### STOP GenericResetStatus (%d)\n",ret);
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("##### STOP GenericResetStatus (%d)\n"),ret);
free(pRequestSense);
return(ret);
}
int ret;
char *info = NULL;
- dbprintf(("##### START GenericSenseHandler\n"));
+ dbprintf(_("##### START GenericSenseHandler\n"));
- DecodeSense(pRequestSense, "GenericSenseHandler : ", debug_file);
+ DecodeSense(pRequestSense, _("GenericSenseHandler : "), debug_file);
ret = Sense2Action(pDev[ip].ident,
pDev[ip].inquiry->type,
AdditionalSenseCodeQualifier,
&info);
- dbprintf(("##### STOP GenericSenseHandler\n"));
+ dbprintf(_("##### STOP GenericSenseHandler: %s\n"), _(info));
return(ret);
}
int SDX_STE = -1; /* to */
int SDX_DTE = -1; /* AlignElements */
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### START SDXMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### START SDXMove\n"));
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"%-20s : from = %d, to = %d\n", "SDXMove", from, to);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("%-20s : from = %d, to = %d\n"), "SDXMove", from, to);
if ((pfrom = LookupElement(from)) == NULL)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"SDXMove : ElementInfo for %d not found\n", from);
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP SDXMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("SDXMove : ElementInfo for %d not found\n"), from);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### STOP SDXMove\n"));
return(-1);
/*NOTREACHED*/
}
if ((pto = LookupElement(to)) == NULL)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"SDXMove : ElementInfo for %d not found\n", to);
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP SDXMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("SDXMove : ElementInfo for %d not found\n"), to);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### STOP SDXMove\n"));
return(-1);
/*NOTREACHED*/
}
if (pfrom->status == 'E')
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"SDXMove : from %d is empty\n", from);
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP SDXMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("SDXMove : from %d is empty\n"), from);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### STOP SDXMove\n"));
return(-1);
/*NOTREACHED*/
}
case CHANGER:
break;
case STORAGE:
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"SDXMove : Destination Element %d Type %d is full\n",
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("SDXMove : Destination Element %d Type %d is full\n"),
pto->address, pto->type);
to = find_empty(DeviceFD, 0, 0);
if (to == -1 )
{
- DebugPrint(DEBUG_ERROR, SECTION_MOVE,"SDXMove : no empty slot found for unload\n");
+ DebugPrint(DEBUG_ERROR, SECTION_MOVE,_("SDXMove : no empty slot found for unload\n"));
return(-1);
/*NOTREACHED*/
}
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"SDXMove : Unload to %d\n", to);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("SDXMove : Unload to %d\n"), to);
if ((pto = LookupElement(to)) == NULL)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "SDXMove : ElementInfo for %d not found\n", to);
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP SDXMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("SDXMove : ElementInfo for %d not found\n"), to);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### STOP SDXMove\n"));
return(-1);
/*NOTREACHED*/
}
if (SDX_DTE >= 0 && SDX_STE >= 0)
{
ret = SCSI_AlignElements(DeviceFD, SDX_MTE, SDX_DTE, SDX_STE);
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### SCSI_AlignElemnts ret = %d\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### SCSI_AlignElemnts ret = %d\n"),ret);
if (ret != 0 )
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP SDXMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### STOP SDXMove\n"));
return(-1);
/*NOTREACHED*/
}
} else {
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### Error setting STE/DTE %d/%d\n", SDX_STE, SDX_DTE);
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP SDXMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### Error setting STE/DTE %d/%d\n"), SDX_STE, SDX_DTE);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### STOP SDXMove\n"));
return(-1);
/*NOTREACHED*/
}
{
ret = SCSI_Move(DeviceFD, 0, from, to);
} else {
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP SDXMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### STOP SDXMove\n"));
return(ret);
/*NOTREACHED*/
}
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP SDXMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### STOP SDXMove\n"));
return(ret);
}
ElementInfo_T *pto;
int ret = 0;
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "##### START GenericMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("##### START GenericMove\n"));
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "%-20s : from = %d, to = %d\n", "GenericMove", from, to);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("%-20s : from = %d, to = %d\n"), "GenericMove", from, to);
if ((pfrom = LookupElement(from)) == NULL)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "GenericMove : ElementInfo for %d not found\n", from);
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP GenericMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("GenericMove : ElementInfo for %d not found\n"), from);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### STOP GenericMove\n"));
return(-1);
/*NOTREACHED*/
}
if ((pto = LookupElement(to)) == NULL)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "GenericMove : ElementInfo for %d not found\n", to);
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP GenericMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("GenericMove : ElementInfo for %d not found\n"), to);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### STOP GenericMove\n"));
return(-1);
/*NOTREACHED*/
}
if (pfrom->status == 'E')
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "GenericMove : from %d is empty\n", from);
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP GenericMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("GenericMove : from %d is empty\n"), from);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### STOP GenericMove\n"));
return(-1);
/*NOTREACHED*/
}
if (pto->status == 'F')
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "GenericMove : Destination Element %d Type %d is full\n",
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("GenericMove : Destination Element %d Type %d is full\n"),
pto->address, pto->type);
to = find_empty(DeviceFD, 0, 0);
if ( to == -1)
{
- DebugPrint(DEBUG_ERROR, SECTION_MOVE, "GenericMove : no empty slot found\n");
+ DebugPrint(DEBUG_ERROR, SECTION_MOVE, _("GenericMove : no empty slot found\n"));
return(-1);
/*NOTREACHED*/
}
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "GenericMove : Unload to %d\n", to);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("GenericMove : Unload to %d\n"), to);
if ((pto = LookupElement(to)) == NULL)
{
- DebugPrint(DEBUG_ERROR, SECTION_MOVE, " Ups should not happen\n");
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP GenericMove\n");
+ DebugPrint(DEBUG_ERROR, SECTION_MOVE, _(" Ups should not happen\n"));
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### STOP GenericMove\n"));
return(-1);
/*NOTREACHED*/
}
ret = SCSI_Move(DeviceFD, 0, from, to);
}
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "GenericMove : SCSI_Move return (%d)\n", ret);
- DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP GenericMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("GenericMove : SCSI_Move return (%d)\n"), ret);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE,_("##### STOP GenericMove\n"));
return(ret);
}
{
int moveok = 0;
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "##### START CheckMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("##### START CheckMove\n"));
if (pDeviceCapabilitiesPage != NULL )
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "CheckMove : checking if move from %d to %d is legal\n", from->address, to->address);
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("CheckMove : checking if move from %d to %d is legal\n"), from->address, to->address);
switch (from->type)
{
case CHANGER:
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "CheckMove : MT2");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("CheckMove : MT2"));
switch (to->type)
{
case CHANGER:
if (pDeviceCapabilitiesPage->MT2MT == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "MT\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("MT\n"));
moveok = 1;
}
break;
case STORAGE:
if (pDeviceCapabilitiesPage->MT2ST == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "ST\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("ST\n"));
moveok = 1;
}
break;
case IMPORT:
if (pDeviceCapabilitiesPage->MT2IE == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "IE\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("IE\n"));
moveok = 1;
}
break;
case TAPETYPE:
if (pDeviceCapabilitiesPage->MT2DT == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "DT\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("DT\n"));
moveok = 1;
}
break;
}
break;
case STORAGE:
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "CheckMove : ST2");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("CheckMove : ST2"));
switch (to->type)
{
case CHANGER:
if (pDeviceCapabilitiesPage->ST2MT == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "MT\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("MT\n"));
moveok = 1;
}
break;
case STORAGE:
if (pDeviceCapabilitiesPage->ST2ST == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "ST\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("ST\n"));
moveok = 1;
}
break;
case IMPORT:
if (pDeviceCapabilitiesPage->ST2IE == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "IE\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("IE\n"));
moveok = 1;
}
break;
case TAPETYPE:
if (pDeviceCapabilitiesPage->ST2DT == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "DT\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("DT\n"));
moveok = 1;
}
break;
}
break;
case IMPORT:
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "CheckMove : IE2");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("CheckMove : IE2"));
switch (to->type)
{
case CHANGER:
if (pDeviceCapabilitiesPage->IE2MT == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "MT\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("MT\n"));
moveok = 1;
}
break;
case STORAGE:
if (pDeviceCapabilitiesPage->IE2ST == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "ST\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("ST\n"));
moveok = 1;
}
break;
case IMPORT:
if (pDeviceCapabilitiesPage->IE2IE == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "IE\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("IE\n"));
moveok = 1;
}
break;
case TAPETYPE:
if (pDeviceCapabilitiesPage->IE2DT == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "DT\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("DT\n"));
moveok = 1;
}
break;
}
break;
case TAPETYPE:
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "CheckMove : DT2");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("CheckMove : DT2"));
switch (to->type)
{
case CHANGER:
if (pDeviceCapabilitiesPage->DT2MT == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "MT\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("MT\n"));
moveok = 1;
}
break;
case STORAGE:
if (pDeviceCapabilitiesPage->DT2ST == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "ST\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("ST\n"));
moveok = 1;
}
break;
case IMPORT:
if (pDeviceCapabilitiesPage->DT2IE == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "IE\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("IE\n"));
moveok = 1;
}
break;
case TAPETYPE:
if (pDeviceCapabilitiesPage->DT2DT == 1)
{
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "DT\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("DT\n"));
moveok = 1;
}
break;
break;
}
} else {
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "CheckMove : pDeviceCapabilitiesPage == NULL");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("CheckMove : pDeviceCapabilitiesPage == NULL"));
/*
- ChgExit("CheckMove", "DeviceCapabilitiesPage == NULL", FATAL);
+ ChgExit("CheckMove", _("DeviceCapabilitiesPage == NULL"), FATAL);
*/
moveok=1;
}
- DebugPrint(DEBUG_INFO, SECTION_MOVE, "###### STOP CheckMove\n");
+ DebugPrint(DEBUG_INFO, SECTION_MOVE, _("###### STOP CheckMove\n"));
return(moveok);
}
{
extern OpenFiles_T *pDev;
size_t x;
- dbprintf(("##### START GetCurrentSlot\n"));
+ dbprintf(_("##### START GetCurrentSlot\n"));
(void)fd; /* Quiet unused parameter warning */
if (pDev[0].SCSI == 0)
{
- dbprintf(("GetCurrentSlot : can't send SCSI commands\n"));
+ dbprintf(_("GetCurrentSlot : can't send SCSI commands\n"));
return(-1);
/*NOTREACHED*/
}
(void)InitStatus; /* Quiet unused parameter warning */
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT, "##### START GenericElementStatus\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT, _("##### START GenericElementStatus\n"));
if (pEAAPage == NULL)
{
if (SCSI_ModeSense(DeviceFD, pModePage, 0xff, 0x8, 0x3f) == 0)
{
LibModeSenseValid = 1;
- DecodeModeSense(pModePage, 0, "GenericElementStatus :", 0, debug_file);
+ DecodeModeSense(pModePage, 0, _("GenericElementStatus :"), 0, debug_file);
} else {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"GetElementStatus : failed SCSI_ModeSense\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,_("GetElementStatus : failed SCSI_ModeSense\n"));
LibModeSenseValid = -1;
}
}
error = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericElementStatus : Abort on MTE\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("GenericElementStatus : Abort on MTE\n"));
return(-1);
/*NOTREACHED*/
}
error = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericElementStatus : Abort on IEE\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("GenericElementStatus : Abort on IEE\n"));
return(-1);
/*NOTREACHED*/
}
error = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericElementStatus : Abort on IES\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("GenericElementStatus : Abort on IES\n"));
return(-1);
/*NOTREACHED*/
}
error = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericElementStatus : Abort on DTE\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("GenericElementStatus : Abort on DTE\n"));
return(-1);
/*NOTREACHED*/
}
if (GenericResetStatus(DeviceFD) != 0)
{
ElementStatusValid = 0;
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericElementStatus : Can't init status STEError(%d) MTEError(%d) DTEError(%d) IEEError(%d)\n", STEError, MTEError, DTEError, IEEError);
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("GenericElementStatus : Can't init status STEError(%d) MTEError(%d) DTEError(%d) IEEError(%d)\n"), STEError, MTEError, DTEError, IEEError);
return(-1);
/*NOTREACHED*/
}
*/
if (pDTE[0].status == 'E')
{
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT, "GenericElementStatus : try to move tape to tape drive\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT, _("GenericElementStatus : try to move tape to tape drive\n"));
pDev[DeviceFD].functions->function_move(DeviceFD, pDTE[0].address, pDTE[0].address);
}
}
if (error != 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericElementStatus : Can't init status (after loop)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("GenericElementStatus : Can't init status (after loop)\n"));
return(-1);
/*NOTREACHED*/
}
ElementStatusValid = 1;
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "#### STOP GenericElementStatus\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("#### STOP GenericElementStatus\n"));
return(0);
}
(void)InitStatus; /* Quiet unused parameter warning */
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT, "##### START DLT448ElementStatus\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT, _("##### START DLT448ElementStatus\n"));
if (pEAAPage == NULL)
{
if (SCSI_ModeSense(DeviceFD, pModePage, 0xff, 0x8, 0x3f) == 0)
{
LibModeSenseValid = 1;
- DecodeModeSense(pModePage, 12, "DLT448ElementStatus :", 0, debug_file);
+ DecodeModeSense(pModePage, 12, _("DLT448ElementStatus :"), 0, debug_file);
} else {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"DLT448ElementStatus : failed SCSI_ModeSense\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,_("DLT448ElementStatus : failed SCSI_ModeSense\n"));
LibModeSenseValid = -1;
}
}
error = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "DLT448ElementStatus : Abort on MTE\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("DLT448ElementStatus : Abort on MTE\n"));
return(-1);
/*NOTREACHED*/
}
error = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "DLT448ElementStatus : Abort on IEE\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("DLT448ElementStatus : Abort on IEE\n"));
return(-1);
/*NOTREACHED*/
}
error = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "DLT448ElementStatus : Abort on IES\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("DLT448ElementStatus : Abort on IES\n"));
return(-1);
/*NOTREACHED*/
}
error = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "DLT448ElementStatus : Abort on DTE\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("DLT448ElementStatus : Abort on DTE\n"));
return(-1);
/*NOTREACHED*/
}
if (GenericResetStatus(DeviceFD) != 0)
{
ElementStatusValid = 0;
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "DLT448ElementStatus : Can't init status\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("DLT448ElementStatus : Can't init status\n"));
return(-1);
/*NOTREACHED*/
}
*/
if (pDTE[0].status == 'E')
{
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT, "DLT448ElementStatus : try to move tape to tape drive\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT, _("DLT448ElementStatus : try to move tape to tape drive\n"));
pDev[DeviceFD].functions->function_move(DeviceFD, pDTE[0].address, pDTE[0].address);
}
}
if (error != 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "DLT448ElementStatus : Can't init status (after loop)\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("DLT448ElementStatus : Can't init status (after loop)\n"));
return(-1);
/*NOTREACHED*/
}
ElementStatusValid = 1;
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "#### STOP DLT448ElementStatus\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("#### STOP DLT448ElementStatus\n"));
return(0);
}
(void)InitStatus; /* Quiet unused parameter warning */
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT, "##### START SDXElementStatus\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT, _("##### START SDXElementStatus\n"));
if (pEAAPage == NULL)
{
if (SCSI_ModeSense(DeviceFD, pModePage, 0xff, 0x8, 0x3f) == 0)
{
LibModeSenseValid = 1;
- DecodeModeSense(pModePage, 0, "SDXElementStatus :", 0, debug_file);
+ DecodeModeSense(pModePage, 0, _("SDXElementStatus :"), 0, debug_file);
} else {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"SDXElementStatus : failed SCSI_ModeSense\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,_("SDXElementStatus : failed SCSI_ModeSense\n"));
LibModeSenseValid = -1;
}
}
error = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "SDXElementStatus : Abort on MTE\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("SDXElementStatus : Abort on MTE\n"));
return(-1);
/*NOTREACHED*/
}
error = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "SDXElementStatus : Abort on IEE\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("SDXElementStatus : Abort on IEE\n"));
return(-1);
/*NOTREACHED*/
}
error = 1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "SDXElementStatus : Abort on IES\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("SDXElementStatus : Abort on IES\n"));
return(-1);
/*NOTREACHED*/
}
*/
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "SDXElementStatus : Abort on DTE\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("SDXElementStatus : Abort on DTE\n"));
return(-1);
/*NOTREACHED*/
}
if (GenericResetStatus(DeviceFD) != 0)
{
ElementStatusValid = 0;
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "SDXElementStatus : Can't init status\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("SDXElementStatus : Can't init status\n"));
return(-1);
/*NOTREACHED*/
}
if (error != 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "SDXElementStatus : Can't init status\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("SDXElementStatus : Can't init status\n"));
return(-1);
/*NOTREACHED*/
}
ElementStatusValid = 1;
TapeStatus();
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "#### STOP SDXElementStatus\n");
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, _("#### STOP SDXElementStatus\n"));
return(0);
}
size_t length; /* Length of an Element */
size_t NoOfElements;
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"##### START GetElementStatus\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("##### START GetElementStatus\n"));
barcode = BarCode(DeviceFD);
*/
if (pEAAPage != NULL)
{
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Reading Element Status with the info from mode sense\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Reading Element Status with the info from mode sense\n"));
/* First the Medim Transport*/
if (V2(pEAAPage->NoMediumTransportElements) > 0)
{
SIZEOF(MediumTransportElementDescriptor_T),
&DataBuffer) != 0)
{
- ChgExit("genericElementStatus","Can't read MTE status", FATAL);
+ ChgExit("genericElementStatus",_("Can't read MTE status"), FATAL);
/*NOTREACHED*/
}
// ElementStatusData = (ElementStatusData_T *)DataBuffer;
offset = offset + SIZEOF(ElementStatusPage_T);
length = V2(ElementStatusPage->length);
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"MTE Length %d(%d)\n", length,
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("MTE Length %d(%d)\n"), length,
SIZEOF(MediumTransportElementDescriptor_T));
for (x = 0; x < MTE; x++)
{
pMTE[x].ASC = MediumTransportElementDescriptor->asc;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASC MTE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASC MTE\n"));
}
if (length >= 6)
{
pMTE[x].ASCQ = MediumTransportElementDescriptor->ascq;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASCQ MTE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASCQ MTE\n"));
}
if (length >= 0xa)
pMTE[x].from = -1;
}
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip source MTE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip source MTE\n"));
}
offset = offset + length;
}
SIZEOF(StorageElementDescriptor_T),
&DataBuffer) != 0)
{
- ChgExit("GetElementStatus", "Can't read STE status", FATAL);
+ ChgExit("GetElementStatus", _("Can't read STE status"), FATAL);
/*NOTREACHED*/
}
assert(DataBuffer != NULL);
ElementStatusPage = (ElementStatusPage_T *)&DataBuffer[offset];
offset = offset + SIZEOF(ElementStatusPage_T);
length = V2(ElementStatusPage->length);
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"STE Length %d\n",length);
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("STE Length %d\n"),length);
for (x = 0; x < STE; x++)
{
{
pSTE[x].ASC = StorageElementDescriptor->asc;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASC STE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASC STE\n"));
}
if (length >= 6)
{
pSTE[x].ASCQ = StorageElementDescriptor->ascq;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASCQ STE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASCQ STE\n"));
}
if (length >= 0xa)
pSTE[x].from = -1;
}
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip source STE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip source STE\n"));
}
offset = offset + length;
SIZEOF(ImportExportElementDescriptor_T),
&DataBuffer) != 0)
{
- ChgExit("GetElementStatus", "Can't read IEE status", FATAL);
+ ChgExit("GetElementStatus", _("Can't read IEE status"), FATAL);
/*NOTREACHED*/
}
assert(DataBuffer != NULL);
ElementStatusPage = (ElementStatusPage_T *)&DataBuffer[offset];
offset = offset + SIZEOF(ElementStatusPage_T);
length = V2(ElementStatusPage->length);
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"IEE Length %d\n",length);
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("IEE Length %d\n"),length);
for (x = 0; x < IEE; x++)
{
{
pIEE[x].ASC = ImportExportElementDescriptor->asc;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASC IEE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASC IEE\n"));
}
if (length >= 6)
{
pIEE[x].ASCQ = ImportExportElementDescriptor->ascq;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASCQ IEE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASCQ IEE\n"));
}
if (length >= 0xa)
pIEE[x].from = -1;
}
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip source IEE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip source IEE\n"));
}
offset = offset + length;
SIZEOF(DataTransferElementDescriptor_T),
&DataBuffer) != 0)
{
- ChgExit("GenericElementStatus", "Can't read DTE status", FATAL);
+ ChgExit("GenericElementStatus", _("Can't read DTE status"), FATAL);
/*NOTREACHED*/
}
assert(DataBuffer != NULL);
ElementStatusPage = (ElementStatusPage_T *)&DataBuffer[offset];
offset = offset + SIZEOF(ElementStatusPage_T);
length = V2(ElementStatusPage->length);
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"DTE Length %d\n",length);
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("DTE Length %d\n"),length);
for (x = 0; x < DTE; x++)
{
{
pDTE[x].ASC = DataTransferElementDescriptor->asc;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASC DTE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASC DTE\n"));
}
if (length >= 6)
{
pDTE[x].ASCQ = DataTransferElementDescriptor->ascq;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASCQ DTE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASCQ DTE\n"));
}
if (length >= 0xa)
pDTE[x].from = -1;
}
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip source STE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip source STE\n"));
}
offset = offset + length;
/*
* And now the old way, when we get here the read mode sense page has failed ...
*/
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Reading Element Status the old way .... (max 255 elements)\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Reading Element Status the old way .... (max 255 elements)\n"));
if (SCSI_ReadElementStatus(DeviceFD,
0,
0,
(size_t)0x7f,
&DataBuffer) != 0)
{
- ChgExit("GenericElementStatus","Can't get ElementStatus", FATAL);
+ ChgExit("GenericElementStatus",_("Can't get ElementStatus"), FATAL);
/*NOTREACHED*/
}
assert(DataBuffer != NULL);
{
pMTE[x].ASC = MediumTransportElementDescriptor->asc;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASC MTE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASC MTE\n"));
}
if (length >= 6)
{
pMTE[x].ASCQ = MediumTransportElementDescriptor->ascq;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASCQ MTE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASCQ MTE\n"));
}
if (length >= 0xa)
pMTE[x].from = -1;
}
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip source MTE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip source MTE\n"));
}
offset = offset + length;
{
pSTE[x].ASC = StorageElementDescriptor->asc;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASC STE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASC STE\n"));
}
if (length >= 6)
{
pSTE[x].ASCQ = StorageElementDescriptor->ascq;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASCQ STE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASCQ STE\n"));
}
if (length >= 0xa)
pSTE[x].from = -1;
}
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip source STE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip source STE\n"));
}
offset = offset + length;
{
pIEE[x].ASC = ImportExportElementDescriptor->asc;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASC IEE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASC IEE\n"));
}
if (length >= 6)
{
pIEE[x].ASCQ = ImportExportElementDescriptor->ascq;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASCQ IEE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASCQ IEE\n"));
}
if (length >= 0xa)
pIEE[x].from = -1;
}
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip source IEE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip source IEE\n"));
}
offset = offset + length;
{
pDTE[x].ASC = DataTransferElementDescriptor->asc;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASC DTE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASC DTE\n"));
}
if (length >= 6)
{
pDTE[x].ASCQ = DataTransferElementDescriptor->ascq;
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip ASCQ DTE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip ASCQ DTE\n"));
}
if (length >= 0xa)
pDTE[x].from = -1;
}
} else {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"Skip source STE\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("Skip source STE\n"));
}
offset = offset + length;
break;
default:
offset = offset + length;
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"GetElementStatus : UnGknown Type %d\n",ElementStatusPage->type);
+ DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,_("GetElementStatus : UnGknown Type %d\n"),ElementStatusPage->type);
break;
}
}
free(DataBuffer);
}
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"\n\n\tMedia Transport Elements (robot arms) :\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("\n\n\tMedia Transport Elements (robot arms) :\n"));
for ( x = 0; x < MTE; x++)
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"\t\tElement #%04d %c\n\t\t\tEXCEPT = %02x\n\t\t\tASC = %02X ASCQ = %02X\n\t\t\tType %d From = %04d\n\t\t\tTAG = %s\n",
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("\t\tElement #%04d %c\n\t\t\tEXCEPT = %02x\n\t\t\tASC = %02X ASCQ = %02X\n\t\t\tType %d From = %04d\n\t\t\tTAG = %s\n"),
pMTE[x].address, pMTE[x].status, pMTE[x].except, pMTE[x].ASC,
pMTE[x].ASCQ, pMTE[x].type, pMTE[x].from, pMTE[x].VolTag);
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"\n\n\tStorage Elements (Media slots) :\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("\n\n\tStorage Elements (Media slots) :\n"));
for ( x = 0; x < STE; x++)
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"\t\tElement #%04d %c\n\t\t\tEXCEPT = %02X\n\t\t\tASC = %02X ASCQ = %02X\n\t\t\tType %d From = %04d\n\t\t\tTAG = %s\n",
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("\t\tElement #%04d %c\n\t\t\tEXCEPT = %02X\n\t\t\tASC = %02X ASCQ = %02X\n\t\t\tType %d From = %04d\n\t\t\tTAG = %s\n"),
pSTE[x].address, pSTE[x].status, pSTE[x].except, pSTE[x].ASC,
pSTE[x].ASCQ, pSTE[x].type, pSTE[x].from, pSTE[x].VolTag);
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"\n\n\tData Transfer Elements (tape drives) :\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("\n\n\tData Transfer Elements (tape drives) :\n"));
for ( x = 0; x < DTE; x++)
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"\t\tElement #%04d %c\n\t\t\tEXCEPT = %02X\n\t\t\tASC = %02X ASCQ = %02X\n\t\t\tType %d From = %04d\n\t\t\tTAG = %s\n\t\t\tSCSI ADDRESS = %d\n",
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("\t\tElement #%04d %c\n\t\t\tEXCEPT = %02X\n\t\t\tASC = %02X ASCQ = %02X\n\t\t\tType %d From = %04d\n\t\t\tTAG = %s\n\t\t\tSCSI ADDRESS = %d\n"),
pDTE[x].address, pDTE[x].status, pDTE[x].except, pDTE[x].ASC,
pDTE[x].ASCQ, pDTE[x].type, pDTE[x].from, pDTE[x].VolTag,pDTE[x].scsi);
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"\n\n\tImport/Export Elements :\n");
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("\n\n\tImport/Export Elements :\n"));
for ( x = 0; x < IEE; x++)
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"\t\tElement #%04d %c\n\t\t\tEXCEPT = %02X\n\t\t\t\tASC = %02X ASCQ = %02X\n\t\t\tType %d From = %04d\n\t\t\tTAG = %s\n",
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,_("\t\tElement #%04d %c\n\t\t\tEXCEPT = %02X\n\t\t\t\tASC = %02X ASCQ = %02X\n\t\t\tType %d From = %04d\n\t\t\tTAG = %s\n"),
pIEE[x].address, pIEE[x].status, pIEE[x].except, pIEE[x].ASC,
pIEE[x].ASCQ, pIEE[x].type, pIEE[x].from, pIEE[x].VolTag);
CDB_T CDB;
int ret;
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START RequestSense\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### START RequestSense\n"));
CDB[0] = SC_COM_REQUEST_SENSE; /* REQUEST SENSE */
CDB[1] = 0; /* Logical Unit Number = 0, Reserved */
if (ret < 0)
{
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP RequestSense (%d)\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP RequestSense (%d)\n"),ret);
return(ret);
/*NOTREACHED*/
}
if ( ret > 0)
{
DecodeExtSense(ExtendedRequestSense, "RequestSense : ",debug_file);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP RequestSense (%d)\n", ExtendedRequestSense->SenseKey);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP RequestSense (%d)\n"), ExtendedRequestSense->SenseKey);
return(ExtendedRequestSense->SenseKey);
/*NOTREACHED*/
}
dump_hex((u_char *)ExtendedRequestSense ,
SIZEOF(ExtendedRequestSense_T),
DEBUG_INFO, SECTION_SCSI);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP RequestSense (0)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP RequestSense (0)\n"));
return(0);
}
{
size_t x;
- dbprintf(("##### START LookupElement\n"));
+ dbprintf(_("##### START LookupElement\n"));
if (DTE > 0)
{
{
if (pDTE[x].address == address)
{
- dbprintf(("##### STOP LookupElement (DTE)\n"));
+ dbprintf(_("##### STOP LookupElement (DTE)\n"));
return(&pDTE[x]);
/*NOTREACHED*/
}
{
if (pMTE[x].address == address)
{
- dbprintf(("##### STOP LookupElement (MTE)\n"));
+ dbprintf(_("##### STOP LookupElement (MTE)\n"));
return(&pMTE[x]);
/*NOTREACHED*/
}
{
if (pSTE[x].address == address)
{
- dbprintf(("##### STOP LookupElement (STE)\n"));
+ dbprintf(_("##### STOP LookupElement (STE)\n"));
return(&pSTE[x]);
/*NOTREACHED*/
}
{
if (pIEE[x].address == address)
{
- dbprintf(("##### STOP LookupElement (IEE)\n"));
+ dbprintf(_("##### STOP LookupElement (IEE)\n"));
return(&pIEE[x]);
/*NOTREACHED*/
}
(void)DeviceFD; /* Quiet unused parameter warning */
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### START LogSense\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### START LogSense\n"));
if ((tapestatfile != NULL) && (pDev[INDEX_TAPECTL].SCSI == 1) &&
((StatFile = fopen(tapestatfile,"a")) != NULL))
if (GenericRewind(INDEX_TAPECTL) < 0)
{
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"LogSense : Rewind failed\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("LogSense : Rewind failed\n"));
free(pRequestSense);
fclose(StatFile);
return(0);
if ((chgscsi_result = (char *)tape_rdlabel(pDev[INDEX_TAPE].dev, &chgscsi_datestamp, &chgscsi_label)) == NULL)
{
- fprintf(StatFile, "==== %s ==== %s ====\n", chgscsi_datestamp, chgscsi_label);
+ g_fprintf(StatFile, _("==== %s ==== %s ====\n"), chgscsi_datestamp, chgscsi_label);
} else {
- fprintf(StatFile, "%s\n", chgscsi_result);
+ g_fprintf(StatFile, "%s\n", chgscsi_result);
}
}
if ((strcmp(pDev[INDEX_TAPECTL].ident, p->ident) == 0 ||strcmp("*", p->ident) == 0) && p->LogPage == logpages[count]) {
p->decode(LogParameter, length);
found = 1;
- fprintf(StatFile, "\n");
+ g_fprintf(StatFile, "\n");
break;
}
p++;
}
if (!found) {
- fprintf(StatFile, "Logpage No %d = %x\n", count ,logpages[count]);
+ g_fprintf(StatFile, _("Logpage No %d = %x\n"), count ,logpages[count]);
while ((u_char *)LogParameter < (buffer + length)) {
i = LogParameter->ParameterLength;
switch (i) {
case 1:
value = V1((u_char *)LogParameter + SIZEOF(LogParameter_T));
- fprintf(StatFile, "ParameterCode %02X = %u(%d)\n", ParameterCode, value, i);
+ g_fprintf(StatFile, _("ParameterCode %02X = %u(%d)\n"), ParameterCode, value, i);
break;
case 2:
value = V2((u_char *)LogParameter + SIZEOF(LogParameter_T));
- fprintf(StatFile, "ParameterCode %02X = %u(%d)\n", ParameterCode, value, i);
+ g_fprintf(StatFile, _("ParameterCode %02X = %u(%d)\n"), ParameterCode, value, i);
break;
case 3:
value = V3((u_char *)LogParameter + SIZEOF(LogParameter_T));
- fprintf(StatFile, "ParameterCode %02X = %u(%d)\n", ParameterCode, value, i);
+ g_fprintf(StatFile, _("ParameterCode %02X = %u(%d)\n"), ParameterCode, value, i);
break;
case 4:
value = V4((u_char *)LogParameter + SIZEOF(LogParameter_T));
- fprintf(StatFile, "ParameterCode %02X = %u(%d)\n", ParameterCode, value, i);
+ g_fprintf(StatFile, _("ParameterCode %02X = %u(%d)\n"), ParameterCode, value, i);
break;
case 5:
value = V5((u_char *)LogParameter + SIZEOF(LogParameter_T));
- fprintf(StatFile, "ParameterCode %02X = %u(%d)\n", ParameterCode, value, i);
+ g_fprintf(StatFile, _("ParameterCode %02X = %u(%d)\n"), ParameterCode, value, i);
break;
default:
- fprintf(StatFile, "ParameterCode %02X size %d\n", ParameterCode, i);
+ g_fprintf(StatFile, _("ParameterCode %02X size %d\n"), ParameterCode, i);
}
LogParameter = (LogParameter_T *)((u_char *)LogParameter + SIZEOF(LogParameter_T) + i);
}
- fprintf(StatFile, "\n");
+ g_fprintf(StatFile, "\n");
}
}
}
/*@end@*/
fclose(StatFile);
}
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP LogSense\n");
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,_("##### STOP LogSense\n"));
return(0);
}
unsigned ParameterCode;
LogParameter = buffer;
- fprintf(StatFile, "\tWrite Error Counters Page\n");
+ g_fprintf(StatFile, _("\tWrite Error Counters Page\n"));
while ((u_char *)LogParameter < ((u_char *)buffer + length)) {
i = LogParameter->ParameterLength;
if (Decode(LogParameter, &value) == 0) {
switch (ParameterCode) {
case 2:
- fprintf(StatFile, "%-30s = %u\n",
- "Total Rewrites",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total Rewrites"),
value);
break;
case 3:
- fprintf(StatFile, "%-30s = %u\n",
- "Total Errors Corrected",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total Errors Corrected"),
value);
break;
case 4:
- fprintf(StatFile, "%-30s = %u\n",
- "Total Times E. Processed",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total Times E. Processed"),
value);
break;
case 5:
- fprintf(StatFile, "%-30s = %u\n",
- "Total Bytes Processed",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total Bytes Processed"),
value);
break;
case 6:
- fprintf(StatFile, "%-30s = %u\n",
- "Total Unrecoverable Errors",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total Unrecoverable Errors"),
value);
break;
default:
- fprintf(StatFile, "Unknown ParameterCode %02X = %u(%d)\n",
+ g_fprintf(StatFile, _("Unknown ParameterCode %02X = %u(%d)\n"),
ParameterCode,
value, i);
break;
}
} else {
- fprintf(StatFile, "Error decoding Result\n");
+ g_fprintf(StatFile, _("Error decoding Result\n"));
}
LogParameter = (LogParameter_T *)((u_char *)LogParameter + SIZEOF(LogParameter_T) + i);
}
unsigned ParameterCode;
LogParameter = buffer;
- fprintf(StatFile, "\tRead Error Counters Page\n");
+ g_fprintf(StatFile, _("\tRead Error Counters Page\n"));
while ((u_char *)LogParameter < ((u_char *)buffer + length)) {
i = LogParameter->ParameterLength;
if (Decode(LogParameter, &value) == 0) {
switch (ParameterCode) {
case 2:
- fprintf(StatFile, "%-30s = %u\n",
- "Total Rereads",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total Rereads"),
value);
break;
case 3:
- fprintf(StatFile, "%-30s = %u\n",
- "Total Errors Corrected",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total Errors Corrected"),
value);
break;
case 4:
- fprintf(StatFile, "%-30s = %u\n",
- "Total Times E. Processed",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total Times E. Processed"),
value);
break;
case 5:
- fprintf(StatFile, "%-30s = %u\n",
- "Total Bytes Processed",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total Bytes Processed"),
value);
break;
case 6:
- fprintf(StatFile, "%-30s = %u\n",
- "Total Unrecoverable Errors",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total Unrecoverable Errors"),
value);
break;
default:
- fprintf(StatFile, "Unknown ParameterCode %02X = %u(%d)\n",
+ g_fprintf(StatFile, _("Unknown ParameterCode %02X = %u(%d)\n"),
ParameterCode,
value, i);
break;
}
} else {
- fprintf(StatFile, "Error decoding Result\n");
+ g_fprintf(StatFile, _("Error decoding Result\n"));
}
LogParameter = (LogParameter_T *)((u_char *)LogParameter + SIZEOF(LogParameter_T) + i);
}
unsigned ParameterCode;
LogParameter = buffer;
- fprintf(StatFile, "\tData compression transfer Page\n");
+ g_fprintf(StatFile, _("\tData compression transfer Page\n"));
while ((u_char *)LogParameter < ((u_char *)buffer + length)) {
i = LogParameter->ParameterLength;
if (Decode(LogParameter, &value) == 0) {
switch (ParameterCode) {
default:
- fprintf(StatFile, "Unknown ParameterCode %02X = %u(%d)\n",
+ g_fprintf(StatFile, _("Unknown ParameterCode %02X = %u(%d)\n"),
ParameterCode,
value, i);
break;
unsigned ParameterCode;
LogParameter = buffer;
- fprintf(StatFile, "\tDrive Counters Page\n");
+ g_fprintf(StatFile, _("\tDrive Counters Page\n"));
while ((u_char *)LogParameter < ((unsigned char *)buffer + length)) {
i = LogParameter->ParameterLength;
if (Decode(LogParameter, &value) == 0) {
switch (ParameterCode) {
case 1:
- fprintf(StatFile, "%-30s = %u\n",
- "Total loads",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total loads"),
value);
break;
case 2:
- fprintf(StatFile, "%-30s = %u\n",
- "Total write drive errors",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total write drive errors"),
value);
break;
case 3:
- fprintf(StatFile, "%-30s = %u\n",
- "Total read drive errors",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total read drive errors"),
value);
break;
default:
- fprintf(StatFile, "Unknown ParameterCode %02X = %u(%d)\n",
+ g_fprintf(StatFile, _("Unknown ParameterCode %02X = %u(%d)\n"),
ParameterCode,
value, i);
break;
unsigned ParameterCode;
LogParameter = buffer;
- fprintf(StatFile, "\tData Compression Page\n");
+ g_fprintf(StatFile, _("\tData Compression Page\n"));
while ((u_char *)LogParameter < ((unsigned char *)buffer + length)) {
i = LogParameter->ParameterLength;
if (Decode(LogParameter, &value) == 0) {
switch (ParameterCode) {
case 5:
- fprintf(StatFile, "%-30s = %u\n",
- "KB to Compressor",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("KB to Compressor"),
value);
break;
case 7:
- fprintf(StatFile, "%-30s = %u\n",
- "KB to tape",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("KB to tape"),
value);
break;
default:
- fprintf(StatFile, "Unknown ParameterCode %02X = %u(%d)\n",
+ g_fprintf(StatFile, _("Unknown ParameterCode %02X = %u(%d)\n"),
ParameterCode,
value, i);
break;
unsigned ParameterCode;
LogParameter = buffer;
- fprintf(StatFile, "\tDrive Usage Information Page\n");
+ g_fprintf(StatFile, _("\tDrive Usage Information Page\n"));
while ((u_char *)LogParameter < ((unsigned char *)buffer + length)) {
i = LogParameter->ParameterLength;
case 5:
break;
case 6:
- fprintf(StatFile, "%-30s = %u\n",
- "Total Load Count",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Total Load Count"),
value);
break;
case 7:
- fprintf(StatFile, "%-30s = %u\n",
- "MinutesSince Last Clean",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("MinutesSince Last Clean"),
value);
break;
case 8:
case 9:
break;
case 0xa:
- fprintf(StatFile, "%-30s = %u\n",
- "Cleaning Count",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Cleaning Count"),
value);
break;
case 0xb:
case 0x10:
break;
case 0x11:
- fprintf(StatFile, "%-30s = %u\n",
- "Time to clean",
+ g_fprintf(StatFile, _("%-30s = %u\n"),
+ _("Time to clean"),
value);
break;
case 0x12:
case 0x14:
break;
default:
- fprintf(StatFile, "Unknown ParameterCode %02X = %u(%d)\n",
+ g_fprintf(StatFile, _("Unknown ParameterCode %02X = %u(%d)\n"),
ParameterCode,
value, i);
break;
unsigned * value)
{
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START Decode\n");
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"Decode Parameter with length %d\n", LogParameter->ParameterLength);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### START Decode\n"));
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("Decode Parameter with length %d\n"), LogParameter->ParameterLength);
*value = 0;
switch (LogParameter->ParameterLength) {
*value = V6((u_char *)LogParameter + SIZEOF(LogParameter_T));
break;
default:
- fprintf(StatFile, "Can't decode ParameterCode %02X size %d\n",
+ g_fprintf(StatFile, _("Can't decode ParameterCode %02X size %d\n"),
V2(LogParameter->ParameterCode), LogParameter->ParameterLength);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP Decode (1)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP Decode (1)\n"));
return(1);
/*NOTREACHED*/
}
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"Result = %d\n", *value);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP Decode(0)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("Result = %d\n"), *value);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP Decode(0)\n"));
return(0);
}
{
if (p != NULL)
{
- printf("%s Devicefd %d\n", device, p->fd);
- printf("%s Can SCSI %d\n", device, p->SCSI);
- printf("%s Device %s\n", device, (p->dev != NULL)? p->dev:"No set");
- printf("%s ConfigName %s\n", device, (p->ConfigName != NULL) ? p->ConfigName:"Not ser");
+ g_printf(_("%s Devicefd %d\n"), device, p->fd);
+ g_printf(_("%s Can SCSI %d\n"), device, p->SCSI);
+ g_printf(_("%s Device %s\n"), device, (p->dev != NULL)? p->dev:_("No set"));
+ g_printf(_("%s ConfigName %s\n"), device, (p->ConfigName != NULL) ? p->ConfigName:_("Not ser"));
} else {
- printf("%s Null Pointer ....\n", device);
+ g_printf(_("%s Null Pointer ....\n"), device);
}
- printf("\n");
+ g_printf(_("\n"));
}
void
if ((out = fdopen(1 , "w")) == NULL)
{
- printf("Error fdopen stdout\n");
+ g_printf(_("Error fdopen stdout\n"));
free(pbarcoderes);
return;
/*NOTREACHED*/
{
while(p->ident != NULL)
{
- printf ("Ident = %s, type = %s\n",p->ident, p->type);
+ g_printf (_("Ident = %s, type = %s\n"),p->ident, p->type);
p++;
}
DumpSense();
{
if (pDev[INDEX_CHANGER].functions->function_status(pDev[INDEX_CHANGER].fd, 1) != 0)
{
- printf("Can not initialize changer status\n");
+ g_printf(_("Can not initialize changer status\n"));
free(pbarcoderes);
fclose(out);
return;
/* 0123456789012345678901234567890123456789012 */
if (HasBarCode)
{
- printf("Address Type Status From Barcode Label\n");
+ g_printf(_("Address Type Status From Barcode Label\n"));
} else {
- printf("Address Type Status From\n");
+ g_printf(_("Address Type Status From\n"));
}
- printf("-------------------------------------------\n");
+ g_printf(_("-------------------------------------------\n"));
for ( x = 0; x < MTE; x++)
if (HasBarCode)
{
- printf("%07d MTE %s %04d %s ",pMTE[x].address,
- (pMTE[x].full ? "Full " :"Empty"),
+ g_printf(_("%07d MTE %s %04d %s "),pMTE[x].address,
+ (pMTE[x].full ? _("Full ") :_("Empty")),
pMTE[x].from, pMTE[x].VolTag);
if (pMTE[x].full == 1)
if (MapBarCode(labelfile, pbarcoderes) == 0 )
{
- printf("No mapping\n");
+ g_printf(_("No mapping\n"));
} else {
- printf("%s \n",pbarcoderes->data.voltag);
+ g_printf(_("%s \n"),pbarcoderes->data.voltag);
}
} else {
- printf("\n");
+ g_printf("\n");
}
} else {
- printf("%07d MTE %s %04d \n",pMTE[x].address,
- (pMTE[x].full ? "Full " :"Empty"),
+ g_printf(_("%07d MTE %s %04d \n"),pMTE[x].address,
+ (pMTE[x].full ? _("Full ") :_("Empty")),
pMTE[x].from);
}
for ( x = 0; x < STE; x++)
if (HasBarCode)
{
- printf("%07d STE %s %04d %s ",pSTE[x].address,
- (pSTE[x].full ? "Full ":"Empty"),
+ g_printf(_("%07d STE %s %04d %s "),pSTE[x].address,
+ (pSTE[x].full ? _("Full "):_("Empty")),
pSTE[x].from, pSTE[x].VolTag);
if (pSTE[x].full == 1)
if (MapBarCode(labelfile, pbarcoderes) == 0 )
{
- printf("No mapping\n");
+ g_printf(_("No mapping\n"));
} else {
- printf("%s \n",pbarcoderes->data.voltag);
+ g_printf(_("%s \n"),pbarcoderes->data.voltag);
}
} else {
- printf("\n");
+ g_printf("\n");
}
} else {
- printf("%07d STE %s %04d %s\n",pSTE[x].address,
- (pSTE[x].full ? "Full ":"Empty"),
+ g_printf(_("%07d STE %s %04d %s\n"),pSTE[x].address,
+ (pSTE[x].full ? _("Full"):_("Empty")),
pSTE[x].from, pSTE[x].VolTag);
}
for ( x = 0; x < DTE; x++)
if (HasBarCode)
{
- printf("%07d DTE %s %04d %s ",pDTE[x].address,
- (pDTE[x].full ? "Full " : "Empty"),
+ g_printf(_("%07d DTE %s %04d %s "),pDTE[x].address,
+ (pDTE[x].full ? _("Full") : _("Empty")),
pDTE[x].from, pDTE[x].VolTag);
if (pDTE[x].full == 1)
if (MapBarCode(labelfile, pbarcoderes) == 0 )
{
- printf("No mapping\n");
+ g_printf(_("No mapping\n"));
} else {
- printf("%s \n",pbarcoderes->data.voltag);
+ g_printf("%s \n",pbarcoderes->data.voltag);
}
} else {
- printf("\n");
+ g_printf("\n");
}
} else {
- printf("%07d DTE %s %04d %s\n",pDTE[x].address,
- (pDTE[x].full ? "Full " : "Empty"),
+ g_printf(_("%07d DTE %s %04d %s\n"),pDTE[x].address,
+ (pDTE[x].full ?_( "Full ") : _("Empty")),
pDTE[x].from, pDTE[x].VolTag);
}
for ( x = 0; x < IEE; x++)
if (HasBarCode)
{
- printf("%07d IEE %s %04d %s ",pIEE[x].address,
- (pIEE[x].full ? "Full " : "Empty"),
+ g_printf(_("%07d IEE %s %04d %s "),pIEE[x].address,
+ (pIEE[x].full ? _("Full ") : _("Empty")),
pIEE[x].from, pIEE[x].VolTag);
if (pIEE[x].full == 1)
if (MapBarCode(labelfile, pbarcoderes) == 0 )
{
- printf("No mapping\n");
+ g_printf(_("No mapping\n"));
} else {
- printf("%s \n",pbarcoderes->data.voltag);
+ g_printf(_("%s \n"),pbarcoderes->data.voltag);
}
} else {
- printf("\n");
+ g_printf("\n");
}
} else {
- printf("%07d IEE %s %04d %s\n",pIEE[x].address,
- (pIEE[x].full ? "Full " : "Empty"),
+ g_printf(_("%07d IEE %s %04d %s\n"),pIEE[x].address,
+ (pIEE[x].full ? _("Full ") : _("Empty")),
pIEE[x].from, pIEE[x].VolTag);
}
{
if (pDev[INDEX_CHANGER].SCSI == 1)
{
- printf("\nSense Status from robot:\n");
+ g_printf(_("\nSense Status from robot:\n"));
RequestSense(INDEX_CHANGER , &ExtRequestSense, 0);
DecodeExtSense(&ExtRequestSense, "", out);
}
if (pDev[INDEX_TAPE].SCSI == 1)
{
- printf("\n");
- printf("Sense Status from tape (tapectl):\n");
+ g_printf("\n");
+ g_printf(_("Sense Status from tape (tapectl):\n"));
RequestSense(INDEX_TAPE, &ExtRequestSense, 0);
DecodeExtSense(&ExtRequestSense, "", out);
}
if (pDev[INDEX_TAPECTL].SCSI == 1)
{
- printf("\n");
- printf("Sense Status from tape (tapectl):\n");
+ g_printf("\n");
+ g_printf(_("Sense Status from tape (tapectl):\n"));
RequestSense(INDEX_TAPECTL, &ExtRequestSense, 0);
DecodeExtSense(&ExtRequestSense, "", out);
}
if (strcmp("ModeSenseRobot", option) == 0 || strcmp("all", option) == 0)
{
- printf("\n");
+ g_printf("\n");
if (SCSI_ModeSense(INDEX_CHANGER, pModePage, 0xff, 0x08, 0x3f) == 0)
{
DecodeModeSense(pModePage, 0, "Changer :" , 0, out);
{
if (pDev[INDEX_TAPECTL].SCSI == 1)
{
- printf("\n");
+ g_printf("\n");
if (SCSI_ModeSense(INDEX_TAPECTL, pModePage, 0xff, 0x0, 0x3f) == 0)
{
DecodeModeSense(pModePage, 0, "Tape :" , 1, out);
if (strcmp("fd", option) == 0 || strcmp("all", option) == 0)
{
- printf("changer_dev %s\n",changer_dev);
- printf("changer_file %s\n", changer_file);
- printf("tape_device %s\n\n", tape_device);
+ g_printf("changer_dev %s\n",changer_dev);
+ g_printf("changer_file %s\n", changer_file);
+ g_printf("tape_device %s\n\n", tape_device);
DumpDev(&pDev[INDEX_TAPE], "pTapeDev");
DumpDev(&pDev[INDEX_TAPECTL], "pTapeDevCtl");
DumpDev(&pDev[INDEX_CHANGER], "pChangerDev");
}
if (GenericClean("") == 1)
- printf("Tape needs cleaning\n");
+ g_printf(_("Tape needs cleaning\n"));
free(pbarcoderes);
fclose(out);
DebugPrint(level, section,"%02X ", (u_char)p[row_count]);
if (((row_count + 1) % 16) == 0)
{
- dbprintf((" "));
+ dbprintf(" ");
for (x = 16; x > 0; x--)
{
if (isalnum((u_char)p[row_count - x + 1 ]))
{
(void)level; /* Quiet unused parameter warning */
- dbprintf(("ChgExit in %s, reason %s\n", where, reason));
- fprintf(stderr,"%s\n",reason);
+ dbprintf(_("ChgExit in %s, reason %s\n"), where, reason);
+ g_fprintf(stderr,"%s\n",reason);
exit(2);
}
pRqS = (RequestSense_T *)pRequestSense;
- DebugPrint(DEBUG_INFO, SECTION_SCSI, "SCSI_Run TestUnitReady\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI, _("SCSI_Run TestUnitReady\n"));
while (!ok && maxtries < MAXTRIES)
{
ret = SCSI_TestUnitReady(DeviceFD, (RequestSense_T *)pRequestSense );
- DebugPrint(DEBUG_INFO, SECTION_SCSI, "SCSI_Run TestUnitReady ret %d\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI, _("SCSI_Run TestUnitReady ret %d\n"),ret);
switch (ret)
{
case SCSI_OK:
switch (SenseHandler(DeviceFD, 0, pRqS->SenseKey, pRqS->AdditionalSenseCode, pRqS->AdditionalSenseCodeQualifier, pRqS))
{
case SENSE_NO:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run (TestUnitReady) SENSE_NO\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run (TestUnitReady) SENSE_NO\n"));
ok=1;
break;
case SENSE_TAPE_NOT_ONLINE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n"));
ok=1;
break;
case SENSE_IGNORE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run (TestUnitReady) SENSE_IGNORE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run (TestUnitReady) SENSE_IGNORE\n"));
ok=1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Run (TestUnitReady) SENSE_ABORT\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("SCSI_Run (TestUnitReady) SENSE_ABORT\n"));
return(-1);
/*NOTREACHED*/
case SENSE_RETRY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run (TestUnitReady) SENSE_RETRY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run (TestUnitReady) SENSE_RETRY\n"));
break;
default:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run (TestUnitReady) default (SENSE)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run (TestUnitReady) default (SENSE)\n"));
ok=1;
break;
}
break;
case SCSI_ERROR:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Run (TestUnitReady) SCSI_ERROR\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("SCSI_Run (TestUnitReady) SCSI_ERROR\n"));
return(-1);
/*NOTREACHED*/
case SCSI_BUSY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run (TestUnitReady) SCSI_BUSY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run (TestUnitReady) SCSI_BUSY\n"));
break;
case SCSI_CHECK:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run (TestUnitReady) SCSI_CHECK\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run (TestUnitReady) SCSI_CHECK\n"));
break;
default:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Run (TestUnitReady) unknown (%d)\n",ret);
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("SCSI_Run (TestUnitReady) unknown (%d)\n"),ret);
break;
}
if (!ok)
}
}
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run TestUnitReady after %d sec:\n",maxtries);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run TestUnitReady after %d sec:\n"),maxtries);
if (ok != 1)
{
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Run Exit %d\n",ret);
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("SCSI_Run Exit %d\n"),ret);
return(-1);
/*NOTREACHED*/
}
pRequestSense,
RequestSenseLength);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run Exit %d\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run Exit %d\n"),ret);
switch (ret)
{
case SCSI_OK:
switch (SenseHandler(DeviceFD, 0, pRqS->SenseKey, pRqS->AdditionalSenseCode, pRqS->AdditionalSenseCodeQualifier, pRqS))
{
case SENSE_NO:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run SENSE_NO\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run SENSE_NO\n"));
ok=1;
break;
case SENSE_TAPE_NOT_ONLINE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run SENSE_TAPE_NOT_ONLINE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run SENSE_TAPE_NOT_ONLINE\n"));
ok=1;
break;
case SENSE_IGNORE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run SENSE_IGNORE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run SENSE_IGNORE\n"));
ok=1;
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Run SENSE_ABORT\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("SCSI_Run SENSE_ABORT\n"));
return(-1);
/*NOTREACHED*/
case SENSE_RETRY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run SENSE_RETRY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run SENSE_RETRY\n"));
break;
default:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run default (SENSE)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run default (SENSE)\n"));
ok=1;
break;
}
break;
case SCSI_ERROR:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Run SCSI_ERROR\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("SCSI_Run SCSI_ERROR\n"));
return(-1);
/*NOTREACHED*/
case SCSI_BUSY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run SCSI_BUSY\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run SCSI_BUSY\n"));
break;
case SCSI_CHECK:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run (TestUnitReady) SCSI_CHECK\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Run (TestUnitReady) SCSI_CHECK\n"));
break;
default:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Run (TestUnitReady) unknown (%d)\n",ret);
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("SCSI_Run (TestUnitReady) unknown (%d)\n"),ret);
break;
}
maxtries++;
int ret;
int i;
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START SCSI_AlignElements\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### START SCSI_AlignElements\n"));
pRequestSense = alloc(SIZEOF(RequestSense_T));
ret = SCSI_Run(DeviceFD, Input, CDB, 12,
NULL, 0, pRequestSense, SIZEOF(RequestSense_T));
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_AlignElements : SCSI_Run = %d\n", ret);
- DecodeSense(pRequestSense, "SCSI_AlignElements :",debug_file);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_AlignElements : SCSI_Run = %d\n"), ret);
+ DecodeSense(pRequestSense, _("SCSI_AlignElements :"),debug_file);
if (ret < 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"%s: Request Sense[Inquiry]: %02X",
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("%s: Request Sense[Inquiry]: %02X"),
"chs", ((u_char *) &pRequestSense)[0]);
for (i = 1; i < (int)sizeof(RequestSense_T); i++)
DebugPrint(DEBUG_ERROR, SECTION_SCSI," %02X", ((u_char *) &pRequestSense)[i]);
switch(SenseHandler(DeviceFD, 0 , pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_AlignElements : SENSE_IGNORE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_AlignElements : SENSE_IGNORE\n"));
return(0);
/*NOTREACHED*/
case SENSE_RETRY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_AlignElements : SENSE_RETRY no %d\n", retry);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_AlignElements : SENSE_RETRY no %d\n"), retry);
break;
case SENSE_ABORT:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_AlignElements : SENSE_ABORT\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("SCSI_AlignElements : SENSE_ABORT\n"));
return(-1);
/*NOTREACHED*/
case SENSE_TAPE_NOT_UNLOADED:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_AlignElements : Tape still loaded, eject failed\n");
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("SCSI_AlignElements : Tape still loaded, eject failed\n"));
return(-1);
/*NOTREACHED*/
default:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_AlignElements : end %d\n", pRequestSense->SenseKey);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_AlignElements : end %d\n"), pRequestSense->SenseKey);
return(pRequestSense->SenseKey);
/*NOTREACHED*/
}
}
if (ret == 0)
{
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_AlignElements : end %d\n", ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_AlignElements : end %d\n"), ret);
return(ret);
/*NOTREACHED*/
}
}
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_AlignElements :"
- "Retries exceeded = %d\n", retry);
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,
+ _("SCSI_AlignElements: Retries exceeded = %d\n"), retry);
return(-1);
}
int ret = -1;
int i;
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START SCSI_Move\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### START SCSI_Move\n"));
pRequestSense = alloc(SIZEOF(RequestSense_T));
ret = SCSI_Run(DeviceFD, Input, CDB, 12,
NULL, 0, pRequestSense, SIZEOF(RequestSense_T));
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Move : SCSI_Run = %d\n", ret);
- DecodeSense(pRequestSense, "SCSI_Move :",debug_file);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Move : SCSI_Run = %d\n"), ret);
+ DecodeSense(pRequestSense, _("SCSI_Move :"),debug_file);
if (ret < 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"%s: Request Sense[Inquiry]: %02X",
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("%s: Request Sense[Inquiry]: %02X"),
"chs", ((u_char *) &pRequestSense)[0]);
for (i = 1; i < (int)sizeof(RequestSense_T); i++)
DebugPrint(DEBUG_ERROR, SECTION_SCSI," %02X", ((u_char *) &pRequestSense)[i]);
switch(SenseHandler(DeviceFD, 0 , pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
- dbprintf(("SCSI_Move : SENSE_IGNORE\n"));
+ dbprintf(_("SCSI_Move : SENSE_IGNORE\n"));
return(0);
/*NOTREACHED*/
case SENSE_RETRY:
- dbprintf(("SCSI_Move : SENSE_RETRY no %d\n", retry));
+ dbprintf(_("SCSI_Move : SENSE_RETRY no %d\n"), retry);
break;
case SENSE_ABORT:
- dbprintf(("SCSI_Move : SENSE_ABORT\n"));
+ dbprintf(_("SCSI_Move : SENSE_ABORT\n"));
return(-1);
/*NOTREACHED*/
case SENSE_TAPE_NOT_UNLOADED:
- dbprintf(("SCSI_Move : Tape still loaded, eject failed\n"));
+ dbprintf(_("SCSI_Move : Tape still loaded, eject failed\n"));
return(-1);
/*NOTREACHED*/
default:
- dbprintf(("SCSI_Move : end %d\n", pRequestSense->SenseKey));
+ dbprintf(_("SCSI_Move : end %d\n"), pRequestSense->SenseKey);
return(pRequestSense->SenseKey);
/*NOTREACHED*/
}
}
}
- dbprintf(("SCSI_Move : end %d\n", ret));
+ dbprintf(_("SCSI_Move : end %d\n"), ret);
return(ret);
}
CDB_T CDB;
int ret;
- dbprintf(("##### START SCSI_LoadUnload\n"));
+ dbprintf(_("##### START SCSI_LoadUnload\n"));
CDB[0] = SC_COM_UNLOAD;
CDB[1] = byte1;
if (ret < 0)
{
- dbprintf(("SCSI_Unload : failed %d\n", ret));
+ dbprintf(_("SCSI_Unload : failed %d\n"), ret);
return(-1);
/*NOTREACHED*/
}
- dbprintf(("##### STOP SCSI_LoadUnload\n"));
+ dbprintf(_("##### STOP SCSI_LoadUnload\n"));
return(ret);
}
CDB_T CDB;
int ret;
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START SCSI_TestUnitReady\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### START SCSI_TestUnitReady\n"));
CDB[0] = SC_COM_TEST_UNIT_READY;
CDB[1] = 0;
*/
if (ret > 0)
{
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"###### STOP SCSI_TestUnitReady (1)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("###### STOP SCSI_TestUnitReady (1)\n"));
return(ret);
/*NOTREACHED*/
}
*/
if (pRequestSense->ErrorCode == 0 && pRequestSense->SenseKey == 0)
{
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"###### STOP SCSI_TestUnitReady (1)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("###### STOP SCSI_TestUnitReady (1)\n"));
return(0);
/*NOTREACHED*/
}
* Some sense is set
*/
if (pRequestSense->ErrorCode != 0){
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"###### STOP SCSI_TestUnitReady ErrorCode set\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("###### STOP SCSI_TestUnitReady ErrorCode set\n"));
}
if (pRequestSense->SenseKey != 0) {
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"###### STOP SCSI_TestUnitReady Sense Key set\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("###### STOP SCSI_TestUnitReady Sense Key set\n"));
}
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"###### STOP SCSI_TestUnitReady (0)\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("###### STOP SCSI_TestUnitReady (0)\n"));
return(SCSI_SENSE);
}
int retry;
u_char *sendbuf;
- dbprintf(("##### START SCSI_ModeSelect\n"));
+ dbprintf(_("##### START SCSI_ModeSelect\n"));
- dbprintf(("SCSI_ModeSelect start length = %u:\n", (unsigned)length));
+ dbprintf(_("SCSI_ModeSelect start length = %u:\n"), (unsigned)length);
pRequestSense = alloc(SIZEOF(RequestSense_T));
sendbuf = alloc((size_t)length + 4);
memset(sendbuf, 0 , (size_t)length + 4);
SIZEOF(RequestSense_T));
if (ret < 0)
{
- dbprintf(("SCSI_ModeSelect : ret %d\n", ret));
+ dbprintf(_("SCSI_ModeSelect : ret %d\n"), ret);
goto done;
/*NOTREACHED*/
}
pRequestSense))
{
case SENSE_IGNORE:
- dbprintf(("SCSI_ModeSelect : SENSE_IGNORE\n"));
+ dbprintf(_("SCSI_ModeSelect : SENSE_IGNORE\n"));
goto done;
/*NOTREACHED*/
case SENSE_RETRY:
- dbprintf(("SCSI_ModeSelect : SENSE_RETRY no %d\n", retry));
+ dbprintf(_("SCSI_ModeSelect : SENSE_RETRY no %d\n"), retry);
break;
default:
}
}
end:
- dbprintf(("SCSI_ModeSelect end: %d\n", ret));
+ dbprintf(_("SCSI_ModeSelect end: %d\n"), ret);
done:
free(pRequestSense);
int ret = 1;
int retry = 1;
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START SCSI_ModeSense\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### START SCSI_ModeSense\n"));
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense start length = %d:\n", size);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ModeSense start length = %d:\n"), size);
pRequestSense = alloc(SIZEOF(RequestSense_T));
while (ret && retry < MAX_RETRIES)
switch(SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : SENSE_IGNORE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ModeSense : SENSE_IGNORE\n"));
return(0);
/*NOTREACHED*/
case SENSE_RETRY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : SENSE_RETRY no %d\n", retry);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ModeSense : SENSE_RETRY no %d\n"), retry);
break;
default:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : end %d\n", pRequestSense->SenseKey);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ModeSense : end %d\n"), pRequestSense->SenseKey);
return(pRequestSense->SenseKey);
/*NOTREACHED*/
}
retry++;
}
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense end: %d\n", ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ModeSense end: %d\n"), ret);
return(ret);
}
assert(size <= UCHAR_MAX);
- DebugPrint(DEBUG_INFO, SECTION_SCSI, "##### START SCSI_Inquiry\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI, _("##### START SCSI_Inquiry\n"));
- DebugPrint(DEBUG_INFO, SECTION_SCSI, "SCSI_Inquiry start length = %d:\n", size);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI, _("SCSI_Inquiry start length = %d:\n"), size);
pRequestSense = alloc((size_t)size);
SIZEOF(RequestSense_T));
if (ret < 0)
{
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"%s: Request Sense[Inquiry]: %02X",
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI,_("%s: Request Sense[Inquiry]: %02X"),
"chs", ((u_char *) pRequestSense)[0]);
for (i = 1; i < (int)sizeof(RequestSense_T); i++)
DebugPrint(DEBUG_ERROR, SECTION_SCSI," %02X", ((u_char *) pRequestSense)[i]);
DebugPrint(DEBUG_ERROR, SECTION_SCSI, "\n");
- DebugPrint(DEBUG_ERROR, SECTION_SCSI, "Inquiry end: %d\n", ret);
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI, _("Inquiry end: %d\n"), ret);
return(ret);
/*NOTRACHED*/
}
switch(SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Inquiry : SENSE_IGNORE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Inquiry : SENSE_IGNORE\n"));
return(0);
/*NOTREACHED*/
case SENSE_RETRY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI, "SCSI_Inquiry : SENSE_RETRY no %d\n", retry);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI, _("SCSI_Inquiry : SENSE_RETRY no %d\n"), retry);
break;
default:
- DebugPrint(DEBUG_ERROR, SECTION_SCSI, "SCSI_Inquiry : end %d\n", pRequestSense->SenseKey);
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI, _("SCSI_Inquiry : end %d\n"), pRequestSense->SenseKey);
return(pRequestSense->SenseKey);
/*NOTREACHED*/
}
if (ret == 0)
{
dump_hex((u_char *)buffer, size, DEBUG_INFO, SECTION_SCSI);
- DebugPrint(DEBUG_INFO, SECTION_SCSI, "SCSI_Inquiry : end %d\n", ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI, _("SCSI_Inquiry : end %d\n"), ret);
return(ret);
/*NOTRACHED*/
}
}
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Inquiry end: %d\n", ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_Inquiry end: %d\n"), ret);
return(ret);
}
int retry = 1;
int ret = -1;
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START SCSI_ReadElementStatus\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### START SCSI_ReadElementStatus\n"));
pRequestSense = alloc(SIZEOF(RequestSense_T));
*/
if (NoOfElements == 0)
{
- ChgExit("SCSI_ReadElementStatus","No of Elements passed are le 0",FATAL);
+ ChgExit("SCSI_ReadElementStatus",_("No of Elements passed are le 0"),FATAL);
/*NOTREACHED*/
}
*data, 8,
pRequestSense, SIZEOF(RequestSense_T));
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ReadElementStatus : (1) SCSI_Run %d\n", ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ReadElementStatus : (1) SCSI_Run %d\n"), ret);
if (ret < 0)
{
DecodeSense(pRequestSense, "SCSI_ReadElementStatus :",debug_file);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP SCSI_ReadElementStatus (%d)\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP SCSI_ReadElementStatus (%d)\n"),ret);
return(ret);
/*NOTRACHED*/
}
switch(SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : SENSE_IGNORE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ModeSense : SENSE_IGNORE\n"));
retry = 0;
break;
case SENSE_RETRY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : SENSE_RETRY no %d\n", retry);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ModeSense : SENSE_RETRY no %d\n"), retry);
sleep(2);
break;
default:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : end %d\n", pRequestSense->SenseKey);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ModeSense : end %d\n"), pRequestSense->SenseKey);
return(pRequestSense->SenseKey);
/*NOTREACHED*/
}
}
if (retry > 0)
{
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP SCSI_ReadElementStatus (%d)\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP SCSI_ReadElementStatus (%d)\n"),ret);
return(ret);
/*NOTRACHED*/
}
ElementStatusData = (ElementStatusData_T *)*data;
DataBufferLength = V3(ElementStatusData->count);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ReadElementStatus: DataBufferLength %X, ret %d\n",DataBufferLength, ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ReadElementStatus: DataBufferLength %X, ret %d\n"),DataBufferLength, ret);
dump_hex(*data, 8, DEBUG_INFO, SECTION_ELEMENT);
} else { /* DescriptorSize != 0 */
pRequestSense, SIZEOF(RequestSense_T));
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ReadElementStatus : (2) SCSI_Run %d\n", ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ReadElementStatus : (2) SCSI_Run %d\n"), ret);
if (ret < 0)
{
- DecodeSense(pRequestSense, "SCSI_ReadElementStatus :",debug_file);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP SCSI_ReadElementStatus (%d)\n",ret);
+ DecodeSense(pRequestSense, _("SCSI_ReadElementStatus :"),debug_file);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP SCSI_ReadElementStatus (%d)\n"),ret);
return(ret);
/*NOTRACHED*/
}
switch(SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : SENSE_IGNORE\n");
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ModeSense : SENSE_IGNORE\n"));
retry = 0;
break;
case SENSE_RETRY:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : SENSE_RETRY no %d\n", retry);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ModeSense : SENSE_RETRY no %d\n"), retry);
sleep(2);
break;
default:
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : end %d\n", pRequestSense->SenseKey);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("SCSI_ModeSense : end %d\n"), pRequestSense->SenseKey);
return(pRequestSense->SenseKey);
/*NOTREACHED*/
}
if (retry > 0)
{
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP SCSI_ReadElementStatus (%d)\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP SCSI_ReadElementStatus (%d)\n"),ret);
return(ret);
/*NOTRACHED*/
}
dump_hex(*data, DataBufferLength, DEBUG_INFO, SECTION_SCSI);
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP SCSI_ReadElementStatus (%d)\n",ret);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,_("##### STOP SCSI_ReadElementStatus (%d)\n"),ret);
return(ret);
}
if (changer->debuglevel)
{
if (sscanf(changer->debuglevel,"%d:%d", &dlevel, &dsection) != 2) {
- dbprintf(("Parse error: line is '%s' expected [0-9]*:[0-9]*\n",
- changer->debuglevel));
+ dbprintf(_("Parse error: line is '%s' expected [0-9]*:[0-9]*\n"),
+ changer->debuglevel);
dlevel=1;
dsection=1;
}
}
arglist_start(argp, fmt);
- vsnprintf(buf, SIZEOF(buf), fmt, argp);
+ g_vsnprintf(buf, SIZEOF(buf), fmt, argp);
if (dlevel >= level)
{
if (section == dsection || dsection == 0)
{
if (index(buf, '\n') != NULL && strlen(buf) > 1)
{
- dbprintf(("%ld:%s", (long)ti, buf));
+ dbprintf(_("%ld:%s"), (long)ti, buf);
} else {
- dbprintf(("%s", buf));
+ dbprintf("%s", buf);
}
}
}