BS ISO/IEC 11770-4-2006 信息技术.安全技术.密钥管理.基于弱机密的管理机制
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标准号:BS ISO/IEC 11770-4-2006
中文标准名称:信息技术.安全技术.密钥管理.基于弱机密的管理机制
英文标准名称:Information technology - Security techniques - Key management - Mechanisms based on weak secrets
标准类型:L80
发布日期:2006/8/31 12:00:00
实施日期:2006/8/31 12:00:00
中国标准分类号:L80
国际标准分类号:35.040
适用范围:This part of ISO/IEC 11770 defines key establishment mechanisms based on weak secrets, i.e., secrets that can be readily memorized by a human, and hence secrets that will be chosen from a relatively small set of possibilities. It specifies cryptographic techniques specifically designed to establish one or more secret keys based on a weak secret derived from a memorized password, while preventing off-line brute-force attacks associated with the weak secret. More specifically, these mechanisms are designed to achieve one of the following three goals. 1) Balanced password-authenticated key agreement: Establish one or more shared secret keys between two entities that share a common weak secret. In a balanced password-authenticated key agreement mechanism, the shared secret keys are the result of a data exchange between the two entities, the shared secret keys are established if and only if the two entities have used the same weak secret, and neither of the two entities can predetermine the values of the shared secret keys. 2) Augmented password-authenticated key agreement: Establish one or more shared secret keys between two entities A and B, where A has a weak secret and 6 has verification data derived from a one-way function of A's weak secret. In an augmented password-authenticated key agreement mechanism, the shared secret keys are the result of a data exchange between the two entities, the shared secret keys are established if and only if the two entities have used the weak secret and the corresponding verification data, and neither of the two entities can predetermine the values of the shared secret keys. NOTE - This type of key agreement mechanism is unable to protect A's weak secret being discovered by 6, but only increases the cost for an adversary to get A's weak secret from 6. Therefore it is normally used between a client (A) and a server (6). 3) Password-authenticated key retrieval: Establish one or more secret keys for an entity, A, associated with another entity, 6, where A has a weak secret and B has a strong secret associated with A's weak secret. In an authenticated key retrieval mechanism, the secret keys, retrievable by A (not necessarily derivable by 6), are the result of a data exchange between the two entities, and the secret keys are established if and only if the two entities have used the weak secret and the associated strong secret. However, although B's strong secret is associated with A's weak secret, the strong secret does not (in itself) contain sufficient information to permit either the weak secret or the secret keys established in the mechanism to be determined. NOTE - This type of key retrieval mechanism is used in those applications where A does not have secure storage for a strong secret, and requires B's assistance to retrieve the strong secret for her. It is normally used between a client (A) and a server (6). This part of ISO/IEC 11770 does not cover aspects of key management such as — lifecycle management of weak secrets, strong secrets and established secret keys; — mechanisms to store, archive, delete, destroy, etc. weak secrets, strong secrets, and established secret keys. NOTE - The keys generated or retrieved through the use of weak secrets cannot be more secure against exhaustion than the sum of the weak secrets themselves. With this proviso, the mechanisms specified in this part of ISO/IEC 11770 are recommended for practical use in low-security environments.
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