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Key-Aggregate Cryptosystem for Scalable Data Sharing in 
Cloud Storage 
ABSTRACT: 
Data sharing is an important functionality in cloud storage. In this paper, we show 
how to securely, efficiently, and flexibly share data with others in cloud storage. 
We describe new public-key cryptosystems that produce constant-size ciphertexts 
such that efficient delegation of decryption rights for any set of ciphertexts are 
possible. The novelty is that one can aggregate any set of secret keys and make 
them as compact as a single key, but encompassing the power of all the keys being 
aggregated. In other words, the secret key holder can release a constant-size 
aggregate key for flexible choices of ciphertext set in cloud storage, but the other 
encrypted files outside the set remain confidential. This compact aggregate key can 
be conveniently sent to others or be stored in a smart card with very limited secure 
storage. We provide formal security analysis of our schemes in the standard model. 
We also describe other application of our schemes. In particular, our schemes give 
the first public-key patient-controlled encryption for flexible hierarchy, which was 
yet to be known.
EXISTING SYSTEM: 
Considering data privacy, a traditional way to ensure it is to rely on the server to 
enforce the access control after authentication, which means any unexpected 
privilege escalation will expose all data. In a shared-tenancy cloud computing 
environment, things become even worse. 
Regarding availability of files, there are a series of cryptographic schemes which 
go as far as allowing a third-party auditor to check the availability of files on 
behalf of the data owner without leaking anything about the data, or without 
compromising the data owners anonymity. Likewise, cloud users probably will not 
hold the strong belief that the cloud server is doing a good job in terms of 
confidentiality. 
A cryptographic solution, with proven security relied on number-theoretic 
assumptions is more desirable, whenever the user is not perfectly happy with 
trusting the security of the VM or the honesty of the technical staff. 
DISADVANTAGES OF EXISTING SYSTEM: 
1. The costs and complexities involved generally increase with the number of the 
decryption keys to be shared. 
2. The encryption key and decryption key are different in publickey encryption.
PROPOSED SYSTEM: 
In this paper, we study how to make a decryption key more powerful in the sense 
that it allows decryption of multiple ciphertexts, without increasing its size. 
Specifically, our problem statement is “To design an efficient public-key 
encryption scheme which supports flexible delegation in the sense that any subset 
of the ciphertexts (produced by the encryption scheme) is decry ptable by a 
constant-size decryption key (generated by the owner of the master-secret key).” 
We solve this problem by introducing a special type of public-key encryption 
which we call key-aggregate cryptosystem (KAC). In KAC, users encrypt a 
message not only under a public-key, but also under an identifier of ciphertext 
called class. That means the ciphertexts are further categorized into different 
classes. The key owner holds a master-secret called master-secret key, which can 
be used to extract secret keys for different classes. More importantly, the extracted 
key have can be an aggregate key which is as compact as a secret key for a single 
class, but aggregates the power of many such keys, i.e., the decryption power for 
any subset of ciphertext classes.
ADVANTAGES OF PROPOSED SYSTEM: 
1. The extracted key have can be an aggregate key which is as compact as a 
secret key for a single class. 
2. The delegation of decryption can be efficiently implemented with the 
aggregate key. 
SYSTEM ARCHITECTURE: 
SYSTEM REQUIREMENTS: 
HARDWARE REQUIREMENTS:
 System : Pentium IV 2.4 GHz. 
 Hard Disk : 40 GB. 
 Floppy Drive : 1.44 Mb. 
 Monitor : 15 VGA Colour. 
 Mouse : Logitech. 
 Ram : 512 Mb. 
SOFTWARE REQUIREMENTS: 
 Operating system : Windows XP/7. 
 Coding Language : JAVA/J2EE 
 IDE : Netbeans 7.4 
 Database : MYSQL 
REFERENCE: 
Cheng-Kang Chu, Sherman S.M. Chow, Wen-Guey Tzeng, Jianying Zhou, and 
Robert H. Deng, “Key-Aggregate Cryptosystem for Scalable Data Sharing in 
Cloud Storage” IEEE TRANSACTIONS ON PARALLEL AND 
DISTRIBUTED SYSTEMS, VOL. 25, NO. 2, FEBRUARY 2014.

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  • 1. Key-Aggregate Cryptosystem for Scalable Data Sharing in Cloud Storage ABSTRACT: Data sharing is an important functionality in cloud storage. In this paper, we show how to securely, efficiently, and flexibly share data with others in cloud storage. We describe new public-key cryptosystems that produce constant-size ciphertexts such that efficient delegation of decryption rights for any set of ciphertexts are possible. The novelty is that one can aggregate any set of secret keys and make them as compact as a single key, but encompassing the power of all the keys being aggregated. In other words, the secret key holder can release a constant-size aggregate key for flexible choices of ciphertext set in cloud storage, but the other encrypted files outside the set remain confidential. This compact aggregate key can be conveniently sent to others or be stored in a smart card with very limited secure storage. We provide formal security analysis of our schemes in the standard model. We also describe other application of our schemes. In particular, our schemes give the first public-key patient-controlled encryption for flexible hierarchy, which was yet to be known.
  • 2. EXISTING SYSTEM: Considering data privacy, a traditional way to ensure it is to rely on the server to enforce the access control after authentication, which means any unexpected privilege escalation will expose all data. In a shared-tenancy cloud computing environment, things become even worse. Regarding availability of files, there are a series of cryptographic schemes which go as far as allowing a third-party auditor to check the availability of files on behalf of the data owner without leaking anything about the data, or without compromising the data owners anonymity. Likewise, cloud users probably will not hold the strong belief that the cloud server is doing a good job in terms of confidentiality. A cryptographic solution, with proven security relied on number-theoretic assumptions is more desirable, whenever the user is not perfectly happy with trusting the security of the VM or the honesty of the technical staff. DISADVANTAGES OF EXISTING SYSTEM: 1. The costs and complexities involved generally increase with the number of the decryption keys to be shared. 2. The encryption key and decryption key are different in publickey encryption.
  • 3. PROPOSED SYSTEM: In this paper, we study how to make a decryption key more powerful in the sense that it allows decryption of multiple ciphertexts, without increasing its size. Specifically, our problem statement is “To design an efficient public-key encryption scheme which supports flexible delegation in the sense that any subset of the ciphertexts (produced by the encryption scheme) is decry ptable by a constant-size decryption key (generated by the owner of the master-secret key).” We solve this problem by introducing a special type of public-key encryption which we call key-aggregate cryptosystem (KAC). In KAC, users encrypt a message not only under a public-key, but also under an identifier of ciphertext called class. That means the ciphertexts are further categorized into different classes. The key owner holds a master-secret called master-secret key, which can be used to extract secret keys for different classes. More importantly, the extracted key have can be an aggregate key which is as compact as a secret key for a single class, but aggregates the power of many such keys, i.e., the decryption power for any subset of ciphertext classes.
  • 4. ADVANTAGES OF PROPOSED SYSTEM: 1. The extracted key have can be an aggregate key which is as compact as a secret key for a single class. 2. The delegation of decryption can be efficiently implemented with the aggregate key. SYSTEM ARCHITECTURE: SYSTEM REQUIREMENTS: HARDWARE REQUIREMENTS:
  • 5.  System : Pentium IV 2.4 GHz.  Hard Disk : 40 GB.  Floppy Drive : 1.44 Mb.  Monitor : 15 VGA Colour.  Mouse : Logitech.  Ram : 512 Mb. SOFTWARE REQUIREMENTS:  Operating system : Windows XP/7.  Coding Language : JAVA/J2EE  IDE : Netbeans 7.4  Database : MYSQL REFERENCE: Cheng-Kang Chu, Sherman S.M. Chow, Wen-Guey Tzeng, Jianying Zhou, and Robert H. Deng, “Key-Aggregate Cryptosystem for Scalable Data Sharing in Cloud Storage” IEEE TRANSACTIONS ON PARALLEL AND DISTRIBUTED SYSTEMS, VOL. 25, NO. 2, FEBRUARY 2014.