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|
=encoding utf8
=head1 NAME
guestfs - Library for accessing and modifying virtual machine images
=head1 SYNOPSIS
#include <guestfs.h>
guestfs_h *handle = guestfs_create ();
guestfs_add_drive (handle, "guest.img");
guestfs_launch (handle);
guestfs_mount (handle, "/dev/sda1", "/");
guestfs_touch (handle, "/hello");
guestfs_sync (handle);
guestfs_close (handle);
=head1 DESCRIPTION
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.
You don't need to be root to use libguestfs, although obviously you do
need enough permissions to access the disk images.
=head1 CONNECTION MANAGEMENT
If you are using the high-level API, then you should call the
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);
/* 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_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 L</ERROR HANDLING> below for how to handle errors.
=head2 guestfs_h *
C<guestfs_h> is the opaque type representing a connection handle.
Create a handle by calling C<guestfs_create>. Call C<guestfs_close>
to free the handle and release all resources used.
For information on using multiple handles and threads, see the section
L</MULTIPLE HANDLES AND MULTIPLE THREADS> below.
=head2 guestfs_create
guestfs_h *guestfs_create (void);
Create a connection handle.
You have to call C<guestfs_add_drive> on the handle at least once.
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>.
You may also want to configure error handling for the handle. See
L</ERROR HANDLING> section below.
=head2 guestfs_close
void guestfs_close (guestfs_h *handle);
This closes the connection handle and frees up all resources used.
=head1 ERROR HANDLING
The convention in all functions that return C<int> is that they return
C<-1> to indicate an error. You can get additional information on
errors by calling C<guestfs_last_error> and/or by setting up an error
handler with C<guestfs_set_error_handler>.
The default error handler prints the information string to C<stderr>.
Out of memory errors are handled differently. The default action is
to call L<abort(3)>. If this is undesirable, then you can set a
handler using C<guestfs_set_out_of_memory_handler>.
=head2 guestfs_last_error
const char *guestfs_last_error (guestfs_h *handle);
This returns the last error message that happened on C<handle>. If
there has not been an error since the handle was created, then this
returns C<NULL>.
The lifetime of the returned string is until the next error occurs, or
C<guestfs_close> is called.
The error string is not localized (ie. is always in English), because
this makes searching for error messages in search engines give the
largest number of results.
=head2 guestfs_set_error_handler
typedef void (*guestfs_error_handler_cb) (guestfs_h *handle,
void *data,
const char *msg);
void guestfs_set_error_handler (guestfs_h *handle,
guestfs_error_handler_cb cb,
void *data);
The callback C<cb> will be called if there is an error. The
parameters passed to the callback are an opaque data pointer and the
error message string.
Note that the message string C<msg> is freed as soon as the callback
function returns, so if you want to stash it somewhere you must make
your own copy.
The default handler prints messages on C<stderr>.
If you set C<cb> to C<NULL> then I<no> handler is called.
=head2 guestfs_get_error_handler
guestfs_error_handler_cb guestfs_get_error_handler (guestfs_h *handle,
void **data_rtn);
Returns the current error handler callback.
=head2 guestfs_set_out_of_memory_handler
typedef void (*guestfs_abort_cb) (void);
int guestfs_set_out_of_memory_handler (guestfs_h *handle,
guestfs_abort_cb);
The callback C<cb> will be called if there is an out of memory
situation. I<Note this callback must not return>.
The default is to call L<abort(3)>.
You cannot set C<cb> to C<NULL>. You can't ignore out of memory
situations.
=head2 guestfs_get_out_of_memory_handler
guestfs_abort_fn guestfs_get_out_of_memory_handler (guestfs_h *handle);
This returns the current out of memory handler.
=head1 PATH
Libguestfs needs a kernel and initrd.img, which it finds by looking
along an internal path.
By default it looks for these in the directory C<$libdir/guestfs>
(eg. C</usr/local/lib/guestfs> or C</usr/lib64/guestfs>).
Use C<guestfs_set_path> or set the environment variable
C<LIBGUESTFS_PATH> to change the directories that libguestfs will
search in. The value is a colon-separated list of paths. The current
directory is I<not> searched unless the path contains an empty element
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
To create MBR-style (ie. normal PC) partitions use one of the
C<guestfs_sfdisk*> variants. These calls use the external
L<sfdisk(8)> command.
The simplest call is:
char *lines[] = { ",", NULL };
guestfs_sfdiskM (g, "/dev/sda", lines);
This will create a single partition on C</dev/sda> called
C</dev/sda1> covering the whole disk.
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> allows you to specify sizes
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.
In future we aim to provide access to libparted.
=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
@STRUCTS@
=head1 STATE MACHINE AND LOW-LEVEL EVENT API
Internally, libguestfs is implemented by running a virtual machine
using L<qemu(1)>. QEmu runs as a child process of the main program,
and most of this discussion won't make sense unless you understand
that the complexity is dealing with the (asynchronous) actions of the
child process.
child process
___________________ _________________________
/ \ / \
| main program | | qemu +-----------------+|
| | | | Linux kernel ||
+-------------------+ | +-----------------+|
| libguestfs <-------------->| guestfsd ||
| | | +-----------------+|
\___________________/ \_________________________/
The diagram above shows libguestfs communicating with the guestfsd
daemon running inside the qemu child process. There are several
points of failure here: qemu can fail to start, the virtual machine
inside qemu can fail to boot, guestfsd can fail to start or not
establish communication, any component can start successfully but fail
asynchronously later, and so on.
=head2 STATE MACHINE
libguestfs uses a state machine to model the child process:
|
guestfs_create
|
|
____V_____
/ \
| CONFIG |
\__________/
^ ^ ^ \
/ | \ \ guestfs_launch
/ | _\__V______
/ | / \
/ | | LAUNCHING |
/ | \___________/
/ | /
/ | guestfs_launch
/ | /
______ / __|____V
/ \ ------> / \
| BUSY | | READY |
\______/ <------ \________/
The normal transitions are (1) CONFIG (when the handle is created, but
there is no child process), (2) LAUNCHING (when the child process is
booting up), (3) alternating between READY and BUSY as commands are
issued to, and carried out by, the child process.
The guest may be killed by C<guestfs_kill_subprocess>, or may die
asynchronously at any time (eg. due to some internal error), and that
causes the state to transition back to CONFIG.
Configuration commands for qemu such as C<guestfs_add_drive> can only
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> 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
the command to be carried out (ie. the state to transition to BUSY and
then back to READY). But using the low-level event API, you get
non-blocking versions. (But you can still only carry out one
operation per handle at a time - that is a limitation of the
communications protocol we use).
Finally, the child process sends asynchronous messages back to the
main program, such as kernel log messages. Mostly these are ignored
by the high-level API, but using the low-level event API you can
register to receive these messages.
=head2 SETTING CALLBACKS TO HANDLE EVENTS
The child process generates events in some situations. Current events
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.
Only I<one callback of each type> can be registered for each handle.
Calling C<guestfs_set_*_callback> again overwrites the previous
callback of that type. Cancel all callbacks of this type by calling
this function with C<cb> set to C<NULL>.
=head2 guestfs_set_log_message_callback
typedef void (*guestfs_log_message_cb) (guestfs_h *g, void *opaque,
char *buf, int len);
void guestfs_set_log_message_callback (guestfs_h *handle,
guestfs_log_message_cb cb,
void *opaque);
The callback function C<cb> will be called whenever qemu or the guest
writes anything to the console.
Use this function to capture kernel messages and similar.
Normally there is no log message handler, and log messages are just
discarded.
=head2 guestfs_set_subprocess_quit_callback
typedef void (*guestfs_subprocess_quit_cb) (guestfs_h *g, void *opaque);
void guestfs_set_subprocess_quit_callback (guestfs_h *handle,
guestfs_subprocess_quit_cb cb,
void *opaque);
The callback function C<cb> will be called when the child process
quits, either asynchronously or if killed by
C<guestfs_kill_subprocess>. (This corresponds to a transition from
any state to the CONFIG state).
=head2 guestfs_set_launch_done_callback
typedef void (*guestfs_launch_done_cb) (guestfs_h *g, void *opaque);
void guestfs_set_launch_done_callback (guestfs_h *handle,
guestfs_ready_cb cb,
void *opaque);
The callback function C<cb> will be called when the child process
becomes ready first time after it has been launched. (This
corresponds to a transition from LAUNCHING to the READY state).
=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 *
Is the string a parameter which is a device or partition name?
=item *
Does the string begin with C</dev/sd>?
=item *
Does the named device exist? If so, we use that device.
However if I<not> then we continue with this algorithm.
=item *
Replace initial C</dev/sd> string with C</dev/hd>.
For example, change C</dev/sda2> to C</dev/hda2>.
If that named device exists, use it. If not, continue.
=item *
Replace initial C</dev/sd> string with C</dev/vd>.
If that named device exists, use it. If not, return an error.
=back
=head2 PORTABILITY CONCERNS
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.
Where possible for maximum future portability programs using
libguestfs should use these future-proof techniques:
=over 4
=item *
Use C<guestfs_list_devices> or C<guestfs_list_partitions> to list
actual device names, and then use those names directly.
Since those device names exist by definition, they will never be
translated.
=item *
Use higher level ways to identify filesystems, such as LVM names,
UUIDs and filesystem labels.
=back
=head1 INTERNALS
=head2 COMMUNICATION PROTOCOL
Don't rely on using this protocol directly. This section documents
how it currently works, but it may change at any time.
The protocol used to talk between the library and the daemon running
inside the qemu virtual machine is a simple RPC mechanism built on top
of XDR (RFC 1014, RFC 1832, RFC 4506).
The detailed format of structures is in C<src/guestfs_protocol.x>
(note: this file is automatically generated).
There are two broad cases, ordinary functions that don't have any
C<FileIn> and C<FileOut> parameters, which are handled with very
simple request/reply messages. Then there are functions that have any
C<FileIn> or C<FileOut> parameters, which use the same request and
reply messages, but they may also be followed by files sent using a
chunked encoding.
=head3 ORDINARY FUNCTIONS (NO FILEIN/FILEOUT PARAMS)
For ordinary functions, the request message is:
total length (header + arguments,
but not including the length word itself)
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 is limited to C<GUESTFS_MESSAGE_MAX> bytes (currently
4MB), which means the effective size of any request is limited to
somewhere under this size.
Note also that many functions don't take any arguments, in which case
the C<guestfs_I<foo>_args> is completely omitted.
The header contains the procedure number (C<guestfs_proc>) which is
how the receiver knows what type of args structure to expect, or none
at all.
The reply message for ordinary functions is:
total length (header + ret,
but not including the length word itself)
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.
As above the total length of the reply is limited to
C<GUESTFS_MESSAGE_MAX>.
In the case of an error, a flag is set in the header, and the reply
message is slightly changed:
total length (header + error,
but not including the length word itself)
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.
=head3 FUNCTIONS THAT HAVE FILEIN PARAMETERS
A C<FileIn> parameter indicates that we transfer a file I<into> the
guest. The normal request message is sent (see above). However this
is followed by a sequence of file chunks.
total length (header + arguments,
but not including the length word itself,
and not including the chunks)
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:
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 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
flag set to indicate cancellation. When the daemon sees this, it
cancels the whole RPC, does I<not> send any reply, and goes back to
reading the next request.
The daemon may also cancel. It does this by writing a special word
C<GUESTFS_CANCEL_FLAG> to the socket. The library listens for this
during the transfer, and if it gets it, it will cancel the transfer
(it sends a cancel chunk). The special word is chosen so that even if
cancellation happens right at the end of the transfer (after the
library has finished writing and has started listening for the reply),
the "spurious" cancel flag will not be confused with the reply
message.
This protocol allows the transfer of arbitrary sized files (no 32 bit
limit), and also files where the size is not known in advance
(eg. from pipes or sockets). However the chunks are rather small
(C<GUESTFS_MAX_CHUNK_SIZE>), so that neither the library nor the
daemon need to keep much in memory.
=head3 FUNCTIONS THAT HAVE FILEOUT PARAMETERS
The protocol for FileOut parameters is exactly the same as for FileIn
parameters, but with the roles of daemon and library reversed.
total length (header + ret,
but not including the length word itself,
and not including the chunks)
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.
=head3 INITIAL MESSAGE
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_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://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
Richard W.M. Jones (C<rjones at redhat dot com>)
=head1 COPYRIGHT
Copyright (C) 2009 Red Hat Inc.
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
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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