=head1 SYNOPSIS
#include <guestfs.h>
-
+
guestfs_h *handle = guestfs_create ();
guestfs_add_drive (handle, "guest.img");
guestfs_launch (handle);
- guestfs_wait_ready (handle);
guestfs_mount (handle, "/dev/sda1", "/");
guestfs_touch (handle, "/hello");
guestfs_sync (handle);
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 or Python).
-You can also use it from shell scripts or the command line.
+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.
You don't need to be root to use libguestfs, although obviously you do
need enough permissions to access the disk images.
functions in the following order:
guestfs_h *handle = guestfs_create ();
-
+
guestfs_add_drive (handle, "guest.img");
/* call guestfs_add_drive additional times if the guest has
* multiple disks
*/
-
+
guestfs_launch (handle);
- guestfs_wait_ready (handle);
/* now you can examine what partitions, LVs etc are available
* you have to mount / at least
- */
+ */
guestfs_mount (handle, "/dev/sda1", "/");
/* now you can perform actions on the guest disk image */
guestfs_touch (handle, "/hello");
-
+
/* you only need to call guestfs_sync if you have made
* changes to the guest image
*/
guestfs_sync (handle);
-
+
guestfs_close (handle);
-C<guestfs_wait_ready> and all of the actions including C<guestfs_sync>
+C<guestfs_launch> and all of the actions including C<guestfs_sync>
are blocking calls. You can use the low-level event API to do
non-blocking operations instead.
All functions that return integers, return C<-1> on error. See
-section ERROR HANDLING below for how to handle errors.
+section L</ERROR HANDLING> below for how to handle errors.
=head2 guestfs_h *
to free the handle and release all resources used.
For information on using multiple handles and threads, see the section
-MULTIPLE HANDLES AND MULTIPLE THREADS below.
+L</MULTIPLE HANDLES AND MULTIPLE THREADS> below.
=head2 guestfs_create
This function returns a non-NULL pointer to a handle on success or
NULL on error.
-After configuring the handle, you have to call C<guestfs_launch> and
-C<guestfs_wait_ready>.
+After configuring the handle, you have to call C<guestfs_launch>.
You may also want to configure error handling for the handle. See
-ERROR HANDLING section below.
+L</ERROR HANDLING> section below.
=head2 guestfs_close
Returns the current error handler callback.
-=head2 guestfs_set_out_of_memory_handler
+=head2 guestfs_set_out_of_memory_handler
typedef void (*guestfs_abort_cb) (void);
int guestfs_set_out_of_memory_handler (guestfs_h *handle,
or C<.>. For example C<LIBGUESTFS_PATH=:/usr/lib/guestfs> would
search the current directory and then C</usr/lib/guestfs>.
+=head1 API OVERVIEW
+
+This section provides additional documentation for groups of API
+calls, which may not be obvious from reading about the individual
+calls below.
+
+=head2 LVM2
+
+Libguestfs provides access to a large part of the LVM2 API. It won't
+make much sense unless you familiarize yourself with the concepts of
+physical volumes, volume groups and logical volumes.
+
+This author strongly recommends reading the LVM HOWTO, online at
+L<http://tldp.org/HOWTO/LVM-HOWTO/>.
+
+=head2 PARTITIONING
+
+In the common case where you want to create a single partition
+covering the whole disk, you should use the C<guestfs_part_disk>
+call:
+
+ const char *parttype = "mbr";
+ if (disk_is_larger_than_2TB)
+ parttype = "gpt";
+ guestfs_part_disk (g, "/dev/sda", parttype);
+
+In general MBR partitions are both unnecessarily complicated and
+depend on archaic details, namely the Cylinder-Head-Sector (CHS)
+geometry of the disk. C<guestfs_sfdiskM> can be used to
+create more complex arrangements where the relative sizes are
+expressed in megabytes instead of cylinders, which is a small win.
+C<guestfs_sfdiskM> will choose the nearest cylinder to approximate the
+requested size. There's a lot of crazy stuff to do with IDE and
+virtio disks having different, incompatible CHS geometries, that you
+probably don't want to know about.
+
+My advice: make a single partition to cover the whole disk, then use
+LVM on top.
+
+=head2 UPLOADING
+
+For small, single files, use C<guestfs_write_file>. In some versions
+of libguestfs there was a bug which limited this call to text files
+(not containing ASCII NUL characters).
+
+To upload a single file, use C<guestfs_upload>. This call has no
+limits on file content or size (even files larger than 4 GB).
+
+To upload multiple files, see C<guestfs_tar_in> and C<guestfs_tgz_in>.
+
+However the fastest way to upload I<large numbers of arbitrary files>
+is to turn them into a squashfs or CD ISO (see L<mksquashfs(8)> and
+L<mkisofs(8)>), then attach this using C<guestfs_add_drive_ro>. If
+you add the drive in a predictable way (eg. adding it last after all
+other drives) then you can get the device name from
+C<guestfs_list_devices> and mount it directly using
+C<guestfs_mount_ro>. Note that squashfs images are sometimes
+non-portable between kernel versions, and they don't support labels or
+UUIDs. If you want to pre-build an image or you need to mount it
+using a label or UUID, use an ISO image instead.
+
+=head2 DOWNLOADING
+
+Use C<guestfs_cat> to download small, text only files. This call
+is limited to files which are less than 2 MB and which cannot contain
+any ASCII NUL (C<\0>) characters. However it has a very simple
+to use API.
+
+C<guestfs_read_file> can be used to read files which contain
+arbitrary 8 bit data, since it returns a (pointer, size) pair.
+However it is still limited to "small" files, less than 2 MB.
+
+C<guestfs_download> can be used to download any file, with no
+limits on content or size (even files larger than 4 GB).
+
+To download multiple files, see C<guestfs_tar_out> and
+C<guestfs_tgz_out>.
+
+=head2 RUNNING COMMANDS
+
+Although libguestfs is a primarily an API for manipulating files
+inside guest images, we also provide some limited facilities for
+running commands inside guests.
+
+There are many limitations to this:
+
+=over 4
+
+=item *
+
+The kernel version that the command runs under will be different
+from what it expects.
+
+=item *
+
+If the command needs to communicate with daemons, then most likely
+they won't be running.
+
+=item *
+
+The command will be running in limited memory.
+
+=item *
+
+Only supports Linux guests (not Windows, BSD, etc).
+
+=item *
+
+Architecture limitations (eg. won't work for a PPC guest on
+an X86 host).
+
+=item *
+
+For SELinux guests, you may need to enable SELinux and load policy
+first. See L</SELINUX> in this manpage.
+
+=back
+
+The two main API calls to run commands are C<guestfs_command> and
+C<guestfs_sh> (there are also variations).
+
+The difference is that C<guestfs_sh> runs commands using the shell, so
+any shell globs, redirections, etc will work.
+
+=head2 LISTING FILES
+
+C<guestfs_ll> is just designed for humans to read (mainly when using
+the L<guestfish(1)>-equivalent command C<ll>).
+
+C<guestfs_ls> is a quick way to get a list of files in a directory
+from programs.
+
+C<guestfs_readdir> is a programmatic way to get a list of files in a
+directory, plus additional information about each one.
+
+C<guestfs_find> can be used to recursively list files.
+
+=head2 SELINUX
+
+We support SELinux guests. To ensure that labeling happens correctly
+in SELinux guests, you need to enable SELinux and load the guest's
+policy:
+
+=over 4
+
+=item 1.
+
+Before launching, do:
+
+ guestfs_set_selinux (g, 1);
+
+=item 2.
+
+After mounting the guest's filesystem(s), load the policy. This
+is best done by running the L<load_policy(8)> command in the
+guest itself:
+
+ guestfs_sh (g, "/usr/sbin/load_policy");
+
+(Older versions of C<load_policy> require you to specify the
+name of the policy file).
+
+=item 3.
+
+Optionally, set the security context for the API. The correct
+security context to use can only be known by inspecting the
+guest. As an example:
+
+ guestfs_setcon (g, "unconfined_u:unconfined_r:unconfined_t:s0");
+
+=back
+
+This will work for running commands and editing existing files.
+
+When new files are created, you may need to label them explicitly,
+for example by running the external command
+C<restorecon pathname>.
+
=head1 HIGH-LEVEL API ACTIONS
+=head2 ABI GUARANTEE
+
+We guarantee the libguestfs ABI (binary interface), for public,
+high-level actions as outlined in this section. Although we will
+deprecate some actions, for example if they get replaced by newer
+calls, we will keep the old actions forever. This allows you the
+developer to program in confidence against libguestfs.
+
@ACTIONS@
=head1 STRUCTURES
/ | | LAUNCHING |
/ | \___________/
/ | /
- / | guestfs_wait_ready
+ / | guestfs_launch
/ | /
______ / __|____V
/ \ ------> / \
be issued when in the CONFIG state.
The high-level API offers two calls that go from CONFIG through
-LAUNCHING to READY. C<guestfs_launch> is a non-blocking call that
-starts up the child process, immediately moving from CONFIG to
-LAUNCHING. C<guestfs_wait_ready> blocks until the child process is
-READY to accept commands (or until some failure or timeout). The
-low-level event API described below provides a non-blocking way to
-replace C<guestfs_wait_ready>.
+LAUNCHING to READY. C<guestfs_launch> blocks until the child process
+is READY to accept commands (or until some failure or timeout).
+C<guestfs_launch> internally moves the state from CONFIG to LAUNCHING
+while it is running.
High-level API actions such as C<guestfs_mount> can only be issued
when in the READY state. These high-level API calls block waiting for
=head2 SETTING CALLBACKS TO HANDLE EVENTS
The child process generates events in some situations. Current events
-include: receiving a reply message after some action, receiving a log
-message, the child process exits, &c.
+include: receiving a log message, the child process exits.
Use the C<guestfs_set_*_callback> functions to set a callback for
different types of events.
callback of that type. Cancel all callbacks of this type by calling
this function with C<cb> set to C<NULL>.
-=head2 NON-BLOCKING ACTIONS
-
-XXX This section was documented in previous versions but never
-implemented in a way which matched the documentation. For now I have
-removed the documentation, pending a working implementation. See also
-C<src/guestfs-actions.c> in the source.
-
-
-=head2 guestfs_set_send_callback
-
- typedef void (*guestfs_send_cb) (guestfs_h *g, void *opaque);
- void guestfs_set_send_callback (guestfs_h *handle,
- guestfs_send_cb cb,
- void *opaque);
-
-The callback function C<cb> will be called whenever a message
-which is queued for sending, has been sent.
-
-=head2 guestfs_set_reply_callback
-
- typedef void (*guestfs_reply_cb) (guestfs_h *g, void *opaque, XDR *xdr);
- void guestfs_set_reply_callback (guestfs_h *handle,
- guestfs_reply_cb cb,
- void *opaque);
-
-The callback function C<cb> will be called whenever a reply is
-received from the child process. (This corresponds to a transition
-from the BUSY state to the READY state).
-
-Note that the C<xdr> that you get in the callback is in C<XDR_DECODE>
-mode, and you need to consume it before you return from the callback
-function (since it gets destroyed after).
-
=head2 guestfs_set_log_message_callback
typedef void (*guestfs_log_message_cb) (guestfs_h *g, void *opaque,
becomes ready first time after it has been launched. (This
corresponds to a transition from LAUNCHING to the READY state).
-You can use this instead of C<guestfs_wait_ready> to implement a
-non-blocking wait for the child process to finish booting up.
-
-=head2 EVENT MAIN LOOP
-
-To use the low-level event API and/or to use handles from multiple
-threads, you have to provide an event "main loop". You can write your
-own, but if you don't want to write one, two types are provided for
-you:
+=head1 BLOCK DEVICE NAMING
+
+In the kernel there is now quite a profusion of schemata for naming
+block devices (in this context, by I<block device> I mean a physical
+or virtual hard drive). The original Linux IDE driver used names
+starting with C</dev/hd*>. SCSI devices have historically used a
+different naming scheme, C</dev/sd*>. When the Linux kernel I<libata>
+driver became a popular replacement for the old IDE driver
+(particularly for SATA devices) those devices also used the
+C</dev/sd*> scheme. Additionally we now have virtual machines with
+paravirtualized drivers. This has created several different naming
+systems, such as C</dev/vd*> for virtio disks and C</dev/xvd*> for Xen
+PV disks.
+
+As discussed above, libguestfs uses a qemu appliance running an
+embedded Linux kernel to access block devices. We can run a variety
+of appliances based on a variety of Linux kernels.
+
+This causes a problem for libguestfs because many API calls use device
+or partition names. Working scripts and the recipe (example) scripts
+that we make available over the internet could fail if the naming
+scheme changes.
+
+Therefore libguestfs defines C</dev/sd*> as the I<standard naming
+scheme>. Internally C</dev/sd*> names are translated, if necessary,
+to other names as required. For example, under RHEL 5 which uses the
+C</dev/hd*> scheme, any device parameter C</dev/sda2> is translated to
+C</dev/hda2> transparently.
+
+Note that this I<only> applies to parameters. The
+C<guestfs_list_devices>, C<guestfs_list_partitions> and similar calls
+return the true names of the devices and partitions as known to the
+appliance.
+
+=head2 ALGORITHM FOR BLOCK DEVICE NAME TRANSLATION
+
+Usually this translation is transparent. However in some (very rare)
+cases you may need to know the exact algorithm. Such cases include
+where you use C<guestfs_config> to add a mixture of virtio and IDE
+devices to the qemu-based appliance, so have a mixture of C</dev/sd*>
+and C</dev/vd*> devices.
+
+The algorithm is applied only to I<parameters> which are known to be
+either device or partition names. Return values from functions such
+as C<guestfs_list_devices> are never changed.
=over 4
-=item libguestfs-select
-
-A simple main loop that is implemented using L<select(2)>.
-
-This is the default main loop for new guestfs handles, unless you
-call C<guestfs_set_main_loop> after a handle is created.
-
-=item libguestfs-glib
-
-An implementation which can be used with GLib and GTK+ programs. You
-can use this to write graphical (GTK+) programs which use libguestfs
-without hanging during long or slow operations.
-
-=back
-
-=head2 MULTIPLE HANDLES AND MULTIPLE THREADS
-
-The support for multiple handles and multiple threads is modelled
-after glib (although doesn't require glib, if you use the select-based
-main loop).
-
-L<http://library.gnome.org/devel/glib/unstable/glib-The-Main-Event-Loop.html>
-
-You will need to create one main loop for each thread that wants to
-use libguestfs. Each guestfs handle should be confined to one thread.
-If you try to pass guestfs handles between threads, you will get
-undefined results.
-
-If you only want to use guestfs handles from one thread in your
-program, but your program has other threads doing other things, then
-you don't need to do anything special.
+=item *
-=head2 SINGLE THREAD CASE
+Is the string a parameter which is a device or partition name?
-In the single thread case, there is a single select-based main loop
-created for you. All guestfs handles will use this main loop to
-execute high level API actions.
+=item *
-=head2 MULTIPLE THREADS CASE
+Does the string begin with C</dev/sd>?
-In the multiple threads case, you will need to create a main loop for
-each thread that wants to use libguestfs.
+=item *
-To create main loops for other threads, use
-C<guestfs_create_main_loop> or C<guestfs_glib_create_main_loop>.
+Does the named device exist? If so, we use that device.
+However if I<not> then we continue with this algorithm.
-Then you will need to attach each handle to the thread-specific main
-loop by calling:
+=item *
- handle = guestfs_create ();
- guestfs_set_main_loop (handle, main_loop_of_current_thread);
+Replace initial C</dev/sd> string with C</dev/hd>.
-=head2 guestfs_set_main_loop
+For example, change C</dev/sda2> to C</dev/hda2>.
- void guestfs_set_main_loop (guestfs_h *handle,
- guestfs_main_loop *main_loop);
+If that named device exists, use it. If not, continue.
-Sets the main loop used by high level API actions for this handle. By
-default, the select-based main loop is used (see
-C<guestfs_get_default_main_loop>).
+=item *
-You only need to use this in multi-threaded programs, where multiple
-threads want to use libguestfs. Create a main loop for each thread,
-then call this function.
+Replace initial C</dev/sd> string with C</dev/vd>.
-You cannot pass guestfs handles between threads.
+If that named device exists, use it. If not, return an error.
-=head2 guestfs_get_main_loop
-
- guestfs_main_loop *guestfs_get_main_loop (guestfs_h *handle);
-
-Return the main loop used by C<handle>.
-
-=head2 guestfs_get_default_main_loop
+=back
- guestfs_main_loop *guestfs_get_default_main_loop (void);
+=head2 PORTABILITY CONCERNS
-Return the default select-based main loop.
+Although the standard naming scheme and automatic translation is
+useful for simple programs and guestfish scripts, for larger programs
+it is best not to rely on this mechanism.
-=head2 guestfs_create_main_loop
+Where possible for maximum future portability programs using
+libguestfs should use these future-proof techniques:
- guestfs_main_loop *guestfs_create_main_loop (void);
+=over 4
-This creates a select-based main loop. You should create one main
-loop for each additional thread that needs to use libguestfs.
+=item *
-=head2 guestfs_free_main_loop
+Use C<guestfs_list_devices> or C<guestfs_list_partitions> to list
+actual device names, and then use those names directly.
- void guestfs_free_main_loop (guestfs_main_loop *);
+Since those device names exist by definition, they will never be
+translated.
-Free the select-based main loop which was previously allocated with
-C<guestfs_create_main_loop>.
+=item *
-=head2 WRITING A CUSTOM MAIN LOOP
+Use higher level ways to identify filesystems, such as LVM names,
+UUIDs and filesystem labels.
-This isn't documented. Please see the libguestfs-select and
-libguestfs-glib implementations.
+=back
=head1 INTERNALS
total length (header + arguments,
but not including the length word itself)
- struct guestfs_message_header
- struct guestfs_<foo>_args
+ struct guestfs_message_header (encoded as XDR)
+ struct guestfs_<foo>_args (encoded as XDR)
The total length field allows the daemon to allocate a fixed size
buffer into which it slurps the rest of the message. As a result, the
total length (header + ret,
but not including the length word itself)
- struct guestfs_message_header
- struct guestfs_<foo>_ret
+ struct guestfs_message_header (encoded as XDR)
+ struct guestfs_<foo>_ret (encoded as XDR)
As above the C<guestfs_I<foo>_ret> structure may be completely omitted
for functions that return no formal return values.
total length (header + error,
but not including the length word itself)
- struct guestfs_message_header
- struct guestfs_message_error
+ struct guestfs_message_header (encoded as XDR)
+ struct guestfs_message_error (encoded as XDR)
The C<guestfs_message_error> structure contains the error message as a
string.
total length (header + arguments,
but not including the length word itself,
and not including the chunks)
- struct guestfs_message_header
- struct guestfs_<foo>_args
+ struct guestfs_message_header (encoded as XDR)
+ struct guestfs_<foo>_args (encoded as XDR)
sequence of chunks for FileIn param #0
sequence of chunks for FileIn param #1 etc.
-The sequence of chunks is a sequence of C<struct guestfs_chunk>. A
+The "sequence of chunks" is:
+
+ length of chunk (not including length word itself)
+ struct guestfs_chunk (encoded as XDR)
+ length of chunk
+ struct guestfs_chunk (encoded as XDR)
+ ...
+ length of chunk
+ struct guestfs_chunk (with data.data_len == 0)
+
+The final chunk has the C<data_len> field set to zero. Additionally a
flag is set in the final chunk to indicate either successful
completion or early cancellation.
At time of writing there are no functions that have more than one
FileIn parameter. However this is (theoretically) supported, by
-sending the chunks for each FileIn parameter one after another (from
-left to right).
+sending the sequence of chunks for each FileIn parameter one after
+another (from left to right).
Both the library (sender) I<and> the daemon (receiver) may cancel the
transfer. The library does this by sending a chunk with a special
total length (header + ret,
but not including the length word itself,
and not including the chunks)
- struct guestfs_message_header
- struct guestfs_<foo>_ret
+ struct guestfs_message_header (encoded as XDR)
+ struct guestfs_<foo>_ret (encoded as XDR)
sequence of chunks for FileOut param #0
sequence of chunks for FileOut param #1 etc.
Because the underlying channel (QEmu -net channel) doesn't have any
sort of connection control, when the daemon launches it sends an
initial word (C<GUESTFS_LAUNCH_FLAG>) which indicates that the guest
-and daemon is alive. This is what C<guestfs_wait_ready> waits for.
+and daemon is alive. This is what C<guestfs_launch> waits for.
+
+=head1 QEMU WRAPPERS
+
+If you want to compile your own qemu, run qemu from a non-standard
+location, or pass extra arguments to qemu, then you can write a
+shell-script wrapper around qemu.
+
+There is one important rule to remember: you I<must C<exec qemu>> as
+the last command in the shell script (so that qemu replaces the shell
+and becomes the direct child of the libguestfs-using program). If you
+don't do this, then the qemu process won't be cleaned up correctly.
+
+Here is an example of a wrapper, where I have built my own copy of
+qemu from source:
+
+ #!/bin/sh -
+ qemudir=/home/rjones/d/qemu
+ exec $qemudir/x86_64-softmmu/qemu-system-x86_64 -L $qemudir/pc-bios "$@"
+
+Save this script as C</tmp/qemu.wrapper> (or wherever), C<chmod +x>,
+and then use it by setting the LIBGUESTFS_QEMU environment variable.
+For example:
+
+ LIBGUESTFS_QEMU=/tmp/qemu.wrapper guestfish
+
+Note that libguestfs also calls qemu with the -help and -version
+options in order to determine features.
=head1 ENVIRONMENT VARIABLES
=over 4
+=item LIBGUESTFS_APPEND
+
+Pass additional options to the guest kernel.
+
=item LIBGUESTFS_DEBUG
Set C<LIBGUESTFS_DEBUG=1> to enable verbose messages. This
has the same effect as calling C<guestfs_set_verbose (handle, 1)>.
+=item LIBGUESTFS_MEMSIZE
+
+Set the memory allocated to the qemu process, in megabytes. For
+example:
+
+ LIBGUESTFS_MEMSIZE=700
+
=item LIBGUESTFS_PATH
Set the path that libguestfs uses to search for kernel and initrd.img.
See the discussion of paths in section PATH above.
+=item LIBGUESTFS_QEMU
+
+Set the default qemu binary that libguestfs uses. If not set, then
+the qemu which was found at compile time by the configure script is
+used.
+
+See also L</QEMU WRAPPERS> above.
+
+=item LIBGUESTFS_TRACE
+
+Set C<LIBGUESTFS_TRACE=1> to enable command traces. This
+has the same effect as calling C<guestfs_set_trace (handle, 1)>.
+
+=item TMPDIR
+
+Location of temporary directory, defaults to C</tmp>.
+
+If libguestfs was compiled to use the supermin appliance then each
+handle will require rather a large amount of space in this directory
+for short periods of time (~ 80 MB). You can use C<$TMPDIR> to
+configure another directory to use in case C</tmp> is not large
+enough.
+
=back
=head1 SEE ALSO
L<guestfish(1)>,
L<qemu(1)>,
L<febootstrap(1)>,
-L<http://et.redhat.com/~rjones/libguestfs>.
+L<http://libguestfs.org/>.
+
+Tools with a similar purpose:
+L<fdisk(8)>,
+L<parted(8)>,
+L<kpartx(8)>,
+L<lvm(8)>,
+L<disktype(1)>.
+
+=head1 BUGS
+
+To get a list of bugs against libguestfs use this link:
+
+L<https://bugzilla.redhat.com/buglist.cgi?component=libguestfs&product=Virtualization+Tools>
+
+To report a new bug against libguestfs use this link:
+
+L<https://bugzilla.redhat.com/enter_bug.cgi?component=libguestfs&product=Virtualization+Tools>
+
+When reporting a bug, please check:
+
+=over 4
+
+=item *
+
+That the bug hasn't been reported already.
+
+=item *
+
+That you are testing a recent version.
+
+=item *
+
+Describe the bug accurately, and give a way to reproduce it.
+
+=item *
+
+Run libguestfs-test-tool and paste the B<complete, unedited>
+output into the bug report.
+
+=back
=head1 AUTHORS
=head1 COPYRIGHT
Copyright (C) 2009 Red Hat Inc.
-L<http://et.redhat.com/~rjones/libguestfs>
+L<http://libguestfs.org/>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
git.annexia.org / libguestfs.git / blobdiff