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INTRODUCTiON TO SECURE COMMUNICATION – TOR, HTTPS, SSL

INTRODUCTiON TO SECURE COMMUNICATION – TOR, HTTPS, SSL 1 INTRODUCTiON TO SECURE COMMUNICATION – TOR, HTTPS, SSL

Greetings comrades.

Through my research I have put together some security measures that should be considered by everyone. The reason I put this together is mainly for the newbies of this forum. But if I can help anyone out, then I am grateful for this. I would like to start out by saying, if you are reading like, you are likely a Silk Road user. If this is the case, then the #1 thing you must be using to even access this form is Tor. Tor will provide you with a degree of anonymity by using an 128-bit AES (Advanced Encryption Standard). There has been some debate as to whether or not the NSA can crack this code, and the answer is likely yes. This is why, you should never send anything over Tor that you aren’t comfortable sharing with the entire world unless you are using some sort of PGP encryption which we will talk about later.

Communication from your computer, to the internet relies on an entry node which basically “enters your computer” into the Tor network. This entry node communicates with your computer, this entry node knows your IP address. The entry node then passes your encrypted request onto the relay node. The relay node communicates with the entry node and the exit node but does not know your computer’s IP address. The exit node, is where your request is decrypted and sent to the internet. The exit node does not know your computer’s IP, only the IP of the relay node. Using this model of 3 nodes it makes it harder, but not impossible to correlate your request to your original IP address.

The problem comes obviously when you are entering plain text into TOR because anybody can set up an exit node. The FBI can set up an exit node, the NSA, or any other foreign government, or any malicious person who may want to steal your information. You should not be entering any sensitive data into any websites, especially when accessing them over TOR. If any of the nodes in the chain are compromised, and some likely are, and the people in charge of those compromised nodes have the computing power to decrypt your request, then you better hope it wasn’t anything sensitive.

So what can we do to fix this? Well, luckily we are now having more and more servers that are offering something called Hidden services. You can easily recognize these services by the address .onion. These services offer what’s called end-to-end encryption. What this does is take the power out of the compromised exit nodes and put them back in your hands. The web server of the hidden service now becomes your exit node, which means the website you are visiting is the one decrypting your message, not some random exit node ran by a potential attacker. Remember, the exit node has the key to decrypt your request. The exit node can see what you are sending in clear text once they decrypt it. So if you are entering your name and address into a field, the exit node has your information. If you are putting a credit card, a bank account, your real name, even your login information, then you are compromising your identity.

Another step you can take, is to only visit websites that use something called HTTP Secure. You can tell if the website you are visiting is using HTTP Secure by the prefix at the beginning of the address. If you seehttps:// then your website is using HTTP Secure. What this does is encrypts your requests so that only the server can decrypt them, and not somebody eavesdropping on your communication such as a compromised Tor exit node. This is another form of end-to-end encryption. If somebody were to intercept your request over HTTP Secure, they would see encrypted data and would have to work to decrypt it.

Another reason you want to use HTTPS whenever possible, is that malicious Tor nodes can damage or alter the contents passing through them in an insecure fashion and inject malware into the connection. This is particularly easier when you are sending requests in plain text, but HTTPS reduces this possibility. You must be made aware however, that HTTPS can also be currently cracked depending on the level of the key used to encrypt it. When you visit a website using HTTPS, you are encrypting your request using their public key and they are decrypting it using their private key. This is how cryptography works. A public key is provided to those who want to send an encrypted message and the only one who can decrypt is the one with the private key.

Unfortunately, many websites today are still using private keys that are only 1,024 bits long which in today’s world are no longer enough. So you need to make sure you find out which level of encryption the website you are visiting uses, to make sure they are using at a minimum 2,048, if not 4,096 bits. Even doing all of this unfortunately is not enough, because we have another problem. What happens if the web server itself has become compromised? Maybe your TOR nodes are clean, maybe you have used HTTPS for all your requests, but the web server itself of the website you are visiting has been compromised. Well then all your requests are again, as good as plain text.

With that being said, this will conclude the first post in this series of the steps we can take to protect our privacy online, to remain anonymous and maintain our freedom.

 

Disclaimer:

The articles and content found on Dark Web News are for general information purposes only and are not intended tosolicit illegal activity or constitute legal advice. Using drugs is harmful to your health and can cause serious problems including death and imprisonment, and any treatment should not be undertaken without medical supervision.

About GOPU

Technology Enthusiast with a keen eye on the Cyber-security and other tech related developments.

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