Source: swift Section: net Priority: optional Maintainer: Debian OpenStack Uploaders: Thomas Goirand , Ondřej Nový , Build-Depends: debhelper (>= 10), dh-exec, dh-python, openstack-pkg-tools (>= 57~), python-all, python-pbr, python-setuptools, python3-sphinx (>= 1.6.2), Build-Depends-Indep: python-boto, python-coverage, python-cryptography, python-dnspython, python-eventlet, python-fixtures (>= 3.0.0), python-greenlet, python-ipaddress, python-keystoneclient, python-keystonemiddleware (>= 4.17.0), python-lxml, python-mock, python-netifaces, python-nose, python-nose-exclude, python-nosehtmloutput, python-nosexcover, python-openssl, python-openstack.nose-plugin, python-openstackclient, python-os-testr (>= 0.8.0), python-pastedeploy, python-pyeclib, python-requests (>= 2.14.2), python-requests-mock (>= 1.2.0), python-six, python-swiftclient, python-xattr, python3-openstackdocstheme (>= 1.11.0), python3-os-api-ref (>= 1.0.0), python3-oslosphinx, Standards-Version: 4.3.0 Vcs-Browser: https://salsa.debian.org/openstack-team/services/swift Vcs-Git: https://salsa.debian.org/openstack-team/services/swift.git Homepage: https://github.com/openstack/swift Testsuite: autopkgtest-pkg-python Package: python-swift Architecture: all Section: python Depends: adduser, python-cryptography, python-dnspython, python-eventlet, python-greenlet, python-ipaddress, python-netifaces, python-openssl, python-pastedeploy, python-pyeclib, python-six, python-xattr, ${misc:Depends}, ${python:Depends}, Breaks: systemd (<< 235~), Description: distributed virtual object store - Python libraries OpenStack Object Storage (code-named Swift) creates redundant, scalable object storage using clusters of standardized servers to store petabytes of accessible data. It is not a file system or real-time data storage system, but rather a long-term storage system for a more permanent type of static data that can be retrieved, leveraged, and then updated if necessary. Primary examples of data that best fit this type of storage model are virtual machine images, photo storage, email storage and backup archiving. Having no central "brain" or master point of control provides greater scalability, redundancy and permanence. . Objects are written to multiple hardware devices in the data center, with the OpenStack software responsible for ensuring data replication and integrity across the cluster. Storage clusters can scale horizontally by adding new nodes. Should a node fail, OpenStack works to replicate its content from other active nodes. Because OpenStack uses software logic to ensure data replication and distribution across different devices, inexpensive commodity hard drives and servers can be used in lieu of more expensive equipment. . This package provides the Python libraries that actually implement everything. Package: swift Architecture: all Depends: logrotate, python-swift (=${binary:Version}), rsyslog, ${misc:Depends}, ${python:Depends}, Description: distributed virtual object store - common files OpenStack Object Storage (code-named Swift) creates redundant, scalable object storage using clusters of standardized servers to store petabytes of accessible data. It is not a file system or real-time data storage system, but rather a long-term storage system for a more permanent type of static data that can be retrieved, leveraged, and then updated if necessary. Primary examples of data that best fit this type of storage model are virtual machine images, photo storage, email storage and backup archiving. Having no central "brain" or master point of control provides greater scalability, redundancy and permanence. . Objects are written to multiple hardware devices in the data center, with the OpenStack software responsible for ensuring data replication and integrity across the cluster. Storage clusters can scale horizontally by adding new nodes. Should a node fail, OpenStack works to replicate its content from other active nodes. Because OpenStack uses software logic to ensure data replication and distribution across different devices, inexpensive commodity hard drives and servers can be used in lieu of more expensive equipment. . This package provides some core binaries and clients to control swift. Package: swift-account Architecture: all Depends: lsb-base, python-swift (=${binary:Version}), rsync, swift (=${binary:Version}), ${misc:Depends}, ${python:Depends}, Recommends: swift-drive-audit, Description: distributed virtual object store - account server OpenStack Object Storage (code-named Swift) creates redundant, scalable object storage using clusters of standardized servers to store petabytes of accessible data. It is not a file system or real-time data storage system, but rather a long-term storage system for a more permanent type of static data that can be retrieved, leveraged, and then updated if necessary. Primary examples of data that best fit this type of storage model are virtual machine images, photo storage, email storage and backup archiving. Having no central "brain" or master point of control provides greater scalability, redundancy and permanence. . Objects are written to multiple hardware devices in the data center, with the OpenStack software responsible for ensuring data replication and integrity across the cluster. Storage clusters can scale horizontally by adding new nodes. Should a node fail, OpenStack works to replicate its content from other active nodes. Because OpenStack uses software logic to ensure data replication and distribution across different devices, inexpensive commodity hard drives and servers can be used in lieu of more expensive equipment. . This package provides the swift account server. Package: swift-container Architecture: all Depends: lsb-base, python-swift (=${binary:Version}), rsync, swift (=${binary:Version}), ${misc:Depends}, ${python:Depends}, Recommends: swift-drive-audit, Description: distributed virtual object store - container server OpenStack Object Storage (code-named Swift) creates 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. Package: swift-doc Architecture: all Section: doc Depends: libjs-bootstrap, libjs-jquery, libjs-underscore, python-os-api-ref-common, ${misc:Depends}, ${sphinxdoc:Depends}, Description: distributed virtual object store - documentation OpenStack Object Storage (code-named Swift) creates redundant, scalable object storage using clusters of standardized servers to store petabytes of accessible data. It is not a file system or real-time data storage system, but rather a long-term storage system for a more permanent type of static data that can be retrieved, leveraged, and then updated if necessary. Primary examples of data that best fit this type of storage model are virtual machine images, photo storage, email storage and backup archiving. Having no central "brain" or master point of control provides greater scalability, redundancy and permanence. . Objects are written to multiple hardware devices in the data center, with the OpenStack software responsible for ensuring data replication and integrity across the cluster. Storage clusters can scale horizontally by adding new nodes. Should a node fail, OpenStack works to replicate its content from other active nodes. Because OpenStack uses software logic to ensure data replication and distribution across different devices, inexpensive commodity hard drives and servers can be used in lieu of more expensive equipment. . This package provides the Sphinx generated documentation for Swift. Package: swift-drive-audit Architecture: all Depends: python-swift (=${binary:Version}), swift (=${binary:Version}), ${misc:Depends}, ${python:Depends}, Description: distributed virtual object store - drive audit OpenStack Object Storage (code-named Swift) creates redundant, scalable object storage using clusters of standardized servers to store petabytes of accessible data. It is not a file system or real-time data storage system, but rather a long-term storage system for a more permanent type of static data that can be retrieved, leveraged, and then updated if necessary. Primary examples of data that best fit this type of storage model are virtual machine images, photo storage, email storage and backup archiving. Having no central "brain" or master point of control provides greater scalability, redundancy and permanence. . Objects are written to multiple hardware devices in the data center, with the OpenStack software responsible for ensuring data replication and integrity across the cluster. Storage clusters can scale horizontally by adding new nodes. Should a node fail, OpenStack works to replicate its content from other active nodes. Because OpenStack uses software logic to ensure data replication and distribution across different devices, inexpensive commodity hard drives and servers can be used in lieu of more expensive equipment. . This package provides the swift drive audit tool. Package: swift-object Architecture: all Depends: lsb-base, python-swift (=${binary:Version}), rsync, swift (=${binary:Version}), ${misc:Depends}, ${python:Depends}, Recommends: swift-drive-audit, Description: distributed virtual object store - object server OpenStack Object Storage (code-named Swift) creates redundant, scalable object storage using clusters of standardized servers to store petabytes of accessible data. It is not a file system or real-time data storage system, but rather a long-term storage system for a more permanent type of static data that can be retrieved, leveraged, and then updated if necessary. Primary examples of data that best fit this type of storage model are virtual machine images, photo storage, email storage and backup archiving. Having no central "brain" or master point of control provides greater scalability, redundancy and permanence. . Objects are written to multiple hardware devices in the data center, with the OpenStack software responsible for ensuring data replication and integrity across the cluster. Storage clusters can scale horizontally by adding new nodes. Should a node fail, OpenStack works to replicate its content from other active nodes. Because OpenStack uses software logic to ensure data replication and distribution across different devices, inexpensive commodity hard drives and servers can be used in lieu of more expensive equipment. . This package provides the swift object server. Package: swift-object-expirer Architecture: all Depends: lsb-base (>= 3.0-6), python-swift (=${binary:Version}), rsync, swift (=${binary:Version}), ${misc:Depends}, ${python:Depends}, Description: distributed virtual object store - object-expirer OpenStack Object Storage (code-named Swift) creates redundant, scalable object storage using clusters of standardized servers to store petabytes of accessible data. It is not a file system or real-time data storage system, but rather a long-term storage system for a more permanent type of static data that can be retrieved, leveraged, and then updated if necessary. Primary examples of data that best fit this type of storage model are virtual machine images, photo storage, email storage and backup archiving. Having no central "brain" or master point of control provides greater scalability, redundancy and permanence. . Objects are written to multiple hardware devices in the data center, with the OpenStack software responsible for ensuring data replication and integrity across the cluster. Storage clusters can scale horizontally by adding new nodes. Should a node fail, OpenStack works to replicate its content from other active nodes. Because OpenStack uses software logic to ensure data replication and distribution across different devices, inexpensive commodity hard drives and servers can be used in lieu of more expensive equipment. . This package provides the swift object expirer daemon. Only a single instance of this daemon is needed for a given swift cluster, which is why it is packaged separately. Package: swift-proxy Architecture: all Depends: lsb-base, python-swift (=${binary:Version}), swift (=${binary:Version}), ${misc:Depends}, ${python:Depends}, Recommends: python-keystonemiddleware | swauth, Description: distributed virtual object store - proxy server OpenStack Object Storage (code-named Swift) creates 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 a proxy server on which clients can connect to store object into Swift.