Z-Dedup:A Case for Deduplicating Compressed Contents in Cloud

Lossless data reduction techniques, particularly compression and deduplication, have emerged as effective approaches to tackling the combined challenge of explosive growth in data volumes but lagging growth in network bandwidth, to improve space and bandwidth efficiency in the cloud storage environment. However, our observations reveal that traditional deduplication solutions are rendered essentially useless in detecting and removing redundant data from the compressed packages in the cloud, which are poised to greatly increase in their presence and popularity. This is because even uncompressed, compressed and differently compressed packages of the exact same contents tend to have completely different byte stream patterns, whose redundancy cannot be identified by comparing their fingerprints. This, combined with different compressed packets mixed with different data but containing significant duplicate data, will further exacerbate the problem in the cloud storage environment. To address this fundamental problem, we propose Z-Dedup, a novel deduplication system that is able to detect and remove redundant data in compressed packages, by exploiting some key invariant information embedded in the metadata of compressed packages such as file-based checksum and original file length information. Our evaluations show that Z-Dedup can significantly improve both space and bandwidth efficiency over traditional approaches by eliminating 1.61% to 98.75% redundant data of a compressed package based on our collected datasets, and even more storage space and bandwidth are expected to be saved after the storage servers have accumulated more compressed contents.