{"draft":"draft-songlee-aes-cmac-96-04","doc_id":"RFC4494","title":"The AES-CMAC-96 Algorithm and Its Use with IPsec","authors":["JH. Song","R. Poovendran","J. Lee"],"format":["ASCII","HTML"],"page_count":"8","pub_status":"PROPOSED STANDARD","status":"PROPOSED STANDARD","source":"IETF - NON WORKING GROUP","abstract":"The National Institute of Standards and Technology (NIST) has recently\r\nspecified the Cipher-based Message Authentication Code (CMAC), which\r\nis equivalent to the One-Key CBC-MAC1 (OMAC1) algorithm submitted by\r\nIwata and Kurosawa.  OMAC1 efficiently reduces the key size of\r\nExtended Cipher Block Chaining mode (XCBC).  This memo specifies the\r\nuse of CMAC mode as an authentication mechanism of the IPsec\r\nEncapsulating Security Payload (ESP) and the Authentication Header\r\n(AH) protocols.  This new algorithm is named AES-CMAC-96.  [STANDARDS-TRACK]","pub_date":"June 2006","keywords":["cipher-basd message authentication code","one-key cbc-mac1","omac1","xcbc","extended cipher block chaining","advanced encryption standard"],"obsoletes":[],"obsoleted_by":[],"updates":[],"updated_by":[],"see_also":[],"doi":"10.17487\/RFC4494","errata_url":null}