Parents (Total: 8)

The searched file hash is included in 8 parent files which include package known and seen by metalookup. A sample is included below:

Key	Value
MD5	828671416392D535FD9159F8F013D217
PackageArch	ppc64
PackageDescription	S3QL is a file system that stores all its data online using storage services like Google Storage, Amazon S3 or OpenStack. S3QL effectively provides a hard disk of dynamic, infinite capacity that can be accessed from any computer with Internet access. S3QL is a standard conforming, full featured UNIX file system that is conceptually indistinguishable from any local file system. Furthermore, S3QL has additional features like compression, encryption, data de-duplication, immutable trees and snapshotting which make it especially suitable for on-line backup and archival. S3QL is designed to favor simplicity and elegance over performance and feature- creep. Care has been taken to make the source code as readable and serviceable as possible. Solid error detection and error handling have been included from the very first line, and S3QL comes with extensive automated test cases for all its components. == Features == * Transparency. Conceptually, S3QL is indistinguishable from a local file system. For example, it supports hardlinks, symlinks, standard unix permissions, extended attributes and file sizes up to 2 TB. * Dynamic Size. The size of an S3QL file system grows and shrinks dynamically as required. * Compression. Before storage, all data may compressed with the LZMA, bzip2 or deflate (gzip) algorithm. * Encryption. After compression (but before upload), all data can AES encrypted with a 256 bit key. An additional SHA256 HMAC checksum is used to protect the data against manipulation. * Data De-duplication. If several files have identical contents, the redundant data will be stored only once. This works across all files stored in the file system, and also if only some parts of the files are identical while other parts differ. * Immutable Trees. Directory trees can be made immutable, so that their contents can no longer be changed in any way whatsoever. This can be used to ensure that backups can not be modified after they have been made. * Copy-on-Write/Snapshotting. S3QL can replicate entire directory trees without using any additional storage space. Only if one of the copies is modified, the part of the data that has been modified will take up additional storage space. This can be used to create intelligent snapshots that preserve the state of a directory at different points in time using a minimum amount of space. * High Performance independent of network latency. All operations that do not write or read file contents (like creating directories or moving, renaming, and changing permissions of files and directories) are very fast because they are carried out without any network transactions. S3QL achieves this by saving the entire file and directory structure in a database. This database is locally cached and the remote copy updated asynchronously. * Support for low bandwidth connections. S3QL splits file contents into smaller blocks and caches blocks locally. This minimizes both the number of network transactions required for reading and writing data, and the amount of data that has to be transferred when only parts of a file are read or written.
PackageMaintainer	Fedora Project
PackageName	s3ql
PackageRelease	2.fc22
PackageVersion	2.9
SHA-1	38BA5E81ED19D511218F0F90FF20D6AAD6F62C87
SHA-256	066B191AA79E5660FBF155580ED4270062151A3AEC4DD96E147FFE4249E608D3

Key	Value
MD5	E947E88A8FDE043E8B9DC98EC9668B5A
PackageArch	s390x
PackageDescription	S3QL is a file system that stores all its data online using storage services like Google Storage, Amazon S3 or OpenStack. S3QL effectively provides a hard disk of dynamic, infinite capacity that can be accessed from any computer with Internet access. S3QL is a standard conforming, full featured UNIX file system that is conceptually indistinguishable from any local file system. Furthermore, S3QL has additional features like compression, encryption, data de-duplication, immutable trees and snapshotting which make it especially suitable for on-line backup and archival. S3QL is designed to favor simplicity and elegance over performance and feature- creep. Care has been taken to make the source code as readable and serviceable as possible. Solid error detection and error handling have been included from the very first line, and S3QL comes with extensive automated test cases for all its components. == Features == * Transparency. Conceptually, S3QL is indistinguishable from a local file system. For example, it supports hardlinks, symlinks, standard unix permissions, extended attributes and file sizes up to 2 TB. * Dynamic Size. The size of an S3QL file system grows and shrinks dynamically as required. * Compression. Before storage, all data may compressed with the LZMA, bzip2 or deflate (gzip) algorithm. * Encryption. After compression (but before upload), all data can AES encrypted with a 256 bit key. An additional SHA256 HMAC checksum is used to protect the data against manipulation. * Data De-duplication. If several files have identical contents, the redundant data will be stored only once. This works across all files stored in the file system, and also if only some parts of the files are identical while other parts differ. * Immutable Trees. Directory trees can be made immutable, so that their contents can no longer be changed in any way whatsoever. This can be used to ensure that backups can not be modified after they have been made. * Copy-on-Write/Snapshotting. S3QL can replicate entire directory trees without using any additional storage space. Only if one of the copies is modified, the part of the data that has been modified will take up additional storage space. This can be used to create intelligent snapshots that preserve the state of a directory at different points in time using a minimum amount of space. * High Performance independent of network latency. All operations that do not write or read file contents (like creating directories or moving, renaming, and changing permissions of files and directories) are very fast because they are carried out without any network transactions. S3QL achieves this by saving the entire file and directory structure in a database. This database is locally cached and the remote copy updated asynchronously. * Support for low bandwidth connections. S3QL splits file contents into smaller blocks and caches blocks locally. This minimizes both the number of network transactions required for reading and writing data, and the amount of data that has to be transferred when only parts of a file are read or written.
PackageMaintainer	Fedora Project
PackageName	s3ql
PackageRelease	2.fc21
PackageVersion	2.9
SHA-1	EEED764F903AE74C35D8A67B2D03577CCCB661FA
SHA-256	70570E046AFD0142ABB3CAF45A4EE2A7ACD0B19CBFF744CFB2279AB9A0F23B51

Key	Value
MD5	B7CCBABF3EA6E09E08555B2A5449A657
PackageArch	ppc64le
PackageDescription	S3QL is a file system that stores all its data online using storage services like Google Storage, Amazon S3 or OpenStack. S3QL effectively provides a hard disk of dynamic, infinite capacity that can be accessed from any computer with Internet access. S3QL is a standard conforming, full featured UNIX file system that is conceptually indistinguishable from any local file system. Furthermore, S3QL has additional features like compression, encryption, data de-duplication, immutable trees and snapshotting which make it especially suitable for on-line backup and archival. S3QL is designed to favor simplicity and elegance over performance and feature- creep. Care has been taken to make the source code as readable and serviceable as possible. Solid error detection and error handling have been included from the very first line, and S3QL comes with extensive automated test cases for all its components. == Features == * Transparency. Conceptually, S3QL is indistinguishable from a local file system. For example, it supports hardlinks, symlinks, standard unix permissions, extended attributes and file sizes up to 2 TB. * Dynamic Size. The size of an S3QL file system grows and shrinks dynamically as required. * Compression. Before storage, all data may compressed with the LZMA, bzip2 or deflate (gzip) algorithm. * Encryption. After compression (but before upload), all data can AES encrypted with a 256 bit key. An additional SHA256 HMAC checksum is used to protect the data against manipulation. * Data De-duplication. If several files have identical contents, the redundant data will be stored only once. This works across all files stored in the file system, and also if only some parts of the files are identical while other parts differ. * Immutable Trees. Directory trees can be made immutable, so that their contents can no longer be changed in any way whatsoever. This can be used to ensure that backups can not be modified after they have been made. * Copy-on-Write/Snapshotting. S3QL can replicate entire directory trees without using any additional storage space. Only if one of the copies is modified, the part of the data that has been modified will take up additional storage space. This can be used to create intelligent snapshots that preserve the state of a directory at different points in time using a minimum amount of space. * High Performance independent of network latency. All operations that do not write or read file contents (like creating directories or moving, renaming, and changing permissions of files and directories) are very fast because they are carried out without any network transactions. S3QL achieves this by saving the entire file and directory structure in a database. This database is locally cached and the remote copy updated asynchronously. * Support for low bandwidth connections. S3QL splits file contents into smaller blocks and caches blocks locally. This minimizes both the number of network transactions required for reading and writing data, and the amount of data that has to be transferred when only parts of a file are read or written.
PackageMaintainer	Fedora Project
PackageName	s3ql
PackageRelease	2.fc21
PackageVersion	2.9
SHA-1	558F16F60A45F1B3028E0DD1A1FA6DE4698BA3EF
SHA-256	7CD1A8B656AE51065F46D2DF77E931136C3CEEEEE62DD9358AC165710CBBABCE

Key	Value
MD5	20F9787102100709BB02D87773A7696F
PackageArch	aarch64
PackageDescription	S3QL is a file system that stores all its data online using storage services like Google Storage, Amazon S3 or OpenStack. S3QL effectively provides a hard disk of dynamic, infinite capacity that can be accessed from any computer with Internet access. S3QL is a standard conforming, full featured UNIX file system that is conceptually indistinguishable from any local file system. Furthermore, S3QL has additional features like compression, encryption, data de-duplication, immutable trees and snapshotting which make it especially suitable for on-line backup and archival. S3QL is designed to favor simplicity and elegance over performance and feature- creep. Care has been taken to make the source code as readable and serviceable as possible. Solid error detection and error handling have been included from the very first line, and S3QL comes with extensive automated test cases for all its components. == Features == * Transparency. Conceptually, S3QL is indistinguishable from a local file system. For example, it supports hardlinks, symlinks, standard unix permissions, extended attributes and file sizes up to 2 TB. * Dynamic Size. The size of an S3QL file system grows and shrinks dynamically as required. * Compression. Before storage, all data may compressed with the LZMA, bzip2 or deflate (gzip) algorithm. * Encryption. After compression (but before upload), all data can AES encrypted with a 256 bit key. An additional SHA256 HMAC checksum is used to protect the data against manipulation. * Data De-duplication. If several files have identical contents, the redundant data will be stored only once. This works across all files stored in the file system, and also if only some parts of the files are identical while other parts differ. * Immutable Trees. Directory trees can be made immutable, so that their contents can no longer be changed in any way whatsoever. This can be used to ensure that backups can not be modified after they have been made. * Copy-on-Write/Snapshotting. S3QL can replicate entire directory trees without using any additional storage space. Only if one of the copies is modified, the part of the data that has been modified will take up additional storage space. This can be used to create intelligent snapshots that preserve the state of a directory at different points in time using a minimum amount of space. * High Performance independent of network latency. All operations that do not write or read file contents (like creating directories or moving, renaming, and changing permissions of files and directories) are very fast because they are carried out without any network transactions. S3QL achieves this by saving the entire file and directory structure in a database. This database is locally cached and the remote copy updated asynchronously. * Support for low bandwidth connections. S3QL splits file contents into smaller blocks and caches blocks locally. This minimizes both the number of network transactions required for reading and writing data, and the amount of data that has to be transferred when only parts of a file are read or written.
PackageMaintainer	Fedora Project
PackageName	s3ql
PackageRelease	2.fc21
PackageVersion	2.9
SHA-1	4783974D6B37061AB7AB84C21D5E2395440DCBC5
SHA-256	8FCCC8955CFA0191319D26FB079F29AA59E7AB3C6896CE805EE1D3D3E86D5A08

Key	Value
MD5	348950A317BFA43390E26E6DA44C6F6A
PackageArch	ppc64
PackageDescription	S3QL is a file system that stores all its data online using storage services like Google Storage, Amazon S3 or OpenStack. S3QL effectively provides a hard disk of dynamic, infinite capacity that can be accessed from any computer with Internet access. S3QL is a standard conforming, full featured UNIX file system that is conceptually indistinguishable from any local file system. Furthermore, S3QL has additional features like compression, encryption, data de-duplication, immutable trees and snapshotting which make it especially suitable for on-line backup and archival. S3QL is designed to favor simplicity and elegance over performance and feature- creep. Care has been taken to make the source code as readable and serviceable as possible. Solid error detection and error handling have been included from the very first line, and S3QL comes with extensive automated test cases for all its components. == Features == * Transparency. Conceptually, S3QL is indistinguishable from a local file system. For example, it supports hardlinks, symlinks, standard unix permissions, extended attributes and file sizes up to 2 TB. * Dynamic Size. The size of an S3QL file system grows and shrinks dynamically as required. * Compression. Before storage, all data may compressed with the LZMA, bzip2 or deflate (gzip) algorithm. * Encryption. After compression (but before upload), all data can AES encrypted with a 256 bit key. An additional SHA256 HMAC checksum is used to protect the data against manipulation. * Data De-duplication. If several files have identical contents, the redundant data will be stored only once. This works across all files stored in the file system, and also if only some parts of the files are identical while other parts differ. * Immutable Trees. Directory trees can be made immutable, so that their contents can no longer be changed in any way whatsoever. This can be used to ensure that backups can not be modified after they have been made. * Copy-on-Write/Snapshotting. S3QL can replicate entire directory trees without using any additional storage space. Only if one of the copies is modified, the part of the data that has been modified will take up additional storage space. This can be used to create intelligent snapshots that preserve the state of a directory at different points in time using a minimum amount of space. * High Performance independent of network latency. All operations that do not write or read file contents (like creating directories or moving, renaming, and changing permissions of files and directories) are very fast because they are carried out without any network transactions. S3QL achieves this by saving the entire file and directory structure in a database. This database is locally cached and the remote copy updated asynchronously. * Support for low bandwidth connections. S3QL splits file contents into smaller blocks and caches blocks locally. This minimizes both the number of network transactions required for reading and writing data, and the amount of data that has to be transferred when only parts of a file are read or written.
PackageMaintainer	Fedora Project
PackageName	s3ql
PackageRelease	2.fc21
PackageVersion	2.9
SHA-1	D869EECD3EF1A776A1B3D48E272C23512386B812
SHA-256	855D1AD5956A1121C3EA581E83179432361D98F5EC8DF9E6D33B262A0B1221D8

Key	Value
MD5	B88007E36E9BD8F66F4C3E0F84B2C479
PackageArch	ppc64le
PackageDescription	S3QL is a file system that stores all its data online using storage services like Google Storage, Amazon S3 or OpenStack. S3QL effectively provides a hard disk of dynamic, infinite capacity that can be accessed from any computer with Internet access. S3QL is a standard conforming, full featured UNIX file system that is conceptually indistinguishable from any local file system. Furthermore, S3QL has additional features like compression, encryption, data de-duplication, immutable trees and snapshotting which make it especially suitable for on-line backup and archival. S3QL is designed to favor simplicity and elegance over performance and feature- creep. Care has been taken to make the source code as readable and serviceable as possible. Solid error detection and error handling have been included from the very first line, and S3QL comes with extensive automated test cases for all its components. == Features == * Transparency. Conceptually, S3QL is indistinguishable from a local file system. For example, it supports hardlinks, symlinks, standard unix permissions, extended attributes and file sizes up to 2 TB. * Dynamic Size. The size of an S3QL file system grows and shrinks dynamically as required. * Compression. Before storage, all data may compressed with the LZMA, bzip2 or deflate (gzip) algorithm. * Encryption. After compression (but before upload), all data can AES encrypted with a 256 bit key. An additional SHA256 HMAC checksum is used to protect the data against manipulation. * Data De-duplication. If several files have identical contents, the redundant data will be stored only once. This works across all files stored in the file system, and also if only some parts of the files are identical while other parts differ. * Immutable Trees. Directory trees can be made immutable, so that their contents can no longer be changed in any way whatsoever. This can be used to ensure that backups can not be modified after they have been made. * Copy-on-Write/Snapshotting. S3QL can replicate entire directory trees without using any additional storage space. Only if one of the copies is modified, the part of the data that has been modified will take up additional storage space. This can be used to create intelligent snapshots that preserve the state of a directory at different points in time using a minimum amount of space. * High Performance independent of network latency. All operations that do not write or read file contents (like creating directories or moving, renaming, and changing permissions of files and directories) are very fast because they are carried out without any network transactions. S3QL achieves this by saving the entire file and directory structure in a database. This database is locally cached and the remote copy updated asynchronously. * Support for low bandwidth connections. S3QL splits file contents into smaller blocks and caches blocks locally. This minimizes both the number of network transactions required for reading and writing data, and the amount of data that has to be transferred when only parts of a file are read or written.
PackageMaintainer	Fedora Project
PackageName	s3ql
PackageRelease	2.fc22
PackageVersion	2.9
SHA-1	4C0C6DF7DA138BC3216BD06D211796349DE2D400
SHA-256	6B0B7BE8AC56D11A9B195D1638C9BE36002A7D94653FD4B921A499618EBFBF36

Key	Value
MD5	460D6E7915C218B084501B075E45505A
PackageArch	s390x
PackageDescription	S3QL is a file system that stores all its data online using storage services like Google Storage, Amazon S3 or OpenStack. S3QL effectively provides a hard disk of dynamic, infinite capacity that can be accessed from any computer with Internet access. S3QL is a standard conforming, full featured UNIX file system that is conceptually indistinguishable from any local file system. Furthermore, S3QL has additional features like compression, encryption, data de-duplication, immutable trees and snapshotting which make it especially suitable for on-line backup and archival. S3QL is designed to favor simplicity and elegance over performance and feature- creep. Care has been taken to make the source code as readable and serviceable as possible. Solid error detection and error handling have been included from the very first line, and S3QL comes with extensive automated test cases for all its components. == Features == * Transparency. Conceptually, S3QL is indistinguishable from a local file system. For example, it supports hardlinks, symlinks, standard unix permissions, extended attributes and file sizes up to 2 TB. * Dynamic Size. The size of an S3QL file system grows and shrinks dynamically as required. * Compression. Before storage, all data may compressed with the LZMA, bzip2 or deflate (gzip) algorithm. * Encryption. After compression (but before upload), all data can AES encrypted with a 256 bit key. An additional SHA256 HMAC checksum is used to protect the data against manipulation. * Data De-duplication. If several files have identical contents, the redundant data will be stored only once. This works across all files stored in the file system, and also if only some parts of the files are identical while other parts differ. * Immutable Trees. Directory trees can be made immutable, so that their contents can no longer be changed in any way whatsoever. This can be used to ensure that backups can not be modified after they have been made. * Copy-on-Write/Snapshotting. S3QL can replicate entire directory trees without using any additional storage space. Only if one of the copies is modified, the part of the data that has been modified will take up additional storage space. This can be used to create intelligent snapshots that preserve the state of a directory at different points in time using a minimum amount of space. * High Performance independent of network latency. All operations that do not write or read file contents (like creating directories or moving, renaming, and changing permissions of files and directories) are very fast because they are carried out without any network transactions. S3QL achieves this by saving the entire file and directory structure in a database. This database is locally cached and the remote copy updated asynchronously. * Support for low bandwidth connections. S3QL splits file contents into smaller blocks and caches blocks locally. This minimizes both the number of network transactions required for reading and writing data, and the amount of data that has to be transferred when only parts of a file are read or written.
PackageMaintainer	Fedora Project
PackageName	s3ql
PackageRelease	2.fc22
PackageVersion	2.9
SHA-1	DADDFCE7C468A513CAAF25CC9C32AE407B90C6F4
SHA-256	D9C782450DDD45DC396E398FB64B84F6C226332D2075815E58BEC0D1DB9E0D19

Key	Value
MD5	F4A51ACA1C8E0607819EB8E29C1E0511
PackageArch	aarch64
PackageDescription	S3QL is a file system that stores all its data online using storage services like Google Storage, Amazon S3 or OpenStack. S3QL effectively provides a hard disk of dynamic, infinite capacity that can be accessed from any computer with Internet access. S3QL is a standard conforming, full featured UNIX file system that is conceptually indistinguishable from any local file system. Furthermore, S3QL has additional features like compression, encryption, data de-duplication, immutable trees and snapshotting which make it especially suitable for on-line backup and archival. S3QL is designed to favor simplicity and elegance over performance and feature- creep. Care has been taken to make the source code as readable and serviceable as possible. Solid error detection and error handling have been included from the very first line, and S3QL comes with extensive automated test cases for all its components. == Features == * Transparency. Conceptually, S3QL is indistinguishable from a local file system. For example, it supports hardlinks, symlinks, standard unix permissions, extended attributes and file sizes up to 2 TB. * Dynamic Size. The size of an S3QL file system grows and shrinks dynamically as required. * Compression. Before storage, all data may compressed with the LZMA, bzip2 or deflate (gzip) algorithm. * Encryption. After compression (but before upload), all data can AES encrypted with a 256 bit key. An additional SHA256 HMAC checksum is used to protect the data against manipulation. * Data De-duplication. If several files have identical contents, the redundant data will be stored only once. This works across all files stored in the file system, and also if only some parts of the files are identical while other parts differ. * Immutable Trees. Directory trees can be made immutable, so that their contents can no longer be changed in any way whatsoever. This can be used to ensure that backups can not be modified after they have been made. * Copy-on-Write/Snapshotting. S3QL can replicate entire directory trees without using any additional storage space. Only if one of the copies is modified, the part of the data that has been modified will take up additional storage space. This can be used to create intelligent snapshots that preserve the state of a directory at different points in time using a minimum amount of space. * High Performance independent of network latency. All operations that do not write or read file contents (like creating directories or moving, renaming, and changing permissions of files and directories) are very fast because they are carried out without any network transactions. S3QL achieves this by saving the entire file and directory structure in a database. This database is locally cached and the remote copy updated asynchronously. * Support for low bandwidth connections. S3QL splits file contents into smaller blocks and caches blocks locally. This minimizes both the number of network transactions required for reading and writing data, and the amount of data that has to be transferred when only parts of a file are read or written.
PackageMaintainer	Fedora Project
PackageName	s3ql
PackageRelease	2.fc22
PackageVersion	2.9
SHA-1	F3E2C7C27C405E4F2E27A8FF3A569C975324B40C
SHA-256	6991B3DC48CE26C43E21C06473B943865600660BB99D036B400C42E730B70C83