guestfs - Library for accessing and modifying virtual machine images
#include <guestfs.h>
guestfs_h *g = guestfs_create ();
guestfs_add_drive (g, "guest.img");
guestfs_launch (g);
guestfs_mount (g, "/dev/sda1", "/");
guestfs_touch (g, "/hello");
guestfs_umount (g, "/");
guestfs_shutdown (g);
guestfs_close (g);
cc prog.c -o prog -lguestfs
or:
cc prog.c -o prog `pkg-config libguestfs --cflags --libs`
Libguestfs is a library for accessing and modifying disk images and virtual machines.
This manual page documents the C API.
If you are looking for an introduction to libguestfs, see the web site: http://libguestfs.org/
Each virt tool has its own man page (for a full list, go to "SEE ALSO" at the end of this file).
Other libguestfs manual pages:
Frequently Asked Questions (FAQ).
Examples of using the API from C. For examples in other languages, see "USING LIBGUESTFS WITH OTHER PROGRAMMING LANGUAGES" below.
Tips and recipes.
Performance tips and solutions.
Help testing libguestfs.
How to build libguestfs from source.
Contribute code to libguestfs.
How libguestfs works.
Security information, including CVEs affecting libguestfs.
This section provides a gentler overview of the libguestfs API. We also try to group API calls together, where that may not be obvious from reading about the individual calls in the main section of this manual.
Before you can use libguestfs calls, you have to create a handle. Then you must add at least one disk image to the handle, followed by launching the handle, then performing whatever operations you want, and finally closing the handle. By convention we use the single letter g
for the name of the handle variable, although of course you can use any name you want.
The general structure of all libguestfs-using programs looks like this:
guestfs_h *g = guestfs_create ();
/* Call guestfs_add_drive additional times if there are
* multiple disk images.
*/
guestfs_add_drive (g, "guest.img");
/* Most manipulation calls won't work until you've launched
* the handle 'g'. You have to do this _after_ adding drives
* and _before_ other commands.
*/
guestfs_launch (g);
/* Either: examine what partitions, LVs etc are available: */
char **partitions = guestfs_list_partitions (g);
char **logvols = guestfs_lvs (g);
/* Or: ask libguestfs to find filesystems for you: */
char **filesystems = guestfs_list_filesystems (g);
/* Or: use inspection (see INSPECTION section below). */
/* To access a filesystem in the image, you must mount it. */
guestfs_mount (g, "/dev/sda1", "/");
/* Now you can perform filesystem actions on the guest
* disk image.
*/
guestfs_touch (g, "/hello");
/* Synchronize the disk. This is the opposite of guestfs_launch. */
guestfs_shutdown (g);
/* Close and free the handle 'g'. */
guestfs_close (g);
The code above doesn't include any error checking. In real code you should check return values carefully for errors. In general all functions that return integers return -1
on error, and all functions that return pointers return NULL
on error. See section "ERROR HANDLING" below for how to handle errors, and consult the documentation for each function call below to see precisely how they return error indications.
The code above does not free(3) the strings and arrays returned from functions. Consult the documentation for each function to find out how to free the return value.
See guestfs-examples(3) for fully worked examples.
The image filename ("guest.img"
in the example above) could be a disk image from a virtual machine, a dd(1) copy of a physical hard disk, an actual block device, or simply an empty file of zeroes that you have created through posix_fallocate(3). Libguestfs lets you do useful things to all of these.
The call you should use in modern code for adding drives is "guestfs_add_drive_opts". To add a disk image, allowing writes, and specifying that the format is raw, do:
guestfs_add_drive_opts (g, filename,
GUESTFS_ADD_DRIVE_OPTS_FORMAT, "raw",
-1);
You can add a disk read-only using:
guestfs_add_drive_opts (g, filename,
GUESTFS_ADD_DRIVE_OPTS_FORMAT, "raw",
GUESTFS_ADD_DRIVE_OPTS_READONLY, 1,
-1);
or by calling the older function "guestfs_add_drive_ro". If you use the readonly flag, libguestfs won't modify the file. (See also "DISK IMAGE FORMATS" below).
Be extremely cautious if the disk image is in use, eg. if it is being used by a virtual machine. Adding it read-write will almost certainly cause disk corruption, but adding it read-only is safe.
You should usually add at least one disk image, and you may add multiple disk images. If adding multiple disk images, they usually have to be "related", ie. from the same guest. In the API, the disk images are usually referred to as /dev/sda (for the first one you added), /dev/sdb (for the second one you added), etc.
Once "guestfs_launch" has been called you cannot add any more images. You can call "guestfs_list_devices" to get a list of the device names, in the order that you added them. See also "BLOCK DEVICE NAMING" below.
Before you can read or write files, create directories and so on in a disk image that contains filesystems, you have to mount those filesystems using "guestfs_mount" or "guestfs_mount_ro". If you already know that a disk image contains (for example) one partition with a filesystem on that partition, then you can mount it directly:
guestfs_mount (g, "/dev/sda1", "/");
where /dev/sda1 means literally the first partition (1
) of the first disk image that we added (/dev/sda). If the disk contains Linux LVM2 logical volumes you could refer to those instead (eg. /dev/VG/LV). Note that these are libguestfs virtual devices, and are nothing to do with host devices.
If you are given a disk image and you don’t know what it contains then you have to find out. Libguestfs can do that too: use "guestfs_list_partitions" and "guestfs_lvs" to list possible partitions and LVs, and either try mounting each to see what is mountable, or else examine them with "guestfs_vfs_type" or "guestfs_file". To list just filesystems, use "guestfs_list_filesystems".
Libguestfs also has a set of APIs for inspection of unknown disk images (see "INSPECTION" below). You might also want to look at higher level programs built on top of libguestfs, in particular virt-inspector(1).
To mount a filesystem read-only, use "guestfs_mount_ro". There are several other variations of the guestfs_mount_*
call.
The majority of the libguestfs API consists of fairly low-level calls for accessing and modifying the files, directories, symlinks etc on mounted filesystems. There are over a hundred such calls which you can find listed in detail below in this man page, and we don't even pretend to cover them all in this overview.
Specify filenames as full paths, starting with "/"
and including the mount point.
For example, if you mounted a filesystem at "/"
and you want to read the file called "etc/passwd"
then you could do:
char *data = guestfs_cat (g, "/etc/passwd");
This would return data
as a newly allocated buffer containing the full content of that file (with some conditions: see also "DOWNLOADING" below), or NULL
if there was an error.
As another example, to create a top-level directory on that filesystem called "var"
you would do:
guestfs_mkdir (g, "/var");
To create a symlink you could do:
guestfs_ln_s (g, "/etc/init.d/portmap",
"/etc/rc3.d/S30portmap");
Libguestfs will reject attempts to use relative paths and there is no concept of a current working directory.
Libguestfs can return errors in many situations: for example if the filesystem isn't writable, or if a file or directory that you requested doesn't exist. If you are using the C API (documented here) you have to check for those error conditions after each call. (Other language bindings turn these errors into exceptions).
File writes are affected by the per-handle umask, set by calling "guestfs_umask" and defaulting to 022. See "UMASK".
Since libguestfs 1.18, it is possible to mount the libguestfs filesystem on a local directory, subject to some restrictions. See "MOUNT LOCAL" below.
Libguestfs contains API calls to read, create and modify partition tables on disk images.
In the common case where you want to create a single partition covering the whole disk, you should use the "guestfs_part_disk" call:
const char *parttype = "mbr";
if (disk_is_larger_than_2TB)
parttype = "gpt";
guestfs_part_disk (g, "/dev/sda", parttype);
Obviously this effectively wipes anything that was on that disk image before.
Libguestfs provides access to a large part of the LVM2 API, such as "guestfs_lvcreate" and "guestfs_vgremove". 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 http://tldp.org/HOWTO/LVM-HOWTO/.
Use "guestfs_cat" to download small, text only files. This call cannot handle files containing any ASCII NUL (\0
) characters. However the API is very simple to use.
"guestfs_read_file" can be used to read files which contain arbitrary 8 bit data, since it returns a (pointer, size) pair.
"guestfs_download" can be used to download any file, with no limits on content or size.
To download multiple files, see "guestfs_tar_out" and "guestfs_tgz_out".
To write a small file with fixed content, use "guestfs_write". To create a file of all zeroes, use "guestfs_truncate_size" (sparse) or "guestfs_fallocate64" (with all disk blocks allocated). There are a variety of other functions for creating test files, for example "guestfs_fill" and "guestfs_fill_pattern".
To upload a single file, use "guestfs_upload". This call has no limits on file content or size.
To upload multiple files, see "guestfs_tar_in" and "guestfs_tgz_in".
However the fastest way to upload large numbers of arbitrary files is to turn them into a squashfs or CD ISO (see mksquashfs(8) and mkisofs(8)), then attach this using "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 "guestfs_list_devices" and mount it directly using "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.
There are various different commands for copying between files and devices and in and out of the guest filesystem. These are summarised in the table below.
Use "guestfs_cp" to copy a single file, or "guestfs_cp_a" to copy directories recursively.
To copy part of a file (offset and size) use "guestfs_copy_file_to_file".
Use "guestfs_copy_file_to_device", "guestfs_copy_device_to_file", or "guestfs_copy_device_to_device".
Example: duplicate the contents of an LV:
guestfs_copy_device_to_device (g,
"/dev/VG/Original", "/dev/VG/Copy",
/* -1 marks the end of the list of optional parameters */
-1);
The destination (/dev/VG/Copy) must be at least as large as the source (/dev/VG/Original). To copy less than the whole source device, use the optional size
parameter:
guestfs_copy_device_to_device (g,
"/dev/VG/Original", "/dev/VG/Copy",
GUESTFS_COPY_DEVICE_TO_DEVICE_SIZE, 10000,
-1);
Use "guestfs_upload". See "UPLOADING" above.
Use "guestfs_download". See "DOWNLOADING" above.
Calls like "guestfs_upload", "guestfs_download", "guestfs_tar_in", "guestfs_tar_out" etc appear to only take filenames as arguments, so it appears you can only upload and download to files. However many Un*x-like hosts let you use the special device files /dev/stdin, /dev/stdout, /dev/stderr and /dev/fd/N to read and write from stdin, stdout, stderr, and arbitrary file descriptor N.
For example, virt-cat(1) writes its output to stdout by doing:
guestfs_download (g, filename, "/dev/stdout");
and you can write tar output to a file descriptor fd
by doing:
char devfd[64];
snprintf (devfd, sizeof devfd, "/dev/fd/%d", fd);
guestfs_tar_out (g, "/", devfd);
"guestfs_ll" is just designed for humans to read (mainly when using the guestfish(1)-equivalent command ll
).
"guestfs_ls" is a quick way to get a list of files in a directory from programs, as a flat list of strings.
"guestfs_readdir" is a programmatic way to get a list of files in a directory, plus additional information about each one. It is more equivalent to using the readdir(3) call on a local filesystem.
"guestfs_find" and "guestfs_find0" can be used to recursively list files.
Although libguestfs is 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:
The kernel version that the command runs under will be different from what it expects.
If the command needs to communicate with daemons, then most likely they won't be running.
The command will be running in limited memory.
The network may not be available unless you enable it (see "guestfs_set_network").
Only supports Linux guests (not Windows, BSD, etc).
Architecture limitations (eg. won’t work for a PPC guest on an X86 host).
For SELinux guests, you may need to relabel the guest after creating new files. See "SELINUX" below.
Security: It is not safe to run commands from untrusted, possibly malicious guests. These commands may attempt to exploit your program by sending unexpected output. They could also try to exploit the Linux kernel or qemu provided by the libguestfs appliance. They could use the network provided by the libguestfs appliance to bypass ordinary network partitions and firewalls. They could use the elevated privileges or different SELinux context of your program to their advantage.
A secure alternative is to use libguestfs to install a "firstboot" script (a script which runs when the guest next boots normally), and to have this script run the commands you want in the normal context of the running guest, network security and so on. For information about other security issues, see guestfs-security(1).
The two main API calls to run commands are "guestfs_command" and "guestfs_sh" (there are also variations).
The difference is that "guestfs_sh" runs commands using the shell, so any shell globs, redirections, etc will work.
To read and write configuration files in Linux guest filesystems, we strongly recommend using Augeas. For example, Augeas understands how to read and write, say, a Linux shadow password file or X.org configuration file, and so avoids you having to write that code.
The main Augeas calls are bound through the guestfs_aug_*
APIs. We don't document Augeas itself here because there is excellent documentation on the http://augeas.net/ website.
If you don’t want to use Augeas (you fool!) then try calling "guestfs_read_lines" to get the file as a list of lines which you can iterate over.
To read the systemd journal from a Linux guest, use the guestfs_journal_*
APIs starting with "guestfs_journal_open".
Consult the journal documentation here: sd-journal(3), sd_journal_open(3).
We support SELinux guests. However it is not possible to load the SELinux policy of the guest into the appliance kernel. Therefore the strategy for dealing with SELinux guests is to relabel them after making changes.
In libguestfs ≥ 1.34 there is a new API, "guestfs_setfiles", which can be used for this. To properly use this API you have to parse the guest SELinux configuration. See the virt-customize(1) module customize/SELinux_relabel.ml for how to do this.
A simpler but slower alternative is to touch /.autorelabel in the guest, which means that the guest will relabel itself at next boot.
Libguestfs ≤ 1.32 had APIs guestfs_set_selinux
, guestfs_get_selinux
, guestfs_setcon
and guestfs_getcon
. These did not work properly, are deprecated, and should not be used in new code.
Certain calls are affected by the current file mode creation mask (the "umask"). In particular ones which create files or directories, such as "guestfs_touch", "guestfs_mknod" or "guestfs_mkdir". This affects either the default mode that the file is created with or modifies the mode that you supply.
The default umask is 022
, so files are created with modes such as 0644
and directories with 0755
.
There are two ways to avoid being affected by umask. Either set umask to 0 (call guestfs_umask (g, 0)
early after launching). Or call "guestfs_chmod" after creating each file or directory.
For more information about umask, see umask(2).
Many filesystems, devices and logical volumes support either labels (short strings like "BOOT" which might not be unique) and/or UUIDs (globally unique IDs).
For filesystems, use "guestfs_vfs_label" or "guestfs_vfs_uuid" to read the label or UUID. Some filesystems let you call "guestfs_set_label" or "guestfs_set_uuid" to change the label or UUID.
You can locate a filesystem by its label or UUID using "guestfs_findfs_label" or "guestfs_findfs_uuid".
For LVM2 (which supports only UUIDs), there is a rich set of APIs for fetching UUIDs, fetching UUIDs of the contained objects, and changing UUIDs. See: "guestfs_lvuuid", "guestfs_vguuid", "guestfs_pvuuid", "guestfs_vglvuuids", "guestfs_vgpvuuids", "guestfs_vgchange_uuid", "guestfs_vgchange_uuid_all", "guestfs_pvchange_uuid", "guestfs_pvchange_uuid_all".
Note when cloning a filesystem, device or whole guest, it is a good idea to set new randomly generated UUIDs on the copy.
Libguestfs allows you to access Linux guests which have been encrypted using whole disk encryption that conforms to the Linux Unified Key Setup (LUKS) standard. This includes nearly all whole disk encryption systems used by modern Linux guests. Windows BitLocker is also supported.
Use "guestfs_vfs_type" to identify encrypted block devices. For LUKS it returns the string crypto_LUKS
. For Windows BitLocker it returns BitLocker
.
Then open these devices by calling "guestfs_cryptsetup_open". Obviously you will require the passphrase!
Passphrase-less unlocking is supported for LUKS (not BitLocker) block devices that have been encrypted with network-bound disk encryption (NBDE), using Clevis on the Linux guest side, and Tang on a separate Linux server. Open such devices with "guestfs_clevis_luks_unlock". The appliance will need networking enabled (refer to "guestfs_set_network") and actual connectivity to the Tang servers noted in the tang
Clevis pins that are bound to the LUKS header. (This includes the ability to resolve the names of the Tang servers.)
Opening an encrypted device creates a new device mapper device called /dev/mapper/mapname (where mapname
is the string you supply to "guestfs_cryptsetup_open" or "guestfs_clevis_luks_unlock"). Reads and writes to this mapper device are decrypted from and encrypted to the underlying block device respectively.
LVM volume groups on the device can be made visible by calling "guestfs_vgscan" followed by "guestfs_vg_activate_all". The logical volume(s) can now be mounted in the usual way.
Use the reverse process to close an encrypted device. Unmount any logical volumes on it, deactivate the volume groups by calling guestfs_vg_activate (g, 0, ["/dev/VG"])
. Then close the mapper device by calling "guestfs_cryptsetup_close" on the /dev/mapper/mapname device (not the underlying encrypted block device).
In libguestfs ≥ 1.18, it is possible to mount the libguestfs filesystem on a local directory and access it using ordinary POSIX calls and programs.
Availability of this is subject to a number of restrictions: it requires FUSE (the Filesystem in USErspace), and libfuse must also have been available when libguestfs was compiled. FUSE may require that a kernel module is loaded, and it may be necessary to add the current user to a special fuse
group. See the documentation for your distribution and http://fuse.sf.net for further information.
The call to mount the libguestfs filesystem on a local directory is "guestfs_mount_local" (q.v.) followed by "guestfs_mount_local_run". The latter does not return until you unmount the filesystem. The reason is that the call enters the FUSE main loop and processes kernel requests, turning them into libguestfs calls. An alternative design would have been to create a background thread to do this, but libguestfs doesn't require pthreads. This way is also more flexible: for example the user can create another thread for "guestfs_mount_local_run".
"guestfs_mount_local" needs a certain amount of time to set up the mountpoint. The mountpoint is not ready to use until the call returns. At this point, accesses to the filesystem will block until the main loop is entered (ie. "guestfs_mount_local_run"). So if you need to start another process to access the filesystem, put the fork between "guestfs_mount_local" and "guestfs_mount_local_run".
Since local mounting was only added in libguestfs 1.18, and may not be available even in these builds, you should consider writing code so that it doesn't depend on this feature, and can fall back to using libguestfs file system calls.
If libguestfs was compiled without support for "guestfs_mount_local" then calling it will return an error with errno set to ENOTSUP
(see "guestfs_last_errno").
Libguestfs on top of FUSE performs quite poorly. For best performance do not use it. Use ordinary libguestfs filesystem calls, upload, download etc. instead.
Libguestfs can access Ceph (librbd/RBD) disks.
To do this, set the optional protocol
and server
parameters of "guestfs_add_drive_opts" like this:
char **servers = { "ceph1.example.org:3000", /* ... */, NULL };
guestfs_add_drive_opts (g, "pool/image",
GUESTFS_ADD_DRIVE_OPTS_FORMAT, "raw",
GUESTFS_ADD_DRIVE_OPTS_PROTOCOL, "rbd",
GUESTFS_ADD_DRIVE_OPTS_SERVER, servers,
GUESTFS_ADD_DRIVE_OPTS_USERNAME, "rbduser",
GUESTFS_ADD_DRIVE_OPTS_SECRET, "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA==",
-1);
servers
(the server
parameter) is a list of one or more Ceph servers. The server string is documented in "guestfs_add_drive_opts". The username
and secret
parameters are also optional, and if not given, then no authentication will be used.
An encrypted RBD disk -- directly opening which would require the username
and secret
parameters -- cannot be accessed if the following conditions all hold:
the backend is libvirt,
the image specified by the filename
parameter is different from the encrypted RBD disk,
the image specified by the filename
parameter has qcow2 format,
the encrypted RBD disk is specified as a backing file at some level in the qcow2 backing chain.
This limitation is due to libvirt's (justified) separate handling of disks vs. secrets. When the RBD username and secret are provided inside a qcow2 backing file specification, libvirt does not construct an ephemeral secret object from those, for Ceph authentication. Refer to https://bugzilla.redhat.com/2033247.
Libguestfs can access remote disks over FTP, FTPS, HTTP or HTTPS protocols.
To do this, set the optional protocol
and server
parameters of "guestfs_add_drive_opts" like this:
char **servers = { "www.example.org", NULL };
guestfs_add_drive_opts (g, "/disk.img",
GUESTFS_ADD_DRIVE_OPTS_FORMAT, "raw",
GUESTFS_ADD_DRIVE_OPTS_PROTOCOL, "http",
GUESTFS_ADD_DRIVE_OPTS_SERVER, servers,
-1);
The protocol
can be one of "ftp"
, "ftps"
, "http"
, or "https"
.
servers
(the server
parameter) is a list which must have a single element. The single element is a string defining the web or FTP server. The format of this string is documented in "guestfs_add_drive_opts".
Glusterfs support was removed in libguestfs 1.54 (2024).
Libguestfs can access iSCSI disks remotely.
To do this, set the optional protocol
and server
parameters like this:
char **server = { "iscsi.example.org:3000", NULL };
guestfs_add_drive_opts (g, "target-iqn-name/lun",
GUESTFS_ADD_DRIVE_OPTS_FORMAT, "raw",
GUESTFS_ADD_DRIVE_OPTS_PROTOCOL, "iscsi",
GUESTFS_ADD_DRIVE_OPTS_SERVER, server,
-1);
The server
parameter is a list which must have a single element. The single element is a string defining the iSCSI server. The format of this string is documented in "guestfs_add_drive_opts".
Libguestfs can access Network Block Device (NBD) disks remotely.
To do this, set the optional protocol
and server
parameters of "guestfs_add_drive_opts" like this:
char **server = { "nbd.example.org:3000", NULL };
guestfs_add_drive_opts (g, "" /* export name - see below */,
GUESTFS_ADD_DRIVE_OPTS_FORMAT, "raw",
GUESTFS_ADD_DRIVE_OPTS_PROTOCOL, "nbd",
GUESTFS_ADD_DRIVE_OPTS_SERVER, server,
-1);
Notes:
server
is in fact a list of servers. For NBD you must always supply a list with a single element. (Other remote protocols require zero or more than one server, hence the requirement for this parameter to be a list).
The server
string is documented in "guestfs_add_drive_opts". To connect to a local qemu-nbd instance over a Unix domain socket, use "unix:/path/to/socket"
.
The filename
parameter is the NBD export name. Use an empty string to mean the default export. Many NBD servers, including qemu-nbd, do not support export names.
If using qemu-nbd as your server, you should always specify the -t
option. The reason is that libguestfs may open several connections to the server.
The libvirt backend requires that you set the format
parameter of "guestfs_add_drive_opts" accurately when you use writable NBD disks.
The libvirt backend has a bug that stops Unix domain socket connections from working: https://bugzilla.redhat.com/show_bug.cgi?id=922888
The direct backend does not support readonly connections because of a bug in qemu: https://bugs.launchpad.net/qemu/+bug/1155677
Sheepdog support was removed in libguestfs 1.54 (2024).
Libguestfs can access disks over a Secure Shell (SSH) connection.
To do this, set the protocol
and server
and (optionally) username
parameters of "guestfs_add_drive_opts" like this:
char **server = { "remote.example.com", NULL };
guestfs_add_drive_opts (g, "/path/to/disk.img",
GUESTFS_ADD_DRIVE_OPTS_FORMAT, "raw",
GUESTFS_ADD_DRIVE_OPTS_PROTOCOL, "ssh",
GUESTFS_ADD_DRIVE_OPTS_SERVER, server,
GUESTFS_ADD_DRIVE_OPTS_USERNAME, "remoteuser",
-1);
The format of the server string is documented in "guestfs_add_drive_opts".
Libguestfs has APIs for inspecting an unknown disk image to find out if it contains operating systems, an install CD or a live CD.
Add all disks belonging to the unknown virtual machine and call "guestfs_launch" in the usual way.
Then call "guestfs_inspect_os". This function uses other libguestfs calls and certain heuristics, and returns a list of operating systems that were found. An empty list means none were found. A single element is the root filesystem of the operating system. For dual- or multi-boot guests, multiple roots can be returned, each one corresponding to a separate operating system. (Multi-boot virtual machines are extremely rare in the world of virtualization, but since this scenario can happen, we have built libguestfs to deal with it.)
For each root, you can then call various guestfs_inspect_get_*
functions to get additional details about that operating system. For example, call "guestfs_inspect_get_type" to return the string windows
or linux
for Windows and Linux-based operating systems respectively.
Un*x-like and Linux-based operating systems usually consist of several filesystems which are mounted at boot time (for example, a separate boot partition mounted on /boot). The inspection rules are able to detect how filesystems correspond to mount points. Call guestfs_inspect_get_mountpoints
to get this mapping. It might return a hash table like this example:
/boot => /dev/sda1
/ => /dev/vg_guest/lv_root
/usr => /dev/vg_guest/lv_usr
The caller can then make calls to "guestfs_mount" to mount the filesystems as suggested.
Be careful to mount filesystems in the right order (eg. / before /usr). Sorting the keys of the hash by length, shortest first, should work.
Inspection currently only works for some common operating systems. Contributors are welcome to send patches for other operating systems that we currently cannot detect.
Encrypted disks must be opened before inspection. See "ENCRYPTED DISKS" for more details. The "guestfs_inspect_os" function just ignores any encrypted devices.
A note on the implementation: The call "guestfs_inspect_os" performs inspection and caches the results in the guest handle. Subsequent calls to guestfs_inspect_get_*
return this cached information, but do not re-read the disks. If you change the content of the guest disks, you can redo inspection by calling "guestfs_inspect_os" again. ("guestfs_inspect_list_applications2" works a little differently from the other calls and does read the disks. See documentation for that function for details).
Libguestfs (since 1.9.4) can detect some install disks, install CDs, live CDs and more.
Further information is available about the operating system that can be installed using the regular inspection APIs like "guestfs_inspect_get_product_name", "guestfs_inspect_get_major_version" etc.
Libguestfs can mount NTFS partitions. It does this using the http://www.ntfs-3g.org/ driver.
DOS and Windows still use drive letters, and the filesystems are always treated as case insensitive by Windows itself, and therefore you might find a Windows configuration file referring to a path like c:\windows\system32
. When the filesystem is mounted in libguestfs, that directory might be referred to as /WINDOWS/System32.
Drive letter mappings can be found using inspection (see "INSPECTION" and "guestfs_inspect_get_drive_mappings")
Dealing with separator characters (backslash vs forward slash) is outside the scope of libguestfs, but usually a simple character replacement will work.
To resolve the case insensitivity of paths, call "guestfs_case_sensitive_path".
NTFS supports filenames up to 255 characters long. "Character" means a 2 byte UTF-16 codepoint which can encode the most common Unicode codepoints.
Most Linux filesystems support filenames up to 255 bytes. This means you may get an error:
File name too long
when you copy a file from NTFS to a Linux filesystem if the name, when reencoded as UTF-8, would exceed 255 bytes in length.
This will most often happen when using non-ASCII names that are longer than ~127 characters (eg. Greek, Cyrillic) or longer than ~85 characters (Asian languages).
A workaround is not to try to store such long filenames on Linux native filesystems. Since the tar(1) format can store unlimited length filenames, keep the files in a tarball.
Libguestfs also provides some help for decoding Windows Registry "hive" files, through a separate C library called hivex(3).
Before libguestfs 1.19.35 you had to download the hive file, operate on it locally using hivex, and upload it again. Since this version, we have included the major hivex APIs directly in the libguestfs API (see "guestfs_hivex_open"). This means that if you have opened a Windows guest, you can read and write the registry directly.
See also virt-win-reg(1).
Ntfs-3g tries to rewrite "Junction Points" and NTFS "symbolic links" to provide something which looks like a Linux symlink. The way it tries to do the rewriting is described here:
http://www.tuxera.com/community/ntfs-3g-advanced/junction-points-and-symbolic-links/
The essential problem is that ntfs-3g simply does not have enough information to do a correct job. NTFS links can contain drive letters and references to external device GUIDs that ntfs-3g has no way of resolving. It is almost certainly the case that libguestfs callers should ignore what ntfs-3g does (ie. don't use "guestfs_readlink" on NTFS volumes).
Instead if you encounter a symbolic link on an ntfs-3g filesystem, use "guestfs_lgetxattr" to read the system.ntfs_reparse_data
extended attribute, and read the raw reparse data from that (you can find the format documented in various places around the web).
There are other useful extended attributes that can be read from ntfs-3g filesystems (using "guestfs_getxattr"). See:
http://www.tuxera.com/community/ntfs-3g-advanced/extended-attributes/
Windows guests which have been hibernated (instead of fully shut down) cannot be mounted. This is a limitation of ntfs-3g. You will see an error like this:
The disk contains an unclean file system (0, 0).
Metadata kept in Windows cache, refused to mount.
Failed to mount '/dev/sda2': Operation not permitted
The NTFS partition is in an unsafe state. Please resume
and shutdown Windows fully (no hibernation or fast
restarting), or mount the volume read-only with the
'ro' mount option.
In Windows 8, the shutdown button does not shut down the guest at all. Instead it usually hibernates the guest. This is known as "fast startup".
Some suggested workarounds are:
Mount read-only (eg. "guestfs_mount_ro").
On Windows 8, turn off fast startup. It is in the Control Panel → Power Options → Choose what the power buttons do → Change settings that are currently unavailable → Turn on fast startup.
On Windows 7 and earlier, shut the guest off properly instead of hibernating it.
The "guestfs_resize2fs", "guestfs_resize2fs_size" and "guestfs_resize2fs_M" calls are used to resize ext2/3/4 filesystems.
The underlying program (resize2fs(8)) requires that the filesystem is clean and recently fsck'd before you can resize it. Also, if the resize operation fails for some reason, then you had to call fsck the filesystem again to fix it.
In libguestfs lt
1.17.14, you usually had to call "guestfs_e2fsck_f" before the resize. However, in ge
1.17.14, e2fsck(8) is called automatically before the resize, so you no longer need to do this.
The resize2fs(8) program can still fail, in which case it prints an error message similar to:
Please run 'e2fsck -fy <device>' to fix the filesystem
after the aborted resize operation.
You can do this by calling "guestfs_e2fsck" with the forceall
option. However in the context of disk images, it is usually better to avoid this situation, eg. by rolling back to an earlier snapshot, or by copying and resizing and on failure going back to the original.
Although we don’t want to discourage you from using the C API, we will mention here that the same API is also available in other languages.
The API is broadly identical in all supported languages. This means that the C call guestfs_add_drive_ro(g,file)
is $g->add_drive_ro($file)
in Perl, g.add_drive_ro(file)
in Python, and g#add_drive_ro file
in OCaml. In other words, a straightforward, predictable isomorphism between each language.
Error messages are automatically transformed into exceptions if the language supports it.
We don’t try to "object orientify" parts of the API in OO languages, although contributors are welcome to write higher level APIs above what we provide in their favourite languages if they wish.
You can use the guestfs.h header file from C++ programs. The C++ API is identical to the C API. C++ classes and exceptions are not used.
The C# bindings are highly experimental. Please read the warnings at the top of csharp/Libguestfs.cs.
See guestfs-erlang(3).
Experimental GObject bindings (with GObject Introspection support) are available.
See guestfs-gobject(3).
See guestfs-golang(3).
This language binding is working but incomplete:
Functions with optional arguments are not bound. Implementing optional arguments in Haskell seems to be very complex.
Events are not bound.
Functions with the following return types are not bound:
Any function returning a struct.
Any function returning a list of structs.
A few functions that return fixed length buffers (specifically ones declared RBufferOut
in the generator).
A tiny number of obscure functions that return constant strings (specifically ones declared RConstOptString
in the generator).
Full documentation is contained in the Javadoc which is distributed with libguestfs. For examples, see guestfs-java(3).
See guestfs-lua(3).
See guestfs-ocaml(3).
See guestfs-perl(3) and Sys::Guestfs(3).
For documentation see README-PHP
supplied with libguestfs sources or in the php-libguestfs package for your distribution.
The PHP binding only works correctly on 64 bit machines.
See guestfs-python(3).
See guestfs-ruby(3).
For JRuby, use the Java bindings.
See guestfish(1).
http://en.wikipedia.org/wiki/Gotcha_(programming): "A feature of a system [...] that works in the way it is documented but is counterintuitive and almost invites mistakes."
Since we developed libguestfs and the associated tools, there are several things we would have designed differently, but are now stuck with for backwards compatibility or other reasons. If there is ever a libguestfs 2.0 release, you can expect these to change. Beware of them.
In guestfish(3), --ro should be the default, and you should have to specify --rw if you want to make changes to the image.
This would reduce the potential to corrupt live VM images.
Note that many filesystems change the disk when you just mount and unmount, even if you didn't perform any writes. You need to use "guestfs_add_drive_ro" to guarantee that the disk is not changed.
guestfish disk.img doesn't do what people expect (open disk.img for examination). It tries to run a guestfish command disk.img which doesn't exist, so it fails. In earlier versions of guestfish the error message was also unintuitive, but we have corrected this since. Like the Bourne shell, we should have used guestfish -c command
to run commands.
In recent guestfish you can use 1M
to mean 1 megabyte (and similarly for other modifiers). What guestfish actually does is to multiply the number part by the modifier part and pass the result to the C API. However this doesn't work for a few APIs which aren't expecting bytes, but are already expecting some other unit (eg. megabytes).
The most common is "guestfs_lvcreate". The guestfish command:
lvcreate LV VG 100M
does not do what you might expect. Instead because "guestfs_lvcreate" is already expecting megabytes, this tries to create a 100 terabyte (100 megabytes * megabytes) logical volume. The error message you get from this is also a little obscure.
This could be fixed in the generator by specially marking parameters and return values which take bytes or other units.
There is a subtle ambiguity in the API between a device name (eg. /dev/sdb2) and a similar pathname. A file might just happen to be called sdb2
in the directory /dev (consider some non-Unix VM image).
In the current API we usually resolve this ambiguity by having two separate calls, for example "guestfs_checksum" and "guestfs_checksum_device". Some API calls are ambiguous and (incorrectly) resolve the problem by detecting if the path supplied begins with /dev/.
To avoid both the ambiguity and the need to duplicate some calls, we could make paths/devices into structured names. One way to do this would be to use a notation like grub (hd(0,0)
), although nobody really likes this aspect of grub. Another way would be to use a structured type, equivalent to this OCaml type:
type path = Path of string | Device of int | Partition of int * int
which would allow you to pass arguments like:
Path "/foo/bar"
Device 1 (* /dev/sdb, or perhaps /dev/sda *)
Partition (1, 2) (* /dev/sdb2 (or is it /dev/sda2 or /dev/sdb3?) *)
Path "/dev/sdb2" (* not a device *)
As you can see there are still problems to resolve even with this representation. Also consider how it might work in guestfish.
Certain libguestfs calls take a parameter that contains sensitive key material, passed in as a C string.
In the future we would hope to change the libguestfs implementation so that keys are mlock(2)-ed into physical RAM, and thus can never end up in swap. However this is not done at the moment, because of the complexity of such an implementation.
Therefore you should be aware that any key parameter you pass to libguestfs might end up being written out to the swap partition. If this is a concern, scrub the swap partition or don't use libguestfs on encrypted devices.
All high-level libguestfs actions are synchronous. If you want to use libguestfs asynchronously then you must create a thread.
In libguestfs ≥ 1.38, each handle (guestfs_h
) contains a lock which is acquired automatically when you call a libguestfs function. The practical effect of this is you can call libguestfs functions with the same handle from multiple threads without needing to do any locking.
Also in libguestfs ≥ 1.38, the last error on the handle ("guestfs_last_error", "guestfs_last_errno") is stored in thread-local storage, so it is safe to write code like:
if (guestfs_add_drive_ro (g, drive) == -1)
fprintf (stderr, "error was: %s\n", guestfs_last_error (g));
even when other threads may be concurrently using the same handle g
.
In libguestfs < 1.38, you must use the handle only from a single thread. Either use the handle exclusively from one thread, or provide your own mutex so that two threads cannot issue calls on the same handle at the same time. Even apparently innocent functions like "guestfs_get_trace" are not safe to be called from multiple threads without a mutex in libguestfs < 1.38.
Use "guestfs_set_identifier" to make it simpler to identify threads in trace output.
Libguestfs needs a supermin appliance, which it finds by looking along an internal path.
By default it looks for these in the directory $libdir/guestfs
(eg. /usr/local/lib/guestfs or /usr/lib64/guestfs).
Use "guestfs_set_path" or set the environment variable "LIBGUESTFS_PATH" to change the directories that libguestfs will search in. The value is a colon-separated list of paths. The current directory is not searched unless the path contains an empty element or .
. For example LIBGUESTFS_PATH=:/usr/lib/guestfs
would search the current directory and then /usr/lib/guestfs.
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 must 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 /tmp/qemu.wrapper (or wherever), chmod +x
, and then use it by setting the LIBGUESTFS_HV environment variable. For example:
LIBGUESTFS_HV=/tmp/qemu.wrapper guestfish
Note that libguestfs also calls qemu with the -help and -version options in order to determine features.
Wrappers can also be used to edit the options passed to qemu. In the following example, the -machine ...
option (-machine
and the following argument) are removed from the command line and replaced with -machine pc,accel=tcg
. The while loop iterates over the options until it finds the right one to remove, putting the remaining options into the args
array.
#!/bin/bash -
i=0
while [ $# -gt 0 ]; do
case "$1" in
-machine)
shift 2;;
*)
args[i]="$1"
(( i++ ))
shift ;;
esac
done
exec qemu-kvm -machine pc,accel=tcg "${args[@]}"
The backend (previously known as the "attach method") controls how libguestfs creates and/or connects to the backend daemon, eg. by starting qemu directly, or using libvirt to manage an appliance, running User-Mode Linux, or connecting to an already running daemon.
You can set the backend by calling "guestfs_set_backend", or by setting the environment variable LIBGUESTFS_BACKEND
.
Possible backends are described below:
direct
appliance
Run qemu directly to launch an appliance.
direct
and appliance
are synonyms.
This is the ordinary method and normally the default, but see the note below.
libvirt
libvirt:null
libvirt:URI
Use libvirt to launch and manage the appliance.
libvirt
causes libguestfs to choose a suitable URI for creating session guests. If using the libvirt backend, you almost always should use this.
libvirt:null
causes libguestfs to use the NULL
connection URI, which causes libvirt to try to guess what the user meant. You probably don't want to use this.
libvirt:URI
uses URI as the libvirt connection URI (see http://libvirt.org/uri.html). The typical libvirt backend with a URI would be libvirt:qemu:///session
The libvirt backend supports more features, including sVirt.
direct
is usually the default backend. However since libguestfs ≥ 1.19.24, libguestfs can be built with a different default by doing:
./configure --with-default-backend=...
To find out if libguestfs was compiled with a different default backend, do:
unset LIBGUESTFS_BACKEND
guestfish get-backend
Each backend can be configured by passing a list of strings. You can either call "guestfs_set_backend_settings" with a list of strings, or set the LIBGUESTFS_BACKEND_SETTINGS
environment variable to a colon-separated list of strings (before creating the handle).
Using:
export LIBGUESTFS_BACKEND_SETTINGS=force_tcg
will force the direct and libvirt backends to use TCG (software emulation) instead of KVM (hardware accelerated virtualization).
Using:
export LIBGUESTFS_BACKEND_SETTINGS=force_kvm
will force the direct and libvirt backends to use KVM (hardware accelerated virtualization) instead of TCG (software emulation).
The direct backend supports:
export LIBGUESTFS_BACKEND_SETTINGS=gdb
When this is set, qemu will not start running the appliance immediately. It will wait for you to connect to it using gdb:
$ gdb
(gdb) symbol-file /path/to/vmlinux
(gdb) target remote tcp::1234
(gdb) cont
You can then debug the appliance kernel, which is useful to debug boot failures (especially ones where there are no debug messages printed - tip: look in the kernel log_buf
).
On Fedora, install kernel-debuginfo
for the vmlinux
file (containing symbols). Make sure the symbols precisely match the kernel being used.
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 the libguestfs API.
Libguestfs defines /dev/sd* as the standard naming scheme for devices passed to API calls. So /dev/sda means "the first device added by "guestfs_add_drive_opts"", and /dev/sdb3 means "the third partition on the second device".
Internally device names are sometimes translated, but this should not be visible at the API level.
In libguestfs ≥ 1.20, you can give a label to a disk when you add it, using the optional label
parameter to "guestfs_add_drive_opts". (Note that disk labels are different from and not related to filesystem labels).
Not all versions of libguestfs support setting a disk label, and when it is supported, it is limited to 20 ASCII characters [a-zA-Z]
.
When you add a disk with a label, it can either be addressed using /dev/sd*, or using /dev/disk/guestfs/label. Partitions on the disk can be addressed using /dev/disk/guestfs/labelpartnum.
Listing devices ("guestfs_list_devices") and partitions ("guestfs_list_partitions") returns the block device names. However you can use "guestfs_list_disk_labels" to map disk labels to block device and partition names.
When adding a disk using, eg., "guestfs_add_drive", you can set the filename to "/dev/null"
. This string is treated specially by libguestfs, causing it to add a "null disk".
A null disk has the following properties:
A null disk will appear as a normal device, eg. in calls to "guestfs_list_devices".
You may add "/dev/null"
multiple times.
You should not try to access a null disk in any way. For example, you shouldn't try to read it or mount it.
Null disks are used for three main purposes:
Performance testing of libguestfs (see guestfs-performance(1)).
The internal test suite.
If you want to use libguestfs APIs that don’t refer to disks, since libguestfs requires that at least one disk is added, you should add a null disk.
For example, to test if a feature is available, use code like this:
guestfs_h *g;
char **groups = [ "btrfs", NULL ];
g = guestfs_create ();
guestfs_add_drive (g, "/dev/null");
guestfs_launch (g);
if (guestfs_available (g, groups) == 0) {
// group(s) are available
} else {
// group(s) are not available
}
guestfs_close (g);
Virtual disks come in a variety of formats. Some common formats are listed below.
Note that libguestfs itself is not responsible for handling the disk format: this is done using qemu(1). If support for a particular format is missing or broken, this has to be fixed in qemu.
Raw format is simply a dump of the sequential bytes of the virtual hard disk. There is no header, container, compression or processing of any sort.
Since raw format requires no translation to read or write, it is both fast and very well supported by qemu and all other hypervisors. You can consider it to be a universal format that any hypervisor can access.
Raw format files are not compressed and so take up the full space of the original disk image even when they are empty. A variation (on Linux/Unix at least) is to not store ranges of all-zero bytes by storing the file as a sparse file. This "variant format" is sometimes called raw sparse. Many utilities, including virt-sparsify(1), can make raw disk images sparse.
Qcow2 is the native disk image format used by qemu. Internally it uses a two-level directory structure so that only blocks containing data are stored in the file. It also has many other features such as compression, snapshots and backing files.
There are at least two distinct variants of this format, although qemu (and hence libguestfs) handles both transparently to the user.
VMDK is VMware’s native disk image format. There are many variations. Modern qemu (hence libguestfs) supports most variations, but you should be aware that older versions of qemu had some very bad data-corrupting bugs in this area.
Note that VMware ESX exposes files with the name guest-flat.vmdk. These are not VMDK. They are raw format files which happen to have a .vmdk
extension.
VDI is VirtualBox’s native disk image format. Qemu (hence libguestfs) has generally good support for this.
VPC (old) and VHD (modern) are the native disk image format of Microsoft (and previously, Connectix) Virtual PC and Hyper-V.
The following formats are obsolete and should not be used: qcow (aka qcow1), cow, bochs.
Firstly note there is a security issue with auto-detecting the format of a disk image. It may or may not apply in your use case. Read "CVE-2010-3851" below.
Libguestfs offers an API to get the format of a disk image ("guestfs_disk_format"), and it is safest to use this.
Don’t be tempted to try parsing the text / human-readable output of qemu-img
since it cannot be parsed reliably and securely. Also do not use the file
command since the output of that changes over time.
guestfs_h
is the opaque type representing a connection handle. Create a handle by calling "guestfs_create" or "guestfs_create_flags". Call "guestfs_close" 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" above.
guestfs_h *guestfs_create (void);
Create a connection handle.
On success this returns a non-NULL pointer to a handle. On error it returns NULL.
You have to "configure" the handle after creating it. This includes calling "guestfs_add_drive_opts" (or one of the equivalent calls) on the handle at least once.
After configuring the handle, you have to call "guestfs_launch".
You may also want to configure error handling for the handle. See the "ERROR HANDLING" section below.
guestfs_h *guestfs_create_flags (unsigned flags [, ...]);
Create a connection handle, supplying extra flags and extra arguments to control how the handle is created.
On success this returns a non-NULL pointer to a handle. On error it returns NULL.
"guestfs_create" is equivalent to calling guestfs_create_flags(0)
.
The following flags may be logically ORed together. (Currently no extra arguments are used).
GUESTFS_CREATE_NO_ENVIRONMENT
Don’t parse any environment variables (such as LIBGUESTFS_DEBUG
etc).
You can call "guestfs_parse_environment" or "guestfs_parse_environment_list" afterwards to parse environment variables. Alternately, don't call these functions if you want the handle to be unaffected by environment variables. See the example below.
The default (if this flag is not given) is to implicitly call "guestfs_parse_environment".
GUESTFS_CREATE_NO_CLOSE_ON_EXIT
Don’t try to close the handle in an atexit(3) handler if the program exits without explicitly closing the handle.
The default (if this flag is not given) is to install such an atexit handler.
GUESTFS_CREATE_NO_ENVIRONMENT
You might use GUESTFS_CREATE_NO_ENVIRONMENT
and an explicit call to "guestfs_parse_environment" like this:
guestfs_h *g;
int r;
g = guestfs_create_flags (GUESTFS_CREATE_NO_ENVIRONMENT);
if (!g) {
perror ("guestfs_create_flags");
exit (EXIT_FAILURE);
}
r = guestfs_parse_environment (g);
if (r == -1)
exit (EXIT_FAILURE);
Or to create a handle which is unaffected by environment variables, omit the call to guestfs_parse_environment
from the above code.
The above code has another advantage which is that any errors from parsing the environment are passed through the error handler, whereas guestfs_create
prints errors on stderr and ignores them.
void guestfs_close (guestfs_h *g);
This closes the connection handle and frees up all resources used. If a close callback was set on the handle, then it is called.
The correct way to close the handle is:
if (guestfs_shutdown (g) == -1) {
/* handle write errors here */
}
guestfs_close (g);
"guestfs_shutdown" is only needed if all of the following are true:
one or more disks were added in read-write mode, and
guestfs_launch was called, and
you made some changes, and
you have a way to handle write errors (eg. by exiting with an error code or reporting something to the user).
API functions can return errors. For example, almost all functions that return int
will return -1
to indicate an error.
Additional information is available for errors: an error message string and optionally an error number (errno) if the thing that failed was a system call.
You can get at the additional information about the last error on the handle by calling "guestfs_last_error", "guestfs_last_errno", and/or by setting up an error handler with "guestfs_set_error_handler".
When the handle is created, a default error handler is installed which prints the error message string to stderr
. For small short-running command line programs it is sufficient to do:
if (guestfs_launch (g) == -1)
exit (EXIT_FAILURE);
since the default error handler will ensure that an error message has been printed to stderr
before the program exits.
For other programs the caller will almost certainly want to install an alternate error handler or do error handling in-line as in the example below. The non-C language bindings all install NULL error handlers and turn errors into exceptions using code similar to this:
const char *msg;
int errnum;
/* This disables the default behaviour of printing errors
on stderr. */
guestfs_set_error_handler (g, NULL, NULL);
if (guestfs_launch (g) == -1) {
/* Examine the error message and print it, throw it,
etc. */
msg = guestfs_last_error (g);
errnum = guestfs_last_errno (g);
fprintf (stderr, "%s", msg);
if (errnum != 0)
fprintf (stderr, ": %s", strerror (errnum));
fprintf (stderr, "\n");
/* ... */
}
"guestfs_create" returns NULL
if the handle cannot be created, and because there is no handle if this happens there is no way to get additional error information. Since libguestfs ≥ 1.20, you can use "guestfs_create_flags" to properly deal with errors during handle creation, although the vast majority of programs can continue to use "guestfs_create" and not worry about this situation.
Out of memory errors are handled differently. The default action is to call abort(3). If this is undesirable, then you can set a handler using "guestfs_set_out_of_memory_handler".
const char *guestfs_last_error (guestfs_h *g);
This returns the last error message that happened on g
. If there has not been an error since the handle was created, then this returns NULL
.
Note the returned string does not have a newline character at the end. Most error messages are single lines. Some are split over multiple lines and contain \n
characters within the string but not at the end.
The lifetime of the returned string is until the next error occurs on the same handle, or "guestfs_close" is called. If you need to keep it longer, copy it.
int guestfs_last_errno (guestfs_h *g);
This returns the last error number (errno) that happened on g
.
If successful, an errno integer not equal to zero is returned.
In many cases the special errno ENOTSUP
is returned if you tried to call a function or use a feature which is not supported.
If no error number is available, this returns 0. This call can return 0 in three situations:
There has not been any error on the handle.
There has been an error but the errno was meaningless. This corresponds to the case where the error did not come from a failed system call, but for some other reason.
There was an error from a failed system call, but for some reason the errno was not captured and returned. This usually indicates a bug in libguestfs.
Libguestfs tries to convert the errno from inside the appliance into a corresponding errno for the caller (not entirely trivial: the appliance might be running a completely different operating system from the library and error numbers are not standardized across Un*xen). If this could not be done, then the error is translated to EINVAL
. In practice this should only happen in very rare circumstances.
typedef void (*guestfs_error_handler_cb) (guestfs_h *g,
void *opaque,
const char *msg);
void guestfs_set_error_handler (guestfs_h *g,
guestfs_error_handler_cb cb,
void *opaque);
The callback 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.
errno
is not passed to the callback. To get that the callback must call "guestfs_last_errno".
Note that the message string 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 stderr
.
If you set cb
to NULL
then no handler is called.
guestfs_error_handler_cb guestfs_get_error_handler (guestfs_h *g,
void **opaque_rtn);
Returns the current error handler callback.
void guestfs_push_error_handler (guestfs_h *g,
guestfs_error_handler_cb cb,
void *opaque);
This is the same as "guestfs_set_error_handler", except that the old error handler is stashed away in a stack inside the handle. You can restore the previous error handler by calling "guestfs_pop_error_handler".
Use the following code to temporarily disable errors around a function:
guestfs_push_error_handler (g, NULL, NULL);
guestfs_mkdir (g, "/foo"); /* We don't care if this fails. */
guestfs_pop_error_handler (g);
void guestfs_pop_error_handler (guestfs_h *g);
Restore the previous error handler (see "guestfs_push_error_handler").
If you pop the stack too many times, then the default error handler is restored.
typedef void (*guestfs_abort_cb) (void);
void guestfs_set_out_of_memory_handler (guestfs_h *g,
guestfs_abort_cb);
The callback cb
will be called if there is an out of memory situation. Note this callback must not return.
The default is to call abort(3).
You cannot set cb
to NULL
. You can’t ignore out of memory situations.
guestfs_abort_fn guestfs_get_out_of_memory_handler (guestfs_h *g);
This returns the current out of memory handler.
int
guestfs_acl_delete_def_file (guestfs_h *g,
const char *dir);
This function deletes the default POSIX Access Control List (ACL) attached to directory dir
.
This function returns 0 on success or -1 on error.
This function depends on the feature acl
. See also "guestfs_feature_available".
(Added in 1.19.63)
char *
guestfs_acl_get_file (guestfs_h *g,
const char *path,
const char *acltype);
This function returns the POSIX Access Control List (ACL) attached to path
. The ACL is returned in "long text form" (see acl(5)).
The acltype
parameter may be:
access
Return the ordinary (access) ACL for any file, directory or other filesystem object.
default
Return the default ACL. Normally this only makes sense if path
is a directory.
This function returns a string, or NULL on error. The caller must free the returned string after use.
This function depends on the feature acl
. See also "guestfs_feature_available".
(Added in 1.19.63)
int
guestfs_acl_set_file (guestfs_h *g,
const char *path,
const char *acltype,
const char *acl);
This function sets the POSIX Access Control List (ACL) attached to path
.
The acltype
parameter may be:
access
Set the ordinary (access) ACL for any file, directory or other filesystem object.
default
Set the default ACL. Normally this only makes sense if path
is a directory.
The acl
parameter is the new ACL in either "long text form" or "short text form" (see acl(5)). The new ACL completely replaces any previous ACL on the file. The ACL must contain the full Unix permissions (eg. u::rwx,g::rx,o::rx
).
If you are specifying individual users or groups, then the mask field is also required (eg. m::rwx
), followed by the u:ID:...
and/or g:ID:...
field(s). A full ACL string might therefore look like this:
u::rwx,g::rwx,o::rwx,m::rwx,u:500:rwx,g:500:rwx
\ Unix permissions / \mask/ \ ACL /
You should use numeric UIDs and GIDs. To map usernames and groupnames to the correct numeric ID in the context of the guest, use the Augeas functions (see guestfs_aug_init
).
This function returns 0 on success or -1 on error.
This function depends on the feature acl
. See also "guestfs_feature_available".
(Added in 1.19.63)
int
guestfs_add_cdrom (guestfs_h *g,
const char *filename);
This function is deprecated. In new code, use the "guestfs_add_drive_ro" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This function adds a virtual CD-ROM disk image to the guest.
The image is added as read-only drive, so this function is equivalent of guestfs_add_drive_ro
.
This function returns 0 on success or -1 on error.
(Added in 0.3)
int
guestfs_add_domain (guestfs_h *g,
const char *dom,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_ADD_DOMAIN_LIBVIRTURI, const char *libvirturi,
GUESTFS_ADD_DOMAIN_READONLY, int readonly,
GUESTFS_ADD_DOMAIN_IFACE, const char *iface,
GUESTFS_ADD_DOMAIN_LIVE, int live,
GUESTFS_ADD_DOMAIN_ALLOWUUID, int allowuuid,
GUESTFS_ADD_DOMAIN_READONLYDISK, const char *readonlydisk,
GUESTFS_ADD_DOMAIN_CACHEMODE, const char *cachemode,
GUESTFS_ADD_DOMAIN_DISCARD, const char *discard,
GUESTFS_ADD_DOMAIN_COPYONREAD, int copyonread,
This function adds the disk(s) attached to the named libvirt domain dom
. It works by connecting to libvirt, requesting the domain and domain XML from libvirt, parsing it for disks, and calling guestfs_add_drive_opts
on each one.
The number of disks added is returned. This operation is atomic: if an error is returned, then no disks are added.
This function does some minimal checks to make sure the libvirt domain is not running (unless readonly
is true). In a future version we will try to acquire the libvirt lock on each disk.
Disks must be accessible locally. This often means that adding disks from a remote libvirt connection (see https://libvirt.org/remote.html) will fail unless those disks are accessible via the same device path locally too.
The optional libvirturi
parameter sets the libvirt URI (see https://libvirt.org/uri.html). If this is not set then we connect to the default libvirt URI (or one set through an environment variable, see the libvirt documentation for full details).
The optional live
flag is ignored in libguestfs ≥ 1.48.
If the allowuuid
flag is true (default is false) then a UUID may be passed instead of the domain name. The dom
string is treated as a UUID first and looked up, and if that lookup fails then we treat dom
as a name as usual.
The optional readonlydisk
parameter controls what we do for disks which are marked <readonly/> in the libvirt XML. Possible values are:
If readonly
is false:
The whole call is aborted with an error if any disk with the <readonly/> flag is found.
If readonly
is true:
Disks with the <readonly/> flag are added read-only.
If readonly
is false:
Disks with the <readonly/> flag are added read-only. Other disks are added read/write.
If readonly
is true:
Disks with the <readonly/> flag are added read-only.
If readonly
is false:
Disks with the <readonly/> flag are added read/write.
If readonly
is true:
Disks with the <readonly/> flag are added read-only.
If readonly
is true or false:
Disks with the <readonly/> flag are skipped.
If present, the value of logical_block_size
attribute of <blockio/> tag in libvirt XML will be passed as blocksize
parameter to guestfs_add_drive_opts
.
The other optional parameters are passed directly through to guestfs_add_drive_opts
.
On error this function returns -1.
(Added in 1.7.4)
int
guestfs_add_domain_va (guestfs_h *g,
const char *dom,
va_list args);
This is the "va_list variant" of "guestfs_add_domain".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_add_domain_argv (guestfs_h *g,
const char *dom,
const struct guestfs_add_domain_argv *optargs);
This is the "argv variant" of "guestfs_add_domain".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_add_drive (guestfs_h *g,
const char *filename);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_add_drive_opts" with no optional arguments.
(Added in 0.3)
int
guestfs_add_drive_opts (guestfs_h *g,
const char *filename,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_ADD_DRIVE_OPTS_READONLY, int readonly,
GUESTFS_ADD_DRIVE_OPTS_FORMAT, const char *format,
GUESTFS_ADD_DRIVE_OPTS_IFACE, const char *iface,
GUESTFS_ADD_DRIVE_OPTS_NAME, const char *name,
GUESTFS_ADD_DRIVE_OPTS_LABEL, const char *label,
GUESTFS_ADD_DRIVE_OPTS_PROTOCOL, const char *protocol,
GUESTFS_ADD_DRIVE_OPTS_SERVER, char *const *server,
GUESTFS_ADD_DRIVE_OPTS_USERNAME, const char *username,
GUESTFS_ADD_DRIVE_OPTS_SECRET, const char *secret,
GUESTFS_ADD_DRIVE_OPTS_CACHEMODE, const char *cachemode,
GUESTFS_ADD_DRIVE_OPTS_DISCARD, const char *discard,
GUESTFS_ADD_DRIVE_OPTS_COPYONREAD, int copyonread,
GUESTFS_ADD_DRIVE_OPTS_BLOCKSIZE, int blocksize,
This function adds a disk image called filename to the handle. filename may be a regular host file or a host device.
When this function is called before guestfs_launch
(the usual case) then the first time you call this function, the disk appears in the API as /dev/sda, the second time as /dev/sdb, and so on.
You don't necessarily need to be root when using libguestfs. However you obviously do need sufficient permissions to access the filename for whatever operations you want to perform (ie. read access if you just want to read the image or write access if you want to modify the image).
This call checks that filename exists.
filename may be the special string "/dev/null"
. See "NULL DISKS".
The optional arguments are:
readonly
If true then the image is treated as read-only. Writes are still allowed, but they are stored in a temporary snapshot overlay which is discarded at the end. The disk that you add is not modified.
format
This forces the image format. If you omit this (or use guestfs_add_drive
or guestfs_add_drive_ro
) then the format is automatically detected. Possible formats include raw
and qcow2
.
Automatic detection of the format opens you up to a potential security hole when dealing with untrusted raw-format images. See CVE-2010-3851 and RHBZ#642934. Specifying the format closes this security hole.
iface
This rarely-used option lets you emulate the behaviour of the deprecated guestfs_add_drive_with_if
call (q.v.)
name
This field used to be passed as a hint for guest inspection, but it is no longer used.
label
Give the disk a label. The label should be a unique, short string using only ASCII characters [a-zA-Z]
. As well as its usual name in the API (such as /dev/sda), the drive will also be named /dev/disk/guestfs/label.
See "DISK LABELS".
protocol
The optional protocol argument can be used to select an alternate source protocol.
See also: "REMOTE STORAGE".
protocol = "file"
filename is interpreted as a local file or device. This is the default if the optional protocol parameter is omitted.
protocol = "ftp"|"ftps"|"http"|"https"
Connect to a remote FTP or HTTP server. The server
parameter must also be supplied - see below.
See also: "FTP AND HTTP"
protocol = "iscsi"
Connect to the iSCSI server. The server
parameter must also be supplied - see below. The username
parameter may be supplied. See below. The secret
parameter may be supplied. See below.
See also: "ISCSI".
protocol = "nbd"
Connect to the Network Block Device server. The server
parameter must also be supplied - see below.
See also: "NETWORK BLOCK DEVICE".
protocol = "rbd"
Connect to the Ceph (librbd/RBD) server. The server
parameter must also be supplied - see below. The username
parameter may be supplied. See below. The secret
parameter may be supplied. See below.
See also: "CEPH".
protocol = "ssh"
Connect to the Secure Shell (ssh) server.
The server
parameter must be supplied. The username
parameter may be supplied. See below.
See also: "SSH".
server
For protocols which require access to a remote server, this is a list of server(s).
Protocol Number of servers required
-------- --------------------------
file List must be empty or param not used at all
ftp|ftps|http|https Exactly one
iscsi Exactly one
nbd Exactly one
rbd Zero or more
ssh Exactly one
Each list element is a string specifying a server. The string must be in one of the following formats:
hostname
hostname:port
tcp:hostname
tcp:hostname:port
unix:/path/to/socket
If the port number is omitted, then the standard port number for the protocol is used (see /etc/services).
username
For the ftp
, ftps
, http
, https
, iscsi
, rbd
and ssh
protocols, this specifies the remote username.
If not given, then the local username is used for ssh
, and no authentication is attempted for ceph. But note this sometimes may give unexpected results, for example if using the libvirt backend and if the libvirt backend is configured to start the qemu appliance as a special user such as qemu.qemu
. If in doubt, specify the remote username you want.
secret
For the rbd
protocol only, this specifies the ‘secret’ to use when connecting to the remote device. It must be base64 encoded.
If not given, then a secret matching the given username will be looked up in the default keychain locations, or if no username is given, then no authentication will be used.
cachemode
Choose whether or not libguestfs will obey sync operations (safe but slow) or not (unsafe but fast). The possible values for this string are:
cachemode = "writeback"
This is the default.
Write operations in the API do not return until a write(2) call has completed in the host [but note this does not imply that anything gets written to disk].
Sync operations in the API, including implicit syncs caused by filesystem journalling, will not return until an fdatasync(2) call has completed in the host, indicating that data has been committed to disk.
cachemode = "unsafe"
In this mode, there are no guarantees. Libguestfs may cache anything and ignore sync requests. This is suitable only for scratch or temporary disks.
discard
Enable or disable discard (a.k.a. trim or unmap) support on this drive. If enabled, operations such as guestfs_fstrim
will be able to discard / make thin / punch holes in the underlying host file or device.
Possible discard settings are:
discard = "disable"
Disable discard support. This is the default.
discard = "enable"
Enable discard support. Fail if discard is not possible.
discard = "besteffort"
Enable discard support if possible, but don't fail if it is not supported.
Since not all backends and not all underlying systems support discard, this is a good choice if you want to use discard if possible, but don't mind if it doesn't work.
copyonread
The boolean parameter copyonread
enables copy-on-read support. This only affects disk formats which have backing files, and causes reads to be stored in the overlay layer, speeding up multiple reads of the same area of disk.
The default is false.
blocksize
This parameter sets the sector size of the disk. Possible values are 512
(the default if the parameter is omitted) or 4096
. Use 4096
when handling an "Advanced Format" disk that uses 4K sector size (https://en.wikipedia.org/wiki/Advanced_Format).
Only a subset of the backends support this parameter (currently only the libvirt and direct backends do).
This function returns 0 on success or -1 on error.
(Added in 0.3)
int
guestfs_add_drive_opts_va (guestfs_h *g,
const char *filename,
va_list args);
This is the "va_list variant" of "guestfs_add_drive_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_add_drive_opts_argv (guestfs_h *g,
const char *filename,
const struct guestfs_add_drive_opts_argv *optargs);
This is the "argv variant" of "guestfs_add_drive_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_add_drive_ro (guestfs_h *g,
const char *filename);
This function is the equivalent of calling guestfs_add_drive_opts
with the optional parameter GUESTFS_ADD_DRIVE_OPTS_READONLY
set to 1, so the disk is added read-only, with the format being detected automatically.
This function returns 0 on success or -1 on error.
(Added in 1.0.38)
int
guestfs_add_drive_ro_with_if (guestfs_h *g,
const char *filename,
const char *iface);
This function is deprecated. In new code, use the "guestfs_add_drive" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This is the same as guestfs_add_drive_ro
but it allows you to specify the QEMU interface emulation to use at run time. Both the direct and the libvirt backends ignore iface
.
This function returns 0 on success or -1 on error.
(Added in 1.0.84)
int
guestfs_add_drive_scratch (guestfs_h *g,
int64_t size,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_ADD_DRIVE_SCRATCH_NAME, const char *name,
GUESTFS_ADD_DRIVE_SCRATCH_LABEL, const char *label,
GUESTFS_ADD_DRIVE_SCRATCH_BLOCKSIZE, int blocksize,
This command adds a temporary scratch drive to the handle. The size
parameter is the virtual size (in bytes). The scratch drive is blank initially (all reads return zeroes until you start writing to it). The drive is deleted when the handle is closed.
The optional arguments name
, label
and blocksize
are passed through to guestfs_add_drive_opts
.
This function returns 0 on success or -1 on error.
(Added in 1.23.10)
int
guestfs_add_drive_scratch_va (guestfs_h *g,
int64_t size,
va_list args);
This is the "va_list variant" of "guestfs_add_drive_scratch".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_add_drive_scratch_argv (guestfs_h *g,
int64_t size,
const struct guestfs_add_drive_scratch_argv *optargs);
This is the "argv variant" of "guestfs_add_drive_scratch".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_add_drive_with_if (guestfs_h *g,
const char *filename,
const char *iface);
This function is deprecated. In new code, use the "guestfs_add_drive" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This is the same as guestfs_add_drive
but it allows you to specify the QEMU interface emulation to use at run time. Both the direct and the libvirt backends ignore iface
.
This function returns 0 on success or -1 on error.
(Added in 1.0.84)
int
guestfs_add_libvirt_dom (guestfs_h *g,
void * /* really virDomainPtr */ dom,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_ADD_LIBVIRT_DOM_READONLY, int readonly,
GUESTFS_ADD_LIBVIRT_DOM_IFACE, const char *iface,
GUESTFS_ADD_LIBVIRT_DOM_LIVE, int live,
GUESTFS_ADD_LIBVIRT_DOM_READONLYDISK, const char *readonlydisk,
GUESTFS_ADD_LIBVIRT_DOM_CACHEMODE, const char *cachemode,
GUESTFS_ADD_LIBVIRT_DOM_DISCARD, const char *discard,
GUESTFS_ADD_LIBVIRT_DOM_COPYONREAD, int copyonread,
This function adds the disk(s) attached to the libvirt domain dom
. It works by requesting the domain XML from libvirt, parsing it for disks, and calling guestfs_add_drive_opts
on each one.
In the C API we declare void *dom
, but really it has type virDomainPtr dom
. This is so we don't need <libvirt.h>.
The number of disks added is returned. This operation is atomic: if an error is returned, then no disks are added.
This function does some minimal checks to make sure the libvirt domain is not running (unless readonly
is true). In a future version we will try to acquire the libvirt lock on each disk.
Disks must be accessible locally. This often means that adding disks from a remote libvirt connection (see https://libvirt.org/remote.html) will fail unless those disks are accessible via the same device path locally too.
The optional live
flag is ignored in libguestfs ≥ 1.48.
The optional readonlydisk
parameter controls what we do for disks which are marked <readonly/> in the libvirt XML. See guestfs_add_domain
for possible values.
If present, the value of logical_block_size
attribute of <blockio/> tag in libvirt XML will be passed as blocksize
parameter to guestfs_add_drive_opts
.
The other optional parameters are passed directly through to guestfs_add_drive_opts
.
On error this function returns -1.
(Added in 1.29.14)
int
guestfs_add_libvirt_dom_va (guestfs_h *g,
void * /* really virDomainPtr */ dom,
va_list args);
This is the "va_list variant" of "guestfs_add_libvirt_dom".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_add_libvirt_dom_argv (guestfs_h *g,
void * /* really virDomainPtr */ dom,
const struct guestfs_add_libvirt_dom_argv *optargs);
This is the "argv variant" of "guestfs_add_libvirt_dom".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_aug_clear (guestfs_h *g,
const char *augpath);
Set the value associated with path
to NULL
. This is the same as the augtool(1) clear
command.
This function returns 0 on success or -1 on error.
(Added in 1.3.4)
int
guestfs_aug_close (guestfs_h *g);
Close the current Augeas handle and free up any resources used by it. After calling this, you have to call guestfs_aug_init
again before you can use any other Augeas functions.
This function returns 0 on success or -1 on error.
(Added in 0.7)
struct guestfs_int_bool *
guestfs_aug_defnode (guestfs_h *g,
const char *name,
const char *expr,
const char *val);
Defines a variable name
whose value is the result of evaluating expr
.
If expr
evaluates to an empty nodeset, a node is created, equivalent to calling guestfs_aug_set
expr
, val
. name
will be the nodeset containing that single node.
On success this returns a pair containing the number of nodes in the nodeset, and a boolean flag if a node was created.
This function returns a struct guestfs_int_bool *
, or NULL if there was an error. The caller must call guestfs_free_int_bool
after use.
(Added in 0.7)
int
guestfs_aug_defvar (guestfs_h *g,
const char *name,
const char *expr);
Defines an Augeas variable name
whose value is the result of evaluating expr
. If expr
is NULL, then name
is undefined.
On success this returns the number of nodes in expr
, or 0
if expr
evaluates to something which is not a nodeset.
On error this function returns -1.
(Added in 0.7)
char *
guestfs_aug_get (guestfs_h *g,
const char *augpath);
Look up the value associated with path
. If path
matches exactly one node, the value
is returned.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 0.7)
int
guestfs_aug_init (guestfs_h *g,
const char *root,
int flags);
Create a new Augeas handle for editing configuration files. If there was any previous Augeas handle associated with this guestfs session, then it is closed.
You must call this before using any other guestfs_aug_*
commands.
root
is the filesystem root. root
must not be NULL, use / instead.
The flags are the same as the flags defined in <augeas.h>, the logical or of the following integers:
AUG_SAVE_BACKUP
= 1Keep the original file with a .augsave
extension.
AUG_SAVE_NEWFILE
= 2Save changes into a file with extension .augnew
, and do not overwrite original. Overrides AUG_SAVE_BACKUP
.
AUG_TYPE_CHECK
= 4Typecheck lenses.
This option is only useful when debugging Augeas lenses. Use of this option may require additional memory for the libguestfs appliance. You may need to set the LIBGUESTFS_MEMSIZE
environment variable or call guestfs_set_memsize
.
AUG_NO_STDINC
= 8Do not use standard load path for modules.
AUG_SAVE_NOOP
= 16Make save a no-op, just record what would have been changed.
AUG_NO_LOAD
= 32Do not load the tree in guestfs_aug_init
.
To close the handle, you can call guestfs_aug_close
.
To find out more about Augeas, see http://augeas.net/.
This function returns 0 on success or -1 on error.
(Added in 0.7)
int
guestfs_aug_insert (guestfs_h *g,
const char *augpath,
const char *label,
int before);
Create a new sibling label
for path
, inserting it into the tree before or after path
(depending on the boolean flag before
).
path
must match exactly one existing node in the tree, and label
must be a label, ie. not contain /, *
or end with a bracketed index [N]
.
This function returns 0 on success or -1 on error.
(Added in 0.7)
char *
guestfs_aug_label (guestfs_h *g,
const char *augpath);
The label (name of the last element) of the Augeas path expression augpath
is returned. augpath
must match exactly one node, else this function returns an error.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.23.14)
int
guestfs_aug_load (guestfs_h *g);
Load files into the tree.
See aug_load
in the Augeas documentation for the full gory details.
This function returns 0 on success or -1 on error.
(Added in 0.7)
char **
guestfs_aug_ls (guestfs_h *g,
const char *augpath);
This is just a shortcut for listing guestfs_aug_match
path/*
and sorting the resulting nodes into alphabetical order.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 0.8)
char **
guestfs_aug_match (guestfs_h *g,
const char *augpath);
Returns a list of paths which match the path expression path
. The returned paths are sufficiently qualified so that they match exactly one node in the current tree.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 0.7)
int
guestfs_aug_mv (guestfs_h *g,
const char *src,
const char *dest);
Move the node src
to dest
. src
must match exactly one node. dest
is overwritten if it exists.
This function returns 0 on success or -1 on error.
(Added in 0.7)
int
guestfs_aug_rm (guestfs_h *g,
const char *augpath);
Remove path
and all of its children.
On success this returns the number of entries which were removed.
On error this function returns -1.
(Added in 0.7)
int
guestfs_aug_save (guestfs_h *g);
This writes all pending changes to disk.
The flags which were passed to guestfs_aug_init
affect exactly how files are saved.
This function returns 0 on success or -1 on error.
(Added in 0.7)
int
guestfs_aug_set (guestfs_h *g,
const char *augpath,
const char *val);
Set the value associated with augpath
to val
.
In the Augeas API, it is possible to clear a node by setting the value to NULL. Due to an oversight in the libguestfs API you cannot do that with this call. Instead you must use the guestfs_aug_clear
call.
This function returns 0 on success or -1 on error.
(Added in 0.7)
int
guestfs_aug_setm (guestfs_h *g,
const char *base,
const char *sub,
const char *val);
Change multiple Augeas nodes in a single operation. base
is an expression matching multiple nodes. sub
is a path expression relative to base
. All nodes matching base
are found, and then for each node, sub
is changed to val
. sub
may also be NULL
in which case the base
nodes are modified.
This returns the number of nodes modified.
On error this function returns -1.
(Added in 1.23.14)
int
guestfs_aug_transform (guestfs_h *g,
const char *lens,
const char *file,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_AUG_TRANSFORM_REMOVE, int remove,
Add an Augeas transformation for the specified lens
so it can handle file
.
If remove
is true (false
by default), then the transformation is removed.
This function returns 0 on success or -1 on error.
(Added in 1.35.2)
int
guestfs_aug_transform_va (guestfs_h *g,
const char *lens,
const char *file,
va_list args);
This is the "va_list variant" of "guestfs_aug_transform".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_aug_transform_argv (guestfs_h *g,
const char *lens,
const char *file,
const struct guestfs_aug_transform_argv *optargs);
This is the "argv variant" of "guestfs_aug_transform".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_available (guestfs_h *g,
char *const *groups);
This command is used to check the availability of some groups of functionality in the appliance, which not all builds of the libguestfs appliance will be able to provide.
The libguestfs groups, and the functions that those groups correspond to, are listed in "AVAILABILITY". You can also fetch this list at runtime by calling guestfs_available_all_groups
.
The argument groups
is a list of group names, eg: ["inotify", "augeas"]
would check for the availability of the Linux inotify functions and Augeas (configuration file editing) functions.
The command returns no error if all requested groups are available.
It fails with an error if one or more of the requested groups is unavailable in the appliance.
If an unknown group name is included in the list of groups then an error is always returned.
Notes:
guestfs_feature_available
is the same as this call, but with a slightly simpler to use API: that call returns a boolean true/false instead of throwing an error.
You must call guestfs_launch
before calling this function.
The reason is because we don't know what groups are supported by the appliance/daemon until it is running and can be queried.
If a group of functions is available, this does not necessarily mean that they will work. You still have to check for errors when calling individual API functions even if they are available.
It is usually the job of distro packagers to build complete functionality into the libguestfs appliance. Upstream libguestfs, if built from source with all requirements satisfied, will support everything.
This call was added in version 1.0.80
. In previous versions of libguestfs all you could do would be to speculatively execute a command to find out if the daemon implemented it. See also guestfs_version
.
See also guestfs_filesystem_available
.
This function returns 0 on success or -1 on error.
(Added in 1.0.80)
char **
guestfs_available_all_groups (guestfs_h *g);
This command returns a list of all optional groups that this daemon knows about. Note this returns both supported and unsupported groups. To find out which ones the daemon can actually support you have to call guestfs_available
/ guestfs_feature_available
on each member of the returned list.
See also guestfs_available
, guestfs_feature_available
and "AVAILABILITY".
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.3.15)
int
guestfs_base64_in (guestfs_h *g,
const char *base64file,
const char *filename);
This command uploads base64-encoded data from base64file
to filename.
This function returns 0 on success or -1 on error.
(Added in 1.3.5)
int
guestfs_base64_out (guestfs_h *g,
const char *filename,
const char *base64file);
This command downloads the contents of filename, writing it out to local file base64file
encoded as base64.
This function returns 0 on success or -1 on error.
(Added in 1.3.5)
int
guestfs_blkdiscard (guestfs_h *g,
const char *device);
This discards all blocks on the block device device
, giving the free space back to the host.
This operation requires support in libguestfs, the host filesystem, qemu and the host kernel. If this support isn't present it may give an error or even appear to run but do nothing. You must also set the discard
attribute on the underlying drive (see guestfs_add_drive_opts
).
This function returns 0 on success or -1 on error.
This function depends on the feature blkdiscard
. See also "guestfs_feature_available".
(Added in 1.25.44)
int
guestfs_blkdiscardzeroes (guestfs_h *g,
const char *device);
This call returns true if blocks on device
that have been discarded by a call to guestfs_blkdiscard
are returned as blocks of zero bytes when read the next time.
If it returns false, then it may be that discarded blocks are read as stale or random data.
This function returns a C truth value on success or -1 on error.
This function depends on the feature blkdiscardzeroes
. See also "guestfs_feature_available".
(Added in 1.25.44)
char **
guestfs_blkid (guestfs_h *g,
const char *device);
This command returns block device attributes for device
. The following fields are usually present in the returned hash. Other fields may also be present.
UUID
The uuid of this device.
LABEL
The label of this device.
VERSION
The version of blkid command.
TYPE
The filesystem type or RAID of this device.
USAGE
The usage of this device, for example filesystem
or raid
.
This function returns a NULL-terminated array of strings, or NULL if there was an error. The array of strings will always have length 2n+1
, where n
keys and values alternate, followed by the trailing NULL entry. The caller must free the strings and the array after use.
(Added in 1.15.9)
int
guestfs_blockdev_flushbufs (guestfs_h *g,
const char *device);
This tells the kernel to flush internal buffers associated with device
.
This uses the blockdev(8) command.
This function returns 0 on success or -1 on error.
(Added in 1.9.3)
int
guestfs_blockdev_getbsz (guestfs_h *g,
const char *device);
This returns the block size of a device.
Note: this is different from both size in blocks and filesystem block size. Also this setting is not really used by anything. You should probably not use it for anything. Filesystems have their own idea about what block size to choose.
This uses the blockdev(8) command.
On error this function returns -1.
(Added in 1.9.3)
int
guestfs_blockdev_getro (guestfs_h *g,
const char *device);
Returns a boolean indicating if the block device is read-only (true if read-only, false if not).
This uses the blockdev(8) command.
This function returns a C truth value on success or -1 on error.
(Added in 1.9.3)
int64_t
guestfs_blockdev_getsize64 (guestfs_h *g,
const char *device);
This returns the size of the device in bytes.
See also guestfs_blockdev_getsz
.
This uses the blockdev(8) command.
On error this function returns -1.
(Added in 1.9.3)
int
guestfs_blockdev_getss (guestfs_h *g,
const char *device);
This returns the size of sectors on a block device. Usually 512, but can be larger for modern devices.
(Note, this is not the size in sectors, use guestfs_blockdev_getsz
for that).
This uses the blockdev(8) command.
On error this function returns -1.
(Added in 1.9.3)
int64_t
guestfs_blockdev_getsz (guestfs_h *g,
const char *device);
This returns the size of the device in units of 512-byte sectors (even if the sectorsize isn't 512 bytes ... weird).
See also guestfs_blockdev_getss
for the real sector size of the device, and guestfs_blockdev_getsize64
for the more useful size in bytes.
This uses the blockdev(8) command.
On error this function returns -1.
(Added in 1.9.3)
int
guestfs_blockdev_rereadpt (guestfs_h *g,
const char *device);
Reread the partition table on device
.
This uses the blockdev(8) command.
This function returns 0 on success or -1 on error.
(Added in 1.9.3)
int
guestfs_blockdev_setbsz (guestfs_h *g,
const char *device,
int blocksize);
This function is deprecated. There is no replacement. Consult the API documentation in guestfs(3) for further information.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This call does nothing and has never done anything because of a bug in blockdev. Do not use it.
If you need to set the filesystem block size, use the blocksize
option of guestfs_mkfs
.
This function returns 0 on success or -1 on error.
(Added in 1.9.3)
int
guestfs_blockdev_setra (guestfs_h *g,
const char *device,
int sectors);
Set readahead (in 512-byte sectors) for the device.
This uses the blockdev(8) command.
This function returns 0 on success or -1 on error.
(Added in 1.29.10)
int
guestfs_blockdev_setro (guestfs_h *g,
const char *device);
Sets the block device named device
to read-only.
This uses the blockdev(8) command.
This function returns 0 on success or -1 on error.
(Added in 1.9.3)
int
guestfs_blockdev_setrw (guestfs_h *g,
const char *device);
Sets the block device named device
to read-write.
This uses the blockdev(8) command.
This function returns 0 on success or -1 on error.
(Added in 1.9.3)
int
guestfs_btrfs_balance_cancel (guestfs_h *g,
const char *path);
Cancel a running balance on a btrfs filesystem.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.22)
int
guestfs_btrfs_balance_pause (guestfs_h *g,
const char *path);
Pause a running balance on a btrfs filesystem.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.22)
int
guestfs_btrfs_balance_resume (guestfs_h *g,
const char *path);
Resume a paused balance on a btrfs filesystem.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.22)
struct guestfs_btrfsbalance *
guestfs_btrfs_balance_status (guestfs_h *g,
const char *path);
Show the status of a running or paused balance on a btrfs filesystem.
This function returns a struct guestfs_btrfsbalance *
, or NULL if there was an error. The caller must call guestfs_free_btrfsbalance
after use.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.26)
int
guestfs_btrfs_device_add (guestfs_h *g,
char *const *devices,
const char *fs);
Add the list of device(s) in devices
to the btrfs filesystem mounted at fs
. If devices
is an empty list, this does nothing.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.17.35)
int
guestfs_btrfs_device_delete (guestfs_h *g,
char *const *devices,
const char *fs);
Remove the devices
from the btrfs filesystem mounted at fs
. If devices
is an empty list, this does nothing.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.17.35)
int
guestfs_btrfs_filesystem_balance (guestfs_h *g,
const char *fs);
Balance the chunks in the btrfs filesystem mounted at fs
across the underlying devices.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.17.35)
int
guestfs_btrfs_filesystem_defragment (guestfs_h *g,
const char *path,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_BTRFS_FILESYSTEM_DEFRAGMENT_FLUSH, int flush,
GUESTFS_BTRFS_FILESYSTEM_DEFRAGMENT_COMPRESS, const char *compress,
Defragment a file or directory on a btrfs filesystem. compress is one of zlib or lzo.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.22)
int
guestfs_btrfs_filesystem_defragment_va (guestfs_h *g,
const char *path,
va_list args);
This is the "va_list variant" of "guestfs_btrfs_filesystem_defragment".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_btrfs_filesystem_defragment_argv (guestfs_h *g,
const char *path,
const struct guestfs_btrfs_filesystem_defragment_argv *optargs);
This is the "argv variant" of "guestfs_btrfs_filesystem_defragment".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_btrfs_filesystem_resize (guestfs_h *g,
const char *mountpoint,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_BTRFS_FILESYSTEM_RESIZE_SIZE, int64_t size,
This command resizes a btrfs filesystem.
Note that unlike other resize calls, the filesystem has to be mounted and the parameter is the mountpoint not the device (this is a requirement of btrfs itself).
The optional parameters are:
size
The new size (in bytes) of the filesystem. If omitted, the filesystem is resized to the maximum size.
See also btrfs(8).
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.11.17)
int
guestfs_btrfs_filesystem_resize_va (guestfs_h *g,
const char *mountpoint,
va_list args);
This is the "va_list variant" of "guestfs_btrfs_filesystem_resize".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_btrfs_filesystem_resize_argv (guestfs_h *g,
const char *mountpoint,
const struct guestfs_btrfs_filesystem_resize_argv *optargs);
This is the "argv variant" of "guestfs_btrfs_filesystem_resize".
See "CALLS WITH OPTIONAL ARGUMENTS".
char **
guestfs_btrfs_filesystem_show (guestfs_h *g,
const char *device);
Show all the devices where the filesystems in device
is spanned over.
If not all the devices for the filesystems are present, then this function fails and the errno
is set to ENODEV
.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.33.29)
int
guestfs_btrfs_filesystem_sync (guestfs_h *g,
const char *fs);
Force sync on the btrfs filesystem mounted at fs
.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.17.35)
int
guestfs_btrfs_fsck (guestfs_h *g,
const char *device,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_BTRFS_FSCK_SUPERBLOCK, int64_t superblock,
GUESTFS_BTRFS_FSCK_REPAIR, int repair,
Used to check a btrfs filesystem, device
is the device file where the filesystem is stored.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.17.43)
int
guestfs_btrfs_fsck_va (guestfs_h *g,
const char *device,
va_list args);
This is the "va_list variant" of "guestfs_btrfs_fsck".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_btrfs_fsck_argv (guestfs_h *g,
const char *device,
const struct guestfs_btrfs_fsck_argv *optargs);
This is the "argv variant" of "guestfs_btrfs_fsck".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_btrfs_image (guestfs_h *g,
char *const *source,
const char *image,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_BTRFS_IMAGE_COMPRESSLEVEL, int compresslevel,
This is used to create an image of a btrfs filesystem. All data will be zeroed, but metadata and the like is preserved.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.32)
int
guestfs_btrfs_image_va (guestfs_h *g,
char *const *source,
const char *image,
va_list args);
This is the "va_list variant" of "guestfs_btrfs_image".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_btrfs_image_argv (guestfs_h *g,
char *const *source,
const char *image,
const struct guestfs_btrfs_image_argv *optargs);
This is the "argv variant" of "guestfs_btrfs_image".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_btrfs_qgroup_assign (guestfs_h *g,
const char *src,
const char *dst,
const char *path);
Add qgroup src
to parent qgroup dst
. This command can group several qgroups into a parent qgroup to share common limit.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.17)
int
guestfs_btrfs_qgroup_create (guestfs_h *g,
const char *qgroupid,
const char *subvolume);
Create a quota group (qgroup) for subvolume at subvolume
.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.17)
int
guestfs_btrfs_qgroup_destroy (guestfs_h *g,
const char *qgroupid,
const char *subvolume);
Destroy a quota group.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.17)
int
guestfs_btrfs_qgroup_limit (guestfs_h *g,
const char *subvolume,
int64_t size);
Limit the size of the subvolume with path subvolume
.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.17)
int
guestfs_btrfs_qgroup_remove (guestfs_h *g,
const char *src,
const char *dst,
const char *path);
Remove qgroup src
from the parent qgroup dst
.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.17)
struct guestfs_btrfsqgroup_list *
guestfs_btrfs_qgroup_show (guestfs_h *g,
const char *path);
Show all subvolume quota groups in a btrfs filesystem, including their usages.
This function returns a struct guestfs_btrfsqgroup_list *
, or NULL if there was an error. The caller must call guestfs_free_btrfsqgroup_list
after use.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.17)
int
guestfs_btrfs_quota_enable (guestfs_h *g,
const char *fs,
int enable);
Enable or disable subvolume quota support for filesystem which contains path
.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.17)
int
guestfs_btrfs_quota_rescan (guestfs_h *g,
const char *fs);
Trash all qgroup numbers and scan the metadata again with the current config.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.17)
int
guestfs_btrfs_replace (guestfs_h *g,
const char *srcdev,
const char *targetdev,
const char *mntpoint);
Replace device of a btrfs filesystem. On a live filesystem, duplicate the data to the target device which is currently stored on the source device. After completion of the operation, the source device is wiped out and removed from the filesystem.
The targetdev
needs to be same size or larger than the srcdev
. Devices which are currently mounted are never allowed to be used as the targetdev
.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.48)
int
guestfs_btrfs_rescue_chunk_recover (guestfs_h *g,
const char *device);
Recover the chunk tree of btrfs filesystem by scanning the devices one by one.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.22)
int
guestfs_btrfs_rescue_super_recover (guestfs_h *g,
const char *device);
Recover bad superblocks from good copies.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.22)
int
guestfs_btrfs_scrub_cancel (guestfs_h *g,
const char *path);
Cancel a running scrub on a btrfs filesystem.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.22)
int
guestfs_btrfs_scrub_resume (guestfs_h *g,
const char *path);
Resume a previously canceled or interrupted scrub on a btrfs filesystem.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.22)
int
guestfs_btrfs_scrub_start (guestfs_h *g,
const char *path);
Reads all the data and metadata on the filesystem, and uses checksums and the duplicate copies from RAID storage to identify and repair any corrupt data.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.22)
struct guestfs_btrfsscrub *
guestfs_btrfs_scrub_status (guestfs_h *g,
const char *path);
Show status of running or finished scrub on a btrfs filesystem.
This function returns a struct guestfs_btrfsscrub *
, or NULL if there was an error. The caller must call guestfs_free_btrfsscrub
after use.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.26)
int
guestfs_btrfs_set_seeding (guestfs_h *g,
const char *device,
int seeding);
Enable or disable the seeding feature of a device that contains a btrfs filesystem.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.17.43)
int
guestfs_btrfs_subvolume_create (guestfs_h *g,
const char *dest);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_btrfs_subvolume_create_opts" with no optional arguments.
(Added in 1.17.35)
int
guestfs_btrfs_subvolume_create_opts (guestfs_h *g,
const char *dest,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_BTRFS_SUBVOLUME_CREATE_OPTS_QGROUPID, const char *qgroupid,
Create a btrfs subvolume. The dest
argument is the destination directory and the name of the subvolume, in the form /path/to/dest/name. The optional parameter qgroupid
represents the qgroup which the newly created subvolume will be added to.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.17.35)
int
guestfs_btrfs_subvolume_create_opts_va (guestfs_h *g,
const char *dest,
va_list args);
This is the "va_list variant" of "guestfs_btrfs_subvolume_create_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_btrfs_subvolume_create_opts_argv (guestfs_h *g,
const char *dest,
const struct guestfs_btrfs_subvolume_create_opts_argv *optargs);
This is the "argv variant" of "guestfs_btrfs_subvolume_create_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_btrfs_subvolume_delete (guestfs_h *g,
const char *subvolume);
Delete the named btrfs subvolume or snapshot.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.17.35)
int64_t
guestfs_btrfs_subvolume_get_default (guestfs_h *g,
const char *fs);
Get the default subvolume or snapshot of a filesystem mounted at mountpoint
.
On error this function returns -1.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.17)
struct guestfs_btrfssubvolume_list *
guestfs_btrfs_subvolume_list (guestfs_h *g,
const char *fs);
List the btrfs snapshots and subvolumes of the btrfs filesystem which is mounted at fs
.
This function returns a struct guestfs_btrfssubvolume_list *
, or NULL if there was an error. The caller must call guestfs_free_btrfssubvolume_list
after use.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.17.35)
int
guestfs_btrfs_subvolume_set_default (guestfs_h *g,
int64_t id,
const char *fs);
Set the subvolume of the btrfs filesystem fs
which will be mounted by default. See guestfs_btrfs_subvolume_list
to get a list of subvolumes.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.17.35)
char **
guestfs_btrfs_subvolume_show (guestfs_h *g,
const char *subvolume);
Return detailed information of the subvolume.
This function returns a NULL-terminated array of strings, or NULL if there was an error. The array of strings will always have length 2n+1
, where n
keys and values alternate, followed by the trailing NULL entry. The caller must free the strings and the array after use.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.17)
int
guestfs_btrfs_subvolume_snapshot (guestfs_h *g,
const char *source,
const char *dest);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_btrfs_subvolume_snapshot_opts" with no optional arguments.
(Added in 1.17.35)
int
guestfs_btrfs_subvolume_snapshot_opts (guestfs_h *g,
const char *source,
const char *dest,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_BTRFS_SUBVOLUME_SNAPSHOT_OPTS_RO, int ro,
GUESTFS_BTRFS_SUBVOLUME_SNAPSHOT_OPTS_QGROUPID, const char *qgroupid,
Create a snapshot of the btrfs subvolume source
. The dest
argument is the destination directory and the name of the snapshot, in the form /path/to/dest/name. By default the newly created snapshot is writable, if the value of optional parameter ro
is true, then a readonly snapshot is created. The optional parameter qgroupid
represents the qgroup which the newly created snapshot will be added to.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.17.35)
int
guestfs_btrfs_subvolume_snapshot_opts_va (guestfs_h *g,
const char *source,
const char *dest,
va_list args);
This is the "va_list variant" of "guestfs_btrfs_subvolume_snapshot_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_btrfs_subvolume_snapshot_opts_argv (guestfs_h *g,
const char *source,
const char *dest,
const struct guestfs_btrfs_subvolume_snapshot_opts_argv *optargs);
This is the "argv variant" of "guestfs_btrfs_subvolume_snapshot_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_btrfstune_enable_extended_inode_refs (guestfs_h *g,
const char *device);
This will Enable extended inode refs.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.29)
int
guestfs_btrfstune_enable_skinny_metadata_extent_refs (guestfs_h *g,
const char *device);
This enable skinny metadata extent refs.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.29)
int
guestfs_btrfstune_seeding (guestfs_h *g,
const char *device,
int seeding);
Enable seeding of a btrfs device, this will force a fs readonly so that you can use it to build other filesystems.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.29.29)
int64_t
guestfs_c_pointer (guestfs_h *g);
In non-C language bindings, this allows you to retrieve the underlying C pointer to the handle (ie. guestfs_h *
). The purpose of this is to allow other libraries to interwork with libguestfs.
On error this function returns -1.
(Added in 1.29.17)
char *
guestfs_canonical_device_name (guestfs_h *g,
const char *device);
This utility function is useful when displaying device names to the user. It takes a number of irregular device names and returns them in a consistent format:
These are returned as /dev/sdX. Note this works for device names and partition names. This is approximately the reverse of the algorithm described in "BLOCK DEVICE NAMING".
Converted to /dev/VG/LV form using guestfs_lvm_canonical_lv_name
.
Other strings are returned unmodified.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.19.7)
char *
guestfs_cap_get_file (guestfs_h *g,
const char *path);
This function returns the Linux capabilities attached to path
. The capabilities set is returned in text form (see cap_to_text(3)).
If no capabilities are attached to a file, an empty string is returned.
This function returns a string, or NULL on error. The caller must free the returned string after use.
This function depends on the feature linuxcaps
. See also "guestfs_feature_available".
(Added in 1.19.63)
int
guestfs_cap_set_file (guestfs_h *g,
const char *path,
const char *cap);
This function sets the Linux capabilities attached to path
. The capabilities set cap
should be passed in text form (see cap_from_text(3)).
This function returns 0 on success or -1 on error.
This function depends on the feature linuxcaps
. See also "guestfs_feature_available".
(Added in 1.19.63)
char *
guestfs_case_sensitive_path (guestfs_h *g,
const char *path);
This can be used to resolve case insensitive paths on a filesystem which is case sensitive. The use case is to resolve paths which you have read from Windows configuration files or the Windows Registry, to the true path.
The command handles a peculiarity of the Linux ntfs-3g filesystem driver (and probably others), which is that although the underlying filesystem is case-insensitive, the driver exports the filesystem to Linux as case-sensitive.
One consequence of this is that special directories such as C:\windows may appear as /WINDOWS or /windows (or other things) depending on the precise details of how they were created. In Windows itself this would not be a problem.
Bug or feature? You decide: https://www.tuxera.com/community/ntfs-3g-faq/#posixfilenames1
guestfs_case_sensitive_path
attempts to resolve the true case of each element in the path. It will return a resolved path if either the full path or its parent directory exists. If the parent directory exists but the full path does not, the case of the parent directory will be correctly resolved, and the remainder appended unmodified. For example, if the file "/Windows/System32/netkvm.sys"
exists:
guestfs_case_sensitive_path
("/windows/system32/netkvm.sys")"Windows/System32/netkvm.sys"
guestfs_case_sensitive_path
("/windows/system32/NoSuchFile")"Windows/System32/NoSuchFile"
guestfs_case_sensitive_path
("/windows/system33/netkvm.sys")ERROR
Note: Because of the above behaviour, guestfs_case_sensitive_path
cannot be used to check for the existence of a file.
Note: This function does not handle drive names, backslashes etc.
See also guestfs_realpath
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.75)
char *
guestfs_cat (guestfs_h *g,
const char *path);
Return the contents of the file named path
.
Because, in C, this function returns a char *
, there is no way to differentiate between a \0
character in a file and end of string. To handle binary files, use the guestfs_read_file
or guestfs_download
functions.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 0.4)
char *
guestfs_checksum (guestfs_h *g,
const char *csumtype,
const char *path);
This call computes the MD5, SHAx or CRC checksum of the file named path
.
The type of checksum to compute is given by the csumtype
parameter which must have one of the following values:
crc
Compute the cyclic redundancy check (CRC) specified by POSIX for the cksum
command.
gost
gost12
Compute the checksum using GOST R34.11-94 or GOST R34.11-2012 message digest.
md5
Compute the MD5 hash (using the md5sum(1) program).
sha1
Compute the SHA1 hash (using the sha1sum(1) program).
sha224
Compute the SHA224 hash (using the sha224sum(1) program).
sha256
Compute the SHA256 hash (using the sha256sum(1) program).
sha384
Compute the SHA384 hash (using the sha384sum(1) program).
sha512
Compute the SHA512 hash (using the sha512sum(1) program).
The checksum is returned as a printable string.
To get the checksum for a device, use guestfs_checksum_device
.
To get the checksums for many files, use guestfs_checksums_out
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.2)
char *
guestfs_checksum_device (guestfs_h *g,
const char *csumtype,
const char *device);
This call computes the MD5, SHAx or CRC checksum of the contents of the device named device
. For the types of checksums supported see the guestfs_checksum
command.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.3.2)
int
guestfs_checksums_out (guestfs_h *g,
const char *csumtype,
const char *directory,
const char *sumsfile);
This command computes the checksums of all regular files in directory and then emits a list of those checksums to the local output file sumsfile
.
This can be used for verifying the integrity of a virtual machine. However to be properly secure you should pay attention to the output of the checksum command (it uses the ones from GNU coreutils). In particular when the filename is not printable, coreutils uses a special backslash syntax. For more information, see the GNU coreutils info file.
This function returns 0 on success or -1 on error.
(Added in 1.3.7)
int
guestfs_chmod (guestfs_h *g,
int mode,
const char *path);
Change the mode (permissions) of path
to mode
. Only numeric modes are supported.
Note: When using this command from guestfish, mode
by default would be decimal, unless you prefix it with 0
to get octal, ie. use 0700
not 700
.
The mode actually set is affected by the umask.
This function returns 0 on success or -1 on error.
(Added in 0.8)
int
guestfs_chown (guestfs_h *g,
int owner,
int group,
const char *path);
Change the file owner to owner
and group to group
.
Only numeric uid and gid are supported. If you want to use names, you will need to locate and parse the password file yourself (Augeas support makes this relatively easy).
This function returns 0 on success or -1 on error.
(Added in 0.8)
int
guestfs_clear_backend_setting (guestfs_h *g,
const char *name);
If there is a backend setting string matching "name"
or beginning with "name="
, then that string is removed from the backend settings.
This call returns the number of strings which were removed (which may be 0, 1 or greater than 1).
See "BACKEND", "BACKEND SETTINGS".
On error this function returns -1.
(Added in 1.27.2)
int
guestfs_clevis_luks_unlock (guestfs_h *g,
const char *device,
const char *mapname);
This command opens a block device that has been encrypted according to the Linux Unified Key Setup (LUKS) standard, using network-bound disk encryption (NBDE).
device
is the encrypted block device.
The appliance will connect to the Tang servers noted in the tree of Clevis pins that is bound to a keyslot of the LUKS header. The Clevis pin tree may comprise sss
(redudancy) pins as internal nodes (optionally), and tang
pins as leaves. tpm2
pins are not supported. The appliance unlocks the encrypted block device by combining responses from the Tang servers with metadata from the LUKS header; there is no key
parameter.
This command will fail if networking has not been enabled for the appliance. Refer to guestfs_set_network
.
The command creates a new block device called /dev/mapper/mapname. Reads and writes to this block device are decrypted from and encrypted to the underlying device
respectively. Close the decrypted block device with guestfs_cryptsetup_close
.
mapname
cannot be "control"
because that name is reserved by device-mapper.
If this block device contains LVM volume groups, then calling guestfs_lvm_scan
with the activate
parameter true
will make them visible.
Use guestfs_list_dm_devices
to list all device mapper devices.
This function returns 0 on success or -1 on error.
This function depends on the feature clevisluks
. See also "guestfs_feature_available".
(Added in 1.49.3)
char *
guestfs_command (guestfs_h *g,
char *const *arguments);
This call runs a command from the guest filesystem. The filesystem must be mounted, and must contain a compatible operating system (ie. something Linux, with the same or compatible processor architecture).
The single parameter is an argv-style list of arguments. The first element is the name of the program to run. Subsequent elements are parameters. The list must be non-empty (ie. must contain a program name). Note that the command runs directly, and is not invoked via the shell (see guestfs_sh
).
The return value is anything printed to stdout by the command.
If the command returns a non-zero exit status, then this function returns an error message. The error message string is the content of stderr from the command.
The $PATH
environment variable will contain at least /usr/bin and /bin. If you require a program from another location, you should provide the full path in the first parameter.
Shared libraries and data files required by the program must be available on filesystems which are mounted in the correct places. It is the caller’s responsibility to ensure all filesystems that are needed are mounted at the right locations.
This function returns a string, or NULL on error. The caller must free the returned string after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.9.1)
char **
guestfs_command_lines (guestfs_h *g,
char *const *arguments);
This is the same as guestfs_command
, but splits the result into a list of lines.
See also: guestfs_sh_lines
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.9.1)
int
guestfs_compress_device_out (guestfs_h *g,
const char *ctype,
const char *device,
const char *zdevice,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_COMPRESS_DEVICE_OUT_LEVEL, int level,
This command compresses device
and writes it out to the local file zdevice
.
The ctype
and optional level
parameters have the same meaning as in guestfs_compress_out
.
This function returns 0 on success or -1 on error.
(Added in 1.13.15)
int
guestfs_compress_device_out_va (guestfs_h *g,
const char *ctype,
const char *device,
const char *zdevice,
va_list args);
This is the "va_list variant" of "guestfs_compress_device_out".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_compress_device_out_argv (guestfs_h *g,
const char *ctype,
const char *device,
const char *zdevice,
const struct guestfs_compress_device_out_argv *optargs);
This is the "argv variant" of "guestfs_compress_device_out".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_compress_out (guestfs_h *g,
const char *ctype,
const char *file,
const char *zfile,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_COMPRESS_OUT_LEVEL, int level,
This command compresses file and writes it out to the local file zfile.
The compression program used is controlled by the ctype
parameter. Currently this includes: compress
, gzip
, bzip2
, xz
or lzop
. Some compression types may not be supported by particular builds of libguestfs, in which case you will get an error containing the substring "not supported".
The optional level
parameter controls compression level. The meaning and default for this parameter depends on the compression program being used.
This function returns 0 on success or -1 on error.
(Added in 1.13.15)
int
guestfs_compress_out_va (guestfs_h *g,
const char *ctype,
const char *file,
const char *zfile,
va_list args);
This is the "va_list variant" of "guestfs_compress_out".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_compress_out_argv (guestfs_h *g,
const char *ctype,
const char *file,
const char *zfile,
const struct guestfs_compress_out_argv *optargs);
This is the "argv variant" of "guestfs_compress_out".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_config (guestfs_h *g,
const char *hvparam,
const char *hvvalue);
This can be used to add arbitrary hypervisor parameters of the form -param value. Actually it’s not quite arbitrary - we prevent you from setting some parameters which would interfere with parameters that we use.
The first character of hvparam
string must be a -
(dash).
hvvalue
can be NULL.
This function returns 0 on success or -1 on error.
(Added in 0.3)
int
guestfs_copy_attributes (guestfs_h *g,
const char *src,
const char *dest,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_COPY_ATTRIBUTES_ALL, int all,
GUESTFS_COPY_ATTRIBUTES_MODE, int mode,
GUESTFS_COPY_ATTRIBUTES_XATTRIBUTES, int xattributes,
GUESTFS_COPY_ATTRIBUTES_OWNERSHIP, int ownership,
Copy the attributes of a path (which can be a file or a directory) to another path.
By default no attribute is copied, so make sure to specify any (or all
to copy everything).
The optional arguments specify which attributes can be copied:
mode
Copy part of the file mode from source
to destination
. Only the UNIX permissions and the sticky/setuid/setgid bits can be copied.
xattributes
Copy the Linux extended attributes (xattrs) from source
to destination
. This flag does nothing if the linuxxattrs feature is not available (see guestfs_feature_available
).
ownership
Copy the owner uid and the group gid of source
to destination
.
all
Copy all the attributes from source
to destination
. Enabling it enables all the other flags, if they are not specified already.
This function returns 0 on success or -1 on error.
(Added in 1.25.21)
int
guestfs_copy_attributes_va (guestfs_h *g,
const char *src,
const char *dest,
va_list args);
This is the "va_list variant" of "guestfs_copy_attributes".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_copy_attributes_argv (guestfs_h *g,
const char *src,
const char *dest,
const struct guestfs_copy_attributes_argv *optargs);
This is the "argv variant" of "guestfs_copy_attributes".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_copy_device_to_device (guestfs_h *g,
const char *src,
const char *dest,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_COPY_DEVICE_TO_DEVICE_SRCOFFSET, int64_t srcoffset,
GUESTFS_COPY_DEVICE_TO_DEVICE_DESTOFFSET, int64_t destoffset,
GUESTFS_COPY_DEVICE_TO_DEVICE_SIZE, int64_t size,
GUESTFS_COPY_DEVICE_TO_DEVICE_SPARSE, int sparse,
GUESTFS_COPY_DEVICE_TO_DEVICE_APPEND, int append,
The four calls guestfs_copy_device_to_device
, guestfs_copy_device_to_file
, guestfs_copy_file_to_device
, and guestfs_copy_file_to_file
let you copy from a source (device|file) to a destination (device|file).
Partial copies can be made since you can specify optionally the source offset, destination offset and size to copy. These values are all specified in bytes. If not given, the offsets both default to zero, and the size defaults to copying as much as possible until we hit the end of the source.
The source and destination may be the same object. However overlapping regions may not be copied correctly.
If the destination is a file, it is created if required. If the destination file is not large enough, it is extended.
If the destination is a file and the append
flag is not set, then the destination file is truncated. If the append
flag is set, then the copy appends to the destination file. The append
flag currently cannot be set for devices.
If the sparse
flag is true then the call avoids writing blocks that contain only zeroes, which can help in some situations where the backing disk is thin-provisioned. Note that unless the target is already zeroed, using this option will result in incorrect copying.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.13.25)
int
guestfs_copy_device_to_device_va (guestfs_h *g,
const char *src,
const char *dest,
va_list args);
This is the "va_list variant" of "guestfs_copy_device_to_device".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_copy_device_to_device_argv (guestfs_h *g,
const char *src,
const char *dest,
const struct guestfs_copy_device_to_device_argv *optargs);
This is the "argv variant" of "guestfs_copy_device_to_device".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_copy_device_to_file (guestfs_h *g,
const char *src,
const char *dest,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_COPY_DEVICE_TO_FILE_SRCOFFSET, int64_t srcoffset,
GUESTFS_COPY_DEVICE_TO_FILE_DESTOFFSET, int64_t destoffset,
GUESTFS_COPY_DEVICE_TO_FILE_SIZE, int64_t size,
GUESTFS_COPY_DEVICE_TO_FILE_SPARSE, int sparse,
GUESTFS_COPY_DEVICE_TO_FILE_APPEND, int append,
See guestfs_copy_device_to_device
for a general overview of this call.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.13.25)
int
guestfs_copy_device_to_file_va (guestfs_h *g,
const char *src,
const char *dest,
va_list args);
This is the "va_list variant" of "guestfs_copy_device_to_file".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_copy_device_to_file_argv (guestfs_h *g,
const char *src,
const char *dest,
const struct guestfs_copy_device_to_file_argv *optargs);
This is the "argv variant" of "guestfs_copy_device_to_file".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_copy_file_to_device (guestfs_h *g,
const char *src,
const char *dest,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_COPY_FILE_TO_DEVICE_SRCOFFSET, int64_t srcoffset,
GUESTFS_COPY_FILE_TO_DEVICE_DESTOFFSET, int64_t destoffset,
GUESTFS_COPY_FILE_TO_DEVICE_SIZE, int64_t size,
GUESTFS_COPY_FILE_TO_DEVICE_SPARSE, int sparse,
GUESTFS_COPY_FILE_TO_DEVICE_APPEND, int append,
See guestfs_copy_device_to_device
for a general overview of this call.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.13.25)
int
guestfs_copy_file_to_device_va (guestfs_h *g,
const char *src,
const char *dest,
va_list args);
This is the "va_list variant" of "guestfs_copy_file_to_device".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_copy_file_to_device_argv (guestfs_h *g,
const char *src,
const char *dest,
const struct guestfs_copy_file_to_device_argv *optargs);
This is the "argv variant" of "guestfs_copy_file_to_device".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_copy_file_to_file (guestfs_h *g,
const char *src,
const char *dest,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_COPY_FILE_TO_FILE_SRCOFFSET, int64_t srcoffset,
GUESTFS_COPY_FILE_TO_FILE_DESTOFFSET, int64_t destoffset,
GUESTFS_COPY_FILE_TO_FILE_SIZE, int64_t size,
GUESTFS_COPY_FILE_TO_FILE_SPARSE, int sparse,
GUESTFS_COPY_FILE_TO_FILE_APPEND, int append,
See guestfs_copy_device_to_device
for a general overview of this call.
This is not the function you want for copying files. This is for copying blocks within existing files. See guestfs_cp
, guestfs_cp_a
and guestfs_mv
for general file copying and moving functions.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.13.25)
int
guestfs_copy_file_to_file_va (guestfs_h *g,
const char *src,
const char *dest,
va_list args);
This is the "va_list variant" of "guestfs_copy_file_to_file".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_copy_file_to_file_argv (guestfs_h *g,
const char *src,
const char *dest,
const struct guestfs_copy_file_to_file_argv *optargs);
This is the "argv variant" of "guestfs_copy_file_to_file".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_copy_in (guestfs_h *g,
const char *localpath,
const char *remotedir);
guestfs_copy_in
copies local files or directories recursively into the disk image, placing them in the directory called remotedir
(which must exist).
Wildcards cannot be used.
This function returns 0 on success or -1 on error.
(Added in 1.29.24)
int
guestfs_copy_out (guestfs_h *g,
const char *remotepath,
const char *localdir);
guestfs_copy_out
copies remote files or directories recursively out of the disk image, placing them on the host disk in a local directory called localdir
(which must exist).
To download to the current directory, use .
as in:
C<guestfs_copy_out> /home .
Wildcards cannot be used.
This function returns 0 on success or -1 on error.
(Added in 1.29.24)
int
guestfs_copy_size (guestfs_h *g,
const char *src,
const char *dest,
int64_t size);
This function is deprecated. In new code, use the "guestfs_copy_device_to_device" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This command copies exactly size
bytes from one source device or file src
to another destination device or file dest
.
Note this will fail if the source is too short or if the destination is not large enough.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.0.87)
int
guestfs_cp (guestfs_h *g,
const char *src,
const char *dest);
This copies a file from src
to dest
where dest
is either a destination filename or destination directory.
This function returns 0 on success or -1 on error.
(Added in 1.0.18)
int
guestfs_cp_a (guestfs_h *g,
const char *src,
const char *dest);
This copies a file or directory from src
to dest
recursively using the cp -a
command.
This function returns 0 on success or -1 on error.
(Added in 1.0.18)
int
guestfs_cp_r (guestfs_h *g,
const char *src,
const char *dest);
This copies a file or directory from src
to dest
recursively using the cp -rP
command.
Most users should use guestfs_cp_a
instead. This command is useful when you don't want to preserve permissions, because the target filesystem does not support it (primarily when writing to DOS FAT filesystems).
This function returns 0 on success or -1 on error.
(Added in 1.21.38)
int
guestfs_cpio_out (guestfs_h *g,
const char *directory,
const char *cpiofile,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_CPIO_OUT_FORMAT, const char *format,
This command packs the contents of directory and downloads it to local file cpiofile
.
The optional format
parameter can be used to select the format. Only the following formats are currently permitted:
newc
New (SVR4) portable format. This format happens to be compatible with the cpio-like format used by the Linux kernel for initramfs.
This is the default format.
crc
New (SVR4) portable format with a checksum.
This function returns 0 on success or -1 on error.
(Added in 1.27.9)
int
guestfs_cpio_out_va (guestfs_h *g,
const char *directory,
const char *cpiofile,
va_list args);
This is the "va_list variant" of "guestfs_cpio_out".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_cpio_out_argv (guestfs_h *g,
const char *directory,
const char *cpiofile,
const struct guestfs_cpio_out_argv *optargs);
This is the "argv variant" of "guestfs_cpio_out".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_cryptsetup_close (guestfs_h *g,
const char *device);
This closes an encrypted device that was created earlier by guestfs_cryptsetup_open
. The device
parameter must be the name of the mapping device (ie. /dev/mapper/mapname) and not the name of the underlying block device.
This function returns 0 on success or -1 on error.
This function depends on the feature luks
. See also "guestfs_feature_available".
(Added in 1.43.2)
int
guestfs_cryptsetup_open (guestfs_h *g,
const char *device,
const char *key,
const char *mapname,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_CRYPTSETUP_OPEN_READONLY, int readonly,
GUESTFS_CRYPTSETUP_OPEN_CRYPTTYPE, const char *crypttype,
GUESTFS_CRYPTSETUP_OPEN_CIPHER, const char *cipher,
This command opens a block device which has been encrypted according to the Linux Unified Key Setup (LUKS) standard, Windows BitLocker, or some other types.
device
is the encrypted block device or partition.
The caller must supply one of the keys associated with the encrypted block device, in the key
parameter.
This creates a new block device called /dev/mapper/mapname. Reads and writes to this block device are decrypted from and encrypted to the underlying device
respectively.
mapname
cannot be "control"
because that name is reserved by device-mapper.
If the optional crypttype
parameter is not present then libguestfs tries to guess the correct type (for example LUKS or BitLocker). However you can override this by specifying one of the following types:
luks
A Linux LUKS device.
bitlk
A Windows BitLocker device.
The optional readonly
flag, if set to true, creates a read-only mapping.
The optional cipher
parameter allows specifying which cipher to use.
If this block device contains LVM volume groups, then calling guestfs_lvm_scan
with the activate
parameter true
will make them visible.
Use guestfs_list_dm_devices
to list all device mapper devices.
This function returns 0 on success or -1 on error.
This function takes a key or passphrase parameter which could contain sensitive material. Read the section "KEYS AND PASSPHRASES" for more information.
This function depends on the feature luks
. See also "guestfs_feature_available".
(Added in 1.43.2)
int
guestfs_cryptsetup_open_va (guestfs_h *g,
const char *device,
const char *key,
const char *mapname,
va_list args);
This is the "va_list variant" of "guestfs_cryptsetup_open".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_cryptsetup_open_argv (guestfs_h *g,
const char *device,
const char *key,
const char *mapname,
const struct guestfs_cryptsetup_open_argv *optargs);
This is the "argv variant" of "guestfs_cryptsetup_open".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_dd (guestfs_h *g,
const char *src,
const char *dest);
This function is deprecated. In new code, use the "guestfs_copy_device_to_device" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This command copies from one source device or file src
to another destination device or file dest
. Normally you would use this to copy to or from a device or partition, for example to duplicate a filesystem.
If the destination is a device, it must be as large or larger than the source file or device, otherwise the copy will fail. This command cannot do partial copies (see guestfs_copy_device_to_device
).
This function returns 0 on success or -1 on error.
(Added in 1.0.80)
int
guestfs_device_index (guestfs_h *g,
const char *device);
This function takes a device name (eg. "/dev/sdb") and returns the index of the device in the list of devices.
Index numbers start from 0. The named device must exist, for example as a string returned from guestfs_list_devices
.
See also guestfs_list_devices
, guestfs_part_to_dev
, guestfs_device_name
.
On error this function returns -1.
(Added in 1.19.7)
char *
guestfs_device_name (guestfs_h *g,
int index);
This function takes a device index and returns the device name. For example index 0
will return the string /dev/sda
.
The drive index must have been added to the handle.
See also guestfs_list_devices
, guestfs_part_to_dev
, guestfs_device_index
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.49.1)
char *
guestfs_df (guestfs_h *g);
This command runs the df(1) command to report disk space used.
This command is mostly useful for interactive sessions. It is not intended that you try to parse the output string. Use guestfs_statvfs
from programs.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.54)
char *
guestfs_df_h (guestfs_h *g);
This command runs the df -h
command to report disk space used in human-readable format.
This command is mostly useful for interactive sessions. It is not intended that you try to parse the output string. Use guestfs_statvfs
from programs.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.54)
int
guestfs_disk_create (guestfs_h *g,
const char *filename,
const char *format,
int64_t size,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_DISK_CREATE_BACKINGFILE, const char *backingfile,
GUESTFS_DISK_CREATE_BACKINGFORMAT, const char *backingformat,
GUESTFS_DISK_CREATE_PREALLOCATION, const char *preallocation,
GUESTFS_DISK_CREATE_COMPAT, const char *compat,
GUESTFS_DISK_CREATE_CLUSTERSIZE, int clustersize,
Create a blank disk image called filename (a host file) with format format
(usually raw
or qcow2
). The size is size
bytes.
If used with the optional backingfile
parameter, then a snapshot is created on top of the backing file. In this case, size
must be passed as -1
. The size of the snapshot is the same as the size of the backing file, which is discovered automatically. You are encouraged to also pass backingformat
to describe the format of backingfile
.
If filename refers to a block device, then the device is formatted. The size
is ignored since block devices have an intrinsic size.
The other optional parameters are:
preallocation
If format is raw
, then this can be either off
(or sparse
) or full
to create a sparse or fully allocated file respectively. The default is off
.
If format is qcow2
, then this can be off
(or sparse
), metadata
or full
. Preallocating metadata can be faster when doing lots of writes, but uses more space. The default is off
.
compat
qcow2
only: Pass the string 1.1
to use the advanced qcow2 format supported by qemu ≥ 1.1.
clustersize
qcow2
only: Change the qcow2 cluster size. The default is 65536 (bytes) and this setting may be any power of two between 512 and 2097152.
Note that this call does not add the new disk to the handle. You may need to call guestfs_add_drive_opts
separately.
This function returns 0 on success or -1 on error.
(Added in 1.25.31)
int
guestfs_disk_create_va (guestfs_h *g,
const char *filename,
const char *format,
int64_t size,
va_list args);
This is the "va_list variant" of "guestfs_disk_create".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_disk_create_argv (guestfs_h *g,
const char *filename,
const char *format,
int64_t size,
const struct guestfs_disk_create_argv *optargs);
This is the "argv variant" of "guestfs_disk_create".
See "CALLS WITH OPTIONAL ARGUMENTS".
char *
guestfs_disk_format (guestfs_h *g,
const char *filename);
Detect and return the format of the disk image called filename. filename can also be a host device, etc. If the format of the image could not be detected, then "unknown"
is returned.
Note that detecting the disk format can be insecure under some circumstances. See "CVE-2010-3851".
See also: "DISK IMAGE FORMATS"
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.19.38)
int
guestfs_disk_has_backing_file (guestfs_h *g,
const char *filename);
Detect and return whether the disk image filename has a backing file.
Note that detecting disk features can be insecure under some circumstances. See "CVE-2010-3851".
This function returns a C truth value on success or -1 on error.
(Added in 1.19.39)
int64_t
guestfs_disk_virtual_size (guestfs_h *g,
const char *filename);
Detect and return the virtual size in bytes of the disk image called filename.
Note that detecting disk features can be insecure under some circumstances. See "CVE-2010-3851".
On error this function returns -1.
(Added in 1.19.39)
char *
guestfs_dmesg (guestfs_h *g);
This returns the kernel messages (dmesg(1) output) from the guest kernel. This is sometimes useful for extended debugging of problems.
Another way to get the same information is to enable verbose messages with guestfs_set_verbose
or by setting the environment variable LIBGUESTFS_DEBUG=1
before running the program.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.18)
int
guestfs_download (guestfs_h *g,
const char *remotefilename,
const char *filename);
Download file remotefilename and save it as filename on the local machine.
filename can also be a named pipe.
See also guestfs_upload
, guestfs_cat
.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.0.2)
int
guestfs_download_blocks (guestfs_h *g,
const char *device,
int64_t start,
int64_t stop,
const char *filename,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_DOWNLOAD_BLOCKS_UNALLOCATED, int unallocated,
Download the data units from start address to stop from the disk partition (eg. /dev/sda1) and save them as filename on the local machine.
The use of this API on sparse disk image formats such as QCOW, may result in large zero-filled files downloaded on the host.
The size of a data unit varies across filesystem implementations. On NTFS filesystems data units are referred as clusters while on ExtX ones they are referred as fragments.
If the optional unallocated
flag is true (default is false), only the unallocated blocks will be extracted. This is useful to detect hidden data or to retrieve deleted files which data units have not been overwritten yet.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
This function depends on the feature sleuthkit
. See also "guestfs_feature_available".
(Added in 1.33.45)
int
guestfs_download_blocks_va (guestfs_h *g,
const char *device,
int64_t start,
int64_t stop,
const char *filename,
va_list args);
This is the "va_list variant" of "guestfs_download_blocks".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_download_blocks_argv (guestfs_h *g,
const char *device,
int64_t start,
int64_t stop,
const char *filename,
const struct guestfs_download_blocks_argv *optargs);
This is the "argv variant" of "guestfs_download_blocks".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_download_inode (guestfs_h *g,
const char *device,
int64_t inode,
const char *filename);
Download a file given its inode from the disk partition (eg. /dev/sda1) and save it as filename on the local machine.
It is not required to mount the disk to run this command.
The command is capable of downloading deleted or inaccessible files.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
This function depends on the feature sleuthkit
. See also "guestfs_feature_available".
(Added in 1.33.14)
int
guestfs_download_offset (guestfs_h *g,
const char *remotefilename,
const char *filename,
int64_t offset,
int64_t size);
Download file remotefilename and save it as filename on the local machine.
remotefilename is read for size
bytes starting at offset
(this region must be within the file or device).
Note that there is no limit on the amount of data that can be downloaded with this call, unlike with guestfs_pread
, and this call always reads the full amount unless an error occurs.
See also guestfs_download
, guestfs_pread
.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.5.17)
int
guestfs_drop_caches (guestfs_h *g,
int whattodrop);
This instructs the guest kernel to drop its page cache, and/or dentries and inode caches. The parameter whattodrop
tells the kernel what precisely to drop, see https://linux-mm.org/Drop_Caches
Setting whattodrop
to 3 should drop everything.
This automatically calls sync(2) before the operation, so that the maximum guest memory is freed.
This function returns 0 on success or -1 on error.
(Added in 1.0.18)
int64_t
guestfs_du (guestfs_h *g,
const char *path);
This command runs the du -s
command to estimate file space usage for path
.
path
can be a file or a directory. If path
is a directory then the estimate includes the contents of the directory and all subdirectories (recursively).
The result is the estimated size in kilobytes (ie. units of 1024 bytes).
On error this function returns -1.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.0.54)
int
guestfs_e2fsck (guestfs_h *g,
const char *device,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_E2FSCK_CORRECT, int correct,
GUESTFS_E2FSCK_FORCEALL, int forceall,
This runs the ext2/ext3 filesystem checker on device
. It can take the following optional arguments:
correct
Automatically repair the file system. This option will cause e2fsck to automatically fix any filesystem problems that can be safely fixed without human intervention.
This option may not be specified at the same time as the forceall
option.
forceall
Assume an answer of ‘yes’ to all questions; allows e2fsck to be used non-interactively.
This option may not be specified at the same time as the correct
option.
This function returns 0 on success or -1 on error.
(Added in 1.15.17)
int
guestfs_e2fsck_va (guestfs_h *g,
const char *device,
va_list args);
This is the "va_list variant" of "guestfs_e2fsck".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_e2fsck_argv (guestfs_h *g,
const char *device,
const struct guestfs_e2fsck_argv *optargs);
This is the "argv variant" of "guestfs_e2fsck".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_e2fsck_f (guestfs_h *g,
const char *device);
This function is deprecated. In new code, use the "guestfs_e2fsck" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This runs e2fsck -p -f device
, ie. runs the ext2/ext3 filesystem checker on device
, noninteractively (-p), even if the filesystem appears to be clean (-f).
This function returns 0 on success or -1 on error.
(Added in 1.0.29)
char *
guestfs_echo_daemon (guestfs_h *g,
char *const *words);
This command concatenates the list of words
passed with single spaces between them and returns the resulting string.
You can use this command to test the connection through to the daemon.
See also guestfs_ping_daemon
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.69)
char **
guestfs_egrep (guestfs_h *g,
const char *regex,
const char *path);
This function is deprecated. In new code, use the "guestfs_grep" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This calls the external egrep(1) program and returns the matching lines.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.66)
char **
guestfs_egrepi (guestfs_h *g,
const char *regex,
const char *path);
This function is deprecated. In new code, use the "guestfs_grep" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This calls the external egrep -i
program and returns the matching lines.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.66)
int
guestfs_equal (guestfs_h *g,
const char *file1,
const char *file2);
This compares the two files file1 and file2 and returns true if their content is exactly equal, or false otherwise.
The external cmp(1) program is used for the comparison.
This function returns a C truth value on success or -1 on error.
(Added in 1.0.18)
int
guestfs_exists (guestfs_h *g,
const char *path);
This returns true
if and only if there is a file, directory (or anything) with the given path
name.
See also guestfs_is_file
, guestfs_is_dir
, guestfs_stat
.
This function returns a C truth value on success or -1 on error.
(Added in 0.8)
int
guestfs_extlinux (guestfs_h *g,
const char *directory);
Install the SYSLINUX bootloader on the device mounted at directory. Unlike guestfs_syslinux
which requires a FAT filesystem, this can be used on an ext2/3/4 or btrfs filesystem.
The directory parameter can be either a mountpoint, or a directory within the mountpoint.
You also have to mark the partition as "active" (guestfs_part_set_bootable
) and a Master Boot Record must be installed (eg. using guestfs_pwrite_device
) on the first sector of the whole disk. The SYSLINUX package comes with some suitable Master Boot Records. See the extlinux(1) man page for further information.
Additional configuration can be supplied to SYSLINUX by placing a file called extlinux.conf on the filesystem under directory. For further information about the contents of this file, see extlinux(1).
See also guestfs_syslinux
.
This function returns 0 on success or -1 on error.
This function depends on the feature extlinux
. See also "guestfs_feature_available".
(Added in 1.21.27)
int
guestfs_f2fs_expand (guestfs_h *g,
const char *device);
This expands a f2fs filesystem to match the size of the underlying device.
This function returns 0 on success or -1 on error.
This function depends on the feature f2fs
. See also "guestfs_feature_available".
(Added in 1.39.3)
int
guestfs_fallocate (guestfs_h *g,
const char *path,
int len);
This function is deprecated. In new code, use the "guestfs_fallocate64" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This command preallocates a file (containing zero bytes) named path
of size len
bytes. If the file exists already, it is overwritten.
Do not confuse this with the guestfish-specific alloc
command which allocates a file in the host and attaches it as a device.
This function returns 0 on success or -1 on error.
(Added in 1.0.66)
int
guestfs_fallocate64 (guestfs_h *g,
const char *path,
int64_t len);
This command preallocates a file (containing zero bytes) named path
of size len
bytes. If the file exists already, it is overwritten.
Note that this call allocates disk blocks for the file. To create a sparse file use guestfs_truncate_size
instead.
The deprecated call guestfs_fallocate
does the same, but owing to an oversight it only allowed 30 bit lengths to be specified, effectively limiting the maximum size of files created through that call to 1GB.
Do not confuse this with the guestfish-specific alloc
and sparse
commands which create a file in the host and attach it as a device.
This function returns 0 on success or -1 on error.
(Added in 1.3.17)
int
guestfs_feature_available (guestfs_h *g,
char *const *groups);
This is the same as guestfs_available
, but unlike that call it returns a simple true/false boolean result, instead of throwing an exception if a feature is not found. For other documentation see guestfs_available
.
This function returns a C truth value on success or -1 on error.
(Added in 1.21.26)
char **
guestfs_fgrep (guestfs_h *g,
const char *pattern,
const char *path);
This function is deprecated. In new code, use the "guestfs_grep" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This calls the external fgrep(1) program and returns the matching lines.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.66)
char **
guestfs_fgrepi (guestfs_h *g,
const char *pattern,
const char *path);
This function is deprecated. In new code, use the "guestfs_grep" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This calls the external fgrep -i
program and returns the matching lines.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.66)
char *
guestfs_file (guestfs_h *g,
const char *path);
This call uses the standard file(1) command to determine the type or contents of the file.
This call will also transparently look inside various types of compressed file.
The filename is not prepended to the output (like the file command -b option).
The output depends on the output of the underlying file(1) command and it can change in future in ways beyond our control. In other words, the output is not guaranteed by the ABI.
See also: file(1), guestfs_vfs_type
, guestfs_lstat
, guestfs_is_file
, guestfs_is_blockdev
(etc), guestfs_is_zero
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.9.1)
char *
guestfs_file_architecture (guestfs_h *g,
const char *filename);
This detects the architecture of the binary filename, and returns it if known.
Currently defined architectures are:
64 bit ARM.
32 bit ARM.
This string is returned for all 32 bit i386, i486, i586, i686 binaries irrespective of the precise processor requirements of the binary.
Intel Itanium.
32 bit Power PC.
64 bit Power PC (big endian).
64 bit Power PC (little endian).
64 bit LoongArch64 (little endian).
RISC-V 32-, 64- or 128-bit variants.
31 bit IBM S/390.
64 bit IBM S/390.
32 bit SPARC.
64 bit SPARC V9 and above.
64 bit x86-64.
Libguestfs may return other architecture strings in future.
The function works on at least the following types of files:
many types of Un*x and Linux binary
many types of Un*x and Linux shared library
Windows Win32 and Win64 binaries
Windows Win32 and Win64 DLLs
Win32 binaries and DLLs return i386
.
Win64 binaries and DLLs return x86_64
.
Linux kernel modules
Linux new-style initrd images
some non-x86 Linux vmlinuz kernels
What it can't do currently:
static libraries (libfoo.a)
Linux old-style initrd as compressed ext2 filesystem (RHEL 3)
x86 Linux vmlinuz kernels
x86 vmlinuz images (bzImage format) consist of a mix of 16-, 32- and compressed code, and are horribly hard to unpack. If you want to find the architecture of a kernel, use the architecture of the associated initrd or kernel module(s) instead.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.5.3)
int64_t
guestfs_filesize (guestfs_h *g,
const char *file);
This command returns the size of file in bytes.
To get other stats about a file, use guestfs_stat
, guestfs_lstat
, guestfs_is_dir
, guestfs_is_file
etc. To get the size of block devices, use guestfs_blockdev_getsize64
.
On error this function returns -1.
(Added in 1.0.82)
int
guestfs_filesystem_available (guestfs_h *g,
const char *filesystem);
Check whether libguestfs supports the named filesystem. The argument filesystem
is a filesystem name, such as ext3
.
You must call guestfs_launch
before using this command.
This is mainly useful as a negative test. If this returns true, it doesn't mean that a particular filesystem can be created or mounted, since filesystems can fail for other reasons such as it being a later version of the filesystem, or having incompatible features, or lacking the right mkfs.<fs> tool.
See also guestfs_available
, guestfs_feature_available
, "AVAILABILITY".
This function returns a C truth value on success or -1 on error.
(Added in 1.19.5)
struct guestfs_tsk_dirent_list *
guestfs_filesystem_walk (guestfs_h *g,
const char *device);
Walk through the internal structures of a disk partition (eg. /dev/sda1) in order to return a list of all the files and directories stored within.
It is not necessary to mount the disk partition to run this command.
All entries in the filesystem are returned. This function can list deleted or unaccessible files. The entries are not sorted.
The tsk_dirent
structure contains the following fields.
tsk_inode
Filesystem reference number of the node. It might be 0
if the node has been deleted.
tsk_type
Basic file type information. See below for a detailed list of values.
tsk_size
File size in bytes. It might be -1
if the node has been deleted.
tsk_name
The file path relative to its directory.
tsk_flags
Bitfield containing extra information regarding the entry. It contains the logical OR of the following values:
If set to 1
, the file is allocated and visible within the filesystem. Otherwise, the file has been deleted. Under certain circumstances, the function download_inode
can be used to recover deleted files.
Filesystem such as NTFS and Ext2 or greater, separate the file name from the metadata structure. The bit is set to 1
when the file name is in an unallocated state and the metadata structure is in an allocated one. This generally implies the metadata has been reallocated to a new file. Therefore, information such as file type, file size, timestamps, number of links and symlink target might not correspond with the ones of the original deleted entry.
The bit is set to 1
when the file is compressed using filesystem native compression support (NTFS). The API is not able to detect application level compression.
tsk_atime_sec
tsk_atime_nsec
tsk_mtime_sec
tsk_mtime_nsec
tsk_ctime_sec
tsk_ctime_nsec
tsk_crtime_sec
tsk_crtime_nsec
Respectively, access, modification, last status change and creation time in Unix format in seconds and nanoseconds.
tsk_nlink
Number of file names pointing to this entry.
tsk_link
If the entry is a symbolic link, this field will contain the path to the target file.
The tsk_type
field will contain one of the following characters:
Block special
Char special
Directory
FIFO (named pipe)
Symbolic link
Regular file
Socket
Shadow inode (Solaris)
Whiteout inode (BSD)
Unknown file type
This function returns a struct guestfs_tsk_dirent_list *
, or NULL if there was an error. The caller must call guestfs_free_tsk_dirent_list
after use.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
This function depends on the feature libtsk
. See also "guestfs_feature_available".
(Added in 1.33.39)
int
guestfs_fill (guestfs_h *g,
int c,
int len,
const char *path);
This command creates a new file called path
. The initial content of the file is len
octets of c
, where c
must be a number in the range [0..255]
.
To fill a file with zero bytes (sparsely), it is much more efficient to use guestfs_truncate_size
. To create a file with a pattern of repeating bytes use guestfs_fill_pattern
.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.0.79)
int
guestfs_fill_dir (guestfs_h *g,
const char *dir,
int nr);
This function, useful for testing filesystems, creates nr
empty files in the directory dir
with names 00000000
through nr-1
(ie. each file name is 8 digits long padded with zeroes).
This function returns 0 on success or -1 on error.
(Added in 1.19.32)
int
guestfs_fill_pattern (guestfs_h *g,
const char *pattern,
int len,
const char *path);
This function is like guestfs_fill
except that it creates a new file of length len
containing the repeating pattern of bytes in pattern
. The pattern is truncated if necessary to ensure the length of the file is exactly len
bytes.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.3.12)
char **
guestfs_find (guestfs_h *g,
const char *directory);
This command lists out all files and directories, recursively, starting at directory. It is essentially equivalent to running the shell command find directory -print
but some post-processing happens on the output, described below.
This returns a list of strings without any prefix. Thus if the directory structure was:
/tmp/a
/tmp/b
/tmp/c/d
then the returned list from guestfs_find
/tmp would be 4 elements:
a
b
c
c/d
If directory is not a directory, then this command returns an error.
The returned list is sorted.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.0.27)
int
guestfs_find0 (guestfs_h *g,
const char *directory,
const char *files);
This command lists out all files and directories, recursively, starting at directory, placing the resulting list in the external file called files.
This command works the same way as guestfs_find
with the following exceptions:
The resulting list is written to an external file.
Items (filenames) in the result are separated by \0
characters. See find(1) option -print0.
The result list is not sorted.
This function returns 0 on success or -1 on error.
(Added in 1.0.74)
struct guestfs_tsk_dirent_list *
guestfs_find_inode (guestfs_h *g,
const char *device,
int64_t inode);
Searches all the entries associated with the given inode.
For each entry, a tsk_dirent
structure is returned. See filesystem_walk
for more information about tsk_dirent
structures.
This function returns a struct guestfs_tsk_dirent_list *
, or NULL if there was an error. The caller must call guestfs_free_tsk_dirent_list
after use.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
This function depends on the feature libtsk
. See also "guestfs_feature_available".
(Added in 1.35.6)
char *
guestfs_findfs_label (guestfs_h *g,
const char *label);
This command searches the filesystems and returns the one which has the given label. An error is returned if no such filesystem can be found.
To find the label of a filesystem, use guestfs_vfs_label
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.5.3)
char *
guestfs_findfs_partlabel (guestfs_h *g,
const char *label);
This command searches the partitions and returns the one which has the given label. An error is returned if no such partition can be found.
To find the label of a partition, use guestfs_blkid
(PART_ENTRY_NAME
).
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.53.5)
char *
guestfs_findfs_partuuid (guestfs_h *g,
const char *uuid);
This command searches the partitions and returns the one which has the given partition UUID. An error is returned if no such partition can be found.
To find the UUID of a partition, use guestfs_blkid
(PART_ENTRY_UUID
).
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.53.5)
char *
guestfs_findfs_uuid (guestfs_h *g,
const char *uuid);
This command searches the filesystems and returns the one which has the given UUID. An error is returned if no such filesystem can be found.
To find the UUID of a filesystem, use guestfs_vfs_uuid
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.5.3)
int
guestfs_fsck (guestfs_h *g,
const char *fstype,
const char *device);
This runs the filesystem checker (fsck) on device
which should have filesystem type fstype
.
The returned integer is the status. See fsck(8) for the list of status codes from fsck
.
Notes:
Multiple status codes can be summed together.
A non-zero return code can mean "success", for example if errors have been corrected on the filesystem.
Checking or repairing NTFS volumes is not supported (by linux-ntfs).
This command is entirely equivalent to running fsck -a -t fstype device
.
On error this function returns -1.
(Added in 1.0.16)
int
guestfs_fstrim (guestfs_h *g,
const char *mountpoint,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_FSTRIM_OFFSET, int64_t offset,
GUESTFS_FSTRIM_LENGTH, int64_t length,
GUESTFS_FSTRIM_MINIMUMFREEEXTENT, int64_t minimumfreeextent,
Trim the free space in the filesystem mounted on mountpoint
. The filesystem must be mounted read-write.
The filesystem contents are not affected, but any free space in the filesystem is "trimmed", that is, given back to the host device, thus making disk images more sparse, allowing unused space in qcow2 files to be reused, etc.
This operation requires support in libguestfs, the mounted filesystem, the host filesystem, qemu and the host kernel. If this support isn't present it may give an error or even appear to run but do nothing.
In the case where the kernel vfs driver does not support trimming, this call will fail with errno set to ENOTSUP
. Currently this happens when trying to trim FAT filesystems.
See also guestfs_zero_free_space
. That is a slightly different operation that turns free space in the filesystem into zeroes. It is valid to call guestfs_fstrim
either instead of, or after calling guestfs_zero_free_space
.
This function returns 0 on success or -1 on error.
This function depends on the feature fstrim
. See also "guestfs_feature_available".
(Added in 1.19.6)
int
guestfs_fstrim_va (guestfs_h *g,
const char *mountpoint,
va_list args);
This is the "va_list variant" of "guestfs_fstrim".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_fstrim_argv (guestfs_h *g,
const char *mountpoint,
const struct guestfs_fstrim_argv *optargs);
This is the "argv variant" of "guestfs_fstrim".
See "CALLS WITH OPTIONAL ARGUMENTS".
const char *
guestfs_get_append (guestfs_h *g);
Return the additional kernel options which are added to the libguestfs appliance kernel command line.
If NULL
then no options are added.
This function returns a string which may be NULL. There is no way to return an error from this function. The string is owned by the guest handle and must not be freed.
(Added in 1.0.26)
char *
guestfs_get_attach_method (guestfs_h *g);
This function is deprecated. In new code, use the "guestfs_get_backend" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
Return the current backend.
See guestfs_set_backend
and "BACKEND".
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.9.8)
int
guestfs_get_autosync (guestfs_h *g);
Get the autosync flag.
This function returns a C truth value on success or -1 on error.
(Added in 0.3)
char *
guestfs_get_backend (guestfs_h *g);
Return the current backend.
This handle property was previously called the "attach method".
See guestfs_set_backend
and "BACKEND".
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.21.26)
char *
guestfs_get_backend_setting (guestfs_h *g,
const char *name);
Find a backend setting string which is either "name"
or begins with "name="
. If "name"
, this returns the string "1"
. If "name="
, this returns the part after the equals sign (which may be an empty string).
If no such setting is found, this function throws an error. The errno (see guestfs_last_errno
) will be ESRCH
in this case.
See "BACKEND", "BACKEND SETTINGS".
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.27.2)
char **
guestfs_get_backend_settings (guestfs_h *g);
Return the current backend settings.
This call returns all backend settings strings. If you want to find a single backend setting, see guestfs_get_backend_setting
.
See "BACKEND", "BACKEND SETTINGS".
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.25.24)
char *
guestfs_get_cachedir (guestfs_h *g);
Get the directory used by the handle to store the appliance cache.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.19.58)
int
guestfs_get_direct (guestfs_h *g);
This function is deprecated. In new code, use the "guestfs_internal_get_console_socket" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
Return the direct appliance mode flag.
This function returns a C truth value on success or -1 on error.
(Added in 1.0.72)
char *
guestfs_get_e2attrs (guestfs_h *g,
const char *file);
This returns the file attributes associated with file.
The attributes are a set of bits associated with each inode which affect the behaviour of the file. The attributes are returned as a string of letters (described below). The string may be empty, indicating that no file attributes are set for this file.
These attributes are only present when the file is located on an ext2/3/4 filesystem. Using this call on other filesystem types will result in an error.
The characters (file attributes) in the returned string are currently:
When the file is accessed, its atime is not modified.
The file is append-only.
The file is compressed on-disk.
(Directories only.) Changes to this directory are written synchronously to disk.
The file is not a candidate for backup (see dump(8)).
The file has compression errors.
The file is using extents.
The file is storing its blocks in units of the filesystem blocksize instead of sectors.
(Directories only.) The directory is using hashed trees.
The file is immutable. It cannot be modified, deleted or renamed. No link can be created to this file.
The file is data-journaled.
When the file is deleted, all its blocks will be zeroed.
Changes to this file are written synchronously to disk.
(Directories only.) This is a hint to the block allocator that subdirectories contained in this directory should be spread across blocks. If not present, the block allocator will try to group subdirectories together.
For a file, this disables tail-merging. (Not used by upstream implementations of ext2.)
When the file is deleted, its blocks will be saved, allowing the file to be undeleted.
The raw contents of the compressed file may be accessed.
The compressed file is dirty.
More file attributes may be added to this list later. Not all file attributes may be set for all kinds of files. For detailed information, consult the chattr(1) man page.
See also guestfs_set_e2attrs
.
Don't confuse these attributes with extended attributes (see guestfs_getxattr
).
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.17.31)
int64_t
guestfs_get_e2generation (guestfs_h *g,
const char *file);
This returns the ext2 file generation of a file. The generation (which used to be called the "version") is a number associated with an inode. This is most commonly used by NFS servers.
The generation is only present when the file is located on an ext2/3/4 filesystem. Using this call on other filesystem types will result in an error.
See guestfs_set_e2generation
.
On error this function returns -1.
(Added in 1.17.31)
char *
guestfs_get_e2label (guestfs_h *g,
const char *device);
This function is deprecated. In new code, use the "guestfs_vfs_label" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This returns the ext2/3/4 filesystem label of the filesystem on device
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.15)
char *
guestfs_get_e2uuid (guestfs_h *g,
const char *device);
This function is deprecated. In new code, use the "guestfs_vfs_uuid" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This returns the ext2/3/4 filesystem UUID of the filesystem on device
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.15)
char *
guestfs_get_hv (guestfs_h *g);
Return the current hypervisor binary.
This is always non-NULL. If it wasn't set already, then this will return the default qemu binary name.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.23.17)
const char *
guestfs_get_identifier (guestfs_h *g);
Get the handle identifier. See guestfs_set_identifier
.
This function returns a string, or NULL on error. The string is owned by the guest handle and must not be freed.
(Added in 1.31.14)
char *
guestfs_get_libvirt_requested_credential_challenge (guestfs_h *g,
int index);
Get the challenge (provided by libvirt) for the index
'th requested credential. If libvirt did not provide a challenge, this returns the empty string ""
.
See "LIBVIRT AUTHENTICATION" for documentation and example code.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.19.52)
char *
guestfs_get_libvirt_requested_credential_defresult (guestfs_h *g,
int index);
Get the default result (provided by libvirt) for the index
'th requested credential. If libvirt did not provide a default result, this returns the empty string ""
.
See "LIBVIRT AUTHENTICATION" for documentation and example code.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.19.52)
char *
guestfs_get_libvirt_requested_credential_prompt (guestfs_h *g,
int index);
Get the prompt (provided by libvirt) for the index
'th requested credential. If libvirt did not provide a prompt, this returns the empty string ""
.
See "LIBVIRT AUTHENTICATION" for documentation and example code.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.19.52)
char **
guestfs_get_libvirt_requested_credentials (guestfs_h *g);
This should only be called during the event callback for events of type GUESTFS_EVENT_LIBVIRT_AUTH
.
Return the list of credentials requested by libvirt. Possible values are a subset of the strings provided when you called guestfs_set_libvirt_supported_credentials
.
See "LIBVIRT AUTHENTICATION" for documentation and example code.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.19.52)
int
guestfs_get_memsize (guestfs_h *g);
This gets the memory size in megabytes allocated to the hypervisor.
If guestfs_set_memsize
was not called on this handle, and if LIBGUESTFS_MEMSIZE
was not set, then this returns the compiled-in default value for memsize.
For more information on the architecture of libguestfs, see guestfs(3).
On error this function returns -1.
(Added in 1.0.55)
int
guestfs_get_network (guestfs_h *g);
This returns the enable network flag.
This function returns a C truth value on success or -1 on error.
(Added in 1.5.4)
const char *
guestfs_get_path (guestfs_h *g);
Return the current search path.
This is always non-NULL. If it wasn't set already, then this will return the default path.
This function returns a string, or NULL on error. The string is owned by the guest handle and must not be freed.
(Added in 0.3)
int
guestfs_get_pgroup (guestfs_h *g);
This returns the process group flag.
This function returns a C truth value on success or -1 on error.
(Added in 1.11.18)
int
guestfs_get_pid (guestfs_h *g);
Return the process ID of the hypervisor. If there is no hypervisor running, then this will return an error.
This is an internal call used for debugging and testing.
On error this function returns -1.
(Added in 1.0.56)
const char *
guestfs_get_program (guestfs_h *g);
Get the program name. See guestfs_set_program
.
This function returns a string, or NULL on error. The string is owned by the guest handle and must not be freed.
(Added in 1.21.29)
const char *
guestfs_get_qemu (guestfs_h *g);
This function is deprecated. In new code, use the "guestfs_get_hv" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
Return the current hypervisor binary (usually qemu).
This is always non-NULL. If it wasn't set already, then this will return the default qemu binary name.
This function returns a string, or NULL on error. The string is owned by the guest handle and must not be freed.
(Added in 1.0.6)
int
guestfs_get_recovery_proc (guestfs_h *g);
Return the recovery process enabled flag.
This function returns a C truth value on success or -1 on error.
(Added in 1.0.77)
int
guestfs_get_selinux (guestfs_h *g);
This function is deprecated. In new code, use the "guestfs_selinux_relabel" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This returns the current setting of the selinux flag which is passed to the appliance at boot time. See guestfs_set_selinux
.
For more information on the architecture of libguestfs, see guestfs(3).
This function returns a C truth value on success or -1 on error.
(Added in 1.0.67)
int
guestfs_get_smp (guestfs_h *g);
This returns the number of virtual CPUs assigned to the appliance.
On error this function returns -1.
(Added in 1.13.15)
char *
guestfs_get_sockdir (guestfs_h *g);
Get the directory used by the handle to store temporary socket and PID files.
This is different from guestfs_get_tmpdir
, as we need shorter paths for sockets (due to the limited buffers of filenames for UNIX sockets), and guestfs_get_tmpdir
may be too long for them. Furthermore, sockets and PID files must be accessible to such background services started by libguestfs that may not have permission to access the temporary directory returned by guestfs_get_tmpdir
.
The environment variable XDG_RUNTIME_DIR
controls the default value: If XDG_RUNTIME_DIR
is set, then that is the default. Else /tmp is the default.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.33.8)
int
guestfs_get_state (guestfs_h *g);
This returns the current state as an opaque integer. This is only useful for printing debug and internal error messages.
For more information on states, see guestfs(3).
On error this function returns -1.
(Added in 1.0.2)
char *
guestfs_get_tmpdir (guestfs_h *g);
Get the directory used by the handle to store temporary files.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.19.58)
int
guestfs_get_trace (guestfs_h *g);
Return the command trace flag.
This function returns a C truth value on success or -1 on error.
(Added in 1.0.69)
int
guestfs_get_umask (guestfs_h *g);
Return the current umask. By default the umask is 022
unless it has been set by calling guestfs_umask
.
On error this function returns -1.
(Added in 1.3.4)
int
guestfs_get_verbose (guestfs_h *g);
This returns the verbose messages flag.
This function returns a C truth value on success or -1 on error.
(Added in 0.3)
char *
guestfs_getcon (guestfs_h *g);
This function is deprecated. In new code, use the "guestfs_selinux_relabel" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This gets the SELinux security context of the daemon.
See the documentation about SELINUX in guestfs(3), and guestfs_setcon
This function returns a string, or NULL on error. The caller must free the returned string after use.
This function depends on the feature selinux
. See also "guestfs_feature_available".
(Added in 1.0.67)
char *
guestfs_getxattr (guestfs_h *g,
const char *path,
const char *name,
size_t *size_r);
Get a single extended attribute from file path
named name
. This call follows symlinks. If you want to lookup an extended attribute for the symlink itself, use guestfs_lgetxattr
.
Normally it is better to get all extended attributes from a file in one go by calling guestfs_getxattrs
. However some Linux filesystem implementations are buggy and do not provide a way to list out attributes. For these filesystems (notably ntfs-3g) you have to know the names of the extended attributes you want in advance and call this function.
Extended attribute values are blobs of binary data. If there is no extended attribute named name
, this returns an error.
See also: guestfs_getxattrs
, guestfs_lgetxattr
, attr(5).
This function returns a buffer, or NULL on error. The size of the returned buffer is written to *size_r
. The caller must free the returned buffer after use.
This function depends on the feature linuxxattrs
. See also "guestfs_feature_available".
(Added in 1.7.24)
struct guestfs_xattr_list *
guestfs_getxattrs (guestfs_h *g,
const char *path);
This call lists the extended attributes of the file or directory path
.
At the system call level, this is a combination of the listxattr(2) and getxattr(2) calls.
See also: guestfs_lgetxattrs
, attr(5).
This function returns a struct guestfs_xattr_list *
, or NULL if there was an error. The caller must call guestfs_free_xattr_list
after use.
This function depends on the feature linuxxattrs
. See also "guestfs_feature_available".
(Added in 1.0.59)
char **
guestfs_glob_expand (guestfs_h *g,
const char *pattern);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_glob_expand_opts" with no optional arguments.
(Added in 1.0.50)
char **
guestfs_glob_expand_opts (guestfs_h *g,
const char *pattern,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_GLOB_EXPAND_OPTS_DIRECTORYSLASH, int directoryslash,
This command searches for all the pathnames matching pattern
according to the wildcard expansion rules used by the shell.
If no paths match, then this returns an empty list (note: not an error).
It is just a wrapper around the C glob(3) function with flags GLOB_MARK|GLOB_BRACE
. See that manual page for more details.
directoryslash
controls whether use the GLOB_MARK
flag for glob(3), and it defaults to true. It can be explicitly set as off to return no trailing slashes in filenames of directories.
Notice that there is no equivalent command for expanding a device name (eg. /dev/sd*). Use guestfs_list_devices
, guestfs_list_partitions
etc functions instead.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.0.50)
char **
guestfs_glob_expand_opts_va (guestfs_h *g,
const char *pattern,
va_list args);
This is the "va_list variant" of "guestfs_glob_expand_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
char **
guestfs_glob_expand_opts_argv (guestfs_h *g,
const char *pattern,
const struct guestfs_glob_expand_opts_argv *optargs);
This is the "argv variant" of "guestfs_glob_expand_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
char **
guestfs_grep (guestfs_h *g,
const char *regex,
const char *path);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_grep_opts" with no optional arguments.
(Added in 1.0.66)
char **
guestfs_grep_opts (guestfs_h *g,
const char *regex,
const char *path,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_GREP_OPTS_EXTENDED, int extended,
GUESTFS_GREP_OPTS_FIXED, int fixed,
GUESTFS_GREP_OPTS_INSENSITIVE, int insensitive,
GUESTFS_GREP_OPTS_COMPRESSED, int compressed,
This calls the external grep(1) program and returns the matching lines.
The optional flags are:
extended
Use extended regular expressions. This is the same as using the -E flag.
fixed
Match fixed (don't use regular expressions). This is the same as using the -F flag.
insensitive
Match case-insensitive. This is the same as using the -i flag.
compressed
Use zgrep(1) instead of grep(1). This allows the input to be compress- or gzip-compressed.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.66)
char **
guestfs_grep_opts_va (guestfs_h *g,
const char *regex,
const char *path,
va_list args);
This is the "va_list variant" of "guestfs_grep_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
char **
guestfs_grep_opts_argv (guestfs_h *g,
const char *regex,
const char *path,
const struct guestfs_grep_opts_argv *optargs);
This is the "argv variant" of "guestfs_grep_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
char **
guestfs_grepi (guestfs_h *g,
const char *regex,
const char *path);
This function is deprecated. In new code, use the "guestfs_grep" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This calls the external grep -i
program and returns the matching lines.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.66)
int
guestfs_grub_install (guestfs_h *g,
const char *root,
const char *device);
This command installs GRUB 1 (the Grand Unified Bootloader) on device
, with the root directory being root
.
Notes:
There is currently no way in the API to install grub2, which is used by most modern Linux guests. It is possible to run the grub2 command from the guest, although see the caveats in "RUNNING COMMANDS".
This uses grub-install(8) from the host. Unfortunately grub is not always compatible with itself, so this only works in rather narrow circumstances. Careful testing with each guest version is advisable.
If grub-install reports the error "No suitable drive was found in the generated device map." it may be that you need to create a /boot/grub/device.map file first that contains the mapping between grub device names and Linux device names. It is usually sufficient to create a file containing:
(hd0) /dev/vda
replacing /dev/vda with the name of the installation device.
This function returns 0 on success or -1 on error.
This function depends on the feature grub
. See also "guestfs_feature_available".
(Added in 1.0.17)
char **
guestfs_head (guestfs_h *g,
const char *path);
This command returns up to the first 10 lines of a file as a list of strings.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.54)
char **
guestfs_head_n (guestfs_h *g,
int nrlines,
const char *path);
If the parameter nrlines
is a positive number, this returns the first nrlines
lines of the file path
.
If the parameter nrlines
is a negative number, this returns lines from the file path
, excluding the last nrlines
lines.
If the parameter nrlines
is zero, this returns an empty list.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.54)
char *
guestfs_hexdump (guestfs_h *g,
const char *path);
This runs hexdump -C
on the given path
. The result is the human-readable, canonical hex dump of the file.
This function returns a string, or NULL on error. The caller must free the returned string after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.22)
int
guestfs_hivex_close (guestfs_h *g);
Close the current hivex handle.
This is a wrapper around the hivex(3) call of the same name.
This function returns 0 on success or -1 on error.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
int
guestfs_hivex_commit (guestfs_h *g,
const char *filename);
Commit (write) changes to the hive.
If the optional filename parameter is null, then the changes are written back to the same hive that was opened. If this is not null then they are written to the alternate filename given and the original hive is left untouched.
This is a wrapper around the hivex(3) call of the same name.
This function returns 0 on success or -1 on error.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
int64_t
guestfs_hivex_node_add_child (guestfs_h *g,
int64_t parent,
const char *name);
Add a child node to parent
named name
.
This is a wrapper around the hivex(3) call of the same name.
On error this function returns -1.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
struct guestfs_hivex_node_list *
guestfs_hivex_node_children (guestfs_h *g,
int64_t nodeh);
Return the list of nodes which are subkeys of nodeh
.
This is a wrapper around the hivex(3) call of the same name.
This function returns a struct guestfs_hivex_node_list *
, or NULL if there was an error. The caller must call guestfs_free_hivex_node_list
after use.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
int
guestfs_hivex_node_delete_child (guestfs_h *g,
int64_t nodeh);
Delete nodeh
, recursively if necessary.
This is a wrapper around the hivex(3) call of the same name.
This function returns 0 on success or -1 on error.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
int64_t
guestfs_hivex_node_get_child (guestfs_h *g,
int64_t nodeh,
const char *name);
Return the child of nodeh
with the name name
, if it exists. This can return 0
meaning the name was not found.
This is a wrapper around the hivex(3) call of the same name.
On error this function returns -1.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
int64_t
guestfs_hivex_node_get_value (guestfs_h *g,
int64_t nodeh,
const char *key);
Return the value attached to nodeh
which has the name key
, if it exists. This can return 0
meaning the key was not found.
This is a wrapper around the hivex(3) call of the same name.
On error this function returns -1.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
char *
guestfs_hivex_node_name (guestfs_h *g,
int64_t nodeh);
Return the name of nodeh
.
This is a wrapper around the hivex(3) call of the same name.
This function returns a string, or NULL on error. The caller must free the returned string after use.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
int64_t
guestfs_hivex_node_parent (guestfs_h *g,
int64_t nodeh);
Return the parent node of nodeh
.
This is a wrapper around the hivex(3) call of the same name.
On error this function returns -1.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
int
guestfs_hivex_node_set_value (guestfs_h *g,
int64_t nodeh,
const char *key,
int64_t t,
const char *val,
size_t val_size);
Set or replace a single value under the node nodeh
. The key
is the name, t
is the type, and val
is the data.
This is a wrapper around the hivex(3) call of the same name.
This function returns 0 on success or -1 on error.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
struct guestfs_hivex_value_list *
guestfs_hivex_node_values (guestfs_h *g,
int64_t nodeh);
Return the array of (key, datatype, data) tuples attached to nodeh
.
This is a wrapper around the hivex(3) call of the same name.
This function returns a struct guestfs_hivex_value_list *
, or NULL if there was an error. The caller must call guestfs_free_hivex_value_list
after use.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
int
guestfs_hivex_open (guestfs_h *g,
const char *filename,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_HIVEX_OPEN_VERBOSE, int verbose,
GUESTFS_HIVEX_OPEN_DEBUG, int debug,
GUESTFS_HIVEX_OPEN_WRITE, int write,
GUESTFS_HIVEX_OPEN_UNSAFE, int unsafe,
Open the Windows Registry hive file named filename. If there was any previous hivex handle associated with this guestfs session, then it is closed.
This is a wrapper around the hivex(3) call of the same name.
This function returns 0 on success or -1 on error.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
int
guestfs_hivex_open_va (guestfs_h *g,
const char *filename,
va_list args);
This is the "va_list variant" of "guestfs_hivex_open".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_hivex_open_argv (guestfs_h *g,
const char *filename,
const struct guestfs_hivex_open_argv *optargs);
This is the "argv variant" of "guestfs_hivex_open".
See "CALLS WITH OPTIONAL ARGUMENTS".
int64_t
guestfs_hivex_root (guestfs_h *g);
Return the root node of the hive.
This is a wrapper around the hivex(3) call of the same name.
On error this function returns -1.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
char *
guestfs_hivex_value_key (guestfs_h *g,
int64_t valueh);
Return the key (name) field of a (key, datatype, data) tuple.
This is a wrapper around the hivex(3) call of the same name.
This function returns a string, or NULL on error. The caller must free the returned string after use.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
char *
guestfs_hivex_value_string (guestfs_h *g,
int64_t valueh);
This calls guestfs_hivex_value_value
(which returns the data field from a hivex value tuple). It then assumes that the field is a UTF-16LE string and converts the result to UTF-8 (or if this is not possible, it returns an error).
This is useful for reading strings out of the Windows registry. However it is not foolproof because the registry is not strongly-typed and fields can contain arbitrary or unexpected data.
This function returns a string, or NULL on error. The caller must free the returned string after use.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.37.22)
int64_t
guestfs_hivex_value_type (guestfs_h *g,
int64_t valueh);
Return the data type field from a (key, datatype, data) tuple.
This is a wrapper around the hivex(3) call of the same name.
On error this function returns -1.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
char *
guestfs_hivex_value_utf8 (guestfs_h *g,
int64_t valueh);
This function is deprecated. In new code, use the "guestfs_hivex_value_string" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This calls guestfs_hivex_value_value
(which returns the data field from a hivex value tuple). It then assumes that the field is a UTF-16LE string and converts the result to UTF-8 (or if this is not possible, it returns an error).
This is useful for reading strings out of the Windows registry. However it is not foolproof because the registry is not strongly-typed and fields can contain arbitrary or unexpected data.
This function returns a string, or NULL on error. The caller must free the returned string after use.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
char *
guestfs_hivex_value_value (guestfs_h *g,
int64_t valueh,
size_t *size_r);
Return the data field of a (key, datatype, data) tuple.
This is a wrapper around the hivex(3) call of the same name.
See also: guestfs_hivex_value_utf8
.
This function returns a buffer, or NULL on error. The size of the returned buffer is written to *size_r
. The caller must free the returned buffer after use.
This function depends on the feature hivex
. See also "guestfs_feature_available".
(Added in 1.19.35)
char *
guestfs_initrd_cat (guestfs_h *g,
const char *initrdpath,
const char *filename,
size_t *size_r);
This command unpacks the file filename from the initrd file called initrdpath. The filename must be given without the initial / character.
For example, in guestfish you could use the following command to examine the boot script (usually called /init) contained in a Linux initrd or initramfs image:
initrd-cat /boot/initrd-<version>.img init
See also guestfs_initrd_list
.
This function returns a buffer, or NULL on error. The size of the returned buffer is written to *size_r
. The caller must free the returned buffer after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.84)
char **
guestfs_initrd_list (guestfs_h *g,
const char *path);
This command lists out files contained in an initrd.
The files are listed without any initial / character. The files are listed in the order they appear (not necessarily alphabetical). Directory names are listed as separate items.
Old Linux kernels (2.4 and earlier) used a compressed ext2 filesystem as initrd. We only support the newer initramfs format (compressed cpio files).
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.0.54)
int64_t
guestfs_inotify_add_watch (guestfs_h *g,
const char *path,
int mask);
Watch path
for the events listed in mask
.
Note that if path
is a directory then events within that directory are watched, but this does not happen recursively (in subdirectories).
Note for non-C or non-Linux callers: the inotify events are defined by the Linux kernel ABI and are listed in /usr/include/sys/inotify.h.
On error this function returns -1.
This function depends on the feature inotify
. See also "guestfs_feature_available".
(Added in 1.0.66)
int
guestfs_inotify_close (guestfs_h *g);
This closes the inotify handle which was previously opened by inotify_init. It removes all watches, throws away any pending events, and deallocates all resources.
This function returns 0 on success or -1 on error.
This function depends on the feature inotify
. See also "guestfs_feature_available".
(Added in 1.0.66)
char **
guestfs_inotify_files (guestfs_h *g);
This function is a helpful wrapper around guestfs_inotify_read
which just returns a list of pathnames of objects that were touched. The returned pathnames are sorted and deduplicated.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
This function depends on the feature inotify
. See also "guestfs_feature_available".
(Added in 1.0.66)
int
guestfs_inotify_init (guestfs_h *g,
int maxevents);
This command creates a new inotify handle. The inotify subsystem can be used to notify events which happen to objects in the guest filesystem.
maxevents
is the maximum number of events which will be queued up between calls to guestfs_inotify_read
or guestfs_inotify_files
. If this is passed as 0
, then the kernel (or previously set) default is used. For Linux 2.6.29 the default was 16384 events. Beyond this limit, the kernel throws away events, but records the fact that it threw them away by setting a flag IN_Q_OVERFLOW
in the returned structure list (see guestfs_inotify_read
).
Before any events are generated, you have to add some watches to the internal watch list. See: guestfs_inotify_add_watch
and guestfs_inotify_rm_watch
.
Queued up events should be read periodically by calling guestfs_inotify_read
(or guestfs_inotify_files
which is just a helpful wrapper around guestfs_inotify_read
). If you don't read the events out often enough then you risk the internal queue overflowing.
The handle should be closed after use by calling guestfs_inotify_close
. This also removes any watches automatically.
See also inotify(7) for an overview of the inotify interface as exposed by the Linux kernel, which is roughly what we expose via libguestfs. Note that there is one global inotify handle per libguestfs instance.
This function returns 0 on success or -1 on error.
This function depends on the feature inotify
. See also "guestfs_feature_available".
(Added in 1.0.66)
struct guestfs_inotify_event_list *
guestfs_inotify_read (guestfs_h *g);
Return the complete queue of events that have happened since the previous read call.
If no events have happened, this returns an empty list.
Note: In order to make sure that all events have been read, you must call this function repeatedly until it returns an empty list. The reason is that the call will read events up to the maximum appliance-to-host message size and leave remaining events in the queue.
This function returns a struct guestfs_inotify_event_list *
, or NULL if there was an error. The caller must call guestfs_free_inotify_event_list
after use.
This function depends on the feature inotify
. See also "guestfs_feature_available".
(Added in 1.0.66)
int
guestfs_inotify_rm_watch (guestfs_h *g,
int wd);
Remove a previously defined inotify watch. See guestfs_inotify_add_watch
.
This function returns 0 on success or -1 on error.
This function depends on the feature inotify
. See also "guestfs_feature_available".
(Added in 1.0.66)
char *
guestfs_inspect_get_arch (guestfs_h *g,
const char *root);
This returns the architecture of the inspected operating system. The possible return values are listed under guestfs_file_architecture
.
If the architecture could not be determined, then the string unknown
is returned.
Please read "INSPECTION" for more details.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.5.3)
char *
guestfs_inspect_get_build_id (guestfs_h *g,
const char *root);
This returns the build ID of the system, or the string "unknown"
if the system does not have a build ID.
For Windows, this gets the build number. Although it is returned as a string, it is (so far) always a number. See https://en.wikipedia.org/wiki/List_of_Microsoft_Windows_versions for some possible values.
For Linux, this returns the BUILD_ID
string from /etc/os-release, although this is not often used.
Please read "INSPECTION" for more details.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.49.8)
char *
guestfs_inspect_get_distro (guestfs_h *g,
const char *root);
This returns the distro (distribution) of the inspected operating system.
Currently defined distros are:
Alpine Linux.
ALT Linux.
Arch Linux.
Buildroot-derived distro, but not one we specifically recognize.
CentOS.
Circle Linux.
Cirros.
CoreOS.
Debian.
Fedora.
FreeBSD.
FreeDOS.
Frugalware.
Gentoo.
Kali Linux.
Kylin.
Linux Mint.
Mageia.
Mandriva.
MeeGo.
Microsoft DOS.
NeoKylin.
NetBSD.
OpenBSD.
openEuler.
OpenMandriva Lx.
OpenSUSE.
Oracle Linux.
Pardus.
PLD Linux.
Some Red Hat-derived distro.
Red Hat Enterprise Linux.
Rocky Linux.
Scientific Linux.
Slackware.
SuSE Linux Enterprise Server or Desktop.
Some openSuSE-derived distro.
ttylinux.
Ubuntu.
The distro could not be determined.
Void Linux.
Windows does not have distributions. This string is returned if the OS type is Windows.
Future versions of libguestfs may return other strings here. The caller should be prepared to handle any string.
Please read "INSPECTION" for more details.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.5.3)
char **
guestfs_inspect_get_drive_mappings (guestfs_h *g,
const char *root);
This call is useful for Windows which uses a primitive system of assigning drive letters (like C:\) to partitions. This inspection API examines the Windows Registry to find out how disks/partitions are mapped to drive letters, and returns a hash table as in the example below:
C => /dev/vda2
E => /dev/vdb1
F => /dev/vdc1
Note that keys are drive letters. For Windows, the key is case insensitive and just contains the drive letter, without the customary colon separator character.
In future we may support other operating systems that also used drive letters, but the keys for those might not be case insensitive and might be longer than 1 character. For example in OS-9, hard drives were named h0
, h1
etc.
For Windows guests, currently only hard drive mappings are returned. Removable disks (eg. DVD-ROMs) are ignored.
For guests that do not use drive mappings, or if the drive mappings could not be determined, this returns an empty hash table.
Please read "INSPECTION" for more details. See also guestfs_inspect_get_mountpoints
, guestfs_inspect_get_filesystems
.
This function returns a NULL-terminated array of strings, or NULL if there was an error. The array of strings will always have length 2n+1
, where n
keys and values alternate, followed by the trailing NULL entry. The caller must free the strings and the array after use.
(Added in 1.9.17)
char **
guestfs_inspect_get_filesystems (guestfs_h *g,
const char *root);
This returns a list of all the filesystems that we think are associated with this operating system. This includes the root filesystem, other ordinary filesystems, and non-mounted devices like swap partitions.
In the case of a multi-boot virtual machine, it is possible for a filesystem to be shared between operating systems.
Please read "INSPECTION" for more details. See also guestfs_inspect_get_mountpoints
.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.5.3)
char *
guestfs_inspect_get_format (guestfs_h *g,
const char *root);
This function is deprecated. There is no replacement. Consult the API documentation in guestfs(3) for further information.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
Before libguestfs 1.38, there was some unreliable support for detecting installer CDs. This API would return:
installed
This is an installed operating system.
installer
The disk image being inspected is not an installed operating system, but a bootable install disk, live CD, or similar.
unknown
The format of this disk image is not known.
In libguestfs ≥ 1.38, this only returns installed
. Use libosinfo directly to detect installer CDs.
Please read "INSPECTION" for more details.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.9.4)
char *
guestfs_inspect_get_hostname (guestfs_h *g,
const char *root);
This function returns the hostname of the operating system as found by inspection of the guest’s configuration files.
If the hostname could not be determined, then the string unknown
is returned.
Please read "INSPECTION" for more details.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.7.9)
char *
guestfs_inspect_get_icon (guestfs_h *g,
const char *root,
size_t *size_r,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_INSPECT_GET_ICON_FAVICON, int favicon,
GUESTFS_INSPECT_GET_ICON_HIGHQUALITY, int highquality,
This function returns an icon corresponding to the inspected operating system. The icon is returned as a buffer containing a PNG image (re-encoded to PNG if necessary).
If it was not possible to get an icon this function returns a zero-length (non-NULL) buffer. Callers must check for this case.
Libguestfs will start by looking for a file called /etc/favicon.png or C:\etc\favicon.png and if it has the correct format, the contents of this file will be returned. You can disable favicons by passing the optional favicon
boolean as false (default is true).
If finding the favicon fails, then we look in other places in the guest for a suitable icon.
If the optional highquality
boolean is true then only high quality icons are returned, which means only icons of high resolution with an alpha channel. The default (false) is to return any icon we can, even if it is of substandard quality.
Notes:
Unlike most other inspection API calls, the guest’s disks must be mounted up before you call this, since it needs to read information from the guest filesystem during the call.
Security: The icon data comes from the untrusted guest, and should be treated with caution. PNG files have been known to contain exploits. Ensure that libpng (or other relevant libraries) are fully up to date before trying to process or display the icon.
The PNG image returned can be any size. It might not be square. Libguestfs tries to return the largest, highest quality icon available. The application must scale the icon to the required size.
Extracting icons from Windows guests requires the external wrestool(1) program from the icoutils
package, and several programs (bmptopnm(1), pnmtopng(1), pamcut(1)) from the netpbm
package. These must be installed separately.
Operating system icons are usually trademarks. Seek legal advice before using trademarks in applications.
This function returns a buffer, or NULL on error. The size of the returned buffer is written to *size_r
. The caller must free the returned buffer after use.
(Added in 1.11.12)
char *
guestfs_inspect_get_icon_va (guestfs_h *g,
const char *root,
size_t *size_r,
va_list args);
This is the "va_list variant" of "guestfs_inspect_get_icon".
See "CALLS WITH OPTIONAL ARGUMENTS".
char *
guestfs_inspect_get_icon_argv (guestfs_h *g,
const char *root,
size_t *size_r,
const struct guestfs_inspect_get_icon_argv *optargs);
This is the "argv variant" of "guestfs_inspect_get_icon".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_inspect_get_major_version (guestfs_h *g,
const char *root);
This returns the major version number of the inspected operating system.
Windows uses a consistent versioning scheme which is not reflected in the popular public names used by the operating system. Notably the operating system known as "Windows 7" is really version 6.1 (ie. major = 6, minor = 1). You can find out the real versions corresponding to releases of Windows by consulting Wikipedia or MSDN.
If the version could not be determined, then 0
is returned.
Please read "INSPECTION" for more details.
On error this function returns -1.
(Added in 1.5.3)
int
guestfs_inspect_get_minor_version (guestfs_h *g,
const char *root);
This returns the minor version number of the inspected operating system.
If the version could not be determined, then 0
is returned.
Please read "INSPECTION" for more details. See also guestfs_inspect_get_major_version
.
On error this function returns -1.
(Added in 1.5.3)
char **
guestfs_inspect_get_mountpoints (guestfs_h *g,
const char *root);
This returns a hash of where we think the filesystems associated with this operating system should be mounted. Callers should note that this is at best an educated guess made by reading configuration files such as /etc/fstab. In particular note that this may return filesystems which are non-existent or not mountable and callers should be prepared to handle or ignore failures if they try to mount them.
Each element in the returned hashtable has a key which is the path of the mountpoint (eg. /boot) and a value which is the filesystem that would be mounted there (eg. /dev/sda1).
Non-mounted devices such as swap devices are not returned in this list.
For operating systems like Windows which still use drive letters, this call will only return an entry for the first drive "mounted on" /. For information about the mapping of drive letters to partitions, see guestfs_inspect_get_drive_mappings
.
Please read "INSPECTION" for more details. See also guestfs_inspect_get_filesystems
.
This function returns a NULL-terminated array of strings, or NULL if there was an error. The array of strings will always have length 2n+1
, where n
keys and values alternate, followed by the trailing NULL entry. The caller must free the strings and the array after use.
(Added in 1.5.3)
char *
guestfs_inspect_get_osinfo (guestfs_h *g,
const char *root);
This function returns a possible short ID for libosinfo corresponding to the guest.
Note: The returned ID is only a guess by libguestfs, and nothing ensures that it actually exists in osinfo-db.
If no ID could not be determined, then the string unknown
is returned.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.39.1)
char *
guestfs_inspect_get_package_format (guestfs_h *g,
const char *root);
This function and guestfs_inspect_get_package_management
return the package format and package management tool used by the inspected operating system. For example for Fedora these functions would return rpm
(package format), and yum
or dnf
(package management).
This returns the string unknown
if we could not determine the package format or if the operating system does not have a real packaging system (eg. Windows).
Possible strings include: rpm
, deb
, ebuild
, pisi
, pacman
, pkgsrc
, apk
, xbps
. Future versions of libguestfs may return other strings.
Please read "INSPECTION" for more details.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.7.5)
char *
guestfs_inspect_get_package_management (guestfs_h *g,
const char *root);
guestfs_inspect_get_package_format
and this function return the package format and package management tool used by the inspected operating system. For example for Fedora these functions would return rpm
(package format), and yum
or dnf
(package management).
This returns the string unknown
if we could not determine the package management tool or if the operating system does not have a real packaging system (eg. Windows).
Possible strings include: yum
, dnf
, up2date
, apt
(for all Debian derivatives), portage
, pisi
, pacman
, urpmi
, zypper
, apk
, xbps
. Future versions of libguestfs may return other strings.
Please read "INSPECTION" for more details.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.7.5)
char *
guestfs_inspect_get_product_name (guestfs_h *g,
const char *root);
This returns the product name of the inspected operating system. The product name is generally some freeform string which can be displayed to the user, but should not be parsed by programs.
If the product name could not be determined, then the string unknown
is returned.
Please read "INSPECTION" for more details.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.5.3)
char *
guestfs_inspect_get_product_variant (guestfs_h *g,
const char *root);
This returns the product variant of the inspected operating system.
For Windows guests, this returns the contents of the Registry key HKLM\Software\Microsoft\Windows NT\CurrentVersion
InstallationType
which is usually a string such as Client
or Server
(other values are possible). This can be used to distinguish consumer and enterprise versions of Windows that have the same version number (for example, Windows 7 and Windows 2008 Server are both version 6.1, but the former is Client
and the latter is Server
).
For enterprise Linux guests, in future we intend this to return the product variant such as Desktop
, Server
and so on. But this is not implemented at present.
If the product variant could not be determined, then the string unknown
is returned.
Please read "INSPECTION" for more details. See also guestfs_inspect_get_product_name
, guestfs_inspect_get_major_version
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.9.13)
char **
guestfs_inspect_get_roots (guestfs_h *g);
This function is a convenient way to get the list of root devices, as returned from a previous call to guestfs_inspect_os
, but without redoing the whole inspection process.
This returns an empty list if either no root devices were found or the caller has not called guestfs_inspect_os
.
Please read "INSPECTION" for more details.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.7.3)
char *
guestfs_inspect_get_type (guestfs_h *g,
const char *root);
This returns the type of the inspected operating system. Currently defined types are:
Any Linux-based operating system.
Any Microsoft Windows operating system.
FreeBSD.
NetBSD.
OpenBSD.
GNU/Hurd.
MS-DOS, FreeDOS and others.
MINIX.
The operating system type could not be determined.
Future versions of libguestfs may return other strings here. The caller should be prepared to handle any string.
Please read "INSPECTION" for more details.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.5.3)
char *
guestfs_inspect_get_windows_current_control_set (guestfs_h *g,
const char *root);
This returns the Windows CurrentControlSet of the inspected guest. The CurrentControlSet is a registry key name such as ControlSet001
.
This call assumes that the guest is Windows and that the Registry could be examined by inspection. If this is not the case then an error is returned.
Please read "INSPECTION" for more details.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.9.17)
char *
guestfs_inspect_get_windows_software_hive (guestfs_h *g,
const char *root);
This returns the path to the hive (binary Windows Registry file) corresponding to HKLM\SOFTWARE.
This call assumes that the guest is Windows and that the guest has a software hive file with the right name. If this is not the case then an error is returned. This call does not check that the hive is a valid Windows Registry hive.
You can use guestfs_hivex_open
to read or write to the hive.
Please read "INSPECTION" for more details.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.35.26)
char *
guestfs_inspect_get_windows_system_hive (guestfs_h *g,
const char *root);
This returns the path to the hive (binary Windows Registry file) corresponding to HKLM\SYSTEM.
This call assumes that the guest is Windows and that the guest has a system hive file with the right name. If this is not the case then an error is returned. This call does not check that the hive is a valid Windows Registry hive.
You can use guestfs_hivex_open
to read or write to the hive.
Please read "INSPECTION" for more details.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.35.26)
char *
guestfs_inspect_get_windows_systemroot (guestfs_h *g,
const char *root);
This returns the Windows systemroot of the inspected guest. The systemroot is a directory path such as /WINDOWS.
This call assumes that the guest is Windows and that the systemroot could be determined by inspection. If this is not the case then an error is returned.
Please read "INSPECTION" for more details.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.5.25)
int
guestfs_inspect_is_live (guestfs_h *g,
const char *root);
This function is deprecated. There is no replacement. Consult the API documentation in guestfs(3) for further information.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This is deprecated and always returns false
.
Please read "INSPECTION" for more details.
This function returns a C truth value on success or -1 on error.
(Added in 1.9.4)
int
guestfs_inspect_is_multipart (guestfs_h *g,
const char *root);
This function is deprecated. There is no replacement. Consult the API documentation in guestfs(3) for further information.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This is deprecated and always returns false
.
Please read "INSPECTION" for more details.
This function returns a C truth value on success or -1 on error.
(Added in 1.9.4)
int
guestfs_inspect_is_netinst (guestfs_h *g,
const char *root);
This function is deprecated. There is no replacement. Consult the API documentation in guestfs(3) for further information.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This is deprecated and always returns false
.
Please read "INSPECTION" for more details.
This function returns a C truth value on success or -1 on error.
(Added in 1.9.4)
struct guestfs_application_list *
guestfs_inspect_list_applications (guestfs_h *g,
const char *root);
This function is deprecated. In new code, use the "guestfs_inspect_list_applications2" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
Return the list of applications installed in the operating system.
Note: This call works differently from other parts of the inspection API. You have to call guestfs_inspect_os
, then guestfs_inspect_get_mountpoints
, then mount up the disks, before calling this. Listing applications is a significantly more difficult operation which requires access to the full filesystem. Also note that unlike the other guestfs_inspect_get_*
calls which are just returning data cached in the libguestfs handle, this call actually reads parts of the mounted filesystems during the call.
This returns an empty list if the inspection code was not able to determine the list of applications.
The application structure contains the following fields:
app_name
The name of the application. For Linux guests, this is the package name.
app_display_name
The display name of the application, sometimes localized to the install language of the guest operating system.
If unavailable this is returned as an empty string ""
. Callers needing to display something can use app_name
instead.
app_epoch
For package managers which use epochs, this contains the epoch of the package (an integer). If unavailable, this is returned as 0
.
app_version
The version string of the application or package. If unavailable this is returned as an empty string ""
.
app_release
The release string of the application or package, for package managers that use this. If unavailable this is returned as an empty string ""
.
app_install_path
The installation path of the application (on operating systems such as Windows which use installation paths). This path is in the format used by the guest operating system, it is not a libguestfs path.
If unavailable this is returned as an empty string ""
.
app_trans_path
The install path translated into a libguestfs path. If unavailable this is returned as an empty string ""
.
app_publisher
The name of the publisher of the application, for package managers that use this. If unavailable this is returned as an empty string ""
.
app_url
The URL (eg. upstream URL) of the application. If unavailable this is returned as an empty string ""
.
app_source_package
For packaging systems which support this, the name of the source package. If unavailable this is returned as an empty string ""
.
app_summary
A short (usually one line) description of the application or package. If unavailable this is returned as an empty string ""
.
app_description
A longer description of the application or package. If unavailable this is returned as an empty string ""
.
Please read "INSPECTION" for more details.
This function returns a struct guestfs_application_list *
, or NULL if there was an error. The caller must call guestfs_free_application_list
after use.
(Added in 1.7.8)
struct guestfs_application2_list *
guestfs_inspect_list_applications2 (guestfs_h *g,
const char *root);
Return the list of applications installed in the operating system.
Note: This call works differently from other parts of the inspection API. You have to call guestfs_inspect_os
, then guestfs_inspect_get_mountpoints
, then mount up the disks, before calling this. Listing applications is a significantly more difficult operation which requires access to the full filesystem. Also note that unlike the other guestfs_inspect_get_*
calls which are just returning data cached in the libguestfs handle, this call actually reads parts of the mounted filesystems during the call.
This returns an empty list if the inspection code was not able to determine the list of applications.
The application structure contains the following fields:
app2_name
The name of the application. For Linux guests, this is the package name.
app2_display_name
The display name of the application, sometimes localized to the install language of the guest operating system.
If unavailable this is returned as an empty string ""
. Callers needing to display something can use app2_name
instead.
app2_epoch
For package managers which use epochs, this contains the epoch of the package (an integer). If unavailable, this is returned as 0
.
app2_version
The version string of the application or package. If unavailable this is returned as an empty string ""
.
app2_release
The release string of the application or package, for package managers that use this. If unavailable this is returned as an empty string ""
.
app2_arch
The architecture string of the application or package, for package managers that use this. If unavailable this is returned as an empty string ""
.
app2_install_path
The installation path of the application (on operating systems such as Windows which use installation paths). This path is in the format used by the guest operating system, it is not a libguestfs path.
If unavailable this is returned as an empty string ""
.
app2_trans_path
The install path translated into a libguestfs path. If unavailable this is returned as an empty string ""
.
app2_publisher
The name of the publisher of the application, for package managers that use this. If unavailable this is returned as an empty string ""
.
app2_url
The URL (eg. upstream URL) of the application. If unavailable this is returned as an empty string ""
.
app2_source_package
For packaging systems which support this, the name of the source package. If unavailable this is returned as an empty string ""
.
app2_summary
A short (usually one line) description of the application or package. If unavailable this is returned as an empty string ""
.
app2_description
A longer description of the application or package. If unavailable this is returned as an empty string ""
.
Please read "INSPECTION" for more details.
This function returns a struct guestfs_application2_list *
, or NULL if there was an error. The caller must call guestfs_free_application2_list
after use.
(Added in 1.19.56)
char **
guestfs_inspect_os (guestfs_h *g);
This function uses other libguestfs functions and certain heuristics to inspect the disk(s) (usually disks belonging to a virtual machine), looking for operating systems.
The list returned is empty if no operating systems were found.
If one operating system was found, then this returns a list with a single element, which is the name of the root filesystem of this operating system. It is also possible for this function to return a list containing more than one element, indicating a dual-boot or multi-boot virtual machine, with each element being the root filesystem of one of the operating systems.
You can pass the root string(s) returned to other guestfs_inspect_get_*
functions in order to query further information about each operating system, such as the name and version.
This function uses other libguestfs features such as guestfs_mount_ro
and guestfs_umount_all
in order to mount and unmount filesystems and look at the contents. This should be called with no disks currently mounted. The function may also use Augeas, so any existing Augeas handle will be closed.
This function cannot decrypt encrypted disks. The caller must do that first (supplying the necessary keys) if the disk is encrypted.
Please read "INSPECTION" for more details.
See also guestfs_list_filesystems
.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.5.3)
int
guestfs_is_blockdev (guestfs_h *g,
const char *path);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_is_blockdev_opts" with no optional arguments.
(Added in 1.5.10)
int
guestfs_is_blockdev_opts (guestfs_h *g,
const char *path,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_IS_BLOCKDEV_OPTS_FOLLOWSYMLINKS, int followsymlinks,
This returns true
if and only if there is a block device with the given path
name.
If the optional flag followsymlinks
is true, then a symlink (or chain of symlinks) that ends with a block device also causes the function to return true.
This call only looks at files within the guest filesystem. Libguestfs partitions and block devices (eg. /dev/sda) cannot be used as the path
parameter of this call.
See also guestfs_stat
.
This function returns a C truth value on success or -1 on error.
(Added in 1.5.10)
int
guestfs_is_blockdev_opts_va (guestfs_h *g,
const char *path,
va_list args);
This is the "va_list variant" of "guestfs_is_blockdev_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_is_blockdev_opts_argv (guestfs_h *g,
const char *path,
const struct guestfs_is_blockdev_opts_argv *optargs);
This is the "argv variant" of "guestfs_is_blockdev_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_is_busy (guestfs_h *g);
This always returns false. This function is deprecated with no replacement. Do not use this function.
For more information on states, see guestfs(3).
This function returns a C truth value on success or -1 on error.
(Added in 1.0.2)
int
guestfs_is_chardev (guestfs_h *g,
const char *path);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_is_chardev_opts" with no optional arguments.
(Added in 1.5.10)
int
guestfs_is_chardev_opts (guestfs_h *g,
const char *path,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_IS_CHARDEV_OPTS_FOLLOWSYMLINKS, int followsymlinks,
This returns true
if and only if there is a character device with the given path
name.
If the optional flag followsymlinks
is true, then a symlink (or chain of symlinks) that ends with a chardev also causes the function to return true.
See also guestfs_stat
.
This function returns a C truth value on success or -1 on error.
(Added in 1.5.10)
int
guestfs_is_chardev_opts_va (guestfs_h *g,
const char *path,
va_list args);
This is the "va_list variant" of "guestfs_is_chardev_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_is_chardev_opts_argv (guestfs_h *g,
const char *path,
const struct guestfs_is_chardev_opts_argv *optargs);
This is the "argv variant" of "guestfs_is_chardev_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_is_config (guestfs_h *g);
This returns true iff this handle is being configured (in the CONFIG
state).
For more information on states, see guestfs(3).
This function returns a C truth value on success or -1 on error.
(Added in 1.0.2)
int
guestfs_is_dir (guestfs_h *g,
const char *path);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_is_dir_opts" with no optional arguments.
(Added in 0.8)
int
guestfs_is_dir_opts (guestfs_h *g,
const char *path,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_IS_DIR_OPTS_FOLLOWSYMLINKS, int followsymlinks,
This returns true
if and only if there is a directory with the given path
name. Note that it returns false for other objects like files.
If the optional flag followsymlinks
is true, then a symlink (or chain of symlinks) that ends with a directory also causes the function to return true.
See also guestfs_stat
.
This function returns a C truth value on success or -1 on error.
(Added in 0.8)
int
guestfs_is_dir_opts_va (guestfs_h *g,
const char *path,
va_list args);
This is the "va_list variant" of "guestfs_is_dir_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_is_dir_opts_argv (guestfs_h *g,
const char *path,
const struct guestfs_is_dir_opts_argv *optargs);
This is the "argv variant" of "guestfs_is_dir_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_is_fifo (guestfs_h *g,
const char *path);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_is_fifo_opts" with no optional arguments.
(Added in 1.5.10)
int
guestfs_is_fifo_opts (guestfs_h *g,
const char *path,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_IS_FIFO_OPTS_FOLLOWSYMLINKS, int followsymlinks,
This returns true
if and only if there is a FIFO (named pipe) with the given path
name.
If the optional flag followsymlinks
is true, then a symlink (or chain of symlinks) that ends with a FIFO also causes the function to return true.
See also guestfs_stat
.
This function returns a C truth value on success or -1 on error.
(Added in 1.5.10)
int
guestfs_is_fifo_opts_va (guestfs_h *g,
const char *path,
va_list args);
This is the "va_list variant" of "guestfs_is_fifo_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_is_fifo_opts_argv (guestfs_h *g,
const char *path,
const struct guestfs_is_fifo_opts_argv *optargs);
This is the "argv variant" of "guestfs_is_fifo_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_is_file (guestfs_h *g,
const char *path);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_is_file_opts" with no optional arguments.
(Added in 0.8)
int
guestfs_is_file_opts (guestfs_h *g,
const char *path,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_IS_FILE_OPTS_FOLLOWSYMLINKS, int followsymlinks,
This returns true
if and only if there is a regular file with the given path
name. Note that it returns false for other objects like directories.
If the optional flag followsymlinks
is true, then a symlink (or chain of symlinks) that ends with a file also causes the function to return true.
See also guestfs_stat
.
This function returns a C truth value on success or -1 on error.
(Added in 0.8)
int
guestfs_is_file_opts_va (guestfs_h *g,
const char *path,
va_list args);
This is the "va_list variant" of "guestfs_is_file_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_is_file_opts_argv (guestfs_h *g,
const char *path,
const struct guestfs_is_file_opts_argv *optargs);
This is the "argv variant" of "guestfs_is_file_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_is_launching (guestfs_h *g);
This returns true iff this handle is launching the subprocess (in the LAUNCHING
state).
For more information on states, see guestfs(3).
This function returns a C truth value on success or -1 on error.
(Added in 1.0.2)
int
guestfs_is_lv (guestfs_h *g,
const char *mountable);
This command tests whether mountable
is a logical volume, and returns true iff this is the case.
This function returns a C truth value on success or -1 on error.
(Added in 1.5.3)
int
guestfs_is_ready (guestfs_h *g);
This returns true iff this handle is ready to accept commands (in the READY
state).
For more information on states, see guestfs(3).
This function returns a C truth value on success or -1 on error.
(Added in 1.0.2)
int
guestfs_is_socket (guestfs_h *g,
const char *path);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_is_socket_opts" with no optional arguments.
(Added in 1.5.10)
int
guestfs_is_socket_opts (guestfs_h *g,
const char *path,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_IS_SOCKET_OPTS_FOLLOWSYMLINKS, int followsymlinks,
This returns true
if and only if there is a Unix domain socket with the given path
name.
If the optional flag followsymlinks
is true, then a symlink (or chain of symlinks) that ends with a socket also causes the function to return true.
See also guestfs_stat
.
This function returns a C truth value on success or -1 on error.
(Added in 1.5.10)
int
guestfs_is_socket_opts_va (guestfs_h *g,
const char *path,
va_list args);
This is the "va_list variant" of "guestfs_is_socket_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_is_socket_opts_argv (guestfs_h *g,
const char *path,
const struct guestfs_is_socket_opts_argv *optargs);
This is the "argv variant" of "guestfs_is_socket_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_is_symlink (guestfs_h *g,
const char *path);
This returns true
if and only if there is a symbolic link with the given path
name.
See also guestfs_stat
.
This function returns a C truth value on success or -1 on error.
(Added in 1.5.10)
int
guestfs_is_whole_device (guestfs_h *g,
const char *device);
This returns true
if and only if device
refers to a whole block device. That is, not a partition or a logical device.
This function returns a C truth value on success or -1 on error.
(Added in 1.21.9)
int
guestfs_is_zero (guestfs_h *g,
const char *path);
This returns true iff the file exists and the file is empty or it contains all zero bytes.
This function returns a C truth value on success or -1 on error.
(Added in 1.11.8)
int
guestfs_is_zero_device (guestfs_h *g,
const char *device);
This returns true iff the device exists and contains all zero bytes.
Note that for large devices this can take a long time to run.
This function returns a C truth value on success or -1 on error.
(Added in 1.11.8)
struct guestfs_isoinfo *
guestfs_isoinfo (guestfs_h *g,
const char *isofile);
This is the same as guestfs_isoinfo_device
except that it works for an ISO file located inside some other mounted filesystem. Note that in the common case where you have added an ISO file as a libguestfs device, you would not call this. Instead you would call guestfs_isoinfo_device
.
This function returns a struct guestfs_isoinfo *
, or NULL if there was an error. The caller must call guestfs_free_isoinfo
after use.
(Added in 1.17.19)
struct guestfs_isoinfo *
guestfs_isoinfo_device (guestfs_h *g,
const char *device);
device
is an ISO device. This returns a struct of information read from the primary volume descriptor (the ISO equivalent of the superblock) of the device.
Usually it is more efficient to use the isoinfo(1) command with the -d option on the host to analyze ISO files, instead of going through libguestfs.
For information on the primary volume descriptor fields, see https://wiki.osdev.org/ISO_9660#The_Primary_Volume_Descriptor
This function returns a struct guestfs_isoinfo *
, or NULL if there was an error. The caller must call guestfs_free_isoinfo
after use.
(Added in 1.17.19)
int
guestfs_journal_close (guestfs_h *g);
Close the journal handle.
This function returns 0 on success or -1 on error.
This function depends on the feature journal
. See also "guestfs_feature_available".
(Added in 1.23.11)
struct guestfs_xattr_list *
guestfs_journal_get (guestfs_h *g);
Read the current journal entry. This returns all the fields in the journal as a set of (attrname, attrval)
pairs. The attrname
is the field name (a string).
The attrval
is the field value (a binary blob, often but not always a string). Please note that attrval
is a byte array, not a \0-terminated C string.
The length of data may be truncated to the data threshold (see: guestfs_journal_set_data_threshold
, guestfs_journal_get_data_threshold
).
If you set the data threshold to unlimited (0
) then this call can read a journal entry of any size, ie. it is not limited by the libguestfs protocol.
This function returns a struct guestfs_xattr_list *
, or NULL if there was an error. The caller must call guestfs_free_xattr_list
after use.
This function depends on the feature journal
. See also "guestfs_feature_available".
(Added in 1.23.11)
int64_t
guestfs_journal_get_data_threshold (guestfs_h *g);
Get the current data threshold for reading journal entries. This is a hint to the journal that it may truncate data fields to this size when reading them (note also that it may not truncate them). If this returns 0
, then the threshold is unlimited.
See also guestfs_journal_set_data_threshold
.
On error this function returns -1.
This function depends on the feature journal
. See also "guestfs_feature_available".
(Added in 1.23.11)
int64_t
guestfs_journal_get_realtime_usec (guestfs_h *g);
Get the realtime (wallclock) timestamp of the current journal entry.
On error this function returns -1.
This function depends on the feature journal
. See also "guestfs_feature_available".
(Added in 1.27.18)
int
guestfs_journal_next (guestfs_h *g);
Move to the next journal entry. You have to call this at least once after opening the handle before you are able to read data.
The returned boolean tells you if there are any more journal records to read. true
means you can read the next record (eg. using guestfs_journal_get
), and false
means you have reached the end of the journal.
This function returns a C truth value on success or -1 on error.
This function depends on the feature journal
. See also "guestfs_feature_available".
(Added in 1.23.11)
int
guestfs_journal_open (guestfs_h *g,
const char *directory);
Open the systemd journal located in directory. Any previously opened journal handle is closed.
The contents of the journal can be read using guestfs_journal_next
and guestfs_journal_get
.
After you have finished using the journal, you should close the handle by calling guestfs_journal_close
.
This function returns 0 on success or -1 on error.
This function depends on the feature journal
. See also "guestfs_feature_available".
(Added in 1.23.11)
int
guestfs_journal_set_data_threshold (guestfs_h *g,
int64_t threshold);
Set the data threshold for reading journal entries. This is a hint to the journal that it may truncate data fields to this size when reading them (note also that it may not truncate them). If you set this to 0
, then the threshold is unlimited.
See also guestfs_journal_get_data_threshold
.
This function returns 0 on success or -1 on error.
This function depends on the feature journal
. See also "guestfs_feature_available".
(Added in 1.23.11)
int64_t
guestfs_journal_skip (guestfs_h *g,
int64_t skip);
Skip forwards (skip ≥ 0
) or backwards (skip < 0
) in the journal.
The number of entries actually skipped is returned (note rskip ≥ 0
). If this is not the same as the absolute value of the skip parameter (|skip|
) you passed in then it means you have reached the end or the start of the journal.
On error this function returns -1.
This function depends on the feature journal
. See also "guestfs_feature_available".
(Added in 1.23.11)
int
guestfs_kill_subprocess (guestfs_h *g);
This function is deprecated. In new code, use the "guestfs_shutdown" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This kills the hypervisor.
Do not call this. See: guestfs_shutdown
instead.
This function returns 0 on success or -1 on error.
(Added in 0.3)
int
guestfs_launch (guestfs_h *g);
You should call this after configuring the handle (eg. adding drives) but before performing any actions.
Do not call guestfs_launch
twice on the same handle. Although it will not give an error (for historical reasons), the precise behaviour when you do this is not well defined. Handles are very cheap to create, so create a new one for each launch.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 0.3)
int
guestfs_lchown (guestfs_h *g,
int owner,
int group,
const char *path);
Change the file owner to owner
and group to group
. This is like guestfs_chown
but if path
is a symlink then the link itself is changed, not the target.
Only numeric uid and gid are supported. If you want to use names, you will need to locate and parse the password file yourself (Augeas support makes this relatively easy).
This function returns 0 on success or -1 on error.
(Added in 1.0.77)
int
guestfs_ldmtool_create_all (guestfs_h *g);
This function scans all block devices looking for Windows dynamic disk volumes and partitions, and creates devices for any that were found.
Call guestfs_list_ldm_volumes
and guestfs_list_ldm_partitions
to return all devices.
Note that you don't normally need to call this explicitly, since it is done automatically at guestfs_launch
time.
This function returns 0 on success or -1 on error.
This function depends on the feature ldm
. See also "guestfs_feature_available".
(Added in 1.20.0)
char **
guestfs_ldmtool_diskgroup_disks (guestfs_h *g,
const char *diskgroup);
Return the disks in a Windows dynamic disk group. The diskgroup
parameter should be the GUID of a disk group, one element from the list returned by guestfs_ldmtool_scan
.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
This function depends on the feature ldm
. See also "guestfs_feature_available".
(Added in 1.20.0)
char *
guestfs_ldmtool_diskgroup_name (guestfs_h *g,
const char *diskgroup);
Return the name of a Windows dynamic disk group. The diskgroup
parameter should be the GUID of a disk group, one element from the list returned by guestfs_ldmtool_scan
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
This function depends on the feature ldm
. See also "guestfs_feature_available".
(Added in 1.20.0)
char **
guestfs_ldmtool_diskgroup_volumes (guestfs_h *g,
const char *diskgroup);
Return the volumes in a Windows dynamic disk group. The diskgroup
parameter should be the GUID of a disk group, one element from the list returned by guestfs_ldmtool_scan
.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
This function depends on the feature ldm
. See also "guestfs_feature_available".
(Added in 1.20.0)
int
guestfs_ldmtool_remove_all (guestfs_h *g);
This is essentially the opposite of guestfs_ldmtool_create_all
. It removes the device mapper mappings for all Windows dynamic disk volumes
This function returns 0 on success or -1 on error.
This function depends on the feature ldm
. See also "guestfs_feature_available".
(Added in 1.20.0)
char **
guestfs_ldmtool_scan (guestfs_h *g);
This function scans for Windows dynamic disks. It returns a list of identifiers (GUIDs) for all disk groups that were found. These identifiers can be passed to other guestfs_ldmtool_*
functions.
This function scans all block devices. To scan a subset of block devices, call guestfs_ldmtool_scan_devices
instead.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
This function depends on the feature ldm
. See also "guestfs_feature_available".
(Added in 1.20.0)
char **
guestfs_ldmtool_scan_devices (guestfs_h *g,
char *const *devices);
This function scans for Windows dynamic disks. It returns a list of identifiers (GUIDs) for all disk groups that were found. These identifiers can be passed to other guestfs_ldmtool_*
functions.
The parameter devices
is a list of block devices which are scanned. If this list is empty, all block devices are scanned.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
This function depends on the feature ldm
. See also "guestfs_feature_available".
(Added in 1.20.0)
char *
guestfs_ldmtool_volume_hint (guestfs_h *g,
const char *diskgroup,
const char *volume);
Return the hint field of the volume named volume
in the disk group with GUID diskgroup
. This may not be defined, in which case the empty string is returned. The hint field is often, though not always, the name of a Windows drive, eg. E:
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
This function depends on the feature ldm
. See also "guestfs_feature_available".
(Added in 1.20.0)
char **
guestfs_ldmtool_volume_partitions (guestfs_h *g,
const char *diskgroup,
const char *volume);
Return the list of partitions in the volume named volume
in the disk group with GUID diskgroup
.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
This function depends on the feature ldm
. See also "guestfs_feature_available".
(Added in 1.20.0)
char *
guestfs_ldmtool_volume_type (guestfs_h *g,
const char *diskgroup,
const char *volume);
Return the type of the volume named volume
in the disk group with GUID diskgroup
.
Possible volume types that can be returned here include: simple
, spanned
, striped
, mirrored
, raid5
. Other types may also be returned.
This function returns a string, or NULL on error. The caller must free the returned string after use.
This function depends on the feature ldm
. See also "guestfs_feature_available".
(Added in 1.20.0)
char *
guestfs_lgetxattr (guestfs_h *g,
const char *path,
const char *name,
size_t *size_r);
Get a single extended attribute from file path
named name
. If path
is a symlink, then this call returns an extended attribute from the symlink.
Normally it is better to get all extended attributes from a file in one go by calling guestfs_getxattrs
. However some Linux filesystem implementations are buggy and do not provide a way to list out attributes. For these filesystems (notably ntfs-3g) you have to know the names of the extended attributes you want in advance and call this function.
Extended attribute values are blobs of binary data. If there is no extended attribute named name
, this returns an error.
See also: guestfs_lgetxattrs
, guestfs_getxattr
, attr(5).
This function returns a buffer, or NULL on error. The size of the returned buffer is written to *size_r
. The caller must free the returned buffer after use.
This function depends on the feature linuxxattrs
. See also "guestfs_feature_available".
(Added in 1.7.24)
struct guestfs_xattr_list *
guestfs_lgetxattrs (guestfs_h *g,
const char *path);
This is the same as guestfs_getxattrs
, but if path
is a symbolic link, then it returns the extended attributes of the link itself.
This function returns a struct guestfs_xattr_list *
, or NULL if there was an error. The caller must call guestfs_free_xattr_list
after use.
This function depends on the feature linuxxattrs
. See also "guestfs_feature_available".
(Added in 1.0.59)
char **
guestfs_list_9p (guestfs_h *g);
This function is deprecated. There is no replacement. Consult the API documentation in guestfs(3) for further information.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This call does nothing and returns an error.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.11.12)
char **
guestfs_list_devices (guestfs_h *g);
List all the block devices.
The full block device names are returned, eg. /dev/sda.
See also guestfs_list_filesystems
.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 0.4)
char **
guestfs_list_disk_labels (guestfs_h *g);
If you add drives using the optional label
parameter of guestfs_add_drive_opts
, you can use this call to map between disk labels, and raw block device and partition names (like /dev/sda and /dev/sda1).
This returns a hashtable, where keys are the disk labels (without the /dev/disk/guestfs prefix), and the values are the full raw block device and partition names (eg. /dev/sda and /dev/sda1).
This function returns a NULL-terminated array of strings, or NULL if there was an error. The array of strings will always have length 2n+1
, where n
keys and values alternate, followed by the trailing NULL entry. The caller must free the strings and the array after use.
(Added in 1.19.49)
char **
guestfs_list_dm_devices (guestfs_h *g);
List all device mapper devices.
The returned list contains /dev/mapper/* devices, eg. ones created by a previous call to guestfs_luks_open
.
Device mapper devices which correspond to logical volumes are not returned in this list. Call guestfs_lvs
if you want to list logical volumes.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.11.15)
char **
guestfs_list_filesystems (guestfs_h *g);
This inspection command looks for filesystems on partitions, block devices and logical volumes, returning a list of mountables
containing filesystems and their type.
The return value is a hash, where the keys are the devices containing filesystems, and the values are the filesystem types. For example:
"/dev/sda1" => "ntfs"
"/dev/sda2" => "ext2"
"/dev/vg_guest/lv_root" => "ext4"
"/dev/vg_guest/lv_swap" => "swap"
The key is not necessarily a block device. It may also be an opaque ‘mountable’ string which can be passed to guestfs_mount
.
The value can have the special value "unknown", meaning the content of the device is undetermined or empty. "swap" means a Linux swap partition.
In libguestfs ≤ 1.36 this command ran other libguestfs commands, which might have included guestfs_mount
and guestfs_umount
, and therefore you had to use this soon after launch and only when nothing else was mounted. This restriction is removed in libguestfs ≥ 1.38.
Not all of the filesystems returned will be mountable. In particular, swap partitions are returned in the list. Also this command does not check that each filesystem found is valid and mountable, and some filesystems might be mountable but require special options. Filesystems may not all belong to a single logical operating system (use guestfs_inspect_os
to look for OSes).
This function returns a NULL-terminated array of strings, or NULL if there was an error. The array of strings will always have length 2n+1
, where n
keys and values alternate, followed by the trailing NULL entry. The caller must free the strings and the array after use.
(Added in 1.5.15)
char **
guestfs_list_ldm_partitions (guestfs_h *g);
This function returns all Windows dynamic disk partitions that were found at launch time. It returns a list of device names.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
This function depends on the feature ldm
. See also "guestfs_feature_available".
(Added in 1.20.0)
char **
guestfs_list_ldm_volumes (guestfs_h *g);
This function returns all Windows dynamic disk volumes that were found at launch time. It returns a list of device names.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
This function depends on the feature ldm
. See also "guestfs_feature_available".
(Added in 1.20.0)
char **
guestfs_list_md_devices (guestfs_h *g);
List all Linux md devices.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.15.4)
char **
guestfs_list_partitions (guestfs_h *g);
List all the partitions detected on all block devices.
The full partition device names are returned, eg. /dev/sda1
This does not return logical volumes. For that you will need to call guestfs_lvs
.
See also guestfs_list_filesystems
.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 0.4)
char *
guestfs_ll (guestfs_h *g,
const char *directory);
List the files in directory (relative to the root directory, there is no cwd) in the format of ls -la
.
This command is mostly useful for interactive sessions. It is not intended that you try to parse the output string.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 0.4)
char *
guestfs_llz (guestfs_h *g,
const char *directory);
This function is deprecated. In new code, use the "guestfs_lgetxattrs" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
List the files in directory in the format of ls -laZ
.
This command is mostly useful for interactive sessions. It is not intended that you try to parse the output string.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.17.6)
int
guestfs_ln (guestfs_h *g,
const char *target,
const char *linkname);
This command creates a hard link.
This function returns 0 on success or -1 on error.
(Added in 1.0.66)
int
guestfs_ln_f (guestfs_h *g,
const char *target,
const char *linkname);
This command creates a hard link, removing the link linkname
if it exists already.
This function returns 0 on success or -1 on error.
(Added in 1.0.66)
int
guestfs_ln_s (guestfs_h *g,
const char *target,
const char *linkname);
This command creates a symbolic link using the ln -s
command.
This function returns 0 on success or -1 on error.
(Added in 1.0.66)
int
guestfs_ln_sf (guestfs_h *g,
const char *target,
const char *linkname);
This command creates a symbolic link using the ln -sf
command, The -f option removes the link (linkname
) if it exists already.
This function returns 0 on success or -1 on error.
(Added in 1.0.66)
int
guestfs_lremovexattr (guestfs_h *g,
const char *xattr,
const char *path);
This is the same as guestfs_removexattr
, but if path
is a symbolic link, then it removes an extended attribute of the link itself.
This function returns 0 on success or -1 on error.
This function depends on the feature linuxxattrs
. See also "guestfs_feature_available".
(Added in 1.0.59)
char **
guestfs_ls (guestfs_h *g,
const char *directory);
List the files in directory (relative to the root directory, there is no cwd). The .
and ..
entries are not returned, but hidden files are shown.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 0.4)
int
guestfs_ls0 (guestfs_h *g,
const char *dir,
const char *filenames);
This specialized command is used to get a listing of the filenames in the directory dir
. The list of filenames is written to the local file filenames (on the host).
In the output file, the filenames are separated by \0
characters.
.
and ..
are not returned. The filenames are not sorted.
This function returns 0 on success or -1 on error.
(Added in 1.19.32)
int
guestfs_lsetxattr (guestfs_h *g,
const char *xattr,
const char *val,
int vallen,
const char *path);
This is the same as guestfs_setxattr
, but if path
is a symbolic link, then it sets an extended attribute of the link itself.
This function returns 0 on success or -1 on error.
This function depends on the feature linuxxattrs
. See also "guestfs_feature_available".
(Added in 1.0.59)
struct guestfs_stat *
guestfs_lstat (guestfs_h *g,
const char *path);
This function is deprecated. In new code, use the "guestfs_lstatns" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
Returns file information for the given path
.
This is the same as guestfs_stat
except that if path
is a symbolic link, then the link is stat-ed, not the file it refers to.
This is the same as the lstat(2) system call.
This function returns a struct guestfs_stat *
, or NULL if there was an error. The caller must call guestfs_free_stat
after use.
(Added in 1.9.2)
struct guestfs_stat_list *
guestfs_lstatlist (guestfs_h *g,
const char *path,
char *const *names);
This function is deprecated. In new code, use the "guestfs_lstatnslist" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This call allows you to perform the guestfs_lstat
operation on multiple files, where all files are in the directory path
. names
is the list of files from this directory.
On return you get a list of stat structs, with a one-to-one correspondence to the names
list. If any name did not exist or could not be lstat'd, then the st_ino
field of that structure is set to -1
.
This call is intended for programs that want to efficiently list a directory contents without making many round-trips. See also guestfs_lxattrlist
for a similarly efficient call for getting extended attributes.
This function returns a struct guestfs_stat_list *
, or NULL if there was an error. The caller must call guestfs_free_stat_list
after use.
(Added in 1.0.77)
struct guestfs_statns *
guestfs_lstatns (guestfs_h *g,
const char *path);
Returns file information for the given path
.
This is the same as guestfs_statns
except that if path
is a symbolic link, then the link is stat-ed, not the file it refers to.
This is the same as the lstat(2) system call.
This function returns a struct guestfs_statns *
, or NULL if there was an error. The caller must call guestfs_free_statns
after use.
(Added in 1.27.53)
struct guestfs_statns_list *
guestfs_lstatnslist (guestfs_h *g,
const char *path,
char *const *names);
This call allows you to perform the guestfs_lstatns
operation on multiple files, where all files are in the directory path
. names
is the list of files from this directory.
On return you get a list of stat structs, with a one-to-one correspondence to the names
list. If any name did not exist or could not be lstat'd, then the st_ino
field of that structure is set to -1
.
This call is intended for programs that want to efficiently list a directory contents without making many round-trips. See also guestfs_lxattrlist
for a similarly efficient call for getting extended attributes.
This function returns a struct guestfs_statns_list *
, or NULL if there was an error. The caller must call guestfs_free_statns_list
after use.
(Added in 1.27.53)
int
guestfs_luks_add_key (guestfs_h *g,
const char *device,
const char *key,
const char *newkey,
int keyslot);
This command adds a new key on LUKS device device
. key
is any existing key, and is used to access the device. newkey
is the new key to add. keyslot
is the key slot that will be replaced.
Note that if keyslot
already contains a key, then this command will fail. You have to use guestfs_luks_kill_slot
first to remove that key.
This function returns 0 on success or -1 on error.
This function takes a key or passphrase parameter which could contain sensitive material. Read the section "KEYS AND PASSPHRASES" for more information.
This function depends on the feature luks
. See also "guestfs_feature_available".
(Added in 1.5.2)
int
guestfs_luks_close (guestfs_h *g,
const char *device);
This function is deprecated. In new code, use the "guestfs_cryptsetup_close" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This closes a LUKS device that was created earlier by guestfs_luks_open
or guestfs_luks_open_ro
. The device
parameter must be the name of the LUKS mapping device (ie. /dev/mapper/mapname) and not the name of the underlying block device.
This function returns 0 on success or -1 on error.
This function depends on the feature luks
. See also "guestfs_feature_available".
(Added in 1.5.1)
int
guestfs_luks_format (guestfs_h *g,
const char *device,
const char *key,
int keyslot);
This command erases existing data on device
and formats the device as a LUKS encrypted device. key
is the initial key, which is added to key slot keyslot
. (LUKS supports 8 key slots, numbered 0-7).
This function returns 0 on success or -1 on error.
This function takes a key or passphrase parameter which could contain sensitive material. Read the section "KEYS AND PASSPHRASES" for more information.
This function depends on the feature luks
. See also "guestfs_feature_available".
(Added in 1.5.2)
int
guestfs_luks_format_cipher (guestfs_h *g,
const char *device,
const char *key,
int keyslot,
const char *cipher);
This command is the same as guestfs_luks_format
but it also allows you to set the cipher
used.
This function returns 0 on success or -1 on error.
This function takes a key or passphrase parameter which could contain sensitive material. Read the section "KEYS AND PASSPHRASES" for more information.
This function depends on the feature luks
. See also "guestfs_feature_available".
(Added in 1.5.2)
int
guestfs_luks_kill_slot (guestfs_h *g,
const char *device,
const char *key,
int keyslot);
This command deletes the key in key slot keyslot
from the encrypted LUKS device device
. key
must be one of the other keys.
This function returns 0 on success or -1 on error.
This function takes a key or passphrase parameter which could contain sensitive material. Read the section "KEYS AND PASSPHRASES" for more information.
This function depends on the feature luks
. See also "guestfs_feature_available".
(Added in 1.5.2)
int
guestfs_luks_open (guestfs_h *g,
const char *device,
const char *key,
const char *mapname);
This function is deprecated. In new code, use the "guestfs_cryptsetup_open" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This command opens a block device which has been encrypted according to the Linux Unified Key Setup (LUKS) standard.
device
is the encrypted block device or partition.
The caller must supply one of the keys associated with the LUKS block device, in the key
parameter.
This creates a new block device called /dev/mapper/mapname. Reads and writes to this block device are decrypted from and encrypted to the underlying device
respectively.
If this block device contains LVM volume groups, then calling guestfs_lvm_scan
with the activate
parameter true
will make them visible.
Use guestfs_list_dm_devices
to list all device mapper devices.
This function returns 0 on success or -1 on error.
This function takes a key or passphrase parameter which could contain sensitive material. Read the section "KEYS AND PASSPHRASES" for more information.
This function depends on the feature luks
. See also "guestfs_feature_available".
(Added in 1.5.1)
int
guestfs_luks_open_ro (guestfs_h *g,
const char *device,
const char *key,
const char *mapname);
This function is deprecated. In new code, use the "guestfs_cryptsetup_open" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This is the same as guestfs_luks_open
except that a read-only mapping is created.
This function returns 0 on success or -1 on error.
This function takes a key or passphrase parameter which could contain sensitive material. Read the section "KEYS AND PASSPHRASES" for more information.
This function depends on the feature luks
. See also "guestfs_feature_available".
(Added in 1.5.1)
char *
guestfs_luks_uuid (guestfs_h *g,
const char *device);
This returns the UUID of the LUKS device device
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
This function depends on the feature luks
. See also "guestfs_feature_available".
(Added in 1.41.9)
int
guestfs_lvcreate (guestfs_h *g,
const char *logvol,
const char *volgroup,
int mbytes);
This creates an LVM logical volume called logvol
on the volume group volgroup
, with size
megabytes.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 0.8)
int
guestfs_lvcreate_free (guestfs_h *g,
const char *logvol,
const char *volgroup,
int percent);
Create an LVM logical volume called /dev/volgroup/logvol, using approximately percent
% of the free space remaining in the volume group. Most usefully, when percent
is 100
this will create the largest possible LV.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.17.18)
char *
guestfs_lvm_canonical_lv_name (guestfs_h *g,
const char *lvname);
This converts alternative naming schemes for LVs that you might find to the canonical name. For example, /dev/mapper/VG-LV is converted to /dev/VG/LV.
This command returns an error if the lvname
parameter does not refer to a logical volume. In this case errno will be set to EINVAL
.
See also guestfs_is_lv
, guestfs_canonical_device_name
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.5.24)
int
guestfs_lvm_clear_filter (guestfs_h *g);
This undoes the effect of guestfs_lvm_set_filter
. LVM will be able to see every block device.
This command also clears the LVM cache and performs a volume group scan.
This function returns 0 on success or -1 on error.
(Added in 1.5.1)
int
guestfs_lvm_remove_all (guestfs_h *g);
This command removes all LVM logical volumes, volume groups and physical volumes.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 0.8)
int
guestfs_lvm_scan (guestfs_h *g,
int activate);
This scans all block devices and rebuilds the list of LVM physical volumes, volume groups and logical volumes.
If the activate
parameter is true
then newly found volume groups and logical volumes are activated, meaning the LV /dev/VG/LV devices become visible.
When a libguestfs handle is launched it scans for existing devices, so you do not normally need to use this API. However it is useful when you have added a new device or deleted an existing device (such as when the guestfs_luks_open
API is used).
This function returns 0 on success or -1 on error.
(Added in 1.39.8)
int
guestfs_lvm_set_filter (guestfs_h *g,
char *const *devices);
This sets the LVM device filter so that LVM will only be able to "see" the block devices in the list devices
, and will ignore all other attached block devices.
Where disk image(s) contain duplicate PVs or VGs, this command is useful to get LVM to ignore the duplicates, otherwise LVM can get confused. Note also there are two types of duplication possible: either cloned PVs/VGs which have identical UUIDs; or VGs that are not cloned but just happen to have the same name. In normal operation you cannot create this situation, but you can do it outside LVM, eg. by cloning disk images or by bit twiddling inside the LVM metadata.
This command also clears the LVM cache and performs a volume group scan.
You can filter whole block devices or individual partitions.
You cannot use this if any VG is currently in use (eg. contains a mounted filesystem), even if you are not filtering out that VG.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.5.1)
int
guestfs_lvremove (guestfs_h *g,
const char *device);
Remove an LVM logical volume device
, where device
is the path to the LV, such as /dev/VG/LV.
You can also remove all LVs in a volume group by specifying the VG name, /dev/VG.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.0.13)
int
guestfs_lvrename (guestfs_h *g,
const char *logvol,
const char *newlogvol);
Rename a logical volume logvol
with the new name newlogvol
.
This function returns 0 on success or -1 on error.
(Added in 1.0.83)
int
guestfs_lvresize (guestfs_h *g,
const char *device,
int mbytes);
This resizes (expands or shrinks) an existing LVM logical volume to mbytes
. When reducing, data in the reduced part is lost.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.0.27)
int
guestfs_lvresize_free (guestfs_h *g,
const char *lv,
int percent);
This expands an existing logical volume lv
so that it fills pc
% of the remaining free space in the volume group. Commonly you would call this with pc = 100 which expands the logical volume as much as possible, using all remaining free space in the volume group.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.3.3)
char **
guestfs_lvs (guestfs_h *g);
List all the logical volumes detected. This is the equivalent of the lvs(8) command.
This returns a list of the logical volume device names (eg. /dev/VolGroup00/LogVol00).
See also guestfs_lvs_full
, guestfs_list_filesystems
.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 0.4)
struct guestfs_lvm_lv_list *
guestfs_lvs_full (guestfs_h *g);
List all the logical volumes detected. This is the equivalent of the lvs(8) command. The "full" version includes all fields.
This function returns a struct guestfs_lvm_lv_list *
, or NULL if there was an error. The caller must call guestfs_free_lvm_lv_list
after use.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 0.4)
char *
guestfs_lvuuid (guestfs_h *g,
const char *device);
This command returns the UUID of the LVM LV device
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.87)
struct guestfs_xattr_list *
guestfs_lxattrlist (guestfs_h *g,
const char *path,
char *const *names);
This call allows you to get the extended attributes of multiple files, where all files are in the directory path
. names
is the list of files from this directory.
On return you get a flat list of xattr structs which must be interpreted sequentially. The first xattr struct always has a zero-length attrname
. attrval
in this struct is zero-length to indicate there was an error doing guestfs_lgetxattr
for this file, or is a C string which is a decimal number (the number of following attributes for this file, which could be "0"
). Then after the first xattr struct are the zero or more attributes for the first named file. This repeats for the second and subsequent files.
This call is intended for programs that want to efficiently list a directory contents without making many round-trips. See also guestfs_lstatlist
for a similarly efficient call for getting standard stats.
This function returns a struct guestfs_xattr_list *
, or NULL if there was an error. The caller must call guestfs_free_xattr_list
after use.
This function depends on the feature linuxxattrs
. See also "guestfs_feature_available".
(Added in 1.0.77)
int
guestfs_max_disks (guestfs_h *g);
Return the maximum number of disks that may be added to a handle (eg. by guestfs_add_drive_opts
and similar calls).
This function was added in libguestfs 1.19.7. In previous versions of libguestfs the limit was 25.
See "MAXIMUM NUMBER OF DISKS" for additional information on this topic.
On error this function returns -1.
(Added in 1.19.7)
int
guestfs_md_create (guestfs_h *g,
const char *name,
char *const *devices,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_MD_CREATE_MISSINGBITMAP, int64_t missingbitmap,
GUESTFS_MD_CREATE_NRDEVICES, int nrdevices,
GUESTFS_MD_CREATE_SPARE, int spare,
GUESTFS_MD_CREATE_CHUNK, int64_t chunk,
GUESTFS_MD_CREATE_LEVEL, const char *level,
Create a Linux md (RAID) device named name
on the devices in the list devices
.
The optional parameters are:
missingbitmap
A bitmap of missing devices. If a bit is set it means that a missing device is added to the array. The least significant bit corresponds to the first device in the array.
As examples:
If devices = ["/dev/sda"]
and missingbitmap = 0x1
then the resulting array would be [<missing>, "/dev/sda"]
.
If devices = ["/dev/sda"]
and missingbitmap = 0x2
then the resulting array would be ["/dev/sda", <missing>]
.
This defaults to 0
(no missing devices).
The length of devices
+ the number of bits set in missingbitmap
must equal nrdevices
+ spare
.
nrdevices
The number of active RAID devices.
If not set, this defaults to the length of devices
plus the number of bits set in missingbitmap
.
spare
The number of spare devices.
If not set, this defaults to 0
.
chunk
The chunk size in bytes.
The chunk
parameter does not make sense, and should not be specified, when level
is raid1
(which is the default; see below).
level
The RAID level, which can be one of: linear
, raid0
, 0
, stripe
, raid1
, 1
, mirror
, raid4
, 4
, raid5
, 5
, raid6
, 6
, raid10
, 10
. Some of these are synonymous, and more levels may be added in future.
If not set, this defaults to raid1
.
This function returns 0 on success or -1 on error.
This function depends on the feature mdadm
. See also "guestfs_feature_available".
(Added in 1.15.6)
int
guestfs_md_create_va (guestfs_h *g,
const char *name,
char *const *devices,
va_list args);
This is the "va_list variant" of "guestfs_md_create".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_md_create_argv (guestfs_h *g,
const char *name,
char *const *devices,
const struct guestfs_md_create_argv *optargs);
This is the "argv variant" of "guestfs_md_create".
See "CALLS WITH OPTIONAL ARGUMENTS".
char **
guestfs_md_detail (guestfs_h *g,
const char *md);
This command exposes the output of mdadm -DY <md>
. The following fields are usually present in the returned hash. Other fields may also be present.
level
The raid level of the MD device.
devices
The number of underlying devices in the MD device.
metadata
The metadata version used.
uuid
The UUID of the MD device.
name
The name of the MD device.
This function returns a NULL-terminated array of strings, or NULL if there was an error. The array of strings will always have length 2n+1
, where n
keys and values alternate, followed by the trailing NULL entry. The caller must free the strings and the array after use.
This function depends on the feature mdadm
. See also "guestfs_feature_available".
(Added in 1.15.6)
struct guestfs_mdstat_list *
guestfs_md_stat (guestfs_h *g,
const char *md);
This call returns a list of the underlying devices which make up the single software RAID array device md
.
To get a list of software RAID devices, call guestfs_list_md_devices
.
Each structure returned corresponds to one device along with additional status information:
mdstat_device
The name of the underlying device.
mdstat_index
The index of this device within the array.
mdstat_flags
Flags associated with this device. This is a string containing (in no specific order) zero or more of the following flags:
W
write-mostly
F
device is faulty
S
device is a RAID spare
R
replacement
This function returns a struct guestfs_mdstat_list *
, or NULL if there was an error. The caller must call guestfs_free_mdstat_list
after use.
This function depends on the feature mdadm
. See also "guestfs_feature_available".
(Added in 1.17.21)
int
guestfs_md_stop (guestfs_h *g,
const char *md);
This command deactivates the MD array named md
. The device is stopped, but it is not destroyed or zeroed.
This function returns 0 on success or -1 on error.
This function depends on the feature mdadm
. See also "guestfs_feature_available".
(Added in 1.15.6)
int
guestfs_mkdir (guestfs_h *g,
const char *path);
Create a directory named path
.
This function returns 0 on success or -1 on error.
(Added in 0.8)
int
guestfs_mkdir_mode (guestfs_h *g,
const char *path,
int mode);
This command creates a directory, setting the initial permissions of the directory to mode
.
For common Linux filesystems, the actual mode which is set will be mode & ~umask & 01777
. Non-native-Linux filesystems may interpret the mode in other ways.
See also guestfs_mkdir
, guestfs_umask
This function returns 0 on success or -1 on error.
(Added in 1.0.77)
int
guestfs_mkdir_p (guestfs_h *g,
const char *path);
Create a directory named path
, creating any parent directories as necessary. This is like the mkdir -p
shell command.
This function returns 0 on success or -1 on error.
(Added in 0.8)
char *
guestfs_mkdtemp (guestfs_h *g,
const char *tmpl);
This command creates a temporary directory. The tmpl
parameter should be a full pathname for the temporary directory name with the final six characters being "XXXXXX".
For example: "/tmp/myprogXXXXXX" or "/Temp/myprogXXXXXX", the second one being suitable for Windows filesystems.
The name of the temporary directory that was created is returned.
The temporary directory is created with mode 0700 and is owned by root.
The caller is responsible for deleting the temporary directory and its contents after use.
See also: mkdtemp(3)
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.54)
int
guestfs_mke2fs (guestfs_h *g,
const char *device,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_MKE2FS_BLOCKSCOUNT, int64_t blockscount,
GUESTFS_MKE2FS_BLOCKSIZE, int64_t blocksize,
GUESTFS_MKE2FS_FRAGSIZE, int64_t fragsize,
GUESTFS_MKE2FS_BLOCKSPERGROUP, int64_t blockspergroup,
GUESTFS_MKE2FS_NUMBEROFGROUPS, int64_t numberofgroups,
GUESTFS_MKE2FS_BYTESPERINODE, int64_t bytesperinode,
GUESTFS_MKE2FS_INODESIZE, int64_t inodesize,
GUESTFS_MKE2FS_JOURNALSIZE, int64_t journalsize,
GUESTFS_MKE2FS_NUMBEROFINODES, int64_t numberofinodes,
GUESTFS_MKE2FS_STRIDESIZE, int64_t stridesize,
GUESTFS_MKE2FS_STRIPEWIDTH, int64_t stripewidth,
GUESTFS_MKE2FS_MAXONLINERESIZE, int64_t maxonlineresize,
GUESTFS_MKE2FS_RESERVEDBLOCKSPERCENTAGE, int reservedblockspercentage,
GUESTFS_MKE2FS_MMPUPDATEINTERVAL, int mmpupdateinterval,
GUESTFS_MKE2FS_JOURNALDEVICE, const char *journaldevice,
GUESTFS_MKE2FS_LABEL, const char *label,
GUESTFS_MKE2FS_LASTMOUNTEDDIR, const char *lastmounteddir,
GUESTFS_MKE2FS_CREATOROS, const char *creatoros,
GUESTFS_MKE2FS_FSTYPE, const char *fstype,
GUESTFS_MKE2FS_USAGETYPE, const char *usagetype,
GUESTFS_MKE2FS_UUID, const char *uuid,
GUESTFS_MKE2FS_FORCECREATE, int forcecreate,
GUESTFS_MKE2FS_WRITESBANDGROUPONLY, int writesbandgrouponly,
GUESTFS_MKE2FS_LAZYITABLEINIT, int lazyitableinit,
GUESTFS_MKE2FS_LAZYJOURNALINIT, int lazyjournalinit,
GUESTFS_MKE2FS_TESTFS, int testfs,
GUESTFS_MKE2FS_DISCARD, int discard,
GUESTFS_MKE2FS_QUOTATYPE, int quotatype,
GUESTFS_MKE2FS_EXTENT, int extent,
GUESTFS_MKE2FS_FILETYPE, int filetype,
GUESTFS_MKE2FS_FLEXBG, int flexbg,
GUESTFS_MKE2FS_HASJOURNAL, int hasjournal,
GUESTFS_MKE2FS_JOURNALDEV, int journaldev,
GUESTFS_MKE2FS_LARGEFILE, int largefile,
GUESTFS_MKE2FS_QUOTA, int quota,
GUESTFS_MKE2FS_RESIZEINODE, int resizeinode,
GUESTFS_MKE2FS_SPARSESUPER, int sparsesuper,
GUESTFS_MKE2FS_UNINITBG, int uninitbg,
mke2fs
is used to create an ext2, ext3, or ext4 filesystem on device
.
The optional blockscount
is the size of the filesystem in blocks. If omitted it defaults to the size of device
. Note if the filesystem is too small to contain a journal, mke2fs
will silently create an ext2 filesystem instead.
This function returns 0 on success or -1 on error.
(Added in 1.19.44)
int
guestfs_mke2fs_va (guestfs_h *g,
const char *device,
va_list args);
This is the "va_list variant" of "guestfs_mke2fs".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mke2fs_argv (guestfs_h *g,
const char *device,
const struct guestfs_mke2fs_argv *optargs);
This is the "argv variant" of "guestfs_mke2fs".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mke2fs_J (guestfs_h *g,
const char *fstype,
int blocksize,
const char *device,
const char *journal);
This function is deprecated. In new code, use the "guestfs_mke2fs" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This creates an ext2/3/4 filesystem on device
with an external journal on journal
. It is equivalent to the command:
mke2fs -t fstype -b blocksize -J device=<journal> <device>
See also guestfs_mke2journal
.
This function returns 0 on success or -1 on error.
(Added in 1.0.68)
int
guestfs_mke2fs_JL (guestfs_h *g,
const char *fstype,
int blocksize,
const char *device,
const char *label);
This function is deprecated. In new code, use the "guestfs_mke2fs" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This creates an ext2/3/4 filesystem on device
with an external journal on the journal labeled label
.
See also guestfs_mke2journal_L
.
This function returns 0 on success or -1 on error.
(Added in 1.0.68)
int
guestfs_mke2fs_JU (guestfs_h *g,
const char *fstype,
int blocksize,
const char *device,
const char *uuid);
This function is deprecated. In new code, use the "guestfs_mke2fs" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This creates an ext2/3/4 filesystem on device
with an external journal on the journal with UUID uuid
.
See also guestfs_mke2journal_U
.
This function returns 0 on success or -1 on error.
This function depends on the feature linuxfsuuid
. See also "guestfs_feature_available".
(Added in 1.0.68)
int
guestfs_mke2journal (guestfs_h *g,
int blocksize,
const char *device);
This function is deprecated. In new code, use the "guestfs_mke2fs" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This creates an ext2 external journal on device
. It is equivalent to the command:
mke2fs -O journal_dev -b blocksize device
This function returns 0 on success or -1 on error.
(Added in 1.0.68)
int
guestfs_mke2journal_L (guestfs_h *g,
int blocksize,
const char *label,
const char *device);
This function is deprecated. In new code, use the "guestfs_mke2fs" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This creates an ext2 external journal on device
with label label
.
This function returns 0 on success or -1 on error.
(Added in 1.0.68)
int
guestfs_mke2journal_U (guestfs_h *g,
int blocksize,
const char *uuid,
const char *device);
This function is deprecated. In new code, use the "guestfs_mke2fs" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This creates an ext2 external journal on device
with UUID uuid
.
This function returns 0 on success or -1 on error.
This function depends on the feature linuxfsuuid
. See also "guestfs_feature_available".
(Added in 1.0.68)
int
guestfs_mkfifo (guestfs_h *g,
int mode,
const char *path);
This call creates a FIFO (named pipe) called path
with mode mode
. It is just a convenient wrapper around guestfs_mknod
.
Unlike with guestfs_mknod
, mode
must contain only permissions bits.
The mode actually set is affected by the umask.
This function returns 0 on success or -1 on error.
This function depends on the feature mknod
. See also "guestfs_feature_available".
(Added in 1.0.55)
int
guestfs_mkfs (guestfs_h *g,
const char *fstype,
const char *device);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_mkfs_opts" with no optional arguments.
(Added in 0.8)
int
guestfs_mkfs_opts (guestfs_h *g,
const char *fstype,
const char *device,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_MKFS_OPTS_BLOCKSIZE, int blocksize,
GUESTFS_MKFS_OPTS_FEATURES, const char *features,
GUESTFS_MKFS_OPTS_INODE, int inode,
GUESTFS_MKFS_OPTS_SECTORSIZE, int sectorsize,
GUESTFS_MKFS_OPTS_LABEL, const char *label,
This function creates a filesystem on device
. The filesystem type is fstype
, for example ext3
.
The optional arguments are:
blocksize
The filesystem block size. Supported block sizes depend on the filesystem type, but typically they are 1024
, 2048
or 4096
for Linux ext2/3 filesystems.
For VFAT and NTFS the blocksize
parameter is treated as the requested cluster size.
For UFS block sizes, please see mkfs.ufs(8).
features
This passes the -O parameter to the external mkfs program.
For certain filesystem types, this allows extra filesystem features to be selected. See mke2fs(8) and mkfs.ufs(8) for more details.
You cannot use this optional parameter with the gfs
or gfs2
filesystem type.
inode
This passes the -I parameter to the external mke2fs(8) program which sets the inode size (only for ext2/3/4 filesystems at present).
sectorsize
This passes the -S parameter to external mkfs.ufs(8) program, which sets sector size for ufs filesystem.
This function returns 0 on success or -1 on error.
(Added in 0.8)
int
guestfs_mkfs_opts_va (guestfs_h *g,
const char *fstype,
const char *device,
va_list args);
This is the "va_list variant" of "guestfs_mkfs_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mkfs_opts_argv (guestfs_h *g,
const char *fstype,
const char *device,
const struct guestfs_mkfs_opts_argv *optargs);
This is the "argv variant" of "guestfs_mkfs_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mkfs_b (guestfs_h *g,
const char *fstype,
int blocksize,
const char *device);
This function is deprecated. In new code, use the "guestfs_mkfs" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This call is similar to guestfs_mkfs
, but it allows you to control the block size of the resulting filesystem. Supported block sizes depend on the filesystem type, but typically they are 1024
, 2048
or 4096
only.
For VFAT and NTFS the blocksize
parameter is treated as the requested cluster size.
This function returns 0 on success or -1 on error.
(Added in 1.0.68)
int
guestfs_mkfs_btrfs (guestfs_h *g,
char *const *devices,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_MKFS_BTRFS_ALLOCSTART, int64_t allocstart,
GUESTFS_MKFS_BTRFS_BYTECOUNT, int64_t bytecount,
GUESTFS_MKFS_BTRFS_DATATYPE, const char *datatype,
GUESTFS_MKFS_BTRFS_LEAFSIZE, int leafsize,
GUESTFS_MKFS_BTRFS_LABEL, const char *label,
GUESTFS_MKFS_BTRFS_METADATA, const char *metadata,
GUESTFS_MKFS_BTRFS_NODESIZE, int nodesize,
GUESTFS_MKFS_BTRFS_SECTORSIZE, int sectorsize,
Create a btrfs filesystem, allowing all configurables to be set. For more information on the optional arguments, see mkfs.btrfs(8).
Since btrfs filesystems can span multiple devices, this takes a non-empty list of devices.
To create general filesystems, use guestfs_mkfs
.
This function returns 0 on success or -1 on error.
This function depends on the feature btrfs
. See also "guestfs_feature_available".
(Added in 1.17.25)
int
guestfs_mkfs_btrfs_va (guestfs_h *g,
char *const *devices,
va_list args);
This is the "va_list variant" of "guestfs_mkfs_btrfs".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mkfs_btrfs_argv (guestfs_h *g,
char *const *devices,
const struct guestfs_mkfs_btrfs_argv *optargs);
This is the "argv variant" of "guestfs_mkfs_btrfs".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mklost_and_found (guestfs_h *g,
const char *mountpoint);
Make the lost+found
directory, normally in the root directory of an ext2/3/4 filesystem. mountpoint
is the directory under which we try to create the lost+found
directory.
This function returns 0 on success or -1 on error.
(Added in 1.19.56)
int
guestfs_mkmountpoint (guestfs_h *g,
const char *exemptpath);
guestfs_mkmountpoint
and guestfs_rmmountpoint
are specialized calls that can be used to create extra mountpoints before mounting the first filesystem.
These calls are only necessary in some very limited circumstances, mainly the case where you want to mount a mix of unrelated and/or read-only filesystems together.
For example, live CDs often contain a "Russian doll" nest of filesystems, an ISO outer layer, with a squashfs image inside, with an ext2/3 image inside that. You can unpack this as follows in guestfish:
add-ro Fedora-11-i686-Live.iso
run
mkmountpoint /cd
mkmountpoint /sqsh
mkmountpoint /ext3fs
mount /dev/sda /cd
mount-loop /cd/LiveOS/squashfs.img /sqsh
mount-loop /sqsh/LiveOS/ext3fs.img /ext3fs
The inner filesystem is now unpacked under the /ext3fs mountpoint.
guestfs_mkmountpoint
is not compatible with guestfs_umount_all
. You may get unexpected errors if you try to mix these calls. It is safest to manually unmount filesystems and remove mountpoints after use.
guestfs_umount_all
unmounts filesystems by sorting the paths longest first, so for this to work for manual mountpoints, you must ensure that the innermost mountpoints have the longest pathnames, as in the example code above.
For more details see https://bugzilla.redhat.com/show_bug.cgi?id=599503
Autosync [see guestfs_set_autosync
, this is set by default on handles] can cause guestfs_umount_all
to be called when the handle is closed which can also trigger these issues.
This function returns 0 on success or -1 on error.
(Added in 1.0.62)
int
guestfs_mknod (guestfs_h *g,
int mode,
int devmajor,
int devminor,
const char *path);
This call creates block or character special devices, or named pipes (FIFOs).
The mode
parameter should be the mode, using the standard constants. devmajor
and devminor
are the device major and minor numbers, only used when creating block and character special devices.
Note that, just like mknod(2), the mode must be bitwise OR'd with S_IFBLK, S_IFCHR, S_IFIFO or S_IFSOCK (otherwise this call just creates a regular file). These constants are available in the standard Linux header files, or you can use guestfs_mknod_b
, guestfs_mknod_c
or guestfs_mkfifo
which are wrappers around this command which bitwise OR in the appropriate constant for you.
The mode actually set is affected by the umask.
This function returns 0 on success or -1 on error.
This function depends on the feature mknod
. See also "guestfs_feature_available".
(Added in 1.0.55)
int
guestfs_mknod_b (guestfs_h *g,
int mode,
int devmajor,
int devminor,
const char *path);
This call creates a block device node called path
with mode mode
and device major/minor devmajor
and devminor
. It is just a convenient wrapper around guestfs_mknod
.
Unlike with guestfs_mknod
, mode
must contain only permissions bits.
The mode actually set is affected by the umask.
This function returns 0 on success or -1 on error.
This function depends on the feature mknod
. See also "guestfs_feature_available".
(Added in 1.0.55)
int
guestfs_mknod_c (guestfs_h *g,
int mode,
int devmajor,
int devminor,
const char *path);
This call creates a char device node called path
with mode mode
and device major/minor devmajor
and devminor
. It is just a convenient wrapper around guestfs_mknod
.
Unlike with guestfs_mknod
, mode
must contain only permissions bits.
The mode actually set is affected by the umask.
This function returns 0 on success or -1 on error.
This function depends on the feature mknod
. See also "guestfs_feature_available".
(Added in 1.0.55)
int
guestfs_mksquashfs (guestfs_h *g,
const char *path,
const char *filename,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_MKSQUASHFS_COMPRESS, const char *compress,
GUESTFS_MKSQUASHFS_EXCLUDES, char *const *excludes,
Create a squashfs filesystem for the specified path
.
The optional compress
flag controls compression. If not given, then the output compressed using gzip
. Otherwise one of the following strings may be given to select the compression type of the squashfs: gzip
, lzma
, lzo
, lz4
, xz
.
The other optional arguments are:
excludes
A list of wildcards. Files are excluded if they match any of the wildcards.
Please note that this API may fail when used to compress directories with large files, such as the resulting squashfs will be over 3GB big.
This function returns 0 on success or -1 on error.
This function depends on the feature squashfs
. See also "guestfs_feature_available".
(Added in 1.35.25)
int
guestfs_mksquashfs_va (guestfs_h *g,
const char *path,
const char *filename,
va_list args);
This is the "va_list variant" of "guestfs_mksquashfs".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mksquashfs_argv (guestfs_h *g,
const char *path,
const char *filename,
const struct guestfs_mksquashfs_argv *optargs);
This is the "argv variant" of "guestfs_mksquashfs".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mkswap (guestfs_h *g,
const char *device);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_mkswap_opts" with no optional arguments.
(Added in 1.0.55)
int
guestfs_mkswap_opts (guestfs_h *g,
const char *device,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_MKSWAP_OPTS_LABEL, const char *label,
GUESTFS_MKSWAP_OPTS_UUID, const char *uuid,
Create a Linux swap partition on device
.
The option arguments label
and uuid
allow you to set the label and/or UUID of the new swap partition.
This function returns 0 on success or -1 on error.
(Added in 1.0.55)
int
guestfs_mkswap_opts_va (guestfs_h *g,
const char *device,
va_list args);
This is the "va_list variant" of "guestfs_mkswap_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mkswap_opts_argv (guestfs_h *g,
const char *device,
const struct guestfs_mkswap_opts_argv *optargs);
This is the "argv variant" of "guestfs_mkswap_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mkswap_L (guestfs_h *g,
const char *label,
const char *device);
This function is deprecated. In new code, use the "guestfs_mkswap" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
Create a swap partition on device
with label label
.
Note that you cannot attach a swap label to a block device (eg. /dev/sda), just to a partition. This appears to be a limitation of the kernel or swap tools.
This function returns 0 on success or -1 on error.
(Added in 1.0.55)
int
guestfs_mkswap_U (guestfs_h *g,
const char *uuid,
const char *device);
This function is deprecated. In new code, use the "guestfs_mkswap" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
Create a swap partition on device
with UUID uuid
.
This function returns 0 on success or -1 on error.
This function depends on the feature linuxfsuuid
. See also "guestfs_feature_available".
(Added in 1.0.55)
int
guestfs_mkswap_file (guestfs_h *g,
const char *path);
Create a swap file.
This command just writes a swap file signature to an existing file. To create the file itself, use something like guestfs_fallocate
.
This function returns 0 on success or -1 on error.
(Added in 1.0.66)
char *
guestfs_mktemp (guestfs_h *g,
const char *tmpl,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_MKTEMP_SUFFIX, const char *suffix,
This command creates a temporary file. The tmpl
parameter should be a full pathname for the temporary directory name with the final six characters being "XXXXXX".
For example: "/tmp/myprogXXXXXX" or "/Temp/myprogXXXXXX", the second one being suitable for Windows filesystems.
The name of the temporary file that was created is returned.
The temporary file is created with mode 0600 and is owned by root.
The caller is responsible for deleting the temporary file after use.
If the optional suffix
parameter is given, then the suffix (eg. .txt
) is appended to the temporary name.
See also: guestfs_mkdtemp
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.19.53)
char *
guestfs_mktemp_va (guestfs_h *g,
const char *tmpl,
va_list args);
This is the "va_list variant" of "guestfs_mktemp".
See "CALLS WITH OPTIONAL ARGUMENTS".
char *
guestfs_mktemp_argv (guestfs_h *g,
const char *tmpl,
const struct guestfs_mktemp_argv *optargs);
This is the "argv variant" of "guestfs_mktemp".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_modprobe (guestfs_h *g,
const char *modulename);
This loads a kernel module in the appliance.
This function returns 0 on success or -1 on error.
This function depends on the feature linuxmodules
. See also "guestfs_feature_available".
(Added in 1.0.68)
int
guestfs_mount (guestfs_h *g,
const char *mountable,
const char *mountpoint);
Mount a guest disk at a position in the filesystem. Block devices are named /dev/sda, /dev/sdb and so on, as they were added to the guest. If those block devices contain partitions, they will have the usual names (eg. /dev/sda1). Also LVM /dev/VG/LV-style names can be used, or ‘mountable’ strings returned by guestfs_list_filesystems
or guestfs_inspect_get_mountpoints
.
The rules are the same as for mount(2): A filesystem must first be mounted on / before others can be mounted. Other filesystems can only be mounted on directories which already exist.
The mounted filesystem is writable, if we have sufficient permissions on the underlying device.
Before libguestfs 1.13.16, this call implicitly added the options sync
and noatime
. The sync
option greatly slowed writes and caused many problems for users. If your program might need to work with older versions of libguestfs, use guestfs_mount_options
instead (using an empty string for the first parameter if you don't want any options).
This function returns 0 on success or -1 on error.
(Added in 0.3)
int
guestfs_mount_9p (guestfs_h *g,
const char *mounttag,
const char *mountpoint,
...);
This function is deprecated. There is no replacement. Consult the API documentation in guestfs(3) for further information.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_MOUNT_9P_OPTIONS, const char *options,
This call does nothing and returns an error.
This function returns 0 on success or -1 on error.
(Added in 1.11.12)
int
guestfs_mount_9p_va (guestfs_h *g,
const char *mounttag,
const char *mountpoint,
va_list args);
This is the "va_list variant" of "guestfs_mount_9p".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mount_9p_argv (guestfs_h *g,
const char *mounttag,
const char *mountpoint,
const struct guestfs_mount_9p_argv *optargs);
This is the "argv variant" of "guestfs_mount_9p".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mount_local (guestfs_h *g,
const char *localmountpoint,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_MOUNT_LOCAL_READONLY, int readonly,
GUESTFS_MOUNT_LOCAL_OPTIONS, const char *options,
GUESTFS_MOUNT_LOCAL_CACHETIMEOUT, int cachetimeout,
GUESTFS_MOUNT_LOCAL_DEBUGCALLS, int debugcalls,
This call exports the libguestfs-accessible filesystem to a local mountpoint (directory) called localmountpoint
. Ordinary reads and writes to files and directories under localmountpoint
are redirected through libguestfs.
If the optional readonly
flag is set to true, then writes to the filesystem return error EROFS
.
options
is a comma-separated list of mount options. See guestmount(1) for some useful options.
cachetimeout
sets the timeout (in seconds) for cached directory entries. The default is 60 seconds. See guestmount(1) for further information.
If debugcalls
is set to true, then additional debugging information is generated for every FUSE call.
When guestfs_mount_local
returns, the filesystem is ready, but is not processing requests (access to it will block). You have to call guestfs_mount_local_run
to run the main loop.
See "MOUNT LOCAL" for full documentation.
This function returns 0 on success or -1 on error.
(Added in 1.17.22)
int
guestfs_mount_local_va (guestfs_h *g,
const char *localmountpoint,
va_list args);
This is the "va_list variant" of "guestfs_mount_local".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mount_local_argv (guestfs_h *g,
const char *localmountpoint,
const struct guestfs_mount_local_argv *optargs);
This is the "argv variant" of "guestfs_mount_local".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_mount_local_run (guestfs_h *g);
Run the main loop which translates kernel calls to libguestfs calls.
This should only be called after guestfs_mount_local
returns successfully. The call will not return until the filesystem is unmounted.
Note you must not make concurrent libguestfs calls on the same handle from another thread.
You may call this from a different thread than the one which called guestfs_mount_local
, subject to the usual rules for threads and libguestfs (see "MULTIPLE HANDLES AND MULTIPLE THREADS").
See "MOUNT LOCAL" for full documentation.
This function returns 0 on success or -1 on error.
(Added in 1.17.22)
int
guestfs_mount_loop (guestfs_h *g,
const char *file,
const char *mountpoint);
This command lets you mount file (a filesystem image in a file) on a mount point. It is entirely equivalent to the command mount -o loop file mountpoint
.
This function returns 0 on success or -1 on error.
(Added in 1.0.54)
int
guestfs_mount_options (guestfs_h *g,
const char *options,
const char *mountable,
const char *mountpoint);
This is the same as the guestfs_mount
command, but it allows you to set the mount options as for the mount(8) -o flag.
If the options
parameter is an empty string, then no options are passed (all options default to whatever the filesystem uses).
This function returns 0 on success or -1 on error.
(Added in 1.0.10)
int
guestfs_mount_ro (guestfs_h *g,
const char *mountable,
const char *mountpoint);
This is the same as the guestfs_mount
command, but it mounts the filesystem with the read-only (-o ro) flag.
This function returns 0 on success or -1 on error.
(Added in 1.0.10)
int
guestfs_mount_vfs (guestfs_h *g,
const char *options,
const char *vfstype,
const char *mountable,
const char *mountpoint);
This is the same as the guestfs_mount
command, but it allows you to set both the mount options and the vfstype as for the mount(8) -o and -t flags.
This function returns 0 on success or -1 on error.
(Added in 1.0.10)
char *
guestfs_mountable_device (guestfs_h *g,
const char *mountable);
Returns the device name of a mountable. In quite a lot of cases, the mountable is the device name.
However this doesn't apply for btrfs subvolumes, where the mountable is a combination of both the device name and the subvolume path (see also guestfs_mountable_subvolume
to extract the subvolume path of the mountable if any).
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.33.15)
char *
guestfs_mountable_subvolume (guestfs_h *g,
const char *mountable);
Returns the subvolume path of a mountable. Btrfs subvolumes mountables are a combination of both the device name and the subvolume path (see also guestfs_mountable_device
to extract the device of the mountable).
If the mountable does not represent a btrfs subvolume, then this function fails and the errno
is set to EINVAL
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.33.15)
char **
guestfs_mountpoints (guestfs_h *g);
This call is similar to guestfs_mounts
. That call returns a list of devices. This one returns a hash table (map) of device name to directory where the device is mounted.
This function returns a NULL-terminated array of strings, or NULL if there was an error. The array of strings will always have length 2n+1
, where n
keys and values alternate, followed by the trailing NULL entry. The caller must free the strings and the array after use.
(Added in 1.0.62)
char **
guestfs_mounts (guestfs_h *g);
This returns the list of currently mounted filesystems. It returns the list of devices (eg. /dev/sda1, /dev/VG/LV).
Some internal mounts are not shown.
See also: guestfs_mountpoints
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 0.8)
int
guestfs_mv (guestfs_h *g,
const char *src,
const char *dest);
This moves a file from src
to dest
where dest
is either a destination filename or destination directory.
See also: guestfs_rename
.
This function returns 0 on success or -1 on error.
(Added in 1.0.18)
int
guestfs_nr_devices (guestfs_h *g);
This returns the number of whole block devices that were added. This is the same as the number of devices that would be returned if you called guestfs_list_devices
.
To find out the maximum number of devices that could be added, call guestfs_max_disks
.
On error this function returns -1.
(Added in 1.19.15)
int
guestfs_ntfs_3g_probe (guestfs_h *g,
int rw,
const char *device);
This command runs the ntfs-3g.probe(8) command which probes an NTFS device
for mountability. (Not all NTFS volumes can be mounted read-write, and some cannot be mounted at all).
rw
is a boolean flag. Set it to true if you want to test if the volume can be mounted read-write. Set it to false if you want to test if the volume can be mounted read-only.
The return value is an integer which 0
if the operation would succeed, or some non-zero value documented in the ntfs-3g.probe(8) manual page.
On error this function returns -1.
This function depends on the feature ntfs3g
. See also "guestfs_feature_available".
(Added in 1.0.43)
int
guestfs_ntfscat_i (guestfs_h *g,
const char *device,
int64_t inode,
const char *filename);
Download a file given its inode from a NTFS filesystem and save it as filename on the local machine.
This allows to download some otherwise inaccessible files such as the ones within the $Extend
folder.
The filesystem from which to extract the file must be unmounted, otherwise the call will fail.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.33.14)
int
guestfs_ntfsclone_in (guestfs_h *g,
const char *backupfile,
const char *device);
Restore the backupfile
(from a previous call to guestfs_ntfsclone_out
) to device
, overwriting any existing contents of this device.
This function returns 0 on success or -1 on error.
This function depends on the feature ntfs3g
. See also "guestfs_feature_available".
(Added in 1.17.9)
int
guestfs_ntfsclone_out (guestfs_h *g,
const char *device,
const char *backupfile,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_NTFSCLONE_OUT_METADATAONLY, int metadataonly,
GUESTFS_NTFSCLONE_OUT_RESCUE, int rescue,
GUESTFS_NTFSCLONE_OUT_IGNOREFSCHECK, int ignorefscheck,
GUESTFS_NTFSCLONE_OUT_PRESERVETIMESTAMPS, int preservetimestamps,
GUESTFS_NTFSCLONE_OUT_FORCE, int force,
Stream the NTFS filesystem device
to the local file backupfile
. The format used for the backup file is a special format used by the ntfsclone(8) tool.
If the optional metadataonly
flag is true, then only the metadata is saved, losing all the user data (this is useful for diagnosing some filesystem problems).
The optional rescue
, ignorefscheck
, preservetimestamps
and force
flags have precise meanings detailed in the ntfsclone(8) man page.
Use guestfs_ntfsclone_in
to restore the file back to a libguestfs device.
This function returns 0 on success or -1 on error.
This function depends on the feature ntfs3g
. See also "guestfs_feature_available".
(Added in 1.17.9)
int
guestfs_ntfsclone_out_va (guestfs_h *g,
const char *device,
const char *backupfile,
va_list args);
This is the "va_list variant" of "guestfs_ntfsclone_out".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_ntfsclone_out_argv (guestfs_h *g,
const char *device,
const char *backupfile,
const struct guestfs_ntfsclone_out_argv *optargs);
This is the "argv variant" of "guestfs_ntfsclone_out".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_ntfsfix (guestfs_h *g,
const char *device,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_NTFSFIX_CLEARBADSECTORS, int clearbadsectors,
This command repairs some fundamental NTFS inconsistencies, resets the NTFS journal file, and schedules an NTFS consistency check for the first boot into Windows.
This is not an equivalent of Windows chkdsk
. It does not scan the filesystem for inconsistencies.
The optional clearbadsectors
flag clears the list of bad sectors. This is useful after cloning a disk with bad sectors to a new disk.
This function returns 0 on success or -1 on error.
This function depends on the feature ntfs3g
. See also "guestfs_feature_available".
(Added in 1.17.9)
int
guestfs_ntfsfix_va (guestfs_h *g,
const char *device,
va_list args);
This is the "va_list variant" of "guestfs_ntfsfix".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_ntfsfix_argv (guestfs_h *g,
const char *device,
const struct guestfs_ntfsfix_argv *optargs);
This is the "argv variant" of "guestfs_ntfsfix".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_ntfsresize (guestfs_h *g,
const char *device);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_ntfsresize_opts" with no optional arguments.
(Added in 1.3.2)
int
guestfs_ntfsresize_opts (guestfs_h *g,
const char *device,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_NTFSRESIZE_OPTS_SIZE, int64_t size,
GUESTFS_NTFSRESIZE_OPTS_FORCE, int force,
This command resizes an NTFS filesystem, expanding or shrinking it to the size of the underlying device.
The optional parameters are:
size
The new size (in bytes) of the filesystem. If omitted, the filesystem is resized to fit the container (eg. partition).
force
If this option is true, then force the resize of the filesystem even if the filesystem is marked as requiring a consistency check.
After the resize operation, the filesystem is always marked as requiring a consistency check (for safety). You have to boot into Windows to perform this check and clear this condition. If you don't set the force
option then it is not possible to call guestfs_ntfsresize
multiple times on a single filesystem without booting into Windows between each resize.
See also ntfsresize(8).
This function returns 0 on success or -1 on error.
This function depends on the feature ntfsprogs
. See also "guestfs_feature_available".
(Added in 1.3.2)
int
guestfs_ntfsresize_opts_va (guestfs_h *g,
const char *device,
va_list args);
This is the "va_list variant" of "guestfs_ntfsresize_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_ntfsresize_opts_argv (guestfs_h *g,
const char *device,
const struct guestfs_ntfsresize_opts_argv *optargs);
This is the "argv variant" of "guestfs_ntfsresize_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_ntfsresize_size (guestfs_h *g,
const char *device,
int64_t size);
This function is deprecated. In new code, use the "guestfs_ntfsresize" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This command is the same as guestfs_ntfsresize
except that it allows you to specify the new size (in bytes) explicitly.
This function returns 0 on success or -1 on error.
This function depends on the feature ntfsprogs
. See also "guestfs_feature_available".
(Added in 1.3.14)
int
guestfs_parse_environment (guestfs_h *g);
Parse the program’s environment and set flags in the handle accordingly. For example if LIBGUESTFS_DEBUG=1
then the ‘verbose’ flag is set in the handle.
Most programs do not need to call this. It is done implicitly when you call guestfs_create
.
See "ENVIRONMENT VARIABLES" for a list of environment variables that can affect libguestfs handles. See also "guestfs_create_flags", and guestfs_parse_environment_list
.
This function returns 0 on success or -1 on error.
(Added in 1.19.53)
int
guestfs_parse_environment_list (guestfs_h *g,
char *const *environment);
Parse the list of strings in the argument environment
and set flags in the handle accordingly. For example if LIBGUESTFS_DEBUG=1
is a string in the list, then the ‘verbose’ flag is set in the handle.
This is the same as guestfs_parse_environment
except that it parses an explicit list of strings instead of the program's environment.
This function returns 0 on success or -1 on error.
(Added in 1.19.53)
int
guestfs_part_add (guestfs_h *g,
const char *device,
const char *prlogex,
int64_t startsect,
int64_t endsect);
This command adds a partition to device
. If there is no partition table on the device, call guestfs_part_init
first.
The prlogex
parameter is the type of partition. Normally you should pass p
or primary
here, but MBR partition tables also support l
(or logical
) and e
(or extended
) partition types.
startsect
and endsect
are the start and end of the partition in sectors. endsect
may be negative, which means it counts backwards from the end of the disk (-1
is the last sector).
Creating a partition which covers the whole disk is not so easy. Use guestfs_part_disk
to do that.
This function returns 0 on success or -1 on error.
(Added in 1.0.78)
int
guestfs_part_del (guestfs_h *g,
const char *device,
int partnum);
This command deletes the partition numbered partnum
on device
.
Note that in the case of MBR partitioning, deleting an extended partition also deletes any logical partitions it contains.
This function returns 0 on success or -1 on error.
(Added in 1.3.2)
int
guestfs_part_disk (guestfs_h *g,
const char *device,
const char *parttype);
This command is simply a combination of guestfs_part_init
followed by guestfs_part_add
to create a single primary partition covering the whole disk.
parttype
is the partition table type, usually mbr
or gpt
, but other possible values are described in guestfs_part_init
.
This function returns 0 on success or -1 on error.
(Added in 1.0.78)
int
guestfs_part_expand_gpt (guestfs_h *g,
const char *device);
Move backup GPT data structures to the end of the disk. This is useful in case of in-place image expand since disk space after backup GPT header is not usable. This is equivalent to sgdisk -e
.
See also sgdisk(8).
This function returns 0 on success or -1 on error.
This function depends on the feature gdisk
. See also "guestfs_feature_available".
(Added in 1.33.2)
int
guestfs_part_get_bootable (guestfs_h *g,
const char *device,
int partnum);
This command returns true if the partition partnum
on device
has the bootable flag set.
See also guestfs_part_set_bootable
.
This function returns a C truth value on success or -1 on error.
(Added in 1.3.2)
char *
guestfs_part_get_disk_guid (guestfs_h *g,
const char *device);
Return the disk identifier (GUID) of a GPT-partitioned device
. Behaviour is undefined for other partition types.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.33.2)
int64_t
guestfs_part_get_gpt_attributes (guestfs_h *g,
const char *device,
int partnum);
Return the attribute flags of numbered GPT partition partnum
. An error is returned for MBR partitions.
On error this function returns -1.
(Added in 1.21.1)
char *
guestfs_part_get_gpt_guid (guestfs_h *g,
const char *device,
int partnum);
Return the GUID of numbered GPT partition partnum
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.29.25)
char *
guestfs_part_get_gpt_type (guestfs_h *g,
const char *device,
int partnum);
Return the type GUID of numbered GPT partition partnum
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.21.1)
int
guestfs_part_get_mbr_id (guestfs_h *g,
const char *device,
int partnum);
Returns the MBR type byte (also known as the ID byte) from the numbered partition partnum
.
Note that only MBR (old DOS-style) partitions have type bytes. You will get undefined results for other partition table types (see guestfs_part_get_parttype
).
On error this function returns -1.
(Added in 1.3.2)
char *
guestfs_part_get_mbr_part_type (guestfs_h *g,
const char *device,
int partnum);
This returns the partition type of an MBR partition numbered partnum
on device device
.
It returns primary
, logical
, or extended
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.29.32)
char *
guestfs_part_get_name (guestfs_h *g,
const char *device,
int partnum);
This gets the partition name on partition numbered partnum
on device device
. Note that partitions are numbered from 1.
The partition name can only be read on certain types of partition table. This works on gpt
but not on mbr
partitions.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.25.33)
char *
guestfs_part_get_parttype (guestfs_h *g,
const char *device);
This command examines the partition table on device
and returns the partition table type (format) being used.
Common return values include: msdos
(a DOS/Windows style MBR partition table), gpt
(a GPT/EFI-style partition table). Other values are possible, although unusual. See guestfs_part_init
for a full list.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.78)
int
guestfs_part_init (guestfs_h *g,
const char *device,
const char *parttype);
This creates an empty partition table on device
of one of the partition types listed below. Usually parttype
should be either msdos
or gpt
(for large disks).
Initially there are no partitions. Following this, you should call guestfs_part_add
for each partition required.
Possible values for parttype
are:
efi
gpt
Intel EFI / GPT partition table.
This is recommended for >= 2 TB partitions that will be accessed from Linux and Intel-based Mac OS X. It also has limited backwards compatibility with the mbr
format.
mbr
msdos
The standard PC "Master Boot Record" (MBR) format used by MS-DOS and Windows. This partition type will only work for device sizes up to 2 TB. For large disks we recommend using gpt
.
Other partition table types that may work but are not supported include:
aix
AIX disk labels.
amiga
rdb
Amiga "Rigid Disk Block" format.
bsd
BSD disk labels.
dasd
DASD, used on IBM mainframes.
dvh
MIPS/SGI volumes.
mac
Old Mac partition format. Modern Macs use gpt
.
pc98
NEC PC-98 format, common in Japan apparently.
sun
Sun disk labels.
This function returns 0 on success or -1 on error.
(Added in 1.0.78)
struct guestfs_partition_list *
guestfs_part_list (guestfs_h *g,
const char *device);
This command parses the partition table on device
and returns the list of partitions found.
The fields in the returned structure are:
part_num
Partition number, counting from 1.
part_start
Start of the partition in bytes. To get sectors you have to divide by the device’s sector size, see guestfs_blockdev_getss
.
part_end
End of the partition in bytes.
part_size
Size of the partition in bytes.
This function returns a struct guestfs_partition_list *
, or NULL if there was an error. The caller must call guestfs_free_partition_list
after use.
(Added in 1.0.78)
int
guestfs_part_resize (guestfs_h *g,
const char *device,
int partnum,
int64_t endsect);
This command resizes the partition numbered partnum
on device
by moving the end position.
Note that this does not modify any filesystem present in the partition. If you wish to do this, you will need to use filesystem resizing commands like guestfs_resize2fs
.
When growing a partition you will want to grow the filesystem afterwards, but when shrinking, you need to shrink the filesystem before the partition.
This function returns 0 on success or -1 on error.
(Added in 1.37.20)
int
guestfs_part_set_bootable (guestfs_h *g,
const char *device,
int partnum,
int bootable);
This sets the bootable flag on partition numbered partnum
on device device
. Note that partitions are numbered from 1.
The bootable flag is used by some operating systems (notably Windows) to determine which partition to boot from. It is by no means universally recognized.
This function returns 0 on success or -1 on error.
(Added in 1.0.78)
int
guestfs_part_set_disk_guid (guestfs_h *g,
const char *device,
const char *guid);
Set the disk identifier (GUID) of a GPT-partitioned device
to guid
. Return an error if the partition table of device
isn't GPT, or if guid
is not a valid GUID.
This function returns 0 on success or -1 on error.
(Added in 1.33.2)
int
guestfs_part_set_disk_guid_random (guestfs_h *g,
const char *device);
Set the disk identifier (GUID) of a GPT-partitioned device
to a randomly generated value. Return an error if the partition table of device
isn't GPT.
This function returns 0 on success or -1 on error.
(Added in 1.33.2)
int
guestfs_part_set_gpt_attributes (guestfs_h *g,
const char *device,
int partnum,
int64_t attributes);
Set the attribute flags of numbered GPT partition partnum
to attributes
. Return an error if the partition table of device
isn't GPT.
See https://en.wikipedia.org/wiki/GUID_Partition_Table#Partition_entries for a useful list of partition attributes.
This function returns 0 on success or -1 on error.
(Added in 1.21.1)
int
guestfs_part_set_gpt_guid (guestfs_h *g,
const char *device,
int partnum,
const char *guid);
Set the GUID of numbered GPT partition partnum
to guid
. Return an error if the partition table of device
isn't GPT, or if guid
is not a valid GUID.
This function returns 0 on success or -1 on error.
(Added in 1.29.25)
int
guestfs_part_set_gpt_type (guestfs_h *g,
const char *device,
int partnum,
const char *guid);
Set the type GUID of numbered GPT partition partnum
to guid
. Return an error if the partition table of device
isn't GPT, or if guid
is not a valid GUID.
See https://en.wikipedia.org/wiki/GUID_Partition_Table#Partition_type_GUIDs for a useful list of type GUIDs.
This function returns 0 on success or -1 on error.
(Added in 1.21.1)
int
guestfs_part_set_mbr_id (guestfs_h *g,
const char *device,
int partnum,
int idbyte);
Sets the MBR type byte (also known as the ID byte) of the numbered partition partnum
to idbyte
. Note that the type bytes quoted in most documentation are in fact hexadecimal numbers, but usually documented without any leading "0x" which might be confusing.
Note that only MBR (old DOS-style) partitions have type bytes. You will get undefined results for other partition table types (see guestfs_part_get_parttype
).
This function returns 0 on success or -1 on error.
(Added in 1.3.2)
int
guestfs_part_set_name (guestfs_h *g,
const char *device,
int partnum,
const char *name);
This sets the partition name on partition numbered partnum
on device device
. Note that partitions are numbered from 1.
The partition name can only be set on certain types of partition table. This works on gpt
but not on mbr
partitions.
This function returns 0 on success or -1 on error.
(Added in 1.0.78)
char *
guestfs_part_to_dev (guestfs_h *g,
const char *partition);
This function takes a partition name (eg. "/dev/sdb1") and removes the partition number, returning the device name (eg. "/dev/sdb").
The named partition must exist, for example as a string returned from guestfs_list_partitions
.
See also guestfs_part_to_partnum
, guestfs_device_index
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.5.15)
int
guestfs_part_to_partnum (guestfs_h *g,
const char *partition);
This function takes a partition name (eg. "/dev/sdb1") and returns the partition number (eg. 1
).
The named partition must exist, for example as a string returned from guestfs_list_partitions
.
See also guestfs_part_to_dev
.
On error this function returns -1.
(Added in 1.13.25)
int
guestfs_ping_daemon (guestfs_h *g);
This is a test probe into the guestfs daemon running inside the libguestfs appliance. Calling this function checks that the daemon responds to the ping message, without affecting the daemon or attached block device(s) in any other way.
This function returns 0 on success or -1 on error.
(Added in 1.0.18)
char *
guestfs_pread (guestfs_h *g,
const char *path,
int count,
int64_t offset,
size_t *size_r);
This command lets you read part of a file. It reads count
bytes of the file, starting at offset
, from file path
.
This may read fewer bytes than requested. For further details see the pread(2) system call.
See also guestfs_pwrite
, guestfs_pread_device
.
This function returns a buffer, or NULL on error. The size of the returned buffer is written to *size_r
. The caller must free the returned buffer after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.77)
char *
guestfs_pread_device (guestfs_h *g,
const char *device,
int count,
int64_t offset,
size_t *size_r);
This command lets you read part of a block device. It reads count
bytes of device
, starting at offset
.
This may read fewer bytes than requested. For further details see the pread(2) system call.
See also guestfs_pread
.
This function returns a buffer, or NULL on error. The size of the returned buffer is written to *size_r
. The caller must free the returned buffer after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.5.21)
int
guestfs_pvchange_uuid (guestfs_h *g,
const char *device);
Generate a new random UUID for the physical volume device
.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.19.26)
int
guestfs_pvchange_uuid_all (guestfs_h *g);
Generate new random UUIDs for all physical volumes.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.19.26)
int
guestfs_pvcreate (guestfs_h *g,
const char *device);
This creates an LVM physical volume on the named device
, where device
should usually be a partition name such as /dev/sda1.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 0.8)
int
guestfs_pvremove (guestfs_h *g,
const char *device);
This wipes a physical volume device
so that LVM will no longer recognise it.
The implementation uses the pvremove(8) command which refuses to wipe physical volumes that contain any volume groups, so you have to remove those first.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.0.13)
int
guestfs_pvresize (guestfs_h *g,
const char *device);
This resizes (expands or shrinks) an existing LVM physical volume to match the new size of the underlying device.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.0.26)
int
guestfs_pvresize_size (guestfs_h *g,
const char *device,
int64_t size);
This command is the same as guestfs_pvresize
except that it allows you to specify the new size (in bytes) explicitly.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.3.14)
char **
guestfs_pvs (guestfs_h *g);
List all the physical volumes detected. This is the equivalent of the pvs(8) command.
This returns a list of just the device names that contain PVs (eg. /dev/sda2).
See also guestfs_pvs_full
.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 0.4)
struct guestfs_lvm_pv_list *
guestfs_pvs_full (guestfs_h *g);
List all the physical volumes detected. This is the equivalent of the pvs(8) command. The "full" version includes all fields.
This function returns a struct guestfs_lvm_pv_list *
, or NULL if there was an error. The caller must call guestfs_free_lvm_pv_list
after use.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 0.4)
char *
guestfs_pvuuid (guestfs_h *g,
const char *device);
This command returns the UUID of the LVM PV device
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.87)
int
guestfs_pwrite (guestfs_h *g,
const char *path,
const char *content,
size_t content_size,
int64_t offset);
This command writes to part of a file. It writes the data buffer content
to the file path
starting at offset offset
.
This command implements the pwrite(2) system call, and like that system call it may not write the full data requested. The return value is the number of bytes that were actually written to the file. This could even be 0, although short writes are unlikely for regular files in ordinary circumstances.
See also guestfs_pread
, guestfs_pwrite_device
.
On error this function returns -1.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.3.14)
int
guestfs_pwrite_device (guestfs_h *g,
const char *device,
const char *content,
size_t content_size,
int64_t offset);
This command writes to part of a device. It writes the data buffer content
to device
starting at offset offset
.
This command implements the pwrite(2) system call, and like that system call it may not write the full data requested (although short writes to disk devices and partitions are probably impossible with standard Linux kernels).
See also guestfs_pwrite
.
On error this function returns -1.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.5.20)
char *
guestfs_read_file (guestfs_h *g,
const char *path,
size_t *size_r);
This calls returns the contents of the file path
as a buffer.
Unlike guestfs_cat
, this function can correctly handle files that contain embedded ASCII NUL characters.
This function returns a buffer, or NULL on error. The size of the returned buffer is written to *size_r
. The caller must free the returned buffer after use.
(Added in 1.0.63)
char **
guestfs_read_lines (guestfs_h *g,
const char *path);
Return the contents of the file named path
.
The file contents are returned as a list of lines. Trailing LF
and CRLF
character sequences are not returned.
Note that this function cannot correctly handle binary files (specifically, files containing \0
character which is treated as end of string). For those you need to use the guestfs_read_file
function and split the buffer into lines yourself.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 0.7)
struct guestfs_dirent_list *
guestfs_readdir (guestfs_h *g,
const char *dir);
This returns the list of directory entries in directory dir
.
All entries in the directory are returned, including .
and ..
. The entries are not sorted, but returned in the same order as the underlying filesystem.
Also this call returns basic file type information about each file. The ftyp
field will contain one of the following characters:
Block special
Char special
Directory
FIFO (named pipe)
Symbolic link
Regular file
Socket
Unknown file type
The readdir(3) call returned a d_type
field with an unexpected value
This function is primarily intended for use by programs. To get a simple list of names, use guestfs_ls
. To get a printable directory for human consumption, use guestfs_ll
.
This function returns a struct guestfs_dirent_list *
, or NULL if there was an error. The caller must call guestfs_free_dirent_list
after use.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.0.55)
char *
guestfs_readlink (guestfs_h *g,
const char *path);
This command reads the target of a symbolic link.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.66)
char **
guestfs_readlinklist (guestfs_h *g,
const char *path,
char *const *names);
This call allows you to do a readlink
operation on multiple files, where all files are in the directory path
. names
is the list of files from this directory.
On return you get a list of strings, with a one-to-one correspondence to the names
list. Each string is the value of the symbolic link.
If the readlink(2) operation fails on any name, then the corresponding result string is the empty string ""
. However the whole operation is completed even if there were readlink(2) errors, and so you can call this function with names where you don't know if they are symbolic links already (albeit slightly less efficient).
This call is intended for programs that want to efficiently list a directory contents without making many round-trips.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.0.77)
char *
guestfs_realpath (guestfs_h *g,
const char *path);
Return the canonicalized absolute pathname of path
. The returned path has no .
, ..
or symbolic link path elements.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.66)
int
guestfs_remount (guestfs_h *g,
const char *mountpoint,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_REMOUNT_RW, int rw,
This call allows you to change the rw
(readonly/read-write) flag on an already mounted filesystem at mountpoint
, converting a readonly filesystem to be read-write, or vice-versa.
Note that at the moment you must supply the "optional" rw
parameter. In future we may allow other flags to be adjusted.
This function returns 0 on success or -1 on error.
(Added in 1.23.2)
int
guestfs_remount_va (guestfs_h *g,
const char *mountpoint,
va_list args);
This is the "va_list variant" of "guestfs_remount".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_remount_argv (guestfs_h *g,
const char *mountpoint,
const struct guestfs_remount_argv *optargs);
This is the "argv variant" of "guestfs_remount".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_remove_drive (guestfs_h *g,
const char *label);
This function is deprecated. There is no replacement. Consult the API documentation in guestfs(3) for further information.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This call does nothing and returns an error.
This function returns 0 on success or -1 on error.
(Added in 1.19.49)
int
guestfs_removexattr (guestfs_h *g,
const char *xattr,
const char *path);
This call removes the extended attribute named xattr
of the file path
.
See also: guestfs_lremovexattr
, attr(5).
This function returns 0 on success or -1 on error.
This function depends on the feature linuxxattrs
. See also "guestfs_feature_available".
(Added in 1.0.59)
int
guestfs_rename (guestfs_h *g,
const char *oldpath,
const char *newpath);
Rename a file to a new place on the same filesystem. This is the same as the Linux rename(2) system call. In most cases you are better to use guestfs_mv
instead.
This function returns 0 on success or -1 on error.
(Added in 1.21.5)
int
guestfs_resize2fs (guestfs_h *g,
const char *device);
This resizes an ext2, ext3 or ext4 filesystem to match the size of the underlying device.
See also "RESIZE2FS ERRORS".
This function returns 0 on success or -1 on error.
(Added in 1.0.27)
int
guestfs_resize2fs_M (guestfs_h *g,
const char *device);
This command is the same as guestfs_resize2fs
, but the filesystem is resized to its minimum size. This works like the -M option to the resize2fs(8) command.
To get the resulting size of the filesystem you should call guestfs_tune2fs_l
and read the Block size
and Block count
values. These two numbers, multiplied together, give the resulting size of the minimal filesystem in bytes.
See also "RESIZE2FS ERRORS".
This function returns 0 on success or -1 on error.
(Added in 1.9.4)
int
guestfs_resize2fs_size (guestfs_h *g,
const char *device,
int64_t size);
This command is the same as guestfs_resize2fs
except that it allows you to specify the new size (in bytes) explicitly.
See also "RESIZE2FS ERRORS".
This function returns 0 on success or -1 on error.
(Added in 1.3.14)
int
guestfs_rm (guestfs_h *g,
const char *path);
Remove the single file path
.
This function returns 0 on success or -1 on error.
(Added in 0.8)
int
guestfs_rm_f (guestfs_h *g,
const char *path);
Remove the file path
.
If the file doesn't exist, that error is ignored. (Other errors, eg. I/O errors or bad paths, are not ignored)
This call cannot remove directories. Use guestfs_rmdir
to remove an empty directory, or guestfs_rm_rf
to remove directories recursively.
This function returns 0 on success or -1 on error.
(Added in 1.19.42)
int
guestfs_rm_rf (guestfs_h *g,
const char *path);
Remove the file or directory path
, recursively removing the contents if its a directory. This is like the rm -rf
shell command.
This function returns 0 on success or -1 on error.
(Added in 0.8)
int
guestfs_rmdir (guestfs_h *g,
const char *path);
Remove the single directory path
.
This function returns 0 on success or -1 on error.
(Added in 0.8)
int
guestfs_rmmountpoint (guestfs_h *g,
const char *exemptpath);
This call removes a mountpoint that was previously created with guestfs_mkmountpoint
. See guestfs_mkmountpoint
for full details.
This function returns 0 on success or -1 on error.
(Added in 1.0.62)
int
guestfs_rsync (guestfs_h *g,
const char *src,
const char *dest,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_RSYNC_ARCHIVE, int archive,
GUESTFS_RSYNC_DELETEDEST, int deletedest,
This call may be used to copy or synchronize two directories under the same libguestfs handle. This uses the rsync(1) program which uses a fast algorithm that avoids copying files unnecessarily.
src
and dest
are the source and destination directories. Files are copied from src
to dest
.
The optional arguments are:
archive
Turns on archive mode. This is the same as passing the --archive flag to rsync
.
deletedest
Delete files at the destination that do not exist at the source.
This function returns 0 on success or -1 on error.
This function depends on the feature rsync
. See also "guestfs_feature_available".
(Added in 1.19.29)
int
guestfs_rsync_va (guestfs_h *g,
const char *src,
const char *dest,
va_list args);
This is the "va_list variant" of "guestfs_rsync".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_rsync_argv (guestfs_h *g,
const char *src,
const char *dest,
const struct guestfs_rsync_argv *optargs);
This is the "argv variant" of "guestfs_rsync".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_rsync_in (guestfs_h *g,
const char *remote,
const char *dest,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_RSYNC_IN_ARCHIVE, int archive,
GUESTFS_RSYNC_IN_DELETEDEST, int deletedest,
This call may be used to copy or synchronize the filesystem on the host or on a remote computer with the filesystem within libguestfs. This uses the rsync(1) program which uses a fast algorithm that avoids copying files unnecessarily.
This call only works if the network is enabled. See guestfs_set_network
or the --network option to various tools like guestfish(1).
Files are copied from the remote server and directory specified by remote
to the destination directory dest
.
The format of the remote server string is defined by rsync(1). Note that there is no way to supply a password or passphrase so the target must be set up not to require one.
The optional arguments are the same as those of guestfs_rsync
.
This function returns 0 on success or -1 on error.
This function depends on the feature rsync
. See also "guestfs_feature_available".
(Added in 1.19.29)
int
guestfs_rsync_in_va (guestfs_h *g,
const char *remote,
const char *dest,
va_list args);
This is the "va_list variant" of "guestfs_rsync_in".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_rsync_in_argv (guestfs_h *g,
const char *remote,
const char *dest,
const struct guestfs_rsync_in_argv *optargs);
This is the "argv variant" of "guestfs_rsync_in".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_rsync_out (guestfs_h *g,
const char *src,
const char *remote,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_RSYNC_OUT_ARCHIVE, int archive,
GUESTFS_RSYNC_OUT_DELETEDEST, int deletedest,
This call may be used to copy or synchronize the filesystem within libguestfs with a filesystem on the host or on a remote computer. This uses the rsync(1) program which uses a fast algorithm that avoids copying files unnecessarily.
This call only works if the network is enabled. See guestfs_set_network
or the --network option to various tools like guestfish(1).
Files are copied from the source directory src
to the remote server and directory specified by remote
.
The format of the remote server string is defined by rsync(1). Note that there is no way to supply a password or passphrase so the target must be set up not to require one.
The optional arguments are the same as those of guestfs_rsync
.
Globbing does not happen on the src
parameter. In programs which use the API directly you have to expand wildcards yourself (see guestfs_glob_expand
). In guestfish you can use the glob
command (see "glob" in guestfish(1)), for example:
><fs> glob rsync-out /* rsync://remote/
This function returns 0 on success or -1 on error.
This function depends on the feature rsync
. See also "guestfs_feature_available".
(Added in 1.19.29)
int
guestfs_rsync_out_va (guestfs_h *g,
const char *src,
const char *remote,
va_list args);
This is the "va_list variant" of "guestfs_rsync_out".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_rsync_out_argv (guestfs_h *g,
const char *src,
const char *remote,
const struct guestfs_rsync_out_argv *optargs);
This is the "argv variant" of "guestfs_rsync_out".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_scrub_device (guestfs_h *g,
const char *device);
This command writes patterns over device
to make data retrieval more difficult.
It is an interface to the scrub(1) program. See that manual page for more details.
This function returns 0 on success or -1 on error.
This function depends on the feature scrub
. See also "guestfs_feature_available".
(Added in 1.0.52)
int
guestfs_scrub_file (guestfs_h *g,
const char *file);
This command writes patterns over a file to make data retrieval more difficult.
The file is removed after scrubbing.
It is an interface to the scrub(1) program. See that manual page for more details.
This function returns 0 on success or -1 on error.
This function depends on the feature scrub
. See also "guestfs_feature_available".
(Added in 1.0.52)
int
guestfs_scrub_freespace (guestfs_h *g,
const char *dir);
This command creates the directory dir
and then fills it with files until the filesystem is full, and scrubs the files as for guestfs_scrub_file
, and deletes them. The intention is to scrub any free space on the partition containing dir
.
It is an interface to the scrub(1) program. See that manual page for more details.
This function returns 0 on success or -1 on error.
This function depends on the feature scrub
. See also "guestfs_feature_available".
(Added in 1.0.52)
int
guestfs_selinux_relabel (guestfs_h *g,
const char *specfile,
const char *path,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_SELINUX_RELABEL_FORCE, int force,
SELinux relabel parts of the filesystem.
The specfile
parameter controls the policy spec file used. You have to parse /etc/selinux/config
to find the correct SELinux policy and then pass the spec file, usually: /etc/selinux/
+ selinuxtype + /contexts/files/file_contexts
.
The required path
parameter is the top level directory where relabelling starts. Normally you should pass path
as /
to relabel the whole guest filesystem.
The optional force
boolean controls whether the context is reset for customizable files, and also whether the user, role and range parts of the file context is changed.
This function returns 0 on success or -1 on error.
This function depends on the feature selinuxrelabel
. See also "guestfs_feature_available".
(Added in 1.33.43)
int
guestfs_selinux_relabel_va (guestfs_h *g,
const char *specfile,
const char *path,
va_list args);
This is the "va_list variant" of "guestfs_selinux_relabel".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_selinux_relabel_argv (guestfs_h *g,
const char *specfile,
const char *path,
const struct guestfs_selinux_relabel_argv *optargs);
This is the "argv variant" of "guestfs_selinux_relabel".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_set_append (guestfs_h *g,
const char *append);
This function is used to add additional options to the libguestfs appliance kernel command line.
The default is NULL
unless overridden by setting LIBGUESTFS_APPEND
environment variable.
Setting append
to NULL
means no additional options are passed (libguestfs always adds a few of its own).
This function returns 0 on success or -1 on error.
(Added in 1.0.26)
int
guestfs_set_attach_method (guestfs_h *g,
const char *backend);
This function is deprecated. In new code, use the "guestfs_set_backend" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
Set the method that libguestfs uses to connect to the backend guestfsd daemon.
See "BACKEND".
This function returns 0 on success or -1 on error.
(Added in 1.9.8)
int
guestfs_set_autosync (guestfs_h *g,
int autosync);
If autosync
is true, this enables autosync. Libguestfs will make a best effort attempt to make filesystems consistent and synchronized when the handle is closed (also if the program exits without closing handles).
This is enabled by default (since libguestfs 1.5.24, previously it was disabled by default).
This function returns 0 on success or -1 on error.
(Added in 0.3)
int
guestfs_set_backend (guestfs_h *g,
const char *backend);
Set the method that libguestfs uses to connect to the backend guestfsd daemon.
This handle property was previously called the "attach method".
See "BACKEND".
This function returns 0 on success or -1 on error.
(Added in 1.21.26)
int
guestfs_set_backend_setting (guestfs_h *g,
const char *name,
const char *val);
Append "name=value"
to the backend settings string list. However if a string already exists matching "name"
or beginning with "name="
, then that setting is replaced.
See "BACKEND", "BACKEND SETTINGS".
This function returns 0 on success or -1 on error.
(Added in 1.27.2)
int
guestfs_set_backend_settings (guestfs_h *g,
char *const *settings);
Set a list of zero or more settings which are passed through to the current backend. Each setting is a string which is interpreted in a backend-specific way, or ignored if not understood by the backend.
The default value is an empty list, unless the environment variable LIBGUESTFS_BACKEND_SETTINGS
was set when the handle was created. This environment variable contains a colon-separated list of settings.
This call replaces all backend settings. If you want to replace a single backend setting, see guestfs_set_backend_setting
. If you want to clear a single backend setting, see guestfs_clear_backend_setting
.
See "BACKEND", "BACKEND SETTINGS".
This function returns 0 on success or -1 on error.
(Added in 1.25.24)
int
guestfs_set_cachedir (guestfs_h *g,
const char *cachedir);
Set the directory used by the handle to store the appliance cache, when using a supermin appliance. The appliance is cached and shared between all handles which have the same effective user ID.
The environment variables LIBGUESTFS_CACHEDIR
and TMPDIR
control the default value: If LIBGUESTFS_CACHEDIR
is set, then that is the default. Else if TMPDIR
is set, then that is the default. Else /var/tmp is the default.
This function returns 0 on success or -1 on error.
(Added in 1.19.58)
int
guestfs_set_direct (guestfs_h *g,
int direct);
This function is deprecated. In new code, use the "guestfs_internal_get_console_socket" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
If the direct appliance mode flag is enabled, then stdin and stdout are passed directly through to the appliance once it is launched.
One consequence of this is that log messages aren't caught by the library and handled by guestfs_set_log_message_callback
, but go straight to stdout.
You probably don't want to use this unless you know what you are doing.
The default is disabled.
This function returns 0 on success or -1 on error.
(Added in 1.0.72)
int
guestfs_set_e2attrs (guestfs_h *g,
const char *file,
const char *attrs,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_SET_E2ATTRS_CLEAR, int clear,
This sets or clears the file attributes attrs
associated with the inode file.
attrs
is a string of characters representing file attributes. See guestfs_get_e2attrs
for a list of possible attributes. Not all attributes can be changed.
If optional boolean clear
is not present or false, then the attrs
listed are set in the inode.
If clear
is true, then the attrs
listed are cleared in the inode.
In both cases, other attributes not present in the attrs
string are left unchanged.
These attributes are only present when the file is located on an ext2/3/4 filesystem. Using this call on other filesystem types will result in an error.
This function returns 0 on success or -1 on error.
(Added in 1.17.31)
int
guestfs_set_e2attrs_va (guestfs_h *g,
const char *file,
const char *attrs,
va_list args);
This is the "va_list variant" of "guestfs_set_e2attrs".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_set_e2attrs_argv (guestfs_h *g,
const char *file,
const char *attrs,
const struct guestfs_set_e2attrs_argv *optargs);
This is the "argv variant" of "guestfs_set_e2attrs".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_set_e2generation (guestfs_h *g,
const char *file,
int64_t generation);
This sets the ext2 file generation of a file.
See guestfs_get_e2generation
.
This function returns 0 on success or -1 on error.
(Added in 1.17.31)
int
guestfs_set_e2label (guestfs_h *g,
const char *device,
const char *label);
This function is deprecated. In new code, use the "guestfs_set_label" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This sets the ext2/3/4 filesystem label of the filesystem on device
to label
. Filesystem labels are limited to 16 characters.
You can use either guestfs_tune2fs_l
or guestfs_get_e2label
to return the existing label on a filesystem.
This function returns 0 on success or -1 on error.
(Added in 1.0.15)
int
guestfs_set_e2uuid (guestfs_h *g,
const char *device,
const char *uuid);
This function is deprecated. In new code, use the "guestfs_set_uuid" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This sets the ext2/3/4 filesystem UUID of the filesystem on device
to uuid
. The format of the UUID and alternatives such as clear
, random
and time
are described in the tune2fs(8) manpage.
You can use guestfs_vfs_uuid
to return the existing UUID of a filesystem.
This function returns 0 on success or -1 on error.
(Added in 1.0.15)
int
guestfs_set_hv (guestfs_h *g,
const char *hv);
Set the hypervisor binary that we will use. The hypervisor depends on the backend, but is usually the location of the qemu/KVM hypervisor.
The default is chosen when the library was compiled by the configure script.
You can also override this by setting the LIBGUESTFS_HV
environment variable.
Note that you should call this function as early as possible after creating the handle. This is because some pre-launch operations depend on testing qemu features (by running qemu -help
). If the qemu binary changes, we don't retest features, and so you might see inconsistent results. Using the environment variable LIBGUESTFS_HV
is safest of all since that picks the qemu binary at the same time as the handle is created.
This function returns 0 on success or -1 on error.
(Added in 1.23.17)
int
guestfs_set_identifier (guestfs_h *g,
const char *identifier);
This is an informative string which the caller may optionally set in the handle. It is printed in various places, allowing the current handle to be identified in debugging output.
One important place is when tracing is enabled. If the identifier string is not an empty string, then trace messages change from this:
libguestfs: trace: get_tmpdir
libguestfs: trace: get_tmpdir = "/tmp"
to this:
libguestfs: trace: ID: get_tmpdir
libguestfs: trace: ID: get_tmpdir = "/tmp"
where ID
is the identifier string set by this call.
The identifier must only contain alphanumeric ASCII characters, underscore and minus sign. The default is the empty string.
See also guestfs_set_program
, guestfs_set_trace
, guestfs_get_identifier
.
This function returns 0 on success or -1 on error.
(Added in 1.31.14)
int
guestfs_set_label (guestfs_h *g,
const char *mountable,
const char *label);
Set the filesystem label on mountable
to label
.
Only some filesystem types support labels, and libguestfs supports setting labels on only a subset of these.
Labels are limited to 16 bytes.
Labels are limited to 128 unicode characters.
The label is limited to 12 bytes. The filesystem must not be mounted when trying to set the label.
The label is limited to 255 bytes and some characters are not allowed. Setting the label on a btrfs subvolume will set the label on its parent filesystem. The filesystem must not be mounted when trying to set the label.
The label is limited to 11 bytes.
The label is limited to 16 bytes.
If there is no support for changing the label for the type of the specified filesystem, set_label will fail and set errno as ENOTSUP.
To read the label on a filesystem, call guestfs_vfs_label
.
This function returns 0 on success or -1 on error.
(Added in 1.17.9)
int
guestfs_set_libvirt_requested_credential (guestfs_h *g,
int index,
const char *cred,
size_t cred_size);
After requesting the index
'th credential from the user, call this function to pass the answer back to libvirt.
See "LIBVIRT AUTHENTICATION" for documentation and example code.
This function returns 0 on success or -1 on error.
(Added in 1.19.52)
int
guestfs_set_libvirt_supported_credentials (guestfs_h *g,
char *const *creds);
Call this function before setting an event handler for GUESTFS_EVENT_LIBVIRT_AUTH
, to supply the list of credential types that the program knows how to process.
The creds
list must be a non-empty list of strings. Possible strings are:
username
authname
language
cnonce
passphrase
echoprompt
noechoprompt
realm
external
See libvirt documentation for the meaning of these credential types.
See "LIBVIRT AUTHENTICATION" for documentation and example code.
This function returns 0 on success or -1 on error.
(Added in 1.19.52)
int
guestfs_set_memsize (guestfs_h *g,
int memsize);
This sets the memory size in megabytes allocated to the hypervisor. This only has any effect if called before guestfs_launch
.
You can also change this by setting the environment variable LIBGUESTFS_MEMSIZE
before the handle is created.
For more information on the architecture of libguestfs, see guestfs(3).
This function returns 0 on success or -1 on error.
(Added in 1.0.55)
int
guestfs_set_network (guestfs_h *g,
int network);
If network
is true, then the network is enabled in the libguestfs appliance. The default is false.
This affects whether commands are able to access the network (see "RUNNING COMMANDS").
You must call this before calling guestfs_launch
, otherwise it has no effect.
This function returns 0 on success or -1 on error.
(Added in 1.5.4)
int
guestfs_set_path (guestfs_h *g,
const char *searchpath);
Set the path that libguestfs searches for kernel and initrd.img.
The default is $libdir/guestfs
unless overridden by setting LIBGUESTFS_PATH
environment variable.
Setting path
to NULL
restores the default path.
This function returns 0 on success or -1 on error.
(Added in 0.3)
int
guestfs_set_pgroup (guestfs_h *g,
int pgroup);
If pgroup
is true, child processes are placed into their own process group.
The practical upshot of this is that signals like SIGINT
(from users pressing ^C
) won't be received by the child process.
The default for this flag is false, because usually you want ^C
to kill the subprocess. Guestfish sets this flag to true when used interactively, so that ^C
can cancel long-running commands gracefully (see guestfs_user_cancel
).
This function returns 0 on success or -1 on error.
(Added in 1.11.18)
int
guestfs_set_program (guestfs_h *g,
const char *program);
Set the program name. This is an informative string which the main program may optionally set in the handle.
When the handle is created, the program name in the handle is set to the basename from argv[0]
. The program name can never be NULL
.
This function returns 0 on success or -1 on error.
(Added in 1.21.29)
int
guestfs_set_qemu (guestfs_h *g,
const char *hv);
This function is deprecated. In new code, use the "guestfs_set_hv" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
Set the hypervisor binary (usually qemu) that we will use.
The default is chosen when the library was compiled by the configure script.
You can also override this by setting the LIBGUESTFS_HV
environment variable.
Setting hv
to NULL
restores the default qemu binary.
Note that you should call this function as early as possible after creating the handle. This is because some pre-launch operations depend on testing qemu features (by running qemu -help
). If the qemu binary changes, we don't retest features, and so you might see inconsistent results. Using the environment variable LIBGUESTFS_HV
is safest of all since that picks the qemu binary at the same time as the handle is created.
This function returns 0 on success or -1 on error.
(Added in 1.0.6)
int
guestfs_set_recovery_proc (guestfs_h *g,
int recoveryproc);
If this is called with the parameter false
then guestfs_launch
does not create a recovery process. The purpose of the recovery process is to stop runaway hypervisor processes in the case where the main program aborts abruptly.
This only has any effect if called before guestfs_launch
, and the default is true.
About the only time when you would want to disable this is if the main process will fork itself into the background ("daemonize" itself). In this case the recovery process thinks that the main program has disappeared and so kills the hypervisor, which is not very helpful.
This function returns 0 on success or -1 on error.
(Added in 1.0.77)
int
guestfs_set_selinux (guestfs_h *g,
int selinux);
This function is deprecated. In new code, use the "guestfs_selinux_relabel" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This sets the selinux flag that is passed to the appliance at boot time. The default is selinux=0
(disabled).
Note that if SELinux is enabled, it is always in Permissive mode (enforcing=0
).
For more information on the architecture of libguestfs, see guestfs(3).
This function returns 0 on success or -1 on error.
(Added in 1.0.67)
int
guestfs_set_smp (guestfs_h *g,
int smp);
Change the number of virtual CPUs assigned to the appliance. The default is 1
. Increasing this may improve performance, though often it has no effect.
This function must be called before guestfs_launch
.
This function returns 0 on success or -1 on error.
(Added in 1.13.15)
int
guestfs_set_tmpdir (guestfs_h *g,
const char *tmpdir);
Set the directory used by the handle to store temporary files.
The environment variables LIBGUESTFS_TMPDIR
and TMPDIR
control the default value: If LIBGUESTFS_TMPDIR
is set, then that is the default. Else if TMPDIR
is set, then that is the default. Else /tmp is the default.
This function returns 0 on success or -1 on error.
(Added in 1.19.58)
int
guestfs_set_trace (guestfs_h *g,
int trace);
If the command trace flag is set to 1, then libguestfs calls, parameters and return values are traced.
If you want to trace C API calls into libguestfs (and other libraries) then possibly a better way is to use the external ltrace(1) command.
Command traces are disabled unless the environment variable LIBGUESTFS_TRACE
is defined and set to 1
.
Trace messages are normally sent to stderr
, unless you register a callback to send them somewhere else (see guestfs_set_event_callback
).
This function returns 0 on success or -1 on error.
(Added in 1.0.69)
int
guestfs_set_uuid (guestfs_h *g,
const char *device,
const char *uuid);
Set the filesystem UUID on device
to uuid
. If this fails and the errno is ENOTSUP, means that there is no support for changing the UUID for the type of the specified filesystem.
Only some filesystem types support setting UUIDs.
To read the UUID on a filesystem, call guestfs_vfs_uuid
.
This function returns 0 on success or -1 on error.
(Added in 1.23.10)
int
guestfs_set_uuid_random (guestfs_h *g,
const char *device);
Set the filesystem UUID on device
to a random UUID. If this fails and the errno is ENOTSUP, means that there is no support for changing the UUID for the type of the specified filesystem.
Only some filesystem types support setting UUIDs.
To read the UUID on a filesystem, call guestfs_vfs_uuid
.
This function returns 0 on success or -1 on error.
(Added in 1.29.50)
int
guestfs_set_verbose (guestfs_h *g,
int verbose);
If verbose
is true, this turns on verbose messages.
Verbose messages are disabled unless the environment variable LIBGUESTFS_DEBUG
is defined and set to 1
.
Verbose messages are normally sent to stderr
, unless you register a callback to send them somewhere else (see guestfs_set_event_callback
).
This function returns 0 on success or -1 on error.
(Added in 0.3)
int
guestfs_setcon (guestfs_h *g,
const char *context);
This function is deprecated. In new code, use the "guestfs_selinux_relabel" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This sets the SELinux security context of the daemon to the string context
.
See the documentation about SELINUX in guestfs(3).
This function returns 0 on success or -1 on error.
This function depends on the feature selinux
. See also "guestfs_feature_available".
(Added in 1.0.67)
int
guestfs_setxattr (guestfs_h *g,
const char *xattr,
const char *val,
int vallen,
const char *path);
This call sets the extended attribute named xattr
of the file path
to the value val
(of length vallen
). The value is arbitrary 8 bit data.
See also: guestfs_lsetxattr
, attr(5).
This function returns 0 on success or -1 on error.
This function depends on the feature linuxxattrs
. See also "guestfs_feature_available".
(Added in 1.0.59)
int
guestfs_sfdisk (guestfs_h *g,
const char *device,
int cyls,
int heads,
int sectors,
char *const *lines);
This function is deprecated. In new code, use the "guestfs_part_add" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This is a direct interface to the sfdisk(8) program for creating partitions on block devices.
device
should be a block device, for example /dev/sda.
cyls
, heads
and sectors
are the number of cylinders, heads and sectors on the device, which are passed directly to sfdisk(8) as the -C, -H and -S parameters. If you pass 0
for any of these, then the corresponding parameter is omitted. Usually for ‘large’ disks, you can just pass 0
for these, but for small (floppy-sized) disks, sfdisk(8) (or rather, the kernel) cannot work out the right geometry and you will need to tell it.
lines
is a list of lines that we feed to sfdisk(8). For more information refer to the sfdisk(8) manpage.
To create a single partition occupying the whole disk, you would pass lines
as a single element list, when the single element being the string ,
(comma).
See also: guestfs_sfdisk_l
, guestfs_sfdisk_N
, guestfs_part_init
This function returns 0 on success or -1 on error.
(Added in 0.8)
int
guestfs_sfdiskM (guestfs_h *g,
const char *device,
char *const *lines);
This function is deprecated. In new code, use the "guestfs_part_add" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This is a simplified interface to the guestfs_sfdisk
command, where partition sizes are specified in megabytes only (rounded to the nearest cylinder) and you don't need to specify the cyls, heads and sectors parameters which were rarely if ever used anyway.
See also: guestfs_sfdisk
, the sfdisk(8) manpage and guestfs_part_disk
This function returns 0 on success or -1 on error.
(Added in 1.0.55)
int
guestfs_sfdisk_N (guestfs_h *g,
const char *device,
int partnum,
int cyls,
int heads,
int sectors,
const char *line);
This function is deprecated. In new code, use the "guestfs_part_add" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This runs sfdisk(8) option to modify just the single partition n
(note: n
counts from 1).
For other parameters, see guestfs_sfdisk
. You should usually pass 0
for the cyls/heads/sectors parameters.
See also: guestfs_part_add
This function returns 0 on success or -1 on error.
(Added in 1.0.26)
char *
guestfs_sfdisk_disk_geometry (guestfs_h *g,
const char *device);
This displays the disk geometry of device
read from the partition table. Especially in the case where the underlying block device has been resized, this can be different from the kernel’s idea of the geometry (see guestfs_sfdisk_kernel_geometry
).
The result is in human-readable format, and not designed to be parsed.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.26)
char *
guestfs_sfdisk_kernel_geometry (guestfs_h *g,
const char *device);
This displays the kernel’s idea of the geometry of device
.
The result is in human-readable format, and not designed to be parsed.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.26)
char *
guestfs_sfdisk_l (guestfs_h *g,
const char *device);
This function is deprecated. In new code, use the "guestfs_part_list" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This displays the partition table on device
, in the human-readable output of the sfdisk(8) command. It is not intended to be parsed.
See also: guestfs_part_list
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.26)
char *
guestfs_sh (guestfs_h *g,
const char *command);
This call runs a command from the guest filesystem via the guest’s /bin/sh.
This is like guestfs_command
, but passes the command to:
/bin/sh -c "command"
Depending on the guest’s shell, this usually results in wildcards being expanded, shell expressions being interpolated and so on.
All the provisos about guestfs_command
apply to this call.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.50)
char **
guestfs_sh_lines (guestfs_h *g,
const char *command);
This is the same as guestfs_sh
, but splits the result into a list of lines.
See also: guestfs_command_lines
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.0.50)
int
guestfs_shutdown (guestfs_h *g);
This is the opposite of guestfs_launch
. It performs an orderly shutdown of the backend process(es). If the autosync flag is set (which is the default) then the disk image is synchronized.
If the subprocess exits with an error then this function will return an error, which should not be ignored (it may indicate that the disk image could not be written out properly).
It is safe to call this multiple times. Extra calls are ignored.
This call does not close or free up the handle. You still need to call guestfs_close
afterwards.
guestfs_close
will call this if you don't do it explicitly, but note that any errors are ignored in that case.
This function returns 0 on success or -1 on error.
(Added in 1.19.16)
int
guestfs_sleep (guestfs_h *g,
int secs);
Sleep for secs
seconds.
This function returns 0 on success or -1 on error.
(Added in 1.0.41)
struct guestfs_stat *
guestfs_stat (guestfs_h *g,
const char *path);
This function is deprecated. In new code, use the "guestfs_statns" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
Returns file information for the given path
.
This is the same as the stat(2) system call.
This function returns a struct guestfs_stat *
, or NULL if there was an error. The caller must call guestfs_free_stat
after use.
(Added in 1.9.2)
struct guestfs_statns *
guestfs_statns (guestfs_h *g,
const char *path);
Returns file information for the given path
.
This is the same as the stat(2) system call.
This function returns a struct guestfs_statns *
, or NULL if there was an error. The caller must call guestfs_free_statns
after use.
(Added in 1.27.53)
struct guestfs_statvfs *
guestfs_statvfs (guestfs_h *g,
const char *path);
Returns file system statistics for any mounted file system. path
should be a file or directory in the mounted file system (typically it is the mount point itself, but it doesn't need to be).
This is the same as the statvfs(2) system call.
This function returns a struct guestfs_statvfs *
, or NULL if there was an error. The caller must call guestfs_free_statvfs
after use.
(Added in 1.9.2)
char **
guestfs_strings (guestfs_h *g,
const char *path);
This runs the strings(1) command on a file and returns the list of printable strings found.
The strings
command has, in the past, had problems with parsing untrusted files. These are mitigated in the current version of libguestfs, but see "CVE-2014-8484".
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.22)
char **
guestfs_strings_e (guestfs_h *g,
const char *encoding,
const char *path);
This is like the guestfs_strings
command, but allows you to specify the encoding of strings that are looked for in the source file path
.
Allowed encodings are:
Single 7-bit-byte characters like ASCII and the ASCII-compatible parts of ISO-8859-X (this is what guestfs_strings
uses).
Single 8-bit-byte characters.
16-bit big endian strings such as those encoded in UTF-16BE or UCS-2BE.
16-bit little endian such as UTF-16LE and UCS-2LE. This is useful for examining binaries in Windows guests.
32-bit big endian such as UCS-4BE.
32-bit little endian such as UCS-4LE.
The returned strings are transcoded to UTF-8.
The strings
command has, in the past, had problems with parsing untrusted files. These are mitigated in the current version of libguestfs, but see "CVE-2014-8484".
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.22)
int
guestfs_swapoff_device (guestfs_h *g,
const char *device);
This command disables the libguestfs appliance swap device or partition named device
. See guestfs_swapon_device
.
This function returns 0 on success or -1 on error.
(Added in 1.0.66)
int
guestfs_swapoff_file (guestfs_h *g,
const char *file);
This command disables the libguestfs appliance swap on file.
This function returns 0 on success or -1 on error.
(Added in 1.0.66)
int
guestfs_swapoff_label (guestfs_h *g,
const char *label);
This command disables the libguestfs appliance swap on labeled swap partition.
This function returns 0 on success or -1 on error.
(Added in 1.0.66)
int
guestfs_swapoff_uuid (guestfs_h *g,
const char *uuid);
This command disables the libguestfs appliance swap partition with the given UUID.
This function returns 0 on success or -1 on error.
This function depends on the feature linuxfsuuid
. See also "guestfs_feature_available".
(Added in 1.0.66)
int
guestfs_swapon_device (guestfs_h *g,
const char *device);
This command enables the libguestfs appliance to use the swap device or partition named device
. The increased memory is made available for all commands, for example those run using guestfs_command
or guestfs_sh
.
Note that you should not swap to existing guest swap partitions unless you know what you are doing. They may contain hibernation information, or other information that the guest doesn't want you to trash. You also risk leaking information about the host to the guest this way. Instead, attach a new host device to the guest and swap on that.
This function returns 0 on success or -1 on error.
(Added in 1.0.66)
int
guestfs_swapon_file (guestfs_h *g,
const char *file);
This command enables swap to a file. See guestfs_swapon_device
for other notes.
This function returns 0 on success or -1 on error.
(Added in 1.0.66)
int
guestfs_swapon_label (guestfs_h *g,
const char *label);
This command enables swap to a labeled swap partition. See guestfs_swapon_device
for other notes.
This function returns 0 on success or -1 on error.
(Added in 1.0.66)
int
guestfs_swapon_uuid (guestfs_h *g,
const char *uuid);
This command enables swap to a swap partition with the given UUID. See guestfs_swapon_device
for other notes.
This function returns 0 on success or -1 on error.
This function depends on the feature linuxfsuuid
. See also "guestfs_feature_available".
(Added in 1.0.66)
int
guestfs_sync (guestfs_h *g);
This syncs the disk, so that any writes are flushed through to the underlying disk image.
You should always call this if you have modified a disk image, before closing the handle.
This function returns 0 on success or -1 on error.
(Added in 0.3)
int
guestfs_syslinux (guestfs_h *g,
const char *device,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_SYSLINUX_DIRECTORY, const char *directory,
Install the SYSLINUX bootloader on device
.
The device parameter must be either a whole disk formatted as a FAT filesystem, or a partition formatted as a FAT filesystem. In the latter case, the partition should be marked as "active" (guestfs_part_set_bootable
) and a Master Boot Record must be installed (eg. using guestfs_pwrite_device
) on the first sector of the whole disk. The SYSLINUX package comes with some suitable Master Boot Records. See the syslinux(1) man page for further information.
The optional arguments are:
Install SYSLINUX in the named subdirectory, instead of in the root directory of the FAT filesystem.
Additional configuration can be supplied to SYSLINUX by placing a file called syslinux.cfg on the FAT filesystem, either in the root directory, or under directory if that optional argument is being used. For further information about the contents of this file, see syslinux(1).
See also guestfs_extlinux
.
This function returns 0 on success or -1 on error.
This function depends on the feature syslinux
. See also "guestfs_feature_available".
(Added in 1.21.27)
int
guestfs_syslinux_va (guestfs_h *g,
const char *device,
va_list args);
This is the "va_list variant" of "guestfs_syslinux".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_syslinux_argv (guestfs_h *g,
const char *device,
const struct guestfs_syslinux_argv *optargs);
This is the "argv variant" of "guestfs_syslinux".
See "CALLS WITH OPTIONAL ARGUMENTS".
char **
guestfs_tail (guestfs_h *g,
const char *path);
This command returns up to the last 10 lines of a file as a list of strings.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.54)
char **
guestfs_tail_n (guestfs_h *g,
int nrlines,
const char *path);
If the parameter nrlines
is a positive number, this returns the last nrlines
lines of the file path
.
If the parameter nrlines
is a negative number, this returns lines from the file path
, starting with the -nrlines
'th line.
If the parameter nrlines
is zero, this returns an empty list.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.54)
int
guestfs_tar_in (guestfs_h *g,
const char *tarfile,
const char *directory);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_tar_in_opts" with no optional arguments.
(Added in 1.0.3)
int
guestfs_tar_in_opts (guestfs_h *g,
const char *tarfile,
const char *directory,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_TAR_IN_OPTS_COMPRESS, const char *compress,
GUESTFS_TAR_IN_OPTS_XATTRS, int xattrs,
GUESTFS_TAR_IN_OPTS_SELINUX, int selinux,
GUESTFS_TAR_IN_OPTS_ACLS, int acls,
This command uploads and unpacks local file tarfile
into directory.
The optional compress
flag controls compression. If not given, then the input should be an uncompressed tar file. Otherwise one of the following strings may be given to select the compression type of the input file: compress
, gzip
, bzip2
, xz
, lzop
, lzma
, zstd
. (Note that not all builds of libguestfs will support all of these compression types).
The other optional arguments are:
xattrs
If set to true, extended attributes are restored from the tar file.
selinux
If set to true, SELinux contexts are restored from the tar file.
acls
If set to true, POSIX ACLs are restored from the tar file.
This function returns 0 on success or -1 on error.
(Added in 1.0.3)
int
guestfs_tar_in_opts_va (guestfs_h *g,
const char *tarfile,
const char *directory,
va_list args);
This is the "va_list variant" of "guestfs_tar_in_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_tar_in_opts_argv (guestfs_h *g,
const char *tarfile,
const char *directory,
const struct guestfs_tar_in_opts_argv *optargs);
This is the "argv variant" of "guestfs_tar_in_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_tar_out (guestfs_h *g,
const char *directory,
const char *tarfile);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_tar_out_opts" with no optional arguments.
(Added in 1.0.3)
int
guestfs_tar_out_opts (guestfs_h *g,
const char *directory,
const char *tarfile,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_TAR_OUT_OPTS_COMPRESS, const char *compress,
GUESTFS_TAR_OUT_OPTS_NUMERICOWNER, int numericowner,
GUESTFS_TAR_OUT_OPTS_EXCLUDES, char *const *excludes,
GUESTFS_TAR_OUT_OPTS_XATTRS, int xattrs,
GUESTFS_TAR_OUT_OPTS_SELINUX, int selinux,
GUESTFS_TAR_OUT_OPTS_ACLS, int acls,
This command packs the contents of directory and downloads it to local file tarfile
.
The optional compress
flag controls compression. If not given, then the output will be an uncompressed tar file. Otherwise one of the following strings may be given to select the compression type of the output file: compress
, gzip
, bzip2
, xz
, lzop
, lzma
, zstd
. (Note that not all builds of libguestfs will support all of these compression types).
The other optional arguments are:
excludes
A list of wildcards. Files are excluded if they match any of the wildcards.
numericowner
If set to true, the output tar file will contain UID/GID numbers instead of user/group names.
xattrs
If set to true, extended attributes are saved in the output tar.
selinux
If set to true, SELinux contexts are saved in the output tar.
acls
If set to true, POSIX ACLs are saved in the output tar.
This function returns 0 on success or -1 on error.
(Added in 1.0.3)
int
guestfs_tar_out_opts_va (guestfs_h *g,
const char *directory,
const char *tarfile,
va_list args);
This is the "va_list variant" of "guestfs_tar_out_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_tar_out_opts_argv (guestfs_h *g,
const char *directory,
const char *tarfile,
const struct guestfs_tar_out_opts_argv *optargs);
This is the "argv variant" of "guestfs_tar_out_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_tgz_in (guestfs_h *g,
const char *tarball,
const char *directory);
This function is deprecated. In new code, use the "guestfs_tar_in" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This command uploads and unpacks local file tarball
(a gzip compressed tar file) into directory.
This function returns 0 on success or -1 on error.
(Added in 1.0.3)
int
guestfs_tgz_out (guestfs_h *g,
const char *directory,
const char *tarball);
This function is deprecated. In new code, use the "guestfs_tar_out" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This command packs the contents of directory and downloads it to local file tarball
.
This function returns 0 on success or -1 on error.
(Added in 1.0.3)
int
guestfs_touch (guestfs_h *g,
const char *path);
Touch acts like the touch(1) command. It can be used to update the timestamps on a file, or, if the file does not exist, to create a new zero-length file.
This command only works on regular files, and will fail on other file types such as directories, symbolic links, block special etc.
This function returns 0 on success or -1 on error.
(Added in 0.3)
int
guestfs_truncate (guestfs_h *g,
const char *path);
This command truncates path
to a zero-length file. The file must exist already.
This function returns 0 on success or -1 on error.
(Added in 1.0.77)
int
guestfs_truncate_size (guestfs_h *g,
const char *path,
int64_t size);
This command truncates path
to size size
bytes. The file must exist already.
If the current file size is less than size
then the file is extended to the required size with zero bytes. This creates a sparse file (ie. disk blocks are not allocated for the file until you write to it). To create a non-sparse file of zeroes, use guestfs_fallocate64
instead.
This function returns 0 on success or -1 on error.
(Added in 1.0.77)
int
guestfs_tune2fs (guestfs_h *g,
const char *device,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_TUNE2FS_FORCE, int force,
GUESTFS_TUNE2FS_MAXMOUNTCOUNT, int maxmountcount,
GUESTFS_TUNE2FS_MOUNTCOUNT, int mountcount,
GUESTFS_TUNE2FS_ERRORBEHAVIOR, const char *errorbehavior,
GUESTFS_TUNE2FS_GROUP, int64_t group,
GUESTFS_TUNE2FS_INTERVALBETWEENCHECKS, int intervalbetweenchecks,
GUESTFS_TUNE2FS_RESERVEDBLOCKSPERCENTAGE, int reservedblockspercentage,
GUESTFS_TUNE2FS_LASTMOUNTEDDIRECTORY, const char *lastmounteddirectory,
GUESTFS_TUNE2FS_RESERVEDBLOCKSCOUNT, int64_t reservedblockscount,
GUESTFS_TUNE2FS_USER, int64_t user,
This call allows you to adjust various filesystem parameters of an ext2/ext3/ext4 filesystem called device
.
The optional parameters are:
force
Force tune2fs to complete the operation even in the face of errors. This is the same as the tune2fs(8) -f
option.
maxmountcount
Set the number of mounts after which the filesystem is checked by e2fsck(8). If this is 0
then the number of mounts is disregarded. This is the same as the tune2fs(8) -c
option.
mountcount
Set the number of times the filesystem has been mounted. This is the same as the tune2fs(8) -C
option.
errorbehavior
Change the behavior of the kernel code when errors are detected. Possible values currently are: continue
, remount-ro
, panic
. In practice these options don't really make any difference, particularly for write errors.
This is the same as the tune2fs(8) -e
option.
group
Set the group which can use reserved filesystem blocks. This is the same as the tune2fs(8) -g
option except that it can only be specified as a number.
intervalbetweenchecks
Adjust the maximal time between two filesystem checks (in seconds). If the option is passed as 0
then time-dependent checking is disabled.
This is the same as the tune2fs(8) -i
option.
reservedblockspercentage
Set the percentage of the filesystem which may only be allocated by privileged processes. This is the same as the tune2fs(8) -m
option.
lastmounteddirectory
Set the last mounted directory. This is the same as the tune2fs(8) -M
option.
reservedblockscount
Set the number of reserved filesystem blocks. This is the same as the tune2fs(8) -r
option.user
Set the user who can use the reserved filesystem blocks. This is the same as the tune2fs(8) -u
option except that it can only be specified as a number.
To get the current values of filesystem parameters, see guestfs_tune2fs_l
. For precise details of how tune2fs works, see the tune2fs(8) man page.
This function returns 0 on success or -1 on error.
(Added in 1.15.4)
int
guestfs_tune2fs_va (guestfs_h *g,
const char *device,
va_list args);
This is the "va_list variant" of "guestfs_tune2fs".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_tune2fs_argv (guestfs_h *g,
const char *device,
const struct guestfs_tune2fs_argv *optargs);
This is the "argv variant" of "guestfs_tune2fs".
See "CALLS WITH OPTIONAL ARGUMENTS".
char **
guestfs_tune2fs_l (guestfs_h *g,
const char *device);
This returns the contents of the ext2, ext3 or ext4 filesystem superblock on device
.
It is the same as running tune2fs -l device
. See tune2fs(8) manpage for more details. The list of fields returned isn't clearly defined, and depends on both the version of tune2fs
that libguestfs was built against, and the filesystem itself.
This function returns a NULL-terminated array of strings, or NULL if there was an error. The array of strings will always have length 2n+1
, where n
keys and values alternate, followed by the trailing NULL entry. The caller must free the strings and the array after use.
(Added in 1.9.2)
int
guestfs_txz_in (guestfs_h *g,
const char *tarball,
const char *directory);
This function is deprecated. In new code, use the "guestfs_tar_in" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This command uploads and unpacks local file tarball
(an xz compressed tar file) into directory.
This function returns 0 on success or -1 on error.
This function depends on the feature xz
. See also "guestfs_feature_available".
(Added in 1.3.2)
int
guestfs_txz_out (guestfs_h *g,
const char *directory,
const char *tarball);
This function is deprecated. In new code, use the "guestfs_tar_out" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This command packs the contents of directory and downloads it to local file tarball
(as an xz compressed tar archive).
This function returns 0 on success or -1 on error.
This function depends on the feature xz
. See also "guestfs_feature_available".
(Added in 1.3.2)
int
guestfs_umask (guestfs_h *g,
int mask);
This function sets the mask used for creating new files and device nodes to mask & 0777
.
Typical umask values would be 022
which creates new files with permissions like "-rw-r--r--" or "-rwxr-xr-x", and 002
which creates new files with permissions like "-rw-rw-r--" or "-rwxrwxr-x".
The default umask is 022
. This is important because it means that directories and device nodes will be created with 0644
or 0755
mode even if you specify 0777
.
See also guestfs_get_umask
, umask(2), guestfs_mknod
, guestfs_mkdir
.
This call returns the previous umask.
On error this function returns -1.
(Added in 1.0.55)
int
guestfs_umount (guestfs_h *g,
const char *pathordevice);
This function is provided for backwards compatibility with earlier versions of libguestfs. It simply calls "guestfs_umount_opts" with no optional arguments.
(Added in 0.8)
int
guestfs_umount_opts (guestfs_h *g,
const char *pathordevice,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_UMOUNT_OPTS_FORCE, int force,
GUESTFS_UMOUNT_OPTS_LAZYUNMOUNT, int lazyunmount,
This unmounts the given filesystem. The filesystem may be specified either by its mountpoint (path) or the device which contains the filesystem.
This function returns 0 on success or -1 on error.
(Added in 0.8)
int
guestfs_umount_opts_va (guestfs_h *g,
const char *pathordevice,
va_list args);
This is the "va_list variant" of "guestfs_umount_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_umount_opts_argv (guestfs_h *g,
const char *pathordevice,
const struct guestfs_umount_opts_argv *optargs);
This is the "argv variant" of "guestfs_umount_opts".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_umount_all (guestfs_h *g);
This unmounts all mounted filesystems.
Some internal mounts are not unmounted by this call.
This function returns 0 on success or -1 on error.
(Added in 0.8)
int
guestfs_umount_local (guestfs_h *g,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_UMOUNT_LOCAL_RETRY, int retry,
If libguestfs is exporting the filesystem on a local mountpoint, then this unmounts it.
See "MOUNT LOCAL" for full documentation.
This function returns 0 on success or -1 on error.
(Added in 1.17.22)
int
guestfs_umount_local_va (guestfs_h *g,
va_list args);
This is the "va_list variant" of "guestfs_umount_local".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_umount_local_argv (guestfs_h *g,
const struct guestfs_umount_local_argv *optargs);
This is the "argv variant" of "guestfs_umount_local".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_upload (guestfs_h *g,
const char *filename,
const char *remotefilename);
Upload local file filename to remotefilename on the filesystem.
filename can also be a named pipe.
See also guestfs_download
.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.0.2)
int
guestfs_upload_offset (guestfs_h *g,
const char *filename,
const char *remotefilename,
int64_t offset);
Upload local file filename to remotefilename on the filesystem.
remotefilename is overwritten starting at the byte offset
specified. The intention is to overwrite parts of existing files or devices, although if a non-existent file is specified then it is created with a "hole" before offset
. The size of the data written is implicit in the size of the source filename.
Note that there is no limit on the amount of data that can be uploaded with this call, unlike with guestfs_pwrite
, and this call always writes the full amount unless an error occurs.
See also guestfs_upload
, guestfs_pwrite
.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.5.17)
int
guestfs_user_cancel (guestfs_h *g);
This function cancels the current upload or download operation.
Unlike most other libguestfs calls, this function is signal safe and thread safe. You can call it from a signal handler or from another thread, without needing to do any locking.
The transfer that was in progress (if there is one) will stop shortly afterwards, and will return an error. The errno (see "guestfs_last_errno") is set to EINTR
, so you can test for this to find out if the operation was cancelled or failed because of another error.
No cleanup is performed: for example, if a file was being uploaded then after cancellation there may be a partially uploaded file. It is the caller’s responsibility to clean up if necessary.
There are two common places that you might call guestfs_user_cancel
:
In an interactive text-based program, you might call it from a SIGINT
signal handler so that pressing ^C
cancels the current operation. (You also need to call guestfs_set_pgroup
so that child processes don't receive the ^C
signal).
In a graphical program, when the main thread is displaying a progress bar with a cancel button, wire up the cancel button to call this function.
This function returns 0 on success or -1 on error.
(Added in 1.11.18)
int
guestfs_utimens (guestfs_h *g,
const char *path,
int64_t atsecs,
int64_t atnsecs,
int64_t mtsecs,
int64_t mtnsecs);
This command sets the timestamps of a file with nanosecond precision.
atsecs
, atnsecs
are the last access time (atime) in secs and nanoseconds from the epoch.
mtsecs
, mtnsecs
are the last modification time (mtime) in secs and nanoseconds from the epoch.
If the *nsecs
field contains the special value -1
then the corresponding timestamp is set to the current time. (The *secs
field is ignored in this case).
If the *nsecs
field contains the special value -2
then the corresponding timestamp is left unchanged. (The *secs
field is ignored in this case).
This function returns 0 on success or -1 on error.
(Added in 1.0.77)
struct guestfs_utsname *
guestfs_utsname (guestfs_h *g);
This returns the kernel version of the appliance, where this is available. This information is only useful for debugging. Nothing in the returned structure is defined by the API.
This function returns a struct guestfs_utsname *
, or NULL if there was an error. The caller must call guestfs_free_utsname
after use.
(Added in 1.19.27)
struct guestfs_version *
guestfs_version (guestfs_h *g);
Return the libguestfs version number that the program is linked against.
Note that because of dynamic linking this is not necessarily the version of libguestfs that you compiled against. You can compile the program, and then at runtime dynamically link against a completely different libguestfs.so library.
This call was added in version 1.0.58
. In previous versions of libguestfs there was no way to get the version number. From C code you can use dynamic linker functions to find out if this symbol exists (if it doesn't, then it’s an earlier version).
The call returns a structure with four elements. The first three (major
, minor
and release
) are numbers and correspond to the usual version triplet. The fourth element (extra
) is a string and is normally empty, but may be used for distro-specific information.
To construct the original version string: $major.$minor.$release$extra
See also: "LIBGUESTFS VERSION NUMBERS".
Note: Don't use this call to test for availability of features. In enterprise distributions we backport features from later versions into earlier versions, making this an unreliable way to test for features. Use guestfs_available
or guestfs_feature_available
instead.
This function returns a struct guestfs_version *
, or NULL if there was an error. The caller must call guestfs_free_version
after use.
(Added in 1.0.58)
char *
guestfs_vfs_label (guestfs_h *g,
const char *mountable);
This returns the label of the filesystem on mountable
.
If the filesystem is unlabeled, this returns the empty string.
To find a filesystem from the label, use guestfs_findfs_label
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.3.18)
int64_t
guestfs_vfs_minimum_size (guestfs_h *g,
const char *mountable);
Get the minimum size of filesystem in bytes. This is the minimum possible size for filesystem shrinking.
If getting minimum size of specified filesystem is not supported, this will fail and set errno as ENOTSUP.
See also ntfsresize(8), resize2fs(8), btrfs(8), xfs_info(8).
On error this function returns -1.
(Added in 1.31.18)
char *
guestfs_vfs_type (guestfs_h *g,
const char *mountable);
This command gets the filesystem type corresponding to the filesystem on mountable
.
For most filesystems, the result is the name of the Linux VFS module which would be used to mount this filesystem if you mounted it without specifying the filesystem type. For example a string such as ext3
or ntfs
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.75)
char *
guestfs_vfs_uuid (guestfs_h *g,
const char *mountable);
This returns the filesystem UUID of the filesystem on mountable
.
If the filesystem does not have a UUID, this returns the empty string.
To find a filesystem from the UUID, use guestfs_findfs_uuid
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.3.18)
int
guestfs_vg_activate (guestfs_h *g,
int activate,
char *const *volgroups);
This command activates or (if activate
is false) deactivates all logical volumes in the listed volume groups volgroups
.
This command is the same as running vgchange -a y|n volgroups...
Note that if volgroups
is an empty list then all volume groups are activated or deactivated.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.0.26)
int
guestfs_vg_activate_all (guestfs_h *g,
int activate);
This command activates or (if activate
is false) deactivates all logical volumes in all volume groups.
This command is the same as running vgchange -a y|n
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.0.26)
int
guestfs_vgchange_uuid (guestfs_h *g,
const char *vg);
Generate a new random UUID for the volume group vg
.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.19.26)
int
guestfs_vgchange_uuid_all (guestfs_h *g);
Generate new random UUIDs for all volume groups.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.19.26)
int
guestfs_vgcreate (guestfs_h *g,
const char *volgroup,
char *const *physvols);
This creates an LVM volume group called volgroup
from the non-empty list of physical volumes physvols
.
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 0.8)
char **
guestfs_vglvuuids (guestfs_h *g,
const char *vgname);
Given a VG called vgname
, this returns the UUIDs of all the logical volumes created in this volume group.
You can use this along with guestfs_lvs
and guestfs_lvuuid
calls to associate logical volumes and volume groups.
See also guestfs_vgpvuuids
.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.0.87)
char *
guestfs_vgmeta (guestfs_h *g,
const char *vgname,
size_t *size_r);
vgname
is an LVM volume group. This command examines the volume group and returns its metadata.
Note that the metadata is an internal structure used by LVM, subject to change at any time, and is provided for information only.
This function returns a buffer, or NULL on error. The size of the returned buffer is written to *size_r
. The caller must free the returned buffer after use.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.17.20)
char **
guestfs_vgpvuuids (guestfs_h *g,
const char *vgname);
Given a VG called vgname
, this returns the UUIDs of all the physical volumes that this volume group resides on.
You can use this along with guestfs_pvs
and guestfs_pvuuid
calls to associate physical volumes and volume groups.
See also guestfs_vglvuuids
.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
(Added in 1.0.87)
int
guestfs_vgremove (guestfs_h *g,
const char *vgname);
Remove an LVM volume group vgname
, (for example VG
).
This also forcibly removes all logical volumes in the volume group (if any).
This function returns 0 on success or -1 on error.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 1.0.13)
int
guestfs_vgrename (guestfs_h *g,
const char *volgroup,
const char *newvolgroup);
Rename a volume group volgroup
with the new name newvolgroup
.
This function returns 0 on success or -1 on error.
(Added in 1.0.83)
char **
guestfs_vgs (guestfs_h *g);
List all the volumes groups detected. This is the equivalent of the vgs(8) command.
This returns a list of just the volume group names that were detected (eg. VolGroup00
).
See also guestfs_vgs_full
.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 0.4)
struct guestfs_lvm_vg_list *
guestfs_vgs_full (guestfs_h *g);
List all the volumes groups detected. This is the equivalent of the vgs(8) command. The "full" version includes all fields.
This function returns a struct guestfs_lvm_vg_list *
, or NULL if there was an error. The caller must call guestfs_free_lvm_vg_list
after use.
This function depends on the feature lvm2
. See also "guestfs_feature_available".
(Added in 0.4)
int
guestfs_vgscan (guestfs_h *g);
This function is deprecated. In new code, use the "guestfs_lvm_scan" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This rescans all block devices and rebuilds the list of LVM physical volumes, volume groups and logical volumes.
This function returns 0 on success or -1 on error.
(Added in 1.3.2)
char *
guestfs_vguuid (guestfs_h *g,
const char *vgname);
This command returns the UUID of the LVM VG named vgname
.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.87)
int
guestfs_wait_ready (guestfs_h *g);
This function is deprecated. There is no replacement. Consult the API documentation in guestfs(3) for further information.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This function is a no op.
In versions of the API < 1.0.71 you had to call this function just after calling guestfs_launch
to wait for the launch to complete. However this is no longer necessary because guestfs_launch
now does the waiting.
If you see any calls to this function in code then you can just remove them, unless you want to retain compatibility with older versions of the API.
This function returns 0 on success or -1 on error.
(Added in 0.3)
int
guestfs_wc_c (guestfs_h *g,
const char *path);
This command counts the characters in a file, using the wc -c
external command.
On error this function returns -1.
(Added in 1.0.54)
int
guestfs_wc_l (guestfs_h *g,
const char *path);
This command counts the lines in a file, using the wc -l
external command.
On error this function returns -1.
(Added in 1.0.54)
int
guestfs_wc_w (guestfs_h *g,
const char *path);
This command counts the words in a file, using the wc -w
external command.
On error this function returns -1.
(Added in 1.0.54)
int
guestfs_wipefs (guestfs_h *g,
const char *device);
This command erases filesystem or RAID signatures from the specified device
to make the filesystem invisible to libblkid.
This does not erase the filesystem itself nor any other data from the device
.
Compare with guestfs_zero
which zeroes the first few blocks of a device.
This function returns 0 on success or -1 on error.
This function depends on the feature wipefs
. See also "guestfs_feature_available".
(Added in 1.17.6)
int
guestfs_write (guestfs_h *g,
const char *path,
const char *content,
size_t content_size);
This call creates a file called path
. The content of the file is the string content
(which can contain any 8 bit data).
See also guestfs_write_append
.
This function returns 0 on success or -1 on error.
(Added in 1.3.14)
int
guestfs_write_append (guestfs_h *g,
const char *path,
const char *content,
size_t content_size);
This call appends content
to the end of file path
. If path
does not exist, then a new file is created.
See also guestfs_write
.
This function returns 0 on success or -1 on error.
(Added in 1.11.18)
int
guestfs_write_file (guestfs_h *g,
const char *path,
const char *content,
int size);
This function is deprecated. In new code, use the "guestfs_write" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This call creates a file called path
. The contents of the file is the string content
(which can contain any 8 bit data), with length size
.
As a special case, if size
is 0
then the length is calculated using strlen
(so in this case the content cannot contain embedded ASCII NULs).
NB. Owing to a bug, writing content containing ASCII NUL characters does not work, even if the length is specified.
This function returns 0 on success or -1 on error.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 0.8)
int
guestfs_xfs_admin (guestfs_h *g,
const char *device,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_XFS_ADMIN_EXTUNWRITTEN, int extunwritten,
GUESTFS_XFS_ADMIN_IMGFILE, int imgfile,
GUESTFS_XFS_ADMIN_V2LOG, int v2log,
GUESTFS_XFS_ADMIN_PROJID32BIT, int projid32bit,
GUESTFS_XFS_ADMIN_LAZYCOUNTER, int lazycounter,
GUESTFS_XFS_ADMIN_LABEL, const char *label,
GUESTFS_XFS_ADMIN_UUID, const char *uuid,
Change the parameters of the XFS filesystem on device
.
Devices that are mounted cannot be modified. Administrators must unmount filesystems before this call can modify parameters.
Some of the parameters of a mounted filesystem can be examined and modified using the guestfs_xfs_info
and guestfs_xfs_growfs
calls.
Beginning with XFS version 5, it is no longer possible to modify the lazy-counters setting (ie. lazycounter
parameter has no effect).
This function returns 0 on success or -1 on error.
This function depends on the feature xfs
. See also "guestfs_feature_available".
(Added in 1.19.33)
int
guestfs_xfs_admin_va (guestfs_h *g,
const char *device,
va_list args);
This is the "va_list variant" of "guestfs_xfs_admin".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_xfs_admin_argv (guestfs_h *g,
const char *device,
const struct guestfs_xfs_admin_argv *optargs);
This is the "argv variant" of "guestfs_xfs_admin".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_xfs_growfs (guestfs_h *g,
const char *path,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_XFS_GROWFS_DATASEC, int datasec,
GUESTFS_XFS_GROWFS_LOGSEC, int logsec,
GUESTFS_XFS_GROWFS_RTSEC, int rtsec,
GUESTFS_XFS_GROWFS_DATASIZE, int64_t datasize,
GUESTFS_XFS_GROWFS_LOGSIZE, int64_t logsize,
GUESTFS_XFS_GROWFS_RTSIZE, int64_t rtsize,
GUESTFS_XFS_GROWFS_RTEXTSIZE, int64_t rtextsize,
GUESTFS_XFS_GROWFS_MAXPCT, int maxpct,
Grow the XFS filesystem mounted at path
.
The returned struct contains geometry information. Missing fields are returned as -1
(for numeric fields) or empty string.
This function returns 0 on success or -1 on error.
This function depends on the feature xfs
. See also "guestfs_feature_available".
(Added in 1.19.28)
int
guestfs_xfs_growfs_va (guestfs_h *g,
const char *path,
va_list args);
This is the "va_list variant" of "guestfs_xfs_growfs".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_xfs_growfs_argv (guestfs_h *g,
const char *path,
const struct guestfs_xfs_growfs_argv *optargs);
This is the "argv variant" of "guestfs_xfs_growfs".
See "CALLS WITH OPTIONAL ARGUMENTS".
struct guestfs_xfsinfo *
guestfs_xfs_info (guestfs_h *g,
const char *pathordevice);
pathordevice
is a mounted XFS filesystem or a device containing an XFS filesystem. This command returns the geometry of the filesystem.
The returned struct contains geometry information. Missing fields are returned as -1
(for numeric fields) or empty string.
This function returns a struct guestfs_xfsinfo *
, or NULL if there was an error. The caller must call guestfs_free_xfsinfo
after use.
This function depends on the feature xfs
. See also "guestfs_feature_available".
(Added in 1.19.21)
int
guestfs_xfs_repair (guestfs_h *g,
const char *device,
...);
You may supply a list of optional arguments to this call. Use zero or more of the following pairs of parameters, and terminate the list with -1
on its own. See "CALLS WITH OPTIONAL ARGUMENTS".
GUESTFS_XFS_REPAIR_FORCELOGZERO, int forcelogzero,
GUESTFS_XFS_REPAIR_NOMODIFY, int nomodify,
GUESTFS_XFS_REPAIR_NOPREFETCH, int noprefetch,
GUESTFS_XFS_REPAIR_FORCEGEOMETRY, int forcegeometry,
GUESTFS_XFS_REPAIR_MAXMEM, int64_t maxmem,
GUESTFS_XFS_REPAIR_IHASHSIZE, int64_t ihashsize,
GUESTFS_XFS_REPAIR_BHASHSIZE, int64_t bhashsize,
GUESTFS_XFS_REPAIR_AGSTRIDE, int64_t agstride,
GUESTFS_XFS_REPAIR_LOGDEV, const char *logdev,
GUESTFS_XFS_REPAIR_RTDEV, const char *rtdev,
Repair corrupt or damaged XFS filesystem on device
.
The filesystem is specified using the device
argument which should be the device name of the disk partition or volume containing the filesystem. If given the name of a block device, xfs_repair
will attempt to find the raw device associated with the specified block device and will use the raw device instead.
Regardless, the filesystem to be repaired must be unmounted, otherwise, the resulting filesystem may be inconsistent or corrupt.
The returned status indicates whether filesystem corruption was detected (returns 1
) or was not detected (returns 0
).
On error this function returns -1.
This function depends on the feature xfs
. See also "guestfs_feature_available".
(Added in 1.19.36)
int
guestfs_xfs_repair_va (guestfs_h *g,
const char *device,
va_list args);
This is the "va_list variant" of "guestfs_xfs_repair".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_xfs_repair_argv (guestfs_h *g,
const char *device,
const struct guestfs_xfs_repair_argv *optargs);
This is the "argv variant" of "guestfs_xfs_repair".
See "CALLS WITH OPTIONAL ARGUMENTS".
int
guestfs_yara_destroy (guestfs_h *g);
Destroy previously loaded Yara rules in order to free libguestfs resources.
This function returns 0 on success or -1 on error.
This function depends on the feature libyara
. See also "guestfs_feature_available".
(Added in 1.37.13)
int
guestfs_yara_load (guestfs_h *g,
const char *filename);
Upload a set of Yara rules from local file filename.
Yara rules allow to categorize files based on textual or binary patterns within their content. See guestfs_yara_scan
to see how to scan files with the loaded rules.
Rules can be in binary format, as when compiled with yarac command, or in source code format. In the latter case, the rules will be first compiled and then loaded.
Rules in source code format cannot include external files. In such cases, it is recommended to compile them first.
Previously loaded rules will be destroyed.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
This function depends on the feature libyara
. See also "guestfs_feature_available".
(Added in 1.37.13)
struct guestfs_yara_detection_list *
guestfs_yara_scan (guestfs_h *g,
const char *path);
Scan a file with the previously loaded Yara rules.
For each matching rule, a yara_detection
structure is returned.
The yara_detection
structure contains the following fields.
yara_name
Path of the file matching a Yara rule.
yara_rule
Identifier of the Yara rule which matched against the given file.
This function returns a struct guestfs_yara_detection_list *
, or NULL if there was an error. The caller must call guestfs_free_yara_detection_list
after use.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
This function depends on the feature libyara
. See also "guestfs_feature_available".
(Added in 1.37.13)
char **
guestfs_zegrep (guestfs_h *g,
const char *regex,
const char *path);
This function is deprecated. In new code, use the "guestfs_grep" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This calls the external zegrep
program and returns the matching lines.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.66)
char **
guestfs_zegrepi (guestfs_h *g,
const char *regex,
const char *path);
This function is deprecated. In new code, use the "guestfs_grep" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This calls the external zegrep -i
program and returns the matching lines.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.66)
int
guestfs_zero (guestfs_h *g,
const char *device);
This command writes zeroes over the first few blocks of device
.
How many blocks are zeroed isn't specified (but it’s not enough to securely wipe the device). It should be sufficient to remove any partition tables, filesystem superblocks and so on.
If blocks are already zero, then this command avoids writing zeroes. This prevents the underlying device from becoming non-sparse or growing unnecessarily.
See also: guestfs_zero_device
, guestfs_scrub_device
, guestfs_is_zero_device
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.0.16)
int
guestfs_zero_device (guestfs_h *g,
const char *device);
This command writes zeroes over the entire device
. Compare with guestfs_zero
which just zeroes the first few blocks of a device.
If blocks are already zero, then this command avoids writing zeroes. This prevents the underlying device from becoming non-sparse or growing unnecessarily.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.3.1)
int
guestfs_zero_free_space (guestfs_h *g,
const char *directory);
Zero the free space in the filesystem mounted on directory. The filesystem must be mounted read-write.
The filesystem contents are not affected, but any free space in the filesystem is freed.
Free space is not "trimmed". You may want to call guestfs_fstrim
either as an alternative to this, or after calling this, depending on your requirements.
This function returns 0 on success or -1 on error.
This long-running command can generate progress notification messages so that the caller can display a progress bar or indicator. To receive these messages, the caller must register a progress event callback. See "GUESTFS_EVENT_PROGRESS".
(Added in 1.17.18)
int
guestfs_zerofree (guestfs_h *g,
const char *device);
This runs the zerofree program on device
. This program claims to zero unused inodes and disk blocks on an ext2/3 filesystem, thus making it possible to compress the filesystem more effectively.
You should not run this program if the filesystem is mounted.
It is possible that using this program can damage the filesystem or data on the filesystem.
This function returns 0 on success or -1 on error.
This function depends on the feature zerofree
. See also "guestfs_feature_available".
(Added in 1.0.26)
char **
guestfs_zfgrep (guestfs_h *g,
const char *pattern,
const char *path);
This function is deprecated. In new code, use the "guestfs_grep" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This calls the external zfgrep
program and returns the matching lines.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.66)
char **
guestfs_zfgrepi (guestfs_h *g,
const char *pattern,
const char *path);
This function is deprecated. In new code, use the "guestfs_grep" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This calls the external zfgrep -i
program and returns the matching lines.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.66)
char *
guestfs_zfile (guestfs_h *g,
const char *meth,
const char *path);
This function is deprecated. In new code, use the "guestfs_file" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This command runs file(1) after first decompressing path
using meth
.
meth
must be one of gzip
, compress
or bzip2
.
Since 1.0.63, use guestfs_file
instead which can now process compressed files.
This function returns a string, or NULL on error. The caller must free the returned string after use.
(Added in 1.0.59)
char **
guestfs_zgrep (guestfs_h *g,
const char *regex,
const char *path);
This function is deprecated. In new code, use the "guestfs_grep" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This calls the external zgrep(1) program and returns the matching lines.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.66)
char **
guestfs_zgrepi (guestfs_h *g,
const char *regex,
const char *path);
This function is deprecated. In new code, use the "guestfs_grep" call instead.
Deprecated functions will not be removed from the API, but the fact that they are deprecated indicates that there are problems with correct use of these functions.
This calls the external zgrep -i
program and returns the matching lines.
This function returns a NULL-terminated array of strings (like environ(3)), or NULL if there was an error. The caller must free the strings and the array after use.
Because of the message protocol, there is a transfer limit of somewhere between 2MB and 4MB. See "PROTOCOL LIMITS".
(Added in 1.0.66)
struct guestfs_int_bool {
int32_t i;
int32_t b;
};
struct guestfs_int_bool_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_int_bool *val; /* Elements. */
};
int guestfs_compare_int_bool (const struct guestfs_int_bool *, const struct guestfs_int_bool *);
int guestfs_compare_int_bool_list (const struct guestfs_int_bool_list *, const struct guestfs_int_bool_list *);
struct guestfs_int_bool *guestfs_copy_int_bool (const struct guestfs_int_bool *);
struct guestfs_int_bool_list *guestfs_copy_int_bool_list (const struct guestfs_int_bool_list *);
void guestfs_free_int_bool (struct guestfs_int_bool *);
void guestfs_free_int_bool_list (struct guestfs_int_bool_list *);
struct guestfs_lvm_pv {
char *pv_name;
/* The next field is NOT nul-terminated, be careful when printing it: */
char pv_uuid[32];
char *pv_fmt;
uint64_t pv_size;
uint64_t dev_size;
uint64_t pv_free;
uint64_t pv_used;
char *pv_attr;
int64_t pv_pe_count;
int64_t pv_pe_alloc_count;
char *pv_tags;
uint64_t pe_start;
int64_t pv_mda_count;
uint64_t pv_mda_free;
};
struct guestfs_lvm_pv_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_lvm_pv *val; /* Elements. */
};
int guestfs_compare_lvm_pv (const struct guestfs_lvm_pv *, const struct guestfs_lvm_pv *);
int guestfs_compare_lvm_pv_list (const struct guestfs_lvm_pv_list *, const struct guestfs_lvm_pv_list *);
struct guestfs_lvm_pv *guestfs_copy_lvm_pv (const struct guestfs_lvm_pv *);
struct guestfs_lvm_pv_list *guestfs_copy_lvm_pv_list (const struct guestfs_lvm_pv_list *);
void guestfs_free_lvm_pv (struct guestfs_lvm_pv *);
void guestfs_free_lvm_pv_list (struct guestfs_lvm_pv_list *);
struct guestfs_lvm_vg {
char *vg_name;
/* The next field is NOT nul-terminated, be careful when printing it: */
char vg_uuid[32];
char *vg_fmt;
char *vg_attr;
uint64_t vg_size;
uint64_t vg_free;
char *vg_sysid;
uint64_t vg_extent_size;
int64_t vg_extent_count;
int64_t vg_free_count;
int64_t max_lv;
int64_t max_pv;
int64_t pv_count;
int64_t lv_count;
int64_t snap_count;
int64_t vg_seqno;
char *vg_tags;
int64_t vg_mda_count;
uint64_t vg_mda_free;
};
struct guestfs_lvm_vg_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_lvm_vg *val; /* Elements. */
};
int guestfs_compare_lvm_vg (const struct guestfs_lvm_vg *, const struct guestfs_lvm_vg *);
int guestfs_compare_lvm_vg_list (const struct guestfs_lvm_vg_list *, const struct guestfs_lvm_vg_list *);
struct guestfs_lvm_vg *guestfs_copy_lvm_vg (const struct guestfs_lvm_vg *);
struct guestfs_lvm_vg_list *guestfs_copy_lvm_vg_list (const struct guestfs_lvm_vg_list *);
void guestfs_free_lvm_vg (struct guestfs_lvm_vg *);
void guestfs_free_lvm_vg_list (struct guestfs_lvm_vg_list *);
struct guestfs_lvm_lv {
char *lv_name;
/* The next field is NOT nul-terminated, be careful when printing it: */
char lv_uuid[32];
char *lv_attr;
int64_t lv_major;
int64_t lv_minor;
int64_t lv_kernel_major;
int64_t lv_kernel_minor;
uint64_t lv_size;
int64_t seg_count;
char *origin;
/* The next field is [0..100] or -1 meaning 'not present': */
float snap_percent;
/* The next field is [0..100] or -1 meaning 'not present': */
float copy_percent;
char *move_pv;
char *lv_tags;
char *mirror_log;
char *modules;
};
struct guestfs_lvm_lv_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_lvm_lv *val; /* Elements. */
};
int guestfs_compare_lvm_lv (const struct guestfs_lvm_lv *, const struct guestfs_lvm_lv *);
int guestfs_compare_lvm_lv_list (const struct guestfs_lvm_lv_list *, const struct guestfs_lvm_lv_list *);
struct guestfs_lvm_lv *guestfs_copy_lvm_lv (const struct guestfs_lvm_lv *);
struct guestfs_lvm_lv_list *guestfs_copy_lvm_lv_list (const struct guestfs_lvm_lv_list *);
void guestfs_free_lvm_lv (struct guestfs_lvm_lv *);
void guestfs_free_lvm_lv_list (struct guestfs_lvm_lv_list *);
struct guestfs_stat {
int64_t dev;
int64_t ino;
int64_t mode;
int64_t nlink;
int64_t uid;
int64_t gid;
int64_t rdev;
int64_t size;
int64_t blksize;
int64_t blocks;
int64_t atime;
int64_t mtime;
int64_t ctime;
};
struct guestfs_stat_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_stat *val; /* Elements. */
};
int guestfs_compare_stat (const struct guestfs_stat *, const struct guestfs_stat *);
int guestfs_compare_stat_list (const struct guestfs_stat_list *, const struct guestfs_stat_list *);
struct guestfs_stat *guestfs_copy_stat (const struct guestfs_stat *);
struct guestfs_stat_list *guestfs_copy_stat_list (const struct guestfs_stat_list *);
void guestfs_free_stat (struct guestfs_stat *);
void guestfs_free_stat_list (struct guestfs_stat_list *);
struct guestfs_statns {
int64_t st_dev;
int64_t st_ino;
int64_t st_mode;
int64_t st_nlink;
int64_t st_uid;
int64_t st_gid;
int64_t st_rdev;
int64_t st_size;
int64_t st_blksize;
int64_t st_blocks;
int64_t st_atime_sec;
int64_t st_atime_nsec;
int64_t st_mtime_sec;
int64_t st_mtime_nsec;
int64_t st_ctime_sec;
int64_t st_ctime_nsec;
int64_t st_spare1;
int64_t st_spare2;
int64_t st_spare3;
int64_t st_spare4;
int64_t st_spare5;
int64_t st_spare6;
};
struct guestfs_statns_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_statns *val; /* Elements. */
};
int guestfs_compare_statns (const struct guestfs_statns *, const struct guestfs_statns *);
int guestfs_compare_statns_list (const struct guestfs_statns_list *, const struct guestfs_statns_list *);
struct guestfs_statns *guestfs_copy_statns (const struct guestfs_statns *);
struct guestfs_statns_list *guestfs_copy_statns_list (const struct guestfs_statns_list *);
void guestfs_free_statns (struct guestfs_statns *);
void guestfs_free_statns_list (struct guestfs_statns_list *);
struct guestfs_statvfs {
int64_t bsize;
int64_t frsize;
int64_t blocks;
int64_t bfree;
int64_t bavail;
int64_t files;
int64_t ffree;
int64_t favail;
int64_t fsid;
int64_t flag;
int64_t namemax;
};
struct guestfs_statvfs_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_statvfs *val; /* Elements. */
};
int guestfs_compare_statvfs (const struct guestfs_statvfs *, const struct guestfs_statvfs *);
int guestfs_compare_statvfs_list (const struct guestfs_statvfs_list *, const struct guestfs_statvfs_list *);
struct guestfs_statvfs *guestfs_copy_statvfs (const struct guestfs_statvfs *);
struct guestfs_statvfs_list *guestfs_copy_statvfs_list (const struct guestfs_statvfs_list *);
void guestfs_free_statvfs (struct guestfs_statvfs *);
void guestfs_free_statvfs_list (struct guestfs_statvfs_list *);
struct guestfs_dirent {
int64_t ino;
char ftyp;
char *name;
};
struct guestfs_dirent_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_dirent *val; /* Elements. */
};
int guestfs_compare_dirent (const struct guestfs_dirent *, const struct guestfs_dirent *);
int guestfs_compare_dirent_list (const struct guestfs_dirent_list *, const struct guestfs_dirent_list *);
struct guestfs_dirent *guestfs_copy_dirent (const struct guestfs_dirent *);
struct guestfs_dirent_list *guestfs_copy_dirent_list (const struct guestfs_dirent_list *);
void guestfs_free_dirent (struct guestfs_dirent *);
void guestfs_free_dirent_list (struct guestfs_dirent_list *);
struct guestfs_version {
int64_t major;
int64_t minor;
int64_t release;
char *extra;
};
struct guestfs_version_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_version *val; /* Elements. */
};
int guestfs_compare_version (const struct guestfs_version *, const struct guestfs_version *);
int guestfs_compare_version_list (const struct guestfs_version_list *, const struct guestfs_version_list *);
struct guestfs_version *guestfs_copy_version (const struct guestfs_version *);
struct guestfs_version_list *guestfs_copy_version_list (const struct guestfs_version_list *);
void guestfs_free_version (struct guestfs_version *);
void guestfs_free_version_list (struct guestfs_version_list *);
struct guestfs_xattr {
char *attrname;
/* The next two fields describe a byte array. */
uint32_t attrval_len;
char *attrval;
};
struct guestfs_xattr_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_xattr *val; /* Elements. */
};
int guestfs_compare_xattr (const struct guestfs_xattr *, const struct guestfs_xattr *);
int guestfs_compare_xattr_list (const struct guestfs_xattr_list *, const struct guestfs_xattr_list *);
struct guestfs_xattr *guestfs_copy_xattr (const struct guestfs_xattr *);
struct guestfs_xattr_list *guestfs_copy_xattr_list (const struct guestfs_xattr_list *);
void guestfs_free_xattr (struct guestfs_xattr *);
void guestfs_free_xattr_list (struct guestfs_xattr_list *);
struct guestfs_inotify_event {
int64_t in_wd;
uint32_t in_mask;
uint32_t in_cookie;
char *in_name;
};
struct guestfs_inotify_event_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_inotify_event *val; /* Elements. */
};
int guestfs_compare_inotify_event (const struct guestfs_inotify_event *, const struct guestfs_inotify_event *);
int guestfs_compare_inotify_event_list (const struct guestfs_inotify_event_list *, const struct guestfs_inotify_event_list *);
struct guestfs_inotify_event *guestfs_copy_inotify_event (const struct guestfs_inotify_event *);
struct guestfs_inotify_event_list *guestfs_copy_inotify_event_list (const struct guestfs_inotify_event_list *);
void guestfs_free_inotify_event (struct guestfs_inotify_event *);
void guestfs_free_inotify_event_list (struct guestfs_inotify_event_list *);
struct guestfs_partition {
int32_t part_num;
uint64_t part_start;
uint64_t part_end;
uint64_t part_size;
};
struct guestfs_partition_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_partition *val; /* Elements. */
};
int guestfs_compare_partition (const struct guestfs_partition *, const struct guestfs_partition *);
int guestfs_compare_partition_list (const struct guestfs_partition_list *, const struct guestfs_partition_list *);
struct guestfs_partition *guestfs_copy_partition (const struct guestfs_partition *);
struct guestfs_partition_list *guestfs_copy_partition_list (const struct guestfs_partition_list *);
void guestfs_free_partition (struct guestfs_partition *);
void guestfs_free_partition_list (struct guestfs_partition_list *);
struct guestfs_application {
char *app_name;
char *app_display_name;
int32_t app_epoch;
char *app_version;
char *app_release;
char *app_install_path;
char *app_trans_path;
char *app_publisher;
char *app_url;
char *app_source_package;
char *app_summary;
char *app_description;
};
struct guestfs_application_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_application *val; /* Elements. */
};
int guestfs_compare_application (const struct guestfs_application *, const struct guestfs_application *);
int guestfs_compare_application_list (const struct guestfs_application_list *, const struct guestfs_application_list *);
struct guestfs_application *guestfs_copy_application (const struct guestfs_application *);
struct guestfs_application_list *guestfs_copy_application_list (const struct guestfs_application_list *);
void guestfs_free_application (struct guestfs_application *);
void guestfs_free_application_list (struct guestfs_application_list *);
struct guestfs_application2 {
char *app2_name;
char *app2_display_name;
int32_t app2_epoch;
char *app2_version;
char *app2_release;
char *app2_arch;
char *app2_install_path;
char *app2_trans_path;
char *app2_publisher;
char *app2_url;
char *app2_source_package;
char *app2_summary;
char *app2_description;
char *app2_spare1;
char *app2_spare2;
char *app2_spare3;
char *app2_spare4;
};
struct guestfs_application2_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_application2 *val; /* Elements. */
};
int guestfs_compare_application2 (const struct guestfs_application2 *, const struct guestfs_application2 *);
int guestfs_compare_application2_list (const struct guestfs_application2_list *, const struct guestfs_application2_list *);
struct guestfs_application2 *guestfs_copy_application2 (const struct guestfs_application2 *);
struct guestfs_application2_list *guestfs_copy_application2_list (const struct guestfs_application2_list *);
void guestfs_free_application2 (struct guestfs_application2 *);
void guestfs_free_application2_list (struct guestfs_application2_list *);
struct guestfs_isoinfo {
char *iso_system_id;
char *iso_volume_id;
uint32_t iso_volume_space_size;
uint32_t iso_volume_set_size;
uint32_t iso_volume_sequence_number;
uint32_t iso_logical_block_size;
char *iso_volume_set_id;
char *iso_publisher_id;
char *iso_data_preparer_id;
char *iso_application_id;
char *iso_copyright_file_id;
char *iso_abstract_file_id;
char *iso_bibliographic_file_id;
int64_t iso_volume_creation_t;
int64_t iso_volume_modification_t;
int64_t iso_volume_expiration_t;
int64_t iso_volume_effective_t;
};
struct guestfs_isoinfo_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_isoinfo *val; /* Elements. */
};
int guestfs_compare_isoinfo (const struct guestfs_isoinfo *, const struct guestfs_isoinfo *);
int guestfs_compare_isoinfo_list (const struct guestfs_isoinfo_list *, const struct guestfs_isoinfo_list *);
struct guestfs_isoinfo *guestfs_copy_isoinfo (const struct guestfs_isoinfo *);
struct guestfs_isoinfo_list *guestfs_copy_isoinfo_list (const struct guestfs_isoinfo_list *);
void guestfs_free_isoinfo (struct guestfs_isoinfo *);
void guestfs_free_isoinfo_list (struct guestfs_isoinfo_list *);
struct guestfs_mdstat {
char *mdstat_device;
int32_t mdstat_index;
char *mdstat_flags;
};
struct guestfs_mdstat_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_mdstat *val; /* Elements. */
};
int guestfs_compare_mdstat (const struct guestfs_mdstat *, const struct guestfs_mdstat *);
int guestfs_compare_mdstat_list (const struct guestfs_mdstat_list *, const struct guestfs_mdstat_list *);
struct guestfs_mdstat *guestfs_copy_mdstat (const struct guestfs_mdstat *);
struct guestfs_mdstat_list *guestfs_copy_mdstat_list (const struct guestfs_mdstat_list *);
void guestfs_free_mdstat (struct guestfs_mdstat *);
void guestfs_free_mdstat_list (struct guestfs_mdstat_list *);
struct guestfs_btrfssubvolume {
uint64_t btrfssubvolume_id;
uint64_t btrfssubvolume_top_level_id;
char *btrfssubvolume_path;
};
struct guestfs_btrfssubvolume_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_btrfssubvolume *val; /* Elements. */
};
int guestfs_compare_btrfssubvolume (const struct guestfs_btrfssubvolume *, const struct guestfs_btrfssubvolume *);
int guestfs_compare_btrfssubvolume_list (const struct guestfs_btrfssubvolume_list *, const struct guestfs_btrfssubvolume_list *);
struct guestfs_btrfssubvolume *guestfs_copy_btrfssubvolume (const struct guestfs_btrfssubvolume *);
struct guestfs_btrfssubvolume_list *guestfs_copy_btrfssubvolume_list (const struct guestfs_btrfssubvolume_list *);
void guestfs_free_btrfssubvolume (struct guestfs_btrfssubvolume *);
void guestfs_free_btrfssubvolume_list (struct guestfs_btrfssubvolume_list *);
struct guestfs_btrfsqgroup {
char *btrfsqgroup_id;
uint64_t btrfsqgroup_rfer;
uint64_t btrfsqgroup_excl;
};
struct guestfs_btrfsqgroup_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_btrfsqgroup *val; /* Elements. */
};
int guestfs_compare_btrfsqgroup (const struct guestfs_btrfsqgroup *, const struct guestfs_btrfsqgroup *);
int guestfs_compare_btrfsqgroup_list (const struct guestfs_btrfsqgroup_list *, const struct guestfs_btrfsqgroup_list *);
struct guestfs_btrfsqgroup *guestfs_copy_btrfsqgroup (const struct guestfs_btrfsqgroup *);
struct guestfs_btrfsqgroup_list *guestfs_copy_btrfsqgroup_list (const struct guestfs_btrfsqgroup_list *);
void guestfs_free_btrfsqgroup (struct guestfs_btrfsqgroup *);
void guestfs_free_btrfsqgroup_list (struct guestfs_btrfsqgroup_list *);
struct guestfs_btrfsbalance {
char *btrfsbalance_status;
uint64_t btrfsbalance_total;
uint64_t btrfsbalance_balanced;
uint64_t btrfsbalance_considered;
uint64_t btrfsbalance_left;
};
struct guestfs_btrfsbalance_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_btrfsbalance *val; /* Elements. */
};
int guestfs_compare_btrfsbalance (const struct guestfs_btrfsbalance *, const struct guestfs_btrfsbalance *);
int guestfs_compare_btrfsbalance_list (const struct guestfs_btrfsbalance_list *, const struct guestfs_btrfsbalance_list *);
struct guestfs_btrfsbalance *guestfs_copy_btrfsbalance (const struct guestfs_btrfsbalance *);
struct guestfs_btrfsbalance_list *guestfs_copy_btrfsbalance_list (const struct guestfs_btrfsbalance_list *);
void guestfs_free_btrfsbalance (struct guestfs_btrfsbalance *);
void guestfs_free_btrfsbalance_list (struct guestfs_btrfsbalance_list *);
struct guestfs_btrfsscrub {
uint64_t btrfsscrub_data_extents_scrubbed;
uint64_t btrfsscrub_tree_extents_scrubbed;
uint64_t btrfsscrub_data_bytes_scrubbed;
uint64_t btrfsscrub_tree_bytes_scrubbed;
uint64_t btrfsscrub_read_errors;
uint64_t btrfsscrub_csum_errors;
uint64_t btrfsscrub_verify_errors;
uint64_t btrfsscrub_no_csum;
uint64_t btrfsscrub_csum_discards;
uint64_t btrfsscrub_super_errors;
uint64_t btrfsscrub_malloc_errors;
uint64_t btrfsscrub_uncorrectable_errors;
uint64_t btrfsscrub_unverified_errors;
uint64_t btrfsscrub_corrected_errors;
uint64_t btrfsscrub_last_physical;
};
struct guestfs_btrfsscrub_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_btrfsscrub *val; /* Elements. */
};
int guestfs_compare_btrfsscrub (const struct guestfs_btrfsscrub *, const struct guestfs_btrfsscrub *);
int guestfs_compare_btrfsscrub_list (const struct guestfs_btrfsscrub_list *, const struct guestfs_btrfsscrub_list *);
struct guestfs_btrfsscrub *guestfs_copy_btrfsscrub (const struct guestfs_btrfsscrub *);
struct guestfs_btrfsscrub_list *guestfs_copy_btrfsscrub_list (const struct guestfs_btrfsscrub_list *);
void guestfs_free_btrfsscrub (struct guestfs_btrfsscrub *);
void guestfs_free_btrfsscrub_list (struct guestfs_btrfsscrub_list *);
struct guestfs_xfsinfo {
char *xfs_mntpoint;
uint32_t xfs_inodesize;
uint32_t xfs_agcount;
uint32_t xfs_agsize;
uint32_t xfs_sectsize;
uint32_t xfs_attr;
uint32_t xfs_blocksize;
uint64_t xfs_datablocks;
uint32_t xfs_imaxpct;
uint32_t xfs_sunit;
uint32_t xfs_swidth;
uint32_t xfs_dirversion;
uint32_t xfs_dirblocksize;
uint32_t xfs_cimode;
char *xfs_logname;
uint32_t xfs_logblocksize;
uint32_t xfs_logblocks;
uint32_t xfs_logversion;
uint32_t xfs_logsectsize;
uint32_t xfs_logsunit;
uint32_t xfs_lazycount;
char *xfs_rtname;
uint32_t xfs_rtextsize;
uint64_t xfs_rtblocks;
uint64_t xfs_rtextents;
};
struct guestfs_xfsinfo_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_xfsinfo *val; /* Elements. */
};
int guestfs_compare_xfsinfo (const struct guestfs_xfsinfo *, const struct guestfs_xfsinfo *);
int guestfs_compare_xfsinfo_list (const struct guestfs_xfsinfo_list *, const struct guestfs_xfsinfo_list *);
struct guestfs_xfsinfo *guestfs_copy_xfsinfo (const struct guestfs_xfsinfo *);
struct guestfs_xfsinfo_list *guestfs_copy_xfsinfo_list (const struct guestfs_xfsinfo_list *);
void guestfs_free_xfsinfo (struct guestfs_xfsinfo *);
void guestfs_free_xfsinfo_list (struct guestfs_xfsinfo_list *);
struct guestfs_utsname {
char *uts_sysname;
char *uts_release;
char *uts_version;
char *uts_machine;
};
struct guestfs_utsname_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_utsname *val; /* Elements. */
};
int guestfs_compare_utsname (const struct guestfs_utsname *, const struct guestfs_utsname *);
int guestfs_compare_utsname_list (const struct guestfs_utsname_list *, const struct guestfs_utsname_list *);
struct guestfs_utsname *guestfs_copy_utsname (const struct guestfs_utsname *);
struct guestfs_utsname_list *guestfs_copy_utsname_list (const struct guestfs_utsname_list *);
void guestfs_free_utsname (struct guestfs_utsname *);
void guestfs_free_utsname_list (struct guestfs_utsname_list *);
struct guestfs_hivex_node {
int64_t hivex_node_h;
};
struct guestfs_hivex_node_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_hivex_node *val; /* Elements. */
};
int guestfs_compare_hivex_node (const struct guestfs_hivex_node *, const struct guestfs_hivex_node *);
int guestfs_compare_hivex_node_list (const struct guestfs_hivex_node_list *, const struct guestfs_hivex_node_list *);
struct guestfs_hivex_node *guestfs_copy_hivex_node (const struct guestfs_hivex_node *);
struct guestfs_hivex_node_list *guestfs_copy_hivex_node_list (const struct guestfs_hivex_node_list *);
void guestfs_free_hivex_node (struct guestfs_hivex_node *);
void guestfs_free_hivex_node_list (struct guestfs_hivex_node_list *);
struct guestfs_hivex_value {
int64_t hivex_value_h;
};
struct guestfs_hivex_value_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_hivex_value *val; /* Elements. */
};
int guestfs_compare_hivex_value (const struct guestfs_hivex_value *, const struct guestfs_hivex_value *);
int guestfs_compare_hivex_value_list (const struct guestfs_hivex_value_list *, const struct guestfs_hivex_value_list *);
struct guestfs_hivex_value *guestfs_copy_hivex_value (const struct guestfs_hivex_value *);
struct guestfs_hivex_value_list *guestfs_copy_hivex_value_list (const struct guestfs_hivex_value_list *);
void guestfs_free_hivex_value (struct guestfs_hivex_value *);
void guestfs_free_hivex_value_list (struct guestfs_hivex_value_list *);
struct guestfs_internal_mountable {
int32_t im_type;
char *im_device;
char *im_volume;
};
struct guestfs_internal_mountable_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_internal_mountable *val; /* Elements. */
};
int guestfs_compare_internal_mountable (const struct guestfs_internal_mountable *, const struct guestfs_internal_mountable *);
int guestfs_compare_internal_mountable_list (const struct guestfs_internal_mountable_list *, const struct guestfs_internal_mountable_list *);
struct guestfs_internal_mountable *guestfs_copy_internal_mountable (const struct guestfs_internal_mountable *);
struct guestfs_internal_mountable_list *guestfs_copy_internal_mountable_list (const struct guestfs_internal_mountable_list *);
void guestfs_free_internal_mountable (struct guestfs_internal_mountable *);
void guestfs_free_internal_mountable_list (struct guestfs_internal_mountable_list *);
struct guestfs_tsk_dirent {
uint64_t tsk_inode;
char tsk_type;
int64_t tsk_size;
char *tsk_name;
uint32_t tsk_flags;
int64_t tsk_atime_sec;
int64_t tsk_atime_nsec;
int64_t tsk_mtime_sec;
int64_t tsk_mtime_nsec;
int64_t tsk_ctime_sec;
int64_t tsk_ctime_nsec;
int64_t tsk_crtime_sec;
int64_t tsk_crtime_nsec;
int64_t tsk_nlink;
char *tsk_link;
int64_t tsk_spare1;
};
struct guestfs_tsk_dirent_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_tsk_dirent *val; /* Elements. */
};
int guestfs_compare_tsk_dirent (const struct guestfs_tsk_dirent *, const struct guestfs_tsk_dirent *);
int guestfs_compare_tsk_dirent_list (const struct guestfs_tsk_dirent_list *, const struct guestfs_tsk_dirent_list *);
struct guestfs_tsk_dirent *guestfs_copy_tsk_dirent (const struct guestfs_tsk_dirent *);
struct guestfs_tsk_dirent_list *guestfs_copy_tsk_dirent_list (const struct guestfs_tsk_dirent_list *);
void guestfs_free_tsk_dirent (struct guestfs_tsk_dirent *);
void guestfs_free_tsk_dirent_list (struct guestfs_tsk_dirent_list *);
struct guestfs_yara_detection {
char *yara_name;
char *yara_rule;
};
struct guestfs_yara_detection_list {
uint32_t len; /* Number of elements in list. */
struct guestfs_yara_detection *val; /* Elements. */
};
int guestfs_compare_yara_detection (const struct guestfs_yara_detection *, const struct guestfs_yara_detection *);
int guestfs_compare_yara_detection_list (const struct guestfs_yara_detection_list *, const struct guestfs_yara_detection_list *);
struct guestfs_yara_detection *guestfs_copy_yara_detection (const struct guestfs_yara_detection *);
struct guestfs_yara_detection_list *guestfs_copy_yara_detection_list (const struct guestfs_yara_detection_list *);
void guestfs_free_yara_detection (struct guestfs_yara_detection *);
void guestfs_free_yara_detection_list (struct guestfs_yara_detection_list *);
Using "guestfs_available" you can test availability of the following groups of functions. This test queries the appliance to see if the appliance you are currently using supports the functionality.
The following functions: "guestfs_acl_delete_def_file" "guestfs_acl_get_file" "guestfs_acl_set_file"
The following functions: "guestfs_blkdiscard"
The following functions: "guestfs_blkdiscardzeroes"
The following functions: "guestfs_btrfs_balance_cancel" "guestfs_btrfs_balance_pause" "guestfs_btrfs_balance_resume" "guestfs_btrfs_balance_status" "guestfs_btrfs_device_add" "guestfs_btrfs_device_delete" "guestfs_btrfs_filesystem_balance" "guestfs_btrfs_filesystem_defragment" "guestfs_btrfs_filesystem_resize" "guestfs_btrfs_filesystem_show" "guestfs_btrfs_filesystem_sync" "guestfs_btrfs_fsck" "guestfs_btrfs_image" "guestfs_btrfs_qgroup_assign" "guestfs_btrfs_qgroup_create" "guestfs_btrfs_qgroup_destroy" "guestfs_btrfs_qgroup_limit" "guestfs_btrfs_qgroup_remove" "guestfs_btrfs_qgroup_show" "guestfs_btrfs_quota_enable" "guestfs_btrfs_quota_rescan" "guestfs_btrfs_replace" "guestfs_btrfs_rescue_chunk_recover" "guestfs_btrfs_rescue_super_recover" "guestfs_btrfs_scrub_cancel" "guestfs_btrfs_scrub_resume" "guestfs_btrfs_scrub_start" "guestfs_btrfs_scrub_status" "guestfs_btrfs_set_seeding" "guestfs_btrfs_subvolume_create" "guestfs_btrfs_subvolume_delete" "guestfs_btrfs_subvolume_get_default" "guestfs_btrfs_subvolume_list" "guestfs_btrfs_subvolume_set_default" "guestfs_btrfs_subvolume_show" "guestfs_btrfs_subvolume_snapshot" "guestfs_btrfstune_enable_extended_inode_refs" "guestfs_btrfstune_enable_skinny_metadata_extent_refs" "guestfs_btrfstune_seeding" "guestfs_mkfs_btrfs"
The following functions: "guestfs_clevis_luks_unlock"
The following functions: "guestfs_extlinux"
The following functions: "guestfs_f2fs_expand"
The following functions: "guestfs_fstrim"
The following functions: "guestfs_part_expand_gpt"
The following functions: "guestfs_grub_install"
The following functions: "guestfs_hivex_close" "guestfs_hivex_commit" "guestfs_hivex_node_add_child" "guestfs_hivex_node_children" "guestfs_hivex_node_delete_child" "guestfs_hivex_node_get_child" "guestfs_hivex_node_get_value" "guestfs_hivex_node_name" "guestfs_hivex_node_parent" "guestfs_hivex_node_set_value" "guestfs_hivex_node_values" "guestfs_hivex_open" "guestfs_hivex_root" "guestfs_hivex_value_key" "guestfs_hivex_value_string" "guestfs_hivex_value_type" "guestfs_hivex_value_utf8" "guestfs_hivex_value_value"
The following functions: "guestfs_inotify_add_watch" "guestfs_inotify_close" "guestfs_inotify_files" "guestfs_inotify_init" "guestfs_inotify_read" "guestfs_inotify_rm_watch"
The following functions: "guestfs_internal_journal_get" "guestfs_journal_close" "guestfs_journal_get_data_threshold" "guestfs_journal_get_realtime_usec" "guestfs_journal_next" "guestfs_journal_open" "guestfs_journal_set_data_threshold" "guestfs_journal_skip"
The following functions: "guestfs_ldmtool_create_all" "guestfs_ldmtool_diskgroup_disks" "guestfs_ldmtool_diskgroup_name" "guestfs_ldmtool_diskgroup_volumes" "guestfs_ldmtool_remove_all" "guestfs_ldmtool_scan" "guestfs_ldmtool_scan_devices" "guestfs_ldmtool_volume_hint" "guestfs_ldmtool_volume_partitions" "guestfs_ldmtool_volume_type" "guestfs_list_ldm_partitions" "guestfs_list_ldm_volumes"
The following functions: "guestfs_internal_filesystem_walk" "guestfs_internal_find_inode"
The following functions: "guestfs_internal_yara_scan" "guestfs_yara_destroy" "guestfs_yara_load"
The following functions: "guestfs_cap_get_file" "guestfs_cap_set_file"
The following functions: "guestfs_mke2fs_JU" "guestfs_mke2journal_U" "guestfs_mkswap_U" "guestfs_swapoff_uuid" "guestfs_swapon_uuid"
The following functions: "guestfs_modprobe"
The following functions: "guestfs_getxattr" "guestfs_getxattrs" "guestfs_internal_lxattrlist" "guestfs_lgetxattr" "guestfs_lgetxattrs" "guestfs_lremovexattr" "guestfs_lsetxattr" "guestfs_removexattr" "guestfs_setxattr"
The following functions: "guestfs_cryptsetup_close" "guestfs_cryptsetup_open" "guestfs_luks_add_key" "guestfs_luks_close" "guestfs_luks_format" "guestfs_luks_format_cipher" "guestfs_luks_kill_slot" "guestfs_luks_open" "guestfs_luks_open_ro" "guestfs_luks_uuid"
The following functions: "guestfs_lvcreate" "guestfs_lvcreate_free" "guestfs_lvm_remove_all" "guestfs_lvm_set_filter" "guestfs_lvremove" "guestfs_lvresize" "guestfs_lvresize_free" "guestfs_lvs" "guestfs_lvs_full" "guestfs_pvchange_uuid" "guestfs_pvchange_uuid_all" "guestfs_pvcreate" "guestfs_pvremove" "guestfs_pvresize" "guestfs_pvresize_size" "guestfs_pvs" "guestfs_pvs_full" "guestfs_vg_activate" "guestfs_vg_activate_all" "guestfs_vgchange_uuid" "guestfs_vgchange_uuid_all" "guestfs_vgcreate" "guestfs_vgmeta" "guestfs_vgremove" "guestfs_vgs" "guestfs_vgs_full"
The following functions: "guestfs_md_create" "guestfs_md_detail" "guestfs_md_stat" "guestfs_md_stop"
The following functions: "guestfs_mkfifo" "guestfs_mknod" "guestfs_mknod_b" "guestfs_mknod_c"
The following functions: "guestfs_ntfs_3g_probe" "guestfs_ntfsclone_in" "guestfs_ntfsclone_out" "guestfs_ntfsfix"
The following functions: "guestfs_ntfsresize" "guestfs_ntfsresize_size"
The following functions: "guestfs_rsync" "guestfs_rsync_in" "guestfs_rsync_out"
The following functions: "guestfs_scrub_device" "guestfs_scrub_file" "guestfs_scrub_freespace"
The following functions: "guestfs_getcon" "guestfs_setcon"
The following functions: "guestfs_selinux_relabel"
The following functions: "guestfs_download_blocks" "guestfs_download_inode"
The following functions: "guestfs_mksquashfs"
The following functions: "guestfs_syslinux"
The following functions: "guestfs_wipefs"
The following functions: "guestfs_xfs_admin" "guestfs_xfs_growfs" "guestfs_xfs_info" "guestfs_xfs_repair"
The following functions: "guestfs_txz_in" "guestfs_txz_out"
The following functions: "guestfs_zerofree"
The "guestfs_filesystem_available" call tests whether a filesystem type is supported by the appliance kernel.
This is mainly useful as a negative test. If this returns true, it doesn't mean that a particular filesystem can be mounted, since filesystems can fail for other reasons such as it being a later version of the filesystem, or having incompatible features.
In guestfish(3) there is a handy interactive command supported
which prints out the available groups and whether they are supported by this build of libguestfs. Note however that you have to do run
first.
Since version 1.5.8, <guestfs.h>
defines symbols for each C API function, such as:
#define GUESTFS_HAVE_DD 1
if "guestfs_dd" is available.
Before version 1.5.8, if you needed to test whether a single libguestfs function is available at compile time, we recommended using build tools such as autoconf or cmake. For example in autotools you could use:
AC_CHECK_LIB([guestfs],[guestfs_create])
AC_CHECK_FUNCS([guestfs_dd])
which would result in HAVE_GUESTFS_DD
being either defined or not defined in your program.
Testing at compile time doesn't guarantee that a function really exists in the library. The reason is that you might be dynamically linked against a previous libguestfs.so (dynamic library) which doesn't have the call. This situation unfortunately results in a segmentation fault, which is a shortcoming of the C dynamic linking system itself.
You can use dlopen(3) to test if a function is available at run time, as in this example program (note that you still need the compile time check as well):
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <dlfcn.h>
#include <guestfs.h>
main ()
{
#ifdef GUESTFS_HAVE_DD
void *dl;
int has_function;
/* Test if the function guestfs_dd is really available. */
dl = dlopen (NULL, RTLD_LAZY);
if (!dl) {
fprintf (stderr, "dlopen: %s\n", dlerror ());
exit (EXIT_FAILURE);
}
has_function = dlsym (dl, "guestfs_dd") != NULL;
dlclose (dl);
if (!has_function)
printf ("this libguestfs.so does NOT have guestfs_dd function\n");
else {
printf ("this libguestfs.so has guestfs_dd function\n");
/* Now it's safe to call
guestfs_dd (g, "foo", "bar");
*/
}
#else
printf ("guestfs_dd function was not found at compile time\n");
#endif
}
You may think the above is an awful lot of hassle, and it is. There are other ways outside of the C linking system to ensure that this kind of incompatibility never arises, such as using package versioning:
Requires: libguestfs >= 1.0.80
A recent feature of the API is the introduction of calls which take optional arguments. In C these are declared 3 ways. The main way is as a call which takes variable arguments (ie. ...
), as in this example:
int guestfs_add_drive_opts (guestfs_h *g, const char *filename, ...);
Call this with a list of optional arguments, terminated by -1
. So to call with no optional arguments specified:
guestfs_add_drive_opts (g, filename, -1);
With a single optional argument:
guestfs_add_drive_opts (g, filename,
GUESTFS_ADD_DRIVE_OPTS_FORMAT, "qcow2",
-1);
With two:
guestfs_add_drive_opts (g, filename,
GUESTFS_ADD_DRIVE_OPTS_FORMAT, "qcow2",
GUESTFS_ADD_DRIVE_OPTS_READONLY, 1,
-1);
and so forth. Don’t forget the terminating -1
otherwise Bad Things will happen!
The second variant has the same name with the suffix _va
, which works the same way but takes a va_list
. See the C manual for details. For the example function, this is declared:
int guestfs_add_drive_opts_va (guestfs_h *g, const char *filename,
va_list args);
The third variant is useful where you need to construct these calls. You pass in a structure where you fill in the optional fields. The structure has a bitmask as the first element which you must set to indicate which fields you have filled in. For our example function the structure and call are declared:
struct guestfs_add_drive_opts_argv {
uint64_t bitmask;
int readonly;
const char *format;
/* ... */
};
int guestfs_add_drive_opts_argv (guestfs_h *g, const char *filename,
const struct guestfs_add_drive_opts_argv *optargs);
You could call it like this:
struct guestfs_add_drive_opts_argv optargs = {
.bitmask = GUESTFS_ADD_DRIVE_OPTS_READONLY_BITMASK |
GUESTFS_ADD_DRIVE_OPTS_FORMAT_BITMASK,
.readonly = 1,
.format = "qcow2"
};
guestfs_add_drive_opts_argv (g, filename, &optargs);
Notes:
The _BITMASK
suffix on each option name when specifying the bitmask.
You do not need to fill in all fields of the structure.
There must be a one-to-one correspondence between fields of the structure that are filled in, and bits set in the bitmask.
In other languages, optional arguments are expressed in the way that is natural for that language. We refer you to the language-specific documentation for more details on that.
For guestfish, see "OPTIONAL ARGUMENTS" in guestfish(1).
Note: This section documents the generic event mechanism introduced in libguestfs 1.10, which you should use in new code if possible. The old functions guestfs_set_log_message_callback
, guestfs_set_subprocess_quit_callback
, guestfs_set_launch_done_callback
, guestfs_set_close_callback
and guestfs_set_progress_callback
are no longer documented in this manual page. Because of the ABI guarantee, the old functions continue to work.
Handles generate events when certain things happen, such as log messages being generated, progress messages during long-running operations, or the handle being closed. The API calls described below let you register a callback to be called when events happen. You can register multiple callbacks (for the same, different or overlapping sets of events), and individually remove callbacks. If callbacks are not removed, then they remain in force until the handle is closed.
In the current implementation, events are only generated synchronously: that means that events (and hence callbacks) can only happen while you are in the middle of making another libguestfs call. The callback is called in the same thread.
Events may contain a payload, usually nothing (void), an array of 64 bit unsigned integers, or a message buffer. Payloads are discussed later on.
The callback function will be called while the handle is being closed (synchronously from "guestfs_close").
Note that libguestfs installs an atexit(3) handler to try to clean up handles that are open when the program exits. This means that this callback might be called indirectly from exit(3), which can cause unexpected problems in higher-level languages (eg. if your HLL interpreter has already been cleaned up by the time this is called, and if your callback then jumps into some HLL function).
If no callback is registered: the handle is closed without any callback being invoked.
The callback function will be called when the child process quits, either asynchronously or if killed by "guestfs_kill_subprocess". (This corresponds to a transition from any state to the CONFIG state).
If no callback is registered: the event is ignored.
The callback function 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).
If no callback is registered: the event is ignored.
Some long-running operations can generate progress messages. If this callback is registered, then it will be called each time a progress message is generated (usually two seconds after the operation started, and three times per second thereafter until it completes, although the frequency may change in future versions).
The callback receives in the payload four unsigned 64 bit numbers which are (in order): proc_nr
, serial
, position
, total
.
The units of total
are not defined, although for some operations total
may relate in some way to the amount of data to be transferred (eg. in bytes or megabytes), and position
may be the portion which has been transferred.
The only defined and stable parts of the API are:
The callback can display to the user some type of progress bar or indicator which shows the ratio of position
:total
.
0 <= position
<= total
If any progress notification is sent during a call, then a final progress notification is always sent when position
= total
(unless the call fails with an error).
This is to simplify caller code, so callers can easily set the progress indicator to "100%" at the end of the operation, without requiring special code to detect this case.
For some calls we are unable to estimate the progress of the call, but we can still generate progress messages to indicate activity. This is known as "pulse mode", and is directly supported by certain progress bar implementations (eg. GtkProgressBar).
For these calls, zero or more progress messages are generated with position = 0
and total = 1
, followed by a final message with position = total = 1
.
As noted above, if the call fails with an error then the final message may not be generated.
The callback also receives the procedure number (proc_nr
) and serial number (serial
) of the call. These are only useful for debugging protocol issues, and the callback can normally ignore them. The callback may want to print these numbers in error messages or debugging messages.
If no callback is registered: progress messages are discarded.
The callback function is called whenever a log message is generated by qemu, the appliance kernel, guestfsd (daemon), or utility programs.
If the verbose flag ("guestfs_set_verbose") is set before launch ("guestfs_launch") then additional debug messages are generated.
If no callback is registered: the messages are discarded unless the verbose flag is set in which case they are sent to stderr. You can override the printing of verbose messages to stderr by setting up a callback.
The callback function is called whenever a log message is generated by the library part of libguestfs.
If the verbose flag ("guestfs_set_verbose") is set then additional debug messages are generated.
If no callback is registered: the messages are discarded unless the verbose flag is set in which case they are sent to stderr. You can override the printing of verbose messages to stderr by setting up a callback.
The callback function is called whenever a warning message is generated by the library part of libguestfs.
If no callback is registered: the messages are printed to stderr. You can override the printing of warning messages to stderr by setting up a callback.
The callback function is called whenever a trace message is generated. This only applies if the trace flag ("guestfs_set_trace") is set.
If no callback is registered: the messages are sent to stderr. You can override the printing of trace messages to stderr by setting up a callback.
The callback function is called whenever a libguestfs function is entered.
The payload is a string which contains the name of the function that we are entering (not including guestfs_
prefix).
Note that libguestfs functions can call themselves, so you may see many events from a single call. A few libguestfs functions do not generate this event.
If no callback is registered: the event is ignored.
For any API function that opens a libvirt connection, this event may be generated to indicate that libvirt demands authentication information. See "LIBVIRT AUTHENTICATION" below.
If no callback is registered: virConnectAuthPtrDefault
is used (suitable for command-line programs only).
int guestfs_set_event_callback (guestfs_h *g,
guestfs_event_callback cb,
uint64_t event_bitmask,
int flags,
void *opaque);
This function registers a callback (cb
) for all event classes in the event_bitmask
.
For example, to register for all log message events, you could call this function with the bitmask GUESTFS_EVENT_APPLIANCE|GUESTFS_EVENT_LIBRARY|GUESTFS_EVENT_WARNING
. To register a single callback for all possible classes of events, use GUESTFS_EVENT_ALL
.
flags
should always be passed as 0.
opaque
is an opaque pointer which is passed to the callback. You can use it for any purpose.
The return value is the event handle (an integer) which you can use to delete the callback (see below).
If there is an error, this function returns -1
, and sets the error in the handle in the usual way (see "guestfs_last_error" etc.)
Callbacks remain in effect until they are deleted, or until the handle is closed.
In the case where multiple callbacks are registered for a particular event class, all of the callbacks are called. The order in which multiple callbacks are called is not defined.
void guestfs_delete_event_callback (guestfs_h *g, int event_handle);
Delete a callback that was previously registered. event_handle
should be the integer that was returned by a previous call to guestfs_set_event_callback
on the same handle.
char *guestfs_event_to_string (uint64_t event);
event
is either a single event or a bitmask of events. This returns a string representation (useful for debugging or printing events).
A single event is returned as the name in lower case, eg. "close"
.
A bitmask of several events is returned as a comma-separated list, eg. "close,progress"
.
If zero is passed, then the empty string ""
is returned.
On success this returns a string. On error it returns NULL and sets errno
.
The returned string must be freed by the caller.
typedef void (*guestfs_event_callback) (
guestfs_h *g,
void *opaque,
uint64_t event,
int event_handle,
int flags,
const char *buf, size_t buf_len,
const uint64_t *array, size_t array_len);
This is the type of the event callback function that you have to provide.
The basic parameters are: the handle (g
), the opaque user pointer (opaque
), the event class (eg. GUESTFS_EVENT_PROGRESS
), the event handle, and flags
which in the current API you should ignore.
The remaining parameters contain the event payload (if any). Each event may contain a payload, which usually relates to the event class, but for future proofing your code should be written to handle any payload for any event class.
buf
and buf_len
contain a message buffer (if buf_len == 0
, then there is no message buffer). Note that this message buffer can contain arbitrary 8 bit data, including NUL bytes.
array
and array_len
is an array of 64 bit unsigned integers. At the moment this is only used for progress messages.
A working program demonstrating this can be found in examples/debug-logging.c in the source of libguestfs.
One motivation for the generic event API was to allow GUI programs to capture debug and other messages. In libguestfs ≤ 1.8 these were sent unconditionally to stderr
.
Events associated with log messages are: GUESTFS_EVENT_LIBRARY
, GUESTFS_EVENT_APPLIANCE
, GUESTFS_EVENT_WARNING
and GUESTFS_EVENT_TRACE
. (Note that error messages are not events; you must capture error messages separately).
Programs have to set up a callback to capture the classes of events of interest:
int eh =
guestfs_set_event_callback
(g, message_callback,
GUESTFS_EVENT_LIBRARY | GUESTFS_EVENT_APPLIANCE |
GUESTFS_EVENT_WARNING | GUESTFS_EVENT_TRACE,
0, NULL) == -1)
if (eh == -1) {
// handle error in the usual way
}
The callback can then direct messages to the appropriate place. In this example, messages are directed to syslog:
static void
message_callback (
guestfs_h *g,
void *opaque,
uint64_t event,
int event_handle,
int flags,
const char *buf, size_t buf_len,
const uint64_t *array, size_t array_len)
{
const int priority = LOG_USER|LOG_INFO;
if (buf_len > 0)
syslog (priority, "event 0x%lx: %s", event, buf);
}
Some libguestfs API calls can open libvirt connections. Currently the only ones are "guestfs_add_domain"; and "guestfs_launch" if the libvirt backend has been selected. Libvirt connections may require authentication, for example if they need to access a remote server or to access root services from non-root. Libvirt authentication happens via a callback mechanism, see http://libvirt.org/guide/html/Application_Development_Guide-Connections.html
You may provide libvirt authentication data by registering a callback for events of type GUESTFS_EVENT_LIBVIRT_AUTH
.
If no such event is registered, then libguestfs uses a libvirt function that provides command-line prompts (virConnectAuthPtrDefault
). This is only suitable for command-line libguestfs programs.
To provide authentication, first call "guestfs_set_libvirt_supported_credentials" with the list of credentials your program knows how to provide. Second, register a callback for the GUESTFS_EVENT_LIBVIRT_AUTH
event. The event handler will be called when libvirt is requesting authentication information.
In the event handler, call "guestfs_get_libvirt_requested_credentials" to get a list of the credentials that libvirt is asking for. You then need to ask (eg. the user) for each credential, and call "guestfs_set_libvirt_requested_credential" with the answer. Note that for each credential, additional information may be available via the calls "guestfs_get_libvirt_requested_credential_prompt", "guestfs_get_libvirt_requested_credential_challenge" or "guestfs_get_libvirt_requested_credential_defresult".
The example program below should make this clearer.
There is also a more substantial working example program supplied with the libguestfs sources, called libvirt-auth.c.
main ()
{
guestfs_h *g;
char *creds[] = { "authname", "passphrase", NULL };
int r, eh;
g = guestfs_create ();
if (!g) exit (EXIT_FAILURE);
/* Tell libvirt what credentials the program supports. */
r = guestfs_set_libvirt_supported_credentials (g, creds);
if (r == -1)
exit (EXIT_FAILURE);
/* Set up the event handler. */
eh = guestfs_set_event_callback (
g, do_auth,
GUESTFS_EVENT_LIBVIRT_AUTH, 0, NULL);
if (eh == -1)
exit (EXIT_FAILURE);
/* An example of a call that may ask for credentials. */
r = guestfs_add_domain (
g, "dom",
GUESTFS_ADD_DOMAIN_LIBVIRTURI, "qemu:///system",
-1);
if (r == -1)
exit (EXIT_FAILURE);
exit (EXIT_SUCCESS);
}
static void
do_auth (guestfs_h *g,
void *opaque,
uint64_t event,
int event_handle,
int flags,
const char *buf, size_t buf_len,
const uint64_t *array, size_t array_len)
{
char **creds;
size_t i;
char *prompt;
char *reply;
size_t replylen;
int r;
// buf will be the libvirt URI. buf_len may be ignored.
printf ("Authentication required for libvirt conn '%s'\n",
buf);
// Ask libguestfs what credentials libvirt is demanding.
creds = guestfs_get_libvirt_requested_credentials (g);
if (creds == NULL)
exit (EXIT_FAILURE);
// Now ask the user for answers.
for (i = 0; creds[i] != NULL; ++i)
{
if (strcmp (creds[i], "authname") == 0 ||
strcmp (creds[i], "passphrase") == 0)
{
prompt =
guestfs_get_libvirt_requested_credential_prompt (g, i);
if (prompt && strcmp (prompt, "") != 0)
printf ("%s: ", prompt);
free (prompt);
// Some code here to ask for the credential.
// ...
// Put the reply in 'reply', length 'replylen' (bytes).
r = guestfs_set_libvirt_requested_credential (g, i,
reply, replylen);
if (r == -1)
exit (EXIT_FAILURE);
}
free (creds[i]);
}
free (creds);
}
Some operations can be cancelled by the caller while they are in progress. Currently only operations that involve uploading or downloading data can be cancelled (technically: operations that have FileIn
or FileOut
parameters in the generator).
To cancel the transfer, call "guestfs_user_cancel". For more information, read the description of "guestfs_user_cancel".
You can attach named pieces of private data to the libguestfs handle, fetch them by name, and walk over them, for the lifetime of the handle. This is called the private data area and is only available from the C API.
To attach a named piece of data, use the following call:
void guestfs_set_private (guestfs_h *g, const char *key, void *data);
key
is the name to associate with this data, and data
is an arbitrary pointer (which can be NULL
). Any previous item with the same key is overwritten.
You can use any key
string you want, but avoid keys beginning with an underscore character (libguestfs uses those for its own internal purposes, such as implementing language bindings). It is recommended that you prefix the key with some unique string to avoid collisions with other users.
To retrieve the pointer, use:
void *guestfs_get_private (guestfs_h *g, const char *key);
This function returns NULL
if either no data is found associated with key
, or if the user previously set the key
’s data
pointer to NULL
.
Libguestfs does not try to look at or interpret the data
pointer in any way. As far as libguestfs is concerned, it need not be a valid pointer at all. In particular, libguestfs does not try to free the data when the handle is closed. If the data must be freed, then the caller must either free it before calling "guestfs_close" or must set up a close callback to do it (see "GUESTFS_EVENT_CLOSE").
To walk over all entries, use these two functions:
void *guestfs_first_private (guestfs_h *g, const char **key_rtn);
void *guestfs_next_private (guestfs_h *g, const char **key_rtn);
guestfs_first_private
returns the first key, pointer pair ("first" does not have any particular meaning -- keys are not returned in any defined order). A pointer to the key is returned in *key_rtn
and the corresponding data pointer is returned from the function. NULL
is returned if there are no keys stored in the handle.
guestfs_next_private
returns the next key, pointer pair. The return value of this function is NULL
if there are no further entries to return.
Notes about walking over entries:
You must not call guestfs_set_private
while walking over the entries.
The handle maintains an internal iterator which is reset when you call guestfs_first_private
. This internal iterator is invalidated when you call guestfs_set_private
.
If you have set the data pointer associated with a key to NULL
, ie:
guestfs_set_private (g, key, NULL);
then that key
is not returned when walking.
*key_rtn
is only valid until the next call to guestfs_first_private
, guestfs_next_private
or guestfs_set_private
.
The following example code shows how to print all keys and data pointers that are associated with the handle g
:
const char *key;
void *data = guestfs_first_private (g, &key);
while (data != NULL)
{
printf ("key = %s, data = %p\n", key, data);
data = guestfs_next_private (g, &key);
}
More commonly you are only interested in keys that begin with an application-specific prefix foo_
. Modify the loop like so:
const char *key;
void *data = guestfs_first_private (g, &key);
while (data != NULL)
{
if (strncmp (key, "foo_", strlen ("foo_")) == 0)
printf ("key = %s, data = %p\n", key, data);
data = guestfs_next_private (g, &key);
}
If you need to modify keys while walking, then you have to jump back to the beginning of the loop. For example, to delete all keys prefixed with foo_
:
const char *key;
void *data;
again:
data = guestfs_first_private (g, &key);
while (data != NULL)
{
if (strncmp (key, "foo_", strlen ("foo_")) == 0)
{
guestfs_set_private (g, key, NULL);
/* note that 'key' pointer is now invalid, and so is
the internal iterator */
goto again;
}
data = guestfs_next_private (g, &key);
}
Note that the above loop is guaranteed to terminate because the keys are being deleted, but other manipulations of keys within the loop might not terminate unless you also maintain an indication of which keys have been visited.
Since April 2010, libguestfs has started to make separate development and stable releases, along with corresponding branches in our git repository. These separate releases can be identified by version number:
even numbers for stable: 1.2.x, 1.4.x, ...
.-------- odd numbers for development: 1.3.x, 1.5.x, ...
|
v
1 . 3 . 5
^ ^
| |
| `-------- sub-version
|
`------ always '1' because we don't change the ABI
Thus "1.3.5" is the 5th update to the development branch "1.3".
As time passes we cherry pick fixes from the development branch and backport those into the stable branch, the effect being that the stable branch should get more stable and less buggy over time. So the stable releases are ideal for people who don't need new features but would just like the software to work.
Our criteria for backporting changes are:
Documentation changes which don’t affect any code are backported unless the documentation refers to a future feature which is not in stable.
Bug fixes which are not controversial, fix obvious problems, and have been well tested are backported.
Simple rearrangements of code which shouldn't affect how it works get backported. This is so that the code in the two branches doesn't get too far out of step, allowing us to backport future fixes more easily.
We don’t backport new features, new APIs, new tools etc, except in one exceptional case: the new feature is required in order to implement an important bug fix.
A new stable branch starts when we think the new features in development are substantial and compelling enough over the current stable branch to warrant it. When that happens we create new stable and development versions 1.N.0 and 1.(N+1).0 [N is even]. The new dot-oh release won't necessarily be so stable at this point, but by backporting fixes from development, that branch will stabilize over time.
Internally libguestfs uses a message-based protocol to pass API calls and their responses to and from a small "appliance" (see guestfs-internals(1) for plenty more detail about this). The maximum message size used by the protocol is slightly less than 4 MB. For some API calls you may need to be aware of this limit. The API calls which may be affected are individually documented, with a link back to this section of the documentation.
In libguestfs < 1.19.32, several calls had to encode either their entire argument list or their entire return value (or sometimes both) in a single protocol message, and this gave them an arbitrary limitation on how much data they could handle. For example, "guestfs_cat" could only download a file if it was less than around 4 MB in size. In later versions of libguestfs, some of these limits have been removed. The APIs which were previously limited but are now unlimited (except perhaps by available memory) are listed below. To find out if a specific API is subject to protocol limits, check for the warning in the API documentation which links to this section, and remember to check the version of the documentation that matches the version of libguestfs you are using.
"guestfs_cat", "guestfs_find", "guestfs_read_file", "guestfs_read_lines", "guestfs_write", "guestfs_write_append", "guestfs_lstatlist", "guestfs_lxattrlist", "guestfs_readlinklist", "guestfs_ls".
See also "UPLOADING" and "DOWNLOADING" for further information about copying large amounts of data into or out of a filesystem.
In libguestfs ≥ 1.19.7, you can query the maximum number of disks that may be added by calling "guestfs_max_disks". In earlier versions of libguestfs (ie. where this call is not available) you should assume the maximum is 25.
The rest of this section covers implementation details, which could change in future.
When using virtio-scsi disks (the default if available in qemu) the current limit is 255 disks. When using virtio-blk (the old default) the limit is around 27 disks, but may vary according to implementation details and whether the network is enabled.
Virtio-scsi as used by libguestfs is configured to use one target per disk, and 256 targets are available.
Virtio-blk consumes 1 virtual PCI slot per disk, and PCI is limited to 31 slots, but some of these are used for other purposes.
One virtual disk is used by libguestfs internally.
Before libguestfs 1.19.7, disk names had to be a single character (eg. /dev/sda through /dev/sdz), and since one disk is reserved, that meant the limit was 25. This has been fixed in more recent versions.
Virtio limits the maximum number of partitions per disk to 15.
This is because it reserves 4 bits for the minor device number (thus /dev/vda, and /dev/vda1 through /dev/vda15).
If you attach a disk with more than 15 partitions, the extra partitions are ignored by libguestfs.
Probably the limit is between 2**63-1 and 2**64-1 bytes.
We have tested block devices up to 1 exabyte (2**60 or 1,152,921,504,606,846,976 bytes) using sparse files backed by an XFS host filesystem.
Although libguestfs probably does not impose any limit, the underlying host storage will. If you store disk images on a host ext4 filesystem, then the maximum size will be limited by the maximum ext4 file size (currently 16 TB). If you store disk images as host logical volumes then you are limited by the maximum size of an LV.
For the hugest disk image files, we recommend using XFS on the host for storage.
The MBR (ie. classic MS-DOS) partitioning scheme uses 32 bit sector numbers. Assuming a 512 byte sector size, this means that MBR cannot address a partition located beyond 2 TB on the disk.
It is recommended that you use GPT partitions on disks which are larger than this size. GPT uses 64 bit sector numbers and so can address partitions which are theoretically larger than the largest disk we could support.
This depends on the filesystem type. libguestfs itself does not impose any known limit. Consult Wikipedia or the filesystem documentation to find out what these limits are.
The API functions "guestfs_upload", "guestfs_download", "guestfs_tar_in", "guestfs_tar_out" and the like allow unlimited sized uploads and downloads.
The inspection code has several arbitrary limits on things like the size of Windows Registry hive it will read, and the length of product name. These are intended to stop a malicious guest from consuming arbitrary amounts of memory and disk space on the host, and should not be reached in practice. See the source code for more information.
Some of the tools support a --machine-readable option, which is generally used to make the output more machine friendly, for easier parsing for example. By default, this output goes to stdout.
When using the --machine-readable option, the progress, information, warning, and error messages are also printed in JSON format for easier log tracking. Thus, it is highly recommended to redirect the machine-readable output to a different stream. The format of these JSON messages is like the following (actually printed within a single line, below it is indented for readability):
{
"message": "Finishing off",
"timestamp": "2019-03-22T14:46:49.067294446+01:00",
"type": "message"
}
type
can be: message
for progress messages, info
for information messages, warning
for warning messages, and error
for error message. timestamp
is the RFC 3339 timestamp of the message.
In addition to that, a subset of these tools support an extra string passed to the --machine-readable option: this string specifies where the machine-readable output will go.
The possible values are:
The output goes to the specified fd, which is a file descriptor already opened for writing.
The output goes to the specified filename.
The output goes to stdout. This is basically the same as the default behaviour of --machine-readable with no parameter, although stdout as output is specified explicitly.
The output goes to stderr.
Pass additional options to the guest kernel.
This is the old way to set LIBGUESTFS_BACKEND
.
Choose the default way to create the appliance. See "guestfs_set_backend" and "BACKEND".
A colon-separated list of backend-specific settings. See "BACKEND", "BACKEND SETTINGS".
The location where libguestfs will cache its appliance, when using a supermin appliance. The appliance is cached and shared between all handles which have the same effective user ID.
If LIBGUESTFS_CACHEDIR
is not set, then TMPDIR
is used. If TMPDIR
is not set, then /var/tmp is used.
See also "LIBGUESTFS_TMPDIR", "guestfs_set_cachedir".
Set LIBGUESTFS_DEBUG=1
to enable verbose messages. This has the same effect as calling guestfs_set_verbose (g, 1)
.
Set the default hypervisor (usually 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 "QEMU WRAPPERS" above.
Set the memory allocated to the qemu process, in megabytes. For example:
LIBGUESTFS_MEMSIZE=700
Set the path that libguestfs uses to search for a supermin appliance. See the discussion of paths in section "PATH" above.
This is the old way to set LIBGUESTFS_HV
.
The location where libguestfs will store temporary files used by each handle.
If LIBGUESTFS_TMPDIR
is not set, then TMPDIR
is used. If TMPDIR
is not set, then /tmp is used.
See also "LIBGUESTFS_CACHEDIR", "guestfs_set_tmpdir".
Set LIBGUESTFS_TRACE=1
to enable command traces. This has the same effect as calling guestfs_set_trace (g, 1)
.
Libguestfs may run some external programs, and relies on $PATH
being set to a reasonable value. If using the libvirt backend, libvirt will not work at all unless $PATH
contains the path of qemu/KVM. Note that PHP by default removes $PATH
from the environment which tends to break everything.
These three environment variables allow the kernel that libguestfs uses in the appliance to be selected. If $SUPERMIN_KERNEL
is not set, then the most recent host kernel is chosen. For more information about kernel selection, see supermin(1).
This directory represents a user-specific directory for storing non-essential runtime files.
If it is set, then is used to store temporary sockets and PID files. Otherwise, /tmp is used.
See also "guestfs_get_sockdir", http://www.freedesktop.org/wiki/Specifications/basedir-spec/.
Examples written in C: guestfs-examples(3).
Language bindings: guestfs-erlang(3), guestfs-gobject(3), guestfs-golang(3), guestfs-java(3), guestfs-lua(3), guestfs-ocaml(3), guestfs-perl(3), guestfs-python(3), guestfs-ruby(3).
Tools: guestfish(1), guestmount(1), virt-alignment-scan(1), virt-builder(1), virt-builder-repository(1), virt-cat(1), virt-copy-in(1), virt-copy-out(1), virt-customize(1), virt-df(1), virt-diff(1), virt-edit(1), virt-filesystems(1), virt-format(1), virt-inspector(1), virt-list-filesystems(1), virt-list-partitions(1), virt-log(1), virt-ls(1), virt-make-fs(1), virt-p2v(1), virt-rescue(1), virt-resize(1), virt-sparsify(1), virt-sysprep(1), virt-tail(1), virt-tar(1), virt-tar-in(1), virt-tar-out(1), virt-v2v(1), virt-win-reg(1).
Other libguestfs topics: guestfs-building(1), guestfs-faq(1), guestfs-hacking(1), guestfs-internals(1), guestfs-performance(1), guestfs-release-notes(1), guestfs-security(1), guestfs-testing(1), libguestfs-test-tool(1), libguestfs-make-fixed-appliance(1).
Related manual pages: supermin(1), qemu(1), hivex(3), stap(1), sd-journal(3).
Website: http://libguestfs.org/
Tools with a similar purpose: fdisk(8), parted(8), kpartx(8), lvm(8), disktype(1).
Richard W.M. Jones (rjones at redhat dot com
)
Copyright (C) 2009-2023 Red Hat Inc.
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
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.