Saturday, September 29, 2012

Unix Hacking Commands

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 *** A List Of Some OF The Most Useful UNIX **
     *** Hacking Commands, and Some Hints On Their Usage ***
      
---------------------------------------------------------------

     It is fun and often usefull to create a file that is owned
by someone else.  On most systems with slack security ie 99% of
all UNIX systems, this is quite easily done.  The chown command
will change any of your files to make someone else the owner.
Format is as follows:

chown ownername filelist

 Where ownername is the new owner, and filelist is the list of
files to change.  You must own the file which your are goin to
change, unless you are a superuser....then u can change ANYTHING!
     chgrp is a similar command which will change the group
ownership on a file.  If you are going to do both a chown and a
chgrp on a file, then make sure you do the chgrp first!  Once the
file is owned by someone else, you cant change nything about it!

---------------------------------------------------------------

     Sometimes just seeing who is on the system is a challenge in
itself.  The best way is to write your own version of who in C,
but if you can't do that then this may be of some help to you:

     who   followed by on or more of the following flags:

          -b Displays time sys as last booted.
          -H Precedes output with header.
          -l Lists lines waiting for users to logon.
          -q displays number of users logged on.
          -t displays time sys clock was last changed.
          -T displays the state field (a + indicates it is
possible to send to terminal, a - means u cannot)
          -u Give a complete listing of those logged on.

   **who -HTu is about the best choice for the average user**

##by the way, the list of users logged on is kept in the file
/etc/utmp.  If you want to write your own personalised version of
who in C, you now know where to look!###

---------------------------------------------------------------

     When a users state field (see -T flag option for who
command) says that a user has their message function on, this
actually means that it is possible to get stuff onto their
screen.
     Basically, every terminal on the system has a file
corresponding to it.  These files can be found in the /dev
directory.  You can to anything to these files, so long as you
have access -eg you can read them, and write to them, but you
will notice that they never change in size.  They are called
character specific files, and are really the link between the
system and the terminals.  Whatever you put in these files will
go staright to the terminal it corresponds to.
     Unfortunately, on most systems, when the user logs in, the
"mesg n" command is issued which turns off write access to that
terminal, BUT- if you can start cating to that terminal before
system issues the mesg n command, then you will continue to be
able to get stuff up on that terminal! This has many varied uses.

     Check out the terminal, or terminal software being used. 
Often you will be able to remotely program another users
terminal, simply by 'cating' a string to a users screen.  You
might be able to set up a buffer, capturing all that is typed, or
you may be able to send the terminal into a frenzy- (sometimes a
user will walk away without realizing that they are sill
effectively logged on, leaving you with access to their
account!).  Some terminal types also have this great command
called transmit screen. It transmits everything on the screen,
just as if the user had typed it !
     So just say I wanted to log off a user, then I would send a
clear screen command (usually ctrl l), followed by "exit"
followed by a carriage return, followed by the transmit screen
code.  Using ths technique you can wipe peoples directories or
anything.  My favourite is to set open access on all their files
and directories so I can peruse them for deletion etc at my own
leisure).           

---------------------------------------------------------------

     If you ever briefly get access to another persons account
eg. they leave the room to go to toilet or whatever, then simply
type the following:

chmod 777 $HOME
chmod 777 $MAIL

     Then clear the screen so they dont see what you just typed.

     Now you can go look at their directory, and their mail, and
you can even put mail in their mail file. (just use the same
format as any mail that is already there!). Next time they log in
the system will automatically inform them they have new mail!

---------------------------------------------------------------

     Another way to send fake mail to people is to use the mail
server.  This method produces mail that is slightly different to
normal, so anyone who uses UNIX a bit may be suspiscious when
they receive it, but it will fool the average  user!

type telnet

the following prompt will appear:

telnet>

now type :

open localhost 25

some crap will come up about the mail server..now type:

mail from: xxxxxx     Put any name you want.

some more bullshit will come up. Now type:

rcpt to: xxxxxx  Put the name of the person to receive mail here.

now type:

data

now you can type the letter...end it with a "."
type quit to exit once you are done.

-------------------------------------------------------------

     Heres one for any experimenters out there...
It is possible to create files which simply cannot be deleted
from the standard shell.  To do this you will have to physically
CREATE THE FILE USING A C PROGRAM or SCRIPT FILE, and you will
have to use a sequence of control characters which cannot be
typed from the shell.  Try things like Ctrl-h (this is the
code for the delete key).  Just a file with the name Ctrl-h would
not be deleteable from the shell, unless you used wildcards. So,
make it a nice long series of characters, so that to delete the
file, the user has no choice but to individually copy all his
files elsewhere, then delete everything in his directory, and
then copy all his files back.....this is one of my
favourites..gets em every time!
    
     The following script file is an example which will create a
file with the name Ctrl-h.  You MUST tyoe this file in using the
vi editor or similar.
*****If you are not very good with vi, type "man vi" and print the
help file...it even contains stuff that I find useful now and
then.*****

type the following in vi...

echo'' > 'a^h'

  ***NOTE...to get the ^h (this really means ctrl-h) from vi type:

Ctrl v
Ctrl h

  The Ctrl v instrcts vi to take the next character as a ascii
character, and not to interpret it.
     change the access on the file you just created and now
execute it.  It will create a file which looks like it is called
a, but try to delete it !..use wildcards if you really want to
delete it.

*> Title:   Tutorial on hacking through a UNIX system


**

In the following file, all references made to the name Unix, may also be
substituted to the Xenix operating system.

Brief history:  Back in the early sixties, during the development of
third generation computers at MIT, a group of programmers studying the
potential of computers, discovered their ability of performing two or
more tasks simultaneously.  Bell Labs, taking notice of this discovery,
provided funds for their developmental scientists to investigate into this
new frontier.  After about 2 years of developmental research, they produced
an operating system they called "Unix". 
Sixties to Current:  During this time Bell Systems installed the Unix system
to provide their computer operators with the ability to multitask so that
they could become more productive, and efficient.  One of the systems they
put on the Unix system was called "Elmos". Through Elmos many tasks (i.e.
billing,and installation records) could be done by many people using the same
mainframe.

Note: Cosmos is accessed through the Elmos system.

Current:  Today, with the development of micro computers, such multitasking
can be achieved by a scaled down version of Unix (but just as
powerful).  Microsoft,seeing this development, opted to develop their own
Unix like system for the IBM line of PC/XT's.  Their result they called
Xenix (pronounced zee-nicks).  Both Unix and Xenix can be easily installed
on IBM PC's and offer the same function (just 2 different vendors).

Note: Due to the many different versions of Unix (Berkley Unix,
Bell System III, and System V the most popular) many commands
following may/may not work. I have written them in System V routines.
Unix/Xenix operating systems will be considered identical systems below.

How to tell if/if not you are on a Unix system:  Unix systems are quite
common systems across the country. Their security appears as such:

Login;     (or login;)
password:

When hacking on a Unix system it is best to use lowercase because the Unix
system commands are all done in lower- case. Login; is a 1-8 character field. It is
usually the name (i.e. joe or fred) of the user, or initials (i.e. j.jones
or f.wilson).  Hints for login names can be found trashing the location of
the dial-up (use your CN/A to find where the computer is). Password: is a 1-8 character password assigned by the sysop or chosen by the user.
  
   Common default logins
   --------------------------
   login;       Password:
   root         root,system,etc..
   sys          sys,system
   daemon       daemon
   uucp         uucp
   tty          tty
   test         test
   unix         unix
   bin          bin
   adm          adm
   who          who
   learn        learn
   uuhost       uuhost
   nuucp        nuucp

If you guess a login name and you are not asked for a password, and have
accessed to the system, then you have what is known as a non-gifted account.
If you guess a correct login and pass- word, then you have a user account.
And, if you get the root p/w you have a "super-user" account.
All Unix systems have the following installed to their system:
root, sys, bin, daemon, uucp, adm Once you are in the system, you will
get a prompt. Common prompts are:

$
%
#

But can be just about anything the sysop or user wants it to be.

Things to do when you are in: Some of the commands that you may want to
try follow below:

who is on  (shows who is currently logged on the system.)
write name (name is the person you wish to chat with)
To exit chat mode try ctrl-D.
EOT=End of Transfer.
ls -a      (list all files in current   directory.)
du -a      (checks amount of memory  your files use;disk usage)
cd\name    (name is the name of the sub-directory you choose)
cd\        (brings your home directory  to current use)
cat name   (name is a filename either  a program or documentation  your username has written)
 Most Unix programs are written  in the C language or Pascal
 since Unix is a programmers'  environment. One of the first things done on the
system is print up or capture (in a buffer) the file containing all user names and accounts. This can be done by doing the following command:

cat /etc/passwd

If you are successful you will see a list of all accounts on the system.  It
should look like this: 
root:hvnsdcf:0:0:root dir:/: joe:majdnfd:1:1:Joe Cool:/bin:/bin/joe hal::1:2:Hal Smith:/bin:/bin/hal

The "root" line tells the following info :
login name=root
hvnsdcf   = encrypted password
0         = user group number
0         = user number
root dir  = name of user
/         = root directory

In the Joe login, the last part "/bin/joe " tells us which directory
is his home directory (joe) is. In the "hal" example the login name is
followed by 2 colons, that means that there is no password needed to get in
using his name.

Conclusion:  I hope that this file will help other novice Unix hackers
obtain access to the Unix/Xenix systems that they may find.



              On the Security of UNIX

              =-=-=-=-=-=-=-=-=-=-=-=

Recently there has been much interest in the security aspects of operating

systems and software.At issue is the ability to prevent undesired disclosure of

information, destruction of information,and harm to the functioning of the

system.This paper discusses the degree of security which can be provided under

the system and offers a number of hints on how to improve security.The first

fact to face is that UNIX was not developed with security,in any realistic

sense,in mind;this fact alone guarantees a vast number of holes.(Actually the

same statement can be made with respect to most systems.)



The area of security in which is theoretically weakest is in protecting against

crashing or at least crippling the operation of the system.The problem here is

not mainly in uncritical acceptance of bad parameters to system calls (there

may be bugs in this area, but none are known)but rather in lack of checks for

excessive consumption of resources.



Most notably, there is no limit on the amount of disk storage used, either in

total space allocated or in the number of files or directories.Here is a

particularly ghastly shell sequence guaranteed to stop the system:





while : ; do

    mkdir x

    cd x

done



Either a panic will occur because all the i-nodes on the device are used up,

or all the disk blocks will be consumed, thus preventing anyone from writing

files on the device.In this version of the system,users are prevented from

creating more than a set number of processes simultaneously,so unless users

are in collusion it is unlikely that any one can stop the system altogether.



However, creation of 20 or so CPU or disk-bound jobs leaves few resources

available for others.Also, if many large jobs are run simultaneously,swap space

may run out, causing a panic.  It should be evident that excessive consumption

of diskspace, files, swap space and processes can easily occur accidentally in

malfunctioning programs as well as at command level.In fact UNIX is essentially

defenseless against this kind of abuse,nor is there any easy fix.The best that

can be said is that it is generally fairly easy to detect what has happened

when disaster strikes ,to identify the user responsible, and take appropriate

action.In practice,we have found that difficulties in this area are rather

rare,but we have not been faced with malicious users,and enjoy a fairly

generous supply of resources which have served to cushion us against accidental

overconsumption.



The picture is considerably brighter in the area of protection of information

from unauthorized perusal and destruction.Here the degree of security seems

(almost) adequate theoretically, and the problems lie more in the necessity for

care in the actual use of the system.Each UNIX file has associated with it

eleven bits of protection information together with a user identification

number and a user-group identification number (UID and GID).



Nine of the protection bits are used to specify independently permission to

read, to write, and to execute the file to the user himself, to members of the

user's group, and to all other users.Each process generated by or for a user

has associated with it an effective UID and a real UID, and an effective and

real GID.When an attempt is made to access the file for reading, writing, or

executing UID for the process is changed to the UID associated with the file;

the change persists until the process terminates or until the UID changed again

by another execution of a set-UID file.Similarly the effective group ID of a

process is changed to the GID associated with a file when that file is executed

and has the set-GID bit set.The real UID and GID of a process do not change

when any file is executed,but only as the result of a privileged system

call.The basic notion of the set-UID and set-GID bits is that one may write a

program which is executableby others and which maintains files accessible to

others only by that program.



The classical example is the game-playing program which maintains records of

the scores of its players.The program itself has to read and write the score

file,but no one but the game's sponsor can be allowed unrestricted access to

the file lest they manipulate the game to their own advantage.



The solution is to turn on the set-UID bit of the game program.  When, and only

when,it is invoked by players of the game,it may update the score file but

ordinary programs executed by others cannot access the score.  There are a

number of special cases involved in determining access permissions.  Since

executing a directory as a program is a meaningless operation,the

execute-permission bit, for directories, is taken instead to mean permission to

search the directory for a given file during the scanning of a path name; thus

if a directory has execute permission but no read permission for a given user,

he may access files with known names in the directory,but may not read (list)

the entire contents of the directory.



Write permission on a directory is interpreted to mean that the user may create

and delete files in that directory;it is impossible for any user to write

directly into any directory..Another, and from the point of view of security,

much more serious special case is that there is a ``super user'' who is able to

read any file and write any non-directory.The super-user is also able to change

the protection mode and the owner UID and GID of any file and to invoke

privileged system calls.It must be recognized that the mere notion of a

super-user is a theoretical, and usually practical, blemish on any protection

scheme.



The first necessity for a secure system is of course arranging that all files

and directories have the proper protection modes.Traditionally, UNIX software

has been exceedingly permissive in this regard;essentially all commands create

files readable and writable by everyone.In the current version,this policy may

be easily adjusted to suit the needs ofthe installation or the individual user.



Associated with each process and its descendants is a mask, which is in effect

anded with the mode of every file and directory created by that process.  In

this way, users can arrange that, by default,all their files are no more

accessible than they wish.The standard mask, set by login,allows all permiss-

ions to the user himself and to his group,but disallows writing by others.



To maintain both data privacy and data integrity,it is necessary, and largely

sufficient,to make one's files inaccessible to others.  The lack of sufficiency

could follow from the existence of set-UID programs created by the user and the

possibility of total breach of system security in one of the ways discussed

below(or one of the ways not discussed below).



For greater protection,an encryption scheme is available.Since the editor is

able to create encrypted documents, and the crypt command can be used to pipe

such documents into the other text-processing programs,the length of time

during which clear text versions need be available is strictly limited.The

encryption scheme used is not one of the strongest known, but it is judged

adequate, in the sense that cryptanalysisis likely to require considerably more

effort than more direct methods of reading the encrypted files.For example, a

user who stores data that he regards as truly secret should be aware that he is

implicitly trusting the system administrator not to install a version of the

crypt command that stores every typed password in a file.  Needless to say, the

system administrators must be at least as careful as their most demanding user

to place the correct protection mode on the files under their control.



In particular,it is necessary that special files be protected from writing, and

probably reading, by ordinary users when they store sensitive files belonging

to otherusers.It is easy to write programs that examine and change files by

accessing the device on which the files live.



On the issue of password security,UNIX is probably better than most systems.

Passwords are stored in an encrypted form which, in the absence of serious

attention from specialists in the field,appears reasonably secure, provided its

limitations are understood.In the current version, it is based on a slightl y

defective version of the Federal DES;it is purposely defective so that

easily-available hardware is useless for attempts at exhaustive

key-search.Since both the encryption algorithm and the encrypted passwords are

available,exhaustive enumeration of potential passwords is still feasible up to

a point.We have observed that users choose passwords that are easy to

guess:they are short, or from a limited alphabet, or in a dictionary.

Passwords should be at least six characters long and randomly chosen from an

alphabet which includes digits and special characters.



Of course there also exist feasible non-cryptanalytic ways of finding out

passwords.For example:    write a program which types out ``login:''on the

typewriter and copies whatever is typed to a file of your own.    Then invoke the

command and go away until the victim arrives..The set-UID (set-GID)notion must

be used carefully if any security is to be maintained.    The first thing to keep

in mind is that a writable set-UID file can have another program copied onto

it.



For example, if the super-user command is writable,anyone can copy the shell

onto it and get a password-free version of Shell Unix.A more subtle problem can

come from set-UID programs which are not sufficiently careful of what is fed

into them.To take an obsolete example,the previous version of the mail command

was set-UID and owned by the super-user.This version sent mail to the r

ecipient's own directory.The notion was that one should be able to send mail to

anyone even if they want to protecttheir directories from writing.  The trouble

was that mailwas rather dumb:anyone could mail someone else's priva te file to

himself.Much more seriousis the following scenario:  make a file with a line

like one in the password filewhich allows one to log in as the super-user.Then

make a link named ``.mail'' to the password file in some writable directory on

the same device as the password file (say /tmp).  Finally mail the bogus login

line to /tmp/.mail;You can then login as the superuser,clean up the

incriminating evidence,and have your will.



The fact that users can mount their own disks and tapes as file systems can be

another way of gaining super-user status.Once a disk pack is mounted, the

system believes what is on it.Thus one can take a blank disk pack,put on it

anything desired,and mount it.There are obvious and unfortunate consequences.

For example:a mounted disk with garbage on it will crash the system;one of the

files on the mounted disk can easily be a password-free version of Shell Unix;

other files can be unprotected entries for special files.  The only easy fix

for this problem is to forbid the use of mount to unpriv- ileged users.A

partial solution, not so restrictive,would be to have the mount command examine

the special file for bad data,set-UID programs owned by others ,and accessible

special files,and balk at unprivileged invokers.

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Friday, June 24, 2011

Blender Portable V2.58

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Blender Portable V2.58 / 22.52MB
Blender Portable is the open source software for 3D modeling, animation, rendering, post-production, interactive creation and playback packaged as a portable app, so you can do your rendering on the go.

Blender is the free open source 3D content creation suite, available for all major operating systems under the GNU General Public License. It can be used to model, shade, animate, render and composite and create interactive 3d models.

System Requirements: Windows 2000/XP/Vista/7

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Thursday, June 23, 2011

Mozilla Thunderbird Portable Edition 5.0 Beta 2

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Mozilla Thunderbird Portable Edition 5.0 Beta 2 / 15.12MB
Mozilla Thunderbird is an open-source and cross-platform mail client and news reader for most modern operating systems including, but not limited to Windows, Macintosh and Linux.

It offers some advantages over other mail clients, including junk mail classification. Built from Mozilla code, Mozilla Thunderbird uses Gecko, the most standards-compliant rendering engine in existence.

In addition to the feature set found in Mozilla Mail, Thunderbird has several new features and improvements to make your mail and new experience better.
Here are some key features of "Mozilla Thunderbird":
Full-Featured Email:
· Simple to use, powerful, and customizable, Thunderbird is a full-featured email application. Thunderbird supports IMAP and POP mail protocols, as well as HTML mail formatting. Easily import your existing email accounts and messages. Built-in RSS capabilities, powerful quick search, spell check as you type, global inbox, deleting attachments and advanced message filtering round out Thunderbird's modern feature set.

Junk Mail Filters:
· Each email you receive passes through Thunderbird's leading-edge junk mail filters. Each time you mark messages as spam, Thunderbird improves its filtering so you can spend more time reading the mail that matters. Thunderbird will also use your mail provider's spam filters to keep junk mail out of your inbox.

Anti-Phishing Protection:
· Thunderbird protects you from increasingly common email scams "also known as “phishing” which try to fool you into handing over your passwords and other personal information. Thunderbird will tell you when it thinks a message might be a scam.

Advanced Security:
· Thunderbird provides enterprise and government grade security features including S/MIME, digital signing, message encryption, support for certificates and security devices. Attachments are never run without your express permission, protecting you from many worms and viruses.

Automatic Updates:
· The new Software Update feature makes it easy to get the latest security and feature updates to Thunderbird. Thunderbird automatically downloads these small updates in the background and prompts you when they are ready to be installed.

Customize Thunderbird:
· Select new button controls for your toolbars, install extensions to add new features, or change the look of your browser with themes the way Thunderbird looks and works is under your control.

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VideoCacheView V1.94

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VideoCacheView V1.94 / 6.56MB

VideoCacheView automatically scans the entire cache of Internet Explorer and Mozilla-based Web browsers (Including Firefox) and finds all cached video files. It allows you to easily copy the cached video files into another folder for playing/watching them in the future. If you have a movie player that is configured to play FLV files, it also allows you to play the video directly from your browser's cache.

System Requirements: Win2K / WinXP / Vista / Win7 




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Wednesday, June 22, 2011

Listary V3.20 (Build 535)

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Listary V3.20 (Build 535) / 5.63MB

Listary is an enhancement that allows you to quickly search almost any listing in Windows by simply typing your search terms. The program will pop up a small, semi-transparent window in Explorer windows (including open/save dialogs), Task Manager, Registry Editor, and even directly on your desktop. The program works with almost any application with a system-generated list.

Although some programs will automatically jump to the first letter you type (a find-as-you-type feature of Windows Explorer), you must type quickly for more than one letter and cannot see your output. Listary brings a long-time feature of Linux to Windows, letting you enter whole words, and type slower with automatic changes. Additionally, it allows wildcards and has the ability to edit your input with immediate results.

Advanced features include hotkeys, autocomplete, blacklists, favorites, a customizable window. Note that the program contains many "pro"-only features, but the program is very functional in its basic version.

System Requirements: WinXP / Vista / Win7

You can download either from the Download button or you can use Mirror button for the same file.

 OR Use this

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Sunday, October 24, 2010

Infix PDF Editor 4.24 Portable

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                               Infix PDF Editor 4.24 Portable | 17,08MB
Most PDFs just contain fragments of text - just a few words at a time. Other PDF editors allow you to edit each fragment individually. Infix is the only PDF editor that intelligently re-creates the original content so that you can edit it in the way you would expect. It uses a set of intelligent algorithms to recreate the original structure of the document. This means you can edit a PDF just like you would a Word document.

Works like a Word Processor
Make seamless changes to paragraphs
Copy and paste graphics, text and artwork between PDFs
Spell-check in five languages
Search & replace text in long documents
Familiar tab, margin and indent controls

Edit Your Existing PDFs

Reuse your existing documents. Infix removes the need to convert your PDFs into other formats by enabling you to edit them directly.

Edit PDF documents made by any software - Adobe Acrobat, Distiller, Microsoft Word - it handles them all!

Use the advanced Search and Replace feature to make seamless alterations throughout long documents or across multiple PDFs. It's easy to change product names throughout a manual or amend the headers and footers on every page - tasks that would otherwise take hours or even days to do by hand!

As well as this Infix offers all of the standard editing facilities you would expect such as page cropping, annotation, cut and paste between PDFs, graphics manipulation and more.

Download

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µTorrent 2.0.4.22450 Portable

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                                           µTorrent 2.0.4.22450 Portable | 5,47MB
µTorrent is the world's most popular BitTorrent client. Most of the features present in other BitTorrent clients are present in µTorrent, including bandwidth prioritization, scheduling, RSS auto-downloading and Mainline DHT (compatible with BitComet). It's packaged as a portable app so you download on the go.

µTorrent was written with efficiency in mind. Unlike many torrent clients, it does not hog valuable system resources - typically using less than 6MB of memory, allowing you to use the computer as if it weren't there at all.

Various icon, toolbar graphic and status icon replacements are available, and creating your own is very simple. µTorrent also has support for localization, and with a language file present, will automatically switch to your system language. If your language isn't available, you can easily add your own, or edit other existing translations to improve them!


Download: Click Here To Download

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About Me

I am a student,I post these tricks because it reduces my study stress.I love to read novels,watch movies and hang out with friends. I believe that a man who is drenched is not afraid of the rain, like me.So why to worry juz live happy :)

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