How To Reset Root Password In CentOS 7 – grub 2

The first step to reset the root password is boot the CentOS machine in emergency mode, and for this process, we’ll use rd.break.

Start the system and, on the GRUB 2 boot screen, press the ‘e’ key for edit:


Remove the rhgb and quiet parameters from the end, or near the end, of the linux16 line, or linuxefi on UEFI systems.


Add the following parameters at the end of the linux16 line on x86-64 BIOS-based systems, or the linuxefi line on UEFI systems: rd.break enforcing=0


When you finish, press ctrl + x to load the system. Finally you’ll boot in emergency mode.


After emergency mode booting, you must remount the filesystem as writable because it’s mounted read-only, so you just have to type the following command:

mount -o remount,rw /sysroot

Now change the file system’s root as follows: chroot /sysroot

Finally, you’ll get a chroot environment ready to reset the password. Probably you know the command to set a user password, but if don’t, let me explain it.

The way to set a password is easy just type passwd user_name

user_name isn’t necessary if you’re logged in the session, so for this tutorial, you must type only “passwd


If the system is not writable, the passwd tool fails with the following error:

Authentication token manipulation error

Updating the password file results in a file with the incorrect SELinux security context, because SELinux is a Linux kernel security module that provides a mechanism for supporting access control security policies, to relabel all files on next system boot, enter the following command:

touch /.autorelabel

But I have to tell you something, relabel a large disk takes a long time, so you can omit this step provided you included the enforcing=0 option.

Now you must remount the filesystem as read only using the following command:

mount -o remount,ro /

Now exit from chroot environment and exit to finish the system boot (just type exit two times).


If you omitted to relabel files enter the following command to restore the /etc/shadow file’s SELinux security context:

restorecon /etc/shadow

Enter the following commands to turn SELinux policy enforcement back on and verify that it is on:

setenforce 1


That’s all friends. The process to reset the root password isn’t hard and this isn’t the only way to do it. Also, you can use an installation disk or maybe a live Linux cd of another distro.


How to uncover malicious code/malware files

An unfortunate side-effect of being online is the fact that you are continually being probed for weaknesses by ne'er do wells. Be it your computer, your internet provider, or your website, someone is almost always trying to find a way in to further their illicit goals, and give you a pretty massive headache as a result. While this article will not be able to teach you everything, it will serve to give you a solid base of skills to use when troubleshooting your own sites.

Find, Grep & Stat

These three commands can easily uncover most kinds of malicious code and can often help point you towards the source of the attack, if they’re used properly. I will break down how to use each command separately, and then later how they can be used in concert.


The Linux manual defines this command as a utility that “recursively descends the directory tree for each path listed, evaluating an expression in terms of each file in the tree.”

Simply put, the Find utility lets you search an area to look for files or folders as defined by a number of variables, such as by name, by owner, by time modified, etc.

For example, to search the directory “/home/mywebsite” for a file called foobar.txt, you can run the following command:

find /home/mywebsite -type f -name "foobar.txt"

This should return the following:


If you want to find a list of files in that same “/home/mywebsite” directory that have been changed in the last 7 days, you can run the following command:

find /home/mywebsite -type f -ctime -7

The (-7) after ctime means files changed within 7 days or less. if that was changed to a plus (+) symbol, it would mean any files changed a minimum or 7 days or longer.

Here is a more complex example: To find a list of all files inside “/home/mywebsite” with the extension .php that have been changed within 30 days, you can run the following command:

find /home/mywebsite -type f -name "*.php" -ctime -30

There are more commands that ‘find’ can handle. If you want to know more, see the manual page by typing “man find” in SSH.


The Linux manual defines this command as a utility that “searches the named input FILEs (or standard input if no files are named, or the file name – is given) for lines containing a match to the given PATTERN. By default, grep prints the matching lines.”

Essentially, the grep utility lets you search files for a matching text pattern.

‘Grep’ is one of the greatest commands for finding malicious files, but it can also turn up a lot of false-positives. The following are the very basics of the command. These examples will be searching in the “/home/mywebsite” directory.

For example, to find the phrase “hello world”, located in a file somewhere inside that directory, you can run the following command:

grep -r "hello world" /home/mywebsite

If there was a file that contains that phrase, ‘grep’ will post the path to the file, and the line containing the matching text:

/home/mywebsite/foo/bar/hello.txt:			hello world!

Please note that grep searches are case-sensitive. To ignore case-sensitivity, use the ‘-i’ flag

For more information, see the manual page for grep by typing ‘man grep’ in SSH.


The Linux manual defines this command as a utility that is used to “display file or filesystem status.”

To expand on this, the stat utility is used to display permissions, ownership and various timestamps of a file.

To see an example of the ‘stat’ command output, let’s take a look at that file we found earlier via the ‘find’ command, “/home/mywebsite/folder/another-folder/foobar.txt”:

stat /home/mywebsite/folder/another-folder/foobar.txt

File: `home/mywebsite/folder/another-folder/foobar.txt'
Size: 19043     	Blocks: 39         IO Block: 32768  regular file
Device: 17h/23d	Inode: 140209072   Links: 1
Access: (0644/-rw-r--r--)  Uid: (841608/mywebsite-user)   Gid: (88432/mywebsite-user)
Access: 2011-10-22 21:10:09.106667057 -0700
Modify: 2011-11-14 15:14:19.493663971 -0800
Change: 2011-11-14 15:14:19.494043373 -0800

The line with “Access/Uid/Gid” simply lays out the read/write/execute permissions of the file, and who owns it in user and group. The last three lines deal with the time-stamp of the file. “Access” normally refers to when it was first created, or last written to. “Modify” refers to the last time the file changed permissions, or was renamed (among other things). “Change” refers to the last time the actual contents of the file were modified.

Many malicious scripts are able to keep the access and modify time-stamps unchanged, but the change time-stamp will always reflect that someone has been inside the file. If a file has been modified via FTP, all three time-stamps will be changed to the same date.

Finding malicious code


Base64 code is often seen in attacked sites. Typically the attacker’s script will inject the code into either the first or last line in a file, and can sometimes be painfully obvious to find. The ‘grep’ command is most useful for this, though as mentioned it does show a lot of false-positives. The following are commond patterns you can use to find base64-related activity:

  • base64_decode
  • gzinflate(base64_decode
  • eval(gzinflate(base64_decode
  • eval(base64_decode

The following is an example of Base64 encoding:

<?php eval(base64_decode(

echo("Hello world, I am testing my website!");


There are legitimate uses for base64. For example, plugin authors who are trying to hide their code and people who want to embed an image directly into a CSS file. You will need to take your ‘grep’ results, and compare them against known clean versions of those files.


JavaScript injections are most often seen in HTML files or in the header/footer of some PHP files, and they can sometimes be overlooked at first glance. Often the code will have a link to a country-code based URL (for example,, .ru, .br, etc.). Here is a rough example of what malicious JavaScript code can look like:

<script src="">

As JavaScript is commonly used, a ‘grep’ for “<script src” is going to be too broad. If possible, find the malicious URL and run a ‘grep’ command for the referenced URL.

How to Reset Forgotten Root Password in RHEL/CentOS and Fedora

In this post will guide you simple steps to reset forgotten root password in RHEL, CentOS and Fedora Linux with example. There are various ways to reset root password which are.

  1. Booting into single user mode.
  2. Using boot disk and edit passwd file.
  3. Mount drive to another system and change passwd file.


Here, in this article we are going to review “Booting into single user mode” option to reset forgotten root password.

Cautious: We urge to take backup of your data and try it out at your own risk.

STEP 1. Boot Computer and Interrupt while booting at GRUB stage hitting ‘arrow‘ keys or “space bar“.


booting at GRUB

STEP 2. Type ‘a‘ to modify kernel argument. Anytime you can cancel typing ‘ESC‘ key.

modify kernel argument

STEP 3. Append 1 at the end of “rhgb quiet” and press “Enter” key to boot into single user mode.

rhgb quiet

STEP 4. Type command “runlevel” to know the the runlevel where you are standing. Here “1 S” state that your are in a single user mode.


STEP 5. Type ‘passwd‘ command without username and press ‘Enter‘ key in command prompt. It’ll ask to supply new root password and re-type the same password for confirmation. “Your are Done” Congratulation!!!

supply new root password