Langkahlangkah nya : Menu - Preferences - Network Connections. Pada tab Wireless - Pilih Nama Hotspot yang digunakan - Klik Edit. Masuk ke tab Wireless Security - Maka disitu akan tampil security yang digunakan dan password, nah terdapat dan beri centang pada "show password". Cara Mudah Mengetahui Password WPA & WPA2 Personal yang Tersimpan di Sedangkanuntuk aplikasi yang satu ini, dapat difungsikan guna mengecek tingkat ketahanan dalam sebuah jaringan WiFi WPA/WPA2 PSK. Dimana WIBR+ dapat membantu seluruh penggunanya, untuk melancarkan serangan kuat dalam suatu jaringan WiFi tertentu, serta mengetahui seberapa kuatnya sistem keamanan yang digunakan. WPAPSK (Wi-Fi Protected Access – Pre Shared Key) adalah pengamanan jaringan nirkabel dengan menggunakan metoda WPA-PSK jika tidak ada authentikasi server yang digunakan. Dengan demikian access point dapat dijalankan dengan mode WPA tanpa menggunakan bantuan komputer lain sebagai server. Cara mengkonfigurasikannya juga cukup CaraMembobol Password Wifi WPA/WPA2 dengan android tanpa Root . Untuk bisa membobol Wifi hal yang harus di lakukan adalah mendownload Aplikasinya terlebih dulu , untuk bisa membobol Wifi tanpa root kita menggunakan aplikasi android yang bernama WPSPIN . Untukmembobol WIFi yang menggunakan proteksi WPA/WPA-PSK anda bisa menggunakan cara yang sangat sederhana, CARA BOBOL WIFI WPA/WPA2-PSK. 9 Comments. Tag : CARA BOBOL WIFI WPA/WPA2-PSK, Read More. OKE.. KALO CARA HACK UNBK YANG SEBELUMNYA NGGA JADI.., PAKE YANG INI NIHH 3uEqAfT. What Does Wi-Fi Protected Access Pre-Shared Key Mean? Wi-Fi Protected Access Pre-Shared Key or WPA-PSK is a system of encryption used to authenticate users on wireless local area networks. It’s typically utilized by telecom companies for end user access in home local area networks. WPA-PSK may also be called WPA2-PSK or WPA Personal. Techopedia Explains Wi-Fi Protected Access Pre-Shared Key With WPA-PSK protocol, data transmission is encrypted and controlled using an end user’s generated password. With a TKIP protocol, WPA-PSK uses 128-bit encryption. WPA-PSK can be used with the AES standard, which is a common standard in cybersecurity analysis. Unlike commercial WPA systems, the WPA-PSK method doesn’t require a central server or various kinds of user-driven inputs. WEP and WPA It’s important to note that WPA-PSK is one of multiple alternatives for this type of wireless LAN authentication and validation. Another one is called Wired Equivalent Protection WEP. Interestingly, both of these protocols use a pre-shared key, but the encryption on WEP is considered weaker than the encryption on WPA systems. As a result, some telecom services have moved to using WPA instead of WEP protocol for encryption and authentication. WPA and the Pre-Shared Key One of the fundamental aspects of WPA-PSK security is the use of a pre-shared key. The concept of a pre-shared key goes all the way back to primitive non-digital cryptography in prior centuries. The idea is that users utilized an initial secure channel to deliver a key, and then subsequently at a future time, sent secondary transmissions where encryption depended on that initial key. One can think of some of the simple book ciphers of the early to mid-millennium where recipients used the pre-shared key to decode messages sent encrypted in the printed pages of a book. The key was often a book in which both the sender and receiver could measure equidistant letter sequence markings. The key could be delivered in person. After that, the sender could send a set of numbers corresponding to an equidistant sequence matching the letters in the book. Without the underlying book, the pre-shared key, the set of numbers would defy analysis or code-breaking. The code was not a cipher, then, but a reference to the pre-shared key itself. In the current context, the pre-shared key is a digital asset that unlocks the encrypted messaging sent over the network. As such, it can be useful in helping to resist brute force attacks where hackers are trying to break the encryption after successfully intercepting transmitted data packets. Again, the pre-shared key makes the encrypted data less dependent on hackable ciphers. Although a pre-shared key and other aspects of WPA-PSK may be useful in this type of authentication system, the standard for authentication is moving from a simple password system to multi-factor authentication MFA. One of the most common methods is to use a smartphone as a secondary device authentication factor. Here, where it may be possible to hack a password through a brute-force attack, the MFA makes it harder to break into a user account, because unless the hacker somehow has the verification key sent to the mobile device, attempts at unauthorized access won’t work. The first WPA standard became available in 2003. A subsequent standard, WPA2, was introduced the next year. A new WPA3 standard became available in 2018. The type of security algorithms and encryption specifications of your Wi-Fi network largely determine how speedy and secure it is. That's why it's vitally important that you know what they are, what they stand for, and exactly what they do. Terminology In articles about network security, the terms 'protocol', 'standard' and 'certification' and 'program' are often used interchangeably when talking about encryption. What one source, website, or individual refers to as a 'protocol', for instance, might be referred to as a 'standard' elsewhere. The first things we examine below are certification programs. WPA, WPA2, and WPA3 are the three wireless network certification programs we'll be discussing in this article. These are occasionally referred to as encryption standards themselves. Certification programs – in this case for Wi-Fi networks – use encryption protocols to secure data transmitted over a given Wi-Fi connection. An example would be TKIP, the Temporal Key Integrity Protocol. How encryption protocols encrypt data is determined by ciphers, which are essentially just algorithms that shape the process. An example of this is AES which, confusingly, stands for Advanced Encryption Standard. Authentication methods or mechanisms are used to verify wireless clients, such as a Pre-Shared Key PSK, which is essentially just a string of characters. In cryptography this is called a 'shared secret' – it's a piece of data known only by entities involved in the secure communication it is being used for. An example of a PSK would be a Wi-Fi password, which can be up to 63 characters and usually initiates the encryption process. Security certification programs All networks need security programs, certifications, and protocols to keep the devices and users on the network safe. For wireless networks, a number of security certification programs have been developed, including WPA and WPA2. Wired Equivalent Protection WEP WEP was the original wireless network security algorithm, and as you can probably tell by the name, was designed to supply a given network with the security of a wired one. WEP uses the RC4 cipher. However, WEP isn't very secure at all, which is why it's not commonly used, and is wholly obsolete when compared to later protocols. Everyone on the network shares the same key – a form of static encryption – which means everyone is put in harm's way if one client is exploited. Wi-Fi-Protected Access WPA WPA is a more modern and more secure security certification for wireless networks. However, it is still vulnerable to intrusion and there are more secure protocols available. Wireless networks protected by WPA have a pre-shared key PSK and use the TKIP protocol – which in turn uses the RC4 cipher – for encryption purposes, making WPA-PSK. This is also not the most secure program to use because using PSK as the cornerstone of the certification process leaves you with similar vulnerabilities to WEP. Wi-Fi-Protected Access 2 WPA2 WPA2 is another step up in terms of security and makes use of the Advanced Encryption Standard AES cipher for encryption, which is the same cipher the US military uses for a lot of its encryption. TKIP is replaced with CCMP – which is based on AES processing – providing a better standard of encryption. There is both a personal version which supports CCMP/AES and TKIP/RC4 and an enterprise version which supports EAP – the Extensible Authentication Protocol – as well as CCMP. See our guide to WPA2 for more information about it. Wi-Fi-Protected Access 3 WPA3 WPA3 was only recently developed in the last three years and isn't yet in widespread use. WPA3 also has Personal and Enterprise options, and is described by the Wi-Fi Alliance as having New features to simplify Wi-Fi security, enable more robust authentication, deliver increased cryptographic strength for highly sensitive data markets, and maintain resiliency of mission-critical networks. Ciphers and protocols Above, we looked at exactly which certification programs are the most up-to-date, as well as what encryption protocols and ciphers they use to secure wireless networks. Here, we'll briefly run through how they work. Ciphers Ciphers – which, as we mentioned before, determine the process by which data is encrypted – are an important part of securing a wireless network. RC4 – short for Rivet Cipher 4 – which is a stream cipher. Stream ciphers encrypt data one bit at a time, using a pseudo-random bit generator to create an 8-Bit number. Created way back in 1987, it was lauded for its speed and simplicity for many years but now is recognized to have several vulnerabilities that leave it open to man-in-the-middle attacks, amongst others. Vast improvement has come in the form of the AES, which is an acronym for Advanced Encryption Standard. AES is a symmetric block cipher. It's symmetric in the sense that there is just one key used to decipher the information and it is classified as a 'block' cipher because it encrypts in blocks of bits instead of bite-by-bite like a stream cipher. It uses key lengths of 256 bits, which makes it virtually impenetrable to brute force attacks on present computing power. AES encryption is the US federal standard for encryption and is considered the strongest widely-used form ever created. Encryption protocols The Temporal Key Integrity Protocol was designed with WEP's vulnerabilities in mind. WEP used a 64-bit or 128-bit encryption key that had to be entered on wireless access points and devices manually, and the key itself would never change. TKIP, on the other hand, implements a per-packet key, meaning that it creates a new 128-bit key for each data packet in a dynamic fashion. The Counter Mode Cipher Block Chaining Message Authentication Code Protocol is the step up from TKIP largely because it uses the AES cipher, the security-maximizing properties of which were discussed above. Different combinations and which is safest? Below is a rundown of some of the different combinations the wireless networks you regularly connect to might use for their security. Option Option Safety level Open Network This is the kind of network you might find in a café or outside at a tourist spot. It requires no password which means anyone can connect to the network. Very Risky WEP 64/128 Although WEP 128 is more secure than WEP 64 – it uses a bigger encryption key – these are both old, outdated, and therefore vulnerable. Very Risky WPA-PSK TKIP This is a pairing of the older security certification program with an outdated encryption protocol, so isn't very secure either. Risky WPA2-PSKTKIP Using an outdated encryption protocol that isn't secure defeats the purpose of using WPA2, which is a secure Wi-Fi certification program. Risky WPA2-PSK AES This is the latest encryption cipher paired with the most up-to-date and secure certification program, combining to make the most secure wireless network option. Secure

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