| | | | | | | | You can reduce the amount of time required using faster computers (only the CPU speed is important. The amount of RAM, the performance of the hard drive and other hardware don’t affect the brute force speed), using several computers, choosing the fastest password crackers or tuning the brute force parameters wisely and accurately. You can use our Password Calculator software to estimate the time required for Brute Force Attack. The table below shows the time required for Brute Force Attack depending on the password length and used character set. It is assumed that the attack is carried out on a single computer and the brute force speed is 500 000 passwords per second. Length of the password | Character set | lowercase letters | lowercase letters and digits | Both lowercase and uppercase letters | all printable ASCII characters | < = 4 | instant | 2 min | 5 | instant | 2 min | 12 min | 4 hours | 6 | 10 min | 72 min | 10 hours | 18 days | 7 | 4 hours | 43 hours | 23 days | 4 years | 8 | 4 days | 65 days | 3 years | 463 years | 9 | 4 months | 6 years | 178 years | 44530 years | 10 | You should have bought a password manager! :-) |
Bear in mind that the time shown above is the worst possible time. Brute Force Attack tries all password combinations and you don’t know which one of them is correct. If you’re lucky enough, the first combination will succeed. If not, the correct combination will be tried last. If you are not afraid of formulas: the required time is equal to (C^L) / S / N, where C is the length of the character set, L is the length of the password, S is the number of password checked per second, and N is the number of computers used in password recovery. Important Note:our software is highly optimized and most of it works faster that than our competitors’ software. Nevertheless, the amount of time required grows rapidly as the length of the password increases and that renders Brute Force Attack useless for recovering long passwords. This is the fundamental problem. Our competitors’ software is not able to recover long passwords either. Fortunately, in many cases more efficient recovery methods can be applied such as Guaranteed Recovery. | | | | | | | | Further reading: | Password Calculator |
Recommended Article: Universal Password Recovery Methods Dictionary AttackDictionary Attack uses a dictionary. Password Crackers will try every word from the dictionary as a password. A good dictionary (also known as a word list) is more than just a dictionary, e.g. you will not find the word 'qwerty' in the ordinary dictionary but it will surely be included into a good word list. Indeed, this combination of characters is commonly used as a password. Dictionary Attack is usually quite fast. Noticeable delays are possible only if the dictionary is very large. However, the password can be recovered only in case it is present in the dictionary. The probability that this assumption is true is not, in fact, high. Nevertheless, since Dictionary Attack doesn’t take much time, it is recommended to try it before proceeding to the slow Brute Force Attack. There is a variant of this method called Hybrid Dictionary Attack that significantly increases the probability of success. In this case, the password cracker checks all words in the dictionary along with its variations. These can be, for example, the same words with different digits appended to them. Hybrid Dictionary Attack is noticeably slower than Dictionary Attack (for example, if the variations include words with two digits appended to them, then the process is 100 times slower. In case of 4 digits appended, it is 10 000 times slower). | | | | | | | | | If you’re not afraid of formulas: the rough estimation of time required is ((C*X/26)^L) / S / N, where C is the length of the characters et, X is the SmartForce level, L is the length of the password, S is the speed of recovery (the number of passwords processed per second) and N is the number of computers used for recovery. | | | | | | | | | | | | | | | | | | The original password remains unknown, instead the document is decrypted and protection is removed. Password recovery is performed using our datacenter, so the Internet connection is required. However your document IS NOT sent over the Internet! We consider privacy issues very seriously and do our best to protect your privacy. Only a small piece (about 50 bytes) of your Word or Excel document will be sent to the server. This piece does NOT contain actual document contents or any other private information. All transferred information is encrypted using a strong encryption algorithm. If you have several password-protected files (even with exactly the same password), you have to process each file individually (because each password-protected Word/Excel document has unique random signature that affects recovery process). Click here to learn more about multiple document recovery. You pay for password recovery on a per document basis. | | | | | | | | | What is Recovered | Unencrypted document | Requisites/Limitations | None | Pros | Works very fast regardless of the password length. The method is simple. If the password is too long this is often the only method possible. | International/Localization issues | N/A | Further reading: | more information on Express Recovery |
Password VariationOften the problem with the password is that it was typed incorrectly. The user can make a mistake or type the password with CAPS LOCK turned on. Moreover, the user often remembers the approximate appearance of the password but fails to recall it in detail. In this case we can take the approximate password and test every possible variant, such as case changes (password -> PASSWORD, Password, PAssword, pASSWORD etc), omission of one of the characters, doubling characters, inserting or replacing the character with the neighboring characters and so on. Usually the number of combinations is not very large and it is possible to test them all in a little time. | | | | | | | | | | Home /// Download /// Order /// Site Map /// Terms of Use /// Privacy Policy Copyright © 1997-2019 LastBit.com. All rights reserved. |
What is Password Cracking?Password cracking is the process of attempting to gain Unauthorized access to restricted systems using common passwords or algorithms that guess passwords. In other words, it’s an art of obtaining the correct password that gives access to a system protected by an authentication method. Password cracking employs a number of techniques to achieve its goals. The cracking process can involve either comparing stored passwords against word list or use algorithms to generate passwords that match In this Tutorial, we will introduce you to the common password cracking techniques and the countermeasures you can implement to protect systems against such attacks. Topics covered in this tutorialWhat is password strength?Password strength is the measure of a password’s efficiency to resist password cracking attacks. The strength of a password is determined by; - Length: the number of characters the password contains.
- Complexity: does it use a combination of letters, numbers, and symbol?
- Unpredictability: is it something that can be guessed easily by an attacker?
Let’s now look at a practical example. We will use three passwords namely 1. password 2. password1 3. #password1$ For this example, we will use the password strength indicator of Cpanel when creating passwords. The images below show the password strengths of each of the above-listed passwords. Note: the password used is password the strength is 1, and it’s very weak. Note: the password used is password1 the strength is 28, and it’s still weak. Note: The password used is #password1$ the strength is 60 and it’s strong. The higher the strength number, better the password. Let’s suppose that we have to store our above passwords using md5 encryption. We will use an online md5 hash generator to convert our passwords into md5 hashes. The table below shows the password hashes Password | MD5 Hash | Cpanel Strength Indicator |
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password | 5f4dcc3b5aa765d61d8327deb882cf99 | 1 | password1 | 7c6a180b36896a0a8c02787eeafb0e4c | 28 | #password1$ | 29e08fb7103c327d68327f23d8d9256c | 60 |
We will now use http://www.md5this.com/ to crack the above hashes. The images below show the password cracking results for the above passwords. As you can see from the above results, we managed to crack the first and second passwords that had lower strength numbers. We didn’t manage to crack the third password which was longer, complex and unpredictable. It had a higher strength number. Password cracking techniques There are a number of techniques that can be used to crack passwords. We will describe the most commonly used ones below; - Dictionary attack– This method involves the use of a wordlist to compare against user passwords.
- Brute force attack– This method is similar to the dictionary attack. Brute force attacks use algorithms that combine alpha-numeric characters and symbols to come up with passwords for the attack. For example, a password of the value “password” can also be tried as p@$$word using the brute force attack.
- Rainbow table attack– This method uses pre-computed hashes. Let’s assume that we have a database which stores passwords as md5 hashes. We can create another database that has md5 hashes of commonly used passwords. We can then compare the password hash we have against the stored hashes in the database. If a match is found, then we have the password.
- Guess– As the name suggests, this method involves guessing. Passwords such as qwerty, password, admin, etc. are commonly used or set as default passwords. If they have not been changed or if the user is careless when selecting passwords, then they can be easily compromised.
- Spidering– Most organizations use passwords that contain company information. This information can be found on company websites, social media such as facebook, twitter, etc. Spidering gathers information from these sources to come up with word lists. The word list is then used to perform dictionary and brute force attacks.
Spidering sample dictionary attack wordlist Password cracking toolThese are software programs that are used to crack user passwords. We already looked at a similar tool in the above example on password strengths. The website www.md5this.com uses a rainbow table to crack passwords. We will now look at some of the commonly used tools John the Ripper John the Ripper uses the command prompt to crack passwords. This makes it suitable for advanced users who are comfortable working with commands. It uses to wordlist to crack passwords. The program is free, but the word list has to be bought. It has free alternative word lists that you can use. Visit the product website http://www.openwall.com/john/ for more information and how to use it. Cain & Abel Cain & Abel runs on windows. It is used to recover passwords for user accounts, recovery of Microsoft Access passwords; networking sniffing, etc. Unlike John the Ripper, Cain & Abel uses a graphic user interface. It is very common among newbies and script kiddies because of its simplicity of use. Visit the product website http://www.softpedia.com/get/Security/Decrypting-Decoding/Cain-and-Abel.shtml for more information and how to use it. Ophcrack Ophcrack is a cross-platform Windows password cracker that uses rainbow tables to crack passwords. It runs on Windows, Linux and Mac OS. It also has a module for brute force attacks among other features. Visit the product website http://ophcrack.sourceforge.net/ for more information and how to use it. Password Cracking Counter Measures- An organization can use the following methods to reduce the chances of the passwords been cracked
- Avoid short and easily predicable passwords
- Avoid using passwords with predictable patterns such as 11552266.
- Passwords stored in the database must always be encrypted. For md5 encryptions, its better to salt the password hashes before storing them. Salting involves adding some word to the provided password before creating the hash.
- Most registration systems have password strength indicators, organizations must adopt policies that favor high password strength numbers.
Hacking Activity: Hack Now! In this practical scenario, we are going to crack Windows account with a simple password. Windows uses NTLM hashes to encrypt passwords. We will use the NTLM cracker tool in Cain and Abel to do that. Cain and Abel cracker can be used to crack passwords using; - Dictionary attack
- Brute force
- Cryptanalysis
We will use the dictionary attack in this example. You will need to download the dictionary attack wordlist here 10k-Most-Common.zip For this demonstration, we have created an account called Accounts with the password qwerty on Windows 7. Password cracking steps- Open Cain and Abel, you will get the following main screen
- Make sure the cracker tab is selected as shown above
- Click on the Add button on the toolbar.
- The following dialog window will appear
- The local user accounts will be displayed as follows. Note the results shown will be of the user accounts on your local machine.
- Right click on the account you want to crack. For this tutorial, we will use Accounts as the user account.
- The following screen will appear
- Right click on the dictionary section and select Add to list menu as shown above
- Browse to the 10k most common.txt file that you just downloaded
Password Cracker Online- Click on start button
- If the user used a simple password like qwerty, then you should be able to get the following results.
Password Crackers Website- Note: the time taken to crack the password depends on the password strength, complexity and processing power of your machine.
- If the password is not cracked using a dictionary attack, you can try brute force or cryptanalysis attacks.
Summary- Password cracking is the art of recovering stored or transmitted passwords.
- Password strength is determined by the length, complexity, and unpredictability of a password value.
- Common password techniques include dictionary attacks, brute force, rainbow tables, spidering and cracking.
- Password cracking tools simplify the process of cracking passwords.
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