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I am adding a sentry handler to the R logging package. currently django-sentry validates the client (the application sending log records) based on a shared key which travels in clear text in a secured channel.

I was wondering if it was possible to do encryption from R, preferably asymmetric, public key based, but I find nothing relevant.

all right, not "if it was possible", but "how to do that" and whether someone already did this.

after interaction with the author of django-sentry, we opted for hmac, which I have implemented within the digest R package (version 0.5+ contains it). This does not answer the question "how to encrypt data using R", but it solves the problem which formed the base for my initial question.

At this point I am not any more actively working at asymmetric encription in R, however, if you are interested in it and you want to contribute ideas or code, please leave a note here!

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seems this isn't available yet. who is interested in getting this done? I propose using github for interaction and r-forge for the best master. on r-forge I already registered the gnupg package, a R wrapper for GnuPG. as long as I'm alone, I'll stay with r-forge. –  mariotomo Apr 28 '11 at 10:12

2 Answers 2

You may also find suitable function in the PKI package from the author Simon Urbanek.

This package provides PKI functions such as verifyig certificates, RSA encription and signing which can be used to build PKI infrastructure and perform cryptographic tasks.

Example code from the tutorial:

key <- PKI.genRSAkey(2048)
x <- charToRaw("Hello, world!")
e <- PKI.encrypt(x, key)
y <- PKI.decrypt(e, key)
stopifnot(identical(x, y))

gives as result: [1] "Hello, world!"

while the encrypted message e was:

  [1] 36 83 d3 70 0a 67 b5 05 a6 40 1e 37 28 b9 4e 28 f1 31 92 14 2c 35 c8 8a 61 93 1e 04 62 01 da 3b 2b a0 75 1c 10 58 26
 [40] e4 77 da 7a 47 3f 4e 44 29 8e 97 6f 62 b1 98 44 ba 18 ef 57 1e 9e 9c 27 a8 6e 9c 7b c7 8b c0 c3 a3 00 e2 67 98 8b 6e
 [79] 1a 93 c6 d6 ed 4b 54 e5 7a 07 d7 06 ef a6 bb 36 6a 7f 57 06 b9 15 03 f6 51 3f 07 48 cb f4 2d 25 15 be 42 de f4 8a 06
[118] 72 89 b1 e3 04 d3 ec 80 99 f0 66 0f 84 e1 b5 af 23 24 a1 36 8e 62 65 ae 19 fb 77 d1 36 06 ae 71 95 ee 57 aa 68 5a 6b
[157] 4e 28 ba a2 0d 17 78 11 6c 7f 1b b3 ce 31 65 a9 d3 71 89 76 f9 19 a0 7a bf 02 dd c9 1f cb 9c 39 25 d4 48 a2 23 83 26
[196] b4 a9 b1 40 f5 1d 46 21 35 12 52 73 09 9b f3 52 e1 9e 0d 2a 9b ff 70 81 41 24 49 ed 58 b2 61 dc 3e c9 b3 b2 b1 37 e0
[235] 48 76 18 bf b0 e5 c2 d9 2b 92 2f 6b 49 dd e0 93 b7 10 f8 ba d2 8a
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Not a full solution. There is no AES encryption, and raw RSA is not really recommended. –  Deer Hunter Sep 17 '14 at 19:59

Does this help you ahead: digest package? It holds several hashing functions. To my knowledge, asymmetric encryption is the same as hashing...

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I was not aware of the digest package, I will have a look at its implementation, maybe it helps. hashing can be part of signing, but it is definitely not the same as asymmetric encryption. no use of public/private keys, not possible to de-hash, you name it. –  mariotomo Apr 28 '11 at 8:38

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