Before you can create a UFS file system on a disk, the disk must be formatted and divided into slices. A disk slice is a physical subset of a disk that is composed of a single range of contiguous blocks. A slice can be used either as a raw device that provides, for example, swap space, or to hold a disk-based file system. See Chapter 10, Managing Disks (Overview) for complete information on formatting disks and dividing disks into slices.
Disk and storage management products, such as Solaris Volume Manager, create more sophisticated volumes. Volumes expand beyond single-slice or single-disk boundaries. For more information about using volumes, see Solaris Volume Manager Administration Guide.
Solaris device names use the term slice (and the letter s in the device name) to refer to the slice number. Slices are also called partitions.
You need to create UFS file systems only occasionally, because the Oracle Solaris OS automatically creates them as part of the installation process. You need to create (or re-create) a UFS file system when you want to do the following:
Add or replace disks
Change the existing partitioning structure of a disk
Fully restore of a file system
The newfs command is the standard way to create UFS file systems. The newfs command is a convenient front end to the mkfs command, which actually creates the new file system. The newfs command reads parameter defaults, such as tracks per cylinder and sectors per track, from the label for the disk that will contain the new file system. The options you choose are passed to the mkfs command to build the file system.
For information about the default parameters that are used by the newfs command, see newfs(1M).
Ensure that you have met the following prerequisites:
The disk must be formatted and divided into slices.
If you are re-creating an existing UFS file system, unmount it.
You need to know the device name of the slice that will contain the file system.
For information on finding disks and disk slice numbers, see Chapter 11, Administering Disks (Tasks).
For information on formatting disks and dividing disks into slices, see Chapter 10, Managing Disks (Overview).
You must be superuser or assume an equivalent role.
Create the UFS file system.
# newfs [-N] [-b size] [-i bytes] /dev/rdsk/device-name |
Displays what parameters the newfs command would pass to the mkfs command without actually creating the file system. This option is a good way to test the newfs command.
Specifies the block size for the file system, either 4096 or 8192 bytes per block. The default is 8192.
Specifies the number of bytes per inode. The default varies depending on the disk size. For more information, see newfs(1M).
Specifies the disk device name on which to create the new file system.
The system asks for confirmation.
Be sure you have specified the correct device name for the slice before performing this step. If you specify the wrong slice, you will erase its contents when the new file system is created. This error might cause the system to panic.
To verify the creation of the UFS file system, check the new file system.
# fsck /dev/rdsk/device-name |
where device-name argument specifies the name of the disk device that contains the new file system.
The fsck command checks the consistency of the new file system, reports any problems, and prompts you before it repairs the problems. For more information on the fsck command, see Chapter 21, Checking UFS File System Consistency (Tasks) or fsck(1M).
The following example shows how to create a UFS file system on /dev/rdsk/c0t1d0s7.
# newfs /dev/rdsk/c0t1d0s7 /dev/rdsk/c0t1d0s7: 725760 sectors in 720 cylinders of 14 tracks, 72 sectors 354.4MB in 45 cyl groups (16 c/g, 7.88MB/g, 3776 i/g) super-block backups (for fsck -F ufs -o b=#) at: 32, 16240, 32448, 48656, 64864, 81072, 97280, 113488, 129696, 145904, 162112, 178320, 194528, 210736, 226944, 243152, 258080, 274288, 290496, 306704, 322912, 339120, 355328, 371536, 387744, 403952, 420160, 436368, 452576, 468784, 484992, 501200, 516128, 532336, 548544, 564752, 580960, 597168, 613376, 629584, 645792, 662000, 678208, 694416, 710624, fsck /dev/rdsk/c0t1d0s7 # |
To mount the UFS file system and make it available, go to Chapter 18, Mounting and Unmounting File Systems (Tasks).
Support for a multiterabyte UFS file system assumes the availability of multiterabyte LUNs, provided as Solaris Volume Manager or VxVM volumes, or as physical disks greater than 1 terabyte.
Before you can create a multiterabyte UFS file system, verify that you have done either of the following:
Created a multiterabyte disk partition by using the format utility or the Solaris installation utilities
Set up a multiterabyte volume with Solaris Volume Manager
For more information about multiterabyte UFS file systems, see 64-bit: Support of Multiterabyte UFS File Systems.
Become superuser.
Create a multiterabyte UFS file system on a logical volume.
For example, this command creates a UFS file system for a 1.8 terabyte volume:
# newfs /dev/md/rdsk/d99 newfs: construct a new file system /dev/md/rdsk/d99: (y/n)? y /dev/md/rdsk/d99: 3859402752 sectors in 628158 cylinders of 48 tracks, 128 sectors 1884474.0MB in 4393 cyl groups (143 c/g, 429.00MB/g, 448 i/g) super-block backups (for fsck -F ufs -o b=#) at: 32, 878752, 1757472, 2636192, 3514912, 4393632, 5272352, 6151072, 702... Initializing cylinder groups: ........................................................................ super-block backups for last 10 cylinder groups at: 3850872736, 3851751456, 3852630176, 3853508896, 3854387616, 3855266336, 3856145056, 3857023776, 3857902496, 3858781216, # |
Verify the integrity of the newly created file system.
For example:
# fsck /dev/md/rdsk/d99 ** /dev/md/rdsk/d99 ** Last Mounted on ** Phase 1 - Check Blocks and Sizes ** Phase 2 - Check Pathnames ** Phase 3 - Check Connectivity ** Phase 4 - Check Reference Counts ** Phase 5 - Check Cyl groups 2 files, 2 used, 241173122 free (0 frags, 241173122 blocks, 0.0% fragmentation) # |
Mount and verify the newly created file system.
For example:
# mount /dev/md/dsk/d99 /bigdir # df -h /bigdir Filesystem size used avail capacity Mounted on /dev/md/dsk/d99 1.8T 64M 1.8T 1% /bigdir |
After a multiterabyte UFS file system is created, you can use the growfs command to expand the file system. For example, using the file system that was created for the volume in the preceding procedure, you can add another disk to this volume. Then, expand the file system.
Become superuser.
Add another disk to the volume.
For example:
# metattach d99 c4t5d0s4 d99: component is attached # metastat d99: Concat/Stripe Size: 5145882624 blocks (2.4 TB) Stripe 0: Device Start Block Dbase Reloc c0t1d0s4 36864 Yes Yes Stripe 1: Device Start Block Dbase Reloc c3t7d0s4 0 No Yes Stripe 2: Device Start Block Dbase Reloc c1t1d0s4 0 No Yes Stripe 3: Device Start Block Dbase Reloc c4t5d0s4 0 No Yes |
Expand the file system.
For example:
# growfs -v /dev/md/rdsk/d99 /usr/lib/fs/ufs/mkfs -G /dev/md/rdsk/d99 5145882624 /dev/md/rdsk/d99: 5145882624 sectors in 837546 cylinders of 48 tracks, 128 sectors 2512638.0MB in 5857 cyl groups (143 c/g, 429.00MB/g, 448 i/g) super-block backups (for fsck -F ufs -o b=#) at: 32, 878752, 1757472, 2636192, 3514912, 4393632, 5272352, 6151072, 702... Initializing cylinder groups: ......................................................................... super-block backups for last 10 cylinder groups at: 5137130400, 5138009120, 5138887840, 5139766560, 5140645280, 5141524000, 5142402720, 5143281440, 5144160160, 5145038880, # |
Mount and verify the expanded file system.
For example:
# mount /dev/md/dsk/d99 /bigdir # df -h /bigdir Filesystem size used avail capacity Mounted on /dev/md/dsk/d99 2.4T 64M 2.4T 1% /bigdir |
Use the following procedure to expand a UFS file system to greater than 1 terabyte in size. This procedure assumes that the newfs -T option was used initially to create the UFS file system.
Become superuser.
Identify the size of the current disk or volume.
For example, the following volume is 800 gigabytes:
# metastat d98 d98: Concat/Stripe Size: 1677754368 blocks (800 GB) Stripe 0: Device Start Block Dbase Reloc c0t1d0s4 0 No Yes Stripe 1: Device Start Block Dbase Reloc c3t7d0s4 0 No Yes |
Increase the volume to greater than 1 terabyte.
For example:
# metattach d98 c1t1d0s4 d98: component is attached # metastat d98 d98: Concat/Stripe Size: 2516631552 blocks (1.2 TB) Stripe 0: Device Start Block Dbase Reloc c0t1d0s4 0 No Yes Stripe 1: Device Start Block Dbase Reloc c3t7d0s4 0 No Yes Stripe 2: Device Start Block Dbase Reloc c1t1d0s4 0 No Yes |
Expand the UFS file system for the disk or volume to greater than 1 terabyte.
For example:
growfs -v /dev/md/rdsk/d98 /usr/lib/fs/ufs/mkfs -G /dev/md/rdsk/d98 2516631552 /dev/md/rdsk/d98: 2516631552 sectors in 68268 cylinders of 144 tracks, 256 sectors 1228824.0MB in 2731 cyl groups (25 c/g, 450.00MB/g, 448 i/g) super-block backups (for fsck -F ufs -o b=#) at: 32, 921888, 1843744, 2765600, 3687456, 4609312, 5531168, 6453024, 737... 8296736, Initializing cylinder groups: ...................................................... super-block backups for last 10 cylinder groups at: 2507714848, 2508636704, 2509558560, 2510480416, 2511402272, 2512324128, 2513245984, 2514167840, 2515089696, 2516011552, |
Mount and verify the expanded file system.
For example:
# mount /dev/md/dsk/d98 /datadir # df -h /datadir Filesystem size used avail capacity Mounted on /dev/md/dsk/d98 1.2T 64M 1.2T 1% /datadir |
Use the following error messages and solutions to troubleshoot problems with multiterabyte UFS file systems.
mount: /dev/rdsk/c0t0d0s0 is not this fstype. |
You attempted to mount a UFS file system that is greater than 1 terabyte on a system running a Solaris release that does not support this feature.
Mount a UFS file system that is greater than 1 terabyte on a system running a current Solaris release.
"File system was not set up with the multi-terabyte format." "Its size cannot be increased to a terabyte or more." |
You attempted to expand a file system that was not created by using the newfs -T command.
Back up the data for the file system that you want to expand to greater than 1 terabyte.
Re-create the file system by using the newfs command to create a multiterabyte file system.
Restore the backup data into the newly created file system.