My goal is a lightweight kind of message signing, comparable to PGP, except there is only a need for one private-key, no public-key associate. The goal is merely to prevent tampering of a string between two trusted entities. It starts from a trusted source, goes over the internet, then arrives at another trusted destination.
I would like to know if my naive approach is secure. In that the signing algorithm would not be practically brute forced.
1) Both source and destination have a "private key" which is just a very random number generated by uuidgen.
2) Source has a string it intends to send to destination.
3) Source concatenates the payload string with the private key, and then sha1's the result, to produce a signature.
4) The resulting plain-text value + signature are sent to destination in a pair. "hello//SIG:12345ABCDEFG"
5) Desination receives the signed-variable, generates a signature with its known private-key, and compares agains the signature paired with the received data. If they match, it is accepted.
A variation of this will incorporate a unix timestamp rounded to the hour, making the signature expire.
My concern is if it would be feasible to bruteforce the private key given a selective set of data payloads and analyzing the resulting signatures with this approach.