-#ifndef lint
-static char rcsid[] = "$Id: scsi-changer-driver.c,v 1.49 2006/03/16 00:20:53 paddy_s Exp $";
-#endif
+static char rcsid[] = "$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
*
#include <amanda.h>
-#ifdef HAVE_DMALLOC_H
-#include <dmalloc.h>
-#endif
-
#include "arglist.h"
/*
#ifdef HAVE_STDIO_H
#include "tapeio.h"
-extern int TapeEject(int DeviceFD);
-
extern FILE *debug_file;
+extern changer_t *changer; /* Needed for the infos about emubarcode and labelfile */
int PrintInquiry(SCSIInquiry_T *);
int GenericElementStatus(int DeviceFD, int InitStatus);
ElementInfo_T *LookupElement(int addr);
int GenericResetStatus(int DeviceFD);
int RequestSense(int, ExtendedRequestSense_T *, int );
-void dump_hex(char *, int, int, int);
-void TerminateString(char *string, int length);
+void dump_hex(u_char *, size_t, int, int);
+void TerminateString(char *string, size_t length);
void ChgExit(char *, char *, int);
int BarCode(int fd);
int LogSense(int fd);
-int SenseHandler(int fd, unsigned char flag, unsigned char SenseKey, unsigned char AdditionalSenseCode, unsigned char AdditionalSenseCodeQualifier, char *buffer);
+int SenseHandler(int fd, u_char flag, u_char SenseKey, u_char AdditionalSenseCode, u_char AdditionalSenseCodeQualifier, RequestSense_T *buffer);
-int SCSI_AlignElements(int DeviceFD, int MTE, int DTE, int STE);
+int SCSI_AlignElements(int DeviceFD, size_t MTE, size_t DTE, size_t STE);
+
+int DoNothing0(void);
+int DoNothing1(int);
+int DoNothing2(int, int);
+int DoNothing3(int, int, int);
-int DoNothing();
int GenericMove(int, int, int);
int SDXMove(int, int, int);
int CheckMove(ElementInfo_T *from, ElementInfo_T *to);
int GenericRewind(int);
-/* int GenericStatus(); */
-int GenericFree();
-int TapeStatus(); /* Is the tape loaded ? */
+/* int GenericStatus(void); */
+int GenericFree(void);
+int TapeStatus(void); /* Is the tape loaded ? */
int DLT4000Eject(char *Device, int type);
int GenericEject(char *Device, int type);
+int SCSI_LogSenseClean(char *Device); /* Does the tape need a clean */
int GenericClean(char *Device); /* Does the tape need a clean */
int GenericBarCode(int DeviceFD); /* Do we have Barcode reader support */
int NoBarCode(int DeviceFD);
-int GenericSearch();
+int GenericSearch(void);
void Inventory(char *labelfile, int drive, int eject, int start, int stop, int clean);
int TreeFrogBarCode(int DeviceFD);
int EXB_BarCode(int DeviceFD);
-int GenericSenseHandler(int fd, int flags, unsigned char SenseKey, unsigned char AdditionalSenseCode, unsigned char AdditionalSenseCodeQualifier, char *);
+int GenericSenseHandler(int fd, u_char flags, u_char SenseKey, u_char AdditionalSenseCode, u_char AdditionalSenseCodeQualifier, RequestSense_T *);
ElementInfo_T *LookupElement(int address);
int eject_tape(char *tapedev, int type);
int unload(int fd, int drive, int slot);
int load(int fd, int drive, int slot);
int GetElementStatus(int DeviceFD);
+int drive_loaded(int fd, int drivenum);
/*
* Log Pages Decode
*/
-void WriteErrorCountersPage(LogParameter_T *, int);
-void ReadErrorCountersPage(LogParameter_T *, int);
-void C1553APage30(LogParameter_T *, int);
-void C1553APage37(LogParameter_T *, int);
-void EXB85058HEPage39(LogParameter_T *, int);
-void EXB85058HEPage3c(LogParameter_T *, int);
-int Decode(LogParameter_T *, int *);
-int DecodeModeSense(char *buffer, int offset, char *pstring, char block, FILE *out);
+void WriteErrorCountersPage(LogParameter_T *, size_t);
+void ReadErrorCountersPage(LogParameter_T *, size_t);
+void C1553APage30(LogParameter_T *, size_t);
+void C1553APage37(LogParameter_T *, size_t);
+void EXB85058HEPage39(LogParameter_T *, size_t);
+void EXB85058HEPage3c(LogParameter_T *, size_t);
+int Decode(LogParameter_T *, unsigned *);
+int DecodeModeSense(u_char *buffer, size_t offset, char *pstring, char block, FILE *out);
int SCSI_Run(int DeviceFD,
Direction_T Direction,
CDB_T CDB,
- int CDB_Length,
+ size_t CDB_Length,
void *DataBuffer,
- int DataBufferLength,
- char *pRequestSense,
- int RequestSenseLength);
+ size_t DataBufferLength,
+ RequestSense_T *pRequestSense,
+ size_t RequestSenseLength);
-int SCSI_Move(int DeviceFD, unsigned char chm, int from, int to);
-int SCSI_LoadUnload(int DeviceFD, RequestSense_T *pRequestSense, unsigned char byte1, unsigned char load);
+int SCSI_Move(int DeviceFD, u_char chm, int from, int to);
+int SCSI_LoadUnload(int DeviceFD, RequestSense_T *pRequestSense, u_char byte1, u_char load);
int SCSI_TestUnitReady(int, RequestSense_T *);
-int SCSI_ModeSense(int DeviceFD, char *buffer, u_char size, u_char byte1, u_char byte2);
+int SCSI_ModeSense(int DeviceFD, u_char *buffer, u_char size, u_char byte1, u_char byte2);
int SCSI_ModeSelect(int DeviceFD,
- char *buffer,
- unsigned char length,
- unsigned char save,
- unsigned char mode,
- unsigned char lun);
+ u_char *buffer,
+ u_char length,
+ u_char save,
+ u_char mode,
+ u_char lun);
int SCSI_ReadElementStatus(int DeviceFD,
- unsigned char type,
- unsigned char lun,
- unsigned char VolTag,
+ u_char type,
+ u_char lun,
+ u_char VolTag,
int StartAddress,
- int NoOfElements,
- int DescriptorSize,
- char **data);
+ size_t NoOfElements,
+ size_t DescriptorSize,
+ u_char **data);
FILE *StatFile;
+static int barcode; /* cache the result from the BarCode function */
SC_COM_T SCSICommand[] = {
{0x00,
"HP Auto Loader [C1553A]",
GenericMove,
GenericElementStatus,
- DoNothing,
+ DoNothing1,
GenericFree,
GenericEject,
GenericClean,
GenericSenseHandler},
{"EXB-85058HE-0000",
"Exabyte Tape [EXB-85058HE-0000]",
- DoNothing,
- DoNothing,
- DoNothing,
- DoNothing,
+ DoNothing3,
+ DoNothing2,
+ DoNothing1,
+ DoNothing0,
GenericEject,
GenericClean,
GenericRewind,
GenericSenseHandler},
{"DLT8000",
"DLT Tape [DLT8000]",
- DoNothing,
- DoNothing,
- DoNothing,
- DoNothing,
+ DoNothing3,
+ DoNothing2,
+ DoNothing1,
+ DoNothing0,
DLT4000Eject,
GenericClean,
GenericRewind,
GenericSenseHandler},
{"DLT7000",
"DLT Tape [DLT7000]",
- DoNothing,
- DoNothing,
- DoNothing,
- DoNothing,
+ DoNothing3,
+ DoNothing2,
+ DoNothing1,
+ DoNothing0,
DLT4000Eject,
GenericClean,
GenericRewind,
GenericSenseHandler},
{"DLT4000",
"DLT Tape [DLT4000]",
- DoNothing,
- DoNothing,
- DoNothing,
- DoNothing,
+ DoNothing3,
+ DoNothing2,
+ DoNothing1,
+ DoNothing0,
DLT4000Eject,
GenericClean,
GenericRewind,
NoBarCode,
GenericSearch,
GenericSenseHandler},
- {NULL, NULL, NULL,NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL}
+ {"SLR100",
+ "Tandberg SLR100",
+ GenericMove,
+ GenericElementStatus,
+ GenericResetStatus,
+ GenericFree,
+ GenericEject,
+ SCSI_LogSenseClean,
+ GenericRewind,
+ NoBarCode,
+ GenericSearch,
+ GenericSenseHandler},
+ {NULL, NULL, NULL,NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL}
};
char *SlotArgs = 0;
/* Pointer to MODE SENSE Pages */
-char *pModePage = NULL;
+u_char *pModePage = NULL;
EAAPage_T *pEAAPage = NULL;
DeviceCapabilitiesPage_T *pDeviceCapabilitiesPage = NULL;
-char *pVendorUnique = NULL;
+u_char *pVendorUnique = NULL;
/*
* New way, every element type has its on array
ElementInfo_T *pSTE = NULL; /*Storage Element */
ElementInfo_T *pIEE = NULL; /*Import Export Element */
ElementInfo_T *pDTE = NULL; /*Data Transfer Element */
-int MTE = 0; /*Counter for the above element types */
-int STE = 0;
-int IEE = 0;
-int DTE = 0;
+size_t MTE = 0; /*Counter for the above element types */
+size_t STE = 0;
+size_t IEE = 0;
+size_t DTE = 0;
char *chgscsi_datestamp = NULL; /* Result pointer for tape_rdlabel */
char *chgscsi_label = NULL; /* Result pointer for tape_rdlabel */
* Print the scsi-changer-driver version
*/
-void ChangerDriverVersion()
+void
+ChangerDriverVersion(void)
{
DebugPrint(DEBUG_ERROR, SECTION_INFO, "scsi-changer-driver: %s\n",rcsid);
SCSI_OS_Version();
* Try to generate an template which can be used as an example for the config file
*
*/
-void PrintConf()
+void
+PrintConf(void)
{
extern OpenFiles_T *pDev;
int count;
{
printf("startuse 0 # Which is the first slot to use\n");
printf(" #\n");
- printf("enduse %d # Which is the last slot to use\n", STE);
+ printf("enduse " SIZE_T_FMT " # Which is the last slot to use\n", STE);
} else {
printf("startuse ??? # Which is the first slot to use\n");
printf(" #\n");
printf(" # cleaning tape in the last slot\n");
printf(" #\n");
- cwd = getcwd(NULL, 0);
+ if ((cwd = getcwd(NULL, 0)) == NULL) {
+ cwd = "<unknown>";
+ }
printf("statfile %s/tape0-slot #\n",cwd);
printf("cleanfile %s/tape0-clean #\n", cwd);
* If an tape is loaded unload it and do initialize element status to
* get all labels if an bar code reader is installed
*/
-void Inventory(char *labelfile, int drive, int eject, int start, int stop, int clean)
+void
+Inventory(
+ char * labelfile,
+ int drive,
+ int eject,
+ int start,
+ int stop,
+ int clean)
{
extern OpenFiles_T *pDev;
- int x;
- char *result; /* Used to store the result of MapBarCode */
- int barcode; /* cache the result from the BarCode function */
+ size_t x;
static int inv_done = 0; /* Inventory function called ?, marker to disable recursion */
MBC_T *pbarcoderes; /* Here we will pass the parameter to MapBarCode and get the result */
+ (void)start; /* Quiet unused parameter warning */
+ (void)stop; /* Quiet unused parameter warning */
+
DebugPrint(DEBUG_INFO,SECTION_MAP_BARCODE, "##### START Inventory\n");
- if ((pbarcoderes = malloc(sizeof(MBC_T))) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_MAP_BARCODE,"##### malloc failed (-1)\n");
- return;
- }
- memset(pbarcoderes, 0 , sizeof(MBC_T));
+ 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);
free(pbarcoderes);
return;
+ /*NOTREACHED*/
}
inv_done = 1;
barcode = BarCode(INDEX_CHANGER);
{
if (eject)
{
- eject_tape("", eject);
+ (void)eject_tape("", eject);
}
(void)unload(INDEX_TAPE, 0, 0);
}
for (x = 0; x < STE; x++)
{
- if (x == clean)
+ if (x == (size_t)clean)
{
continue;
}
SCSI_CloseDevice(INDEX_TAPE);
- if ((result = (char *)tape_rdlabel(pDev[INDEX_TAPE].dev, &chgscsi_datestamp, &chgscsi_label)) == NULL)
+ if ((chgscsi_result = (char *)tape_rdlabel(pDev[INDEX_TAPE].dev, &chgscsi_datestamp, &chgscsi_label)) == NULL)
{
pbarcoderes->action = UPDATE_SLOT;
- strcpy(pbarcoderes->data.voltag, chgscsi_label);
+ strncpy(pbarcoderes->data.voltag, chgscsi_label,
+ SIZEOF(pbarcoderes->data.voltag));
pbarcoderes->data.slot = x;
pbarcoderes->data.from = 0;
pbarcoderes->data.LoadCount = 1;
if (BarCode(INDEX_CHANGER) == 1)
{
- strcpy(pbarcoderes->data.barcode, pDTE[drive].VolTag);
+ strncpy(pbarcoderes->data.barcode, pDTE[drive].VolTag,
+ SIZEOF(pbarcoderes->data.barcode));
MapBarCode(labelfile, pbarcoderes);
} else {
MapBarCode(labelfile, pbarcoderes);
if (eject)
{
- eject_tape("", eject);
+ (void)eject_tape("", eject);
}
(void)unload(INDEX_TAPE, drive, x);
* Check if the slot ist empty
* slot -> slot number to check
*/
-int isempty(int fd, int slot)
+int
+isempty(
+ int fd,
+ int slot)
{
extern OpenFiles_T *pDev;
DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### START isempty\n");
{
DebugPrint(DEBUG_ERROR,SECTION_TAPE,"##### STOP isempty [-1]\n");
return(-1);
+ /*NOTREACHED*/
}
}
{
DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### STOP isempty [1]\n");
return(1);
+ /*NOTREACHED*/
}
DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### STOP isempty [0]\n");
return(0);
}
-int get_clean_state(char *tapedev)
+int
+get_clean_state(
+ char *tapedev)
{
extern OpenFiles_T *pDev;
/* Return 1 if cleaning is needed */
{
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);
* Type describes if we should force the SCSI eject if available
* normal eject is done with the ioctl
*/
-int eject_tape(char *tapedev, int type)
- /* This function ejects the tape from the drive */
+/* This function ejects the tape from the drive */
+
+int
+eject_tape(
+ char * tapedev,
+ int type)
{
extern OpenFiles_T *pDev;
- int ret = 0;
- extern changer_t chg; /* Needed for the infos about emubarcode and labelfile */
+ int ret;
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### START eject_tape\n");
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### START eject_tape %s\n",tapedev);
+ if (pDev[INDEX_TAPECTL].functions == NULL)
+ return(-1);
/*
* Try to read the label
*/
- if (pDev[INDEX_TAPE].avail == 1 && (chg.emubarcode == 1 || BarCode(INDEX_CHANGER)))
+ if (pDev[INDEX_TAPE].avail == 1 && (changer->emubarcode == 1 || BarCode(INDEX_CHANGER)))
{
if (pDev[INDEX_TAPECTL].SCSI == 1 && pDev[INDEX_TAPECTL].avail) {
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### eject_tape rewind\n");
pDev[INDEX_TAPECTL].functions->function_rewind(INDEX_TAPECTL);
} else {
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### eject_tape rewind2\n");
pDev[INDEX_TAPE].functions->function_rewind(INDEX_TAPE);
}
if (pDev[INDEX_TAPE].devopen == 1)
{
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### eject_tape close\n");
SCSI_CloseDevice(INDEX_TAPE);
}
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### tape_eject tape_rdlabel\n");
chgscsi_result = (char *)tape_rdlabel(pDev[INDEX_TAPE].dev, &chgscsi_datestamp, &chgscsi_label);
}
if (pDev[INDEX_TAPECTL].SCSI == 1 && pDev[INDEX_TAPECTL].avail == 1 && type == 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);
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);
return(ret);
+ /*NOTREACHED*/
}
DebugPrint(DEBUG_INFO,SECTION_TAPE,"##### STOP eject_tape [-1]\n");
/* Find an empty slot, starting at start, ending at start+count */
-int find_empty(int fd, int start, int count)
+int
+find_empty(
+ int fd,
+ int start,
+ int count)
{
extern OpenFiles_T *pDev;
- int x;
- int end;
+ size_t x;
+ size_t end;
DebugPrint(DEBUG_INFO,SECTION_ELEMENT,"###### START find_empty\n");
{
if ( pDev[fd].functions->function_status(fd , 1) != 0)
{
- DebugPrint(DEBUG_ERROR,SECTION_ELEMENT,"###### END find_empty [%d]\n", -1);
- return(-1);
+ DebugPrint(DEBUG_ERROR,SECTION_ELEMENT,
+ "###### END find_empty [-1]\n");
+ return((ssize_t)-1);
+ /*NOTREACHED*/
}
}
end = STE;
}
- DebugPrint(DEBUG_INFO,SECTION_ELEMENT,"start at %d, end at %d\n", start, end);
+ 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);
for (x = start; x < end; x++)
{
if (pSTE[x].status == 'E')
{
- DebugPrint(DEBUG_INFO,SECTION_ELEMENT,"###### END find_empty [%d]\n", x);
- return(x);
+ DebugPrint(DEBUG_INFO,SECTION_ELEMENT,
+ "###### END find_empty [" SIZE_T_FMT "]\n", x);
+ return((ssize_t)x);
+ /*NOTREACHED*/
}
}
- DebugPrint(DEBUG_ERROR,SECTION_ELEMENT,"###### END find_empty [%d]\n", -1);
- return(-1);
+ DebugPrint(DEBUG_ERROR,SECTION_ELEMENT,"###### END find_empty [-1]\n");
+ return((ssize_t)-1);
}
/*
* 0 -> drive is empty
* 1 -> drive is loaded
*/
-int drive_loaded(int fd, int drivenum)
+int
+drive_loaded(
+ int fd,
+ int drivenum)
{
extern OpenFiles_T *pDev;
{
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");
return(0);
- } else {
- DebugPrint(DEBUG_INFO,SECTION_TAPE,"###### STOP drive_loaded (not empty)\n");
- return(1);
+ /*NOTREACHED*/
}
+ DebugPrint(DEBUG_INFO,SECTION_TAPE,"###### STOP drive_loaded (not empty)\n");
+ return(1);
}
* TODO:
* Check if the MTE is empty
*/
-int unload(int fd, int drive, int slot)
+int
+unload(
+ int fd,
+ int drive,
+ int slot)
{
extern OpenFiles_T *pDev;
- int ret;
- extern changer_t chg; /* Needed for the infos about emubarcode and labelfile */
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);
- if ((pbarcoderes = malloc(sizeof(MBC_T))) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### malloc failed (-1)\n");
- return(-1);
- }
- memset(pbarcoderes, 0, sizeof(MBC_T));
+ pbarcoderes = alloc(SIZEOF(MBC_T));
+ memset(pbarcoderes, 0, SIZEOF(MBC_T));
/*
* If the Element Status is not valid try to
DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP unload (-1)\n");
free(pbarcoderes);
return(-1);
+ /*NOTREACHED*/
}
}
DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP unload (-1)\n");
free(pbarcoderes);
return(-1);
+ /*NOTREACHED*/
}
/*
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);
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);
}
* If eject is not set we must read the label info
*/
- if (chg.eject == 0)
+ if (changer->eject == 0)
{
- if (pDev[INDEX_TAPE].avail == 1 && (chg.emubarcode == 1 || BarCode(INDEX_CHANGER)))
+ if (pDev[INDEX_TAPE].avail == 1 && (changer->emubarcode == 1 || BarCode(INDEX_CHANGER)))
{
if (pDev[INDEX_TAPECTL].SCSI == 1 && pDev[INDEX_TAPECTL].avail) {
/*
* Do the unload/move
*/
- ret = pDev[INDEX_CHANGER].functions->function_move(INDEX_CHANGER , pDTE[drive].address, pSTE[slot].address);
+ 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");
+ free(pbarcoderes);
+ return(-1);
+ /*NOTREACHED*/
+ }
+
/*
* Update the Status
DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP unload (-1 update status failed)\n");
free(pbarcoderes);
return(-1);
+ /*NOTREACHED*/
}
/*
* if no update the vol/label mapping
* If chgscsi_label is NULL don't do it
*/
- if (chgscsi_result == NULL && chgscsi_label != NULL && chg.labelfile != NULL)
+ if (chgscsi_result == NULL && chgscsi_label != NULL && changer->labelfile != NULL)
{
/*
* OK this is only needed if we have emubarcode set
* There we need an exact inventory to get the search function working
* and returning correct results
*/
- if (BarCode(INDEX_CHANGER) == 0 && chg.emubarcode == 1)
+ if (BarCode(INDEX_CHANGER) == 0 && changer->emubarcode == 1)
{
/*
* We got something, update the db
* to where we placed the tape, if no force an inventory
*/
pbarcoderes->action = FIND_SLOT;
- strcpy(pbarcoderes->data.voltag, chgscsi_label);
- strcpy(pbarcoderes->data.barcode, pSTE[slot].VolTag );
+ strncpy(pbarcoderes->data.voltag, chgscsi_label,
+ SIZEOF(pbarcoderes->data.voltag));
+ strncpy(pbarcoderes->data.barcode, pSTE[slot].VolTag,
+ SIZEOF(pbarcoderes->data.barcode));
pbarcoderes->data.slot = 0;
pbarcoderes->data.from = 0;
pbarcoderes->data.LoadCount = 0;
- if ( MapBarCode(chg.labelfile, pbarcoderes) == 0) /* Nothing known about this, do an Inventory */
+ if ( MapBarCode(changer->labelfile, pbarcoderes) == 0) /* Nothing known about this, do an Inventory */
{
do_inventory = 1;
} else {
* return -> 0 = success
* !0 = failure
*/
-int load(int fd, int drive, int slot)
+int
+load(
+ int fd,
+ int drive,
+ int slot)
{
- extern changer_t chg; /* Needed for the infos about emubarcode and labelfile */
char *result = NULL; /* Needed for the result of tape_rdlabel */
int ret;
extern OpenFiles_T *pDev;
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);
- if ((pbarcoderes = malloc(sizeof(MBC_T))) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"##### malloc failed (-1)\n");
- return(-1);
- }
- memset(pbarcoderes, 0 , sizeof(MBC_T));
+ pbarcoderes = alloc(SIZEOF(MBC_T));
+ memset(pbarcoderes, 0 , SIZEOF(MBC_T));
if (ElementStatusValid == 0)
{
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"##### STOP load (-1 update status failed)\n");
free(pbarcoderes);
return(-1);
+ /*NOTREACHED*/
}
}
* is ge than the value we got from the ModeSense fail with an return value
* of 2
*/
- if (slot >= STE)
+ if ((size_t)slot >= STE)
{
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"load : slot %d ge STE %d\n",slot, STE);
ChgExit("load", "slot >= STE", FATAL);
+ /*NOTREACHED*/
}
/*
* And the same for the tape drives
*/
- if (drive >= DTE)
+ if (drive >= (int)DTE)
{
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_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,"##### STOP load (-1 update status failed)\n");
free(pbarcoderes);
return(-1);
+ /*NOTREACHED*/
}
ret = pDev[fd].functions->function_move(fd, pSTE[slot].address, pDTE[drive].address);
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"##### STOP load (-1 update status failed)\n");
free(pbarcoderes);
return(-1);
+ /*NOTREACHED*/
}
/*
* Try to read the label
* and update the label/slot database
*/
- if (pDev[INDEX_TAPE].avail == 1 && (chg.emubarcode == 1 || BarCode(INDEX_CHANGER)))
+ if (pDev[INDEX_TAPE].avail == 1 && (changer->emubarcode == 1 || BarCode(INDEX_CHANGER)))
{
if (pDev[INDEX_TAPECTL].SCSI == 1 && pDev[INDEX_TAPECTL].avail) {
* Did we get an error from tape_rdlabel
* if no update the vol/label mapping
*/
- if (result == NULL && chg.labelfile != NULL && chgscsi_label != NULL )
+ if (result == NULL && changer->labelfile != NULL && chgscsi_label != NULL )
{
/*
* We got something, update the db
* but before check if the db has as entry the slot
* to where we placed the tape, if no force an inventory
*/
- strcpy(pbarcoderes->data.voltag, chgscsi_label);
+ strncpy(pbarcoderes->data.voltag, chgscsi_label,
+ SIZEOF(pbarcoderes->data.voltag));
pbarcoderes->data.slot = 0;
pbarcoderes->data.from = 0;
pbarcoderes->data.LoadCount = 0;
* info in the DB is up to date, if no we set the do_inventory flag
*/
- if (BarCode(INDEX_CHANGER) == 1 && chg.emubarcode == 0)
+ if (BarCode(INDEX_CHANGER) == 1 && changer->emubarcode == 0)
{
pbarcoderes->action = UPDATE_SLOT;
- strcpy(pbarcoderes->data.barcode, pDTE[drive].VolTag);
+ strncpy(pbarcoderes->data.barcode, pDTE[drive].VolTag,
+ SIZEOF(pbarcoderes->data.barcode));
pbarcoderes->data.LoadCount = 1;
pbarcoderes->data.slot = slot;
- MapBarCode(chg.labelfile, pbarcoderes);
+ MapBarCode(changer->labelfile, pbarcoderes);
}
- if (BarCode(INDEX_CHANGER) == 0 && chg.emubarcode == 1)
+ if (BarCode(INDEX_CHANGER) == 0 && changer->emubarcode == 1)
{
pbarcoderes->action = FIND_SLOT;
- if (MapBarCode(chg.labelfile, pbarcoderes) == 0) /* Nothing found, do an inventory */
+ if (MapBarCode(changer->labelfile, pbarcoderes) == 0) /* Nothing found, do an inventory */
{
do_inventory = 1;
} else { /* We got something, is it correct ? */
{
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;
pbarcoderes->data.LoadCount = 1;
pbarcoderes->data.slot = slot;
- MapBarCode(chg.labelfile, pbarcoderes);
+ MapBarCode(changer->labelfile, pbarcoderes);
}
}
}
- if (BarCode(INDEX_CHANGER) == 1 && chg.emubarcode == 1)
+ if (BarCode(INDEX_CHANGER) == 1 && changer->emubarcode == 1)
{
ChgExit("Load", "BarCode == 1 and emubarcode == 1", FATAL);
+ /*NOTREACHED*/
}
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);
free(pbarcoderes);
* fd -> pointer to the internal devie structure pDev
* return -> Number of slots
*/
-int get_slot_count(int fd)
+int
+get_slot_count(
+ int fd)
{
extern OpenFiles_T *pDev;
{
pDev[fd].functions->function_status(fd, 1);
}
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"##### STOP get_slot_count (%d)\n",STE);
- return(STE);
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,
+ "##### STOP get_slot_count (" SIZE_T_FMT ")\n",
+ (SIZE_T_FMT_TYPE)STE);
+ return((ssize_t)STE);
/*
* return the number of slots in the robot
* to the caller
*/
-
}
* fd -> pointer to the internal devie structure pDev
* return -> -1 on failure
*/
-int get_drive_count(int fd)
+int
+get_drive_count(
+ int fd)
{
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);
-
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");
return(-1);
+ /*NOTREACHED*/
}
}
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"###### STOP get_drive_count (%d drives)\n",DTE);
- return(DTE);
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,
+ "###### STOP get_drive_count (" SIZE_T_FMT " drives)\n",
+ (SIZE_T_FMT_TYPE)DTE);
+ return((ssize_t)DTE);
}
/*
* The OS has to decide if it is an SCSI Commands capable device
*/
-int OpenDevice(int ip , char *DeviceName, char *ConfigName, char *ident)
+int
+OpenDevice(
+ int ip,
+ char * DeviceName,
+ char * ConfigName,
+ char * ident)
{
extern OpenFiles_T *pDev;
- char tmpstr[15];
+ char tmpstr[16];
ChangerCMD_T *p = (ChangerCMD_T *)&ChangerIO;
+ if (!ConfigName)
+ return 1;
+ 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,"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);
+ /*NOTREACHED*/
} else {
while(p->ident != NULL)
{
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++;
}
/* divide generic in generic_type, where type is the */
/* num returned by the inquiry command */
p = (ChangerCMD_T *)&ChangerIO;
- sprintf(&tmpstr[0],"%s_%s","generic",pDev[0].type);
+ 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)
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");
}
+ pDev[ip].functions = NULL;
DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP OpenDevice (nothing found) !!\n");
return(0);
}
* This functions checks if the library has an barcode reader.
* fd -> pointer to the internal devie structure pDev
*/
-int BarCode(int fd)
+int
+BarCode(
+ int fd)
{
- int ret = 0;
+ int ret;
extern OpenFiles_T *pDev;
DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### START BarCode\n");
* wait -> time to wait for the ready status
*
*/
-int Tape_Ready(int fd, int wait_time)
+int
+Tape_Ready(
+ int fd,
+ time_t wait_time)
{
extern OpenFiles_T *pDev;
- int true = 1;
+ int done;
int ret;
- int cnt = 0;
+ time_t cnt = 0;
RequestSense_T *pRequestSense;
DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### START 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*/
}
cnt++;
sleep(1);
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*/
- } else {
- 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");
- return(0);
}
+ 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");
+ return(0);
+ /*NOTREACHED*/
}
- if ((pRequestSense = (RequestSense_T *)malloc(sizeof(RequestSense_T))) == NULL)
- {
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"Tape_Ready : malloc failed\n");
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP Tape_Ready\n");
- return(-1);
- }
+ pRequestSense = alloc(SIZEOF(RequestSense_T));
/*
* Ignore errors at this point
* Wait until we get an ready condition
*/
- while (true && cnt < wait_time)
+ done = 0;
+ while (!done && (cnt < wait_time))
{
ret = SCSI_TestUnitReady(fd, pRequestSense );
switch (ret)
{
case SCSI_OK:
- true = 0;
+ done = 1;
break;
case SCSI_SENSE:
- switch (SenseHandler(fd, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, (char *)pRequestSense))
+ switch (SenseHandler(fd, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_NO:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeReady (TestUnitReady) SENSE_NO\n");
- true=0;
+ done = 1;
break;
case SENSE_TAPE_NOT_ONLINE:
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");
- true = 0;
+ done = 1;
break;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"TapeReady (TestUnitReady) SENSE_ABORT\n");
- free(pRequestSense);
+ amfree(pRequestSense);
return(-1);
- break;
+ /*NOTREACHED*/
case SENSE_RETRY:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeReady (TestUnitReady) SENSE_RETRY\n");
break;
default:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeReady (TestUnitReady) default (SENSE)\n");
- true=0;
+ done = 1;
break;
}
break;
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"TapeReady (TestUnitReady) SCSI_ERROR\n");
free(pRequestSense);
return(-1);
- break;
+ /*NOTREACHED*/
case SCSI_BUSY:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeReady (TestUnitReady) SCSI_BUSY\n");
break;
cnt++;
}
+ amfree(pRequestSense);
DebugPrint(DEBUG_INFO, SECTION_TAPE,"Tape_Ready after %d sec\n", cnt);
DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP Tape_Ready\n");
- free(pRequestSense);
return(0);
}
-int DecodeSCSI(CDB_T CDB, char *string)
+int
+DecodeSCSI(
+ CDB_T CDB,
+ char * string)
{
SC_COM_T *pSCSICommand;
int x;
DebugPrint(DEBUG_INFO, SECTION_SCSI,"\n");
DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP DecodeSCSI\n");
return(0);
+ /*NOTREACHED*/
}
pSCSICommand++;
}
return(0);
}
-int DecodeModeSense(char *buffer, int offset, char *pstring, char block, FILE *out)
+int
+DecodeModeSense(
+ u_char * buffer,
+ size_t offset,
+ char * pstring,
+ char block,
+ FILE * out)
{
ReadWriteErrorRecoveryPage_T *prp;
DisconnectReconnectPage_T *pdrp;
- int length = (unsigned char)*buffer - 4 - offset;
+ size_t length = (size_t)buffer[0] - 4 - offset;
+
+ (void)pstring; /* Quiet unused parameter warning */
DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START DecodeModeSense\n");
if (block) /* Do we have an block descriptor page ?*/
{
if (out != NULL)
- fprintf(out, "DecodeModeSense : Density Code %x\n", buffer[0]);
+ fprintf(out, "DecodeModeSense : Density Code %x\n", (unsigned)buffer[0]);
buffer++;
if (out != NULL)
/* EAAPage = NULL; */
/* DeviceCapabilitiesPage = NULL; */
return(-1);
+ /*NOTREACHED*/
}
- length = length - *buffer - 2;
- buffer = buffer + *buffer + 1;
+ length = length - (size_t)*buffer - 2;
+ buffer = buffer + (size_t)*buffer + 1;
}
return(0);
}
-int DecodeSense(RequestSense_T *sense, char *pstring, FILE *out)
+int
+DecodeSense(
+ RequestSense_T * sense,
+ char * pstring,
+ FILE * out)
{
if (out == NULL)
{
return(0);
+ /*NOTREACHED*/
}
fprintf(out,"##### START DecodeSense\n");
fprintf(out,"%sSense Keys\n", pstring);
return(0);
}
-int DecodeExtSense(ExtendedRequestSense_T *sense, char *pstring, FILE *out)
+int
+DecodeExtSense(
+ ExtendedRequestSense_T * sense,
+ char * pstring,
+ FILE * out)
{
ExtendedRequestSense_T *p;
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));
- if (sense->AdditionalSenseLength > sizeof(RequestSense_T))
+ if (sense->AdditionalSenseLength > (u_char)sizeof(RequestSense_T))
{
if (sense->PF)
fprintf(out,"\tPower Fail\n");
return(0);
}
-int PrintInquiry(SCSIInquiry_T *SCSIInquiry)
+int
+PrintInquiry(
+ SCSIInquiry_T * SCSIInquiry)
{
DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START PrintInquiry\n");
DebugPrint(DEBUG_INFO, SECTION_SCSI,"%-15s %x\n", "qualifier", SCSIInquiry->qualifier);
}
-int DoNothing()
+int
+DoNothing0(void)
+{
+ dbprintf(("##### START DoNothing\n"));
+ return(0);
+}
+
+int
+DoNothing1(
+ int unused1)
+{
+ (void)unused1; /* Quiet unused parameter warning */
+
+ dbprintf(("##### START DoNothing\n"));
+ return(0);
+}
+
+int
+DoNothing2(
+ int unused1,
+ int unused2)
+{
+ (void)unused1; /* Quiet unused parameter warning */
+ (void)unused2; /* Quiet unused parameter warning */
+
+ dbprintf(("##### START DoNothing\n"));
+ return(0);
+}
+
+int
+DoNothing3(
+ int unused1,
+ int unused2,
+ int unused3)
{
+ (void)unused1; /* Quiet unused parameter warning */
+ (void)unused2; /* Quiet unused parameter warning */
+ (void)unused3; /* Quiet unused parameter warning */
+
dbprintf(("##### START DoNothing\n"));
return(0);
}
-int GenericFree()
+int
+GenericFree(void)
{
dbprintf(("##### START GenericFree\n"));
return(0);
}
-int GenericSearch()
+int
+GenericSearch(void)
{
dbprintf(("##### START GenericSearch\n"));
return(0);
}
-int TreeFrogBarCode(int DeviceFD)
+int
+TreeFrogBarCode(
+ int DeviceFD)
{
extern OpenFiles_T *pDev;
dbprintf(("##### START TreeFrogBarCode\n"));
if (pModePage == NULL)
{
- if ((pModePage = malloc(0xff)) == NULL)
- {
- dbprintf(("TreeFrogBarCode : malloc failed\n"));
- return(-1);
- }
+ pModePage = alloc(0xff);
}
if (SCSI_ModeSense(DeviceFD, pModePage, 0xff, 0x0, 0x3f) == 0)
{
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));
- dump_hex((char *)pDev[INDEX_CHANGER].inquiry, INQUIRY_SIZE, DEBUG_INFO, SECTION_ELEMENT);
+ dump_hex((u_char *)pDev[INDEX_CHANGER].inquiry, INQUIRY_SIZE, DEBUG_INFO, SECTION_ELEMENT);
return(pVendor->EBARCO);
+ /*NOTREACHED*/
}
return(0);
}
-int EXB_BarCode(int DeviceFD)
+int
+EXB_BarCode(
+ int DeviceFD)
{
extern OpenFiles_T *pDev;
ModePageEXB120VendorUnique_T *pVendor;
- ModePageEXB120VendorUnique_T *pVendorWork = NULL;
+ ModePageEXB120VendorUnique_T *pVendorWork;
DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### START EXB_BarCode\n");
if (pModePage == NULL && LibModeSenseValid == 0)
{
- if ((pModePage = malloc(0xff)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_BARCODE,"EXB_BarCode : malloc failed\n");
- return(-1);
- }
+ pModePage = alloc(0xff);
+
if (SCSI_ModeSense(DeviceFD, pModePage, 0xff, 0x8, 0x3f) == 0)
{
DecodeModeSense(pModePage, 0, "EXB_BarCode :", 0, debug_file);
{
DebugPrint(DEBUG_INFO, SECTION_BARCODE,"EXB_BarCode : no pVendorUnique\n");
return(0);
+ /*NOTREACHED*/
}
pVendor = ( ModePageEXB120VendorUnique_T *)pVendorUnique;
DebugPrint(DEBUG_INFO, SECTION_BARCODE,"EXB_BarCode : PS %d\n", pVendor->PS);
if (pVendor->NBL == 1 && pVendor->PS == 1 )
{
- if ((pVendorWork = ( ModePageEXB120VendorUnique_T *)malloc(pVendor->ParameterListLength + 2)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_BARCODE,"EXB_BarCode : malloc failed\n");
- return(-1);
- }
+ pVendorWork = alloc((size_t)pVendor->ParameterListLength + 2);
DebugPrint(DEBUG_INFO, SECTION_BARCODE,"EXB_BarCode : setting NBL to 1\n");
- memcpy(pVendorWork, pVendor, pVendor->ParameterListLength + 2);
+ memcpy(pVendorWork, pVendor, (size_t)pVendor->ParameterListLength + 2);
pVendorWork->NBL = 0;
pVendorWork->PS = 0;
pVendorWork->RSVD0 = 0;
- if (SCSI_ModeSelect(DeviceFD, (char *)pVendorWork, pVendorWork->ParameterListLength + 2, 0, 1, 0) == 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");
/* Hack !!!!!!
} else {
DebugPrint(DEBUG_INFO, SECTION_BARCODE,"EXB_BarCode : SCSI_ModeSelect failed\n");
}
- amfree(pVendorWork);
+ amfree(pVendorWork);
}
- dump_hex((char *)pDev[INDEX_CHANGER].inquiry, INQUIRY_SIZE, DEBUG_INFO, SECTION_BARCODE);
+ 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",
pDev[INDEX_CHANGER].inquiry->vendor_specific[19]);
}
-
return(1);
}
-int NoBarCode(int DeviceFD)
+int
+NoBarCode(
+ int DeviceFD)
{
+ (void)DeviceFD; /* Quiet unused parameter warning */
+
DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### START NoBarCode\n");
DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### STOP NoBarCode\n");
return(0);
}
-int GenericBarCode(int DeviceFD)
+int
+GenericBarCode(
+ int DeviceFD)
{
- extern changer_t chg;
+ (void)DeviceFD; /* Quiet unused parameter warning */
DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### START GenericBarCode\n");
- if ( chg.havebarcode >= 1)
+ if ( changer->havebarcode >= 1)
{
- DebugPrint(DEBUG_INFO, SECTION_BARCODE,"##### STOP GenericBarCode (havebarcode) => %d\n",chg.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");
return(0);
}
-int SenseHandler(int DeviceFD, unsigned char flag, unsigned char SenseKey, unsigned char AdditionalSenseCode, unsigned char AdditionalSenseCodeQualifier, char *buffer)
+int
+SenseHandler(
+ int DeviceFD,
+ u_char flag,
+ u_char SenseKey,
+ u_char AdditionalSenseCode,
+ u_char AdditionalSenseCodeQualifier,
+ RequestSense_T * buffer)
{
extern OpenFiles_T *pDev;
int ret = 0;
* if there are more than one
* Implement the SCSI path if available
*/
-int TapeStatus()
+int
+TapeStatus(void)
{
extern OpenFiles_T *pDev;
int ret;
- int true = 1;
- int cnt = 0;
- RequestSense_T *pRequestSense = NULL;
+ int done;
+ int cnt;
+ RequestSense_T *pRequestSense;
DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### START TapeStatus\n");
*/
if (pDev[INDEX_TAPECTL].SCSI == 1)
{
- if ((pRequestSense = malloc(sizeof(RequestSense_T))) == NULL)
- {
- dbprintf(("%-20s : malloc failed\n","TapeStatus"));
- return(-1);
- }
+ pRequestSense = alloc(SIZEOF(RequestSense_T));
+ memset(pRequestSense, 0, SIZEOF(RequestSense_T));
- while (true && cnt < 60)
+ 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);
{
case SCSI_OK:
case SCSI_SENSE:
- switch (SenseHandler(INDEX_TAPECTL, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, (char *)pRequestSense))
+ switch (SenseHandler(INDEX_TAPECTL, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
case SENSE_NO:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeStatus (TestUnitReady) SENSE_NO\n");
pDTE[0].status = 'F';
DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### FULL\n");
- true = 0;
+ done = 1;
break;
+
case SENSE_TAPE_NOT_ONLINE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeStatus (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n");
pDTE[0].status = 'E';
DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### EMPTY\n");
- true = 0;
+ done = 1;
break;
+
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"TapeStatus (TestUnitReady) SENSE_ABORT\n");
- true = 0;
+ done = 1;
break;
+
case SENSE_RETRY:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeStatus (TestUnitReady) SENSE_RETRY\n");
break;
+
default:
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");
- true = 0;
+ done = 1;
break;
+
case SCSI_BUSY:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeStatus (TestUnitReady) SCSI_BUSY\n");
break;
+
case SCSI_CHECK:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"TapeStatus (TestUnitReady) SCSI_CHECK\n");
break;
+
default:
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"TapeStatus (TestUnitReady) unknown (%d)\n",ret);
break;
+
}
- sleep(2);
- cnt++;
+ if (!done)
+ sleep(2);
}
amfree(pRequestSense);
} else {
return(0);
}
-int DLT4000Eject(char *Device, int type)
+int
+DLT4000Eject(
+ char * Device,
+ int type)
{
extern OpenFiles_T *pDev;
ExtendedRequestSense_T *pExtendedRequestSense;
int ret;
int cnt = 0;
- int true = 1;
+ int done;
- dbprintf(("##### START DLT4000Eject\n"));
+ (void)Device; /* Quiet unused parameter warning */
- if ((pRequestSense = malloc(sizeof(RequestSense_T))) == NULL)
- {
- dbprintf(("%-20s : malloc failed\n","DLT4000Eject"));
- return(-1);
- }
+ dbprintf(("##### START DLT4000Eject\n"));
- if ((pExtendedRequestSense = malloc(sizeof(ExtendedRequestSense_T))) == NULL)
- {
- dbprintf(("%-20s : malloc failed\n","DLT4000Eject"));
- free(pRequestSense);
- return(-1);
- }
+ pRequestSense = alloc(SIZEOF(RequestSense_T));
+ pExtendedRequestSense = alloc(SIZEOF(ExtendedRequestSense_T));
if ( type > 1)
{
free(pExtendedRequestSense);
free(pRequestSense);
return(Tape_Ioctl(INDEX_TAPE, IOCTL_EJECT));
+ /*NOTREACHED*/
}
free(pExtendedRequestSense);
free(pRequestSense);
return(Tape_Ioctl(INDEX_TAPE, IOCTL_EJECT));
+ /*NOTREACHED*/
}
free(pExtendedRequestSense);
free(pRequestSense);
return(-1);
+ /*NOTREACHED*/
}
- true = 1;
- while (true && cnt < 300)
+ done = 0;
+ while (!done && cnt < 300)
{
ret = SCSI_TestUnitReady(INDEX_TAPECTL, pRequestSense);
DebugPrint(DEBUG_INFO, SECTION_SCSI, "DLT4000Eject TestUnitReady ret %d\n",ret);
switch (ret)
{
case SCSI_OK:
- true = 0;
+ done = 1;
break;
case SCSI_SENSE:
- switch (SenseHandler(INDEX_TAPECTL, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, (char *)pRequestSense))
+ 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");
- true = 0;
+ done = 1;
break;
case SENSE_TAPE_NOT_ONLINE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"DLT4000Eject (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n");
- true = 0;
+ done = 1;
break;
case SENSE_IGNORE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"DLT4000Eject (TestUnitReady) SENSE_IGNORE\n");
- true = 0;
+ done = 1;
break;
case SENSE_ABORT:
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");
break;
default:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"DLT4000Eject (TestUnitReady) default (SENSE)\n");
- true = 0;
+ done = 1;
break;
}
break;
free(pExtendedRequestSense);
free(pRequestSense);
return(-1);
+ /*NOTREACHED*/
case SCSI_BUSY:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"DLT4000Eject (TestUnitReady) SCSI_BUSY\n");
break;
sleep(2);
}
- dbprintf(("DLT4000Eject : Ready after %d sec, true = %d\n", cnt * 2, true));
+ dbprintf(("DLT4000Eject : Ready after %d sec, done = %d\n", cnt * 2, done));
free(pExtendedRequestSense);
free(pRequestSense);
* Before unload check if there is an tape in the drive
*
*/
-int GenericEject(char *Device, int type)
+int
+GenericEject(
+ char * Device,
+ int type)
{
extern OpenFiles_T *pDev;
RequestSense_T *pRequestSense;
int ret;
int cnt = 0;
- int true = 1;
+ int done;
+
+ (void)Device; /* Quiet unused parameter warning */
+ (void)type; /* Quiet unused parameter warning */
DebugPrint(DEBUG_INFO, SECTION_TAPE, "##### START GenericEject\n");
- if ((pRequestSense = malloc(sizeof(RequestSense_T))) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_TAPE, "%-20s : malloc failed\n","GenericEject");
- return(-1);
- }
+ pRequestSense = alloc(SIZEOF(RequestSense_T));
DebugPrint(DEBUG_INFO, SECTION_TAPE,"GenericEject : SCSI eject on %s = %s\n",
pDev[INDEX_TAPECTL].dev, pDev[INDEX_TAPECTL].ConfigName);
/* < 0 == fatal */
if (ret < 0) {
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericEject SCSI_LoadUnload failed\n");
free(pRequestSense);
return(-1);
+ /*NOTREACHED*/
}
- true = 1;
- while (true && cnt < 300)
+ done = 0;
+ while (!done && cnt < 300)
{
ret = SCSI_TestUnitReady(INDEX_TAPECTL, pRequestSense);
DebugPrint(DEBUG_INFO, SECTION_SCSI, "GenericEject TestUnitReady ret %d\n",ret);
{
case SCSI_OK:
case SCSI_SENSE:
- switch (SenseHandler(INDEX_TAPECTL, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, (char *)pRequestSense))
+ 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");
break;
case SENSE_TAPE_NOT_ONLINE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericEject (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n");
- true = 0;
+ done = 1;
break;
case SENSE_IGNORE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericEject (TestUnitReady) SENSE_IGNORE\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");
break;
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");
break;
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, true = %d\n", cnt * 2, true);
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,
+ "GenericEject : Ready after %d sec\n", cnt * 2);
free(pRequestSense);
return(0);
}
* -1 -> error
* 0 -> success
*/
-int GenericRewind(int DeviceFD)
+int
+GenericRewind(
+ int DeviceFD)
{
CDB_T CDB;
extern OpenFiles_T *pDev;
- RequestSense_T *pRequestSense = NULL;
+ RequestSense_T *pRequestSense;
char *errstr; /* Used by tape_rewind */
int ret;
int cnt = 0;
- int true = 1;
+ int done;
DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### START GenericRewind pDEV -> %d\n",DeviceFD);
*/
if (pDev[DeviceFD].SCSI == 1)
{
- if ((pRequestSense = (RequestSense_T *)malloc(sizeof(RequestSense_T))) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"GenericRewind : malloc failed\n");
- return(-1);
- }
+ pRequestSense = alloc(SIZEOF(RequestSense_T));
+
/*
* Before doing the rewind check if the tape is ready to accept commands
*/
- while (true == 1)
+ done = 0;
+ while (!done)
{
ret = SCSI_TestUnitReady(DeviceFD, (RequestSense_T *)pRequestSense );
DebugPrint(DEBUG_INFO, SECTION_TAPE, "GenericRewind (TestUnitReady) ret %d\n",ret);
switch (ret)
{
case SCSI_OK:
- true= 0;
+ done = 1;
break;
case SCSI_SENSE:
- switch (SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, (char *)pRequestSense))
+ switch (SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_NO:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_NO\n");
- true = 0;
+ done = 1;
break;
case SENSE_TAPE_NOT_ONLINE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n");
free(pRequestSense);
return(-1);
- break;
+ /*NOTREACHED*/
case SENSE_IGNORE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_IGNORE\n");
- true = 0;
+ done = 1;
break;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_ABORT\n");
free(pRequestSense);
return(-1);
- break;
+ /*NOTREACHED*/
case SENSE_RETRY:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_RETRY\n");
break;
default:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) default (SENSE)\n");
- true = 0;
+ done = 1;
break;
} /* switch (SenseHandler(DeviceFD, 0, pRequestSense->SenseKey.... */
break;
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"GenericRewind (TestUnitReady) SCSI_ERROR\n");
free(pRequestSense);
return(-1);
- break;
+ /*NOTREACHED*/
+
case SCSI_BUSY:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SCSI_BUSY\n");
break;
DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP GenericRewind (-1)\n");
free(pRequestSense);
return(-1);
+ /*NOTREACHED*/
}
- } /* while true == 1 */
+ } /* while !done */
cnt = 0;
- true = 1;
CDB[0] = SC_COM_REWIND;
CDB[1] = 1;
CDB[4] = 0;
CDB[5] = 0;
- while (true)
+ done = 0;
+ while (!done)
{
ret = SCSI_Run(DeviceFD, Input, CDB, 6,
NULL, 0,
- (char *) pRequestSense,
- sizeof(RequestSense_T));
+ pRequestSense,
+ SIZEOF(RequestSense_T));
DecodeSense(pRequestSense, "GenericRewind : ", debug_file);
{
if (pRequestSense->SenseKey != UNIT_ATTENTION)
{
- true = 0;
+ done = 1;
}
}
if (ret == 0)
{
- true = 0;
+ done = 1;
}
if (ret < 0)
{
DebugPrint(DEBUG_INFO, SECTION_TAPE,"GenericRewind : failed %d\n", ret);
- true = 0;
+ done = 1;
}
}
- true = 1;
-
- while (true && cnt < 300)
+ done = 0;
+ while (!done && (cnt < 300))
{
ret = SCSI_TestUnitReady(DeviceFD, pRequestSense);
DebugPrint(DEBUG_INFO, SECTION_SCSI, "GenericRewind TestUnitReady ret %d\n",ret);
switch (ret)
{
case SCSI_OK:
- true = 0;
+ done = 1;
break;
case SCSI_SENSE:
- switch (SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, (char *)pRequestSense))
+ switch (SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_NO:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_NO\n");
- true = 0;
+ done = 1;
break;
case SENSE_TAPE_NOT_ONLINE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_TAPE_NOT_ONLINE\n");
free(pRequestSense);
return(-1);
- break;
+ /*NOTREACHED*/
case SENSE_IGNORE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_IGNORE\n");
- true = 0;
+ done = 1;
break;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_ABORT\n");
free(pRequestSense);
return(-1);
- break;
+ /*NOTREACHED*/
case SENSE_RETRY:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SENSE_RETRY\n");
break;
default:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) default (SENSE)\n");
- true = 0;
+ done = 1;
break;
}
break;
case SCSI_ERROR:
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"GenericRewind (TestUnitReady) SCSI_ERROR\n");
- free(pRequestSense);
return(-1);
- break;
+ /*NOTREACHED*/
+
case SCSI_BUSY:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"GenericRewind (TestUnitReady) SCSI_BUSY\n");
break;
amfree(pRequestSense);
- DebugPrint(DEBUG_INFO, SECTION_TAPE,"GenericRewind : Ready after %d sec, true = %d\n", cnt * 2, true);
+ 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");
}
/* We don't retry if it fails; that is left to the vtape driver. */
if ((errstr = tape_rewind(pDev[DeviceFD].dev)) == NULL) {
- true = 0;
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");
- amfree(pRequestSense);
return(-1);
+ /*NOTREACHED*/
}
DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP GenericRewind (0)\n");
}
- amfree(pRequestSense);
return(0);
}
* bit set in the return of an request sense
*
*/
-int GenericClean(char * Device)
+int
+GenericClean(
+ char * Device)
{
extern OpenFiles_T *pDev;
ExtendedRequestSense_T ExtRequestSense;
int ret = 0;
+ (void)Device; /* Quiet unused parameter warning */
+
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");
return(0);
+ /*NOTREACHED*/
}
/*
return(ret);
}
-int GenericResetStatus(int DeviceFD)
+int
+SCSI_LogSenseClean(
+ char * Device)
+{
+ extern OpenFiles_T *pDev;
+ CDB_T CDB;
+ RequestSense_T *pRequestSense;
+ int ret = 0;
+ u_char *buffer;
+ size_t size = 128;
+
+ (void)Device; /* Quiet unused parameter warning */
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### START SCSI_LogSenseClean\n");
+ if (pDev[INDEX_TAPECTL].SCSI == 0)
+ {
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,"SCSILogSenseClean : can't send SCSI commands\n");
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP SCSI_LogSenseClean\n");
+ return(0);
+ /*NOTREACHED*/
+ }
+
+ if (NULL == (buffer = alloc(size))){
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,"SCSI_LogSenseClean : can't alloc buffer\n");
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP SCSI_LogSenseClean\n");
+ return(0);
+ }
+ if (NULL == (pRequestSense = alloc(SIZEOF(RequestSense_T)))){
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,"SCSI_LogSenseClean : can't alloc memory\n");
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP SCSI_LogSenseClean\n");
+ return(0);
+ }
+
+ memset(buffer, 0, size);
+ CDB[0] = SC_COM_LOG_SENSE;
+ CDB[1] = 0;
+ CDB[2] = (u_char)(0x40 | 0x33);/* 0x40 for current values 0x33 Head Cleaning Page*/
+ CDB[3] = 0;
+ CDB[4] = 0;
+ CDB[5] = 0;
+ CDB[6] = 00;
+ MSB2(&CDB[7], size);
+ CDB[9] = 0;
+
+ if (SCSI_Run(INDEX_TAPECTL, Input, CDB, 10,
+ buffer,
+ size,
+ pRequestSense,
+ SIZEOF(RequestSense_T)) != 0)
+ {
+ DecodeSense(pRequestSense, "SCSI_LogSenseClean : ",debug_file);
+ free(pRequestSense);
+ free(buffer);
+ DebugPrint(DEBUG_ERROR, SECTION_TAPE,"##### STOP SCSI_LogSenseClean (0) Page could not be read.\n");
+ return(0);
+ /*NOTREACHED*/
+ }
+ if (1==(0x1 & buffer[8])){ /* Bit 0 of the 4th byte in the Clean Head Log Parameter, which are the bytes */
+ /* 4 to 8 on the Log Sense Page 0x33 */
+ ret = 1;
+ }else {
+ ret = 0;
+ }
+ DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP SCSI_LogSenseClean (%d)\n",ret);
+ free(pRequestSense);
+ free(buffer);
+ return(ret);
+}
+
+int
+GenericResetStatus(
+ int DeviceFD)
{
CDB_T CDB;
RequestSense_T *pRequestSense;
DebugPrint(DEBUG_INFO, SECTION_ELEMENT, "##### START GenericResetStatus\n");
- if ((pRequestSense = (RequestSense_T *)malloc(sizeof(RequestSense_T))) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericResetStatus : malloc failed\n");
- return(-1);
- }
+ pRequestSense = alloc(SIZEOF(RequestSense_T));
while (retry)
{
ret = SCSI_Run(DeviceFD, Input, CDB, 6,
NULL, 0,
- (char *) pRequestSense,
- sizeof(RequestSense_T));
+ pRequestSense,
+ SIZEOF(RequestSense_T));
if (ret < 0)
{
/* fprintf(stderr, "%s: Request Sense[Inquiry]: %02X", */
- /* "chs", ((unsigned char *) &pRequestSense)[0]); */
- /* for (i = 1; i < sizeof(RequestSense_T); i++) */
- /* fprintf(stderr, " %02X", ((unsigned char *) &pRequestSense)[i]); */
+ /* "chs", ((u_char *) &pRequestSense)[0]); */
+ /* for (i = 1; i < SIZEOF(RequestSense_T); i++) */
+ /* fprintf(stderr, " %02X", ((u_char *) &pRequestSense)[i]); */
/* fprintf(stderr, "\n"); */
free(pRequestSense);
return(ret);
+ /*NOTREACHED*/
}
if ( ret > 0 )
{
- switch (SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, (char *)pRequestSense))
+ switch (SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
free(pRequestSense);
return(0);
- break;
+ /*NOTREACHED*/
case SENSE_ABORT:
free(pRequestSense);
return(-1);
- break;
+ /*NOTREACHED*/
case SENSE_RETRY:
retry++;
if (retry < MAX_RETRIES )
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");
free(pRequestSense);
return(-1);
- break;
+ /*NOTREACHED*/
}
}
if (ret == 0)
* TODO:
* Limit recursion, may run in an infinite loop
*/
-int GenericSenseHandler(int ip, int flag, unsigned char SenseKey, unsigned char AdditionalSenseCode, unsigned char AdditionalSenseCodeQualifier, char *buffer)
+int
+GenericSenseHandler(
+ int ip,
+ u_char flag,
+ u_char SenseKey,
+ u_char AdditionalSenseCode,
+ u_char AdditionalSenseCodeQualifier,
+ RequestSense_T * pRequestSense)
{
extern OpenFiles_T *pDev;
- RequestSense_T *pRequestSense = (RequestSense_T *)buffer;
- int ret = 0;
- unsigned char *info = NULL;
+ int ret;
+ char *info = NULL;
dbprintf(("##### START GenericSenseHandler\n"));
flag, SenseKey,
AdditionalSenseCode,
AdditionalSenseCodeQualifier,
- (char **)&info);
+ &info);
dbprintf(("##### STOP GenericSenseHandler\n"));
return(ret);
* the element handling
* TODO:
*/
-int SDXMove(int DeviceFD, int from, int to)
+int
+SDXMove(
+ int DeviceFD,
+ int from,
+ int to)
{
extern OpenFiles_T *pDev;
ElementInfo_T *pfrom;
ElementInfo_T *pto;
int ret;
int tapestat;
- int moveok = 0;
+ int moveok;
int SDX_MTE = 0; /* This are parameters passed */
int SDX_STE = -1; /* to */
int SDX_DTE = -1; /* AlignElements */
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");
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");
return(-1);
+ /*NOTREACHED*/
}
if (pto->status == 'F')
{
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);
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");
return(-1);
+ /*NOTREACHED*/
}
break;
case IMPORT:
{
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");
return(-1);
+ /*NOTREACHED*/
}
/*
}
}
- if ( ret == 0)
+ if ((ret == 0) && moveok)
{
ret = SCSI_Move(DeviceFD, 0, from, to);
} else {
DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP SDXMove\n");
return(ret);
+ /*NOTREACHED*/
}
DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP SDXMove\n");
return(ret);
* the element handling
* TODO:
*/
-int GenericMove(int DeviceFD, int from, int to)
+int
+GenericMove(
+ int DeviceFD,
+ int from,
+ int to)
{
ElementInfo_T *pfrom;
ElementInfo_T *pto;
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");
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");
return(-1);
+ /*NOTREACHED*/
}
if (pto->status == 'F')
{
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);
if ((pto = LookupElement(to)) == NULL)
DebugPrint(DEBUG_ERROR, SECTION_MOVE, " Ups should not happen\n");
DebugPrint(DEBUG_INFO, SECTION_MOVE,"##### STOP GenericMove\n");
return(-1);
+ /*NOTREACHED*/
}
}
* 0 => Not OK
*/
-int CheckMove(ElementInfo_T *from, ElementInfo_T *to)
+int
+CheckMove(
+ ElementInfo_T * from,
+ ElementInfo_T * to)
{
int moveok = 0;
/*
*/
-int GetCurrentSlot(int fd, int drive)
+int
+GetCurrentSlot(
+ int fd,
+ int drive)
{
extern OpenFiles_T *pDev;
- int x;
+ size_t x;
dbprintf(("##### START GetCurrentSlot\n"));
+ (void)fd; /* Quiet unused parameter warning */
+
if (pDev[0].SCSI == 0)
{
dbprintf(("GetCurrentSlot : can't send SCSI commands\n"));
return(-1);
+ /*NOTREACHED*/
}
if (ElementStatusValid == 0)
if (pDev[0].functions->function_status(0, 1) != 0)
{
return(-1);
+ /*NOTREACHED*/
}
}
{
if (pSTE[x].address == pDTE[drive].from)
return(x);
+ /*NOTREACHED*/
}
return(-1);
+ /*NOTREACHED*/
}
for (x = 0; x < STE;x++)
{
- if (pSTE[x].status == 'E')
- return(x);
+ if (pSTE[x].status == 'E') {
+ return(x);
+ /*NOTREACHED*/
+ }
}
/* Ups nothing loaded */
* If there are error conditions try to fix them
*
*/
-int GenericElementStatus(int DeviceFD, int InitStatus)
+int
+GenericElementStatus(
+ int DeviceFD,
+ int InitStatus)
{
int MTEError = 0;
int STEError = 0;
int IEEError = 0;
int DTEError = 0;
- int STEEmpty = 0;
extern OpenFiles_T *pDev;
- int error = 0; /* If set do an INIT ELEMENT STATUS */
- int x; /* The standard loop counter :-) */
- int loop = 2; /* Redo it if an error has been reset */
+ int error = 0; /* If set do an INIT ELEMENT STATUS */
+ size_t x; /* The standard loop counter :-) */
+ int retry = 2; /* Redo it if an error has been reset */
+
+ (void)InitStatus; /* Quiet unused parameter warning */
DebugPrint(DEBUG_INFO, SECTION_ELEMENT, "##### START GenericElementStatus\n");
*/
if (pModePage == NULL && LibModeSenseValid == 0)
{
- if ((pModePage = malloc(0xff)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"GenericElementStatus : malloc failed\n");
- return(-1);
- }
+ pModePage = alloc(0xff);
+
if (SCSI_ModeSense(DeviceFD, pModePage, 0xff, 0x8, 0x3f) == 0)
{
LibModeSenseValid = 1;
}
}
- if (GetElementStatus(DeviceFD) == 0 && loop > 0)
+ while ((GetElementStatus(DeviceFD) == 0) && (retry-- > 0))
{
- loop--;
for (x = 0; x < MTE; x++)
{
if (pMTE[x].ASC > 0)
{
- switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pMTE[x].ASC, pMTE[x].ASCQ, (char *)&pMTE[x]))
+ switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pMTE[x].ASC, pMTE[x].ASCQ, (RequestSense_T *)&pMTE[x]))
{
case SENSE_IES:
MTEError = 1;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericElementStatus : Abort on MTE\n");
return(-1);
- break;
+ /*NOTREACHED*/
}
}
}
{
if (pIEE[x].ASC > 0)
{
- switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pIEE[x].ASC, pIEE[x].ASCQ, (char *)&pIEE[x]))
+ switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pIEE[x].ASC, pIEE[x].ASCQ, (RequestSense_T *)&pIEE[x]))
{
case SENSE_IES:
IEEError = 1;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericElementStatus : Abort on IEE\n");
return(-1);
- break;
+ /*NOTREACHED*/
}
}
}
for (x = 0; x < STE; x++)
{
- /*
- * Needed for the hack to guess the tape status if an error
- * for the tape is pending
- */
- if (pSTE[x].status == 'E')
- {
- STEEmpty = 1;
- }
-
if (pSTE[x].ASC > 0)
{
- switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pSTE[x].ASC, pSTE[x].ASCQ, (char *)&pSTE[x]))
+ switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pSTE[x].ASC, pSTE[x].ASCQ, (RequestSense_T *)&pSTE[x]))
{
case SENSE_IES:
STEError = 1;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericElementStatus : Abort on IES\n");
return(-1);
- break;
+ /*NOTREACHED*/
}
}
}
{
if (pDTE[x].ASC > 0)
{
- switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pDTE[x].ASC, pDTE[x].ASCQ, (char *)&pDTE[x]))
+ switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pDTE[x].ASC, pDTE[x].ASCQ, (RequestSense_T *)&pDTE[x]))
{
case SENSE_IES:
DTEError = 1;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericElementStatus : Abort on DTE\n");
return(-1);
- break;
+ /*NOTREACHED*/
}
}
}
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);
return(-1);
+ /*NOTREACHED*/
}
error = 0;
}
{
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "GenericElementStatus : Can't init status (after loop)\n");
return(-1);
+ /*NOTREACHED*/
}
ElementStatusValid = 1;
* This is for the ADIC changer, it seems that they have an diferent
* offset in the mode sense data before the first mode page (+12)
*/
-int DLT448ElementStatus(int DeviceFD, int InitStatus)
+int
+DLT448ElementStatus(
+ int DeviceFD,
+ int InitStatus)
{
- int MTEError = 0;
- int STEError = 0;
- int IEEError = 0;
int DTEError = 0;
- int STEEmpty = 0;
extern OpenFiles_T *pDev;
int error = 0; /* If set do an INIT ELEMENT STATUS */
- int x; /* The standard loop counter :-) */
+ size_t x; /* The standard loop counter :-) */
int loop = 2; /* Redo it if an error has been reset */
+ (void)InitStatus; /* Quiet unused parameter warning */
+
DebugPrint(DEBUG_INFO, SECTION_ELEMENT, "##### START DLT448ElementStatus\n");
if (pEAAPage == NULL)
*/
if (pModePage == NULL && LibModeSenseValid == 0)
{
- if ((pModePage = malloc(0xff)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"DLT448ElementStatus : malloc failed\n");
- return(-1);
- }
+ pModePage = alloc(0xff);
+
if (SCSI_ModeSense(DeviceFD, pModePage, 0xff, 0x8, 0x3f) == 0)
{
LibModeSenseValid = 1;
}
}
- if (GetElementStatus(DeviceFD) == 0 && loop > 0)
+ while (GetElementStatus(DeviceFD) == 0 && loop-- > 0)
{
- loop--;
for (x = 0; x < MTE; x++)
{
if (pMTE[x].ASC > 0)
{
- switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pMTE[x].ASC, pMTE[x].ASCQ, (char *)&pMTE[x]))
+ switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pMTE[x].ASC, pMTE[x].ASCQ, (RequestSense_T *)&pMTE[x]))
{
case SENSE_IES:
- MTEError = 1;
error = 1;
break;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "DLT448ElementStatus : Abort on MTE\n");
return(-1);
- break;
+ /*NOTREACHED*/
}
}
}
{
if (pIEE[x].ASC > 0)
{
- switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pIEE[x].ASC, pIEE[x].ASCQ, (char *)&pIEE[x]))
+ switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pIEE[x].ASC, pIEE[x].ASCQ, (RequestSense_T *)&pIEE[x]))
{
case SENSE_IES:
- IEEError = 1;
error = 1;
break;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "DLT448ElementStatus : Abort on IEE\n");
return(-1);
- break;
+ /*NOTREACHED*/
}
}
}
* Needed for the hack to guess the tape status if an error
* for the tape is pending
*/
- if (pSTE[x].status == 'E')
- {
- STEEmpty = 1;
- }
-
if (pSTE[x].ASC > 0)
{
- switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pSTE[x].ASC, pSTE[x].ASCQ, (char *)&pSTE[x]))
+ switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pSTE[x].ASC, pSTE[x].ASCQ, (RequestSense_T *)&pSTE[x]))
{
case SENSE_IES:
- STEError = 1;
error = 1;
break;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "DLT448ElementStatus : Abort on IES\n");
return(-1);
- break;
+ /*NOTREACHED*/
}
}
}
{
if (pDTE[x].ASC > 0)
{
- switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pDTE[x].ASC, pDTE[x].ASCQ, (char *)&pDTE[x]))
+ switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pDTE[x].ASC, pDTE[x].ASCQ, (RequestSense_T *)&pDTE[x]))
{
case SENSE_IES:
DTEError = 1;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "DLT448ElementStatus : Abort on DTE\n");
return(-1);
- break;
+ /*NOTREACHED*/
}
}
}
ElementStatusValid = 0;
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "DLT448ElementStatus : Can't init status\n");
return(-1);
+ /*NOTREACHED*/
}
error = 0;
}
{
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "DLT448ElementStatus : Can't init status (after loop)\n");
return(-1);
+ /*NOTREACHED*/
}
ElementStatusValid = 1;
* it seemes that for the STE Elements ASC/ASCQ is not set
* on an error, only the except bit is set
*/
-int SDXElementStatus(int DeviceFD, int InitStatus)
+int
+SDXElementStatus(
+ int DeviceFD,
+ int InitStatus)
{
- int MTEError = 0;
- int STEError = 0;
- int IEEError = 0;
- int DTEError = 0;
-
int error = 0; /* If set do an INIT ELEMENT STATUS */
- int x; /* The standard loop counter :-) */
+ size_t x; /* The standard loop counter :-) */
int loop = 2; /* Redo it if an error has been reset */
+ (void)InitStatus; /* Quiet unused parameter warning */
+
DebugPrint(DEBUG_INFO, SECTION_ELEMENT, "##### START SDXElementStatus\n");
if (pEAAPage == NULL)
*/
if (pModePage == NULL && LibModeSenseValid == 0)
{
- if ((pModePage = malloc(0xff)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"SDXElementStatus : malloc failed\n");
- return(-1);
- }
+ pModePage = alloc(0xff);
+
if (SCSI_ModeSense(DeviceFD, pModePage, 0xff, 0x8, 0x3f) == 0)
{
LibModeSenseValid = 1;
}
}
- if (GetElementStatus(DeviceFD) == 0 && loop)
+ while (GetElementStatus(DeviceFD) == 0 && loop--)
{
- loop--;
error = 0;
for (x = 0; x < MTE; x++)
{
if (pMTE[x].ASC > 0)
{
- switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pMTE[x].ASC, pMTE[x].ASCQ, (char *)&pMTE[x]))
+ switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pMTE[x].ASC, pMTE[x].ASCQ, (RequestSense_T *)&pMTE[x]))
{
case SENSE_IES:
- MTEError = 1;
error = 1;
break;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "SDXElementStatus : Abort on MTE\n");
return(-1);
- break;
+ /*NOTREACHED*/
}
}
}
{
if (pIEE[x].ASC > 0)
{
- switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pIEE[x].ASC, pIEE[x].ASCQ, (char *)&pIEE[x]))
+ switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pIEE[x].ASC, pIEE[x].ASCQ, (RequestSense_T *)&pIEE[x]))
{
case SENSE_IES:
- IEEError = 1;
error = 1;
break;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "SDXElementStatus : Abort on IEE\n");
return(-1);
- break;
+ /*NOTREACHED*/
}
}
}
for (x = 0; x < STE; x++)
{
- if (pSTE[x].except != 0)
- {
- STEError = 1;
- }
-
if (pSTE[x].ASC > 0)
{
- switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pSTE[x].ASC, pSTE[x].ASCQ, (char *)&pSTE[x]))
+ switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pSTE[x].ASC, pSTE[x].ASCQ, (RequestSense_T *)&pSTE[x]))
{
case SENSE_IES:
- STEError = 1;
error = 1;
break;
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "SDXElementStatus : Abort on IES\n");
return(-1);
- break;
+ /*NOTREACHED*/
}
}
}
{
if (pDTE[x].ASC > 0)
{
- switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pDTE[x].ASC, pDTE[x].ASCQ, (char *)&pDTE[x]))
+ switch(SenseHandler(DeviceFD, 0, SENSE_CHG_ELEMENT_STATUS, pDTE[x].ASC, pDTE[x].ASCQ, (RequestSense_T *)&pDTE[x]))
{
case SENSE_IES:
- DTEError = 1;
/*
error = 1;
*/
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "SDXElementStatus : Abort on DTE\n");
return(-1);
- break;
+ /*NOTREACHED*/
}
}
}
ElementStatusValid = 0;
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "SDXElementStatus : Can't init status\n");
return(-1);
+ /*NOTREACHED*/
}
}
{
DebugPrint(DEBUG_ERROR, SECTION_ELEMENT, "SDXElementStatus : Can't init status\n");
return(-1);
+ /*NOTREACHED*/
}
ElementStatusValid = 1;
*
* TODO:
*/
-int GetElementStatus(int DeviceFD)
+int
+GetElementStatus(
+ int DeviceFD)
{
- unsigned char *DataBuffer = NULL;
- int DataBufferLength;
+ u_char *DataBuffer = NULL;
+ size_t DataBufferLength;
ElementStatusData_T *ElementStatusData;
ElementStatusPage_T *ElementStatusPage;
MediumTransportElementDescriptor_T *MediumTransportElementDescriptor;
StorageElementDescriptor_T *StorageElementDescriptor;
DataTransferElementDescriptor_T *DataTransferElementDescriptor;
ImportExportElementDescriptor_T *ImportExportElementDescriptor;
- int x = 0;
- int offset = 0;
- int length = 0; /* Length of an Element */
- int barcode = 0; /* To store the result of the BarCode function */
- int NoOfElements;
+ size_t x;
+ size_t offset;
+ size_t length; /* Length of an Element */
+ size_t NoOfElements;
DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"##### START GetElementStatus\n");
/* First the Medim Transport*/
if (V2(pEAAPage->NoMediumTransportElements) > 0)
{
- free(pMTE);
MTE = V2(pEAAPage->NoMediumTransportElements) ;
- if ((pMTE = (ElementInfo_T *)malloc(sizeof(ElementInfo_T) * MTE)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"GenericElementStatus : malloc failed\n");
- return(-1);
- }
- memset(pMTE, 0, sizeof(ElementInfo_T) * MTE);
+ pMTE = alloc(SIZEOF(ElementInfo_T) * MTE);
+ memset(pMTE, 0, SIZEOF(ElementInfo_T) * MTE);
if (SCSI_ReadElementStatus(DeviceFD,
CHANGER,
0,
- barcode,
+ (u_char)barcode,
V2(pEAAPage->MediumTransportElementAddress),
- MTE+1,
- sizeof(MediumTransportElementDescriptor_T),
- (char **)&DataBuffer) != 0)
+ (MTE + (size_t)1),
+ SIZEOF(MediumTransportElementDescriptor_T),
+ &DataBuffer) != 0)
{
- free(pMTE);
- free(DataBuffer);
ChgExit("genericElementStatus","Can't read MTE status", FATAL);
+ /*NOTREACHED*/
}
- ElementStatusData = (ElementStatusData_T *)DataBuffer;
- offset = sizeof(ElementStatusData_T);
+ // ElementStatusData = (ElementStatusData_T *)DataBuffer;
+ offset = SIZEOF(ElementStatusData_T);
ElementStatusPage = (ElementStatusPage_T *)&DataBuffer[offset];
- offset = offset + sizeof(ElementStatusPage_T);
+ offset = offset + SIZEOF(ElementStatusPage_T);
length = V2(ElementStatusPage->length);
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"MTE Length %d(%d)\n",length,sizeof(MediumTransportElementDescriptor_T));
+
+ DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"MTE Length %d(%d)\n", length,
+ SIZEOF(MediumTransportElementDescriptor_T));
for (x = 0; x < MTE; x++)
{
pMTE[x].type = ElementStatusPage->type;
pMTE[x].address = V2(MediumTransportElementDescriptor->address);
pMTE[x].except = MediumTransportElementDescriptor->except;
- pMTE[x].status = (MediumTransportElementDescriptor->full > 0) ? 'F':'E';
pMTE[x].full = MediumTransportElementDescriptor->full;
+ if (MediumTransportElementDescriptor->full > 0)
+ {
+ pMTE[x].status = 'F';
+ } else {
+ pMTE[x].status = 'E';
+ }
if (length >= 5)
{
}
offset = offset + length;
}
+ free(DataBuffer);
+ DataBuffer = NULL;
}
/*
* Storage Elements
{
free(pSTE);
STE = V2(pEAAPage->NoStorageElements);
- if ((pSTE = (ElementInfo_T *)malloc(sizeof(ElementInfo_T) * STE)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"GenericElementStatus : malloc failed\n");
- free(pMTE);
- return(-1);
- }
- memset(pSTE, 0, sizeof(ElementInfo_T) * STE);
+ pSTE = alloc(SIZEOF(ElementInfo_T) * STE);
+ memset(pSTE, 0, SIZEOF(ElementInfo_T) * STE);
if (SCSI_ReadElementStatus(DeviceFD,
STORAGE,
0,
- barcode,
+ (u_char)barcode,
V2(pEAAPage->FirstStorageElementAddress),
STE,
- sizeof(StorageElementDescriptor_T),
- (char **)&DataBuffer) != 0)
+ SIZEOF(StorageElementDescriptor_T),
+ &DataBuffer) != 0)
{
- free(DataBuffer);
ChgExit("GetElementStatus", "Can't read STE status", FATAL);
+ /*NOTREACHED*/
}
+ assert(DataBuffer != NULL);
- ElementStatusData = (ElementStatusData_T *)DataBuffer;
- offset = sizeof(ElementStatusData_T);
+ // ElementStatusData = (ElementStatusData_T *)DataBuffer;
+ offset = SIZEOF(ElementStatusData_T);
ElementStatusPage = (ElementStatusPage_T *)&DataBuffer[offset];
- offset = offset + sizeof(ElementStatusPage_T);
+ offset = offset + SIZEOF(ElementStatusPage_T);
length = V2(ElementStatusPage->length);
DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"STE Length %d\n",length);
pSTE[x].type = ElementStatusPage->type;
pSTE[x].address = V2(StorageElementDescriptor->address);
pSTE[x].except = StorageElementDescriptor->except;
- pSTE[x].status = (StorageElementDescriptor->full > 0) ? 'F':'E';
pSTE[x].full = StorageElementDescriptor->full;
+ if (StorageElementDescriptor->full > 0)
+ {
+ pSTE[x].status = 'F';
+ } else {
+ pSTE[x].status = 'E';
+ }
if (length >= 5)
{
offset = offset + length;
}
-
+ free(DataBuffer);
+ DataBuffer = NULL;
}
/*
* Import/Export Elements
{
free(pIEE);
IEE = V2(pEAAPage->NoImportExportElements);
- if ((pIEE = (ElementInfo_T *)malloc(sizeof(ElementInfo_T) * IEE)) == NULL)
- {
- DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"GenericElementStatus : malloc failed\n");
- free(DataBuffer);
- return(-1);
- }
- memset(pIEE, 0, sizeof(ElementInfo_T) * IEE);
+ pIEE = alloc(SIZEOF(ElementInfo_T) * IEE);
+ memset(pIEE, 0, SIZEOF(ElementInfo_T) * IEE);
if (SCSI_ReadElementStatus(DeviceFD,
IMPORT,
0,
- barcode,
+ (u_char)barcode,
V2(pEAAPage->FirstImportExportElementAddress),
IEE,
- sizeof(ImportExportElementDescriptor_T),
- (char **)&DataBuffer) != 0)
+ SIZEOF(ImportExportElementDescriptor_T),
+ &DataBuffer) != 0)
{
- if (DataBuffer != 0)
- {
- free(DataBuffer);
- }
ChgExit("GetElementStatus", "Can't read IEE status", FATAL);
+ /*NOTREACHED*/
}
+ assert(DataBuffer != NULL);
- ElementStatusData = (ElementStatusData_T *)DataBuffer;
- offset = sizeof(ElementStatusData_T);
+ // ElementStatusData = (ElementStatusData_T *)DataBuffer;
+ offset = SIZEOF(ElementStatusData_T);
ElementStatusPage = (ElementStatusPage_T *)&DataBuffer[offset];
- offset = offset + sizeof(ElementStatusPage_T);
+ offset = offset + SIZEOF(ElementStatusPage_T);
length = V2(ElementStatusPage->length);
DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"IEE Length %d\n",length);
pIEE[x].type = ElementStatusPage->type;
pIEE[x].address = V2(ImportExportElementDescriptor->address);
pIEE[x].except = ImportExportElementDescriptor->except;
- pIEE[x].status = (ImportExportElementDescriptor->full > 0) ? 'F':'E';
pIEE[x].full = ImportExportElementDescriptor->full;
+ if (ImportExportElementDescriptor->full > 0)
+ {
+ pIEE[x].status = 'F';
+ } else {
+ pIEE[x].status = 'E';
+ }
if (length >= 5)
{
offset = offset + length;
}
-
+ free(DataBuffer);
+ DataBuffer = NULL;
}
/*
* Data Transfer Elements
{
free(pDTE);
DTE = V2(pEAAPage->NoDataTransferElements) ;
- if ((pDTE = (ElementInfo_T *)malloc(sizeof(ElementInfo_T) * DTE)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"GenericElementStatus : malloc failed\n");
- free(DataBuffer);
- return(-1);
- }
- memset(pDTE, 0, sizeof(ElementInfo_T) * DTE);
+ pDTE = alloc(SIZEOF(ElementInfo_T) * DTE);
+ memset(pDTE, 0, SIZEOF(ElementInfo_T) * DTE);
if (SCSI_ReadElementStatus(DeviceFD,
TAPETYPE,
0,
- barcode,
+ (u_char)barcode,
V2(pEAAPage->FirstDataTransferElementAddress),
DTE,
- sizeof(DataTransferElementDescriptor_T),
- (char **)&DataBuffer) != 0)
+ SIZEOF(DataTransferElementDescriptor_T),
+ &DataBuffer) != 0)
{
- free(DataBuffer);
ChgExit("GenericElementStatus", "Can't read DTE status", FATAL);
+ /*NOTREACHED*/
}
+ assert(DataBuffer != NULL);
- ElementStatusData = (ElementStatusData_T *)DataBuffer;
- offset = sizeof(ElementStatusData_T);
+ // ElementStatusData = (ElementStatusData_T *)DataBuffer;
+ offset = SIZEOF(ElementStatusData_T);
ElementStatusPage = (ElementStatusPage_T *)&DataBuffer[offset];
- offset = offset + sizeof(ElementStatusPage_T);
+ offset = offset + SIZEOF(ElementStatusPage_T);
length = V2(ElementStatusPage->length);
DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"DTE Length %d\n",length);
pDTE[x].address = V2(DataTransferElementDescriptor->address);
pDTE[x].except = DataTransferElementDescriptor->except;
pDTE[x].scsi = DataTransferElementDescriptor->scsi;
- pDTE[x].status = (DataTransferElementDescriptor->full > 0) ? 'F':'E';
pDTE[x].full = DataTransferElementDescriptor->full;
+ if (DataTransferElementDescriptor->full > 0)
+ {
+ pDTE[x].status = 'F';
+ } else {
+ pDTE[x].status = 'E';
+ }
if (length >= 5)
{
offset = offset + length;
}
+ free(DataBuffer);
+ DataBuffer = NULL;
}
} else {
/*
if (SCSI_ReadElementStatus(DeviceFD,
0,
0,
- barcode,
+ (u_char)barcode,
0,
- 0xff,
- 0x7f,
- (char **)&DataBuffer) != 0)
+ (size_t)0xff,
+ (size_t)0x7f,
+ &DataBuffer) != 0)
{
- if (DataBuffer != 0)
- {
- free(DataBuffer);
- }
ChgExit("GenericElementStatus","Can't get ElementStatus", FATAL);
+ /*NOTREACHED*/
}
+ assert(DataBuffer != NULL);
ElementStatusData = (ElementStatusData_T *)DataBuffer;
DataBufferLength = V3(ElementStatusData->count);
- offset = sizeof(ElementStatusData_T);
-
- if (DataBufferLength <= 0)
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"DataBufferLength %d\n",DataBufferLength);
- free(DataBuffer);
- return(1);
- }
+ offset = SIZEOF(ElementStatusData_T);
while (offset < DataBufferLength)
{
ElementStatusPage = (ElementStatusPage_T *)&DataBuffer[offset];
NoOfElements = V3(ElementStatusPage->count) / V2(ElementStatusPage->length);
- offset = offset + sizeof(ElementStatusPage_T);
+ offset = offset + SIZEOF(ElementStatusPage_T);
length = V2(ElementStatusPage->length);
switch (ElementStatusPage->type)
case CHANGER:
free(pMTE);
MTE = NoOfElements;
- if ((pMTE = (ElementInfo_T *)malloc(sizeof(ElementInfo_T) * MTE)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"GenericElementStatus : malloc failed\n");
- free(DataBuffer);
- return(-1);
- }
- memset(pMTE, 0, sizeof(ElementInfo_T) * MTE);
+ pMTE = alloc(SIZEOF(ElementInfo_T) * MTE);
+ memset(pMTE, 0, SIZEOF(ElementInfo_T) * MTE);
for (x = 0; x < NoOfElements; x++)
{
pMTE[x].type = ElementStatusPage->type;
pMTE[x].address = V2(MediumTransportElementDescriptor->address);
pMTE[x].except = MediumTransportElementDescriptor->except;
- pMTE[x].status = (MediumTransportElementDescriptor->full > 0) ? 'F':'E';
pMTE[x].full = MediumTransportElementDescriptor->full;
-
+ if (MediumTransportElementDescriptor->full > 0)
+ {
+ pMTE[x].status = 'F';
+ } else {
+ pMTE[x].status = 'E';
+ }
if (length >= 5)
{
case STORAGE:
free(pSTE);
STE = NoOfElements;
- if ((pSTE = (ElementInfo_T *)malloc(sizeof(ElementInfo_T) * STE)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"GenericElementStatus : malloc failed\n");
- free(DataBuffer);
- return(-1);
- }
- memset(pSTE, 0, sizeof(ElementInfo_T) * STE);
+ pSTE = alloc(SIZEOF(ElementInfo_T) * STE);
+ memset(pSTE, 0, SIZEOF(ElementInfo_T) * STE);
for (x = 0; x < NoOfElements; x++)
{
pSTE[x].type = ElementStatusPage->type;
pSTE[x].address = V2(StorageElementDescriptor->address);
pSTE[x].except = StorageElementDescriptor->except;
- pSTE[x].status = (StorageElementDescriptor->full > 0) ? 'F':'E';
pSTE[x].full = StorageElementDescriptor->full;
+ if (StorageElementDescriptor->full > 0)
+ {
+ pSTE[x].status = 'F';
+ } else {
+ pSTE[x].status = 'E';
+ }
if (length >= 5)
{
case IMPORT:
free(pIEE);
IEE = NoOfElements;
- if ((pIEE = (ElementInfo_T *)malloc(sizeof(ElementInfo_T) * IEE)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"GenericElementStatus : malloc failed\n");
- free(DataBuffer);
- return(-1);
- }
- memset(pIEE, 0, sizeof(ElementInfo_T) * IEE);
+ pIEE = alloc(SIZEOF(ElementInfo_T) * IEE);
+ memset(pIEE, 0, SIZEOF(ElementInfo_T) * IEE);
for (x = 0; x < NoOfElements; x++)
{
pIEE[x].type = ElementStatusPage->type;
pIEE[x].address = V2(ImportExportElementDescriptor->address);
pIEE[x].except = ImportExportElementDescriptor->except;
- pIEE[x].status = (ImportExportElementDescriptor->full > 0) ? 'F':'E';
pIEE[x].full = ImportExportElementDescriptor->full;
+ if (ImportExportElementDescriptor->full > 0)
+ {
+ pIEE[x].status = 'F';
+ } else {
+ pIEE[x].status = 'E';
+ }
if (length >= 5)
{
case TAPETYPE:
free(pDTE);
DTE = NoOfElements;
- if ((pDTE = (ElementInfo_T *)malloc(sizeof(ElementInfo_T) * DTE)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"GenericElementStatus : malloc failed\n");
- free(DataBuffer);
- return(-1);
- }
- memset(pDTE, 0, sizeof(ElementInfo_T) * DTE);
+ pDTE = alloc(SIZEOF(ElementInfo_T) * DTE);
+ memset(pDTE, 0, SIZEOF(ElementInfo_T) * DTE);
for (x = 0; x < NoOfElements; x++)
{
pDTE[x].address = V2(DataTransferElementDescriptor->address);
pDTE[x].except = DataTransferElementDescriptor->except;
pDTE[x].scsi = DataTransferElementDescriptor->scsi;
- pDTE[x].status = (DataTransferElementDescriptor->full > 0) ? 'F':'E';
pDTE[x].full = DataTransferElementDescriptor->full;
+ if (DataTransferElementDescriptor->full > 0)
+ {
+ pDTE[x].status = 'F';
+ } else {
+ pDTE[x].status = 'E';
+ }
if (length >= 5)
{
break;
}
}
+ free(DataBuffer);
}
DebugPrint(DEBUG_INFO, SECTION_ELEMENT,"\n\n\tMedia Transport Elements (robot arms) :\n");
- free(DataBuffer);
return(0);
}
*
* TODO
*/
-int RequestSense(int DeviceFD, ExtendedRequestSense_T *ExtendedRequestSense, int ClearErrorCounters )
+int
+RequestSense(
+ int DeviceFD,
+ ExtendedRequestSense_T * ExtendedRequestSense,
+ int ClearErrorCounters)
{
CDB_T CDB;
int ret;
CDB[1] = 0; /* Logical Unit Number = 0, Reserved */
CDB[2] = 0; /* Reserved */
CDB[3] = 0; /* Reserved */
- CDB[4] = sizeof(ExtendedRequestSense_T); /* Allocation Length */
- CDB[5] = (ClearErrorCounters << 7) & 0x80; /* */
+ CDB[4] = (u_char)sizeof(ExtendedRequestSense_T); /* Allocation Length */
+ CDB[5] = (u_char)((ClearErrorCounters << 7) & 0x80); /* */
- memset(ExtendedRequestSense, 0, sizeof(ExtendedRequestSense_T));
+ memset(ExtendedRequestSense, 0, SIZEOF(ExtendedRequestSense_T));
ret = SCSI_Run(DeviceFD, Input, CDB, 6,
(char *) ExtendedRequestSense,
- sizeof(ExtendedRequestSense_T),
- (char *) ExtendedRequestSense, sizeof(ExtendedRequestSense_T));
+ SIZEOF(ExtendedRequestSense_T),
+ (RequestSense_T *) ExtendedRequestSense,
+ SIZEOF(ExtendedRequestSense_T));
if (ret < 0)
{
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);
return(ExtendedRequestSense->SenseKey);
+ /*NOTREACHED*/
}
- dump_hex((char *)ExtendedRequestSense , sizeof(ExtendedRequestSense_T) , DEBUG_INFO, SECTION_SCSI);
+ dump_hex((u_char *)ExtendedRequestSense ,
+ SIZEOF(ExtendedRequestSense_T),
+ DEBUG_INFO, SECTION_SCSI);
DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP RequestSense (0)\n");
return(0);
}
*/
-ElementInfo_T *LookupElement(int address)
+ElementInfo_T *
+LookupElement(
+ int address)
{
- int x;
+ size_t x;
dbprintf(("##### START LookupElement\n"));
{
dbprintf(("##### STOP LookupElement (DTE)\n"));
return(&pDTE[x]);
+ /*NOTREACHED*/
}
}
}
{
dbprintf(("##### STOP LookupElement (MTE)\n"));
return(&pMTE[x]);
+ /*NOTREACHED*/
}
}
}
{
dbprintf(("##### STOP LookupElement (STE)\n"));
return(&pSTE[x]);
+ /*NOTREACHED*/
}
}
}
{
dbprintf(("##### STOP LookupElement (IEE)\n"));
return(&pIEE[x]);
+ /*NOTREACHED*/
}
}
}
return(NULL);
}
+
/*
* Here comes everything what decode the log Pages
*
* Fix the result handling from TestUnitReady
*
*/
-int LogSense(DeviceFD)
+int
+LogSense(
+ int DeviceFD)
{
extern OpenFiles_T *pDev;
CDB_T CDB;
int found;
extern char *tapestatfile;
int i;
- int ParameterCode;
- unsigned int value;
- int length;
+ unsigned ParameterCode;
+ unsigned value;
+ size_t length;
int count;
- char *buffer;
- char *logpages;
- int nologpages;
- int size = 128;
+ u_char *buffer;
+ u_char *logpages;
+ size_t nologpages;
+ size_t size = 128;
+
+ (void)DeviceFD; /* Quiet unused parameter warning */
DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### START LogSense\n");
if ((tapestatfile != NULL) && (pDev[INDEX_TAPECTL].SCSI == 1) &&
((StatFile = fopen(tapestatfile,"a")) != NULL))
{
- if ((pRequestSense = (RequestSense_T *)malloc(sizeof(RequestSense_T))) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"LogSense : malloc failed\n");
- fclose(StatFile);
- return(-1);
- }
+ pRequestSense = alloc(SIZEOF(RequestSense_T));
if (GenericRewind(INDEX_TAPECTL) < 0)
{
free(pRequestSense);
fclose(StatFile);
return(0);
+ /*NOTREACHED*/
}
/*
* Try to read the tape label
}
}
- if ((buffer = (char *)malloc(size)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"LogSense : malloc failed\n");
- free(pRequestSense);
- fclose(StatFile);
- return(-1);
- }
+ buffer = alloc(size);
memset(buffer, 0, size);
/*
* Get the known log pages
MSB2(&CDB[7], size);
CDB[9] = 0;
- if (SCSI_Run(INDEX_TAPECTL, Input, CDB, 10,
+ if (SCSI_Run(INDEX_TAPECTL, Input, CDB, 10,
buffer,
size,
- (char *)pRequestSense,
- sizeof(RequestSense_T)) != 0)
+ pRequestSense,
+ SIZEOF(RequestSense_T)) != 0)
{
DecodeSense(pRequestSense, "LogSense : ",debug_file);
free(pRequestSense);
free(buffer);
fclose(StatFile);
return(0);
+ /*NOTREACHED*/
}
LogSenseHeader = (LogSenseHeader_T *)buffer;
nologpages = V2(LogSenseHeader->PageLength);
- if ((logpages = (char *)malloc(nologpages)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_TAPE,"LogSense : malloc failed\n");
- free(pRequestSense);
- free(buffer);
- fclose(StatFile);
- return(-1);
- }
+ logpages = alloc(nologpages);
- memcpy(logpages, buffer + sizeof(LogSenseHeader_T), nologpages);
+ memcpy(logpages, buffer + SIZEOF(LogSenseHeader_T), nologpages);
- for (count = 0; count < nologpages; count++) {
+ for (count = 0; count < (int)nologpages; count++) {
if (logpages[count] != 0 ) {
memset(buffer, 0, size);
CDB[0] = SC_COM_LOG_SENSE;
CDB[1] = 0;
- CDB[2] = 0x40 | logpages[count]; /* 0x40 for current values */
+ CDB[2] = (u_char)(0x40 | logpages[count]);/* 0x40 for current values */
CDB[3] = 0;
CDB[4] = 0;
CDB[5] = 0;
if (SCSI_Run(INDEX_TAPECTL, Input, CDB, 10,
buffer,
size,
- (char *)pRequestSense,
- sizeof(RequestSense_T)) != 0)
+ pRequestSense,
+ SIZEOF(RequestSense_T)) != 0)
{
DecodeSense(pRequestSense, "LogSense : ",debug_file);
free(pRequestSense);
free(buffer);
fclose(StatFile);
return(0);
+ /*NOTREACHED*/
}
LogSenseHeader = (LogSenseHeader_T *)buffer;
length = V2(LogSenseHeader->PageLength);
- LogParameter = (LogParameter_T *)(buffer + sizeof(LogSenseHeader_T));
+ LogParameter = (LogParameter_T *)(buffer + SIZEOF(LogSenseHeader_T));
/*
* Decode the log pages
*/
p = (struct LogPageDecode *)&DecodePages;
found = 0;
- dump_hex((char *)LogParameter, 64, DEBUG_INFO, SECTION_SCSI);
+ dump_hex((u_char *)LogParameter, 64, DEBUG_INFO, SECTION_SCSI);
while(p->ident != NULL) {
if ((strcmp(pDev[INDEX_TAPECTL].ident, p->ident) == 0 ||strcmp("*", p->ident) == 0) && p->LogPage == logpages[count]) {
if (!found) {
fprintf(StatFile, "Logpage No %d = %x\n", count ,logpages[count]);
- while ((char *)LogParameter < (buffer + length)) {
+ while ((u_char *)LogParameter < (buffer + length)) {
i = LogParameter->ParameterLength;
ParameterCode = V2(LogParameter->ParameterCode);
switch (i) {
case 1:
- value = V1((char *)LogParameter + sizeof(LogParameter_T));
+ value = V1((u_char *)LogParameter + SIZEOF(LogParameter_T));
fprintf(StatFile, "ParameterCode %02X = %u(%d)\n", ParameterCode, value, i);
break;
case 2:
- value = V2((char *)LogParameter + sizeof(LogParameter_T));
+ value = V2((u_char *)LogParameter + SIZEOF(LogParameter_T));
fprintf(StatFile, "ParameterCode %02X = %u(%d)\n", ParameterCode, value, i);
break;
case 3:
- value = V3((char *)LogParameter + sizeof(LogParameter_T));
+ value = V3((u_char *)LogParameter + SIZEOF(LogParameter_T));
fprintf(StatFile, "ParameterCode %02X = %u(%d)\n", ParameterCode, value, i);
break;
case 4:
- value = V4((char *)LogParameter + sizeof(LogParameter_T));
+ value = V4((u_char *)LogParameter + SIZEOF(LogParameter_T));
fprintf(StatFile, "ParameterCode %02X = %u(%d)\n", ParameterCode, value, i);
break;
case 5:
- value = V5((char *)LogParameter + sizeof(LogParameter_T));
+ value = V5((u_char *)LogParameter + SIZEOF(LogParameter_T));
fprintf(StatFile, "ParameterCode %02X = %u(%d)\n", ParameterCode, value, i);
break;
default:
fprintf(StatFile, "ParameterCode %02X size %d\n", ParameterCode, i);
}
- LogParameter = (LogParameter_T *)((char *)LogParameter + sizeof(LogParameter_T) + i);
+ LogParameter = (LogParameter_T *)((u_char *)LogParameter + SIZEOF(LogParameter_T) + i);
}
fprintf(StatFile, "\n");
}
CDB[8] = 0;
CDB[9] = 0;
- if (SCSI_Run(INDEX_TAPECTL, Input, CDB, 10,
+ if (SCSI_Run(INDEX_TAPECTL, Input, CDB, 10,
buffer,
size,
- (char *)pRequestSense,
- sizeof(RequestSense_T)) != 0)
+ pRequestSense,
+ SIZEOF(RequestSense_T)) != 0)
{
DecodeSense(pRequestSense, "LogSense : ",debug_file);
free(pRequestSense);
free(logpages);
+ /*@ignore@*/
free(buffer);
+ /*@end@*/
fclose(StatFile);
return(0);
+ /*NOTREACHED*/
}
free(pRequestSense);
free(logpages);
+ /*@ignore@*/
free(buffer);
+ /*@end@*/
fclose(StatFile);
}
DebugPrint(DEBUG_INFO, SECTION_TAPE,"##### STOP LogSense\n");
return(0);
}
-void WriteErrorCountersPage(LogParameter_T *buffer, int length)
+void
+WriteErrorCountersPage(
+ LogParameter_T * buffer,
+ size_t length)
{
int i;
- int value;
+ unsigned value;
LogParameter_T *LogParameter;
- int ParameterCode;
+ unsigned ParameterCode;
LogParameter = buffer;
fprintf(StatFile, "\tWrite Error Counters Page\n");
- while ((char *)LogParameter < ((char *)buffer + length)) {
+ while ((u_char *)LogParameter < ((u_char *)buffer + length)) {
i = LogParameter->ParameterLength;
ParameterCode = V2(LogParameter->ParameterCode);
} else {
fprintf(StatFile, "Error decoding Result\n");
}
- LogParameter = (LogParameter_T *)((char *)LogParameter + sizeof(LogParameter_T) + i);
+ LogParameter = (LogParameter_T *)((u_char *)LogParameter + SIZEOF(LogParameter_T) + i);
}
}
-void ReadErrorCountersPage(LogParameter_T *buffer, int length)
+void
+ReadErrorCountersPage(
+ LogParameter_T * buffer,
+ size_t length)
{
int i;
- int value;
+ unsigned value;
LogParameter_T *LogParameter;
- int ParameterCode;
+ unsigned ParameterCode;
LogParameter = buffer;
fprintf(StatFile, "\tRead Error Counters Page\n");
- while ((char *)LogParameter < ((char *)buffer + length)) {
+ while ((u_char *)LogParameter < ((u_char *)buffer + length)) {
i = LogParameter->ParameterLength;
ParameterCode = V2(LogParameter->ParameterCode);
+ value = 0;
if (Decode(LogParameter, &value) == 0) {
switch (ParameterCode) {
case 2:
} else {
fprintf(StatFile, "Error decoding Result\n");
}
- LogParameter = (LogParameter_T *)((char *)LogParameter + sizeof(LogParameter_T) + i);
+ LogParameter = (LogParameter_T *)((u_char *)LogParameter + SIZEOF(LogParameter_T) + i);
}
}
-void C1553APage30(LogParameter_T *buffer, int length)
+void
+C1553APage30(
+ LogParameter_T * buffer,
+ size_t length)
{
int i;
- int value;
+ unsigned value;
LogParameter_T *LogParameter;
- int ParameterCode;
+ unsigned ParameterCode;
LogParameter = buffer;
fprintf(StatFile, "\tData compression transfer Page\n");
- while ((char *)LogParameter < ((char *)buffer + length)) {
+ while ((u_char *)LogParameter < ((u_char *)buffer + length)) {
i = LogParameter->ParameterLength;
ParameterCode = V2(LogParameter->ParameterCode);
+ value = 0;
if (Decode(LogParameter, &value) == 0) {
switch (ParameterCode) {
default:
break;
}
}
- LogParameter = (LogParameter_T *)((char *)LogParameter + sizeof(LogParameter_T) + i);
+ LogParameter = (LogParameter_T *)((u_char *)LogParameter + SIZEOF(LogParameter_T) + i);
}
}
-void C1553APage37(LogParameter_T *buffer, int length)
+void
+C1553APage37(
+ LogParameter_T * buffer,
+ size_t length)
{
int i;
- int value;
+ unsigned value;
LogParameter_T *LogParameter;
- int ParameterCode;
+ unsigned ParameterCode;
LogParameter = buffer;
fprintf(StatFile, "\tDrive Counters Page\n");
- while ((char *)LogParameter < ((char *)buffer + length)) {
+ while ((u_char *)LogParameter < ((unsigned char *)buffer + length)) {
i = LogParameter->ParameterLength;
ParameterCode = V2(LogParameter->ParameterCode);
+ value = 0;
if (Decode(LogParameter, &value) == 0) {
switch (ParameterCode) {
case 1:
break;
}
}
- LogParameter = (LogParameter_T *)((char *)LogParameter + sizeof(LogParameter_T) + i);
+ LogParameter = (LogParameter_T *)((u_char *)LogParameter + SIZEOF(LogParameter_T) + i);
}
}
-void EXB85058HEPage39(LogParameter_T *buffer, int length)
+void
+EXB85058HEPage39(
+ LogParameter_T * buffer,
+ size_t length)
{
int i;
- int value;
+ unsigned value;
LogParameter_T *LogParameter;
- int ParameterCode;
+ unsigned ParameterCode;
LogParameter = buffer;
fprintf(StatFile, "\tData Compression Page\n");
- while ((char *)LogParameter < ((char *)buffer + length)) {
+ while ((u_char *)LogParameter < ((unsigned char *)buffer + length)) {
i = LogParameter->ParameterLength;
ParameterCode = V2(LogParameter->ParameterCode);
+ value = 0;
if (Decode(LogParameter, &value) == 0) {
switch (ParameterCode) {
case 5:
break;
}
}
- LogParameter = (LogParameter_T *)((char *)LogParameter + sizeof(LogParameter_T) + i);
+ LogParameter = (LogParameter_T *)((u_char *)LogParameter + SIZEOF(LogParameter_T) + i);
}
}
-void EXB85058HEPage3c(LogParameter_T *buffer, int length)
+void
+EXB85058HEPage3c(
+ LogParameter_T * buffer,
+ size_t length)
{
int i;
- int value;
+ unsigned value;
LogParameter_T *LogParameter;
- int ParameterCode;
+ unsigned ParameterCode;
LogParameter = buffer;
fprintf(StatFile, "\tDrive Usage Information Page\n");
- while ((char *)LogParameter < ((char *)buffer + length)) {
+ while ((u_char *)LogParameter < ((unsigned char *)buffer + length)) {
i = LogParameter->ParameterLength;
ParameterCode = V2(LogParameter->ParameterCode);
+ value = 0;
if (Decode(LogParameter, &value) == 0) {
switch (ParameterCode) {
case 1:
break;
}
}
- LogParameter = (LogParameter_T *)((char *)LogParameter + sizeof(LogParameter_T) + i);
+ LogParameter = (LogParameter_T *)((u_char *)LogParameter + SIZEOF(LogParameter_T) + i);
}
}
-int Decode(LogParameter_T *LogParameter, int *value)
+int
+Decode(
+ LogParameter_T * LogParameter,
+ unsigned * value)
{
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) {
case 1:
- *value = V1((char *)LogParameter + sizeof(LogParameter_T));
+ *value = V1((u_char *)LogParameter + SIZEOF(LogParameter_T));
break;
case 2:
- *value = V2((char *)LogParameter + sizeof(LogParameter_T));
+ *value = V2((u_char *)LogParameter + SIZEOF(LogParameter_T));
break;
case 3:
- *value = V3((char *)LogParameter + sizeof(LogParameter_T));
+ *value = V3((u_char *)LogParameter + SIZEOF(LogParameter_T));
break;
case 4:
- *value = V4((char *)LogParameter + sizeof(LogParameter_T));
+ *value = V4((u_char *)LogParameter + SIZEOF(LogParameter_T));
break;
case 5:
- *value = V5((char *)LogParameter + sizeof(LogParameter_T));
+ *value = V5((u_char *)LogParameter + SIZEOF(LogParameter_T));
break;
case 6:
- *value = V6((char *)LogParameter + sizeof(LogParameter_T));
+ *value = V6((u_char *)LogParameter + SIZEOF(LogParameter_T));
break;
default:
fprintf(StatFile, "Can't decode ParameterCode %02X size %d\n",
V2(LogParameter->ParameterCode), LogParameter->ParameterLength);
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");
return(0);
}
-void DumpDev(OpenFiles_T *p, char *device)
+void
+DumpDev(
+ OpenFiles_T * p,
+ char * device)
{
if (p != NULL)
{
printf("\n");
}
-void ChangerReplay(char *option)
+void
+ChangerReplay(
+ char * option)
{
- char buffer[1024];
+ u_char buffer[1024];
FILE *ip;
- int x = 0, bufferx;
+ int x;
+ unsigned bufferx;
+
+ (void)option; /* Quiet unused parameter warning */
if ((ip=fopen("/tmp/chg-scsi-trace", "r")) == NULL)
{
exit(1);
}
- while (fscanf(ip, "%2x", &bufferx) != EOF)
+ for (x = 0; x < 1024; x++)
{
- buffer[x] = bufferx;
- x++;
+ if (fscanf(ip, "%2x", &bufferx) == EOF)
+ {
+ break;
+ /*NOTREACHED*/
+ }
+ buffer[x] = (u_char)bufferx;
+ x++;
}
DecodeModeSense(&buffer[0], 12, "DLT448ElementStatus :", 0, debug_file);
/*
* Display all Information we can get about the library....
*/
-void ChangerStatus(char *option, char * labelfile, int HasBarCode, char *changer_file, char *changer_dev, char *tape_device)
+void
+ChangerStatus(
+ char * option,
+ char * labelfile,
+ int HasBarCode,
+ char * changer_file,
+ char * changer_dev,
+ char * tape_device)
{
extern OpenFiles_T *pDev;
- int x;
+ size_t x;
FILE *out;
ExtendedRequestSense_T ExtRequestSense;
MBC_T *pbarcoderes;
ChangerCMD_T *p = (ChangerCMD_T *)&ChangerIO;
- if ((pbarcoderes = malloc(sizeof(MBC_T))) == NULL)
- {
- printf("malloc failed \n");
- return;
- }
- memset(pbarcoderes, 0, sizeof(MBC_T));
+ pbarcoderes = alloc(SIZEOF(MBC_T));
+ memset(pbarcoderes, 0, SIZEOF(MBC_T));
- if ((pModePage == NULL) && ((pModePage = (char *)malloc(0xff)) == NULL))
- {
- DebugPrint(DEBUG_ERROR, SECTION_ELEMENT,"##### malloc failed (-1)\n");
- printf("malloc failed \n");
- free(pbarcoderes);
- return;
- }
+ if (pModePage == NULL) {
+ pModePage = alloc(0xff);
+ }
if ((out = fdopen(1 , "w")) == NULL)
{
printf("Error fdopen stdout\n");
free(pbarcoderes);
return;
+ /*NOTREACHED*/
}
if (strcmp("types", option) == 0 || strcmp("all", option) == 0)
free(pbarcoderes);
fclose(out);
return;
+ /*NOTREACHED*/
}
}
/* 0123456789012345678901234567890123456789012 */
if (pMTE[x].full == 1)
{
pbarcoderes->action = BARCODE_BARCODE;
- strcpy(pbarcoderes->data.barcode, pMTE[x].VolTag);
+ strncpy(pbarcoderes->data.barcode, pMTE[x].VolTag,
+ SIZEOF(pbarcoderes->data.barcode));
if (MapBarCode(labelfile, pbarcoderes) == 0 )
{
if (pSTE[x].full == 1)
{
pbarcoderes->action = BARCODE_BARCODE;
- strcpy(pbarcoderes->data.barcode, pSTE[x].VolTag);
+ strncpy(pbarcoderes->data.barcode, pSTE[x].VolTag,
+ SIZEOF(pbarcoderes->data.barcode));
if (MapBarCode(labelfile, pbarcoderes) == 0 )
{
if (pDTE[x].full == 1)
{
pbarcoderes->action = BARCODE_BARCODE;
- strcpy(pbarcoderes->data.barcode, pDTE[x].VolTag);
+ strncpy(pbarcoderes->data.barcode, pDTE[x].VolTag,
+ SIZEOF(pbarcoderes->data.barcode));
if (MapBarCode(labelfile, pbarcoderes) == 0 )
{
if (pIEE[x].full == 1)
{
pbarcoderes->action = BARCODE_BARCODE;
- strcpy(pbarcoderes->data.barcode, pIEE[x].VolTag);
+ strncpy(pbarcoderes->data.barcode, pIEE[x].VolTag,
+ SIZEOF(pbarcoderes->data.barcode));
if (MapBarCode(labelfile, pbarcoderes) == 0 )
{
fclose(out);
}
-void dump_hex(char *p, int size, int level, int section)
+void
+dump_hex(
+ u_char * p,
+ size_t size,
+ int level,
+ int section)
{
- int row_count = 0;
- int x = 0;
+ size_t row_count = 0;
+ int x;
while (row_count < size)
{
- DebugPrint(level, section,"%02X ", (unsigned char)p[row_count]);
- if (((row_count + 1) % 16) == 0 )
+ DebugPrint(level, section,"%02X ", (u_char)p[row_count]);
+ if (((row_count + 1) % 16) == 0)
{
dbprintf((" "));
- for (x = 16; x>0;x--)
+ for (x = 16; x > 0; x--)
{
- if (isalnum((unsigned char)p[row_count - x + 1 ]))
- DebugPrint(level, section,"%c",(unsigned char)p[row_count - x + 1]);
- else
- DebugPrint(level, section,".");
- }
+ if (isalnum((u_char)p[row_count - x + 1 ]))
+ DebugPrint(level, section,"%c",(u_char)p[row_count - x + 1]);
+ else
+ DebugPrint(level, section,".");
+ }
DebugPrint(level, section,"\n");
}
row_count++;
DebugPrint(level, section,"\n");
}
-void TerminateString(char *string, int length)
+void
+TerminateString(
+ char * string,
+ size_t length)
{
- int x;
+ ssize_t x;
- for (x = length; x >= 0 && !isalnum((int)string[x]); x--)
+ for (x = (ssize_t)length; x >= 0 && !isalnum((int)string[x]); x--)
string[x] = '\0';
}
-void ChgExit(char *where, char *reason, int level)
+void
+ChgExit(
+ char * where,
+ char * reason,
+ int level)
{
+ (void)level; /* Quiet unused parameter warning */
+
dbprintf(("ChgExit in %s, reason %s\n", where, reason));
fprintf(stderr,"%s\n",reason);
exit(2);
* is ready for accepting commands, and if this is true send
* the command
*/
-int SCSI_Run(int DeviceFD,
- Direction_T Direction,
- CDB_T CDB,
- int CDB_Length,
- void *DataBuffer,
- int DataBufferLength,
- char *pRequestSense,
- int RequestSenseLength)
+int
+SCSI_Run(
+ int DeviceFD,
+ Direction_T Direction,
+ CDB_T CDB,
+ size_t CDB_Length,
+ void * DataBuffer,
+ size_t DataBufferLength,
+ RequestSense_T * pRequestSense,
+ size_t RequestSenseLength)
{
int ret = 0;
int ok = 0;
int maxtries = 0;
RequestSense_T *pRqS;
+ /* Basic sanity checks */
+ assert(CDB_Length <= UCHAR_MAX);
+ assert(RequestSenseLength <= UCHAR_MAX);
+
pRqS = (RequestSense_T *)pRequestSense;
DebugPrint(DEBUG_INFO, SECTION_SCSI, "SCSI_Run TestUnitReady\n");
ok=1;
break;
case SCSI_SENSE:
- switch (SenseHandler(DeviceFD, 0, pRqS->SenseKey, pRqS->AdditionalSenseCode, pRqS->AdditionalSenseCodeQualifier, pRequestSense))
+ 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");
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Run (TestUnitReady) SENSE_ABORT\n");
return(-1);
- break;
+ /*NOTREACHED*/
case SENSE_RETRY:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run (TestUnitReady) SENSE_RETRY\n");
break;
case SCSI_ERROR:
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Run (TestUnitReady) SCSI_ERROR\n");
return(-1);
- break;
+ /*NOTREACHED*/
case SCSI_BUSY:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run (TestUnitReady) SCSI_BUSY\n");
break;
{
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Run Exit %d\n",ret);
return(-1);
+ /*NOTREACHED*/
}
ok = 0;
ok=1;
break;
case SCSI_SENSE:
- switch (SenseHandler(DeviceFD, 0, pRqS->SenseKey, pRqS->AdditionalSenseCode, pRqS->AdditionalSenseCodeQualifier, pRequestSense))
+ switch (SenseHandler(DeviceFD, 0, pRqS->SenseKey, pRqS->AdditionalSenseCode, pRqS->AdditionalSenseCodeQualifier, pRqS))
{
case SENSE_NO:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run SENSE_NO\n");
case SENSE_ABORT:
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Run SENSE_ABORT\n");
return(-1);
- break;
+ /*NOTREACHED*/
case SENSE_RETRY:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run SENSE_RETRY\n");
break;
case SCSI_ERROR:
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Run SCSI_ERROR\n");
return(-1);
- break;
+ /*NOTREACHED*/
case SCSI_BUSY:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Run SCSI_BUSY\n");
break;
if (ok == 1)
{
return(0);
- } else {
- return(-1);
+ /*NOTREACHED*/
}
+ return(-1);
}
/*
* This a vendor specific command !!!!!!
* First seen at AIT :-)
*/
-int SCSI_AlignElements(int DeviceFD, int AE_MTE, int AE_DTE, int AE_STE)
+int
+SCSI_AlignElements(
+ int DeviceFD,
+ size_t AE_MTE,
+ size_t AE_DTE,
+ size_t AE_STE)
{
RequestSense_T *pRequestSense;
int retry;
CDB_T CDB;
- int ret = -1;
+ int ret;
int i;
DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START SCSI_AlignElements\n");
- if ((pRequestSense = (RequestSense_T *)malloc(sizeof(RequestSense_T))) == NULL)
- {
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_AlignElements : malloc failed\n");
- return(-1);
- }
+ pRequestSense = alloc(SIZEOF(RequestSense_T));
for (retry = 0; retry < MAX_RETRIES; retry++)
{
CDB[11] = 0;
ret = SCSI_Run(DeviceFD, Input, CDB, 12,
- NULL, 0, (char *)pRequestSense, sizeof(RequestSense_T));
+ NULL, 0, pRequestSense, SIZEOF(RequestSense_T));
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",
- "chs", ((unsigned char *) &pRequestSense)[0]);
- for (i = 1; i < sizeof(RequestSense_T); i++)
- DebugPrint(DEBUG_ERROR, SECTION_SCSI," %02X", ((unsigned char *) &pRequestSense)[i]);
+ "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");
return(ret);
+ /*NOTREACHED*/
}
if ( ret > 0)
{
- switch(SenseHandler(DeviceFD, 0 , pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, (char *)pRequestSense))
+ switch(SenseHandler(DeviceFD, 0 , pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_AlignElements : SENSE_IGNORE\n");
return(0);
- break;
+ /*NOTREACHED*/
case SENSE_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");
return(-1);
- break;
+ /*NOTREACHED*/
case SENSE_TAPE_NOT_UNLOADED:
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_AlignElements : Tape still loaded, eject failed\n");
return(-1);
- break;
+ /*NOTREACHED*/
default:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_AlignElements : end %d\n", pRequestSense->SenseKey);
return(pRequestSense->SenseKey);
- break;
+ /*NOTREACHED*/
}
}
if (ret == 0)
{
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_AlignElements : end %d\n", ret);
return(ret);
+ /*NOTREACHED*/
}
}
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_AlignElements :"
}
-int SCSI_Move(int DeviceFD, unsigned char chm, int from, int to)
+int
+SCSI_Move(
+ int DeviceFD,
+ u_char chm,
+ int from,
+ int to)
{
RequestSense_T *pRequestSense;
int retry;
DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START SCSI_Move\n");
- if ((pRequestSense = (RequestSense_T *)malloc(sizeof(RequestSense_T))) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Move : malloc failed\n");
- return(-1);
- }
+ pRequestSense = alloc(SIZEOF(RequestSense_T));
for (retry = 0; (ret != 0) && (retry < MAX_RETRIES); retry++)
{
CDB[11] = 0;
ret = SCSI_Run(DeviceFD, Input, CDB, 12,
- NULL, 0, (char *)pRequestSense, sizeof(RequestSense_T));
+ NULL, 0, pRequestSense, SIZEOF(RequestSense_T));
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",
- "chs", ((unsigned char *) &pRequestSense)[0]);
- for (i = 1; i < sizeof(RequestSense_T); i++)
- DebugPrint(DEBUG_ERROR, SECTION_SCSI," %02X", ((unsigned char *) &pRequestSense)[i]);
+ "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_INFO, SECTION_SCSI,"\n");
return(ret);
+ /*NOTREACHED*/
}
if ( ret > 0)
{
- switch(SenseHandler(DeviceFD, 0 , pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, (char *)pRequestSense))
+ switch(SenseHandler(DeviceFD, 0 , pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
dbprintf(("SCSI_Move : SENSE_IGNORE\n"));
return(0);
- break;
+ /*NOTREACHED*/
case SENSE_RETRY:
dbprintf(("SCSI_Move : SENSE_RETRY no %d\n", retry));
break;
case SENSE_ABORT:
dbprintf(("SCSI_Move : SENSE_ABORT\n"));
return(-1);
- break;
+ /*NOTREACHED*/
case SENSE_TAPE_NOT_UNLOADED:
dbprintf(("SCSI_Move : Tape still loaded, eject failed\n"));
return(-1);
- break;
+ /*NOTREACHED*/
default:
dbprintf(("SCSI_Move : end %d\n", pRequestSense->SenseKey));
return(pRequestSense->SenseKey);
- break;
+ /*NOTREACHED*/
}
}
}
return(ret);
}
-int SCSI_LoadUnload(int DeviceFD, RequestSense_T *pRequestSense, unsigned char byte1, unsigned char load)
+int
+SCSI_LoadUnload(
+ int DeviceFD,
+ RequestSense_T * pRequestSense,
+ u_char byte1,
+ u_char load)
{
CDB_T CDB;
int ret;
ret = SCSI_Run(DeviceFD, Input, CDB, 6,
NULL, 0,
- (char *) pRequestSense,
- sizeof(RequestSense_T));
+ pRequestSense,
+ SIZEOF(RequestSense_T));
if (ret < 0)
{
dbprintf(("SCSI_Unload : failed %d\n", ret));
return(-1);
+ /*NOTREACHED*/
}
+ dbprintf(("##### STOP SCSI_LoadUnload\n"));
return(ret);
}
-int SCSI_TestUnitReady(int DeviceFD, RequestSense_T *pRequestSense)
+int
+SCSI_TestUnitReady(
+ int DeviceFD,
+ RequestSense_T * pRequestSense)
{
CDB_T CDB;
int ret;
CDB[5] = 0;
ret = SCSI_ExecuteCommand(DeviceFD, Input, CDB, 6,
- NULL, 0,
- (char *) pRequestSense,
- sizeof(RequestSense_T));
+ NULL, (size_t)0,
+ pRequestSense,
+ SIZEOF(RequestSense_T));
/*
* We got an error, so let the calling function handle this
{
DebugPrint(DEBUG_INFO, SECTION_SCSI,"###### STOP SCSI_TestUnitReady (1)\n");
return(ret);
+ /*NOTREACHED*/
}
/*
{
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");
+ }
+ if (pRequestSense->SenseKey != 0) {
+ DebugPrint(DEBUG_INFO, SECTION_SCSI,"###### STOP SCSI_TestUnitReady Sense Key set\n");
+ }
DebugPrint(DEBUG_INFO, SECTION_SCSI,"###### STOP SCSI_TestUnitReady (0)\n");
return(SCSI_SENSE);
}
-int SCSI_ModeSelect(int DeviceFD, char *buffer, unsigned char length, unsigned char save, unsigned char mode, unsigned char lun)
+int
+SCSI_ModeSelect(
+ int DeviceFD,
+ u_char * buffer,
+ u_char length,
+ u_char save,
+ u_char mode,
+ u_char lun)
{
CDB_T CDB;
RequestSense_T *pRequestSense;
int ret = -1;
- int retry = 1;
- char *sendbuf;
+ int retry;
+ u_char *sendbuf;
dbprintf(("##### START SCSI_ModeSelect\n"));
- dbprintf(("SCSI_ModeSelect start length = %d:\n", length));
- if ((pRequestSense = (RequestSense_T *)malloc(sizeof(RequestSense_T))) == NULL)
- {
- dbprintf(("SCSI_ModeSelect : malloc failed\n"));
- return(-1);
- }
+ 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);
-
- if ((sendbuf = (char *)malloc(length + 4)) == NULL)
- {
- dbprintf(("SCSI_ModeSelect : malloc failed\n"));
- free(pRequestSense);
- return(-1);
- }
-
- memset(sendbuf, 0 , length + 4);
-
- memcpy(&sendbuf[4], buffer, length);
- dump_hex(sendbuf, length+4, DEBUG_INFO, SECTION_SCSI);
+ memcpy(&sendbuf[4], buffer, (size_t)length);
+ dump_hex(sendbuf, (size_t)length+4, DEBUG_INFO, SECTION_SCSI);
for (retry = 0; (ret != 0) && (retry < MAX_RETRIES); retry++)
{
- memset(pRequestSense, 0, sizeof(RequestSense_T));
+ memset(pRequestSense, 0, SIZEOF(RequestSense_T));
CDB[0] = SC_COM_MODE_SELECT;
- CDB[1] = ((lun << 5) & 0xF0) | ((mode << 4) & 0x10) | (save & 1);
+ CDB[1] = (u_char)(((lun << 5) & 0xF0) | ((mode << 4) & 0x10) | (save & 1));
CDB[2] = 0;
CDB[3] = 0;
- CDB[4] = length + 4;
+ CDB[4] = (u_char)(length + 4);
CDB[5] = 0;
ret = SCSI_Run(DeviceFD, Output, CDB, 6,
sendbuf,
- length + 4,
- (char *) pRequestSense,
- sizeof(RequestSense_T));
+ (size_t)length + 4,
+ pRequestSense,
+ SIZEOF(RequestSense_T));
if (ret < 0)
{
dbprintf(("SCSI_ModeSelect : ret %d\n", ret));
- free(pRequestSense);
- free(sendbuf);
- return(ret);
+ goto done;
+ /*NOTREACHED*/
}
if ( ret > 0)
switch(SenseHandler(DeviceFD, 0, pRequestSense->SenseKey,
pRequestSense->AdditionalSenseCode,
pRequestSense->AdditionalSenseCodeQualifier,
- (char *)pRequestSense))
+ pRequestSense))
{
case SENSE_IGNORE:
dbprintf(("SCSI_ModeSelect : SENSE_IGNORE\n"));
- free(pRequestSense);
- free(sendbuf);
- return(0);
- break;
+ goto done;
+ /*NOTREACHED*/
+
case SENSE_RETRY:
dbprintf(("SCSI_ModeSelect : SENSE_RETRY no %d\n", retry));
break;
+
default:
- dbprintf(("SCSI_ModeSelect : end %d\n", pRequestSense->SenseKey));
- free(pRequestSense);
- free(sendbuf);
- return(pRequestSense->SenseKey);
- break;
+ ret = pRequestSense->SenseKey;
+ goto end;
}
}
}
+end:
dbprintf(("SCSI_ModeSelect end: %d\n", ret));
+
+done:
free(pRequestSense);
free(sendbuf);
return(ret);
-int SCSI_ModeSense(int DeviceFD, char *buffer, u_char size, u_char byte1, u_char byte2)
+int
+SCSI_ModeSense(
+ int DeviceFD,
+ u_char * buffer,
+ u_char size,
+ u_char byte1,
+ u_char byte2)
{
CDB_T CDB;
RequestSense_T *pRequestSense;
DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START SCSI_ModeSense\n");
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense start length = %d:\n", size);
- if ((pRequestSense = (RequestSense_T *)malloc(sizeof(RequestSense_T))) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_ModeSense : malloc failed\n");
- return(-1);
- }
+ pRequestSense = alloc(SIZEOF(RequestSense_T));
while (ret && retry < MAX_RETRIES)
{
- memset(pRequestSense, 0, sizeof(RequestSense_T));
+ memset(pRequestSense, 0, SIZEOF(RequestSense_T));
memset(buffer, 0, size);
CDB[0] = SC_COM_MODE_SENSE;
ret = SCSI_Run(DeviceFD, Input, CDB, 6,
buffer,
size,
- (char *) pRequestSense,
- sizeof(RequestSense_T));
+ pRequestSense,
+ SIZEOF(RequestSense_T));
if (ret < 0)
{
return(ret);
+ /*NOTREACHED*/
}
if ( ret > 0)
{
- switch(SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, (char *)pRequestSense))
+ switch(SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : SENSE_IGNORE\n");
return(0);
- break;
+ /*NOTREACHED*/
case SENSE_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);
return(pRequestSense->SenseKey);
- break;
+ /*NOTREACHED*/
}
}
retry++;
return(ret);
}
-int SCSI_Inquiry(int DeviceFD, SCSIInquiry_T *buffer, u_char size)
+int
+SCSI_Inquiry(
+ int DeviceFD,
+ SCSIInquiry_T * buffer,
+ size_t size)
{
CDB_T CDB;
RequestSense_T *pRequestSense;
int i;
- int ret;
+ int ret = -1;
int retry = 1;
+ assert(size <= UCHAR_MAX);
+
DebugPrint(DEBUG_INFO, SECTION_SCSI, "##### START SCSI_Inquiry\n");
DebugPrint(DEBUG_INFO, SECTION_SCSI, "SCSI_Inquiry start length = %d:\n", size);
- if ((pRequestSense = (RequestSense_T *)malloc(size)) == NULL)
- {
- DebugPrint(DEBUG_ERROR, SECTION_SCSI,"SCSI_Inquiry : malloc failed\n");
- return(-1);
- }
+ pRequestSense = alloc((size_t)size);
while (retry > 0 && retry < MAX_RETRIES)
{
CDB[1] = 0;
CDB[2] = 0;
CDB[3] = 0;
- CDB[4] = size;
+ CDB[4] = (u_char)size;
CDB[5] = 0;
ret = SCSI_ExecuteCommand(DeviceFD, Input, CDB, 6,
buffer,
size,
- (char *) pRequestSense,
- sizeof(RequestSense_T));
+ pRequestSense,
+ SIZEOF(RequestSense_T));
if (ret < 0)
{
DebugPrint(DEBUG_ERROR, SECTION_SCSI,"%s: Request Sense[Inquiry]: %02X",
- "chs", ((unsigned char *) pRequestSense)[0]);
- for (i = 1; i < sizeof(RequestSense_T); i++)
- DebugPrint(DEBUG_ERROR, SECTION_SCSI," %02X", ((unsigned char *) pRequestSense)[i]);
+ "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);
- return(ret);
+ DebugPrint(DEBUG_ERROR, SECTION_SCSI, "Inquiry end: %d\n", ret);
+ return(ret);
+ /*NOTRACHED*/
}
if ( ret > 0)
{
- switch(SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, (char *)pRequestSense))
+ switch(SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_Inquiry : SENSE_IGNORE\n");
return(0);
- break;
+ /*NOTREACHED*/
case SENSE_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);
return(pRequestSense->SenseKey);
- break;
+ /*NOTREACHED*/
}
}
retry++;
if (ret == 0)
{
- dump_hex((char *)buffer, size, DEBUG_INFO, SECTION_SCSI);
+ dump_hex((u_char *)buffer, size, DEBUG_INFO, SECTION_SCSI);
DebugPrint(DEBUG_INFO, SECTION_SCSI, "SCSI_Inquiry : end %d\n", ret);
return(ret);
+ /*NOTRACHED*/
}
}
* 3. do again an Read Element Status with the result from 2.
*
*/
-int SCSI_ReadElementStatus(int DeviceFD,
- unsigned char type,
- unsigned char lun,
- unsigned char VolTag,
- int StartAddress,
- int NoOfElements,
- int DescriptorSize,
- char **data)
+int
+SCSI_ReadElementStatus(
+ int DeviceFD,
+ u_char type,
+ u_char lun,
+ u_char VolTag,
+ int StartAddress,
+ size_t NoOfElements,
+ size_t DescriptorSize,
+ u_char ** data)
{
CDB_T CDB;
- int DataBufferLength;
+ size_t DataBufferLength;
ElementStatusData_T *ElementStatusData;
RequestSense_T *pRequestSense;
int retry = 1;
DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### START SCSI_ReadElementStatus\n");
- if ((pRequestSense = (RequestSense_T *)malloc(sizeof(RequestSense_T))) == NULL)
- {
- DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ReadElementStatus : malloc failed\n");
- ChgExit("SCSI_ReadElementStatus","malloc failed", FATAL);
- }
+ pRequestSense = alloc(SIZEOF(RequestSense_T));
/*
* How many elements, if <= 0 than exit with an fatal error
*/
- if (NoOfElements <= 0)
+ if (NoOfElements == 0)
{
ChgExit("SCSI_ReadElementStatus","No of Elements passed are le 0",FATAL);
+ /*NOTREACHED*/
}
- VolTag = (VolTag << 4) & 0x10;
- type = type & 0xf;
- lun = (lun << 5) & 0xe0;
-
+ VolTag = (u_char)((VolTag << 4) & 0x10);
+ type = (u_char)(type & 0xf);
+ lun = (u_char)((lun << 5) & 0xe0);
/* if DescriptorSize == 0
* try to get the allocation length for the second call
*/
if (DescriptorSize == 0)
{
- if (*data != NULL)
- {
- *data = realloc(*data, 8);
- } else {
- *data = malloc(8);
- }
-
+ *data = newalloc(*data, 8);
memset(*data, 0, 8);
-
-
while (retry > 0 && retry < MAX_RETRIES)
{
- memset(pRequestSense, 0, sizeof(RequestSense_T) );
+ memset(pRequestSense, 0, SIZEOF(RequestSense_T) );
CDB[0] = SC_COM_RES; /* READ ELEMENT STATUS */
- CDB[1] = VolTag | type | lun; /* Element Type Code , VolTag, LUN */
+ CDB[1] = (u_char)(VolTag | type | lun); /* Element Type Code , VolTag, LUN */
MSB2(&CDB[2], StartAddress); /* Starting Element Address */
MSB2(&CDB[4], NoOfElements); /* Number Of Element */
CDB[6] = 0; /* Reserved */
ret = SCSI_Run(DeviceFD, Input, CDB, 12,
*data, 8,
- (char *)pRequestSense, sizeof(RequestSense_T));
-
+ pRequestSense, SIZEOF(RequestSense_T));
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);
return(ret);
+ /*NOTRACHED*/
}
if ( ret > 0)
{
- switch(SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, (char *)pRequestSense))
+ switch(SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : SENSE_IGNORE\n");
default:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : end %d\n", pRequestSense->SenseKey);
return(pRequestSense->SenseKey);
- break;
+ /*NOTREACHED*/
}
}
retry++;
{
DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP SCSI_ReadElementStatus (%d)\n",ret);
return(ret);
+ /*NOTRACHED*/
}
ElementStatusData = (ElementStatusData_T *)*data;
}
DataBufferLength = DataBufferLength + 8;
- *data = realloc(*data, DataBufferLength);
+ *data = newalloc(*data, DataBufferLength);
memset(*data, 0, DataBufferLength);
retry = 1;
while (retry > 0 && retry < MAX_RETRIES)
{
- memset(pRequestSense, 0, sizeof(RequestSense_T) );
+ memset(pRequestSense, 0, SIZEOF(RequestSense_T) );
CDB[0] = SC_COM_RES; /* READ ELEMENT STATUS */
- CDB[1] = VolTag | type | lun; /* Element Type Code, VolTag, LUN */
+ CDB[1] = (u_char)(VolTag | type | lun); /* Element Type Code, VolTag, LUN */
MSB2(&CDB[2], StartAddress); /* Starting Element Address */
MSB2(&CDB[4], NoOfElements); /* Number Of Element */
CDB[6] = 0; /* Reserved */
ret = SCSI_Run(DeviceFD, Input, CDB, 12,
*data, DataBufferLength,
- (char *)pRequestSense, sizeof(RequestSense_T));
+ pRequestSense, SIZEOF(RequestSense_T));
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ReadElementStatus : (2) SCSI_Run %d\n", ret);
DecodeSense(pRequestSense, "SCSI_ReadElementStatus :",debug_file);
DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP SCSI_ReadElementStatus (%d)\n",ret);
return(ret);
+ /*NOTRACHED*/
}
if ( ret > 0)
{
- switch(SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, (char *)pRequestSense))
+ switch(SenseHandler(DeviceFD, 0, pRequestSense->SenseKey, pRequestSense->AdditionalSenseCode, pRequestSense->AdditionalSenseCodeQualifier, pRequestSense))
{
case SENSE_IGNORE:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : SENSE_IGNORE\n");
default:
DebugPrint(DEBUG_INFO, SECTION_SCSI,"SCSI_ModeSense : end %d\n", pRequestSense->SenseKey);
return(pRequestSense->SenseKey);
- break;
+ /*NOTREACHED*/
}
}
retry++;
{
DebugPrint(DEBUG_INFO, SECTION_SCSI,"##### STOP SCSI_ReadElementStatus (%d)\n",ret);
return(ret);
+ /*NOTRACHED*/
}
dump_hex(*data, DataBufferLength, DEBUG_INFO, SECTION_SCSI);
{
va_list argp;
char buf[1024];
- extern changer_t chg;
- int dlevel,dsection;
-
- time_t ti;
+ int dlevel;
+ int dsection = -1;
+ time_t ti = time(NULL);
- time(&ti);
- if (chg.debuglevel)
+ if (changer->debuglevel)
{
- sscanf(chg.debuglevel,"%d:%d", &dlevel, &dsection);
+ if (sscanf(changer->debuglevel,"%d:%d", &dlevel, &dsection) != 2) {
+ dbprintf(("Parse error: line is '%s' expected [0-9]*:[0-9]*\n",
+ changer->debuglevel));
+ dlevel=1;
+ dsection=1;
+ }
} else {
dlevel=1;
dsection=1;
}
arglist_start(argp, fmt);
- vsnprintf(buf, sizeof(buf), fmt, argp);
+ vsnprintf(buf, SIZEOF(buf), fmt, argp);
if (dlevel >= level)
{
if (section == dsection || dsection == 0)