HP OpenVMS Systems Documentation
HP OpenVMS System Services Reference Manual
Unless you specify MNT$M_GROUP or MNT$M_SYSTEM, the logical name is entered in the process logical name table.
MNT$_OWNERSpecifies the UIC to be assigned ownership of the volume. The buffer must contain a longword octal value, which is the UIC. If the volume is Files-11 structured, the specified value overrides the ownership recorded on the volume. You need either VOLPRO privilege or ownership of the volume to assign a UIC to a Files-11 structured volume.
MNT$_PROCESSORFor magnetic tapes and Files-11 On-Disk Structure Level 1 disks, MNT$_PROCESSOR specifies the name of the ancillary control process (ACP) that is to process the volume. The specified ACP overrides the default ACP associated with the device.
For Files-11 On-Disk Structure Level 2 disks, MNT$_PROCESSOR controls block cache allocation.
To specify MNT$_PROCESSOR, the caller must have OPER privilege.
The buffer must contain a character string specifying either the string UNIQUE, a device name, or a file specification. Following is a description of the action taken for each of these cases:
MNT$_QUOTASpecifies the size of the quota record cache in units of quota records. The buffer must contain a longword value, which is this size. To specify MNT$_QUOTA, you need OPER privilege. The value 0 disables caching. The MNT$_QUOTA item code applies only to disks.
MNT$_RECORDSIZSpecifies the number of characters in each record and is used with MNT$_BLOCKSIZE to specify the data formats for foreign volumes. The buffer must contain a longword value less than or equal to the block size. The MNT$_RECORDSIZ item code applies only to tapes.
If you do not specify MNT$_RECORDSIZ, the record size is assumed to be equal to the block size.
MNT$_SHAMEMSpecifies the name of a physical device to be mounted into a shadow set. The MNT$_SHAMEM descriptor is a 1- to 64-character string containing the device name. The string can be a physical device name or a logical name; if it is a logical name, it must translate to a physical device name. An item list must contain at least one item descriptor specifying a member; this item descriptor must appear after the MNT$_SHANAM item descriptor.
Volume Shadowing for OpenVMS automatically performs a copy or a merge operation, if necessary, when it mounts the disk into the shadow set.
MNT$_SHANAMSpecifies the name of the virtual unit to be mounted. The buffer is a 1- to 64-character string containing the device name. The virtual unit name can be a logical name; if it is a logical name, it must translate to a virtual unit name.
Because every shadow set is represented by a virtual unit, you must include at least one MNT$_SHANAM item descriptor in the item list that you pass to $MOUNT to create and mount the shadow set. If you are mounting a volume set containing more than one shadow set, you must include one MNT$_SHANAM item descriptor for each virtual unit included in the volume set.
The relative position of the item descriptors in the item list determines the membership of the shadow set. That is, it indicates which members should be bound to a specific virtual unit to form the shadow set. You must first specify the virtual unit by using the MNT$_SHANAM item code. Then, you can specify any number of members that are to be represented by that virtual unit by using one of the following item codes: MNT$_SHAMEM, MNT$_SHAMEM_COPY, or MNT$_SHAMEM_MGCOPY. If you specify one shadow set and want to specify a second, specify a second virtual unit item descriptor. The members you specify subsequently are bound to the shadow set represented by the virtual unit specified in the second virtual unit item descriptor.
MNT$_UCSSpecifies a descriptor containing a Universal Character Sequence (UCS) defined by ISO 2022 and used when mounting an ISO 9660 CD-ROM. For more information, see the HP OpenVMS System Manager's Manual.
MNT$_UNDEFINED_FATSpecifies the default file attributes to be used for the records on ISO 9660 media for which no record format has been specified.
The buffer contains a 32-bit structure that defines a file's record format, record attributes, and maximum record size.
The following diagram depicts the structure of the Undefined File Attributes buffer:
The following table defines the buffer fields:
MNT$_VOLNAMSpecifies the name of the volume to be mounted on the device. The number of characters allowed in a volume name depends on the type of device, as follows:
The operating system requires disk volume labels to be unique in the first 12 characters within a given domain.
The MNT$_VOLNAM item code can appear more than once in an item list; it appears more than once when a volume set is being mounted because, in this case, one volume name is given to each volume in the volume set.
When a disk volume set is being mounted, you must specify MNT$_DEVNAM and MNT$_VOLNAM once for each volume of the volume set. The $MOUNT service mounts the volume specified by the first MNT$_VOLNAM item code on the device specified by the first MNT$_DEVNAM item code in the item list; it mounts the volume specified by the second MNT$_VOLNAM code on the device specified by the second MNT$_DEVNAM code, and so on for all specified volumes and devices. Thus, there must be an equal number of these two item codes in the item list.
When a tape volume set is being mounted, the number of MNT$_DEVNAM item codes specified need not be equal to the number of MNT$_VOLNAM item codes specified, because more than one volume can be mounted on the same device.
MNT$_VOLSETSpecifies the name of a volume set. The buffer must contain a character string from 1 to 12 alphanumeric characters, which is the volume set name.
An ISO 9660 volume set name can be from 1 to 128 characters in length.
Volume set names must be unique in the first 12 characters. In addition, if the first 12 characters of the volume set name are the same as the first 12 characters of any volume label, a lock manager deadlock will occur. To avoid this problem, you must override either the volume label (by using the MNT$_VOLNAM item code) or the volume set name (by using the MNT$_VOLSET item code).
When you specify MNT$_VOLSET, volumes specified by the MNT$_VOLNAM item code are bound into a new volume set or added to an existing volume set, depending on whether the name specified by MNT$_VOLSET is a new or already existing name.
When you specify MNT$_VOLSET to add volumes to an existing volume set, the root volume (RVN1) must either (1) already be mounted or (2) be specified first (by the MNT$_DEVNAM and MNT$_VOLNAM item codes) in the item list.
When you specify MNT$_VOLSET to create a new volume set, the first volume specified (by the MNT$_DEVNAM and MNT$_VOLNAM item codes) in the item list becomes the root volume.
MNT$_VPROTSpecifies the protection to be assigned to the volume. The buffer must contain a longword protection mask, which specifies the four types of access allowed to the four categories of user.
The protection mask consists of four 4-bit fields. Each field grants or denies read, write, logical, and physical access to a category of users. Cleared bits grant access; set bits deny access. The following diagram depicts the structure of the protection mask:
If you do not specify MNT$_VPROT or specify it as the value 0, the volume receives the protection that it was assigned when it was initialized. To specify MNT$_VPROT for a Files-11 structured volume, the caller must either own the volume or have VOLPRO privilege.
MNT$_WINDOWSpecifies the number of mapping pointers to be allocated for file windows. The buffer must contain a longword value in the range 7 to 80. This value overrides the default value that was applied when the volume was initialized. The MNT$_WINDOW item code applies only to disks.
When a file is opened, the file system uses the mapping pointers to access the data in the file. To specify MNT$_WINDOW, you need OPER privilege.
The Mount Volume service mounts a tape, disk volume, or volume set and specifies options for the mount operation.
Condition Values Returned
The $MOUNT service can also return a condition value that is specific to the Mount utility. The symbolic definition macro $MOUNDEF defines these condition values.
Allows installations to provide their own routine to interpret and output the accessibility field in the VOL1 and HDR1 labels of an ANSI labeled magnetic tape.
SYS$MTACCESS lblnam ,[uic] ,[std_version] ,[access_char] ,[access_spec] ,type
int sys$mtaccess (unsigned int *lblnam, unsigned int uic, unsigned int std_version, unsigned int access_char, unsigned int access_spec, unsigned int type);
The Magnetic Tape Accessibility service allows installations to provide their own routine to interpret and output the accessibility field in the VOL1 and HDR1 labels of ANSI labeled magnetic tapes. The installation can override the default routine by providing an MTACCESS.EXE executive loaded image.
Condition Values Returned
Converts an absolute or delta time from 64-bit system time format to binary integer date and time values.
SYS$NUMTIM timbuf ,[timadr]
int sys$numtim (unsigned short int timbuf , struct _generic_64 *timadr);
If the timadr argument specifies a delta time, $NUMTIM returns the value 0 in the year since 0 and month of year fields. It returns in the day of month field the number of days specified by the delta time.
The 64-bit time value to be converted. The timadr argument is the 32-bit address (on VAX systems) or the 32- or 64-bit address (on Alpha and I64 systems) of a quadword containing this time. A positive-time value represents an absolute time, while a negative time value indicates a delta time.
If you do not specify timadr, $NUMTIM returns the current system time.
If timadr specifies the value 0, $NUMTIM returns the base date (November 17, 1858).
Condition Values Returned