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glusterfs-geo-replication-3.4.0-0.5.beta2.fc19.armv6hl: GlusterFS is a clustered file-system capable of scaling to several peta-bytes. It aggregates various storage bricks over Infiniband RDMA or TCP/IP interconnect into one large parallel network file system. GlusterFS is one of the most sophisticated file system in terms of features and extensibility. It borrows a powerful concept called Translators from GNU Hurd kernel. Much of the code in GlusterFS is in userspace and easily manageable. This package provides support to geo-replication.

glusterfs-fuse-3.8.0-3.lbn19.x86_64: GlusterFS is a distributed file-system capable of scaling to several petabytes. It aggregates various storage bricks over Infiniband RDMA or TCP/IP interconnect into one large parallel network file system. GlusterFS is one of the most sophisticated file systems in terms of features and extensibility. It borrows a powerful concept called Translators from GNU Hurd kernel. Much of the code in GlusterFS is in user space and easily manageable. This package provides support to FUSE based clients and includes the glusterfsd and glusterfs binaries.

glusterfs-fuse-3.8.0-3.lbn19.x86_64: GlusterFS is a distributed file-system capable of scaling to several petabytes. It aggregates various storage bricks over Infiniband RDMA or TCP/IP interconnect into one large parallel network file system. GlusterFS is one of the most sophisticated file systems in terms of features and extensibility. It borrows a powerful concept called Translators from GNU Hurd kernel. Much of the code in GlusterFS is in user space and easily manageable. This package provides support to FUSE based clients and includes the glusterfsd and glusterfs binaries.

glusterfs-fuse-3.4.0-0.5.beta2.fc19.armv6hl: GlusterFS is a clustered file-system capable of scaling to several petabytes. It aggregates various storage bricks over Infiniband RDMA or TCP/IP interconnect into one large parallel network file system. GlusterFS is one of the most sophisticated file systems in terms of features and extensibility. It borrows a powerful concept called Translators from GNU Hurd kernel. Much of the code in GlusterFS is in user space and easily manageable. This package provides support to FUSE based clients.

glusterfs-fuse-3.4.0-0.5.beta2.fc19.armv6hl: GlusterFS is a clustered file-system capable of scaling to several petabytes. It aggregates various storage bricks over Infiniband RDMA or TCP/IP interconnect into one large parallel network file system. GlusterFS is one of the most sophisticated file systems in terms of features and extensibility. It borrows a powerful concept called Translators from GNU Hurd kernel. Much of the code in GlusterFS is in user space and easily manageable. This package provides support to FUSE based clients.

glusterfs-api-3.8.0-3.lbn19.x86_64: GlusterFS is a distributed file-system capable of scaling to several petabytes. It aggregates various storage bricks over Infiniband RDMA or TCP/IP interconnect into one large parallel network file system. GlusterFS is one of the most sophisticated file systems in terms of features and extensibility. It borrows a powerful concept called Translators from GNU Hurd kernel. Much of the code in GlusterFS is in user space and easily manageable. This package provides the glusterfs libgfapi library.

glusterfs-3.4.2-1.fc19.x86_64: GlusterFS is a clustered file-system capable of scaling to several petabytes. It aggregates various storage bricks over Infiniband RDMA or TCP/IP interconnect into one large parallel network file system. GlusterFS is one of the most sophisticated file systems in terms of features and extensibility. It borrows a powerful concept called Translators from GNU Hurd kernel. Much of the code in GlusterFS is in user space and easily manageable. This package includes the glusterfs binary, the glusterfsd daemon and the gluster command line, libglusterfs and glusterfs translator modules common to both GlusterFS server and client framework.

glusterfs-3.4.2-1.fc19.x86_64: GlusterFS is a clustered file-system capable of scaling to several petabytes. It aggregates various storage bricks over Infiniband RDMA or TCP/IP interconnect into one large parallel network file system. GlusterFS is one of the most sophisticated file systems in terms of features and extensibility. It borrows a powerful concept called Translators from GNU Hurd kernel. Much of the code in GlusterFS is in user space and easily manageable. This package includes the glusterfs binary, the glusterfsd daemon and the gluster command line, libglusterfs and glusterfs translator modules common to both GlusterFS server and client framework.

glusterfs-3.4.0-0.5.beta2.fc19.armv6hl: GlusterFS is a clustered file-system capable of scaling to several petabytes. It aggregates various storage bricks over Infiniband RDMA or TCP/IP interconnect into one large parallel network file system. GlusterFS is one of the most sophisticated file systems in terms of features and extensibility. It borrows a powerful concept called Translators from GNU Hurd kernel. Much of the code in GlusterFS is in user space and easily manageable. This package includes the glusterfs binary, the glusterfsd daemon and the gluster command line, libglusterfs and glusterfs translator modules common to both GlusterFS server and client framework.

glusterfs-3.4.0-0.5.beta2.fc19.armv6hl: GlusterFS is a clustered file-system capable of scaling to several petabytes. It aggregates various storage bricks over Infiniband RDMA or TCP/IP interconnect into one large parallel network file system. GlusterFS is one of the most sophisticated file systems in terms of features and extensibility. It borrows a powerful concept called Translators from GNU Hurd kernel. Much of the code in GlusterFS is in user space and easily manageable. This package includes the glusterfs binary, the glusterfsd daemon and the gluster command line, libglusterfs and glusterfs translator modules common to both GlusterFS server and client framework.

glassfish-fastinfoset-1.2.13-5.lbn19.noarch: Fast Infoset specifies a standardized binary encoding for the XML Information Set. An XML infoset (such as a DOM tree, StAX events or SAX events in programmatic representations) may be serialized to an XML 1.x document or, as specified by the Fast Infoset standard, may be serialized to a fast infoset document. Fast infoset documents are generally smaller in size and faster to parse and serialize than equivalent XML documents.

glassfish-dtd-parser-1.2-0.13.20120120svn.lbn19.noarch: Library for parsing XML DTDs.

git-review-1.25.0-2.lbn19.noarch: An extension for source control system Git that creates and manages review requests in the patch management system Gerrit. It replaces the rfc.sh script.

gf-complete-tools-1-1.lbn19.x86_64: Tools for gf-complete.

gf-complete-1-1.lbn19.x86_64: A Comprehensive Open Source Library for Galois Field Arithmetic.

gerrit-plugins-2.12.2-1.lbn19.noarch: A range of useful prepackaged Gerrit plugins - ready to deploy into your Gerrit via ssh -p 'gerrit plugin install /usr/share/gerrit/plugins/<name>.jar'

gerrit-2.12.1-1.lbn19.noarch: Gerrit is a web based code review system, facilitating online code reviews for projects using the Git version control system. Gerrit makes reviews easier by showing changes in a side-by-side display, and allowing inline comments to be added by any reviewer. Gerrit simplifies Git based project maintainership by permitting any authorized user to submit changes to the master Git repository, rather than requiring all approved changes to be merged in by hand by the project maintainer. This functionality enables a more centralized usage of Git.

python-requestbuilder-0.3.0_pre2-1.lbn19.noarch: Command line-driven HTTP request builder

python-refstack-client-0.1.0.dev89-1.lbn19.noarch: refstack-client is a command line utility that allows you to execute Tempest test runs based on configurations you specify. When finished running Tempest it can send the passed test data to a RefStack API server. Environment setup We've created an "easy button" for Ubuntu, Centos, RHEL and openSuSe. Make sure you have git installed Get the refstack client: git clone https://github.com/openstack/refstack-client Go into the refstack-client directory: cd refstack-client Run the "easy button" setup: ./setup_env Options: a. -c option allows to specify SHA of commit or branch in Tempest repository which will be installed. b. -t option allows to specify tag in Tempest repository which will be installed. For example: execute ./setup_env -t tags/3 to install Tempest tag-3. c. By default, Tempest will be installed from commit 551e1a9701e7e2b3edf6d49a2eaa62b7ab2435ad (11 September 2015). Usage Prepare a tempest configuration file that is customized to your cloud environment. Go into the refstack-client directory. cd ~/refstack-client Source to use the correct Python environment. source .venv/bin/activate Validate your setup by running a short test. ./refstack-client test -c <Path of the tempest configuration file to use> -v -- tempest.api.identity.admin.v2.test_roles or ./refstack-client test -c <Path of the tempest configuration file to use> -v -- tempest.api.identity.v2.test_token Run tests. To run the entire API test set: ./refstack-client test -c <Path of the tempest configuration file to use> -v To run only those tests specified in a DefCore defined test file: ./refstack-client test -c <Path of the tempest configuration file to use> -v --test-list <Path or URL of test list> For example: ./refstack-client test -c ~/tempest.conf -v --test-list https://raw.githubusercontent.com/openstack/defcore/master/2015.05/2015.05.required.txt This will run only the test cases listed in 2015.05.required.txt. Note: Adding the -v option will show the Tempest test result output. Adding the --upload option will have your test results be uploaded to the default RefStack API server or the server specified by --url. Adding the --test-list option will allow you to specify the file path or URL of a test list text file. This test list should contain specific test cases that should be tested. Tests lists passed in using this argument will be normalized with the current Tempest evironment to eliminate any attribute mismatches. Adding the --url option will allow you to change where test results should be uploaded. Adding the -r option with a string will prefix the JSON result file with the given string (e.g. '-r my-test' will yield a result file like 'my-test-0.json'). Adding -- enables you to pass arbitary arguments to the Tempest runner. After the first --, all other subsequent arguments will be passed to the Tempest runner as is. This is mainly used for quick verification of the target test cases. (e.g. -- tempest.api.identity.v2.test_token) Use ./refstack-client test --help for the full list of arguments. Upload your results. If you previously ran a test with refstack-client without the --upload option, you can upload your results to a RefStack API server by using the following command: ./refstack-client upload <Path of results file> The results file is a JSON file generated by refstack-client when a test has completed. This is saved in .tempest/.testrepository. When you use the upload command, you can also override the RefStack API server uploaded to with the --url option. Alternatively, you can use the 'upload-subunit' command to upload results using an existing subunit file. This requires that you pass in the Keystone endpoint URL for the cloud that was tested to generate the subunit data: ./refstack-client upload-subunit --keystone-endpoint http://some.url:5000/v3 <Path of subunit file> Note: Adding -i <path-to-private-key> option will upload test results with a digital signature. For signing, refstack-client uses private RSA keys. The OpenSSH format of RSA keys is supported, so you can just use your SSH key '~/.ssh/id-rsa' or generate a new one with ssh-keygen -b 4096. For now, signed test results can be considered private. List uploaded test set. You can list previously uploaded data from a RefStack API server by using the following command: ./refstack-client list --url <URL of the RefStack API server> Tempest Hacking By default, refstack-client installs Tempest into the .tempest directory. If you're interested in working with Tempest directly for debugging or configuration, you can activate a working Tempest environment by switching to that directory and using the installed dependencies. cd .tempest run tempest with ./run_tempest.sh -V ` or `source ./.venv/bin/activate and run tests manually with testr. This will make the entire Tempest environment available for you to run, including the run_tempest script and testr.

python-quantumclient-2.2.1-3.fc19.noarch: Client library and command line utility for interacting with Openstack Quantum's API.

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