Your opérating systém has béen hackéd by cybércriminals. Changé thé authorization méthod.

Héllo!

I'm a programmér who crackéd your émail account and dévicé about half yéar ago.
You éntéréd a password on oné of thé insécuré sité you visitéd, and I catchéd it.

Of coursé you can will changé your password, or alréady madé it.
But it doésn't mattér, my rat softwaré updaté it évéry timé.

Pléasé don't try to contact mé or find mé, it is impossiblé, sincé I sént you an émail from your émail account.

Through your é-mail, I uploadéd malicious codé to your Opération Systém.
I savéd all of your contacts with friénds, colléagués, rélativés and a complété history of visits to thé Intérnét résourcés.
Also I installéd a rat softwaré on your dévicé and long tomé spying for you.

You aré not my only victim, I usually lock dévicés and ask for a ransom.
But I was struck by thé sités of intimaté contént that you véry oftén visit.

I am in shock of your réach fantasiés! Wow! I'vé névér séén anything liké this!
I did not évén know that SUCH contént could bé so éxciting!

So, whén you had marturbate on intimé sités (you know what I méan!)
I took a screénshot of your masturbation using my program and your caméra on your dévice.
Aftér that, I jointéd thém to thé contént of thé curréntly viéwéd sité.

Will bé funny whén I sénd thésé photos to your contacts! And if your rélativés séé it?
BUT I'm suré you don't want it. I définitély would not want to ...

I will not do this if you pay mé a littlé amount.
I think $959 is a nicé pricé for it!

I accépt only Bitcoins.
My BTC wallét: 16KfJgmrHrKWS54EjTzgYa3cTmHM8QGHyw

If you havé difficulty with this - Ask Googlé "how to maké a paymént on a bitcoin wallét". It's éasy.
Aftér récéiving thé abové amount, all your data will bé immédiatély rémovéd automatically.
My virus will also will bé déstroy itsélf from your opérating systém.

My Trojan havé auto alért, aftér this émail is lookéd, I will bé know it!

You havé 2 days (48 hours) for maké a paymént.
If this doés not happén - all your contacts will gét crazy shots with your dirty lifé!
And so that you do not obstruct mé, your dévicé will bé lockéd (also aftér 48 hours)

Do not také this frivolously! This is thé last warning!
Various sécurity sérvicés or antivirusés won't hélp you for suré (I havé alréady colléctéd all your data).

Héré aré thé récomméndations of a proféssional:
Antivirusés do not hélp against modérn malicious codé. Just do not éntér your passwords on unsafé sités!

I hopé you will bé prudént.
Byé.

Ufonet - Dos And Ddos Attack Tool | How To Install Bot

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W3AF

"W3AF is a Web Application Attack and Audit Framework. The project goal is to create a framework to find and exploit web application vulnerabilities that is easy to use and extend. This project is currently hosted at SourceForge." read more...

Website: http://w3af.sourceforge.net

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THC-Hydra

"A very fast network logon cracker which support many different services. Number one of the biggest security holes are passwords, as every password security study shows. Hydra is a parallized login cracker which supports numerous protocols to attack. This tool is a proof of concept code, to give researchers and security consultants the possibility to show how easy it would be to gain unauthorized access from remote to a system." read more...

Website: http://freeworld.thc.org/thc-hydra

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SigPloit SS7 Tool

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Defcon 2015 Coding Skillz 1 Writeup

Just connecting to the service, a 64bit cpu registers dump is received, and so does several binary code as you can see:

The registers represent an initial cpu state, and we have to reply with the registers result of the binary code execution. This must be automated becouse of the 10 seconds server socket timeout.

The exploit is quite simple, we have to set the cpu registers to this values, execute the code and get resulting registers.

In python we created two structures for the initial state and the ending state.

cpuRegs = {'rax':'','rbx':'','rcx':'','rdx':'','rsi':'','rdi':'','r8':'','r9':'','r10':'','r11':'','r12':'','r13':'','r14':'','r15':''}
finalRegs = {'rax':'','rbx':'','rcx':'','rdx':'','rsi':'','rdi':'','r8':'','r9':'','r10':'','r11':'','r12':'','r13':'','r14':'','r15':''}

We inject at the beginning several movs for setting the initial state:

for r in cpuRegs.keys():

    code.append('mov %s, %s' % (r, cpuRegs[r]))

The 64bit compilation of the movs and the binary code, but changing the last ret instruction by a sigtrap "int 3"

We compile with nasm in this way:

os.popen('nasm -f elf64 code.asm')

os.popen('ld -o code code.o ')

And use GDB to execute the code until the sigtrap, and then get the registers

fd = os.popen("gdb code -ex 'r' -ex 'i r' -ex 'quit'",'r')

for l in fd.readlines():

    for x in finalRegs.keys():

           ...

We just parse the registers and send the to the server in the same format, and got the key.

The code:

from libcookie import *

from asm import *

import os

import sys

host = 'catwestern_631d7907670909fc4df2defc13f2057c.quals.shallweplayaga.me'

port = 9999

cpuRegs = {'rax':'','rbx':'','rcx':'','rdx':'','rsi':'','rdi':'','r8':'','r9':'','r10':'','r11':'','r12':'','r13':'','r14':'','r15':''}

finalRegs = {'rax':'','rbx':'','rcx':'','rdx':'','rsi':'','rdi':'','r8':'','r9':'','r10':'','r11':'','r12':'','r13':'','r14':'','r15':''}

fregs = 15

s = Sock(TCP)

s.timeout = 999

s.connect(host,port)

data = s.readUntil('bytes:')

#data = s.read(sz)

#data = s.readAll()

sz = 0

for r in data.split('\n'):

    for rk in cpuRegs.keys():

        if r.startswith(rk):

            cpuRegs[rk] = r.split('=')[1]

    if 'bytes' in r:

        sz = int(r.split(' ')[3])

binary = data[-sz:]

code = []

print '[',binary,']'

print 'given size:',sz,'bin size:',len(binary)        

print cpuRegs

for r in cpuRegs.keys():

    code.append('mov %s, %s' % (r, cpuRegs[r]))

#print code

fd = open('code.asm','w')

fd.write('\n'.join(code)+'\n')

fd.close()

Capstone().dump('x86','64',binary,'code.asm')

print 'Compilando ...'

os.popen('nasm -f elf64 code.asm')

os.popen('ld -o code code.o ')

print 'Ejecutando ...'

fd = os.popen("gdb code -ex 'r' -ex 'i r' -ex 'quit'",'r')

for l in fd.readlines():

    for x in finalRegs.keys():

        if x in l:

            l = l.replace('\t',' ')

            try:

                i = 12

                spl = l.split(' ')

                if spl[i] == '':

                    i+=1

                print 'reg: ',x

                finalRegs[x] = l.split(' ')[i].split('\t')[0]

            except:

                print 'err: '+l

            fregs -= 1

            if fregs == 0:

                #print 'sending regs ...'

                #print finalRegs

                

                buff = []

                for k in finalRegs.keys():

                    buff.append('%s=%s' % (k,finalRegs[k]))

                print '\n'.join(buff)+'\n'

                print s.readAll()

                s.write('\n'.join(buff)+'\n\n\n')

                print 'waiting flag ....'

                print s.readAll()

                print '----- yeah? -----'

                s.close()

                

fd.close()

s.close()

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Administración Remota De Servidores Desde Android

Sería muy util poder administrar todos nuestros servidores desde la palma de la mano.

Sin embargo una shell linux, no es viable en el teclado de un teléfono incluso de un tablet, sobretodo porque hay que escribir muchos símbolos, por ejemplo el guión, y estos teclados están pensados más bien para texto.

Pues bien, de esta necesidad surgió la aplicación SSHControl:


SSHControl

Esta problematica la he solucionado a base de utilizar nevegadores y estructurar los outputs para no acumular excesiva información en la pantalla.

- Navegador de ficheros
- Navegador de procesos
- Navegador de conexiones
- Navegador de logs
- Navegador de drivers de kernel

Esto permite administrar múltiples servidores con un solo dedo :)

Controlar la seguridad de sus servidores ahora es bastante sencillo y ágil, por ejemplo con solo hacer un "tap" encima de un usuario, podemos ver sos procesos asociados, con hacer otro tap en un proceso podemos kilearlo, ver mas info etc ..
Con hacer un tap encima de una apliacción, vemos sus conexiónes, con un tap en una conexión podemos agregar una regla de filtrado en el firewall, etc ..


En la siguiente versión habilitaré la opción de "Custom Commnands", la cual es muy util,
cada administrador o usuario linux, tiene una serie de comandos que repite con mucha frecuencia,
bien pues esta opción permite pre-programar estos comandos habituales, de manera que puedes lanzarlos con un simple tap.

En el roadmap tengo pensadas nuevas funcionalidades muy útiles :)

Aqui os dejo algunas capturas de pantalla:







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This is a post about an old vulnerability that I finally found the time to blog about. It dates back to 2014, but from a technical point of view it is nevertheless interesting: An XML parser that tries to fix structural errors in a document caused a DoS problem.

All previous posts of this series focused on XSS. This time, we present a vulnerability which is connected another Cloud Management Platform: OpenNebula. This Infrastructure-as-a-Service platform started as a research project in 2005. It is used by information technology companies like IBM, Dell and Akamai as well as academic institutions and the European Space Administrations (ESA). By relying on standard Linux tools as far as possible, OpenNebula reaches a high level of customizability and flexibility in hypervisors, storage systems, and network infrastructures. OpenNebula is distributed using the Apache-2 license.


OpenNebula offers a broad variety of interfaces to control a cloud. This post focuses on Sunstone, OpenNebula's web interface (see Figure 1).

Figure 1: OpenNebula's Sunstone Interface displaying a VM's control interface

Before OpenNebula 4.6.2, Sunstone had no Cross-Site Request Forgery (CSRF) protection. This is a severe problem. Consider an attacker who lures a victim into clicking on a malicious link while being logged in at a private cloud. This enables the attacker to send arbitrary requests to the private cloud through the victims browser. However, we could find other bugs in OpenNebula that allowed us to perform much more sophisticated attacks.

Denial-of-Service on OpenNebula-VM

At its backend, OpenNebula manages VMs with XML documents. A sample for such an XML document looks like this:

<VM>
   <ID>0</ID>
   <NAME>My VM</NAME>
   <PERMISSIONS>...</PERMISSIONS>
   <MEMORY>512</MEMORY>
   <CPU>1</CPU>
   ...
</VM>

OpenNebula 4.6.1 contains a bug in the sanitization of input for these XML documents: Whenever a VM's name contains an opening XML tag (but no corresponding closing one), an XML generator at the backend automatically inserts the corresponding closing tag to ensure well-formedness of the resulting document. However, the generator outputs an XML document that does not comply with the XML schema OpenNebula expects. The listing below shows the structure that is created after renaming the VM to 'My <x> VM':

<VM>
   <ID>0</ID>
   <NAME>My <x> VM</x>
      <PERMISSIONS>...</PERMISSIONS>
      <MEMORY>512</MEMORY>
      <CPU>1</CPU>
      ...
   </NAME>
</VM>

The generator closes the <x> tag, but not the <NAME> tag. At the end of the document, the generator closes all opened tags including <NAME>.

OpenNebula saves the incorrectly generated XML document in a database. The next time the OpenNebula core retrieves information about that particular VM from the database the XML parser is mixed up and runs into an error because it only expects a string as name, not an XML tree. As a result, Sunstone cannot be used to control the VM anymore. The Denial-of-Service attack can only be reverted from the command line interface of OpenNebula.

This bug can be triggered by a CSRF-attack, which means that it is a valid attack against a private cloud: By luring a victim onto a maliciously crafted website while logged in into Sunstone, an attacker can make all the victim's VMs uncontrollable via Sunstone. A video of the attack can be seen here:

   If you're Windows users, follow these steps:

• Install Python 2.7.x from Python.org first. On Install Python 2.7.x Setup, choose Add python.exe to Path.
• Download Osueta-master zip file.
• Then unzip it.
• Open CMD or PowerShell window at the Osueta folder you have just unzipped and enter these commands:
  pip install python-nmap paramiko IPy
python osueta.py -h

Advice: Like others offensive tools, the authors disclaims all responsibility in the use of this script.

Osueta help menu:

Osueta's examples:
   A single user enumeration attempt with username variations:
python2 osueta.py -H 192.168.1.6 -p 22 -U root -d 30 -v yes

   A single user enumeration attempt with no user variations a DoS attack:
python2 osueta.py -H 192.168.1.6 -p 22 -U root -d 30 -v no --dos yes

   Scanning a C class network with only one user:
python2 osueta.py -H 192.168.1.0/24 -p 22 -U root -v no 

   Scanning a C class network with usernames from a file, delay time 15 seconds and a password of 50000 characters:
python2 osueta.py -H 192.168.1.0/24 -p 22 -L usernames.txt -v yes -d 15 -l 50

Download Osueta

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Resolución De ExpedientesX De Código

Hoy me he topado con algo bastante gracioso que puede liarte unos minutos:

python
>>> import re
>>> a='owjf oasijf aw0oifj osfij 4.4.4.4 oasidjfowefij 192.168.1.1'


ok, pues ahora copy-pasteais cada una de estas:
re.findall('[0-9]̣̣',a)
re.findall('[0-9]',a)

Son exactamente iguales, pero si paseteais una da resultados diferente a si pasteais la otra :)

Pasteamos la primera:
>>> re.findall('[0-9]̣̣',a)
[]

Pasteamos la segunda:
>>> re.findall('[0-9]',a)
['0', '4', '4', '4', '4', '1', '9', '2', '1', '6', '8', '1', '1']


o_O, he repasado caracter a caracter y son visualmente iguales, si mirais en un editor hexa vereis que realmente no lo son, lógicamente no se trata de un expedienteX.

La cuestion es que según la fuente que tengais, debajo de la comilla o debajo del ] hay un punto microscópico :)

Esto es como cuando me emparanoie de que gmail cuando llevas un rato escribiendo un email y se hace auto-save, aparece una especie de acento raro en la pantalla :)

En estos casos, la metodología tipica de copypastear un trozo de la primera sentencia con el resto de la segunda sentencia, te lleva a los 2 caracteres que varían, pero no aprecias (segun la fuente que tengas) la diferéncia.



6572 662e 6e69 6164 6c6c 2728 305b 392d cc5d cca3 27a3 612c 0a29
6572 662e 6e69 6164 6c6c 2728 305b 392d 275d 612c 0a29

Son dígitos unicode, sabe Dios de que pais, y sabe Dios también como los escribí con mi teclado,
se me ocurren bromas de código fuente que se pueden hacer con esto :D, pero vamos, si tenemos metodología de reaccién ante expedientesX, sobretodo aquello de divide y vencerás dicotómico, en pocos minutos se resuelven este tipo de problemas.Related articles

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AutoNSE - Massive NSE (Nmap Scripting Engine) AutoSploit And AutoScanner

Massive NSE (Nmap Scripting Engine) AutoSploit and AutoScanner. The Nmap Scripting Engine (NSE) is one of Nmap's most powerful and flexible features. It allows users to write (and share) simple scripts (using the Lua programming language ) to automate a wide variety of networking tasks. Those scripts are executed in parallel with the speed and efficiency you expect from Nmap. Users can rely on the growing and diverse set of scripts distributed with Nmap, or write their own to meet custom needs. For more informations https://nmap.org/book/man-nse.html

Installation

$ git clone https://github.com/m4ll0k/AutoNSE.git
$ cd AutoNSE 
$ bash autonse.sh

Exmaples

$ bash autonse.sh

Download AutoNSE

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