Provided by: libguestfs0_1.40.2-2ubuntu2_amd64
guestfs-building - How to build libguestfs from source
This manual page describes how to build libguestfs from source. The main steps are: · Install the requirements. · Build, either from the git repository or from a tarball. · Run the tests. · Run the tools from the source directory, or install.
Short cut for Fedora or Red Hat Enterprise Linux (RHEL) users On Fedora, use dnf(8) to install all the requirements: dnf builddep libguestfs dnf install autoconf automake libtool gettext-devel On systems still using yum(8), do: yum-builddep libguestfs yum install autoconf automake libtool gettext-devel Short cut for Debian or Ubuntu users Use APT to install all the requirements: apt-get build-dep libguestfs apt-get install autoconf automake libtool-bin gettext If that command doesn't work, take a look at the Debian source package http://packages.debian.org/source/libguestfs, at the list of "build-depends" and "build-depends-indep", and install everything listed there. Full list of requirements appliance/packagelist.in Install as many package names found in this file as possible. (It is not strictly required to install all of them). Note: If you build libguestfs followed by installing appliance packages, the build will not pick them up automatically, even if you do "make clean". You have to do this command to clean the old supermin appliance and force a new one to be prepared: make -C appliance clean-supermin-appliance qemu ≥ 1.3.0 Required. qemu-img ≥ 1.3.0 Required. Virt-p2v and virt-v2v requires qemu-img ≥ 2.2.0. kernel ≥ 2.6.34 Required. The following features must be enabled: "virtio-pci", "virtio-serial", "virtio-block", "virtio-net". supermin ≥ 5.1.0 Required. For alternatives, see "USING A PREBUILT BINARY APPLIANCE" below. glibc Required. We use the custom printf formatters extension of glibc (see "DAEMON CUSTOM PRINTF FORMATTERS" in guestfs-hacking(1)). XDR (tirpc, glibc or other) Required. We use the XDR implementation from "<rpc/xdr.h>", which may come from glibc, tirpc or another library. The "rpcgen" tool is optional, except if you want to compile from git and/or patch libguestfs with new APIs. Gcc or Clang Required. We use "__attribute__((cleanup))" which is a GCC extension also supported by Clang. Perl Required. Various build steps and tests are written in Perl. Perl is not needed at runtime except if you need to run a small number of virt tools which are still written in Perl. Perl "Pod::Man" Perl "Pod::Simple" Required. Part of Perl core. OCaml ≥ 4.01 OCaml findlib Required. autoconf automake gettext Required if compiling from git. Optional if compiling from tarball. cpio Required. gperf Required. flex bison Required. Perl-compatible Regular Expressions (PCRE) library Required. genisoimage Required. libxml2 Required. ncurses Required. augeas ≥ 1.0.0 Required. xz Required. Jansson ≥ 2.7 Required. po4a Required if compiling from git. Optional if compiling from tarball. hivex ≥ 1.2.7 ocaml-hivex Required. ocaml-hivex is the OCaml binding for hivex, which is required when building the daemon. libmagic Required. This is the library used by the file(1) command. libvirt ≥ 0.10.2 Optional. Always use the latest possible version of libvirt. xmllint Optional. Used only for tests. libconfig Optional. Used to parse libguestfs’s own config files, eg. /etc/libguestfs-tools.conf. libselinux Optional. Used by the libvirt backend to securely confine the appliance (sVirt). Berkeley DB utils (db_dump, db_load, etc) Optional. Usually found in a package called "db-utils", "db4-utils", "db4.X-utils" etc. systemtap Optional. For userspace probes. readline Optional. For nicer command line editing in guestfish(1). acl Optional. Library and programs for handling POSIX ACLs. libcap Optional. Library and programs for handling Linux capabilities. libldm Optional. Library and ldmtool(1) for handling Windows Dynamic Disks. sd-journal Optional. Library for accessing systemd journals. gdisk Optional. GPT disk support. netpbm Optional. Render icons from guests. icoutils Optional. Render icons from Windows guests. Perl "Expect" Optional. Perl module used to test virt-rescue(1). FUSE Optional. fusermount(1), libfuse and kernel module are all needed if you want guestmount(1) and/or mount-local support. static glibc Optional. Used only for testing. qemu-nbd nbdkit Optional. qemu-nbd is used for testing. virt-p2v(1) requires either qemu-nbd or nbdkit, but these only need to be present on the virt-p2v ISO, they do not need to be installed at compile time. uml_mkcow Optional. For the UML backend. curl Optional. Used by virt-builder for downloads. GNU Privacy Guard (GnuPG, gpg) v1 or v2 Optional. Used by virt-builder for checking digital signatures. liblzma Optional. If available, virt-builder will use this library for fast, parallel uncompression of templates. Gtk ≥ 2.24, or 3 Optional. Used by the virt-p2v graphical user interface. Either Gtk 2 or Gtk 3 can be used. If you want to select a specific version of Gtk, use "./configure --with-gtk=2" or "./configure --with-gtk=3". D-Bus Optional. If the D-Bus low level C API is available, virt-p2v can send a D-Bus message to logind to inhibit power saving (sleep, suspend, etc) during P2V conversions. If this API is not available at build time, then very long conversions might be interrupted if the physical machine goes to sleep. zip unzip Optional. Used by virt-v2v to handle OVA files. python-evtx Optional. Used by virt-log(1) to parse Windows Event Log files. OCaml gettext Optional. For localizing OCaml virt tools. ocaml-ounit ≥ 2.0.0 Optional. For testing the common OCaml modules. ocaml-libvirt ≥ 0.6.1.5 Optional. For building the optional virt-v2v test harness. Perl "Module::Build" ≥ 0.19 Perl "Test::More" Optional. Used to build and test the Perl bindings. Python ≥ 2.2 Optional. Used to build the Python bindings. For building Python 2 or Python 3 bindings, see "BUILDING PYTHON 2 AND PYTHON 3 BINDINGS" below. Python "unittest" Optional. Used to run the Python testsuite. Ruby rake rubygem-minitest rubygem-rdoc Optional. Used to build the Ruby bindings. Java ≥ 1.6 Optional. Java, JNI and jpackage-utils are needed for building Java bindings. GHC Optional. Used to build the Haskell bindings. PHP phpize Optional. Used to build the PHP bindings. glib2 gobject-introspection gjs Optional. Used to build and test the GObject bindings. LUA Optional. Used to build the LUA bindings. Erlang erl_interface Optional. Used to build the Erlang bindings. golang ≥ 1.1.1 Optional. Used to build the Go bindings. valgrind Optional. For testing memory problems. Perl "Sys::Virt" Optional. libvirt-python Optional. For testing Python libvirt/libguestfs interactions. Perl "Win::Hivex" Optional. Used by the virt-win-reg(1) tool. Perl "Pod::Usage" Optional. Used by some Perl virt tools. Perl "libintl" Optional. bash-completion Optional. For tab-completion of commands in bash. libtsk Optional. Library for filesystem forensics analysis. yara Optional. Tool for categorizing files based on their content.
BUILDING FROM GIT
You will need to install additional dependencies "autoconf", "automake", "gettext", OCaml findlib and po4a when building from git. git clone https://github.com/libguestfs/libguestfs cd libguestfs ./autogen.sh make
BUILDING FROM TARBALLS
Tarballs are downloaded from http://download.libguestfs.org/. Stable tarballs are signed with the GnuPG key for "email@example.com", see https://pgp.mit.edu/pks/lookup?op=vindex&search=0x91738F73E1B768A0. The fingerprint is "F777 4FB1 AD07 4A7E 8C87 67EA 9173 8F73 E1B7 68A0". Download and unpack the tarball. cd libguestfs-1.xx.yy ./configure make
RUNNING THE TESTS
DO NOT run the tests as root! Libguestfs can be built and tested as non-root. Running the tests as root could even be dangerous, don't do it. To sanity check that the build worked, do: make quickcheck To run the basic tests, do: make check There are many more tests you can run. See guestfs-hacking(1) for details.
DO NOT use "make install"! You'll end up with conflicting versions of libguestfs installed, and this causes constant headaches for users. See the next section for how to use the ./run script instead. Distro packagers can use: make INSTALLDIRS=vendor DESTDIR=[temp-build-dir] install
THE ./run SCRIPT
You can run guestfish(1), guestmount(1) and the virt tools without needing to install them by using the ./run script in the top directory. This script works by setting several environment variables. 例: ./run guestfish [usual guestfish args ...] ./run virt-inspector [usual virt-inspector args ...] The ./run script adds every libguestfs binary to the $PATH, so the above examples run guestfish and virt-inspector from the build directory (not the globally installed guestfish if there is one). You can use the script from any directory. If you wanted to run your own libguestfs-using program, then the following command will also work: /path/to/libguestfs/run ./my_program [...] You can also run the C programs under valgrind like this: ./run valgrind [valgrind opts...] virt-cat [virt-cat opts...] or under gdb: ./run gdb --args virt-cat [virt-cat opts...] This also works with sudo (eg. if you need root access for libvirt or to access a block device): sudo ./run virt-cat -d LinuxGuest /etc/passwd To set environment variables, you can either do: LIBGUESTFS_HV=/my/qemu ./run guestfish または: ./run env LIBGUESTFS_HV=/my/qemu guestfish local* FILES Files in the top source directory that begin with the prefix local* are ignored by git. These files can contain local configuration or scripts that you need to build libguestfs. I have a file called localconfigure which is a simple wrapper around autogen.sh containing local configure customizations that I need. It looks like this: . localenv ./autogen.sh \ -C \ --enable-werror \ "$@" So I can use this to build libguestfs: ./localconfigure && make If there is a file in the top build directory called localenv, then it will be sourced by "make". This file can contain any local environment variables needed, eg. for skipping tests: # 代替の python バイナリを使用します。 export PYTHON=python3 # このテストを飛ばします。これは壊れています。 export SKIP_TEST_BTRFS_FSCK=1 Note that localenv is included by the top Makefile (so it’s a Makefile fragment). But if it is also sourced by your localconfigure script then it is used as a shell script.
SELECTED ./configure SETTINGS
There are many "./configure" options. Use: ./configure --help to list them all. This section covers some of the more important ones. --disable-appliance --disable-daemon See "USING A PREBUILT BINARY APPLIANCE" below. --disable-erlang --disable-gobject --disable-golang --disable-haskell --disable-lua --disable-ocaml --disable-perl --disable-php --disable-python --disable-ruby Disable specific language bindings, even if "./configure" finds all the necessary libraries are installed so that they could be compiled. Note that disabling OCaml (bindings) or Perl will have the knock-on effect of disabling parts of the test suite and some tools. OCaml is required to build libguestfs and this requirement cannot be removed. Using --disable-ocaml only disables the bindings and OCaml tools. --disable-fuse Disable FUSE support in the API and the guestmount(1) tool. --disable-gnulib-tests On some platforms the GNUlib test suite can be flaky. This disables it, since errors in the GNUlib test suite are often not important. --disable-static Don’t build a static linked version of the libguestfs library. --enable-install-daemon Normally guestfsd(8) is not installed by "make install", since that wouldn't be useful (instead it is "installed" inside the supermin appliance). However if packagers are building "libguestfs live" then they should use this option. --enable-werror This turns compiler warnings into errors (ie. "-Werror"). Use this for development, especially when submitting patches. It should generally not be used for production or distro builds. --with-default-backend=libvirt This controls the default method that libguestfs uses to run qemu (see "BACKEND" in guestfs(3)). If not specified, the default backend is "direct", which means libguestfs runs qemu directly. Fedora and Red Hat Enterprise Linux (RHEL) ≥ 7 use this flag to change the default backend to "libvirt", because (especially in RHEL) the policy is not to allow any program to run qemu except via libvirt. Note that despite this setting, all backends are built into libguestfs, and you can override the backend at runtime by setting the $LIBGUESTFS_BACKEND environment variable (or using API methods). --with-distro=REDHAT|DEBIAN|... Libguestfs needs to know which Linux distro is in use so it can choose package names for the appliance correctly (see for example appliance/packagelist.in). It normally does this automatically. However if you can building or packaging libguestfs on a new distro then you can use --with-distro to specify that the distro is similar to an existing one (eg. --with-distro=REDHAT if the distro is a new Red Hat or CentOS derivative). Note that if your distro is completely new then it may still require upstream modifications. --with-extra="distroname=version,libvirt,..." --with-extra="local" This option controls the "extra" field returned by "guestfs_version" in guestfs(3) and also printed by virt tools' --version option. It is a free text field, but a good idea is to encode a comma-separated list of facts such as the distro name and version, whether libvirt is the default backend, and anything else that may help with debugging problems raised by users. For custom and/or local builds, this can be set to "local" to indicate this is not a distro build. --without-libvirt Compile libguestfs without libvirt support, even if libvirt development libraries are installed. --with-gtk=2 This option forces virt-p2v to be built against Gtk 2, which is currently the most widely tested configuration. --with-qemu="bin1 bin2 ..." Provide an alternate qemu binary (or list of binaries). This can be overridden at runtime by setting the "LIBGUESTFS_HV" environment variable. --with-supermin-packager-config=yum.conf This passes the --packager-config option to supermin(1). The most common use for this is to build the appliance using an alternate repository (instead of using the installed yum/dnf/apt/etc configuration to find and download packages). You might need to use this if you want to build libguestfs without having a network connection. Examples of using this can be found in the Fedora "libguestfs.spec" file (see "BUILDING A PACKAGE FOR FEDORA" below for resources). --with-supermin-extra-options="--opt1 --opt2 ..." Pass additional options to supermin(1). See appliance/make.sh.in to understand precisely what this does. PYTHON This environment variable may be set to point to a python binary (eg. "python3"). When "./configure" runs, it inspects this python binary to find the version of Python, the location of Python libraries and so on. See "BUILDING PYTHON 2 AND PYTHON 3 BINDINGS" below. SUPERMIN This environment variable can be set to choose an alternative supermin(1) binary. This might be used, for example, if you want to use a newer upstream version of supermin than is packaged for your distro, or if supermin is not packaged at all. On RHEL 7, you must set "SUPERMIN=/usr/bin/supermin5" when compiling libguestfs.
NOTES ABOUT QEMU AND KVM
A common problem is with broken or incompatible qemu releases. 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". See "QEMU WRAPPERS" in guestfs(3). By default the configure script will look for qemu-kvm (KVM support). 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 0666 /dev/kvm On some systems, the chmod will not survive a reboot, and you will need to make edits to the udev configuration.
USING CLANG (LLVM) INSTEAD OF GCC
export CC=clang ./configure make
USING A PREBUILT BINARY APPLIANCE
To understand what the libguestfs appliance means, see guestfs-internals(1). If you are using non-Linux, or a Linux distribution that does not have supermin(1) support, or simply if you don't want to build your own libguestfs appliance, then you can use one of the prebuilt binary appliances that we supply: http://libguestfs.org/download/binaries/appliance Build libguestfs like this: ./configure --disable-appliance --disable-daemon make Set $LIBGUESTFS_PATH to the path where you unpacked the appliance tarball, eg: export LIBGUESTFS_PATH=/usr/local/lib/guestfs/appliance and run the libguestfs programs and virt tools in the normal way, eg. using the ./run script (see above).
BUILDING PYTHON 2 AND PYTHON 3 BINDINGS
The ./configure script detects the currently installed version of Python using whatever program is called "python" in the current $PATH. Libguestfs will build Python 2 or Python 3 bindings as appropriate. You can override this behaviour by specifying an alternate Python binary, eg: PYTHON=/usr/bin/python3 ./configure To build parallel Python 2 and Python 3 bindings, you will need to build libguestfs twice. The second time, you can disable all the other bindings and tools and just build the Python bindings. See the Fedora spec file (see below) for a complete example of how to do this.
BUILDING A PACKAGE FOR FEDORA
The Fedora spec file is stored under: http://pkgs.fedoraproject.org/cgit/rpms/libguestfs.git/ Libguestfs is built in Fedora using the ordinary Fedora build system (Koji).
BUILDING A PACKAGE FOR RED HAT ENTERPRISE LINUX
Red Hat Enterprise Linux (RHEL) builds of libguestfs are heavily patched. There are broadly two types of patches we apply: · We disable many features that we do not wish to support for RHEL customers. For example, the "libguestfs live" feature is disabled. · We backport upstream features. The patches we apply to RHEL releases are available publically in the upstream git repository, in a branch called "rhel-x.y" For example, the RHEL 7.3 patches are available here: https://github.com/libguestfs/libguestfs/commits/rhel-7.3 The sources and spec files for RHEL versions of libguestfs are available on https://git.centos.org/project/rpms, and see also https://wiki.centos.org/Sources.
BUILDING i686 32 BIT VIRT-P2V
(This section only applies on the x86-64 architecture.) Building a 32 bit virt-p2v (i686) binary improves compatibility with older hardware. See virt-p2v-make-disk(1) for details. Although virt-p2v is a simple Gtk application, it is not especially easy to build just virt-p2v as a 32 bit application on a 64 bit host. Usually the simplest way is to use a 32 bit chroot or even a 32 bit virtual machine to build libguestfs. On Fedora you can use the mock(1) tool. For example: fedpkg mockbuild --root fedora-23-i386 This will result in a virt-v2v-*.i686.rpm file which can be unpacked to extract the 32 bit virt-p2v binary. The binary may be compressed to either p2v/virt-p2v.i686.xz, or $libdir/virt-p2v/virt-p2v.i686.xz or $VIRT_P2V_DATA_DIR/virt-p2v.i686.xz as appropriate. This enables the virt-p2v-make-disk(1) --arch option.
guestfs(3), guestfs-examples(3), guestfs-hacking(1), guestfs-internals(1), guestfs-performance(1), guestfs-release-notes(1), guestfs-testing(1), libguestfs-test-tool(1), libguestfs-make-fixed-appliance(1), http://libguestfs.org/.
Richard W.M. Jones ("rjones at redhat dot com")
Copyright (C) 2009-2019 Red Hat Inc.
To get a list of bugs against libguestfs, use this link: https://bugzilla.redhat.com/buglist.cgi?component=libguestfs&product=Virtualization+Tools To report a new bug against libguestfs, use this link: https://bugzilla.redhat.com/enter_bug.cgi?component=libguestfs&product=Virtualization+Tools When reporting a bug, please supply: · The version of libguestfs. · Where you got libguestfs (eg. which Linux distro, compiled from source, etc) · Describe the bug accurately and give a way to reproduce it. · Run libguestfs-test-tool(1) and paste the complete, unedited output into the bug report.