Mac's answer is absolutely correct. To be more specific, the process generally would go as follows:
- A hash (e.g. SHA-1) is created from the content.
- The hash is then signed using the private key, resulting in a signature (e.g. using DSA or RSA algorithm).
- The signature is included with the content. If the content changes, the signature will become invalid.
- Client calculates a hash from the content.
- The signature is decrypted with the known public key of the author (i.e. you).
- If the hash inside the signature matches the calculated hash from #1 then it's OK. Otherwise the content was modified / isn't really from the author (i.e. you).
- You need to use a key size large enough to deter brute forcing.
- These algorithms require a source of random data - both when generating keys and when signing, for example. If this is violated, then often the private key can be trivially revealed.
- "Encrypting the hash with the public key" is a simplistic explanation. For example, with RSA - the hash needs to be padded with other data. On verification, the padding has to be checked as well. Otherwise, the signatures may be able to be forged easily. (See: OpenSSL debacle from a few years ago).
The standard advice is to use a proven, off-the-shelf cryptography library written by those with more experience. You need to be able to feed the library the key pair, and data to be signed/verify and say "sign/verify this" with minimal code involved. If you're worrying about the details of padding, or anything like that - you're probably doing it wrong. See: System.Security.Cryptography namespace in Microsoft .NET (very easy to use), or Microsoft CryptoAPI if you're doing standard Windows C/C++ programming. Other cross-platform libs exist too: pick something that works well on your platform.