Thursday, October 5, 2017

Official Accounts

My official accounts.
E-Mailcontact@bradlyodell.com
Facebookbradlyaodell
Instagram@brad_odell
Text-Only SMS805-867-7274
LinkedInlinkedin.bradlyodell.com
Snapchat@brad0137
Google Plus+BradlyOdell
Spotifyledo137
Venmo@BradlyOdell
Twitter@brad0137
Skypeodell.bradly

Any questions about my accounts? Send me an e-mail.

My Public Key

Use the following public key to communicate with me using PGP. You can verify this key at pgp.mit.edu by searching my name, "Bradly Odell", and finding the key id, "DC066A14". Make sure you sign your message with your key, and securely send me your public key. For large messages or files, use AES-128 for encryption, and PGP for key exchange.

PGP keys can be confusing. If you would like to send a secure message without PGP, I recommend you use the website: temp.pm. On this site, the user enters a message, chooses the optional expiration date, chooses the optional password and then it spits out a link that can only be opened once.

-----BEGIN PGP PUBLIC KEY BLOCK-----
Version: GnuPG v2
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=mqld
-----END PGP PUBLIC KEY BLOCK-----

Why use RSA and AES?
RSA is better than AES when messages are short because it generates both a public key, which can be distributed, and a private key. The private key is used to decrypt messages that were encrypted with the public key. After encrypting a message, the message can be signed with the private key. The signature can be verified using the public key only if the message was not changed.

AES-128 encryption is great for very large data sizes. To use AES, a private key must be shared between the users. RSA's public/private key encryption is typically used to transfer the AES private keys in AES encrypted channels.