This chapter describes the format utility's menus and commands.
This is a list of the reference information in this chapter.
For a overview of when to use the format utility, see format Utility.
You must be superuser or have assumed an equivalent role to use the format utility. Otherwise, the following error message is displayed when you try to use the format utility:
$ format Searching for disks...done No permission (or no disks found)! |
Keep the following guidelines in mind when you use the format utility and want to preserve the existing data:
Back up all files on the disk drive.
Save all your defect lists in files by using the format utility's dump command. The file name should include the drive type, model number, and serial number.
Save the paper copies of the manufacturer's defect list that was shipped with your drive.
The format main menu appears similar to the following:
FORMAT MENU: disk - select a disk type - select (define) a disk type partition - select (define) a partition table current - describe the current disk format - format and analyze the disk fdisk - run the fdisk program (x86 only) repair - repair a defective sector label - write label to the disk analyze - surface analysis defect - defect list management backup - search for backup labels verify - read and display labels save - save new disk/partition definitions inquiry - show vendor, product and revision volname - set 8-character volume name !<cmd> - execute <cmd>, then return quit format> |
The following table describes the main menu items for the format utility.
Table 16–1 The Main Menu Item Descriptions for the format Utility
Menu Item |
Command or Menu? |
Description |
---|---|---|
disk |
Command |
Lists all of the system's drives. Also lets you choose the disk you want to use in subsequent operations. This disk is referred to as the current disk. |
type |
Command |
Identifies the manufacturer and model of the current disk. Also displays a list of known drive types. Choose the Auto configure option for all SCSI-2 disk drives. |
partition |
Menu |
Creates and modifies slices. For more information, see partition Menu. |
current |
Command |
Displays the following information about the current disk:
|
format |
Command |
Formats the current disk by using one of these sources of information in this order:
This command does not apply to IDE disks. IDE disks are preformatted by the manufacturer. |
fdisk |
Menu |
x86 platform only: Runs the fdisk program to create a Solaris fdisk partition. The fdisk command cannot be used on disks with an EFI label that are greater than 1 terabyte in size. |
repair |
Command |
Repairs a specific block on the current disk. |
label |
Command |
Writes a new label to the current disk. |
analyze |
Menu |
Runs read, write, and compare tests. For more information, see analyze Menu. |
defect |
Menu |
Retrieves and displays defect lists. For more information, see defect Menu. This feature does not apply to IDE disks. IDE disks manage defects automatically. |
backup |
Command |
VTOC – Searches for backup labels. EFI – Not supported. |
verify |
Command |
Displays the following information about the current disk:
|
save |
Command |
VTOC – Saves new disk and partition information. EFI – Not applicable. |
inquiry |
Command |
SCSI disks only – Displays the vendor, product name, and revision level of the current drive. |
volname |
Command |
Labels the disk with a new eight-character volume name that you specify. |
quit |
Command |
Exits the format menu. |
The partition menu appears similar to the following:
format> partition PARTITION MENU: 0 - change `0' partition 1 - change `1' partition 2 - change `2' partition 3 - change `3' partition 4 - change `4' partition 5 - change `5' partition 6 - change `6' partition 7 - change `7' partition select - select a predefined table modify - modify a predefined partition table name - name the current table print - display the current table label - write partition map and label to the disk quit partition> |
The following table describes the partition menu items.
Table 16–2 Descriptions for partition Menu Items
The fdisk menu appears on x86 based systems only and appears similar to the following.
format> fdisk Total disk size is 14169 cylinders Cylinder size is 2510 (512 byte) blocks Cylinders Partition Status Type Start End Length % ========= ====== ============ ===== === ====== === 1 Active x86 Boot 1 9 9 0 2 Solaris2 10 14168 14159 100 SELECT ONE OF THE FOLLOWING: 1. Create a partition 2. Specify the active partition 3. Delete a partition 4. Change between Solaris and Solaris2 Partition IDs 5. Exit (update disk configuration and exit) 6. Cancel (exit without updating disk configuration) Enter Selection: |
The following table describes the fdisk menu items.
Table 16–3 x86: Descriptions for fdisk Menu Items
Menu Item |
Description |
---|---|
Create a partition |
Creates an fdisk partition. You must create a separate partition for each OS such as Solaris or DOS. There is a maximum of four partitions per disk. You are prompted for the size of the fdisk partition as a percentage of the disk. |
Specify the active partition |
Enables you to specify the partition to be used for booting. This menu item identifies where the first stage boot program looks for the second stage boot program. |
Delete a partition |
Deletes a previously created partition. This command destroys all the data in the partition. |
Change between Solaris and Solaris2 Partition IDs |
Changes partition IDs from 130 (0x82) to 191 (0xbf) and back again. |
Exit (update disk configuration and exit) |
Writes a new version of the partition table and exits the fdisk menu. |
Cancel (exit without updating disk configuration) |
Exits the fdisk menu without modifying the partition table. |
The analyze menu appears similar to the following.
format> analyze ANALYZE MENU: read - read only test (doesn't harm SunOS) refresh - read then write (doesn't harm data) test - pattern testing (doesn't harm data) write - write then read (corrupts data) compare - write, read, compare (corrupts data) purge - write, read, write (corrupts data) verify - write entire disk, then verify (corrupts data) print - display data buffer setup - set analysis parameters config - show analysis parameters quit analyze> |
The following table describes the analyze menu items.
Table 16–4 Descriptions for analyze Menu Items
The defect menu appears similar to the following:
format> defect DEFECT MENU: primary - extract manufacturer's defect list grown - extract manufacturer's and repaired defects lists both - extract both primary and grown defects lists print - display working list dump - dump working list to file quit defect> |
The following table describes the defect menu items.
Table 16–5 The defect Menu Item Descriptions
Subcommand |
Description |
---|---|
primary |
Reads the manufacturer's defect list from the disk drive and updates the in-memory defect list. |
grown |
Reads the grown defect list and then updates the in-memory defect list. Grown defects are defects that have been detected during analysis. |
both |
Reads both the manufacturer's defect list and the grown defect list. Then, updates the in-memory defect list. |
|
Displays the in-memory defect list. |
dump |
Saves the in-memory defect list to a file. |
quit |
Exits the defect menu. |
The format.dat file that is shipped with the Solaris OS supports many standard disks. If your disk drive is not listed in the format.dat file, you can do the following:
Add an entry to the format.dat file for the disk.
Add entries with the format utility by selecting the type command and choosing the other option.
Adding an entry to the format.dat file can save time if the disk drive will be used throughout your site. To use the format.dat file on other systems, copy the file to each system that will use the specific disk drive that you added to the format.dat file.
You might need to modify the /etc/format.dat file for your system if you have one of the following:
A disk that is not supported by the Solaris OS
A disk with a partition table that is different from the Solaris OS's default configuration
Do not alter default entries in the /etc/format.dat file. If you want to alter the default entries, copy the entry, give the entry a different name, and make the appropriate changes to avoid confusion.
The /etc/format.dat is not applicable for disks with EFI labels.
The format.dat contains disk drive information that is used by the format utility. Three items are defined in the format.dat file:
Search paths
Disk types
Slice tables
The following syntax rules apply to the /etc/format.dat file:
The pound sign (#) is the comment character. Any text on a line after a pound sign is not interpreted by the format utility.
Each definition in the format.dat file appears on a single logical line. If the definition is longer than one line long, all lines but the last line of the definition must end with a backslash (\).
A definition consists of a series of assignments that have an identifier on the left side and one or more values on the right side. The assignment operator is the equal sign (=). The assignments within a definition must be separated by a colon (:).
White space is ignored by the format utility. If you want an assigned value to contain white space, enclose the entire value in double quotation marks ("). This syntax causes the white space within the quotes to be preserved as part of the assignment value.
Some assignments can have multiple values on the right side. Separate values by a comma.
The format.dat file contains disk definitions that are read by the format utility when it is started. Each definition starts with one of the following keywords: disk_type or partition. These keywords are described in the following table.
Table 16–6 Keyword Descriptions for the format.dat File
Keyword |
Description |
---|---|
disk_type |
Defines the controller and disk model. Each disk_type definition contains information that concerns the physical geometry of the disk. The default data file contains definitions for the controllers and disks that the Solaris OS supports. You need to add a new disk_type definition only if you have an unsupported disk. You can add as many disk_type definitions to the data file as you want. |
partition |
Defines a partition table for a specific disk type. The partition table contains the partition information, plus a name that lets you refer to it in the format utility. The default format.dat file contains default partition definitions for several kinds of disk drives. Add a partition definition if you recreated partitions on any of the disks on your system. Add as many partition definitions to the data file as you need. |
The disk_type keyword in the format.dat file defines the controller and disk model. Each disk_type definition contains information about the physical geometry of the disk. The default format.dat file contains definitions for the controllers and disks that the Solaris OS supports. You need to add a new disk_type only if you have an unsupported disk. You can add as many disk_type definitions to the data file as you want.
The keyword itself is assigned the name of the disk type. This name appears in the disk's label, and is used to identify the disk type whenever the format utility is run. Enclose the name in double quotation marks to preserve any white space in the name. The following table describes the identifiers that must also be assigned values in all disk_type definitions.
Table 16–7 Required disk_type Identifiers (format.dat)
Identifier |
Description |
---|---|
ctlr |
Identifies the controller type for the disk type. Currently, the supported values are SCSI and ATA. |
ncyl |
Specifies the number of data cylinders in the disk type. This determines how many logical disk cylinders the system will be allowed to access. |
acyl |
Specifies the number of alternate cylinders in the disk type. These cylinders are used by the format utility to store information such as the defect list for the drive. You should always reserve at least two cylinders for alternates. |
pcyl |
Specifies the number of physical cylinders in the disk type. This number is used to calculate the boundaries of the disk media. This number is usually equal to ncyl plus acyl. |
nhead |
Specifies the number of heads in the disk type. This number is used to calculate the boundaries of the disk media. |
nsect |
Specifies the number of data sectors per track in the disk type. This number is used to calculate the boundaries of the disk media. Note that this number includes only the data sectors. Any spares are not reflected in the number of data sections per track. |
rpm |
Specifies the rotations per minute of the disk type. This information is put in the label and later used by the file system to calculate the optimal placement of file data. |
Other identifiers might be necessary, depending on the controller. The following table describes the identifiers that are required for SCSI controllers.
Table 16–8 Required disk_type Identifiers for SCSI Controllers format.dat
Identifier |
Description |
---|---|
fmt_time |
Specifies a number that indicates how long it takes to format a given drive. See the controller manual for more information. |
cache |
Specifies a number that controls the operation of the on-board cache while the format utility is operating. See the controller manual for more information. |
trks_zone |
Specifies a number that identifies how many tracks that exist per defect zone, to be used in alternate sector mapping. See the controller manual for more information. |
asect |
Specifies a number that identifies how many sectors are available for alternate mapping within a given defect zone. See the controller manual for more information. |
The following are examples of disk_type definitions:
disk_type = "SUN1.3G" \ : ctlr = SCSI : fmt_time = 4 \ : trks_zone = 17 : asect = 6 : atrks = 17 \ : ncyl = 1965 : acyl = 2 : pcyl = 3500 : nhead = 17 : nsect = 80 \ : rpm = 5400 : bpt = 44823 disk_type = "SUN2.1G" \ : ctlr = SCSI : fmt_time = 4 \ : ncyl = 2733 : acyl = 2 : pcyl = 3500 : nhead = 19 : nsect = 80 \ : rpm = 5400 : bpt = 44823 disk_type = "SUN2.9G" \ : ctlr = SCSI : fmt_time = 4 \ : ncyl = 2734 : acyl = 2 : pcyl = 3500 : nhead = 21 : nsect = 99 \ : rpm = 5400 |
A partition table in the format.dat file defines a slice table for a specific disk type.
The partition keyword in the format.dat file is assigned the name of the partition table. Enclose the name in double quotation marks to preserve any white space in the name. The following table describes the identifiers that must be assigned values in all partition tables.
Table 16–9 Required Identifiers for Partition Tables (format.dat)
Identifier |
Description |
---|---|
disk |
The name of the disk_type that this partition table is defined for. This name must appear exactly as it does in the disk_type definition. |
ctlr |
The disk controller type that this partition table can be attached to. Currently, the supported values are ATA for ATA controllers and SCSI for SCSI controllers. The controller type that is specified here must also be defined for the disk_type that you specified in the disk_type definition. |
The other identifiers in a slice definition describe the actual partition information. The identifiers are the numbers 0 through 7. These identifiers are optional. Any partition that is not explicitly assigned is set to 0 length. The value of each of these identifiers is a pair of numbers separated by a comma. The first number is the starting cylinder for the partition. The second is the number of sectors in the slice.
The following are some examples of slice definitions:
partition = "SUN1.3G" \ : disk = "SUN1.3G" : ctlr = SCSI \ : 0 = 0, 34000 : 1 = 25, 133280 : 2 = 0, 2672400 : 6 = 123, 2505120 partition = "SUN2.1G" \ : disk = "SUN2.1G" : ctlr = SCSI \ : 0 = 0, 62320 : 1 = 41, 197600 : 2 = 0, 4154160 : 6 = 171, 3894240 partition = "SUN2.9G" \ : disk = "SUN2.9G" : ctlr = SCSI \ : 0 = 0, 195426 : 1 = 94, 390852 : 2 = 0, 5683986 : 6 = 282, 5097708 |
The format utility determines the location of an alternate file by the following methods in this order:
If a file name is given with the format -x option, that file is always used as the data file.
If the -x option is not specified, then the format utility searches the current directory for a file named format.dat. If the file exists, it is used as the data file.
If neither of these methods yields a data file, the format utility uses the /etc/format.dat file as the data file. This file is shipped with the Solaris OS and should always be present.
When you use the format utility, you need to provide various kinds of information. This section describes the rules for this information. For information on using format's help facility when you specify data, see Getting Help on the format Utility.
Several places in the format utility require number as input. You must either specify the appropriate data or select a number from a list of choices. In either case, the help facility causes format to display the upper and lower limits of the number expected. Simply enter the appropriate number. The number is assumed to be in decimal format unless a base is explicitly specified as part of the number (for example, 0x for hexadecimal).
The following are examples of integer input:
Enter number of passes [2]: 34 Enter number of passes [34] Oxf |
Whenever you are required to specify a disk block number, there are two ways to do so:
Specify the block number as an integer
Specify the block number in the cylinder/head/sector format
You can specify the information as an integer that represents the logical block number. You can specify the number in any base, but the default is decimal. The maximum operator (a dollar sign, $) can also be used here so that format utility can select the appropriate value. Logical block format is used by the SunOS disk drivers in error messages.
The other way to specify a block number is by using cylinder/head/sector format. In this method, you must specify explicitly the three logical components of the block number: the cylinder, head, and sector values. These values are still logical. However, they allow you to define regions of the disk that are related to the layout of the media.
If any of the cylinder/head/sector numbers are not specified, the value is assumed to be zero. You can also use the maximum operator in place of any of the numbers. Then, the format utility will select the appropriate value. The following are some examples of cylinder, head, and sector values:
Enter defective block number: 34/2/3 Enter defective block number: 23/1/ Enter defective block number: 457// Enter defective block number: 12345 Enter defective block number: Oxabcd Enter defective block number: 334/$/2 Enter defective block number: 892//$ |
The format utility always displays block numbers in both formats. Also, the help facility shows you the upper and lower limits of the block number expected, in both formats.
Command names are needed as input whenever the format utility displays a menu prompt. You can abbreviate the command names, as long as what you type is sufficient to uniquely identify the command desired.
For example, use p to access the partition menu from the format menu. Then, type p to display the current slice table.
format> p PARTITION MENU: 0 - change `0' partition 1 - change `1' partition 2 - change `2' partition 3 - change `3' partition 4 - change `4' partition 5 - change `5' partition 6 - change `6' partition 7 - change `7' partition select - select a predefined table modify - modify a predefined partition table name - name the current table print - display the current table label - write partition map and label to the disk quit partition> p |
At certain points in the format utility, you must name something. In these cases, you are free to specify any string you want for the name. If the name has white space in it, the entire name must be enclosed in double quotation marks ("). Otherwise, only the first word of the name is used.
For example, if you want to identify a specific partition table for a disk, you can use the name subcommand that is available from the partition menu:
partition> name Enter table name (remember quotes): "new disk3" |
The format utility provides a help facility that you can use whenever the format utility is expecting input. You can request help about what input is expected by typing a question mark (?). The format utility displays a brief description of what type of input is needed.
If you type a ? at a menu prompt, a list of available commands is displayed.
The man pages associated with the format utility include the following:
format(1M) – Describes the basic format utility capabilities and provides descriptions of all command-line variables.
format.dat(4) – Describes disk drive configuration information for the format utility.