## Hot answers tagged encryption-asymmetric

186

A keystore contains private keys, and the certificates with their corresponding public keys.
A truststore contains certificates from other parties that you expect to communicate with, or from Certificate Authorities that you trust to identify other parties.

80

Your teacher gave you:
Public Key: (10142789312725007, 5)
which means
n = 10142789312725007
e = 5
where n is the modulus and e is the public exponent.
In addition, you're given
Private Key: (10142789312725007, 8114231289041741)
meaning that
d = 8114231289041741
where d is the decryption exponent that should remain secret.
You can ...

40

RSA encryption is only mean for small amounts of data, the amount of data you can encrypt is dependent on the size of the key you are using, for example for 1024 bit RSA keys, and PKCS # 1 V1.5 padding, you can encrypt 117 bytes at most, with a 2048 RSA key, you can encrypt 245 bytes.
There's a good reason for this, asymmetric encryption is computationally ...

36

In a SSL handshake the purpose of trustStore is to verify credentials and the purpose of keyStore is to provide credential.
keyStore in Java stores private key and certificates corresponding to their public keys and require if you are SSL Server or SSL requires client authentication.
TrustStore stores certificates from third party, your Java application ...

33

RSA can only encrypt data blocks that are shorter than the key length so what you normally do is
Generate a random key of the correct length required for AES (or similar).
Encrypt your data using AES or similar using that key
Encrypt the random key using your RSA key
Then you publish both the outputs from 2 and 3
To decrypt
Decrypt the AES key using ...

25

As mentioned in other answers asymmetric encryption is only designed for encrypting data smaller than it's key size.
One option that I have implemented when needing to transfer large amounts of encrypted data between two systems is to have an RSA keypair whose public key is known to both the sender and the receiver then when data needs to be sent the ...

23

You may also be interested in the write-up from Sun, as part of the standard JSSE documentation:
http://docs.oracle.com/javase/8/docs/technotes/guides/security/jsse/JSSERefGuide.html#Stores
Typically, the trust store is used to store only public keys, for verification purposes, such as with X.509 authentication. For manageability purposes, it's quite ...

22

For future searches regarding RSA bad length exceptions...
You can calculate the max number of bytes which can be encrypted with a particular key size with the following:
((KeySize - 384) / 8) + 37
However, if the optimal asymmetric encryption padding (OAEP) parameter is true, as it is in the original post, the following can be used to calculate the max ...

21

In most asymmetrical crypto system implementation, the only fact that is ensured is that you cannot find the private key from the public key. The other way round, finding the public key from the private key is trivial in most case.
For instance, in RSA, you can create public key from private key with:
openssl rsa -in private.pem -pubout -out public.pem
...

21

Yes, purely asymmetric encryption is much slower than symmetric cyphers (like DES or AES), which is why real applications use hybrid cryptography: the expensive public-key operations are performed only to encrypt (and exchange) an encryption key for the symmetric algorithm that is going to be used for encrypting the real message.
The problem that public-key ...

20

Public key encryption is not in the standard library. There are some third party libraries on PyPi for it though:
PyCrypto
RSA Python
If you're interested in the math behind it, Python makes it easy to experiment:
code = pow(msg, 65537, 5551201688147) # encode using a public key
plaintext = pow(code, 109182490673, 5551201688147) # decode ...

19

That depends on the crypto system.
In RSA, we have (citing Wikipedia):
The public key consists of the modulus n and the public (or encryption) exponent e. The
private key consists of the modulus n and the private (or decryption) exponent d which
must be kept secret.
Now if we have n and d (the private key), we are only missing e for the public ...

18

Usually, RSA is only used to transfer a symmetric key (at the start of the stream for example) and then the bulk data is encrypted with that key.
Asymmetric encryption isn't efficient enough to transfer a lot of data.

16

On a Macbook running OS X 10.5.5 and a stock build of OpenSSL, "openssl speed" clocks AES-128-CBC at 46,000 1024 bit blocks per second. That same box clocks 1024 bit RSA at 169 signatures per second. AES-128-CBC is the "textbook" block encryption algorithm, and RSA 1024 is the "textbook" public key algorithm. It's apples-to-oranges, but the answer is: RSA is ...

16

For future searches regarding RSA bad length exceptions...
You can calculate the max number of bytes which can be encrypted with a particular key size with the following:
((KeySize - 384) / 8) + 37
However, if the optimal asymmetric encryption padding (OAEP) parameter is true, the following can be used to calculate the max bytes:
((KeySize - 384) / 8) + ...

15

Note Well: As emboss mentions in the comments, this answer is a poor fit for an actual system. Firstly, file encryption should not be carried out using this method (The lib provides AES, for example.). Secondly, this answer does not address any of the wider issues that will also affect how you engineer your solution.
The original source also goes ...

13

Here's a relatively simple way to look at it (and one that is doable by hand). If you were to factor the number completely, then the highest factor you would need to consider is sqrt(N):
sqrt(10142789312725007) = 100711415.9999997567
The first prime below this is 100711409, just 6 below the sqrt(N).
10142789312725007 / 100711409 = 100711423
therefore ...

12

RSA encryption (or any encryption algorithm) should work regardless of environment. However, it is possible that certain systems make different assumptions about default padding and the mode of operation. Make sure that when you are performing encryption and decryption that you fully specify not only the algorithm, but also the mode of operation (CBC, etc) ...

12

A private key is meant to be known only by its legitimate user and not distributed. Its counterpart, the public key, may be distributed to anyone.
Based on this, you can get 4 operations:
encrypt using the public key
decrypt using the private key
sign using the private key
verify the signature using the public key
The next problem you may encounter is ...

12

How does crypto_box work?
box uses a Diffie-Hellman key exchange on the two keys and hashes the result. Then it uses that as the key for secret_box.
crypto_box is equivalent to crypto_box_beforenm followed by crypto_box_afternm.
crypto_box_beforenm is the hashed key-exchange which works as described in the Curve25519 paper, using elliptic curve ...

11

OK, just simple demo-idea, based on adding/modulto operation.
Lets we have modulto value, for our example 256. This is public-known, common value.
Lets you generate random secret private key in interval [1-255], for example, pri=133.
Keep secret key in the pocket.
Generate public key, pub = 256 - pri = 123. This public key (123)
you can share to the ...

11

It's a 1024-bit RSA public key in PEM format with one character mangled in the first line:
Public-Key: (1024 bit)
Modulus:
00:cd:f9:2b:00:b1:8b:c8:b2:d6:99:fd:26:14:36:
fe:f0:be:bf:9a:02:39:1c:db:c5:f1:b8:a5:a9:09:
ba:85:41:2f:84:59:e6:29:6e:e0:41:f3:c8:89:53:
df:32:16:3b:05:32:1e:41:2d:b5:e1:11:7f:b6:26:
6a:c2:d0:35:9d:ea:8d:eb:d4:82:e1:34:bd:bb:2a:
...

11

The reason why you need encryption at all is probably to protect against a man-in-the-middle. There are scenarios where an attacker is able to sniff at the traffic without being able to change it. This solution would protect against that threat, but it would provide no protection at all against a man-in-the-middle that is able to modify the traffic.
If the ...

11

In our applications, we store public and private keys in DER format so they can be used and manipulated outside java more easily. In our case, the private keys do not have passwords on them.
To convert the private key to something more easily usable in java:
openssl pkcs8 -topk8 -nocrypt -in key.pem -inform PEM -out key.der -outform DER
Then you can ...

11

The reason for using separate key pairs for signing and encryption is to spread the risk: If someone recovers the private encryption key, he/she can decrypt documents that were encrypted using the public encryption key but can’t use it to also sign documents and vice versa.
Another reason could be a legal reason:
In several countries, a digital ...

11

Normally, you use public key encryption to encrypt a symmetric key, in part because public key encryption is very slow. Typically, you'd send the recipient the following, so that they can decrypt your message:
The symmetric key, encrypted with the recipient's public key.
Parameters for the algorithms used, usually an initialization vector for the symmetric ...

10

The usual example is a padlock and a key for it.
Bob gives Alice a padlock (his "public key") and he keeps the key for that padlock (his "private key").
Alice puts a message in a box, and snaps the padlock on to it. She then sends the box to Bob.
Bob can unlock it with his key.
An extended version of this is described at ...

10

As stated, your question has a single answer, and that's "no". RSA encryption is an algorithm which encrypts messages up to a given size, which depends on the key size; with a 1024-bit RSA key, and RSA as the standard describes it, the maximum size is 117 bytes, no more. There is no way to encrypt a larger message with RSA alone, and that's a definite, ...

10

It seems you are concerned with the security of the data while being transferred from the client app to the server, and vice versa. As has been mentioned in the comments, an HTTPS connection will be sufficient in this regard. It automatically performs encryption/decryption for you.
To get an HTTPS connection working, you would purchase an SSL certificate ...

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