This is a fleshed-out version of the example in the documentation:

```
import Crypto.Hash.MD5 as MD5
import Crypto.PublicKey.RSA as RSA
import Crypto.PublicKey.DSA as DSA
import Crypto.PublicKey.ElGamal as ElGamal
import Crypto.Util.number as CUN
import os
plaintext='The rain in Spain falls mainly on the Plain'
# Here is a hash of the message
hash=MD5.new(plaintext).digest()
print(repr(hash))
# '\xb1./J\xa883\x974\xa4\xac\x1e\x1b!\xc8\x11'
for alg in (RSA,DSA,ElGamal):
# Generates a fresh public/private key pair
key=alg.generate(384,os.urandom)
if alg == DSA:
K=CUN.getRandomNumber(128,os.urandom)
elif alg == ElGamal:
K=CUN.getPrime(128,os.urandom)
while CUN.GCD(K,key.p-1)!=1:
print('K not relatively prime with {n}'.format(n=key.p-1))
K=CUN.getPrime(128,os.urandom)
# print('GCD({K},{n})=1'.format(K=K,n=key.p-1))
else:
K=''
# You sign the hash
signature=key.sign(hash,K)
print(len(signature),alg.__name__)
# (1, 'Crypto.PublicKey.RSA')
# (2, 'Crypto.PublicKey.DSA')
# (2, 'Crypto.PublicKey.ElGamal')
# You share pubkey with Friend
pubkey=key.publickey()
# You send message (plaintext) and signature to Friend.
# Friend knows how to compute hash.
# Friend verifies the message came from you this way:
assert pubkey.verify(hash,signature)
# A different hash should not pass the test.
assert not pubkey.verify(hash[:-1],signature)
```