I have the yarrow's iso files on my HD in a RH9 system. Let's say I want
to upgrade selected packages using an "apt-get install" pointing to my
iso-mounted files, how do I do it?
i.e I mount the iso into some /mnt/yarrow1, /mnt/yarrow 2 etc..
Then what is the complete procedure to make my apt look into my own HD to
upgrade packages. Can anybody redirect me to the correct
resource or some literature hanging on the web? Thanks.
Assume also that I do not wish to burn CDs! I do not want to use
With kind regards,
Singapore Synchrotron Light Source (SSLS)
5 Research Link,
Email: slsbdfc at nus dot edu dot sg \or\
didierbe at sps dot nus dot edu dot sg
I just had to setup a new machine, and new ssh keys.
I chose my new id_rsa.pub to upload.
But I get:
git push --verbose
Pushing to ssh://email@example.com/mercurial
Permission denied (publickey).
fatal: The remote end hung up unexpectedly
This proposal was originally at https://fedorahosted.org/fesco/ticket/1104
(mitr asked me to move the discussion to fedora-devel to get more
attention and feedback)
http://fedoraproject.org/wiki/Hardened_Packages page mentions
that "FESCo requires some packages to use PIE and relro hardening by
It would be great if this list could be expanded to include even more
packages which are at comparatively more risk of being exploited (locally
Such packages will typically include various system daemons, network
daemons and network enabled applications.
Lot of network daemons are already using PIE and RELRO (e.g. httpd,
MariaDB). So a natural question is why packages in same "network
daemons" class like PostgreSQL, Dovecot and MongoDB aren't being
Some of the ways to implement this proposal are,
1. Hardening flags should be turned on (by default) for all packages
which are at comparatively more risk of being exploited or which meet
some well-defined criteria (suggestions welcome).
"Packaging Guidelines" say that "Other packages may enable the flags at
the maintainer's discretion."
Thinking from a security perspective, I find "Hardening flags can only
be disabled for other packages at the maintainer's discretion provided
enough justification is given to FESCo" to be more appropriate.
2. An alternate approach is to come up with an expanded list of packages
which should be hardened.
Any feedback is welcome!
I'm not sure whether or not this is a bug, but it sure looks strange.
$ rpm -qf /usr/bin/ssh
$ ldd /usr/bin/ssh|grep ldap
libldap-2.4.so.2 => /lib64/libldap-2.4.so.2 (0x00007fad274fc000)
/usr/lib64/libldap-2.4.so.2 is a symbolic link to a symbolic link
which passes through a -devel package.
/usr/lib64/libldap-2.4.so.2 -> libldap.so # openldap-2.4.34-1.fc18
/usr/lib64/libldap.so -> libldap-2.4.so.2.9.0 # openldap-devel-2.4.34-1.fc18
/usr/lib64/libldap-2.4.so.2.9.0 is a real file # openldap-2.4.34-1.fc18
To cut a long story short, I fixed this by uninstalling openldap-devel
and reinstalling it. Now there is no -devel package in the chain:
$ ldd /usr/bin/ssh | grep ldap
libldap-2.4.so.2 => /lib64/libldap-2.4.so.2 (0x00007fe8caf69000)
/lib64/libldap-2.4.so.2 -> libldap-2.4.so.2.9.0
I'd like to understand how the original situation happened, because it
broke a supermin-built appliance (RHBZ#954185). I assume ldconfig
must have something to do with it. There is nothing unusual in the
%scripts of openldap (it just runs ldconfig as you'd expect), nor is
there any special openssh/openldap config file in /etc/ld.so.conf.d.
Richard Jones, Virtualization Group, Red Hat http://people.redhat.com/~rjones
virt-df lists disk usage of guests without needing to install any
software inside the virtual machine. Supports Linux and Windows.
= Proposed Self Contained Change: Snapshot and Rollback Tool =
Change owner(s): Stephen Gallagher <sgallagh(a)redhat.com>, Colin Walters
With the advent of thinly-provisioned LVM pools, it has become possible for us
to implement full-system LVM snapshotting for recording rollback points. We
are planning to support this for yum updates and eventually fedup upgrades
going forwards. This change request notes the addition of new tools provided
by the roller-derby project to present an interface and a CLI for managing and
== Detailed description ==
The roller-derby project will be providing a library and a CLI for creating,
labeling and managing LVM snapshots (plus non-LVM backups of /boot), oriented
primarily towards rpm-managed data, but useful beyond that. The yum plugin
"yum-plugin-fs-snapshot" will be updated to consume this library and save the
system state in a compatible format. The roller-derby CLI tool will provide an
interactive and scriptable interface for manipulating these snapshots and
determining when to remove older ones. It will also allow the tagging of
snapshots as "known-good", to be skipped when automatically-trimming for
space. The roller-derby project will likely provide a small daemon to keep
track of the available space in the LVM pool to proactively clean up snapshots
before the system runs out of space.
In order to prevent "loss" of data when rebooting into an snapshot, the
roller-derby CLI will allow saving a snapshot of the current state before
rolling back and will provide tools to allow mounting of that current state to
recover changes that have occurred since the rollback point.
== Scope ==
The scope of this project is the completion of the initial release of the
roller-derby project and the inclusion of thinly-provisioned LVM as an option
in the Anaconda installer .
Proposal owners: We need to complete the roller-derby project. Other than the
Anaconda change referenced above, all dependencies are available in Fedora
Other developers: OS Installer Support for LVM Thin Provisioning
Release engineering: N/A (not a System Wide Change)
Policies and guidelines: N/A (not a System Wide Change)
devel-announce mailing list
I'm trying to package a web application with bundled fonts. These fonts
are used by the web clients (browsers), and just served from the Fedora
Trying to package the webfonts as dependencies I have run into problem
together with my reviewer. Basically, we don't know what to do. Some
- Where should webfonts be stored? A specific dir would be good, since
some fonts exists in both a webfont and desktop variant with the same
- How shoulld webapps get access to the system webfont? Is the apache
config file approach used for ..js files, where the webapp gets access
to specific system paths, usable also here?
- Given that the primary concern about fonts seems to be licensing, is
it really meaningful to unbundle them?
This is the short story. The somewhat longer:
Any help, out there?
For F21, I plan to orphan the following X video drivers:
Effectively this means that the graphics team will be focusing on KMS
for graphics support, with vesa and fbdev available as last-ditch
fallbacks. If anyone is interested in taking on support for these
chips, they're welcome to, though we would encourage anyone doing so to
work towards KMS support and not merely do "keep it building"
One other detail: the intel driver currently has both UMS support for
the i810 chipset, and KMS support for everything newer. To be
consistent with the above changes I'll be dropping the i810 support,
which will then fall back to vesa. Again, if someone wants to own the
i810 support, let me know and we can add you as a comaintainer.
the current xine-lib maintainer speaking. :-)
The Xine project:
has recently released a new major version, version 1.2.0.
Unfortunately, among the list of changes:
there are these new "features":
* Use libavutil-provided implementations for CRC, SHA1 and BASE64 algorithms,
this makes use of libavutil even outside the FFmpeg decoding plugin,
but avoid duplication of algorithms between different plugins.
* Use av_mallocz() when xine_xmalloc_aligned() wouldn't be needed.
* FFmpeg is now required as an external dependency; if you want to build
xine-lib from source, please download a copy of FFmpeg from their SVN
which basically mean that xine-lib now has a global, non-optional dependency
on FFmpeg's libavutil library.
So there are 4 possible ways forward:
(a) Stick with 1.1.x forever. I don't think that's a good idea in the long
run, upstream won't be providing security fixes for the old branch forever.
(b) Package libavutil (and only libavutil) from FFmpeg in Fedora. (I don't
think libavutil, as opposed to libavcodec, is actually patent-encumbered,
though that'd also have to be checked.) The issue there is that FFmpeg
upstream obviously doesn't support this. It would need some more black
packaging magic of the kind already done in xine-lib, and more legal
auditing. I don't think I want to investigate going down that road.
(c) Bundle parts or all of libavutil with xine-lib. Yuck!!!
(d) Move the whole thing (back) to RPM Fusion (where it originally was, before
we started needing xine-lib for Amarok and Phonon, which both no longer
use it). It would go to the Free section, of course.
My proposal is to go with (d).
The following packages currently depend on xine-lib:
* (k9copy – already in RPM Fusion, not affected)
* kaffeine (my package, the reason why I maintain xine-lib in the first place)
These packages would have to move to RPM Fusion along with xine-lib.
In Kaffeine's case, upstream is switching from xine-lib to MPlayer in their git
repository, so it will likely have to move to RPM Fusion sooner or later
anyway. This means the affected packages are basically *xine*.
So my plan is to retire (for my packages, resp. have the respective maintainer
retire) the listed packages in Fedora for Fedora ≥ 17 and get (or have the
respective maintainer get) them into RPM Fusion Free instead. (I'd take care
of xine-lib and kaffeine myself, I hope the maintainers of the other packages
will take care of them.)
= Proposed System Wide Change: ARM as primary Architecture =
Change owner(s): Dennis Gilmore <dennis(a)ausil.us>, Peter Robinson
Make ARM a primary architecture. Add armv7hl to the i686 and x86_64 as arches
that we build and support. This will mean that all packages supported by the
ARM architecture must build for ARM to be released. With the release of Fedora
19 we have deprecated support for software floating support (ARMv5tel sfp) so
the only proposed addition to primary architectures is currently ARMv7
hardware floating point 32 bit support (ARMv7 hfp 32bit).
== Detailed description ==
The Changing IT landscape has started to focus on greener technologies as well
as cheaper mass produced devices that allow for fully functional cheap devices
for lower socio-economic areas and other markets like education and "makers".
ARM SoCs have traditionally been the domain of embedded and mobile
applications but are now finding their way into more traditional computing
devices like desktop, notebook and server markets. Fedora ARM currently works
on many different devices with wider support coming with each new mainline
For this change we will enable armv7hl builds on primary koji, and compose arm
trees as with the other primary architectures. Fedora has in the Phoenix data
centre 96 quad core Calxeda EnergyCore server nodes. Some of these nodes will
remain allocated to the arm secondary architecture koji instance for building
updates for the current Fedora 18 and 19 releases. When Fedora 18 goes end of
life the ARMv5 softfp nodes will able to be be reallocated to other tasks.
Infrastructure has expressed an interest in testing and experimenting with
some of its workloads on ARM, some are allocated to QA and some for releng.
There is currently 24 nodes configured in primary koji ready to go as builders,
there is the capacity to add up to 24 more when ARM becomes primary if
The kernel is now a multi platform unified ARMv7 kernel supporting a number of
SoCs with support expanding with each new upstream release. We build a base
and LPAE variant similar to i686. There is an ARM specific (ARMv7 and aarch64)
kernel maintainer working in collaboration with the Fedora kernel team. The
releases are composed using the exact same tooling as used for the primary
architectures. Disk images for development boards are generated by appliance-
creator and the kickstarts live in spin-kickstarts, they take a similar format
as the livecds on primary but are shipped as an OEM disk image, and like
primary initial-setup is used to do final user configuration. Like primary pungi
is used to generate an install tree, PXE install trees are created but current
bootloaders don't support isofs so ISO images aren't currently created.
== Scope ==
Add armv7hl to list of arches for f20-build and future build tags in koji
compose armhfp trees with i386 and x86_64. Requisite build hardware already
exists in phx2 and is configured to work with mainline koji.
Proposal owners: change the arches in koji, import the matching ARMv7 rawhide
builds into koji. Update Release Engineering scripts to automatically build
armhfp trees along with i686 and x86_64.
Other developers: submit builds as normal, in the event of unexpected build
failures liaise with the ARM Team to help debug and fix issues.
Release engineering: Will need to add armhfp to the release processes and make
arm install trees and disk images with each milestone compose. Release
Engineering are part of the team of people proposing the Change.
Policies and guidelines: armv7hl builds will be required to complete for
builds to be successful in koji
devel-announce mailing list