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there are several components of my application, needs their communication secure in the sense Origin Verified. these components cannot share a common secret. So I have to opt for asymmetric key encryption. assuming I've two components A and B A sends some data F to B and B has to verify that it really came from A

A generates digest H of F with its private Key
A attaches A_pub, H to its request Parameters, sends F and declares origin/sender as A
B verifies the digest H with the A_pub provided against F

apparently it looks Okay But if some other component V does the same with V_pub and claims itself as A, B still thinks the request came from A as this H is made with V_prv openssl verifies Okay.

I want to give protection against this attack of V

I am using ecparam secp112r1 to minimize key length. and keys are repeatedly changed.

-- EDIT --

A, B and V are application components identified by unique URI. Its currently intended to constraint secure page flow. e.g. you can assume A, B, V be urls What I want is Only A can procced to B and only B can proceed to C .... and I don't want to maintain a global/application wide session for that. so If B can just verify the origin of this link based on the special parameters A have passed to it in a state/session-less manner. and the more generic it can be the more reusable it will be to implement in other scenarios too.

Once I thought to maintain a checksums of A_pub in a trusted global storage. however I am afraid wouldn't that be an over engineering ?

another way comes in my mind is to query back the origin url regarding the public key. However I want to avoid that.

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There are two possibilities: 1) A and V are just arbitrary identifiers (like 'first party' and 'second party') and it doesn't matter which is which so long as B keeps them straight. 2) A and V are not arbitrary and denote something specific. In which case, you won't get a useful answer if you don't tell us what that is. –  David Schwartz Mar 31 '12 at 20:06
Please Check My edit –  Neel Basu Apr 1 '12 at 7:29

1 Answer 1

This technique cannot verify the identity of the sender, only that the keys are a matching pair.

Typically, B would already possess some piece of trusted information that it can use to validate A's identity. The information is generally a copy of A_pub that it had previously validated, or that has been signed by a trusted third party, in which case B must have access to that third party's public key.

Without this additional information, B cannot verify the identity of A.

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can you be a bit more elaborate about what are the options ? –  Neel Basu Mar 31 '12 at 17:09
The basis of the Public-Key Infrastructure is that each device maintains a store of trusted certificates. It uses those certificates to authenticate the identity of other devices. But it's not possible to verify the identify of a device using only information obtained from that device; there must be a "chain of trust" that ends with information that is known to be genuine. –  Adam Liss Mar 31 '12 at 17:45
How can I generate a certificate on A_pub with openssl command line ? –  Neel Basu Mar 31 '12 at 18:35
See openssl.org/docs/apps/x509.html# for info. The OpenVPN project used to include a script that would generate certificates; perhaps check there as well. –  Adam Liss Mar 31 '12 at 19:47
Please Check edit –  Neel Basu Apr 1 '12 at 8:31

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