Installing a Unix Disk in Java

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Installing a Unix Disk
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These files also have different syntax on different machines. The eventual standard which most systems comply with (SunOS, HPUX, OSF1) is
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# # SunOS 4* / Solaris 1 #/dev/sdOa / 4.2 rw 1 1 /dev/sdOg /usr 4 . 2 rw 1 2 # NFS gluino:/site/gluino/pc /site/gluino/pc proton:/var/spool/mail /var/spool/mail proton:/site/proton/ul /site/proton/ul proton:/site/proton/u2 /site/proton/u2
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nfs nfs nfs nfs
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# # HPUX # /dev/dsk/c201d6sO /site/hope/disk /dev/dsk/c201d5sO proton:/site/proton/fys /site/proton/fys proton:/usr/spool/mail /usr/mail /site/proton/u1 proton:/site/proton/u1 proton:/site/proton/u2 /site/proton/u2 polaron:/site/polaron/ul/site/polaron/ul
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The syntax of the command is mount file system directory type (options)
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hfs defaults 0 1 hfs defaults 0 2 nfs rw,nosuid 0 0 nfs rw,suid 0 0 nfs rw,suid 0 0 nfs rw, suid 0 0 nfs rw, suid 0 0
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There are two main types of file system-a disk file system (called ufs, hfs, etc.) (which means a physical disk) and the NFS network file system. If we mount a 4.2 file system it means that it is, by definition, a local disk on our system and is described by some logical device name like /dev/something. If we mount an NFS file system, we must specify the name of the file system and the name of the host to which the physical disk is attached. Here are some examples, using the SunOS file system list above: mount mount mount mount -a -at nfs -at 4 . 2 /var/spool/mail #mount all in fstab # mount all in fstab which are type nfs # mount all in fstab which are type 4 . 2 # mount only this fs with options given # in fstab
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(The -t option does not work on all Unix implementations.) Of course, we can type the commands manually too, if there is no entry in the file system table. For example, to mount an nfs file system on machine 'wigner' called /site/wigner/local so that it appears in our file system at /mounted/wigner, we would write mount wigner :/site/wigner/local /mounted/wigner The directory /mounted/wigner must exist for this to work. If it contains files, then these files will no longer be visible when the file system is mounted on top of it, but they are not destroyed. Indeed, if we then unmount using umount /mounted/wigner
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Host Management
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(the spelling umount is correct) then the files will reappear again. Some implementations of NFS allow file systems to be merged at the same mount point, so that the user sees a mixture of all the file systems mounted at the same point. 4.6.2 Disk Partition Device Names
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The convention for naming disk devices in BSD and system 5 Unix differs. Let us take SCSI disks as an example. Under BSD, the SCSI disks have names according to the following scheme: /dev/sd0a /dev/sdOb /dev/sdlc First partition of disk 0 of the standard disk controller. This is normally the root file system /. Second partition of disk 0 on the standard disk controller. This is normally used for the swap area, Third partition of disk 1 on the standard disk controller. This partition is usually reserved to span the entire disk, as a reminder of how large the disk is.
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System 5 Unix employs a more complex, but also more general, naming scheme. Here is an example from Solaris 2:
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/dev/dsk/cOt3dOsO /dev/dsk/c It Id0s4 Disk controller 0, target (disk) 3, device 0, segment (partition) 0 Disk controller 1, target (disk) 1, device 0, segment (partition) 4
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Not all systems distinguish between target and device. On many systems you will find only t or d, but not both.
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Kernel Customization
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The operating system kernel is that most important part of the system, it drives the hardware of the machine and shares it between multiple processes. If the kernel does not work well, the system as a whole will not work well. The main reason for making changes to the kernel is to fix bugs and to upgrade system software; performance gains can also be achieved, however, if one is patient. We shall return to the issue of performance again in section 7.7. Kernel configuration varies widely between operating systems. Some systems require kernel modification for every miniscule change, while others live quite happily with the same kernel unless major changes are made to the hardware of the host. Until quite recently, most operating system kernels were statically compiled programs which were specially built for each host. Even today, many of these operating systems still exist and flourish, but static programs are inflexible and the current trend is to replace them with software configurable systems which can be manipulated without the need to recompile the kernel. System V Unix has blazed the trail of adaptable, configurable kernels, in its quest to build an operating system which will scale from laptops to mainframes. It introduces