swift 2.15.1-0ubuntu3 source package in Ubuntu

Changelog

swift (2.15.1-0ubuntu3) artful; urgency=medium

  * d/p/update-test-drop-privs.patch: Drop group comparison from
    drop_privileges test as it does not appear to be valid (LP: #1724342).

 -- Corey Bryant <email address hidden>  Tue, 17 Oct 2017 15:01:59 -0400

Upload details

Uploaded by:
Corey Bryant
Uploaded to:
Artful
Original maintainer:
Ubuntu Developers
Architectures:
all
Section:
net
Urgency:
Medium Urgency

See full publishing history Publishing

Series Pocket Published Component Section

Builds

Artful: [FULLYBUILT] amd64

Downloads

File Size SHA-256 Checksum
swift_2.15.1.orig.tar.gz 2.3 MiB f7f03fe30f845655bb15dfc0850b13a38069a555ea2c23b2cf40924559031409
swift_2.15.1-0ubuntu3.debian.tar.xz 15.1 KiB 8d2c1879b33258a4393376840a6fed4592b8531eceb13d1215d69197fc3f361b
swift_2.15.1-0ubuntu3.dsc 3.2 KiB 7f0ff0ce458dc2fb058afba6b47b9f1bb34caa595420022c58ac495836b74423

Available diffs

View changes file

Binary packages built by this source

python-swift: No summary available for python-swift in ubuntu artful.

No description available for python-swift in ubuntu artful.

swift: distributed virtual object store - common files

 OpenStack Object Storage (code-named Swift) is open source software for
 creating redundant, scalable object storage using clusters of standardized
 servers to store petabytes of accessible data. It is not a file system or
 real-time data storage system, but rather a long-term storage system for a
 more permanent type of static data that can be retrieved, leveraged, and then
 updated if necessary. Primary examples of data that best fit this type of
 storage model are virtual machine images, photo storage, email storage and
 backup archiving. Having no central "brain" or master point of control
 provides greater scalability, redundancy and permanence.
 .
 Objects are written to multiple hardware devices in the data center, with
 the OpenStack software responsible for ensuring data replication and
 integrity across the cluster. Storage clusters can scale horizontally by
 adding new nodes. Should a node fail, OpenStack works to replicate its
 content from other active nodes. Because OpenStack uses software logic to
 ensure data replication and distribution across different devices,
 inexpensive commodity hard drives and servers can be used in lieu of more
 expensive equipment.
 .
 This package provides some core binaries and clients to control swift.

swift-account: distributed virtual object store - account server

 OpenStack Object Storage (code-named Swift) is open source software for
 creating redundant, scalable object storage using clusters of standardized
 servers to store petabytes of accessible data. It is not a file system or
 real-time data storage system, but rather a long-term storage system for a
 more permanent type of static data that can be retrieved, leveraged, and then
 updated if necessary. Primary examples of data that best fit this type of
 storage model are virtual machine images, photo storage, email storage and
 backup archiving. Having no central "brain" or master point of control
 provides greater scalability, redundancy and permanence.
 .
 Objects are written to multiple hardware devices in the data center, with
 the OpenStack software responsible for ensuring data replication and
 integrity across the cluster. Storage clusters can scale horizontally by
 adding new nodes. Should a node fail, OpenStack works to replicate its
 content from other active nodes. Because OpenStack uses software logic to
 ensure data replication and distribution across different devices,
 inexpensive commodity hard drives and servers can be used in lieu of more
 expensive equipment.
 .
 This package provides the swift account server.

swift-container: distributed virtual object store - container server

 OpenStack Object Storage (code-named Swift) is open source software for
 creating redundant, scalable object storage using clusters of standardized
 servers to store petabytes of accessible data. It is not a file system or
 real-time data storage system, but rather a long-term storage system for a
 more permanent type of static data that can be retrieved, leveraged, and then
 updated if necessary. Primary examples of data that best fit this type of
 storage model are virtual machine images, photo storage, email storage and
 backup archiving. Having no central "brain" or master point of control
 provides greater scalability, redundancy and permanence.
 .
 Objects are written to multiple hardware devices in the data center, with
 the OpenStack software responsible for ensuring data replication and
 integrity across the cluster. Storage clusters can scale horizontally by
 adding new nodes. Should a node fail, OpenStack works to replicate its
 content from other active nodes. Because OpenStack uses software logic to
 ensure data replication and distribution across different devices,
 inexpensive commodity hard drives and servers can be used in lieu of more
 expensive equipment.
 .
 This package provides the swift container server.

swift-doc: distributed virtual object store - documentation

 OpenStack Object Storage (code-named Swift) is open source software for
 creating redundant, scalable object storage using clusters of standardized
 servers to store petabytes of accessible data. It is not a file system or
 real-time data storage system, but rather a long-term storage system for a
 more permanent type of static data that can be retrieved, leveraged, and then
 updated if necessary. Primary examples of data that best fit this type of
 storage model are virtual machine images, photo storage, email storage and
 backup archiving. Having no central "brain" or master point of control
 provides greater scalability, redundancy and permanence.
 .
 Objects are written to multiple hardware devices in the data center, with
 the OpenStack software responsible for ensuring data replication and
 integrity across the cluster. Storage clusters can scale horizontally by
 adding new nodes. Should a node fail, OpenStack works to replicate its
 content from other active nodes. Because OpenStack uses software logic to
 ensure data replication and distribution across different devices,
 inexpensive commodity hard drives and servers can be used in lieu of more
 expensive equipment.
 .
 This package provides the Sphinx generated documentation for Swift.

swift-object: distributed virtual object store - object server

 OpenStack Object Storage (code-named Swift) is open source software for
 creating redundant, scalable object storage using clusters of standardized
 servers to store petabytes of accessible data. It is not a file system or
 real-time data storage system, but rather a long-term storage system for a
 more permanent type of static data that can be retrieved, leveraged, and then
 updated if necessary. Primary examples of data that best fit this type of
 storage model are virtual machine images, photo storage, email storage and
 backup archiving. Having no central "brain" or master point of control
 provides greater scalability, redundancy and permanence.
 .
 Objects are written to multiple hardware devices in the data center, with
 the OpenStack software responsible for ensuring data replication and
 integrity across the cluster. Storage clusters can scale horizontally by
 adding new nodes. Should a node fail, OpenStack works to replicate its
 content from other active nodes. Because OpenStack uses software logic to
 ensure data replication and distribution across different devices,
 inexpensive commodity hard drives and servers can be used in lieu of more
 expensive equipment.
 .
 This package provides the swift object server.

swift-object-expirer: distributed virtual object store - object expirer

 OpenStack Object Storage (code-named Swift) is open source software for
 creating redundant, scalable object storage using clusters of standardized
 servers to store petabytes of accessible data. It is not a file system or
 real-time data storage system, but rather a long-term storage system for a
 more permanent type of static data that can be retrieved, leveraged, and then
 updated if necessary. Primary examples of data that best fit this type of
 storage model are virtual machine images, photo storage, email storage and
 backup archiving. Having no central "brain" or master point of control
 provides greater scalability, redundancy and permanence.
 .
 Objects are written to multiple hardware devices in the data center, with
 the OpenStack software responsible for ensuring data replication and
 integrity across the cluster. Storage clusters can scale horizontally by
 adding new nodes. Should a node fail, OpenStack works to replicate its
 content from other active nodes. Because OpenStack uses software logic to
 ensure data replication and distribution across different devices,
 inexpensive commodity hard drives and servers can be used in lieu of more
 expensive equipment.
 .
 This package provides the object-expirer service that provides scheduled
 deletion of objects in Swift.

swift-proxy: No summary available for swift-proxy in ubuntu artful.

No description available for swift-proxy in ubuntu artful.