Innocently， I thought "SHA1withRSA algorithm" was simply operating the plainText with "SHA1", and use RSA/pkcs1padding to encrypt the result of "SHA1"。However, I found I was wrong until I wrote some java code to test what I thought. I use RSA publickey to decrypt the signature which I use the corresponding privatekey to sign with "SHA1withRSA algorithm" . But I found the result is not equal to "SHA1(plainText)", below is my java code:

```
String plaintext= "123456";
Signature signature=Signature.getInstance("SHA1withRSA",new BouncyCastleProvider());
signature.initSign(pemPrivatekey);
signature.update(plaintext.getBytes());
byte[] sign = signature.sign();
//RSA decode
byte[] bytes = RsaCipher.decryptByRsa(sign, pemPublickey);
String rsaDecodeHex=Hex.toHexString(bytes);
System.out.println(rsaDecodeHex.toLowerCase());
String sha1Hex = Hash.getSha1(plaintext.getBytes());
System.out.println(sha1Hex);
//rsaDecodeHex!=sha1Hex
```

Easy to find that `rsaDecodeHex!=sha1Hex`

, where

rsaDecodeHex=3021300906052b0e03021a050004147c4a8d09ca3762af61e59520943dc26494f8941b

and

sha1Hex=7c4a8d09ca3762af61e59520943dc26494f8941b 。

So, What's the detail in "SHA1withRSA" ?

`rsaDecodeHex`

seems to be`sha1Hex`

padded with a couple of prefix bytes, but I may be wrong. – biziclop Mar 9 '17 at 9:49