针对云存储中数据完整性检查的问题提出一种高效的动态数据持有性证明方案.数据所有者(Owner)利用哈希-异或运算预先生成一定量的验证标签,并将其加密后与数据一起存储在服务提供者(Cloud Service Provider,CSP)端,执行数据持有性检查时...针对云存储中数据完整性检查的问题提出一种高效的动态数据持有性证明方案.数据所有者(Owner)利用哈希-异或运算预先生成一定量的验证标签,并将其加密后与数据一起存储在服务提供者(Cloud Service Provider,CSP)端,执行数据持有性检查时,Owner通过验证CSP生成的验证值是否等于预计算的验证标签来确定数据是否是完整的.通过建立数据块逻辑序号(Serial Number,SN)与物理序号(Block Number,BN)映射表,利用SN和BN分别作为计算验证标签时选择分块和获取分块值的索引,并通过将所有SN模分块总数同余的分块包含在相同标签中,实现了对数据块修改、删除、插入和追加操作的支持.对方案的安全性进行了证明,性能分析与测试表明该方案具有低计算、存储和传输负载的特点.展开更多
To check the remote data integrity in cloud computing,we have proposed an efficient and full data dynamic provable data possession(PDP) scheme that uses a SN(serial number)-BN(block number) table to support data...To check the remote data integrity in cloud computing,we have proposed an efficient and full data dynamic provable data possession(PDP) scheme that uses a SN(serial number)-BN(block number) table to support data block update.In this article,we first analyze and test its performance in detail.The result shows that our scheme is efficient with low computation,storage,and communication costs.Then,we discuss how to extend the dynamic scheme to support other features,including public auditability,privacy preservation,fairness,and multiple-replica checking.After being extended,a comprehensive PDP scheme that has high efficiency and satisfies all main requirements is provided.展开更多
文摘针对云存储中数据完整性检查的问题提出一种高效的动态数据持有性证明方案.数据所有者(Owner)利用哈希-异或运算预先生成一定量的验证标签,并将其加密后与数据一起存储在服务提供者(Cloud Service Provider,CSP)端,执行数据持有性检查时,Owner通过验证CSP生成的验证值是否等于预计算的验证标签来确定数据是否是完整的.通过建立数据块逻辑序号(Serial Number,SN)与物理序号(Block Number,BN)映射表,利用SN和BN分别作为计算验证标签时选择分块和获取分块值的索引,并通过将所有SN模分块总数同余的分块包含在相同标签中,实现了对数据块修改、删除、插入和追加操作的支持.对方案的安全性进行了证明,性能分析与测试表明该方案具有低计算、存储和传输负载的特点.
基金Supported by the National Basic"863"Research Program of China(2012CB315901)
文摘To check the remote data integrity in cloud computing,we have proposed an efficient and full data dynamic provable data possession(PDP) scheme that uses a SN(serial number)-BN(block number) table to support data block update.In this article,we first analyze and test its performance in detail.The result shows that our scheme is efficient with low computation,storage,and communication costs.Then,we discuss how to extend the dynamic scheme to support other features,including public auditability,privacy preservation,fairness,and multiple-replica checking.After being extended,a comprehensive PDP scheme that has high efficiency and satisfies all main requirements is provided.