source/DATDrive.m

/* DATXtract - an application for reading audio DAT tapes

   Copyright © 2002-2007 Peter DiCamillo

   This code is distributed under the license specified by the COPYING file
   at the top-level directory of this distribution.                         */

#import "DATDrive.h"

@implementation DATDrive

- (id)init {
    self = [super init];

// initialize variables
    owner = NULL;
    drive_service = 0;
    interface = NULL;
    plugInInterface = NULL;
    return self;
}

- (void) setOwnerObject:(id)the_owner {
    owner = the_owner;
}

- (void) writeToLog:(char *)logtext {
    if (owner != NULL) {
        [owner writeToLog:logtext];
    }
}

- (int) locateDrive {
    mach_port_t         masterPort;
    CFMutableDictionaryRef  matchingDict;
    CFMutableDictionaryRef  subDict;
    kern_return_t       kr;
    char            errmsg[128];

    // first create a master_port for my task
    kr = IOMasterPort ( MACH_PORT_NULL, &masterPort );
    if ( kr || !masterPort ) {
        sprintf(errmsg, "ERR: Couldn't create a master IOKit Port(%08x)\n", kr);
        [self writeToLog:errmsg];
        return -1;
    }

    // Create the dictionaries
    matchingDict = CFDictionaryCreateMutable ( kCFAllocatorDefault, 0,
        &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks);
    subDict = CFDictionaryCreateMutable ( kCFAllocatorDefault, 0,
        &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks);

    // Create a dictionary with the "SCSITaskDeviceCategory" key = "SCSITaskUserClientDevice"
    CFDictionarySetValue (subDict, CFSTR ( kIOPropertySCSITaskDeviceCategory ),
                          CFSTR ( kIOPropertySCSITaskUserClientDevice ) );

    // Add the dictionary to the main dictionary with the key "IOPropertyMatch" to
    // narrow the search to the above dictionary.
    CFDictionarySetValue (matchingDict, CFSTR ( kIOPropertyMatchKey ),
                          subDict );

    // get the service we want
    drive_service = IOServiceGetMatchingService(masterPort, matchingDict);

    // Now done with the master_port
    mach_port_deallocate ( mach_task_self ( ), masterPort );
    masterPort = 0;

    // handle results
    if (drive_service == 0) {
        return -1;
    }

    return 0;
}

- (int) setupInterface {

    SInt32          score;
    HRESULT         herr;
    kern_return_t       err;
    char            errmsg[128];
    NSRunLoop *         currentLoop;

    interface = NULL;
    plugInInterface = NULL;

    // Check that we found a drive
    if (drive_service == 0) {
        [self writeToLog:"setupInterface called with no drive"];
        return -1;
    }

    // Create the IOCFPlugIn interface so we can query it.
    err = IOCreatePlugInInterfaceForService (
                    drive_service,
                    kIOSCSITaskDeviceUserClientTypeID,
                    kIOCFPlugInInterfaceID,
                    &plugInInterface,
                    &score);

    if (err != noErr) {
        sprintf (errmsg, "IOCreatePlugInInterfaceForService returned %d\n", err);
        [self writeToLog:errmsg];
        return -1;
    }

    // Query the interface for the SCSITaskDeviceInterface.
    herr = (*plugInInterface)->QueryInterface (
                    plugInInterface,
                    CFUUIDGetUUIDBytes(kIOSCSITaskDeviceInterfaceID),
                    (LPVOID)&interface);
    if (herr != S_OK) {
        sprintf(errmsg, "QueryInterface returned %ld\n", herr);
        [self writeToLog:errmsg];
        return -1;
    }

    // Get exclusive access to the device
    err = (*interface)->ObtainExclusiveAccess(interface);
    if ( err != noErr ) {
        sprintf(errmsg, "ObtainExclusiveAccess returned %d\n", err);
        [self writeToLog:errmsg];
        return -1;
    }

    // Add run loop dispatcher in case we need it
    currentLoop = [NSRunLoop currentRunLoop];
    err = (*interface)->AddCallbackDispatcherToRunLoop(interface, [currentLoop getCFRunLoop]);
    if ( err != noErr ) {
        sprintf(errmsg, "AddCallbackDispatcherToRunLoop returned %d\n", err);
        [self writeToLog:errmsg];
        return -1;
    }

    return 0;
}

- (void) releaseInterface {

    if (interface != NULL) {
        // Remove run loop dispatcher
        (*interface)->RemoveCallbackDispatcherFromRunLoop(interface);

        // Release exclusive access
        (*interface)->ReleaseExclusiveAccess(interface);

        // Release the SCSITaskDeviceInterface.
        (*interface)->Release(interface);

        interface = NULL;
    }

    if (plugInInterface != NULL) {
        // Destroy plugin interface
        IODestroyPlugInInterface(plugInInterface);

        plugInInterface = NULL;
    }
}

- (int) TestUnitReady:(int *)status withString:(char *)status_string
            withKey:(UInt8 *)result_key withCode:(UInt16 *)result_code {
    SCSITaskStatus      taskStatus;
    SCSI_Sense_Data     senseData;
    SCSICommandDescriptorBlock  cdb;
    SCSITaskInterface **    task = NULL;
    IOReturn            err = 0;
    UInt64          transferCount = 0;
    char            errmsg[128];
    UInt8           key;
    UInt8           ASC;
    UInt8           ASCQ;
    UInt16          code;

    // initial result
    *status = kSCSITaskStatus_No_Status;
    status_string[0] = 0;

    // Create a task now that we have exclusive access
    task = (*interface )->CreateSCSITask(interface);
    if (task == NULL) {
        sprintf(errmsg, "CreateSCSITask failed");
        [self writeToLog:errmsg];
        return -1;
    }

    // zero the senseData and CDB
    memset ( &senseData, 0, sizeof ( senseData ) );
    memset ( cdb, 0, sizeof ( cdb ) );

    // TEST_UNIT_READY is all zeros in the CDB, so we don't actually
    // have to set any values.

    // Set the actual cdb in the task
    err = ( *task )->SetCommandDescriptorBlock ( task, cdb, kSCSICDBSize_6Byte );
    if ( err != kIOReturnSuccess ) {
        sprintf(errmsg, "ERROR Setting CDB");
        [self writeToLog:errmsg];
    }

    // Set the timeout in the task
    err = ( *task )->SetTimeoutDuration ( task, 5000 );
    if ( err != kIOReturnSuccess ) {
        sprintf(errmsg, "ERROR Setting Timeout");
        [self writeToLog:errmsg];
    }

    // Send it!
    err = ( *task )->ExecuteTaskSync ( task, &senseData, &taskStatus, &transferCount );
    if ( err != kIOReturnSuccess ) {
        sprintf(errmsg, "ERROR Executing Task");
        [self writeToLog:errmsg];
        ( *task )->Release ( task );
        return -1;
    }

    *status = taskStatus;

    // Task status is not GOOD, return  any sense string if they apply.
    if ( taskStatus == kSCSITaskStatus_GOOD ) {
        strcpy(status_string, "Ready");
    }
    else if ( taskStatus == kSCSITaskStatus_CHECK_CONDITION ) {
    key = *result_key = senseData.SENSE_KEY & 0x0F;
    ASC = senseData.ADDITIONAL_SENSE_CODE;
    ASCQ = senseData.ADDITIONAL_SENSE_CODE_QUALIFIER;
        code = *result_code = ( ( UInt16 ) ASC << 8 ) | ASCQ;
        get_sense_string(status_string, key, ASC, ASCQ, code, false);
    }
    else {
        sprintf(status_string, "taskStatus = 0x%08x\n", taskStatus);
    }

    // Release the task interface
    ( *task )->Release ( task );

    return 0;
}

- (int) Inquiry:(DriveInfo *)info {

    SCSICmd_INQUIRY_StandardData    inqBuffer;
    SCSITaskStatus          taskStatus;
    SCSI_Sense_Data         senseData;
    SCSICommandDescriptorBlock      cdb;
    SCSITaskInterface **        task  = NULL;
    UInt8 *             bufPtr = ( UInt8 * ) &inqBuffer;
    IOReturn                err = 0;
    UInt32              index = 0;
    UInt64              transferCount = 0;
    IOVirtualRange *            range = NULL;
    char                errmsg[128];
    int                 result;

    // Create a task now that we have exclusive access
    task = (*interface)->CreateSCSITask(interface);
    if (task == NULL) {
        sprintf(errmsg, "CreateSCSITask failed");
        [self writeToLog:errmsg];
        return -1;
    }

    // Zero the buffer.
    memset(bufPtr, 0, sizeof(SCSICmd_INQUIRY_StandardData));

    // Allocate a virtual range for the buffer. If we had more than 1 scatter-gather entry,
    // we would allocate more than 1 IOVirtualRange.
    range = (IOVirtualRange *) malloc(sizeof(IOVirtualRange));
    if ( range == NULL ) {
        sprintf(errmsg, "ERROR Mallocing IOVirtualRange");
        [self writeToLog:errmsg];
    }

    // zero the senseData and CDB
    memset(&senseData, 0, sizeof (senseData));
    memset(cdb, 0, sizeof(cdb));

    // Set up the range. The address is just the buffer's address. The length is
    //our request size.
    range->address  = (IOVirtualAddress)bufPtr;
    range->length   = sizeof(SCSICmd_INQUIRY_StandardData);

    // We're going to execute an INQUIRY to the device as a
    // test of exclusive commands.
    cdb[0] = 0x12   /* inquiry */;
    cdb[4] = sizeof(SCSICmd_INQUIRY_StandardData);

    // Set the actual cdb in the task
    err = (*task)->SetCommandDescriptorBlock(task, cdb, kSCSICDBSize_6Byte);
    if (err != kIOReturnSuccess) {
        sprintf(errmsg, "ERROR Setting CDB");
        [self writeToLog:errmsg];
    }

    // Set the scatter-gather entry in the task
    err = (*task)->SetScatterGatherEntries(task, range, 1,
                sizeof(SCSICmd_INQUIRY_StandardData),
                kSCSIDataTransfer_FromTargetToInitiator);
    if  (err != kIOReturnSuccess) {
        sprintf(errmsg, "ERROR Setting SG Entries");
        [self writeToLog:errmsg];
    }

    // Set the timeout in the task
    err = (*task)->SetTimeoutDuration(task, 10000);
    if (err != kIOReturnSuccess) {
        sprintf(errmsg, "ERROR Setting Timeout");
        [self writeToLog:errmsg];
    }

    // Send it!
    err =  (*task)->ExecuteTaskSync(task, &senseData, &taskStatus,                              &transferCount);
    if (err != kIOReturnSuccess) {
        sprintf(errmsg, "ERROR Executing Task");
        [self writeToLog:errmsg];
    }

    // Get information
    if (taskStatus == kSCSITaskStatus_GOOD) {
         for (index = 8; index < 16; index++) {
            if (bufPtr[index] == 0) break;
            (info->vendorID)[index-8] = bufPtr[index];
        }
        (info->vendorID)[index-8] = 0;
        blank_trim(info->vendorID);

        for (index = 16; index < 32; index++) {
            if (bufPtr[index] == 0) break;
            (info->productID)[index-16] = bufPtr[index];
        }
        (info-> productID)[index-16] = 0;
        blank_trim(info->productID);

        for (index = 32; index < 36; index++) {
            if (bufPtr[index] == 0) break;
            (info->firmwareRevLevel)[index-32] = bufPtr[index];
        }
        (info->firmwareRevLevel)[index-32] = 0;
        blank_trim(info->firmwareRevLevel);

        result = 0;
    }
    else {
        result = -1;
    }

    // Be a good citizen and cleanup
    free (range);

    // Release the task interface
    (*task)->Release(task);

    return result;
}

- (int) getMyMode:(int *)current_mode {
    unsigned char           senseResult[100];
    SCSITaskStatus          taskStatus;
    SCSI_Sense_Data         senseData;
    SCSICommandDescriptorBlock      cdb;
    SCSITaskInterface **        task  = NULL;
    IOReturn                err = 0;
    UInt64              transferCount = 0;
    IOVirtualRange *            range = NULL;
    char                errmsg[128];
    int                 result;

    // Create a task now that we have exclusive access
    task = (*interface)->CreateSCSITask(interface);
    if (task == NULL) {
        sprintf(errmsg, "CreateSCSITask failed");
        [self writeToLog:errmsg];
        return -1;
    }

    // Zero the buffer.
    memset(senseResult, 0, sizeof(senseResult));

    // Allocate a virtual range for the buffer. If we had more than 1 scatter-gather entry,
    // we would allocate more than 1 IOVirtualRange.
    range = (IOVirtualRange *) malloc(sizeof(IOVirtualRange));
    if ( range == NULL ) {
        sprintf(errmsg, "ERROR Mallocing IOVirtualRange");
        [self writeToLog:errmsg];
    }

    // zero the senseData and CDB
    memset(&senseData, 0, sizeof (senseData));
    memset(cdb, 0, sizeof(cdb));

    // Set up the range. The address is just the buffer's address. The length is
    // our request size.
    range->address  = (IOVirtualAddress)senseResult;
    range->length   = sizeof(senseResult);

    // We're going to execute a MODE SENSE to the device
    cdb[0] = 0x1a   /* mode sense */;
    cdb[4] = sizeof(senseResult);

    // Set the actual cdb in the task
    err = (*task)->SetCommandDescriptorBlock(task, cdb, kSCSICDBSize_6Byte);
    if (err != kIOReturnSuccess) {
        sprintf(errmsg, "ERROR Setting CDB");
        [self writeToLog:errmsg];
    }

    // Set the scatter-gather entry in the task
    err = (*task)->SetScatterGatherEntries(task, range, 1,
                sizeof(senseResult),
                kSCSIDataTransfer_FromTargetToInitiator);
    if  (err != kIOReturnSuccess) {
        sprintf(errmsg, "ERROR Setting SG Entries");
        [self writeToLog:errmsg];
    }

    // Set the timeout in the task
    err = (*task)->SetTimeoutDuration(task, 10000);
    if (err != kIOReturnSuccess) {
        sprintf(errmsg, "ERROR Setting Timeout");
        [self writeToLog:errmsg];
    }

    // Send it!
    err =  (*task)->ExecuteTaskSync(task, &senseData, &taskStatus,                              &transferCount);
    if (err != kIOReturnSuccess) {
        sprintf(errmsg, "ERROR Executing Task");
        [self writeToLog:errmsg];
    }

    // Get information
    result = -1;
    *current_mode = -1;
    if (taskStatus == kSCSITaskStatus_GOOD) {
        if (transferCount >= 5) {
            if (senseResult[4] == 0x80) {
                *current_mode = AUDIO_MODE;
                result = 0;
            }
            else if (senseResult[4] == 0x13) {
                *current_mode = DATA_MODE;
                result = 0;
            }
        }
    }

    // Be a good citizen and cleanup
    free (range);

    // Release the task interface
    (*task)->Release(task);

    /* sprintf(errmsg, "%02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x",
        senseResult[0],
        senseResult[1],
        senseResult[2],
        senseResult[3],
        senseResult[4],
        senseResult[5],
        senseResult[6],
        senseResult[7],
        senseResult[8],
        senseResult[9],
        senseResult[10],
        senseResult[11]);
    [self writeToLog:errmsg]; */

    return result;
}

- (int) setMyMode:(int)mode_wanted{

    unsigned char           mode_setting[12] =
        {0x00, 0x00, 0x10, 0x08, 0x00, 0x00,
         0x00, 0x00, 0x00, 0x00, 0x00, 0x02};
    SCSITaskStatus          taskStatus;
    SCSI_Sense_Data         senseData;
    SCSICommandDescriptorBlock      cdb;
    SCSITaskInterface **        task  = NULL;
    IOReturn                err = 0;
    UInt64              transferCount = 0;
    IOVirtualRange *            range = NULL;
    char                errmsg[128];
    int                 result;

    // check mode is valid
    if ((mode_wanted != DATA_MODE) && (mode_wanted != AUDIO_MODE)) {
        return -1;
    }

    // set data for mode wanted
    if (mode_wanted == DATA_MODE) {
        mode_setting[4] = 0x13;
    }
    else {
        mode_setting[4] = 0x80;
    }

    // Create a task now that we have exclusive access
    task = (*interface)->CreateSCSITask(interface);
    if (task == NULL) {
        sprintf(errmsg, "CreateSCSITask failed");
        [self writeToLog:errmsg];
        return -1;
    }

    // Allocate a virtual range for the buffer. If we had more than 1 scatter-gather entry,
    // we would allocate more than 1 IOVirtualRange.
    range = (IOVirtualRange *) malloc(sizeof(IOVirtualRange));
    if ( range == NULL ) {
        sprintf(errmsg, "ERROR Mallocing IOVirtualRange");
        [self writeToLog:errmsg];
    }

    // zero the senseData and CDB
    memset(&senseData, 0, sizeof (senseData));
    memset(cdb, 0, sizeof(cdb));

    // Set up the range. The address is just the buffer's address. The length is
    // our request size.
    range->address  = (IOVirtualAddress)mode_setting;
    range->length   = sizeof(mode_setting);

    // We're going to execute a MODE SELECT to the device
    cdb[0] = 0x15   /* mode select */;
    cdb[4] = sizeof(mode_setting);

    // Set the actual cdb in the task
    err = (*task)->SetCommandDescriptorBlock(task, cdb, kSCSICDBSize_6Byte);
    if (err != kIOReturnSuccess) {
        sprintf(errmsg, "ERROR Setting CDB");
        [self writeToLog:errmsg];
    }

    // Set the scatter-gather entry in the task
    err = (*task)->SetScatterGatherEntries(task, range, 1,
                sizeof(mode_setting),
                kSCSIDataTransfer_FromInitiatorToTarget);
    if  (err != kIOReturnSuccess) {
        sprintf(errmsg, "ERROR Setting SG Entries");
        [self writeToLog:errmsg];
    }

    // Set the timeout in the task
    err = (*task)->SetTimeoutDuration(task, 10000);
    if (err != kIOReturnSuccess) {
        sprintf(errmsg, "ERROR Setting Timeout");
        [self writeToLog:errmsg];
    }

    // Send it!
    err =  (*task)->ExecuteTaskSync(task, &senseData, &taskStatus,                              &transferCount);
    if (err != kIOReturnSuccess) {
        sprintf(errmsg, "ERROR Executing Task");
        [self writeToLog:errmsg];
    }

    // Get information
    result = -1;
    if (taskStatus == kSCSITaskStatus_GOOD) {
        if (transferCount == 12) {
            result = 0;
        }
    }

    // Be a good citizen and cleanup
    free (range);

    // Release the task interface
    (*task)->Release(task);

    return result;
}

- (int) loadUnload:(Boolean)do_unload
            withCallback:(SCSITaskCallbackFunction)the_callback {

    SCSICommandDescriptorBlock  cdb;
    SCSITaskInterface **    task = NULL;
    IOReturn            err = 0;
    char            errmsg[128];

    // Create a task now that we have exclusive access
    task = (*interface )->CreateSCSITask(interface);
    if (task == NULL) {
        sprintf(errmsg, "CreateSCSITask failed");
        [self writeToLog:errmsg];
        return -1;
    }


    // define the cdb
    memset(cdb, 0, sizeof(SCSICommandDescriptorBlock));
    cdb[0] = 0x1b;
    if (!do_unload) cdb[4] = 0x01;

    // Set the actual cdb in the task
    err = ( *task )->SetCommandDescriptorBlock ( task, cdb, kSCSICDBSize_6Byte );
    if ( err != kIOReturnSuccess ) {
        sprintf(errmsg, "ERROR Setting CDB");
        [self writeToLog:errmsg];
    }

    // Set the timeout in the task
    err = ( *task )->SetTimeoutDuration ( task, 300000 );
    if ( err != kIOReturnSuccess ) {
        sprintf(errmsg, "ERROR Setting Timeout");
        [self writeToLog:errmsg];
    }

    // Set the callback
    err = (*task)->SetTaskCompletionCallback(task, the_callback, task);
    if ( err != kIOReturnSuccess ) {
        sprintf(errmsg, "ERROR Setting Callback");
        [self writeToLog:errmsg];
        ( *task )->Release ( task );
        return -1;
    }

    // Send it!
    err = ( *task )->ExecuteTaskAsync ( task );
    if ( err != kIOReturnSuccess ) {
        sprintf(errmsg, "ERROR Executing Task");
        [self writeToLog:errmsg];
        ( *task )->Release ( task );
        return -1;
    }

    return 0;
}

- (int) readWithBuffer:(unsigned char *)buff
            withCallback:(SCSITaskCallbackFunction)the_callback
{
    SCSICommandDescriptorBlock  cdb;
    SCSITaskInterface **    task = NULL;
    IOReturn            err = 0;
    IOVirtualRange *        range = NULL;
    char            errmsg[128];

    // Create a task now that we have exclusive access
    task = (*interface )->CreateSCSITask(interface);
    if (task == NULL) {
        sprintf(errmsg, "CreateSCSITask failed");
        [self writeToLog:errmsg];
        return -1;
    }

    // Allocate a virtual range for the buffer. If we had more than 1 scatter-gather entry,
    // we would allocate more than 1 IOVirtualRange.
    range = &global_range;

    // Set up the range. The address is just the buffer's address. The length is
    // our request size.
    range->address  = (IOVirtualAddress)buff;
    range->length   = DAT_FRAME_SIZE;

    // define the cdb
    memset(cdb, 0, sizeof(SCSICommandDescriptorBlock));
    cdb[0] = 0x08;
    cdb[3] = DAT_FRAME_SIZE_MSB;
    cdb[4] = DAT_FRAME_SIZE_LSB;

    // Set the actual cdb in the task
    err = ( *task )->SetCommandDescriptorBlock ( task, cdb, kSCSICDBSize_6Byte );
    if ( err != kIOReturnSuccess ) {
        sprintf(errmsg, "ERROR Setting CDB");
        [self writeToLog:errmsg];
    }

    // Set the scatter-gather entry in the task
    err = (*task)->SetScatterGatherEntries(task, range, 1,
                DAT_FRAME_SIZE,
                kSCSIDataTransfer_FromTargetToInitiator);
    if  (err != kIOReturnSuccess) {
        sprintf(errmsg, "ERROR Setting SG Entries");
        [self writeToLog:errmsg];
    }

    // Set the timeout in the task
    err = ( *task )->SetTimeoutDuration ( task, 10000 );
    if ( err != kIOReturnSuccess ) {
        sprintf(errmsg, "ERROR Setting Timeout");
        [self writeToLog:errmsg];
    }

    // Set the callback
    err = (*task)->SetTaskCompletionCallback(task, the_callback, task);
    if ( err != kIOReturnSuccess ) {
        sprintf(errmsg, "ERROR Setting Callback");
        [self writeToLog:errmsg];
        ( *task )->Release ( task );
        return -1;
    }

    // Send it!
    err = ( *task )->ExecuteTaskAsync ( task );
    if ( err != kIOReturnSuccess ) {
        sprintf(errmsg, "ERROR Executing Task");
        [self writeToLog:errmsg];
        ( *task )->Release ( task );
        return -1;
    }

    return 0;
}
@end

// Utilities

void blank_trim(char *text)   // used by Inquiry
{
    short i, len;

    len = strlen(text);
    if (len == 0) return;
    for (i = (len - 1); i >= 0; i--) {
        if (text[i] == ' ') {
            text[i] = 0;
        }
        else {
            break;
        }
    }
}

void
get_sense_string(char *str, UInt8 key, UInt8 ASC, UInt8 ASCQ,
                 UInt16 code, Boolean addRawValues)
{
        if ( addRawValues )
    {

        sprintf ( str, "Key: $%02x, ASC: $%02x, ASCQ: $%02x, Code: $%04x  ",
                        key, ASC, ASCQ, code );

    }
    else
        str[0] = '\0';

    switch ( key )
    {

        case 0x0:   strcat ( str, "No Sense" ); break;
        case 0x1:   strcat ( str, "Recovered Error" ); break;
        case 0x2:   strcat ( str, "Not Ready" ); break;
        case 0x3:   strcat ( str, "Medium Error" ); break;
        case 0x4:   strcat ( str, "Hardware Error" ); break;
        case 0x5:   strcat ( str, "Illegal Request" ); break;
        case 0x6:   strcat ( str, "Unit Attention" ); break;
        case 0x7:   strcat ( str, "Data Protect" ); break;
        case 0x8:   strcat ( str, "Blank Check" ); break;
        case 0x9:   strcat ( str, "Vendor-Specific" ); break;
        case 0xA:   strcat ( str, "Copy Aborted" ); break;
        case 0xB:   strcat ( str, "Aborted Command" ); break;
        case 0xC:   strcat ( str, "Equal (now obsolete)" ); break;
        case 0xD:   strcat ( str, "Volume Overflow" ); break;
        case 0xE:   strcat ( str, "Miscompare" ); break;
        default:    strcat ( str, "Unknown Sense Code" ); break;

    }

    strcat ( str, ", " );

    switch ( code )
    {

        case 0x0000: strcat ( str, "No additional sense information" ); break;
        case 0x0001: strcat ( str, "Filemark detected" ); break;
        case 0x0002: strcat ( str, "End of partition/medium detected" ); break;
        case 0x0003: strcat ( str, "Setmark detected" ); break;
        case 0x0004: strcat ( str, "Beginning of partition/medium detected" ); break;
        case 0x0005: strcat ( str, "End of data detected" ); break;
        case 0x0006: strcat ( str, "I/O process termination" ); break;
        case 0x0011: strcat ( str, "Play operation in progress" ); break;
        case 0x0012: strcat ( str, "Play operation paused" ); break;
        case 0x0013: strcat ( str, "Play operation successfully completed" ); break;
        case 0x0014: strcat ( str, "Play operation stopped due to error" ); break;
        case 0x0015: strcat ( str, "No current audio status to return" ); break;
        case 0x0016: strcat ( str, "Operation in progress" ); break;
        case 0x0017: strcat ( str, "Cleaning requested" ); break;
        case 0x0100: strcat ( str, "Mechanical positioning or changer error" ); break;
        case 0x0200: strcat ( str, "No seek complete" ); break;
        case 0x0300: strcat ( str, "Peripheral device write fault" ); break;
        case 0x0301: strcat ( str, "No write current" ); break;
        case 0x0302: strcat ( str, "Excessive write errors" ); break;
        case 0x0400: strcat ( str, "Logical unit not ready, cause not reportable" ); break;
        case 0x0401: strcat ( str, "Logical unit not ready, in process of becoming ready" ); break;
        case 0x0402: strcat ( str, "Logical unit not ready, initializing command required" ); break;
        case 0x0403: strcat ( str, "Logical unit not ready, manual intervention required" ); break;
        case 0x0404: strcat ( str, "Logical unit not ready, format in progress" ); break;
        case 0x0407: strcat ( str, "Logical unit not ready, operation in progress" ); break;
        case 0x0408: strcat ( str, "Logical unit not ready, long write in progress" ); break;
        case 0x0409: strcat ( str, "Logical unit not ready, self-test in progress" ); break;
        case 0x0500: strcat ( str, "Logical unit does not respond to selection" ); break;
        case 0x0501: strcat ( str, "Media load - Eject failed" ); break;
        case 0x0600: strcat ( str, "No reference position found" ); break;
        case 0x0700: strcat ( str, "Multiple peripheral devices selected" ); break;
        case 0x0800: strcat ( str, "Logical unit communication failure" ); break;
        case 0x0801: strcat ( str, "Logical unit communication time-out" ); break;
        case 0x0802: strcat ( str, "Logical unit communication parity error" ); break;
        case 0x0803: strcat ( str, "Logical unit communication CRC error (Ultra-DMA/32)" ); break;
        case 0x0804: strcat ( str, "Unreachable copy target" ); break;
        case 0x0900: strcat ( str, "Track following error" ); break;
        case 0x0901: strcat ( str, "Tracking servo failure" ); break;
        case 0x0902: strcat ( str, "Focus servo failure" ); break;
        case 0x0903: strcat ( str, "Spindle servo failure" ); break;
        case 0x0904: strcat ( str, "Head select fault" ); break;
        case 0x0A00: strcat ( str, "Error log overflow" ); break;
        case 0x0B00: strcat ( str, "Warning" ); break;
        case 0x0B01: strcat ( str, "Warning, specified temperature exceeded" ); break;
        case 0x0B02: strcat ( str, "Warning, enclosure degraded" ); break;
        case 0x0C00: strcat ( str, "Write error" ); break;
        case 0x0C01: strcat ( str, "Write error, recovered with auto reallocation" ); break;
        case 0x0C02: strcat ( str, "Write error, auto reallocation failed" ); break;
        case 0x0C03: strcat ( str, "Write error, recommend reassignment" ); break;
        case 0x0C04: strcat ( str, "Compression check miscompare error" ); break;
        case 0x0C05: strcat ( str, "Data expansion occurred during compression" ); break;
        case 0x0C06: strcat ( str, "Block not compressible" ); break;
        case 0x0C07: strcat ( str, "Write error, recovery needed" ); break;
        case 0x0C08: strcat ( str, "Write error, recovery failed" ); break;
        case 0x0C09: strcat ( str, "Write error, loss of streaming" ); break;
        case 0x0C0A: strcat ( str, "Write error, padding blocks added" ); break;
        case 0x1000: strcat ( str, "ID, CRC or ECC error" ); break;
        case 0x1100: strcat ( str, "Unrecovered read error" ); break;
        case 0x1101: strcat ( str, "Read retries exhausted" ); break;
        case 0x1102: strcat ( str, "Error too long to correct" ); break;
        case 0x1103: strcat ( str, "Multiple read errors" ); break;
        case 0x1104: strcat ( str, "Unrecovered read error - auto reallocate failed" ); break;
        case 0x1105: strcat ( str, "L-EC uncorrectable error" ); break;
        case 0x1106: strcat ( str, "CIRC unrecovered error" ); break;
        case 0x1107: strcat ( str, "Re-synchronization error" ); break;
        case 0x1108: strcat ( str, "Incomplete block read" ); break;
        case 0x1109: strcat ( str, "No gap found" ); break;
        case 0x110A: strcat ( str, "Miscorrected error" ); break;
        case 0x110B: strcat ( str, "Unrecovered read error - recommend reassignment" ); break;
        case 0x110C: strcat ( str, "Unrecovered read error - recommend rewrite the data" ); break;
        case 0x110D: strcat ( str, "De-compression CRC error" ); break;
        case 0x110E: strcat ( str, "Cannot decompress using declared algorithm" ); break;
        case 0x110F: strcat ( str, "Error reading UPC/EAN number" ); break;
        case 0x1110: strcat ( str, "Error reading ISRC number" ); break;
        case 0x1111: strcat ( str, "Read error, loss of streaming" ); break;
        case 0x1200: strcat ( str, "Address mark not found for ID field" ); break;
        case 0x1300: strcat ( str, "Address mark not found for data field" ); break;
        case 0x1400: strcat ( str, "Recorded entity not found" ); break;
        case 0x1401: strcat ( str, "Record not found" ); break;
        case 0x1402: strcat ( str, "Filemark or setmark not found" ); break;
        case 0x1403: strcat ( str, "End of data not found" ); break;
        case 0x1404: strcat ( str, "Block sequence error" ); break;
        case 0x1405: strcat ( str, "Record not found - recommend reassignment" ); break;
        case 0x1406: strcat ( str, "Record not found - data auto-reallocated" ); break;
        case 0x1500: strcat ( str, "Random positioning error" ); break;
        case 0x1501: strcat ( str, "Mechanical positioning or changer error" ); break;
        case 0x1502: strcat ( str, "Positioning error detected by read of medium" ); break;
        case 0x1600: strcat ( str, "Data synchronization mark error" ); break;
        case 0x1601: strcat ( str, "Data sync error - data rewritten" ); break;
        case 0x1602: strcat ( str, "Data sync error - recommend rewrite" ); break;
        case 0x1603: strcat ( str, "Data sync error - data auto-reallocated" ); break;
        case 0x1604: strcat ( str, "Data sync error - recommend reassignment" ); break;
        case 0x1700: strcat ( str, "Recovered data with no error correction applied" ); break;
        case 0x1701: strcat ( str, "Recovered data with retries" ); break;
        case 0x1702: strcat ( str, "Recovered data with positive head offset" ); break;
        case 0x1703: strcat ( str, "Recovered data with negative head offset" ); break;
        case 0x1704: strcat ( str, "Recovered data with retries and/or CIRC applied" ); break;
        case 0x1705: strcat ( str, "Recovered data using previous sector ID" ); break;
        case 0x1706: strcat ( str, "Recovered data without ECC, data auto-reallocated" ); break;
        case 0x1707: strcat ( str, "Recovered data without ECC, recommend reassignment" ); break;
        case 0x1708: strcat ( str, "Recovered data without ECC, recommend rewrite" ); break;
        case 0x1709: strcat ( str, "Recivered data without ECC, data rewritten" ); break;
        case 0x1800: strcat ( str, "Recovered data with error correction applied" ); break;
        case 0x1801: strcat ( str, "Recovered data with error correction & retries applied" ); break;
        case 0x1802: strcat ( str, "Recovered data, the data was auto-reallocated" ); break;
        case 0x1803: strcat ( str, "Recovered data with CIRC" ); break;
        case 0x1804: strcat ( str, "Recovered data with L-EC" ); break;
        case 0x1805: strcat ( str, "Recovered data, recommend reassignment" ); break;
        case 0x1806: strcat ( str, "Recovered data, recommend rewrite" ); break;
        case 0x1807: strcat ( str, "Recovered data with ECC, data rewritten" ); break;
        case 0x1808: strcat ( str, "Recovered data with linking" ); break;
        case 0x1900: strcat ( str, "Defect list error" ); break;
        case 0x1901: strcat ( str, "Defect list not available" ); break;
        case 0x1902: strcat ( str, "Defect list error in primary list" ); break;
        case 0x1903: strcat ( str, "Defect list error in grown list" ); break;
        case 0x1A00: strcat ( str, "Parameter list length error" ); break;
        case 0x1B00: strcat ( str, "Synchronous data transfer error" ); break;
        case 0x1C00: strcat ( str, "Defect list not found" ); break;
        case 0x1C01: strcat ( str, "Primary defect list not found" ); break;
        case 0x1C02: strcat ( str, "Grown defect list not found" ); break;
        case 0x1D00: strcat ( str, "Miscompare during verify operation" ); break;
        case 0x1E00: strcat ( str, "Recovered ID with ECC correction" ); break;
        case 0x1F00: strcat ( str, "Partial defect list transfer" ); break;
        case 0x2000: strcat ( str, "Invalid command operation code" ); break;
        case 0x2100: strcat ( str, "Logical block address out of range" ); break;
        case 0x2101: strcat ( str, "Invalid element address" ); break;
        case 0x2102: strcat ( str, "Invalid address for write" ); break;
        case 0x2200: strcat ( str, "Illegal function" ); break;
        case 0x2400: strcat ( str, "Invalid field in CDB" ); break;
        case 0x2401: strcat ( str, "CDB decryption error" ); break;
        case 0x2500: strcat ( str, "Logical unit not supported" ); break;
        case 0x2600: strcat ( str, "Invalid field in parameter list" ); break;
        case 0x2601: strcat ( str, "Parameter not supported" ); break;
        case 0x2602: strcat ( str, "Parameter value invalid" ); break;
        case 0x2603: strcat ( str, "Threshold parameters not supported" ); break;
        case 0x2604: strcat ( str, "Invalid release of active persistent reservation" ); break;
        case 0x2605: strcat ( str, "Data decryption error" ); break;
        case 0x2606: strcat ( str, "Too many target descriptors" ); break;
        case 0x2607: strcat ( str, "Unsupported target descriptor type code" ); break;
        case 0x2608: strcat ( str, "Too many segment descriptors" ); break;
        case 0x2609: strcat ( str, "Unsupported segment descriptor type code" ); break;
        case 0x260A: strcat ( str, "Unexpected inexact segment" ); break;
        case 0x260B: strcat ( str, "Inline data length exceeded" ); break;
        case 0x260C: strcat ( str, "Invalid operation for copy source or destination" ); break;
        case 0x260D: strcat ( str, "Copy segment granularity violation" ); break;
        case 0x2700: strcat ( str, "Write protected" ); break;
        case 0x2701: strcat ( str, "Hardware write protected" ); break;
        case 0x2702: strcat ( str, "Logical unit software write protected" ); break;
        case 0x2703: strcat ( str, "Associated write protect" ); break;
        case 0x2704: strcat ( str, "Persistent write protect" ); break;
        case 0x2705: strcat ( str, "Permanent write protect" ); break;
        case 0x2800: strcat ( str, "Not ready to ready transition, medium may have changed" ); break;
        case 0x2801: strcat ( str, "Import or export element accessed" ); break;
        case 0x2900: strcat ( str, "Power on, reset or bus device reset occurred" ); break;
        case 0x2901: strcat ( str, "Power on occured" ); break;
        case 0x2902: strcat ( str, "SCSI bus reset occurred" ); break;
        case 0x2903: strcat ( str, "Bus device reset function occurred" ); break;
        case 0x2904: strcat ( str, "Device internal reset" ); break;
        case 0x2905: strcat ( str, "Transceiver mode changed to single-ended" ); break;
        case 0x2906: strcat ( str, "Transceiver mode changed to LVD" ); break;
        case 0x2A00: strcat ( str, "Parameters changed" ); break;
        case 0x2A01: strcat ( str, "Mode parameters changed" ); break;
        case 0x2A02: strcat ( str, "Log parameters changed" ); break;
        case 0x2A03: strcat ( str, "Reservations preempted" ); break;
        case 0x2A04: strcat ( str, "Reservations released" ); break;
        case 0x2A05: strcat ( str, "Registrations preempted" ); break;
        case 0x2B00: strcat ( str, "Copy cannot execute since host cannot disconnect" ); break;
        case 0x2C00: strcat ( str, "Command sequence error" ); break;
        case 0x2C01: strcat ( str, "Too many windows specified" ); break;
        case 0x2C02: strcat ( str, "Invalid combination of windows specified" ); break;
        case 0x2C03: strcat ( str, "Current program area is not empty" ); break;
        case 0x2C04: strcat ( str, "Current program area is empty" ); break;
        case 0x2C05: strcat ( str, "Persistent prevent conflict" ); break;
        case 0x2D00: strcat ( str, "Overwrite error on update in place" ); break;
        case 0x2E00: strcat ( str, "Insufficient time for operation" ); break;
        case 0x2F00: strcat ( str, "Commands cleared by anther initiator" ); break;
        case 0x3000: strcat ( str, "Incompatible medium installed" ); break;
        case 0x3001: strcat ( str, "Cannot read medium, unknown format" ); break;
        case 0x3002: strcat ( str, "Cannot read medium, incompatible format" ); break;
        case 0x3003: strcat ( str, "Cleaning cartridge installed" ); break;
        case 0x3004: strcat ( str, "Cannot write medium, unknown format" ); break;
        case 0x3005: strcat ( str, "Cannot write medium, incompatible format" ); break;
        case 0x3006: strcat ( str, "Cannot format medium, incompatible medium" ); break;
        case 0x3007: strcat ( str, "Cleaning failure" ); break;
        case 0x3008: strcat ( str, "Cannot write, application code mismatch" ); break;
        case 0x3009: strcat ( str, "Current session not fixated for append" ); break;
        case 0x3100: strcat ( str, "Medium format corrupted" ); break;
        case 0x3101: strcat ( str, "Format command failed" ); break;
        case 0x3102: strcat ( str, "Zoned formatting failed due to spare linking" ); break;
        case 0x3200: strcat ( str, "No defect spare location available" ); break;
        case 0x3201: strcat ( str, "Defect list update failure" ); break;
        case 0x3300: strcat ( str, "Tape length error" ); break;
        case 0x3400: strcat ( str, "Enclosure failure" ); break;
        case 0x3500: strcat ( str, "Enclosure services failure" ); break;
        case 0x3501: strcat ( str, "Unsupported enclosure function" ); break;
        case 0x3502: strcat ( str, "Enclosure services unavailable" ); break;
        case 0x3503: strcat ( str, "Enclosure services transfer failure" ); break;
        case 0x3504: strcat ( str, "Enclosure services transfer refused" ); break;
        case 0x3600: strcat ( str, "Ribbon, ink, or toner failure" ); break;
        case 0x3700: strcat ( str, "Rounded parameter" ); break;
        case 0x3800: strcat ( str, "Event status notification" ); break;
        case 0x3802: strcat ( str, "ESN - Power management class event" ); break;
        case 0x3804: strcat ( str, "ESN - Media class event" ); break;
        case 0x3806: strcat ( str, "ESN - Device busy class event" ); break;
        case 0x3900: strcat ( str, "Saving parameters not supported" ); break;
        case 0x3A00: strcat ( str, "Medium not present" ); break;
        case 0x3A01: strcat ( str, "Medium not present, tray closed" ); break;
        case 0x3A02: strcat ( str, "Medium not present, tray open" ); break;
        case 0x3A03: strcat ( str, "Medium not present, loadable" ); break;
        case 0x3A04: strcat ( str, "Medium not present, medium auxiliary memory accessible" ); break;
        case 0x3B00: strcat ( str, "Sequential positioning error" ); break;
        case 0x3B01: strcat ( str, "Tape position error at beginning of medium" ); break;
        case 0x3B02: strcat ( str, "Tape position error at end of medium" ); break;
        case 0x3B03: strcat ( str, "Tape or electronic vertical forms unit not ready" ); break;
        case 0x3B04: strcat ( str, "Slew failure" ); break;
        case 0x3B05: strcat ( str, "Paper jam" ); break;
        case 0x3B06: strcat ( str, "Failed to sense top-of-form" ); break;
        case 0x3B07: strcat ( str, "Failed to sense bottom-of-form" ); break;
        case 0x3B08: strcat ( str, "Reposition error" ); break;
        case 0x3B09: strcat ( str, "Read past end of medium" ); break;
        case 0x3B0A: strcat ( str, "Read past beginning of medium" ); break;
        case 0x3B0B: strcat ( str, "Position past end of medium" ); break;
        case 0x3B0C: strcat ( str, "Position past beginning of medium" ); break;
        case 0x3B0D: strcat ( str, "Medium destination element full" ); break;
        case 0x3B0E: strcat ( str, "Medium source element empty" ); break;
        case 0x3B0F: strcat ( str, "End of medium reached" ); break;
        case 0x3B11: strcat ( str, "Medium magazine not accessible" ); break;
        case 0x3B12: strcat ( str, "Medium magazine removed" ); break;
        case 0x3B13: strcat ( str, "Medium magazine inserted" ); break;
        case 0x3B14: strcat ( str, "Medium magazine locked" ); break;
        case 0x3B15: strcat ( str, "Medium magazine unlocked" ); break;
        case 0x3B16: strcat ( str, "Mechanical positioning or changer error" ); break;
        case 0x3D00: strcat ( str, "Invalid bits in identify message" ); break;
        case 0x3E00: strcat ( str, "Logical unit has not self-configured yet" ); break;
        case 0x3E01: strcat ( str, "Logical unit failure" ); break;
        case 0x3E02: strcat ( str, "Timeout on logical unit" ); break;
        case 0x3E03: strcat ( str, "Logical unit failed self-test" ); break;
        case 0x3E04: strcat ( str, "Logical unit unable to update self-test log" ); break;
        case 0x3F00: strcat ( str, "Target operating conditions have changed" ); break;
        case 0x3F01: strcat ( str, "Microcode has been changed" ); break;
        case 0x3F02: strcat ( str, "Changed operating definition" ); break;
        case 0x3F03: strcat ( str, "Inquiry data has changed" ); break;
        case 0x3F04: strcat ( str, "Component device attached" ); break;
        case 0x3F05: strcat ( str, "Device identifier changed" ); break;
        case 0x3F06: strcat ( str, "Redundancy group created or modified" ); break;
        case 0x3F07: strcat ( str, "Redundancy group deleted" ); break;
        case 0x3F08: strcat ( str, "Spare created or modified" ); break;
        case 0x3F09: strcat ( str, "Spare deleted" ); break;
        case 0x3F0A: strcat ( str, "Volume set created or modified" ); break;
        case 0x3F0B: strcat ( str, "Volume set deleted" ); break;
        case 0x3F0C: strcat ( str, "Volume set deassigned" ); break;
        case 0x3F0D: strcat ( str, "Volume set reassigned" ); break;
        case 0x3F0E: strcat ( str, "Reported LUNs data has changed" ); break;
        case 0x3F10: strcat ( str, "Medium loadable" ); break;
        case 0x3F11: strcat ( str, "Medium auxiliary memory accessible" ); break;
        case 0x4000: strcat ( str, "RAM failure" ); break;
        case 0x4100: strcat ( str, "Data path failure" ); break;
        case 0x4200: strcat ( str, "Power-on or self-test failure" ); break;
        case 0x4300: strcat ( str, "Message error" ); break;
        case 0x4400: strcat ( str, "Internal target failure" ); break;
        case 0x4500: strcat ( str, "Select or reselect failure" ); break;
        case 0x4600: strcat ( str, "Unseccessful soft reset" ); break;
        case 0x4700: strcat ( str, "SCSI Parity error" ); break;
        case 0x4701: strcat ( str, "Data phase CRC error detected" ); break;
        case 0x4702: strcat ( str, "SCSI parity error detected during ST data phase" ); break;
        case 0x4703: strcat ( str, "Information unit CRC error detected" ); break;
        case 0x4704: strcat ( str, "Async information protection error detected" ); break;
        case 0x4800: strcat ( str, "Initiator detected error message received" ); break;
        case 0x4900: strcat ( str, "Invalid message error" ); break;
        case 0x4A00: strcat ( str, "Command phase error" ); break;
        case 0x4B00: strcat ( str, "Data phase error" ); break;
        case 0x4C00: strcat ( str, "Logical unit failed self-configuration" ); break;
        case 0x4E00: strcat ( str, "Overlapped commands attempted" ); break;
        case 0x5000: strcat ( str, "Write append error" ); break;
        case 0x5001: strcat ( str, "Write append position error" ); break;
        case 0x5002: strcat ( str, "Position error related to timing" ); break;
        case 0x5100: strcat ( str, "Erase failure" ); break;
        case 0x5300: strcat ( str, "Media load or eject failed" ); break;
        case 0x5301: strcat ( str, "Unload tape failure" ); break;
        case 0x5302: strcat ( str, "Medium removal prevented" ); break;
        case 0x5400: strcat ( str, "SCSI to host system interface failure" ); break;
        case 0x5500: strcat ( str, "System Resource failure" ); break;
        case 0x5501: strcat ( str, "System Buffer full" ); break;
        case 0x5502: strcat ( str, "Insufficient reservation resources" ); break;
        case 0x5503: strcat ( str, "Insufficient resources" ); break;
        case 0x5504: strcat ( str, "Insufficient registration resources" ); break;
        case 0x5700: strcat ( str, "Unable to recover table of contents" ); break;
        case 0x5800: strcat ( str, "Generation does not exist" ); break;
        case 0x5900: strcat ( str, "Updated block read" ); break;
        case 0x5A00: strcat ( str, "Operator request or state change input (UNSPECIFIED)" ); break;
        case 0x5A01: strcat ( str, "Operator medium removal request" ); break;
        case 0x5A02: strcat ( str, "Operator selected write protect" ); break;
        case 0x5A03: strcat ( str, "Operator selected write permit" ); break;
        case 0x5B00: strcat ( str, "Log exception" ); break;
        case 0x5B01: strcat ( str, "Threshold condition met" ); break;
        case 0x5B02: strcat ( str, "Log counter at maximum" ); break;
        case 0x5B03: strcat ( str, "Log list codes exhausted" ); break;
        case 0x5C00: strcat ( str, "RPL status change" ); break;
        case 0x5C01: strcat ( str, "Spindles synchronized" ); break;
        case 0x5C02: strcat ( str, "Spindle not synchronized" ); break;
        case 0x5D00: strcat ( str, "Failure prediction threshold exceeded, predicted logical unit failure" ); break;
        case 0x5D01: strcat ( str, "Failure prediction threshold exceeded, predicted media failure" ); break;
        case 0x5D10: strcat ( str, "Hardware impending failure - general hard drive failure" ); break;
        case 0x5D11: strcat ( str, "Hardware impending failure - drive error rate too high" ); break;
        case 0x5D12: strcat ( str, "Hardware impending failure - data error rate too high" ); break;
        case 0x5D13: strcat ( str, "Hardware impending failure - seek error rate too high" ); break;
        case 0x5D14: strcat ( str, "Hardware impending failure - too many block reassigns" ); break;
        case 0x5D15: strcat ( str, "Hardware impending failure - access times too high" ); break;
        case 0x5D16: strcat ( str, "Hardware impending failure - start unit times too high" ); break;
        case 0x5D17: strcat ( str, "Hardware impending failure - channel parametrics" ); break;
        case 0x5D18: strcat ( str, "Hardware impending failure - controller detected" ); break;
        case 0x5D19: strcat ( str, "Hardware impending failure - throughput performance" ); break;
        case 0x5D1A: strcat ( str, "Hardware impending failure - seek time performance" ); break;
        case 0x5D1B: strcat ( str, "Hardware impending failure - spin-up retry count" ); break;
        case 0x5D1C: strcat ( str, "Hardware impending failure - drive calibration retry count" ); break;
        case 0x5D20: strcat ( str, "Controller impending failure - general hard drive failure" ); break;
        case 0x5D21: strcat ( str, "Controller impending failure - drive error rate too high" ); break;
        case 0x5D22: strcat ( str, "Controller impending failure - data error rate too high" ); break;
        case 0x5D23: strcat ( str, "Controller impending failure - seek error rate too high" ); break;
        case 0x5D24: strcat ( str, "Controller impending failure - too many block reassigns" ); break;
        case 0x5D25: strcat ( str, "Controller impending failure - access times too high" ); break;
        case 0x5D26: strcat ( str, "Controller impending failure - start unit times too high" ); break;
        case 0x5D27: strcat ( str, "Controller impending failure - channel parametrics" ); break;
        case 0x5D28: strcat ( str, "Controller impending failure - controller detected" ); break;
        case 0x5D29: strcat ( str, "Controller impending failure - throughput performance" ); break;
        case 0x5D2A: strcat ( str, "Controller impending failure - seek time performance" ); break;
        case 0x5D2B: strcat ( str, "Controller impending failure - spin-up retry count" ); break;
        case 0x5D2C: strcat ( str, "Controller impending failure - drive calibration retry count" ); break;
        case 0x5DFF: strcat ( str, "Failure prediction threshold exceeded (FALSE)" ); break;
        case 0x5E00: strcat ( str, "Low power condition on" ); break;
        case 0x5E01: strcat ( str, "Idle condition activated by timer" ); break;
        case 0x5E02: strcat ( str, "Standby condition activated by timer" ); break;
        case 0x5E03: strcat ( str, "Idle condition activated by command" ); break;
        case 0x5E04: strcat ( str, "Standby condition activated by command" ); break;
        case 0x5E41: strcat ( str, "Power state change to active" ); break;
        case 0x5E42: strcat ( str, "Power state change to idle" ); break;
        case 0x5E43: strcat ( str, "Power state change to standby" ); break;
        case 0x5E45: strcat ( str, "Power state change to sleep" ); break;
        case 0x5E47: strcat ( str, "Power state change to device control" ); break;
        case 0x6000: strcat ( str, "Lamp failure" ); break;
        case 0x6100: strcat ( str, "Video acquisition error" ); break;
        case 0x6101: strcat ( str, "Unable to acquire video" ); break;
        case 0x6102: strcat ( str, "Out of focus" ); break;
        case 0x6200: strcat ( str, "Scan head positioning error" ); break;
        case 0x6300: strcat ( str, "End of user area encountered on this track" ); break;
        case 0x6301: strcat ( str, "Packet does not fit in available space" ); break;
        case 0x6400: strcat ( str, "Illegal mode for this track or incompatible medium" ); break;
        case 0x6401: strcat ( str, "Invalid packet size" ); break;
        case 0x6500: strcat ( str, "Voltage fault" ); break;
        case 0x6600: strcat ( str, "Automatic document feeder cover up" ); break;
        case 0x6601: strcat ( str, "Automatic document feeder lift up" ); break;
        case 0x6602: strcat ( str, "Document jam in automatic document feeder" ); break;
        case 0x6603: strcat ( str, "Document misfeed in automatic document feeder" ); break;
        case 0x6700: strcat ( str, "Configuration failure" ); break;
        case 0x6701: strcat ( str, "Configuration of incapable logical unit" ); break;
        case 0x6702: strcat ( str, "Add logical unit failed" ); break;
        case 0x6703: strcat ( str, "Modification of logical unit failed" ); break;
        case 0x6704: strcat ( str, "Exchange of logical unit failed" ); break;
        case 0x6705: strcat ( str, "Remove of logical unit failed" ); break;
        case 0x6706: strcat ( str, "Attachment of logical unit failed" ); break;
        case 0x6707: strcat ( str, "Creation of logical unit failed" ); break;
        case 0x6800: strcat ( str, "Logical unit not configured" ); break;
        case 0x6900: strcat ( str, "Data loss on logical unit" ); break;
        case 0x6901: strcat ( str, "Multiple logical unit failures" ); break;
        case 0x6902: strcat ( str, "A parity/data mismatch" ); break;
        case 0x6A00: strcat ( str, "Informational, refer to log" ); break;
        case 0x6B00: strcat ( str, "State change has occurred" ); break;
        case 0x6B01: strcat ( str, "Redundancy level got better" ); break;
        case 0x6B02: strcat ( str, "Redundancy level got worse" ); break;
        case 0x6C00: strcat ( str, "Rebuild failure occurred" ); break;
        case 0x6D00: strcat ( str, "Recalculate failure occurred" ); break;
        case 0x6E00: strcat ( str, "Command to logical unit failed" ); break;
        case 0x6F00: strcat ( str, "Copy protection key exchange failure, authentication failure" ); break;
        case 0x6F01: strcat ( str, "Copy protection key exchange failure, key not present" ); break;
        case 0x6F02: strcat ( str, "Copy protection key exchange failure, key not established" ); break;
        case 0x6F03: strcat ( str, "Read of scrambled sector without authentication" ); break;
        case 0x6F04: strcat ( str, "Media region code is mismatched to logical unit region" ); break;
        case 0x6F05: strcat ( str, "Drive region must be permanent/Region reset count error" ); break;
        case 0x7100: strcat ( str, "Decompression exception long algorithm id" ); break;
        case 0x7200: strcat ( str, "Session fixation error" ); break;
        case 0x7201: strcat ( str, "Session fixation error writing lead-in" ); break;
        case 0x7202: strcat ( str, "Session fixation error writing lead-out" ); break;
        case 0x7203: strcat ( str, "Session fixation error, incomplete track in session" ); break;
        case 0x7204: strcat ( str, "Empty or partially written reserved track" ); break;
        case 0x7205: strcat ( str, "No more RZone reservations are allowed" ); break;
        case 0x7300: strcat ( str, "CD control error" ); break;
        case 0x7301: strcat ( str, "Power calibration area almost full" ); break;
        case 0x7302: strcat ( str, "Power calibration area is full" ); break;
        case 0x7303: strcat ( str, "Power calibration area error" ); break;
        case 0x7304: strcat ( str, "Program memory area update failure" ); break;
        case 0x7305: strcat ( str, "Program memory area is full" ); break;
        case 0x7306: strcat ( str, "Program memory area is (almost) full" ); break;
        case 0xB900: strcat ( str, "Play operation aborted" ); break;
        case 0xBF00: strcat ( str, "Loss of streaming" ); break;
        default:
            if ( ASC == 0x40 ) { sprintf ( str, "Diagnostic failure on component $%02x", ASCQ ); break; }
            if ( ASC == 0x4D ) { sprintf ( str, "Tagged overlapped commands, queue tag = $%02x", ASCQ ); break; }
            break;
    }
}