You could securely store passwords, without actually storing any passwords.
@hashed_password = Digest::SHA1.hexdigest(new_password + super_secure_salt)
@hashed_password == Digest::SHA1.hexdigest(password + super_secure_salt)
self.password = 'abc123'
self.valid_password?('foobar') #=> false
self.valid_password?('abc123') #=> true
You could recognize a file by seeing if the hash of the binary contents is identical to something you've seen before:
You could securely obfuscate a url by requiring a sha1 hash noone knows but a select few to access a resource on a website.
# GET /mysecurepages/1234?key=abcd1234abcd1234abcd1234
@resource = Resource.find(params[:id])
if params[:key] == Digest::SHA1.hexdigest(@resource.id + super_secure_salt)
# allow access
# deny access
And many many other things. What would you like to do with a SHA1 hash?
A final note about this:
I figure it can be easily hijacked and compromised.
It can only be hijacked and compromised if you dont use a salt (or a not good salt). Salt is like a secret that gets included in the input to the hashing function. And as long as that stays a secret, the input to the SHA1 is very difficult to figure out from the output.
In brief psuedocode a secure hash might looks like:
publically_sharable_hash = sha1(commonly_known_input + secret_salt)
Where this is only useful for non security applications: (like the file content example above)
insecure_hash = sha1(commonly_known_input)
Because the math of arriving at a SHA1 hash is well known, it's much easier to know the input from the output when no salt was used.
So if your salt is a long 32-64 character string, it's like have a super secure encryption password on every hash you generate. But like any password, make sure it stays secret.