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RFC5528

  1. RFC 5528
Network Working Group                                            A. Kato
Request for Comments: 5528                      NTT Software Corporation
Category: Informational                                         M. Kanda
                                                                     NTT
                                                                S. Kanno
                                                NTT Software Corporation
                                                              April 2009


Camellia Counter Mode and Camellia Counter with CBC-MAC Mode Algorithms

Status of This Memo

   This memo provides information for the Internet community.  It does
   not specify an Internet standard of any kind.  Distribution of this
   memo is unlimited.

Copyright Notice

   Copyright (c) 2009 IETF Trust and the persons identified as the
   document authors.  All rights reserved.

   This document is subject to BCP 78 and the IETF Trust's Legal
   Provisions Relating to IETF Documents in effect on the date of
   publication of this document (http://trustee.ietf.org/license-info).
   Please review these documents carefully, as they describe your rights
   and restrictions with respect to this document.

Abstract

   This document describes the algorithms and presents test vectors for
   the Camellia block cipher algorithm in Counter mode (CTR) and Counter
   with Cipher Block Chaining MAC mode (CCM).  The purpose of this
   document is to make the Camellia-CTR and Camellia-CCM algorithm
   conveniently available to the Internet Community.
















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RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


Table of Contents

   1. Introduction ....................................................2
      1.1. Terminology ................................................3
   2. The Camellia Cipher Algorithm ...................................3
      2.1. Key Size ...................................................3
      2.2. Weak Keys ..................................................3
      2.3. Block Size and Padding .....................................3
      2.4. Performance ................................................4
   3. Modes of Operation ..............................................4
   4. Test Vectors ....................................................4
      4.1. Camellia-CTR ...............................................4
      4.2. Camellia-CCM ...............................................7
   5. Security Considerations ........................................20
   6. Acknowledgments ................................................20
   7. References .....................................................20
      7.1. Normative References ......................................20
      7.2. Informative References ....................................20

1.  Introduction

   This document describes the use of the Camellia block cipher
   algorithm in Counter (CTR) mode and Counter with CBC-MAC (CCM) mode.

   Camellia is a symmetric cipher with a Feistel structure.  Camellia
   was developed jointly by NTT and Mitsubishi Electric Corporation in
   2000.  It was designed to withstand all known cryptanalytic attacks,
   and it has been scrutinized by worldwide cryptographic experts.
   Camellia is suitable for implementation in software and hardware,
   offering encryption speed in software and hardware implementations
   that is comparable to Advanced Encryption Standard (AES) [5].

   Camellia supports 128-bit block size and 128-, 192-, and 256-bit key
   lengths, i.e., the same interface specifications as the AES.
   Therefore, it is easy to implement Camellia-based algorithms by
   replacing the AES block of AES-based algorithms with a Camellia
   block.

   Camellia already has been adopted by the IETF and other international
   standardization organizations; in particular, the IETF has published
   specifications for the use of Camellia with IPsec [6], TLS [7],
   Secure/Multipurpose Internet Mail Extensions (S/MIME) [8], and XML
   Securiy [9].  Camellia is one of the three ISO/IEC international
   standard [10] 128-bit block ciphers (Camellia, AES, and Super
   Effective and Efficient Delivery (SEED)).  Camellia was selected as a
   recommended cryptographic primitive by the EU NESSIE (New European
   Schemes for Signatures, Integrity and Encryption) project [11] and




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RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   was included in the list of cryptographic techniques for Japanese
   e-Government systems that was selected by the Japanese CRYPTREC
   (Cryptography Research and Evaluation Committees) [12].

   Since optimized source code is provided under several open source
   licenses [13], Camellia has also been adopted by several open source
   projects (OpenSSL, FreeBSD, Linux, and Firefox).

   The algorithm specification and object identifiers are described in
   [1].

   The Camellia web site [14] contains a wealth of information about
   Camellia, including detailed specification, security analysis,
   performance figures, reference implementation, optimized
   implementation, test vectors (TVs), and intellectual property
   information.

1.1.  Terminology

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
   document are to be interpreted as described in RFC 2119 [2].

   All multi-octet values in this document are encoded and represented
   in network byte order, i.e., most significant octet first.

2.  The Camellia Cipher Algorithm

   All symmetric block cipher algorithms share common characteristics
   and variables, including mode, key size, weak keys, and block size.
   The following sections contain descriptions of the relevant
   characteristics of Camellia.

2.1.  Key Size

   Camellia supports three key sizes: 128 bits, 192 bits, and 256 bits.
   The default key size is 128 bits, and all implementations MUST
   support this key size.  Implementations MAY also support key sizes of
   192 bits and 256 bits.

2.2.  Weak Keys

   At the time of writing this document, there are no known weak keys
   for Camellia.

2.3.  Block Size and Padding

   Camellia uses a block size of 16 octets (128 bits).



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RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   Padding is required by the algorithm to maintain a 16-octet (128-bit)
   block size.  Padding MUST be added such that the data to be encrypted
   has a length that is a multiple of 16 octets.

   Because of the algorithm-specific padding requirement, no additional
   padding is required to ensure that the ciphertext terminates on a
   4-octet boundary (i.e., maintaining a 16-octet block size guarantees
   that the Encapsulating Security Payload (ESP) Pad Length and Next
   Header fields will be right aligned within a 4-octet word).
   Additional padding MAY be included as long as the 16-octet block size
   is maintained.

2.4.  Performance

   Performance figures for Camellia are available at [14].  The NESSIE
   project has reported on the performance of optimized implementations
   independently [11].

3.  Modes of Operation

   Camellia Counter (Camellia-CTR) mode and Camellia Counter with CBC-
   MAC (Camellia-CCM) mode are based on [3][15][4].

   CTR mode [3] behaves like a stream cipher, but is based on a block
   cipher primitive (that is, CTR mode operation of a block cipher
   results in a stream cipher).

   CCM mode [15][4] is a generic authenticate-and-encrypt block cipher
   mode.  In this specification, CCM is used with the Camellia [1] block
   cipher.

4.  Test Vectors

4.1.  Camellia-CTR

   This section contains nine TVs, which can be used to confirm that an
   implementation has correctly implemented Camellia-CTR.  The first
   three TVs use Camellia with a 128-bit key; the next three TVs use
   Camellia with a 192-bit key; and the last three TVs use Camellia with
   a 256-bit key.











Kato, et al.                 Informational                      [Page 4]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   TV #1: Encrypting 16 octets using Camellia-CTR with 128-bit key
   Camellia Key     : AE 68 52 F8 12 10 67 CC 4B F7 A5 76 55 77 F3 9E
   Camellia-CTR IV  : 00 00 00 00 00 00 00 00
   Nonce            : 00 00 00 30
   Plaintext        : 53 69 6E 67 6C 65 20 62 6C 6F 63 6B 20 6D 73 67
   Counter Block (1): 00 00 00 30 00 00 00 00 00 00 00 00 00 00 00 01
   Key Stream    (1): 83 F4 AC FD EE 71 41 F8 4C E8 1F 1D FB 72 78 58
   Ciphertext       : D0 9D C2 9A 82 14 61 9A 20 87 7C 76 DB 1F 0B 3F

   TV #2: Encrypting 32 octets using Camellia-CTR with 128-bit key
   Camellia Key     : 7E 24 06 78 17 FA E0 D7 43 D6 CE 1F 32 53 91 63
   Camellia-CTR IV  : C0 54 3B 59 DA 48 D9 0B
   Nonce            : 00 6C B6 DB
   Plaintext        : 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F
                    : 10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 1F
   Counter Block (1): 00 6C B6 DB C0 54 3B 59 DA 48 D9 0B 00 00 00 01
   Key Stream    (1): DB F2 C5 8E C4 86 90 D3 D2 75 9A 7C 69 B6 C5 4B
   Counter Block (2): 00 6C B6 DB C0 54 3B 59 DA 48 D9 0B 00 00 00 02
   Key Stream    (2): 3B 9F 9C 1C 25 E5 CA B0 34 6D 0D F8 4F 7D FE 57
   Ciphertext       : DB F3 C7 8D C0 83 96 D4 DA 7C 90 77 65 BB CB 44
                    : 2B 8E 8E 0F 31 F0 DC A7 2C 74 17 E3 53 60 E0 48

   TV #3: Encrypting 36 octets using Camellia-CTR with 128-bit key
   Camellia Key     : 76 91 BE 03 5E 50 20 A8 AC 6E 61 85 29 F9 A0 DC
   Camellia-CTR IV  : 27 77 7F 3F 4A 17 86 F0
   Nonce            : 00 E0 01 7B
   Plaintext        : 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F
                    : 10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 1F
                    : 20 21 22 23
   Counter Block (1): 00 E0 01 7B 27 77 7F 3F 4A 17 86 F0 00 00 00 01
   Key Stream    (1): B1 9C 1D CE CF 70 ED 8F 27 8D 96 E9 41 88 C1 7C
   Counter Block (2): 00 E0 01 7B 27 77 7F 3F 4A 17 86 F0 00 00 00 02
   Key Stream    (2): 8C F7 59 38 48 88 65 E6 57 34 47 86 D2 85 97 D2
   Counter Block (3): 00 E0 01 7B 27 77 7F 3F 4A 17 86 F0 00 00 00 03
   Key Stream    (3): FF 71 A4 B5 D8 86 12 53 6A 9D 10 A1 13 0F 14 F8
   Ciphertext       : B1 9D 1F CD CB 75 EB 88 2F 84 9C E2 4D 85 CF 73
                    : 9C E6 4B 2B 5C 9D 73 F1 4F 2D 5D 9D CE 98 89 CD
                    : DF 50 86 96

   TV #4: Encrypting 16 octets using Camellia-CTR with 192-bit key
   Camellia Key     : 16 AF 5B 14 5F C9 F5 79 C1 75 F9 3E 3B FB 0E ED
                    : 86 3D 06 CC FD B7 85 15
   Camellia-CTR IV  : 36 73 3C 14 7D 6D 93 CB
   Nonce            : 00 00 00 48
   Plaintext        : 53 69 6E 67 6C 65 20 62 6C 6F 63 6B 20 6D 73 67
   Counter Block (1): 00 00 00 48 36 73 3C 14 7D 6D 93 CB 00 00 00 01
   Key Stream    (1): 70 10 57 F9 E6 E8 0B 49 7A 1F 4C AC AB F3 E5 F1
   Ciphertext       : 23 79 39 9E 8A 8D 2B 2B 16 70 2F C7 8B 9E 96 96



Kato, et al.                 Informational                      [Page 5]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   TV #5: Encrypting 32 octets using Camellia-CTR with 192-bit key
   Camellia Key     : 7C 5C B2 40 1B 3D C3 3C 19 E7 34 08 19 E0 F6 9C
                    : 67 8C 3D B8 E6 F6 A9 1A
   Camellia-CTR IV  : 02 0C 6E AD C2 CB 50 0D
   Nonce            : 00 96 B0 3B
   Plaintext        : 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F
                    : 10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 1F
   Counter Block (1): 00 96 B0 3B 02 0C 6E AD C2 CB 50 0D 00 00 00 01
   Key Stream    (1): 7D EE 36 F4 A1 D5 E2 12 6F 42 75 F7 A2 6A C9 52
   Counter Block (2): 00 96 B0 3B 02 0C 6E AD C2 CB 50 0D 00 00 00 02
   Key Stream    (2): C0 09 AA 7C E6 25 47 F7 4E 20 30 82 EF 47 52 F2
   Ciphertext       : 7D EF 34 F7 A5 D0 E4 15 67 4B 7F FC AE 67 C7 5D
                    : D0 18 B8 6F F2 30 51 E0 56 39 2A 99 F3 5A 4C ED

   TV #6: Encrypting 36 octets using Camellia-CTR with 192-bit key
   Camellia Key     : 02 BF 39 1E E8 EC B1 59 B9 59 61 7B 09 65 27 9B
                    : F5 9B 60 A7 86 D3 E0 FE
   Camellia-CTR IV  : 5C BD 60 27 8D CC 09 12
   Nonce            : 00 07 BD FD
   Plaintext        : 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F
                    : 10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 1F
                    : 20 21 22 23
   Counter Block (1): 00 07 BD FD 5C BD 60 27 8D CC 09 12 00 00 00 01
   Key Stream    (1): 57 11 E7 55 E5 4D 7C 27 BD A5 04 78 FD 93 40 77
   Counter Block (2): 00 07 BD FD 5C BD 60 27 8D CC 09 12 00 00 00 02
   Key Stream    (2): 66 E2 6D CF 85 A4 F9 5A 55 B4 F2 FD 7A BB 53 11
   Counter Block (3): 00 07 BD FD 5C BD 60 27 8D CC 09 12 00 00 00 03
   Key Stream    (3): F5 76 89 74 63 52 A8 C5 1E 82 DE 66 C3 9F 38 34
   Ciphertext       : 57 10 E5 56 E1 48 7A 20 B5 AC 0E 73 F1 9E 4E 78
                    : 76 F3 7F DC 91 B1 EF 4D 4D AD E8 E6 66 A6 4D 0E
                    : D5 57 AB 57

   TV #7: Encrypting 16 octets using Camellia-CTR with 256-bit key
   Camellia Key     : 77 6B EF F2 85 1D B0 6F 4C 8A 05 42 C8 69 6F 6C
                    : 6A 81 AF 1E EC 96 B4 D3 7F C1 D6 89 E6 C1 C1 04
   Camellia-CTR IV  : DB 56 72 C9 7A A8 F0 B2
   Nonce            : 00 00 00 60
   Plaintext        : 53 69 6E 67 6C 65 20 62 6C 6F 63 6B 20 6D 73 67
   Counter Block (1): 00 00 00 60 DB 56 72 C9 7A A8 F0 B2 00 00 00 01
   Key Stream    (1): 67 68 97 AF 48 1B DF AC D1 06 F7 1A 6C 76 C8 76
   Ciphertext       : 34 01 F9 C8 24 7E FF CE BD 69 94 71 4C 1B BB 11










Kato, et al.                 Informational                      [Page 6]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   TV #8: Encrypting 32 octets using Camellia-CTR with 256-bit key
   Camellia Key     : F6 D6 6D 6B D5 2D 59 BB 07 96 36 58 79 EF F8 86
                    : C6 6D D5 1A 5B 6A 99 74 4B 50 59 0C 87 A2 38 84
   Camellia-CTR IV  : C1 58 5E F1 5A 43 D8 75
   Nonce            : 00 FA AC 24
   Plaintext        : 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F
                    : 10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 1F
   Counter Block (1): 00 FA AC 24 C1 58 5E F1 5A 43 D8 75 00 00 00 01
   Key Stream    (1): D6 C2 01 91 20 6A 7E 0F A0 35 21 29 A4 8E 90 4A
   Counter Block (2): 00 FA AC 24 C1 58 5E F1 5A 43 D8 75 00 00 00 02
   Key Stream    (2): F5 0D C6 99 08 CA 56 79 A4 85 D8 C8 B7 9E 5F 17
   Ciphertext       : D6 C3 03 92 24 6F 78 08 A8 3C 2B 22 A8 83 9E 45
                    : E5 1C D4 8A 1C DF 40 6E BC 9C C2 D3 AB 83 41 08

   TV #9: Encrypting 36 octets using Camellia-CTR with 256-bit key
   Camellia Key     : FF 7A 61 7C E6 91 48 E4 F1 72 6E 2F 43 58 1D E2
                    : AA 62 D9 F8 05 53 2E DF F1 EE D6 87 FB 54 15 3D
   Camellia-CTR IV  : 51 A5 1D 70 A1 C1 11 48
   Nonce            : 00 1C C5 B7
   Plaintext        : 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F
                    : 10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 1F
                    : 20 21 22 23
   Counter Block (1): 00 1C C5 B7 51 A5 1D 70 A1 C1 11 48 00 00 00 01
   Key Stream    (1): A4 DB 21 FF E2 A0 F9 AD 65 6D A4 91 0A 5F AA 23
   Counter Block (2): 00 1C C5 B7 51 A5 1D 70 A1 C1 11 48 00 00 00 02
   Key Stream    (2): C1 70 B1 58 71 EC 71 88 6D D9 05 0B 03 6C 39 70
   Counter Block (3): 00 1C C5 B7 51 A5 1D 70 A1 C1 11 48 00 00 00 03
   Key Stream    (3): 35 CE 2F AE 90 78 B3 72 F5 76 12 39 1F 8B AF BF
   Ciphertext       : A4 DA 23 FC E6 A5 FF AA 6D 64 AE 9A 06 52 A4 2C
                    : D1 61 A3 4B 65 F9 67 9F 75 C0 1F 10 1F 71 27 6F
                    : 15 EF 0D 8D

4.2.  Camellia-CCM

   This section contains twenty four TVs, which can be used to confirm
   that an implementation has correctly implemented Camellia-CCM.  In
   each of these TVs, the least significant sixteen bits of the counter
   block is used for the block counter, and the nonce is 13 octets.
   Some of the TVs include an eight octet authentication value, and
   others include a ten octet authentication value.











Kato, et al.                 Informational                      [Page 7]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   =============== Packet Vector #1 ==================
   CAM Key:   C0 C1 C2 C3  C4 C5 C6 C7  C8 C9 CA CB  CC CD CE CF
   Nonce =    00 00 00 03  02 01 00 A0  A1 A2 A3 A4  A5
   Total packet length =   31. [Input (8 cleartext header octets)]
              00 01 02 03  04 05 06 07  08 09 0A 0B  0C 0D 0E 0F
              10 11 12 13  14 15 16 17  18 19 1A 1B  1C 1D 1E
   CBC IV in: 59 00 00 00  03 02 01 00  A0 A1 A2 A3  A4 A5 00 17
   CBC IV out:D4 DB CD 92  A8 96 41 56  1D 0D BB D0  D5 7F 7E 1D
   After xor: D4 D3 CD 93  AA 95 45 53  1B 0A BB D0  D5 7F 7E 1D   [hdr]
   After CAM: BD 84 03 80  73 59 37 B7  CE F5 E4 BA  1B 18 54 DC
   After xor: B5 8D 09 8B  7F 54 39 B8  DE E4 F6 A9  0F 0D 42 CB   [msg]
   After CAM: CE 21 82 9C  F6 F2 4D A2  CB 35 D1 FD  81 27 63 EC
   After xor: D6 38 98 87  EA EF 53 A2  CB 35 D1 FD  81 27 63 EC   [msg]
   After CAM: 20 11 FE E2  53 B1 A7 DB  02 77 FA 37  6D 78 EE 10
   MIC tag  : 20 11 FE E2  53 B1 A7 DB
   CTR Start: 01 00 00 00  03 02 01 00  A0 A1 A2 A3  A4 A5 00 01
   CTR[0001]: B2 7A 7B 8E  EB 14 3F 0B  82 E2 98 4C  06 44 CC 42
   CTR[0002]: E2 E2 D3 52  98 97 13 45  D1 63 22 90  E7 F8 15 4A
   CTR[MIC ]: DC BF 30 96  38 8C 1E 76
   Total packet length =   39. [Encrypted]
              00 01 02 03  04 05 06 07  BA 73 71 85  E7 19 31 04
              92 F3 8A 5F  12 51 DA 55  FA FB C9 49  84 8A 0D FC
              AE CE 74 6B  3D B9 AD

   =============== Packet Vector #2 ==================
   CAM Key:   C0 C1 C2 C3  C4 C5 C6 C7  C8 C9 CA CB  CC CD CE CF
   Nonce =    00 00 00 04  03 02 01 A0  A1 A2 A3 A4  A5
   Total packet length =   32. [Input (8 cleartext header octets)]
              00 01 02 03  04 05 06 07  08 09 0A 0B  0C 0D 0E 0F
              10 11 12 13  14 15 16 17  18 19 1A 1B  1C 1D 1E 1F
   CBC IV in: 59 00 00 00  04 03 02 01  A0 A1 A2 A3  A4 A5 00 18
   CBC IV out:07 0B 22 50  8A 24 3C DD  5B BA 54 DB  60 52 88 06
   After xor: 07 03 22 51  88 27 38 D8  5D BD 54 DB  60 52 88 06   [hdr]
   After CAM: 10 FD C2 F2  90 4A 9F 96  B0 4F 62 A4  A1 A9 31 1E
   After xor: 18 F4 C8 F9  9C 47 91 99  A0 5E 70 B7  B5 BC 27 09   [msg]
   After CAM: E4 C8 82 02  89 55 5C 15  CE 7F E4 60  B1 B9 5A 08
   After xor: FC D1 98 19  95 48 42 0A  CE 7F E4 60  B1 B9 5A 08   [msg]
   After CAM: D2 96 BA 4F  83 DE B5 DF  A2 19 08 F7  47 4E 3C 40
   MIC tag  : D2 96 BA 4F  83 DE B5 DF
   CTR Start: 01 00 00 00  04 03 02 01  A0 A1 A2 A3  A4 A5 00 01
   CTR[0001]: 55 2C 6E B4  82 A2 EF D6  85 37 FE 12  79 0E E6 55
   CTR[0002]: 54 E2 C8 D6  7E 99 91 2C  F2 8A D7 8E  83 04 10 36
   CTR[MIC ]: B2 24 93 12  71 9C 36 37
   Total packet length =   40. [Encrypted]
              00 01 02 03  04 05 06 07  5D 25 64 BF  8E AF E1 D9
              95 26 EC 01  6D 1B F0 42  4C FB D2 CD  62 84 8F 33
              60 B2 29 5D  F2 42 83 E8




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RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   =============== Packet Vector #3 ==================
   CAM Key:   C0 C1 C2 C3  C4 C5 C6 C7  C8 C9 CA CB  CC CD CE CF
   Nonce =    00 00 00 05  04 03 02 A0  A1 A2 A3 A4  A5
   Total packet length =   33. [Input (8 cleartext header octets)]
              00 01 02 03  04 05 06 07  08 09 0A 0B  0C 0D 0E 0F
              10 11 12 13  14 15 16 17  18 19 1A 1B  1C 1D 1E 1F
              20
   CBC IV in: 59 00 00 00  05 04 03 02  A0 A1 A2 A3  A4 A5 00 19
   CBC IV out:6F 69 15 DF  A6 A0 DF 24  84 A7 37 88  A3 65 F9 2E
   After xor: 6F 61 15 DE  A4 A3 DB 21  82 A0 37 88  A3 65 F9 2E   [hdr]
   After CAM: 59 5D 99 48  79 04 DA C9  13 93 36 C9  11 A8 09 1D
   After xor: 51 54 93 43  75 09 D4 C6  03 82 24 DA  05 BD 1F 0A   [msg]
   After CAM: 1A 43 D7 19  65 43 97 C1  43 6F 4F 11  A7 6C 6B ED
   After xor: 02 5A CD 02  79 5E 89 DE  63 6F 4F 11  A7 6C 6B ED   [msg]
   After CAM: 30 0B 06 8A  A0 D1 4D C5  9E 44 22 84  82 45 42 0B
   MIC tag  : 30 0B 06 8A  A0 D1 4D C5
   CTR Start: 01 00 00 00  05 04 03 02  A0 A1 A2 A3  A4 A5 00 01
   CTR[0001]: 89 FF 69 DD  CB 75 76 18  E9 31 24 1B  AD 97 BB 02
   CTR[0002]: C4 32 A7 9C  CB 4B E9 8D  24 A8 F0 AB  C6 87 16 11
   CTR[MIC ]: C5 5A D0 E2  8F F2 E7 83
   Total packet length =   41. [Encrypted]
              00 01 02 03  04 05 06 07  81 F6 63 D6  C7 78 78 17
              F9 20 36 08  B9 82 AD 15  DC 2B BD 87  D7 56 F7 92
              04 F5 51 D6  68 2F 23 AA  46

   =============== Packet Vector #4 ==================
   CAM Key:   C0 C1 C2 C3  C4 C5 C6 C7  C8 C9 CA CB  CC CD CE CF
   Nonce =    00 00 00 06  05 04 03 A0  A1 A2 A3 A4  A5
   Total packet length =   31. [Input (12 cleartext header octets)]
              00 01 02 03  04 05 06 07  08 09 0A 0B  0C 0D 0E 0F
              10 11 12 13  14 15 16 17  18 19 1A 1B  1C 1D 1E
   CBC IV in: 59 00 00 00  06 05 04 03  A0 A1 A2 A3  A4 A5 00 13
   CBC IV out:F5 51 CF 6C  7C F7 D4 0B  2B 76 F1 6B  57 F0 19 FE
   After xor: F5 5D CF 6D  7E F4 D0 0E  2D 71 F9 62  5D FB 19 FE   [hdr]
   After CAM: 02 2B 21 1B  EB 97 02 3B  F8 10 7D CC  62 14 E5 7C
   After xor: 0E 26 2F 14  FB 86 10 28  EC 05 6B DB  7A 0D FF 67   [msg]
   After CAM: 48 14 A4 2D  31 25 1C 37  19 C5 6F DD  5A 37 81 42
   After xor: 54 09 BA 2D  31 25 1C 37  19 C5 6F DD  5A 37 81 42   [msg]
   After CAM: CF 85 25 D2  80 D5 F0 09  53 2C 9D 43  4E F3 04 47
   MIC tag  : CF 85 25 D2  80 D5 F0 09
   CTR Start: 01 00 00 00  06 05 04 03  A0 A1 A2 A3  A4 A5 00 01
   CTR[0001]: C6 E2 10 8D  62 00 A2 9C  6F CC 19 1F  DF 6B 92 DB
   CTR[0002]: 6C B9 BE EE  1E A2 E9 B3  2D D6 C2 9A  E8 26 D5 C2
   CTR[MIC ]: 44 BF B6 E8  E3 31 67 A9
   Total packet length =   39. [Encrypted]
              00 01 02 03  04 05 06 07  08 09 0A 0B  CA EF 1E 82
              72 11 B0 8F  7B D9 0F 08  C7 72 88 C0  70 A4 A0 8B
              3A 93 3A 63  E4 97 A0



Kato, et al.                 Informational                      [Page 9]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   =============== Packet Vector #5 ==================
   CAM Key:   C0 C1 C2 C3  C4 C5 C6 C7  C8 C9 CA CB  CC CD CE CF
   Nonce =    00 00 00 07  06 05 04 A0  A1 A2 A3 A4  A5
   Total packet length =   32. [Input (12 cleartext header octets)]
              00 01 02 03  04 05 06 07  08 09 0A 0B  0C 0D 0E 0F
              10 11 12 13  14 15 16 17  18 19 1A 1B  1C 1D 1E 1F
   CBC IV in: 59 00 00 00  07 06 05 04  A0 A1 A2 A3  A4 A5 00 14
   CBC IV out:73 72 9D 76  7A BD B9 82  60 3A 12 7B  EF 26 FB 80
   After xor: 73 7E 9D 77  78 BE BD 87  66 3D 1A 72  E5 2D FB 80   [hdr]
   After CAM: E1 B7 A6 72  E2 5C 87 75  91 21 22 A4  07 13 CD 5B
   After xor: ED BA A8 7D  F2 4D 95 66  85 34 34 B3  1F 0A D7 40   [msg]
   After CAM: 13 2F 58 D9  5D 0F 95 B8  90 BF 6F 1D  31 84 54 C7
   After xor: 0F 32 46 C6  5D 0F 95 B8  90 BF 6F 1D  31 84 54 C7   [msg]
   After CAM: 47 8F 1E B0  71 24 8B 13  AF C8 C8 44  E6 0F 88 B6
   MIC tag  : 47 8F 1E B0  71 24 8B 13
   CTR Start: 01 00 00 00  07 06 05 04  A0 A1 A2 A3  A4 A5 00 01
   CTR[0001]: 26 DE B4 D6  5F D4 3C 81  AA 56 98 95  64 09 39 A2
   CTR[0002]: 76 97 69 3A  21 13 0C 39  2E 4E EB BF  48 7B 24 BE
   CTR[MIC ]: C8 2E 65 17  82 15 50 1A
   Total packet length =   40. [Encrypted]
              00 01 02 03  04 05 06 07  08 09 0A 0B  2A D3 BA D9
              4F C5 2E 92  BE 43 8E 82  7C 10 23 B9  6A 8A 77 25
              8F A1 7B A7  F3 31 DB 09

   =============== Packet Vector #6 ==================
   CAM Key:   C0 C1 C2 C3  C4 C5 C6 C7  C8 C9 CA CB  CC CD CE CF
   Nonce =    00 00 00 08  07 06 05 A0  A1 A2 A3 A4  A5
   Total packet length =   33. [Input (12 cleartext header octets)]
              00 01 02 03  04 05 06 07  08 09 0A 0B  0C 0D 0E 0F
              10 11 12 13  14 15 16 17  18 19 1A 1B  1C 1D 1E 1F
              20
   CBC IV in: 59 00 00 00  08 07 06 05  A0 A1 A2 A3  A4 A5 00 15
   CBC IV out:EB 59 05 CC  3F 52 61 10  26 24 75 93  DD B9 A0 F4
   After xor: EB 55 05 CD  3D 51 65 15  20 23 7D 9A  D7 B2 A0 F4   [hdr]
   After CAM: 18 A9 AE A4  3D D2 A9 11  6C 0A E5 4F  40 D1 4D 9F
   After xor: 14 A4 A0 AB  2D C3 BB 02  78 1F F3 58  58 C8 57 84   [msg]
   After CAM: FA C4 13 18  98 54 1B 54  93 9C 64 B8  CB FD 5B 18
   After xor: E6 D9 0D 07  B8 54 1B 54  93 9C 64 B8  CB FD 5B 18   [msg]
   After CAM: 49 E6 E8 ED  32 FB CA 2F  2E 55 CD AF  D0 F2 B3 05
   MIC tag  : 49 E6 E8 ED  32 FB CA 2F
   CTR Start: 01 00 00 00  08 07 06 05  A0 A1 A2 A3  A4 A5 00 01
   CTR[0001]: F2 A8 46 04  B5 2E BA C0  D7 51 34 BD  D6 54 FC 64
   CTR[0002]: E6 26 A9 24  8B E6 86 CB  92 D6 FB FC  2E F2 91 98
   CTR[MIC ]: E2 D0 49 03  7D 1B 34 07
   Total packet length =   41. [Encrypted]
              00 01 02 03  04 05 06 07  08 09 0A 0B  FE A5 48 0B
              A5 3F A8 D3  C3 44 22 AA  CE 4D E6 7F  FA 3B B7 3B
              AB AB 36 A1  EE 4F E0 FE  28



Kato, et al.                 Informational                     [Page 10]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   =============== Packet Vector #7 ==================
   CAM Key:   C0 C1 C2 C3  C4 C5 C6 C7  C8 C9 CA CB  CC CD CE CF
   Nonce =    00 00 00 09  08 07 06 A0  A1 A2 A3 A4  A5
   Total packet length =   31. [Input (8 cleartext header octets)]
              00 01 02 03  04 05 06 07  08 09 0A 0B  0C 0D 0E 0F
              10 11 12 13  14 15 16 17  18 19 1A 1B  1C 1D 1E
   CBC IV in: 61 00 00 00  09 08 07 06  A0 A1 A2 A3  A4 A5 00 17
   CBC IV out:AC F1 5D 79  99 1A 15 BF  5C DC F6 C4  45 AE 1F CB
   After xor: AC F9 5D 78  9B 19 11 BA  5A DB F6 C4  45 AE 1F CB   [hdr]
   After CAM: E9 C0 AC FD  C7 E8 E7 1D  FA E8 8B 66  95 9E 01 45
   After xor: E1 C9 A6 F6  CB E5 E9 12  EA F9 99 75  81 8B 17 52   [msg]
   After CAM: 9C FF ED 72  09 A6 7D 2A  48 B7 29 BF  D8 BE 39 59
   After xor: 84 E6 F7 69  15 BB 63 2A  48 B7 29 BF  D8 BE 39 59   [msg]
   After CAM: 4F 41 FA DE  B2 58 F3 32  54 0A 55 7A  80 4A A3 F5
   MIC tag  : 4F 41 FA DE  B2 58 F3 32  54 0A
   CTR Start: 01 00 00 00  09 08 07 06  A0 A1 A2 A3  A4 A5 00 01
   CTR[0001]: 5C 5A 2A 2D  E9 41 1F 95  9D 27 CB FF  7A 0B CF 63
   CTR[0002]: 0E D1 6A 97  57 41 32 4F  33 1B 4A 42  B1 4A 54 63
   CTR[MIC ]: E3 EE 59 62  7D 22 BD 8D  C1 79
   Total packet length =   41. [Encrypted]
              00 01 02 03  04 05 06 07  54 53 20 26  E5 4C 11 9A
              8D 36 D9 EC  6E 1E D9 74  16 C8 70 8C  4B 5C 2C AC
              AF A3 BC CF  7A 4E BF 95  73

   =============== Packet Vector #8 ==================
   CAM Key:   C0 C1 C2 C3  C4 C5 C6 C7  C8 C9 CA CB  CC CD CE CF
   Nonce =    00 00 00 0A  09 08 07 A0  A1 A2 A3 A4  A5
   Total packet length =   32. [Input (8 cleartext header octets)]
              00 01 02 03  04 05 06 07  08 09 0A 0B  0C 0D 0E 0F
              10 11 12 13  14 15 16 17  18 19 1A 1B  1C 1D 1E 1F
   CBC IV in: 61 00 00 00  0A 09 08 07  A0 A1 A2 A3  A4 A5 00 18
   CBC IV out:AD CA 1C 1D  45 E7 E2 62  58 D5 DA 46  D8 2F 69 3A
   After xor: AD C2 1C 1C  47 E4 E6 67  5E D2 DA 46  D8 2F 69 3A   [hdr]
   After CAM: FA DE 0E B4  3E CA C1 E9  69 BB 8C A4  7C 0D 80 8F
   After xor: F2 D7 04 BF  32 C7 CF E6  79 AA 9E B7  68 18 96 98   [msg]
   After CAM: D2 87 35 C2  D0 E4 AE 4E  BC C2 99 FF  B3 77 F8 A1
   After xor: CA 9E 2F D9  CC F9 B0 51  BC C2 99 FF  B3 77 F8 A1   [msg]
   After CAM: BD F6 FB 55  9E 90 C0 E7  DF 4B 0C 37  DC 42 32 A2
   MIC tag  : BD F6 FB 55  9E 90 C0 E7  DF 4B
   CTR Start: 01 00 00 00  0A 09 08 07  A0 A1 A2 A3  A4 A5 00 01
   CTR[0001]: 82 D8 91 0B  16 8A DF 47  E4 C8 39 FC  20 47 4A DB
   CTR[0002]: FB BF 26 7E  0E BB EB 6A  07 4E 29 CF  3D 12 E6 DB
   CTR[MIC ]: CE 7E 1F C4  A0 61 87 E6  2B 0A
   Total packet length =   42. [Encrypted]
              00 01 02 03  04 05 06 07  8A D1 9B 00  1A 87 D1 48
              F4 D9 2B EF  34 52 5C CC  E3 A6 3C 65  12 A6 F5 75
              73 88 E4 91  3E F1 47 01  F4 41




Kato, et al.                 Informational                     [Page 11]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   =============== Packet Vector #9 ==================
   CAM Key:   C0 C1 C2 C3  C4 C5 C6 C7  C8 C9 CA CB  CC CD CE CF
   Nonce =    00 00 00 0B  0A 09 08 A0  A1 A2 A3 A4  A5
   Total packet length =   33. [Input (8 cleartext header octets)]
              00 01 02 03  04 05 06 07  08 09 0A 0B  0C 0D 0E 0F
              10 11 12 13  14 15 16 17  18 19 1A 1B  1C 1D 1E 1F
              20
   CBC IV in: 61 00 00 00  0B 0A 09 08  A0 A1 A2 A3  A4 A5 00 19
   CBC IV out:D0 A9 A5 94  00 63 86 40  11 0D DB 40  CA F8 4A 9C
   After xor: D0 A1 A5 95  02 60 82 45  17 0A DB 40  CA F8 4A 9C   [hdr]
   After CAM: 7B CA 4E 2D  79 82 0D 1E  15 22 DD E8  37 B9 B1 F0
   After xor: 73 C3 44 26  75 8F 03 11  05 33 CF FB  23 AC A7 E7   [msg]
   After CAM: 6B 75 9F 83  C0 8F 56 64  F2 FA D5 7F  67 01 B8 21
   After xor: 73 6C 85 98  DC 92 48 7B  D2 FA D5 7F  67 01 B8 21   [msg]
   After CAM: 7D B7 BE FF  72 F3 26 74  9E 20 07 28  1E 5B 1A 8A
   MIC tag  : 7D B7 BE FF  72 F3 26 74  9E 20
   CTR Start: 01 00 00 00  0B 0A 09 08  A0 A1 A2 A3  A4 A5 00 01
   CTR[0001]: 55 B9 87 69  4C 73 60 3E  C6 1E 8E B1  D2 11 62 36
   CTR[0002]: 82 D9 A4 4B  DC C9 BB 68  A7 FE 15 A5  19 51 57 87
   CTR[MIC ]: E9 61 5C CF  BF D6 EF 8A  21 A7
   Total packet length =   43. [Encrypted]
              00 01 02 03  04 05 06 07  5D B0 8D 62  40 7E 6E 31
              D6 0F 9C A2  C6 04 74 21  9A C0 BE 50  C0 D4 A5 77
              87 94 D6 E2  30 CD 25 C9  FE BF 87

   =============== Packet Vector #10 ==================
   CAM Key:   C0 C1 C2 C3  C4 C5 C6 C7  C8 C9 CA CB  CC CD CE CF
   Nonce =    00 00 00 0C  0B 0A 09 A0  A1 A2 A3 A4  A5
   Total packet length =   31. [Input (12 cleartext header octets)]
              00 01 02 03  04 05 06 07  08 09 0A 0B  0C 0D 0E 0F
              10 11 12 13  14 15 16 17  18 19 1A 1B  1C 1D 1E
   CBC IV in: 61 00 00 00  0C 0B 0A 09  A0 A1 A2 A3  A4 A5 00 13
   CBC IV out:B1 85 73 A3  1C 6F EC 01  90 E3 CE 94  27 11 04 B9
   After xor: B1 89 73 A2  1E 6C E8 04  96 E4 C6 9D  2D 1A 04 B9   [hdr]
   After CAM: A6 AD EA 9C  FA 3F 76 78  4C 17 8A F3  DC 69 F0 82
   After xor: AA A0 E4 93  EA 2E 64 6B  58 02 9C E4  C4 70 EA 99   [msg]
   After CAM: 35 50 B7 27  78 F8 C6 BF  02 4B 65 60  05 C0 E1 ED
   After xor: 29 4D A9 27  78 F8 C6 BF  02 4B 65 60  05 C0 E1 ED   [msg]
   After CAM: 3D B5 A6 E6  85 AF 1C 58  80 B0 32 2E  01 74 91 FC
   MIC tag  : 3D B5 A6 E6  85 AF 1C 58  80 B0
   CTR Start: 01 00 00 00  0C 0B 0A 09  A0 A1 A2 A3  A4 A5 00 01
   CTR[0001]: D7 1C 82 C1  D1 A9 64 0F  93 69 CE 81  22 7E CC E8
   CTR[0002]: A7 A1 42 44  32 4E 69 FE  4C D0 36 65  A5 31 0B AB
   CTR[MIC ]: ED 27 3F 0D  94 5C 0E AA  B2 87
   Total packet length =   41. [Encrypted]
              00 01 02 03  04 05 06 07  08 09 0A 0B  DB 11 8C CE
              C1 B8 76 1C  87 7C D8 96  3A 67 D6 F3  BB BC 5C D0
              92 99 EB 11  F3 12 F2 32  37



Kato, et al.                 Informational                     [Page 12]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   =============== Packet Vector #11 ==================
   CAM Key:   C0 C1 C2 C3  C4 C5 C6 C7  C8 C9 CA CB  CC CD CE CF
   Nonce =    00 00 00 0D  0C 0B 0A A0  A1 A2 A3 A4  A5
   Total packet length =   32. [Input (12 cleartext header octets)]
              00 01 02 03  04 05 06 07  08 09 0A 0B  0C 0D 0E 0F
              10 11 12 13  14 15 16 17  18 19 1A 1B  1C 1D 1E 1F
   CBC IV in: 61 00 00 00  0D 0C 0B 0A  A0 A1 A2 A3  A4 A5 00 14
   CBC IV out:45 DF B5 07  6F BB 10 EA  F1 15 15 AD  21 4F B0 0E
   After xor: 45 D3 B5 06  6D B8 14 EF  F7 12 1D A4  2B 44 B0 0E   [hdr]
   After CAM: 17 52 F9 6D  DD BC 5B 1C  1E EB 80 FC  F6 10 AC 03
   After xor: 1B 5F F7 62  CD AD 49 0F  0A FE 96 EB  EE 09 B6 18   [msg]
   After CAM: BE F0 A0 B9  EC 94 B6 B3  E8 EC 1B 82  14 14 09 87
   After xor: A2 ED BE A6  EC 94 B6 B3  E8 EC 1B 82  14 14 09 87   [msg]
   After CAM: 70 16 E4 F9  C4 2C 30 10  84 BF EC 69  34 89 91 FD
   MIC tag  : 70 16 E4 F9  C4 2C 30 10  84 BF
   CTR Start: 01 00 00 00  0D 0C 0B 0A  A0 A1 A2 A3  A4 A5 00 01
   CTR[0001]: 70 C5 33 82  D4 80 11 41  4F 5D 2B D2  D2 67 B3 B0
   CTR[0002]: 9D 36 6E 49  39 C5 16 76  5C 1C 25 12  81 79 94 70
   CTR[MIC ]: 77 8B 4B 03  1E 3A FC DF  A8 F1
   Total packet length =   42. [Encrypted]
              00 01 02 03  04 05 06 07  08 09 0A 0B  7C C8 3D 8D
              C4 91 03 52  5B 48 3D C5  CA 7E A9 AB  81 2B 70 56
              07 9D AF FA  DA 16 CC CF  2C 4E

   =============== Packet Vector #12 ==================
   CAM Key:   C0 C1 C2 C3  C4 C5 C6 C7  C8 C9 CA CB  CC CD CE CF
   Nonce =    00 00 00 0E  0D 0C 0B A0  A1 A2 A3 A4  A5
   Total packet length =   33. [Input (12 cleartext header octets)]
              00 01 02 03  04 05 06 07  08 09 0A 0B  0C 0D 0E 0F
              10 11 12 13  14 15 16 17  18 19 1A 1B  1C 1D 1E 1F
              20
   CBC IV in: 61 00 00 00  0E 0D 0C 0B  A0 A1 A2 A3  A4 A5 00 15
   CBC IV out:81 E4 EB 1E  50 A9 70 CE  18 CA 1A 4B  68 39 80 2E
   After xor: 81 E8 EB 1F  52 AA 74 CB  1E CD 12 42  62 32 80 2E   [hdr]
   After CAM: 04 AB D9 62  34 B9 8F 32  8C 0F 08 3F  3D 87 9D 57
   After xor: 08 A6 D7 6D  24 A8 9D 21  98 1A 1E 28  25 9E 87 4C   [msg]
   After CAM: BD A2 EA CB  3A DA 6A E7  9F BB C2 2C  E6 4C 98 89
   After xor: A1 BF F4 D4  1A DA 6A E7  9F BB C2 2C  E6 4C 98 89   [msg]
   After CAM: B6 FC E1 46  D3 EA DC 91  E0 AB 10 AD  D8 55 E7 03
   MIC tag  : B6 FC E1 46  D3 EA DC 91  E0 AB
   CTR Start: 01 00 00 00  0E 0D 0C 0B  A0 A1 A2 A3  A4 A5 00 01
   CTR[0001]: 20 DE 55 87  30 C3 2C 69  B7 44 A6 FE  37 DE 89 7C
   CTR[0002]: 3F 96 32 D8  68 6D C2 B5  22 97 42 27  EB F9 26 5E
   CTR[MIC ]: 7D 45 AD 6F  94 93 E1 F5  4F DE
   Total packet length =   43. [Encrypted]
              00 01 02 03  04 05 06 07  08 09 0A 0B  2C D3 5B 88
              20 D2 3E 7A  A3 51 B0 E9  2F C7 93 67  23 8B 2C C7
              48 CB B9 4C  29 47 79 3D  64 AF 75



Kato, et al.                 Informational                     [Page 13]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   =============== Packet Vector #13 ==================
   CAM Key:   D7 5C 27 78  07 8C A9 3D  97 1F 96 FD  E7 20 F4 CD
   Nonce =    00 A9 70 11  0E 19 27 B1  60 B6 A3 1C  1C
   Total packet length =   31. [Input (8 cleartext header octets)]
              6B 7F 46 45  07 FA E4 96  C6 B5 F3 E6  CA 23 11 AE
              F7 47 2B 20  3E 73 5E A5  61 AD B1 7D  56 C5 A3
   CBC IV in: 59 00 A9 70  11 0E 19 27  B1 60 B6 A3  1C 1C 00 17
   CBC IV out:D7 24 B0 0F  B1 87 04 C6  C1 4E 90 37  AA F2 F1 F9
   After xor: D7 2C DB 70  F7 C2 03 3C  25 D8 90 37  AA F2 F1 F9   [hdr]
   After CAM: 9B 13 6D E3  D9 9F C3 6D  7D 0D B7 D8  A1 BF E9 BD
   After xor: 5D A6 9E 05  13 BC D2 C3  8A 4A 9C F8  9F CC B7 18   [msg]
   After CAM: F8 BF 25 7D  23 F8 D9 B5  82 E6 C9 3E  C8 9B 85 73
   After xor: 99 12 94 00  75 3D 7A B5  82 E6 C9 3E  C8 9B 85 73   [msg]
   After CAM: D9 D6 62 21  6D B2 CA FD  1F C6 FE 9D  2C AF 5B 69
   MIC tag  : D9 D6 62 21  6D B2 CA FD
   CTR Start: 01 00 A9 70  11 0E 19 27  B1 60 B6 A3  1C 1C 00 01
   CTR[0001]: 62 80 24 C1  FE AE CC 8C  67 38 55 98  CB 8E E5 E8
   CTR[0002]: F2 30 17 2F  1B 71 55 9F  8B CE 79 E5  13 01 FC 6A
   CTR[MIC ]: 9C 8E A2 0C  48 03 ED 13
   Total packet length =   39. [Encrypted]
              6B 7F 46 45  07 FA E4 96  A4 35 D7 27  34 8D DD 22
              90 7F 7E B8  F5 FD BB 4D  93 9D A6 52  4D B4 F6 45
              58 C0 2D 25  B1 27 EE

   =============== Packet Vector #14 ==================
   CAM Key:   D7 5C 27 78  07 8C A9 3D  97 1F 96 FD  E7 20 F4 CD
   Nonce =    00 83 CD 8C  E0 CB 42 B1  60 B6 A3 1C  1C
   Total packet length =   32. [Input (8 cleartext header octets)]
              98 66 05 B4  3D F1 5D E7  01 F6 CE 67  64 C5 74 48
              3B B0 2E 6B  BF 1E 0A BD  26 A2 25 72  B4 D8 0E E7
   CBC IV in: 59 00 83 CD  8C E0 CB 42  B1 60 B6 A3  1C 1C 00 18
   CBC IV out:A0 8A 29 78  36 23 1D 84  96 76 93 FF  0A 4C 92 7A
   After xor: A0 82 B1 1E  33 97 20 75  CB 91 93 FF  0A 4C 92 7A   [hdr]
   After CAM: 8C F5 F4 23  BF 09 1C 74  CD 47 00 C1  32 5D 5C 92
   After xor: 8D 03 3A 44  DB CC 68 3C  F6 F7 2E AA  8D 43 56 2F   [msg]
   After CAM: 69 DA 48 24  41 1E AC 8E  A9 0A CD 8B  DD 00 2B 9A
   After xor: 4F 78 6D 56  F5 C6 A2 69  A9 0A CD 8B  DD 00 2B 9A   [msg]
   After CAM: C2 03 3B 08  6D B3 CB 3B  2C C8 5D E7  76 A1 C0 44
   MIC tag  : C2 03 3B 08  6D B3 CB 3B
   CTR Start: 01 00 83 CD  8C E0 CB 42  B1 60 B6 A3  1C 1C 00 01
   CTR[0001]: 8B 16 9C 37  EB 7B BE DB  15 84 41 6E  5F C2 07 46
   CTR[0002]: E9 31 BB DD  4E E6 56 9B  68 95 13 5F  AB A4 DF EF
   CTR[MIC ]: 44 7E 55 14  25 C3 F3 3D
   Total packet length =   40. [Encrypted]
              98 66 05 B4  3D F1 5D E7  8A E0 52 50  8F BE CA 93
              2E 34 6F 05  E0 DC 0D FB  CF 93 9E AF  FA 3E 58 7C
              86 7D 6E 1C  48 70 38 06




Kato, et al.                 Informational                     [Page 14]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   =============== Packet Vector #15 ==================
   CAM Key:   D7 5C 27 78  07 8C A9 3D  97 1F 96 FD  E7 20 F4 CD
   Nonce =    00 5F 54 95  0B 18 F2 B1  60 B6 A3 1C  1C
   Total packet length =   33. [Input (8 cleartext header octets)]
              48 F2 E7 E1  A7 67 1A 51  CD F1 D8 40  6F C2 E9 01
              49 53 89 70  05 FB FB 8B  A5 72 76 F9  24 04 60 8E
              08
   CBC IV in: 59 00 5F 54  95 0B 18 F2  B1 60 B6 A3  1C 1C 00 19
   CBC IV out:76 74 53 37  95 23 3C F0  EB 77 CE 93  73 06 99 A8
   After xor: 76 7C 1B C5  72 C2 9B 97  F1 26 CE 93  73 06 99 A8   [hdr]
   After CAM: EF 79 8B 70  34 E4 D5 6B  57 3A F9 44  F0 AF D6 9A
   After xor: 22 88 53 30  5B 26 3C 6A  1E 69 70 34  F5 54 2D 11   [msg]
   After CAM: 63 BF 4E 10  01 79 38 0B  E4 EC C1 39  B2 B4 3B 8C
   After xor: C6 CD 38 E9  25 7D 58 85  EC EC C1 39  B2 B4 3B 8C   [msg]
   After CAM: 39 E1 0E FA  BD 2F 43 00  50 9E E7 EB  A4 FF 6B 8F
   MIC tag  : 39 E1 0E FA  BD 2F 43 00
   CTR Start: 01 00 5F 54  95 0B 18 F2  B1 60 B6 A3  1C 1C 00 01
   CTR[0001]: C5 47 A6 A2  73 49 1B 6F  0E 6D C9 F5  9C 12 3B 08
   CTR[0002]: C8 18 86 42  3C DB 35 C8  64 4D 8C 4C  58 01 47 27
   CTR[MIC ]: 91 E9 76 5D  2D 68 2E E5
   Total packet length =   41. [Encrypted]
              48 F2 E7 E1  A7 67 1A 51  08 B6 7E E2  1C 8B F2 6E
              47 3E 40 85  99 E9 C0 83  6D 6A F0 BB  18 DF 55 46
              6C A8 08 78  A7 90 47 6D  E5

   =============== Packet Vector #16 ==================
   CAM Key:   D7 5C 27 78  07 8C A9 3D  97 1F 96 FD  E7 20 F4 CD
   Nonce =    00 EC 60 08  63 31 9A B1  60 B6 A3 1C  1C
   Total packet length =   31. [Input (12 cleartext header octets)]
              DE 97 DF 3B  8C BD 6D 8E  50 30 DA 4C  B0 05 DC FA
              0B 59 18 14  26 A9 61 68  5A 99 3D 8C  43 18 5B
   CBC IV in: 59 00 EC 60  08 63 31 9A  B1 60 B6 A3  1C 1C 00 13
   CBC IV out:78 EE 05 5A  88 48 E3 5B  8A 45 46 8F  35 4F 0C A2
   After xor: 78 E2 DB CD  57 73 6F E6  E7 CB 16 BF  EF 03 0C A2   [hdr]
   After CAM: A9 C6 7F 15  00 1A C6 92  81 67 BD EC  DF D2 35 C9
   After xor: 19 C3 A3 EF  0B 43 DE 86  A7 CE DC 84  85 4B 08 45   [msg]
   After CAM: 7C A8 9C 90  46 42 4B E2  4D 96 DF CF  BA 12 FD 18
   After xor: 3F B0 C7 90  46 42 4B E2  4D 96 DF CF  BA 12 FD 18   [msg]
   After CAM: 89 C7 B4 E8  A4 24 8C 6C  52 ED 34 50  E3 53 AD F5
   MIC tag  : 89 C7 B4 E8  A4 24 8C 6C
   CTR Start: 01 00 EC 60  08 63 31 9A  B1 60 B6 A3  1C 1C 00 01
   CTR[0001]: D3 B2 57 B3  6C E8 86 CF  91 9A AC 79  4E 6F 73 3E
   CTR[0002]: 65 10 C8 72  39 AF 0F 52  9F D0 A4 DF  54 BF D6 EB
   CTR[MIC ]: E1 04 E0 6A  29 B1 80 A9
   Total packet length =   39. [Encrypted]
              DE 97 DF 3B  8C BD 6D 8E  50 30 DA 4C  63 B7 8B 49
              67 B1 9E DB  B7 33 CD 11  14 F6 4E B2  26 08 93 68
              C3 54 82 8D  95 0C C5



Kato, et al.                 Informational                     [Page 15]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   =============== Packet Vector #17 ==================
   CAM Key:   D7 5C 27 78  07 8C A9 3D  97 1F 96 FD  E7 20 F4 CD
   Nonce =    00 60 CF F1  A3 1E A1 B1  60 B6 A3 1C  1C
   Total packet length =   32. [Input (12 cleartext header octets)]
              A5 EE 93 E4  57 DF 05 46  6E 78 2D CF  2E 20 21 12
              98 10 5F 12  9D 5E D9 5B  93 F7 2D 30  B2 FA CC D7
   CBC IV in: 59 00 60 CF  F1 A3 1E A1  B1 60 B6 A3  1C 1C 00 14
   CBC IV out:C3 34 69 7D  11 38 73 06  BD 34 E2 10  1F 66 17 E8
   After xor: C3 38 CC 93  82 DC 24 D9  B8 72 8C 68  32 A9 17 E8   [hdr]
   After CAM: 43 6F 37 74  AB 94 3B 41  EA AD 00 CA  C3 99 13 7B
   After xor: 6D 4F 16 66  33 84 64 53  77 F3 D9 91  50 6E 3E 4B   [msg]
   After CAM: 2D 28 FB 62  DA 06 97 A7  4C D4 31 B8  B5 AE AE EE
   After xor: 9F D2 37 B5  DA 06 97 A7  4C D4 31 B8  B5 AE AE EE   [msg]
   After CAM: F3 DE 10 CD  91 4D B1 B6  CC 37 F0 A2  4A 5A B7 A1
   MIC tag  : F3 DE 10 CD  91 4D B1 B6
   CTR Start: 01 00 60 CF  F1 A3 1E A1  B1 60 B6 A3  1C 1C 00 01
   CTR[0001]: 25 E6 9A F0  30 A9 56 E6  FF C0 3F 87  87 7A 89 74
   CTR[0002]: A2 1B 46 23  76 A2 1E DD  F2 AC 4B EC  42 95 3D D3
   CTR[MIC ]: C2 99 28 FF  E7 BB DB 29
   Total packet length =   40. [Encrypted]
              A5 EE 93 E4  57 DF 05 46  6E 78 2D CF  0B C6 BB E2
              A8 B9 09 F4  62 9E E6 DC  14 8D A4 44  10 E1 8A F4
              31 47 38 32  76 F6 6A 9F

   =============== Packet Vector #18 ==================
   CAM Key:   D7 5C 27 78  07 8C A9 3D  97 1F 96 FD  E7 20 F4 CD
   Nonce =    00 0F 85 CD  99 5C 97 B1  60 B6 A3 1C  1C
   Total packet length =   33. [Input (12 cleartext header octets)]
              24 AA 1B F9  A5 CD 87 61  82 A2 50 74  26 45 94 1E
              75 63 2D 34  91 AF 0F C0  C9 87 6C 3B  E4 AA 74 68
              C9
   CBC IV in: 59 00 0F 85  CD 99 5C 97  B1 60 B6 A3  1C 1C 00 15
   CBC IV out:72 0A 46 75  0F 40 59 53  F2 3B D2 1F  6A 11 60 F6
   After xor: 72 06 62 DF  14 B9 FC 9E  75 5A 50 BD  3A 65 60 F6   [hdr]
   After CAM: 67 73 A0 FD  D5 7E D3 5E  E8 24 06 D0  A1 8B 0E 18
   After xor: 41 36 34 E3  A0 1D FE 6A  79 8B 09 10  68 0C 62 23   [msg]
   After CAM: BB 1E D8 9F  60 29 D0 99  09 14 06 A5  E3 8B 72 7B
   After xor: 5F B4 AC F7  A9 29 D0 99  09 14 06 A5  E3 8B 72 7B   [msg]
   After CAM: 3E 4F 40 73  D1 31 E9 B8  02 C8 99 BC  FD AC 19 4B
   MIC tag  : 3E 4F 40 73  D1 31 E9 B8
   CTR Start: 01 00 0F 85  CD 99 5C 97  B1 60 B6 A3  1C 1C 00 01
   CTR[0001]: 04 6F 42 2C  8F 52 FB 9B  06 A3 3B 9F  B7 F0 A6 00
   CTR[0002]: 34 76 51 DB  89 10 FB E6  73 E8 56 6E  DB 66 47 5D
   CTR[MIC ]: 9F EC 93 6C  5C 7A AD 0F
   Total packet length =   41. [Encrypted]
              24 AA 1B F9  A5 CD 87 61  82 A2 50 74  22 2A D6 32
              FA 31 D6 AF  97 0C 34 5F  7E 77 CA 3B  D0 DC 25 B3
              40 A1 A3 D3  1F 8D 4B 44  B7



Kato, et al.                 Informational                     [Page 16]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   =============== Packet Vector #19 ==================
   CAM Key:   D7 5C 27 78  07 8C A9 3D  97 1F 96 FD  E7 20 F4 CD
   Nonce =    00 C2 9B 2C  AA C4 CD B1  60 B6 A3 1C  1C
   Total packet length =   31. [Input (8 cleartext header octets)]
              69 19 46 B9  CA 07 BE 87  07 01 35 A6  43 7C 9D B1
              20 CD 61 D8  F6 C3 9C 3E  A1 25 FD 95  A0 D2 3D
   CBC IV in: 61 00 C2 9B  2C AA C4 CD  B1 60 B6 A3  1C 1C 00 17
   CBC IV out:74 AD F8 04  05 2A 48 E7  46 97 38 D5  BA A1 27 79
   After xor: 74 A5 91 1D  43 93 82 E0  F8 10 38 D5  BA A1 27 79   [hdr]
   After CAM: BD C3 B1 41  1C 64 C8 B3  A9 DC 6A 94  78 97 88 E2
   After xor: BA C2 84 E7  5F 18 55 02  89 11 0B 4C  8E 54 14 DC   [msg]
   After CAM: 7D 6C 8A BF  AD 68 48 D8  C5 FB CD 1E  AF F2 44 99
   After xor: DC 49 77 2A  0D BA 75 D8  C5 FB CD 1E  AF F2 44 99   [msg]
   After CAM: 19 99 AB 92  5E 30 46 96  3D EF FB 1B  4C 87 F7 76
   MIC tag  : 19 99 AB 92  5E 30 46 96  3D EF
   CTR Start: 01 00 C2 9B  2C AA C4 CD  B1 60 B6 A3  1C 1C 00 01
   CTR[0001]: 02 B9 D4 1F  87 E0 60 E7  EF DE 6B 7E  D3 DE 5E D2
   CTR[0002]: 61 49 31 C5  2F 34 AA 47  A3 E4 D3 2C  0B 36 41 C6
   CTR[MIC ]: B9 9F C6 C5  96 7B AA 8E  1A 87
   Total packet length =   41. [Encrypted]
              69 19 46 B9  CA 07 BE 87  05 B8 E1 B9  C4 9C FD 56
              CF 13 0A A6  25 1D C2 EC  C0 6C CC 50  8F E6 97 A0
              06 6D 57 C8  4B EC 18 27  68

   =============== Packet Vector #20 ==================
   CAM Key:   D7 5C 27 78  07 8C A9 3D  97 1F 96 FD  E7 20 F4 CD
   Nonce =    00 2C 6B 75  95 EE 62 B1  60 B6 A3 1C  1C
   Total packet length =   32. [Input (8 cleartext header octets)]
              D0 C5 4E CB  84 62 7D C4  C8 C0 88 0E  6C 63 6E 20
              09 3D D6 59  42 17 D2 E1  88 77 DB 26  4E 71 A5 CC
   CBC IV in: 61 00 2C 6B  75 95 EE 62  B1 60 B6 A3  1C 1C 00 18
   CBC IV out:35 A9 48 70  F9 B0 C7 85  FB 32 1A D1  3C 8C A4 9A
   After xor: 35 A1 98 B5  B7 7B 43 E7  86 F6 1A D1  3C 8C A4 9A   [hdr]
   After CAM: 0A 3C E3 0F  AC 09 DC 5C  00 10 5C 69  AC 19 F7 19
   After xor: C2 FC 6B 01  C0 6A B2 7C  09 2D 8A 30  EE 0E 25 F8   [msg]
   After CAM: 61 CD 80 D0  72 E6 84 E1  BF E1 4A 00  27 2A 4D 96
   After xor: E9 BA 5B F6  3C 97 21 2D  BF E1 4A 00  27 2A 4D 96   [msg]
   After CAM: E5 F9 F2 AB  47 FD 7B 8D  6F 72 F4 72  74 D7 69 BB
   MIC tag  : E5 F9 F2 AB  47 FD 7B 8D  6F 72
   CTR Start: 01 00 2C 6B  75 95 EE 62  B1 60 B6 A3  1C 1C 00 01
   CTR[0001]: 9C 0E 31 66  B2 81 58 31  5E 63 16 5A  9D BD CE 35
   CTR[0002]: 00 3E 66 D3  E0 5F 7E A7  EF C8 9A 5F  DD 39 E3 54
   CTR[MIC ]: 9A 5E 87 1A  17 10 38 0E  AA DB
   Total packet length =   42. [Encrypted]
              D0 C5 4E CB  84 62 7D C4  54 CE B9 68  DE E2 36 11
              57 5E C0 03  DF AA 1C D4  88 49 BD F5  AE 2E DB 6B
              7F A7 75 B1  50 ED 43 83  C5 A9




Kato, et al.                 Informational                     [Page 17]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   =============== Packet Vector #21 ==================
   CAM Key:   D7 5C 27 78  07 8C A9 3D  97 1F 96 FD  E7 20 F4 CD
   Nonce =    00 C5 3C D4  C2 AA 24 B1  60 B6 A3 1C  1C
   Total packet length =   33. [Input (8 cleartext header octets)]
              E2 85 E0 E4  80 8C DA 3D  F7 5D AA 07  10 C4 E6 42
              97 79 4D C2  B7 D2 A2 07  57 B1 AA 4E  44 80 02 FF
              AB
   CBC IV in: 61 00 C5 3C  D4 C2 AA 24  B1 60 B6 A3  1C 1C 00 19
   CBC IV out:2A 3C 23 B2  43 F5 1C 35  F7 79 5A CB  3B 20 21 2F
   After xor: 2A 34 C1 37  A3 11 9C B9  2D 44 5A CB  3B 20 21 2F   [hdr]
   After CAM: A1 7E AD 4C  EE AB 51 21  1D 2A 32 F2  D4 45 A6 D6
   After xor: 56 23 07 4B  FE 6F B7 63  8A 53 7F 30  63 97 04 D1   [msg]
   After CAM: A9 A1 32 55  8F C6 9B 98  A9 CC 23 96  FE CA 84 EB
   After xor: FE 10 98 1B  CB 46 99 67  02 CC 23 96  FE CA 84 EB   [msg]
   After CAM: 6A 5E 04 42  D1 A5 7E 17  9A 6C 8B 56  F7 19 80 C5
   MIC tag  : 6A 5E 04 42  D1 A5 7E 17  9A 6C
   CTR Start: 01 00 C5 3C  D4 C2 AA 24  B1 60 B6 A3  1C 1C 00 01
   CTR[0001]: 46 1D EF 41  AF A2 94 52  5D 51 AE CB  04 49 74 CD
   CTR[0002]: 29 2E 62 66  1B 66 9A 2B  97 72 6B 77  32 A8 DC 35
   CTR[MIC ]: B8 54 06 A2  6C 6F 93 37  8A BF
   Total packet length =   43. [Encrypted]
              E2 85 E0 E4  80 8C DA 3D  B1 40 45 46  BF 66 72 10
              CA 28 E3 09  B3 9B D6 CA  7E 9F C8 28  5F E6 98 D4
              3C D2 0A 02  E0 BD CA ED  20 10 D3

   =============== Packet Vector #22 ==================
   CAM Key:   D7 5C 27 78  07 8C A9 3D  97 1F 96 FD  E7 20 F4 CD
   Nonce =    00 BE E9 26  7F BA DC B1  60 B6 A3 1C  1C
   Total packet length =   31. [Input (12 cleartext header octets)]
              6C AE F9 94  11 41 57 0D  7C 81 34 05  C2 38 82 2F
              AC 5F 98 FF  92 94 05 B0  AD 12 7A 4E  41 85 4E
   CBC IV in: 61 00 BE E9  26 7F BA DC  B1 60 B6 A3  1C 1C 00 13
   CBC IV out:20 60 6A D1  E1 A0 84 52  2F A3 8B F4  88 1D D6 8B
   After xor: 20 6C 06 7F  18 34 95 13  78 AE F7 75  BC 18 D6 8B   [hdr]
   After CAM: 71 FD FF E7  D9 C8 95 75  D3 EC 0B 7E  7B 8B BE E7
   After xor: B3 C5 7D C8  75 97 0D 8A  41 78 0E CE  D6 99 C4 A9   [msg]
   After CAM: CA AD 93 9C  59 BA 40 AA  1A 0B 88 1B  EE 3D 3C 65
   After xor: 8B 28 DD 9C  59 BA 40 AA  1A 0B 88 1B  EE 3D 3C 65   [msg]
   After CAM: DC 48 8F AA  9C 75 E7 03  17 56 C2 C7  48 48 8D 1B
   MIC tag  : DC 48 8F AA  9C 75 E7 03  17 56
   CTR Start: 01 00 BE E9  26 7F BA DC  B1 60 B6 A3  1C 1C 00 01
   CTR[0001]: 56 F0 17 B3  BD 09 02 D6  EA A5 A2 91  AD 4A 2D E5
   CTR[0002]: 20 3D 34 21  EF 5B F8 FC  7B 21 5C 76  7B A5 21 A6
   CTR[MIC ]: F1 A2 86 9C  2A 9E B8 61  48 0B
   Total packet length =   41. [Encrypted]
              6C AE F9 94  11 41 57 0D  7C 81 34 05  94 C8 95 9C
              11 56 9A 29  78 31 A7 21  00 58 57 AB  61 B8 7A 2D
              EA 09 36 B6  EB 5F 62 5F  5D



Kato, et al.                 Informational                     [Page 18]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   =============== Packet Vector #23 ==================
   CAM Key:   D7 5C 27 78  07 8C A9 3D  97 1F 96 FD  E7 20 F4 CD
   Nonce =    00 DF A8 B1  24 50 07 B1  60 B6 A3 1C  1C
   Total packet length =   32. [Input (12 cleartext header octets)]
              36 A5 2C F1  6B 19 A2 03  7A B7 01 1E  4D BF 3E 77
              4A D2 45 E5  D5 89 1F 9D  1C 32 A0 AE  02 2C 85 D7
   CBC IV in: 61 00 DF A8  B1 24 50 07  B1 60 B6 A3  1C 1C 00 14
   CBC IV out:78 FD B6 AF  61 9E 1C 8D  82 41 17 A8  73 60 1B 70
   After xor: 78 F1 80 0A  4D 6F 77 94  20 42 6D 1F  72 7E 1B 70   [hdr]
   After CAM: 62 2E 28 65  92 43 DB 82  88 79 09 1E  A7 24 54 67
   After xor: 2F 91 16 12  D8 91 9E 67  5D F0 16 83  BB 16 F4 C9   [msg]
   After CAM: 95 0E 52 08  FF 16 70 8C  1E D9 BB 06  3E 1E 41 CF
   After xor: 97 22 D7 DF  FF 16 70 8C  1E D9 BB 06  3E 1E 41 CF   [msg]
   After CAM: BA CD 51 FC  77 F4 02 8D  47 D5 7D 54  7D 46 33 4B
   MIC tag  : BA CD 51 FC  77 F4 02 8D  47 D5
   CTR Start: 01 00 DF A8  B1 24 50 07  B1 60 B6 A3  1C 1C 00 01
   CTR[0001]: 15 D6 DD DD  98 96 39 91  35 75 1A 64  B8 D8 D4 F9
   CTR[0002]: 7D 61 6D 1D  EB 92 00 2B  6F FA AB 53  BC AF 69 89
   CTR[MIC ]: 33 E9 27 BE  E1 59 06 9C  DB 32
   Total packet length =   42. [Encrypted]
              36 A5 2C F1  6B 19 A2 03  7A B7 01 1E  58 69 E3 AA
              D2 44 7C 74  E0 FC 05 F9  A4 EA 74 57  7F 4D E8 CA
              89 24 76 42  96 AD 04 11  9C E7

   =============== Packet Vector #24 ==================
   CAM Key:   D7 5C 27 78  07 8C A9 3D  97 1F 96 FD  E7 20 F4 CD
   Nonce =    00 3B 8F D8  D3 A9 37 B1  60 B6 A3 1C  1C
   Total packet length =   33. [Input (12 cleartext header octets)]
              A4 D4 99 F7  84 19 72 8C  19 17 8B 0C  9D C9 ED AE
              2F F5 DF 86  36 E8 C6 DE  0E ED 55 F7  86 7E 33 33
              7D
   CBC IV in: 61 00 3B 8F  D8 D3 A9 37  B1 60 B6 A3  1C 1C 00 15
   CBC IV out:84 E6 CF DD  6A 37 68 5D  E6 71 AD 54  B3 BE FE B9
   After xor: 84 EA 6B 09  F3 C0 EC 44  94 FD B4 43  38 B2 FE B9   [hdr]
   After CAM: C5 0F A0 62  20 18 F1 21  0E BC 3D 2E  47 B7 B8 C3
   After xor: 58 C6 4D CC  0F ED 2E A7  38 54 FB F0  49 5A ED 34   [msg]
   After CAM: C4 6F 6D C3  17 3C 2A 7A  81 FC 2D DA  7F B7 C6 60
   After xor: 42 11 5E F0  6A 3C 2A 7A  81 FC 2D DA  7F B7 C6 60   [msg]
   After CAM: DF AB 2E 76  B0 67 50 B3  7C DD 9A AC  F3 79 17 71
   MIC tag  : DF AB 2E 76  B0 67 50 B3  7C DD
   CTR Start: 01 00 3B 8F  D8 D3 A9 37  B1 60 B6 A3  1C 1C 00 01
   CTR[0001]: D6 D0 6C F8  16 CE D0 F1  A0 E0 AC 71  BA B9 AD 34
   CTR[0002]: 76 4A FF 9A  1B F8 55 1F  68 54 39 0A  EE 37 24 28
   CTR[MIC ]: 4B F4 31 B8  17 86 4B 5D  16 F2
   Total packet length =   43. [Encrypted]
              A4 D4 99 F7  84 19 72 8C  19 17 8B 0C  4B 19 81 56
              39 3B 0F 77  96 08 6A AF  B4 54 F8 C3  F0 34 CC A9
              66 94 5F 1F  CE A7 E1 1B  EE 6A 2F



Kato, et al.                 Informational                     [Page 19]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


5.  Security Considerations

   Camellia-CTR and Camellia-CCM employ CTR mode for confidentiality.
   For the security of CTR mode, refer to the Security Considerations of
   [16].

6.  Acknowledgments

   Thanks to Rui Hodai for comments and suggestions.  Special thanks to
   Alfred Hoenes for several very detailed reviews and suggestions.

7.  References

7.1.  Normative References

   [1]   Matsui, M., Nakajima, J., and S. Moriai, "A Description of the
         Camellia Encryption Algorithm", RFC 3713, April 2004.

   [2]   Bradner, S., "Key words for use in RFCs to Indicate Requirement
         Levels", BCP 14, RFC 2119, March 1997.

   [3]   Dworkin, M., "Recommendation for Block Cipher Modes of
         Operation - Methods and Techniques", NIST Special
         Publication 800-38A, December 2001, <http://csrc.nist.gov/
         publications/nistpubs/800-38a/sp800-38a.pdf>.

   [4]   National Institute of Standards and Technology, "Recommendation
         for Block Cipher Modes Operation : The CCM Mode for
         Authentication and Confidentiality", May 2004, <http://
         csrc.nist.gov/publications/nistpubs/800-38C/SP800-38C.pdf>.

7.2.  Informative References

   [5]   National Institute of Standards and Technology, "Advanced
         Encryption Standard (AES)", FIPS PUB 197, November 2001,
         <http://csrc.nist.gov/publications/fips/fips197/fips-197.pdf>.

   [6]   Kato, A., Moriai, S., and M. Kanda, "The Camellia Cipher
         Algorithm and Its Use With IPsec", RFC 4312, December 2005.

   [7]   Moriai, S., Kato, A., and M. Kanda, "Addition of Camellia
         Cipher Suites to Transport Layer Security (TLS)", RFC 4132,
         July 2005.

   [8]   Moriai, S. and A. Kato, "Use of the Camellia Encryption
         Algorithm in Cryptographic Message Syntax (CMS)", RFC 3657,
         January 2004.




Kato, et al.                 Informational                     [Page 20]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


   [9]   Eastlake, D., "Additional XML Security Uniform Resource
         Identifiers (URIs)", RFC 4051, April 2005.

   [10]  International Organization for Standardization, "Information
         technology - Security techniques - Encryption algorithms - Part
         3: Block ciphers", ISO/IEC 18033-3, July 2005.

   [11]  "The NESSIE project (New European Schemes for Signatures,
         Integrity and Encryption)",
         <http://www.cosic.esat.kuleuven.be/nessie/>.

   [12]  Information-technology Promotion Agency (IPA), "Cryptography
         Research and Evaluation Committees",
         <http://www.ipa.go.jp/security/enc/CRYPTREC/index-e.html>.

   [13]  "Camellia open source software",
         <http://info.isl.ntt.co.jp/crypt/eng/camellia/source.html>.

   [14]  "Camellia web site", <http://info.isl.ntt.co.jp/camellia/>.

   [15]  Whiting, D., Housley, R., and N. Ferguson, "Counter with CBC-
         MAC (CCM)", RFC 3610, September 2003.

   [16]  Housley, R., "Using Advanced Encryption Standard (AES) Counter
         Mode With IPsec Encapsulating Security Payload (ESP)",
         RFC 3686, January 2004.

























Kato, et al.                 Informational                     [Page 21]
RFC 5528        Camellia-CTR and Camellia-CCM algorithms      April 2009


Authors' Addresses

   Akihiro Kato
   NTT Software Corporation

   Phone: +81-45-212-7577
   Fax:   +81-45-212-9800
   EMail: akato@po.ntts.co.jp


   Masayuki Kanda
   NTT

   Phone: +81-422-59-3456
   Fax:   +81-422-59-4015
   EMail: kanda.masayuki@lab.ntt.co.jp


   Satoru Kanno
   NTT Software Corporation

   Phone: +81-45-212-7577
   Fax:   +81-45-212-9800
   EMail: kanno-s@po.ntts.co.jp



























Kato, et al.                 Informational                     [Page 22]
  1. RFC 5528