pacemaker 2.1.6-5ubuntu2 source package in Ubuntu

Changelog

pacemaker (2.1.6-5ubuntu2) noble; urgency=medium

  * No-change rebuild for CVE-2024-3094

 -- William Grant <email address hidden>  Mon, 01 Apr 2024 16:12:08 +1100

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Uploaded by:
William Grant
Uploaded to:
Noble
Original maintainer:
Ubuntu Developers
Architectures:
any all
Section:
admin
Urgency:
Medium Urgency

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pacemaker_2.1.6.orig.tar.gz 5.7 MiB 1240326e109c0fb3d0a84f267c6a580dcdbb30b14eab47ca47e6fab0cdb6c20a
pacemaker_2.1.6-5ubuntu2.debian.tar.xz 55.6 KiB db0020293cc567e7a4baa6484a144223f11fcf2e199e8a8722753086cd053672
pacemaker_2.1.6-5ubuntu2.dsc 3.7 KiB df48f05fee2c62ce84ae9fea62db60dd90341b491ac3217468863a3903c46638

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Binary packages built by this source

libcib27t64: cluster resource manager CIB library

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the Cluster Information Base library.

libcib27t64-dbgsym: debug symbols for libcib27t64
libcrmcluster29t64: cluster resource manager cluster library

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the cluster library.

libcrmcluster29t64-dbgsym: debug symbols for libcrmcluster29t64
libcrmcommon34t64: cluster resource manager common library

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the common library.

libcrmcommon34t64-dbgsym: debug symbols for libcrmcommon34t64
libcrmservice28t64: cluster resource manager service library

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the service library.

libcrmservice28t64-dbgsym: debug symbols for libcrmservice28t64
liblrmd28t64: cluster resource manager LRMD library

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the Local Resource Manager Daemon library.

liblrmd28t64-dbgsym: debug symbols for liblrmd28t64
libpacemaker1t64: cluster resource manager utility library

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the utility library resulting from the merge
 of libpengine and libtransitioner.

libpacemaker1t64-dbgsym: debug symbols for libpacemaker1t64
libpe-rules26t64: cluster resource manager Policy Engine rules library

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the Policy Engine rules library.

libpe-rules26t64-dbgsym: debug symbols for libpe-rules26t64
libpe-status28t64: cluster resource manager Policy Engine status library

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the Policy Engine status library.

libpe-status28t64-dbgsym: debug symbols for libpe-status28t64
libstonithd26t64: cluster resource manager STONITH daemon library

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the STONITH daemon library.

libstonithd26t64-dbgsym: debug symbols for libstonithd26t64
pacemaker: cluster resource manager

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the Pacemaker daemons directly interacting with
 the cluster stack.

pacemaker-cli-utils: cluster resource manager command line utilities

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains those command line utilities of the Pacemaker
 cluster manager which work on remote nodes as well.

pacemaker-cli-utils-dbgsym: debug symbols for pacemaker-cli-utils
pacemaker-common: cluster resource manager common files

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains common infrastructure and data files for the
 Pacemaker daemons and utilities.

pacemaker-cts: test framework for cluster-related technologies like Pacemaker

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the Cluster Test Framework.

pacemaker-dbgsym: debug symbols for pacemaker
pacemaker-dev: cluster resource manager development

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the headers and other necessary files to build
 applications or libraries that use the Pacemaker libraries.

pacemaker-doc: cluster resource manager HTML documentation

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains
  * the Pacemaker API documentation generated by Doxygen,
  * the Clusters from Scratch book,
  * the Pacemaker Administration book,
  * the Pacemaker Development book,
  * the Pacemaker Explained book and
  * the Pacemaker Remote book.

pacemaker-remote: cluster resource manager proxy daemon for remote nodes

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the Pacemaker proxy daemon, which simulates cluster
 services on a node not running the cluster stack. Such "remote" nodes can
 run resources but don't participate in the quorum. This package is
 mutually exclusive with Pacemaker proper.

pacemaker-remote-dbgsym: debug symbols for pacemaker-remote
pacemaker-resource-agents: cluster resource manager general resource agents

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains Pacemaker resource agents not requiring access
 to the cluster stack, thus also usable by the remote daemon.

python3-pacemaker: Pacemaker API for Python3

 At its core, Pacemaker is a distributed finite state
 machine capable of co-ordinating the startup and recovery of inter-related
 services across a set of machines.
 .
 Pacemaker understands many different resource types (OCF, SYSV, systemd) and
 can accurately model the relationships between them (colocation, ordering).
 .
 It can even use technology such as Docker to automatically isolate the
 resources managed by the cluster.
 .
 This package contains the Python 3 API.