I'm trying to understand a particular difference between 2 encryption modules in openssl. One module is "openssl enc" and the other is "openssl smime". I understand that SMIME is often used for email and that openssl enc is used for generic encryption/decryption routines. My confusion is the fact that the openssl enc module allows you to specify a key, an initialization vector, and a salt, but the openssl smime module only lets you specify a key. What is the reason for this? Does the smime module assume a particular IV and salt under the hood? I am specifically using the CBC mode of AES in this case.

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The two commands are very different.

Openssl enc encrypts according to your specs. So if you want aes-256-cbc, for example, you can say:

$ more foo.txt
The quick brown fox jumps over the lazy dog
$ openssl rand -hex 16
$ openssl rand -hex 32
$ openssl enc -e -aes-256-cbc -in foo.txt -out foo.enc -K 8cc103b653a10f0ea884482e4cdd0615160930e840d00af12e33ac560a830bd0 -iv 12b53ed0a13749832fe92d1e00f8b4db
$ base64 foo.enc
$ openssl enc -d -aes-256-cbc -in foo.enc -K 8cc103b653a10f0ea884482e4cdd0615160930e840d00af12e33ac560a830bd0 -iv 12b53ed0a13749832fe92d1e00f8b4db
The quick brown fox jumps over the lazy dog

In this example, foo.txt is 44 bytes long, the encrypted message is 48 bytes (3 * block length, including padding), so that's the raw AES encrypted data.

Openssl smime constructs a S/MIME message according to RFC 3447. This means, it uses hybrid encryption, where the actual message is encrypted symmetrically, with a random key and IV. the IV is embedded in the message, the key is then encrypted using the public key from the certificate you specify on the command line. If the message is to be signed, too, then the private key is taken either from the certificate in the -signer argument or directly from the file specified by -inkey.

The message is then encoded in ASN.1. A typical openssl smime output might then look like this in a decoder:

SEQUENCE(2 elem)
  OBJECT IDENTIFIER  1.2.840.113549.1.7.3
  [0](1 elem)
    SEQUENCE(3 elem)
      INTEGER  0
      SET(1 elem)
      # Certificate information, issuer and serial number
      OCTET STRING(128 byte) 73CE9886...                         # RSA encrypted key
      SEQUENCE(3 elem)
        OBJECT IDENTIFIER1.2.840.113549.1.7.1
        SEQUENCE(2 elem)
          OBJECT IDENTIFIER2.16.840.                # AES-128-CBC
          OCTET STRING(16 byte) D2A3ECBAE792CFC19DD696AEF9593BB3 # random IV
        [0](48 byte) A14F3F76...                                 # encrypted message
  • That's great information. What do you mean by "the IV is embedded in the message"? Does that mean that openssl generates a random IV for you under the hood? What about a salt? – duffsterlp Jul 19 '16 at 17:18
  • Oh, you did indicate that the key and IV were randomly generated. However, the salt is still a missing piece. – duffsterlp Jul 19 '16 at 20:06
  • Salt is needed to assure that two messages encrypted with the same password are still different. If you provide the key and iv in detail, the iv is a salt of sorts. But strictly speaking, salt is used only if you derive the key from a user input aka password. In this case, openssl enc embeds the salt in the message, just like openssl smime embeds the iv. – wallenborn Jul 20 '16 at 7:36
  • Ok great. Thanks! – duffsterlp Jul 22 '16 at 13:19

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