VMS Help  —  MRD Library, mrd_startup
    mrd_startup - Open a medium-changer robot

    mrd_shutdown - Close a medium-changer robot

    Windows NT         mrd.dll
    UNIX               /usr/lib/libmrd.a
    OpenVMS            MRD$RTL.EXE

    #include <mrd_common.h>
    #include <mrd_message.h>

    int mrd_startup(
        const char   *robot_name,
        robot_info_t *robot_info,
        char         *log_info) ;

    void mrd_shutdown(
        robot_info_t *robot_info) ;

1  –  Parameters

    o  robot_name - The name of the robot device to be opened. On
       Digital UNIX, if the leading character of the name is not a
       slash (/), /dev/ will be prepended to the name.

    o  robot_info - This is the address of the robot_info_t structure
       when mrd_startup is called. This data structure contains the
       element starting address and counts for each type of element,
       which are needed to map an absolute element to the correct
       zero relative address and type.

    o  log_info - This is a character array that should be at least
       MRD_MAX_LOG_STRING in length. If this function fails as the
       result of a SCSI error, this will be filled with the formatted
       request sense data. If this function fails as the result
       of an operating system error, the operating system message
       particular to the error will be copied into the array.

2  –  Description

    The mrd_startup(3mrd) function can be used to obtain information
    about a supported Medium-Changer. Because the startup time on
    some robots (HSJ connected SCSI robots) can be relatively long,
    this routine can also be used to hold open the robot while mrd_
    show(3mrd) routines are used to collect information about the
    different robot elements.

    The mrd_shutdown(3mrd) routine should be used to close a robot
    before other MRD routines are called. With the exception of
    mrd_show(3mrd) the MRD common routines call mrd_startup(3mrd)
    themselves and can't make use of robot_info_t filled in by mrd_
    startup(3mrd).

    Robot Information
    The robot_info_t data structure is defined in the include file
    <mrd_common.h>. The fields of this data structure are described
    below:

    o  channel - This is the file descriptor, channel number or other
       operating system specific handle assigned to the process for
       the robot, when mrd_startup(3mrd) is successful. It should
       not be used directly and should only be closed through mrd_
       shutdown(3mrd). When mrd_show(3mrd) is provided a robot_info_t
       where the channel is not BAD_CHANNEL, it will assume the robot
       is open and try to use that handle.

    o  robot_name - This is set to the address of the robot_name
       argument provided to mrd_startup(3mrd).

    o  robot_type - MRD attempts to identify a robot using the SCSI
       inquiry data obtained during the startup. This is a value
       to indicate the family or type of medium-changer. Recognized
       types are:

       DLT_ROBOT          TZ857, TZ867, TZ875, TZ877, TZ885, TZ887
       RDAT_ROBOT         TLZ6L, TLZ7L, TLZ9L
       TL820_ROBOT        TL820, TL822, TL826
       TL810_ROBOT        TL810, TL812
       TL800_ROBOT        TL891
       OVERLAND_ROBOT     TKZ6x
       RW5XX_ROBOT        RW500
       UNKNOWN_ROBOT      A type not recognized

    o  arch_type - This indicates the I/O architecture used to
       communicate with the medium-changer. OpenVMS supports SCSI
       (ARCH_SCSI) and DSA (ARCH_DSA) connected medium-changers. HSJ
       and HSD connected robots are considered SCSI robots. Digital
       UNIX and Windows NT only support SCSI connected robots.

    o  vision_present - This flag indicates that the robot supports
       a vision system that can be used to read volume tags. It is
       set in the start-up and should not be changed. Most SCSI
       robots will reject commands asking for volume tags when the
       medium-changer doesn't support them.

    o  robot_device_type - This field is only used by the OpenVMS
       implementation of MRD to indicate the method the host uses
       to communicate with the medium-changer. This value is used
       internally by the OpenVMS MRD code to select the appropriate
       communcation path.

    o  ptm_addr and ptm_type The TL820 family supports a pass-through
       mechanism (PTM) for moving cartridges from the inport to
       the bar-code reader station or from there to the outport. In
       multi-tower configurations the pass-through moves cartridges
       from one tower to another. The MRD uses the PTM to perform
       bar-code verification. Early versions of the TL820 family
       firmware present the PTM as a Import/Export element, while
       later versions may present it as a Transport. These fields are
       used to indicate the address and type.

    o  maxecnt - The OpenVMS drivers used to communicate with medium-
       changers support a limited I/O size that restricts the amount
       of data that can be transferred by a Read Element Status
       command. This field is used by the OpenVMS implementation
       of MRD to know where large transfers must be broken up by the
       software.

    o  element_desc - In addition to knowing the maximum number of
       elements that may be read in a single Read Element Status
       command, the element descriptor size is also needed to
       correctly break-up command. This field stores the element
       descriptor size on all implementations of the MRD.

    The following fields are filled in from Element Address
    Assignment Page obtained via the SCSI Mode Sense command. When
    the robot is not a SCSI connect device, a suitable lie is filled
    by the operating system specific code supporting that type of
    robot.

    o  slot_count - This is the number of storage elements (slots) in
       the medium-changer. Some robots (TLZ7L) will change the number
       of slots presented depending on the type of magazine used. To
       detect changes in the size of the carrier, mrd_startup(3mrd)
       must be called and field checked for a change of value. When
       no magazine is in the drive, it may report 0 slots.

    o  slot_start - This is the element address of the first storage
       element. It is used by MRD to convert zero-relative element
       addresses to the actual element address used by the medium-
       changer.

    o  device_count - This is the number of data transfer elements
       (drives) in the medium-changer. Like storage elements it may
       be subject to change after a robot has been started.

    o  device_start - This is the element address of the first data
       transfer element. It is used by MRD to convert zero-relative
       element addresses to the actual element address used by the
       medium-changer.

    o  port_count - This is the number of import/export elements
       (ports) in the medium-changer. Like storage elements it may be
       subject to change after a robot has been started.

    o  port_start - This is the element address of the first import
       /export element. It is used by MRD to convert zero-relative
       element addresses to the actual element address used by the
       medium-changer.

    o  transport_count - This is the number of medium transport
       elements (transports) in the medium-changer. Like storage
       elements it may be subject to change after a robot has been
       started.

    o  transport_start - This is the element address of the first
       medium transport element. it is used by MRD to convert zero-
       relative element addresses to the actual element address used
       by the medium-changer.

    o  inport_count and outport_count - MRD V1.2 and earlier attempts
       to identify ports according to whether they are used for
       import-only, export-only or both. This is an artifact from
       the time that the TL820 was the only supported medium- changer
       with ports. Even though the TL810 has four ports these fields
       will report it having four inports and four outports.

    o  inport_start and outport_start - MRD V1.2 and earlier assumes
       that the arrangement of ports in the address space of the
       medium-changer has all the inports together and all the
       outports together. However, the two groups may be separated.
       No guarantee is made whether the addressees of the inports
       come before or after the outports. When the starting address
       of both types of ports the same value, it can be safely
       assumed that all the ports within the particular port count
       are both inport and outport elements.

    The following fields are obtained as the result of a SCSI Inquiry
    Command. When the robot isn't a SCSI connected device, a suitable
    lie is filled in by the operating system specific code supporting
    that type of robot.

    o  scsi_info - These are the first eight (8) bytes of the SCSI
       Inquiry data for the robot. MRD doesn't make use of this
       information, but it is available if the calling application
       wants to use it. These bytes will be zero on non-SCSI devices.

    o  inquiry - This is the VendorID, ProductID and
       ProductRevisionLevel fields of the SCSI Inquiry data. They
       are collected as a single NULL terminated string. The data is
       edited to replace any non-printable character with a space.

    These fields are not currently used:

    o  bus

    o  target

    o  lun

    o  devcap

    o  transport_geometry

3  –  Example

    /*
     *   Example of using mrd_startup(3mrd) and mrd_shutdown(3mrd).  This
     *   just opens the robot and prints the element counts and Inquiry
     *   string.  The command usage is:
     *
     *      mrd_startup robot
     */
    #ifndef   lint
    static   char   SccsId[] = "@(#)mrd_startup.c   1.2 3/5/97" ;
    #endif

    #include <stdio.h>
    #include <stdlib.h>
    #include <mrd_common.h>
    #include <mrd_message.h>

    main(int argc, char *argv[])
    {
       robot_info_t   robot_info ;   /* Place to put robot data */
       int      status ;   /* status from mrd_startup(3mrd) */
       char      *robot ;   /* robot name */
       char      log_info[MRD_MAX_LOG_STRING+1] ;   /* error text */

       /*
        *   Only one required argument; the robot name
        */
       if( argc == 1 ) {
          printf("usage: %s robot\n", argv[0]) ;
          exit(1) ;
       }
       else
          robot = argv[1] ;

       /*
        *   The channel number must be set to BAD_CHANNEL before
        *   mrd_startup is called, otherwise it will assume the
        *   robot is already open and not try to open it again.
        */
       robot_info.channel = BAD_CHANNEL ;

       status = mrd_startup(robot, &robot_info, log_info) ;

       if( status != MRD_STATUS_SUCCESS )
          printf("Startup failed: %s: %s.\n", mrd_strstatus(status),
             log_info[0] ? log_info : "none") ;
       else {
          printf("Inquiry: %s\n", robot_info.inquiry) ;
          printf("   Transports: %d\n",  robot_info.transport_count) ;
          printf("   Slots:      %d\n",  robot_info.slot_count) ;
          printf("   Ports:      %d\n",  robot_info.port_count) ;
          printf("   Drives:     %d\n",  robot_info.device_count) ;
       }

       (void)mrd_shutdown(&robot_info) ;

       return 0 ;
    }

4  –  Return Values

    Upon successful completion, the mrd_startup(3mrd) and mrd_
    shutdown(3mrd) functions return the value MRD_STATUS_SUCCESS.
    If the mrd_startup(3mrd) fails the returned status value will be
    set to one of the following values. Other values that correspond
    to specific SCSI errors may also be possible, but these are the
    most likely.

4.1  –  MRD_STATUS_PARAM

    This error is returned if the robot_name, log_info, or robot_info
    arguments are NULL pointers.

4.2  –  MRD_STATUS_SCSI_CHECK

    The SCSI Check Condition error should never occur, since it
    indicates that it safe to use a Request Sense command and you are
    likely to get a different error.

4.3  –  MRD_STATUS_SCSI_CONDMET

    The SCSI Condition Met status indicates a SCSI command completed
    with the status "Condition Met".

4.4  –  MRD_STATUS_SCSI_BUSY

    The SCSI Device is Busy status code indicates a SCSI command
    completed with the status "Busy".  Some TZ87x media changers are
    known to cause this condition.

4.5  –  MRD_STATUS_SCSI_INTER

    The SCSI Intermediate Command Completed status code indicates a
    SCSI command completed with the status "Intermediate".

4.6  –  MRD_STATUS_SCSI_INTER_CONDMET

    The SCSI Intermediate-Condition Met status code indicates a SCSI
    command completed.

4.7  –  MRD_STATUS_SCSI_RESCON

    The SCSI Reservation Conflict status code indicates a SCSI
    command completed with the status "Reservation Conflict".

4.8  –  MRD_STATUS_SCSI_TERM

    The SCSI Command Terminated status code indicates a SCSI command
    completed with the status "Terminated".

4.9  –  MRD_STATUS_SCSI_QUEUE

    The SCSI Queue Full status code indicates a SCSI command
    completed with the status "Queue Full".

4.10  –  MRD_STATUS_SCSI_RESERVED

    The SCSI Status Code Reserved return indicates a SCSI command
    completed with a status that wasn't listed in Chapter 7 of the
    SCSI-2 specification and is "Reserved".

4.11  –  MRD_STATUS_ROBOT_COMM_ERROR

    This error code is used when an OpenVMS system service, such as
    $ASSIGN or $QIO, fails with a status of SS$_DRVERR. Generally
    SS$_DRVERR indicates a failure in the underlying device and the
    MRD can get the detailed device failure and return the correct
    MRD status code instead.

    This error is also returned when a SCSI Test Unit Ready command
    fails. The cause of the error can be determined by called mrd_
    request_sense(3mrd). This error also occurs as the result of a
    SCSI command failure, when the ASC is set to one of:

    o  0x08 - Logical unit communcation errors.

    o  0x43 - Message error

    o  0x45 - Select or Reselect failure

    o  0x47 - SCSI parity error

    o  0x48 - Initiator detected error message received

    o  0x49 - Invalid message error

    o  0x4A - Command phase error

    o  0x4B - Data phase error

    o  0x4E - Overlapped commands attempted

    o  0x54 - SCSI to host system interface failure

4.12  –  MRD_STATUS_ROBOT_NOT_READY

    Under OpenVMS and Digital UNIX, this error occurs as the result
    of a SCSI command failure, when the ASC is set to one of:

    o  0x80 - When the ASCQ is not zero (0).

    o  0x81 - Vendor unique; gripper errors on the TL82X and TL81X

    o  0x04 - Logical unit not ready

    o  0x3E - Logical unit has not been self configured

    o  0x40 - Diagnostic failure; ASCQ indicates component

    o  0x42 - Power-on self test failure

    o  0x44 - Internal target failure

    o  0x46 - Unsuccessful soft reset

    o  0x4C - Logical unit failed self-configuration

    This status is also returned when the ASC and ASCQ are zero, but
    the key is two (2).

4.13  –  MRD_STATUS_NO_SUCH_DEVICE

    This error is returned when a regular file or robot was specified
    without the ":BnTnLn" string.

4.14  –  MRD_STATUS_PAGE_CODE

    This error occurs in mrd_startup(3mrd) when a SCSI Mode Sense
    command fails to return the expected data. It uses the SCSI
    Element Address Assignment mode page to fill in the element count
    and base address fields of the robot_info_t structure. If the
    data returned by the medium changer does not have the expected
    page code, this error is returned. This error has been seen when
    medium changers are connected to HS family array controllers
    running V2.7 firmware.

4.15  –  MRD_STATUS_INIT_REQUIRED

    LUN not ready, Initializing command required.
    This is for the ASC/ASC code of 4/2.  It occurs
    when commands are sent to a TL810 family library that has
    auto-inventory on power-up turned off.

4.16  –  MRD_STATUS_DIAG_FAILED

    Diagnostic failure, component in ASCQ. This is the
    entire class of error codes with the ASC value set to 0x40.

4.17  –  MRD_STATUS_IDE

    Initiator detected error message received. This error
    code occurs when the ASC/ASCQ code is 0x48/0.

4.18  –  MRD_STATUS_OPERATOR

    Operator request. This error code occurs when the ASC
    code is 0x5A and the ASCQ code is 0 or 1.

4.19  –  MRD_STATUS_LOG_ERROR

    Device log error.  This error code occurs when the ASC
    code is 0x5B and the ASCQ code is 0, 1, 2 or 3.

4.20  –  MRD_STATUS_ELOG_OVERFLOW

    Error log overflow. This error code occurs when the ASC
    code is 0xA and the ASCQ code is 0.

4.21  –  MRD_STATUS_SYNC_XFER_ERROR

    Synchronous data transfer error. This error code occurs
    when the ASC code is 0x1B and the ASCQ code is 0.

5  –  Related Functions

    Functions:

    o  mrd_move(3mrd)

    o  mrd_load(3mrd)

    o  mrd_unload(3mrd)

    o  mrd_inject(3mrd)

    o  mrd_eject(3mrd)

    o  mrd_show(3mrd)

    o  mrd_ready(3mrd)

    o  mrd_position(3mrd)

    o  mrd_initialize(3mrd)

    o  mrd_home(3mrd)

    o  mrd_find_cartridge(3mrd)

    o  mrd_error_decode(3mrd)

    o  mrd_strstatus(3mrd)

    o  mrd_map_element(3mrd)

    o  mrd_lock(3mrd)

    o  mrd_unlock(3mrd)
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