The disk "/dev/sdf" has a size of 290GB, that part should be obvious.
The other disk "/dev/sdh" was not yet partitioned. A disk drive has to be written with some low-level information prior to be used by an operating system. This is the "partitioning" first, which divides the disk in one or more logical "disks" - partitions. Only after partitioning these logical disks can be used to store filesystems on them. Storing the file system information is called "formatting".
Think of a disk like a bare storage room: to actually store something in it you first have to build some shelves, on which to store the goods you want to store, probably prepare a list where you can enter all the things you stored and the place they are at to find them again, etc.. Formatting is like building these shelves and the list. It is preparing the storage room for actually storing goods there.
Hi,
Can we modify the GDB source code so as to analyze core dumps from different targets? From my analysis, I think we need to build our section table statically for each target. i.e., including the various address boundaries in build_section_table() function. If this is the case, then the GDB... (2 Replies)
hi you all!
I can write a network program to send and receive some messages. I use
read() and write() functions for extracting of sending messages via a given socket. By doing so, i know only the actions performed at the application layer of the TCP/IP suite. But i want to control the actual... (2 Replies)
Hi,
Recently I faced with need of analyze root disk. I figured out two possible ways to do it:
1. Practical. Boot from CD and run format
2. Theoretical. Create live upgrade boot environment on another disk, activate it, reboot, unmont all root disk partitions and run format.
I've already... (3 Replies)
Hello there,
i am trying to write a shell script to analyse some of my log files.
I want the script to check if there is a logfile from yesterday or today (some times the script that creates the logfile takes a bit longer and its after 00:00) and search the logfile itself if the script was... (0 Replies)
Dear All,
I am new to this forum. This is my first.
I am facing customer issue. Customer has got core file while running the server.
He had sent core file and details from pstack, pmap and pldd commands.
I have to debug this application, please help me to fix this issue.
I am using sparc... (1 Reply)
Dear All,
I am new to this forum. This is my first.
I am facing customer issue. Customer has got core file while running the server.
He had sent core file and details from pstack, pmap and pldd commands.
I have to debug this application, please help me to fix this issue.
I am using sparc 10... (4 Replies)
Hi all,
I'm working with a peice of software that runs on Linux that allows planning trips in cars through maps. This software has different variations depending on the type of car, e.g. BMW, Audi, Hyundai, etc... Each variation has a dependency on common external components that are not... (1 Reply)
Hello,
MBR partition table made by linux fdisk looks certainly not correct when printed by openbsd fdisk:
Partition table created on linux (centos 6.3):
# fdisk -l /dev/sdc
Disk /dev/sdc: 10.7 GB, 10737418240 bytes
255 heads, 63 sectors/track, 1305 cylinders
Units = cylinders of 16065 *... (2 Replies)
Hi All,
When can we see these messages in the syslog.
We have service guard cluster software installed on hpux 11iv3 servers.
We were able to see the below error so many times in our syslog messages
cmdisklockd: Unable to convert device to I/O tree node: I/O tree node does not exist.
... (2 Replies)
Discussion started by: Sachin1987
2 Replies
LEARN ABOUT REDHAT
hd
HD(4) Linux Programmer's Manual HD(4)NAME
hd - MFM/IDE hard disk devices
DESCRIPTION
The hd* devices are block devices to access MFM/IDE hard disk drives in raw mode. The master drive on the primary IDE controller (major
device number 3) is hda; the slave drive is hdb. The master drive of the second controller (major device number 22) is hdc and the slave
hdd.
General IDE block device names have the form hdX, or hdXP, where X is a letter denoting the physical drive, and P is a number denoting the
partition on that physical drive. The first form, hdX, is used to address the whole drive. Partition numbers are assigned in the order
the partitions are discovered, and only non-empty, non-extended partitions get a number. However, partition numbers 1-4 are given to the
four partitions described in the MBR (the `primary' partitions), regardless of whether they are unused or extended. Thus, the first logi-
cal partition will be hdX5. Both DOS-type partitioning and BSD-disklabel partitioning are supported. You can have at most 63 partitions
on an IDE disk.
For example, /dev/hda refers to all of the first IDE drive in the system; and /dev/hdb3 refers to the third DOS `primary' partition on the
second one.
They are typically created by:
mknod -m 660 /dev/hda b 3 0
mknod -m 660 /dev/hda1 b 3 1
mknod -m 660 /dev/hda2 b 3 2
...
mknod -m 660 /dev/hda8 b 3 8
mknod -m 660 /dev/hdb b 3 64
mknod -m 660 /dev/hdb1 b 3 65
mknod -m 660 /dev/hdb2 b 3 66
...
mknod -m 660 /dev/hdb8 b 3 72
chown root:disk /dev/hd*
FILES
/dev/hd*
SEE ALSO mknod(1), chown(1), mount(8), sd(4)Linux 1992-12-17 HD(4)