Libguestfs is a library for accessing and modifying guest disk images. Amongst the things this is good for: making batch configuration changes to guests, getting disk used/free statistics (see also: virt-df), migrating between virtualization systems (see also: virt-p2v), performing partial backups, performing partial guest clones, cloning guests and changing registry/UUID/hostname info, and much else besides. Libguestfs uses Linux kernel and qemu code, and can access any type of guest filesystem that Linux and qemu can, including but not limited to: ext2/3/4, btrfs, FAT and NTFS, LVM, many different disk partition schemes, qcow, qcow2, vmdk. Libguestfs provides ways to enumerate guest storage (eg. partitions, LVs, what filesystem is in each LV, etc.). It can also run commands in the context of the guest. Also you can access filesystems over FTP. Libguestfs is a library that can be linked with C and C++ management programs (or management programs written in OCaml, Perl, Python, Ruby, Java or Haskell). You can also use it from shell scripts or the command line. Libguestfs was written by Richard W.M. Jones (rjones@redhat.com). For discussion please use the fedora-virt mailing list: https://www.redhat.com/mailman/listinfo/fedora-virt Home page ---------------------------------------------------------------------- http://libguestfs.org/ Requirements ---------------------------------------------------------------------- - recent QEMU >= 0.10 with vmchannel support http://lists.gnu.org/archive/html/qemu-devel/2009-02/msg01042.html - febootstrap >= 2.3 - fakeroot - fakechroot >= 2.9 - XDR, rpcgen (on Linux these are provided by glibc) - squashfs-tools (mksquashfs only) - (Optional) Augeas (http://augeas.net/) - perldoc (pod2man, pod2text) to generate the manual pages and other documentation. - (Optional) Readline to have nicer command-line editing in guestfish. - (Optional) 'reged' program from chntpw to decode Windows registry entries (http://home.eunet.no/~pnordahl/ntpasswd/) - (Optional) OCaml if you want to rebuild the generated files, and also to build the OCaml bindings - (Optional) local Fedora mirror - (Optional) Perl if you want to build the perl bindings - (Optional) Python if you want to build the python bindings - (Optional) Ruby, rake if you want to build the ruby bindings - (Optional) Java, JNI, jpackage-utils if you want to build the java bindings - (Optional) GHC if you want to build the Haskell bindings - (Optional) Perl XML::XPath, Sys::Virt modules (for libvirt support in virt-inspector). Running ./configure will check you have all the requirements installed on your machine. Building ---------------------------------------------------------------------- Then make the daemon, library and root filesystem: ./configure [--with-mirror=URI] make Use the optional --with-mirror parameter to specify the URI of a local Fedora mirror. See the discussion of the MIRROR parameter in the febootstrap(8) manpage. Finally run the tests: make check If everything works, you can install the library and tools by running this command as root: make install Fedora ---------------------------------------------------------------------- We provide packages for Fedora >= 11 in Fedora. Use those, or build from our source RPMs - it's far simpler that way. You can compile libguestfs on Fedora 10 but you cannot use it with the version of qemu in Fedora 10. You need to compile your own qemu, see section 'qemu' below. RHEL / EPEL / CentOS etc ---------------------------------------------------------------------- We provide packages in EPEL which cover RHEL/CentOS >= 5. Use those or build from our source RPMs. Debian ---------------------------------------------------------------------- libguestfs should build and run on Debian. febootstrap, yum, rpm, fakeroot, fakechroot are all packaged in Debian. Please see the fedora-virt mailing list for the status of libguestfs in Debian. qemu ---------------------------------------------------------------------- By far the most common problem is with broken or incompatible qemu releases. First of all, you need qemu >= 0.10.4, which contains a vmchannel implementation. There are several, conflicting, incompatible things called 'vmchannel' which at one time or another have been added or proposed for qemu/KVM. The _only_ one we support is this one: http://lists.gnu.org/archive/html/qemu-devel/2009-02/msg01042.html Secondly, different versions of qemu have problems booting the appliance for different reasons. This varies between versions of qemu, and Linux distributions which add their own patches. If you find a problem, you could try using your own qemu built from source (qemu is very easy to build from source), with a 'qemu wrapper'. Qemu wrappers are described in the guestfs(3) manpage. Note on using KVM ---------------------------------------------------------------------- By default the configure script will look for qemu-kvm (KVM support). You will need a reasonably recent processor for this to work. KVM is much faster than using plain Qemu. You may also need to enable KVM support for non-root users, by following these instructions: http://www.linux-kvm.org/page/FAQ#How_can_I_use_kvm_with_a_non-privileged_user.3F On some systems, this will work too: chmod o+rw /dev/kvm On some systems, the chmod will not survive a reboot, and you will need to make edits to the udev configuration. Supermin appliance ---------------------------------------------------------------------- If you configure with --enable-supermin then we will build a supermin appliance (supermin = super-minimized). This is a very specialized appliance which is built on-the-fly at runtime (specifically, when you call guestfs_launch). The normal appliance is a self-contained Linux operating system, based on the Fedora/RHEL/CentOS Linux distro. So it contains a complete copy of all the libraries and programs needed, like kernel, libc, bash, coreutils etc etc. The supermin appliance removes the kernel and all the executable libraries and programs from the appliance. That just leaves a skeleton of config files and some data files, which is obviously massively smaller than the normal appliance. At runtime we rebuild the appliance on-the-fly from the libraries and programs on the host (eg. pulling in the real /lib/libc.so, the real /bin/bash etc.) Although this process of rebuilding the appliance each time sounds slow, it turns out to be faster than using the prebuilt appliance. (Most of the saving comes from not compressing the appliance - it transpires that decompressing the appliance is the slowest part of the whole boot sequence). On my machine, a new appliance can be built in under a fifth of a second, and the boot time is several seconds shorter. The big advantage of the supermin appliance for distributions like Fedora is that it gets security fixes automatically from the host, so there is no need to rebuild the whole of libguestfs for a security update in some underlying library. There are several DISADVANTAGES: It won't work at all except in very narrow, controlled cases like the Fedora packaging case. We control the dependencies of the libguestfs RPM tightly to ensure that the required binaries are actually present on the host. Furthermore there are certain unlikely changes in the packages on the host which could break a supermin appliance, eg. an updated library which depends on an additional data file. Also supermin appliances are subjected to changes in the host kernel which might break compatibility with qemu -- these are, of course, real bugs in any case. Lastly, supermin appliances really can't be moved between branches of distributions (eg. built on Fedora 12 and moved to Fedora 10) because they are not self-contained and they rely on certain libraries being around. You shouldn't do this anyway. Use supermin appliances with caution. Notes on cross-architecture support ---------------------------------------------------------------------- At the moment we basically don't support cross-architecture or 32-on-64. This limits what is possible for some guests. Filesystem operations and FTP export will work fine, but running commands in guests may not be possible. To enable this requires work for cross-architecture and 32-on-64 support in febootstrap, fakeroot and fakechroot. The daemon/ directory contains its own configure script. This is so that in future we will be able to cross-compile the daemon. Mirroring tip ---------------------------------------------------------------------- On my machines I can usually rebuild the appliance in around 3 minutes. If it takes much longer for you, use a local Fedora mirror or squid. To use squid to cache yum downloads, read this first: https://lists.dulug.duke.edu/pipermail/yum/2006-August/009041.html (In brief, because yum chooses random mirrors each time, squid doesn't work very well with default yum configuration. To get around this, choose a Fedora mirror which is close to you, set this with './configure --with-mirror=[...]', and then proxy the whole lot through squid by setting http_proxy environment variable). You will also need to substantially increase the squid configuration limits: http://fedoraproject.org/wiki/Using_Mock_to_test_package_builds#Using_Squid_to_Speed_Up_Mock_package_downloads Porting to other Linux distros / non-Linux ---------------------------------------------------------------------- libguestfs itself should be fairly portable to other Linux distributions. Non-Linux ports are trickier, but we will accept patches if they aren't too invasive. The main porting issues are with the dependencies needed to build the appliance. You will need to find or port the following packages first: - fakeroot - fakechroot - python - rpm-python http://www.rpm.org/ - yum http://yum.baseurl.org/ - febootstrap http://et.redhat.com/~rjones/febootstrap/ Copyright and license information ---------------------------------------------------------------------- Copyright (C) 2009 Red Hat Inc. The library is distributed under the LGPLv2+. The programs are distributed under the GPLv2+. Please see the files COPYING and COPYING.LIB for full license information.