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I would like to understand how RSA tokens (SecurID) work, what is the algorithm used there, is it the same algorithm as the regular RSA encryption/decryption ?

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What type of tokens? One which is able to sign data or encrypt/decrypt keys, or the SecurID? – osgx Dec 1 '11 at 11:50
Yes the SecurID. – alaamub Dec 1 '11 at 11:53
There is a standard for such authenticators TOTP, but I don't know if RSA tokens follow that standard. – CodesInChaos Aug 11 '14 at 8:41
For a very complete explanation (although not veeeeery technical), see – tomasyany Nov 19 at 13:37

3 Answers 3

up vote 7 down vote accepted

Citing on Wiki

The RSA SecurID authentication mechanism consists of a "token" — either hardware (e.g. a USB dongle) or software (a soft token) — which is assigned to a computer user and which generates an authentication code at fixed intervals (usually 60 seconds) using a built-in clock and the card's factory-encoded random key (known as the "seed". The seed is different for each token, and is loaded into the corresponding RSA SecurID server (RSA Authentication Manager, formerly ACE/Server) as the tokens are purchased1.

So, it may have something related to the RSA public key algorithm. Little known about real internals of SecurID (security by obscurity), but there are some analysis, e.g. initial securid analysis and more at bottom of SecurID page in wikipedia.

Also, hardware tokens are Tamper resistant so it is almost impossible to duplicate stolen token.

UPDATE: Thanks to eyaler, there are no any public/private keys in classic SecurID; they are based on "shared secret", not on asymmetric algorithm. Wikipedia says, that variant of AES-128 is used to generate token codes from secret key ("seed"). The secret key is encoded into key at factory.

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-1 for referencing RSA public key – eyaler Oct 28 '12 at 19:36
Rather than reference "bottom of SecureID page in wikipedia" please link directly to the paragraph, or better yet, summarize here. – Tim D Aug 14 at 16:07

You can have a look at how it's really done at

The (oversimplified) mechanism is

hash = <some initial value>
every x seconds do:
   hash = hashfunction(hash + secret_key)
   print hash
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But this would imply that, if hash at time T, say h(T) is known, the hash at time t + T, h(t+T) has to be computed by sequentially computing all intermediate hashes. – Ustaman Sangat Oct 21 at 23:13
And how can we be sure that the time on the token will be the same that on the server. Of course they can start being the same, but unless it is a super duper atomic swiss watch, I don't think they will remain the same (unless the token can be connected to internet from time to time to update the internal clock). – tomasyany Nov 19 at 13:17
Those "unconnected" tokens usually have a lifespan. During that time the device's rtc must be accurate enough to "stay" within a certain timespan window. It doesn't matter (much) if it drifts for a second over two years; the server compensates by accepting a larger window (within specified limits). But if the rcc drifts much further or loses track all together the token is void. – VolkerK Nov 19 at 13:30
@VolterK Not completely true. You can't rely on "accurate enough" for this kind of things. I found the actual answer on (page 10 and 12). They adjust the possible time drifts with the input from the user. I don't have the space to give a more detail explanation here, but in the link I put they explain it very clear in the section "Valid Token Time Window and Clock Drift Adjustment". – tomasyany Nov 19 at 13:35
Ok, that's a (generous) additional feature of the RSA turnkey solution. The device's clock still needs to stay within a certain time frame. I retract the concrete second and minute statement and replace it by "some maximum timespan (which you have to look up in the product's documentation)". – VolkerK Nov 19 at 14:31

i can give you a sense of how the Blizzard Mobile Authenticator's work; since it's been open-sourced.

In brief pseudo-code it is:

String GetCurrentFOBValue()
   // Calculate the number of intervals since January 1 1970 (in UTC)
   // The Blizzard authenticator rolls over every 30 seconds,
   // so codeInterval is the number of 30 second intervals since January 1 1970.
   // RSA tokens roll over every minute; so your counter can be the number 
   // of 1 minute intervals since January 1, 1970
   // Int64 codeInterval = GetNumberOfIntervals();
   Int64 codeInterval = (DateTime.Now - new DateTime(1970,1,1)).TotalSeconds / 30;

   // Compute the HMAC_SHA1 digest of the code interval, 
   // using some agreed-upon 20-bytes of secret key material.
   // We will generate our 20-bytes of secret key material by
   // using PBKDF2 from a password. 
   // Blizzard's mobile authenticator is given secret key material
   // when it enrolls by fetching it from the web-site.
   Byte[] secret = PBKDF2("Super-secret password that our FOB knows", 20); //20 bytes

   // Compute a message digest of codeInterval using our shared secret key
   Byte[] hmac = HMAC(secret, codeInterval);

   //Pick four bytes out of the hmac array, and convert them into a Int32.
   //Use the last four bits of the digest as an index 
   //to which four bytes we will use to construct our Int32
   int startIndex = hmac[19] & 0x0f;

   Int32 value = Copy(hmac, startIndex, 4).ToUInt32 & 0x7fffffff; 

   //The blizzard authenticator shows 8 digits
   return String.Format("%.8d", value % 100000000);

   //But we could have just as easily returned 6, like RSA FOB's do
   return String.Format("%.6d", value % 1000000);
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That code looks like an implementation of TOTP with its silly "use last byte to determine which bytes to output" feature. – CodesInChaos Aug 11 '14 at 8:48
@CodesInChaos Yes, the Battle.NET authenticator is a FOB. – Ian Boyd Aug 11 '14 at 13:54

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