Backup Client Usage¶
The command-line client for Proxmox Backup Server is called proxmox-backup-client.
Backup Repository Locations¶
The client uses the following format to specify a datastore repository on the backup server (where username is specified in the form of user@realm):
[[username@]server[:port]:]datastore
The default value for username
is root@pam
. If no server is specified,
the default is the local host (localhost
).
You can specify a port if your backup server is only reachable on a non-default port (for example, with NAT and port forwarding configurations).
Note that if the server uses an IPv6 address, you have to write it with square brackets (for example, [fe80::01]).
You can pass the repository with the --repository
command-line option, or
by setting the PBS_REPOSITORY
environment variable.
The web interface provides copyable repository text in the datastore summary with the Show Connection Information button.
Below are some examples of valid repositories and their corresponding real values:
Example |
User |
Host:Port |
Datastore |
---|---|---|---|
mydatastore |
|
localhost:8007 |
mydatastore |
myhostname:mydatastore |
|
myhostname:8007 |
mydatastore |
user@pbs@myhostname:mydatastore |
|
myhostname:8007 |
mydatastore |
user@pbs!token@host:store |
|
host:8007 |
store |
192.168.55.55:1234:mydatastore |
|
192.168.55.55:1234 |
mydatastore |
[ff80::51]:mydatastore |
|
[ff80::51]:8007 |
mydatastore |
[ff80::51]:1234:mydatastore |
|
[ff80::51]:1234 |
mydatastore |
Environment Variables¶
PBS_REPOSITORY
The default backup repository.
PBS_PASSWORD
When set, this value is used as the password for the backup server. You can also set this to an API token secret.
PBS_PASSWORD_FD
,PBS_PASSWORD_FILE
,PBS_PASSWORD_CMD
Like
PBS_PASSWORD
, but read data from an open file descriptor, a file name or from the stdout of a command, respectively. The first defined environment variable from the order above is preferred.PBS_ENCRYPTION_PASSWORD
When set, this value is used to access the secret encryption key (if protected by password).
PBS_ENCRYPTION_PASSWORD_FD
,PBS_ENCRYPTION_PASSWORD_FILE
,PBS_ENCRYPTION_PASSWORD_CMD
Like
PBS_ENCRYPTION_PASSWORD
, but read data from an open file descriptor, a file name or from the stdout of a command, respectively. The first defined environment variable from the order above is preferred.PBS_FINGERPRINT
When set, this value is used to verify the server certificate (only used if the system CA certificates cannot validate the certificate).
ALL_PROXY
When set, the client uses the specified HTTP proxy for all connections to the backup server. Currently only HTTP proxies are supported. Valid proxy configurations have the following format: [http://][user:password@]<host>[:port]. Default port is 1080, if not otherwise specified.
Note
The recommended solution for shielding hosts is using tunnels such as wireguard, instead of using an HTTP proxy.
Note
Passwords must be valid UTF-8 and may not contain newlines. For your convenience, Proxmox Backup Server only uses the first line as password, so you can add arbitrary comments after the first newline.
Output Format¶
Most commands that produce output support the --output-format
parameter. This accepts the following values:
text
:Text format (default). Structured data is rendered as a table.
json
:JSON (single line).
json-pretty
:JSON (multiple lines, nicely formatted).
Also, the following environment variables can modify output behavior:
PROXMOX_OUTPUT_FORMAT
Defines the default output format.
PROXMOX_OUTPUT_NO_BORDER
If set (to any value), do not render table borders.
PROXMOX_OUTPUT_NO_HEADER
If set (to any value), do not render table headers.
Note
The text
format is designed to be human readable, and
not meant to be parsed by automation tools. Please use the json
format if you need to process the output.
Creating Backups¶
This section explains how to create a backup from within the machine. This can be a physical host, a virtual machine, or a container. Such backups may contain file and image archives. There are no restrictions in this case.
Note
If you want to backup virtual machines or containers on Proxmox VE, see Proxmox VE Integration.
For the following example, you need to have a backup server set up, have working
credentials, and know the repository name.
In the following examples, we use backup-server:store1
.
# proxmox-backup-client backup root.pxar:/ --repository backup-server:store1
Starting backup: host/elsa/2019-12-03T09:35:01Z
Client name: elsa
skip mount point: "/boot/efi"
skip mount point: "/dev"
skip mount point: "/run"
skip mount point: "/sys"
Uploaded 12129 chunks in 87 seconds (564 MB/s).
End Time: 2019-12-03T10:36:29+01:00
This will prompt you for a password, then upload a file archive named
root.pxar
containing all the files in the /
directory.
Caution
Please note that proxmox-backup-client does not
automatically include mount points. Instead, you will see a short
skip mount point
message for each of them. The idea is to
create a separate file archive for each mounted disk. You can
explicitly include them using the --include-dev
option
(i.e. --include-dev /boot/efi
). You can use this option
multiple times for each mount point that should be included.
The --repository
option can get quite long and is used by all commands. You
can avoid having to enter this value by setting the environment variable
PBS_REPOSITORY
. Note that if you would like this to remain set over
multiple sessions, you should instead add the below line to your .bashrc
file.
# export PBS_REPOSITORY=backup-server:store1
After this, you can execute all commands without having to specify the
--repository
option.
A single backup is allowed to contain more than one archive. For example, if
you want to back up two disks mounted at /mnt/disk1
and /mnt/disk2
:
# proxmox-backup-client backup disk1.pxar:/mnt/disk1 disk2.pxar:/mnt/disk2
This creates a backup of both disks.
If you want to use a namespace for the backup target, you can add the --ns parameter:
# proxmox-backup-client backup disk1.pxar:/mnt/disk1 disk2.pxar:/mnt/disk2 --ns a/b/c
The backup command takes a list of backup specifications, which include the archive name on the server, the type of the archive, and the archive source at the client. The format is:
<archive-name>.<type>:<source-path>
Common types are .pxar
for file archives and .img
for block
device images. To create a backup of a block device, run the following command:
# proxmox-backup-client backup mydata.img:/dev/mylvm/mydata
Excluding Files/Directories from a Backup¶
Sometimes it is desired to exclude certain files or directories from a backup
archive. To tell the Proxmox Backup client when and how to ignore files and
directories, place a text file named .pxarexclude
in the filesystem
hierarchy. Whenever the backup client encounters such a file in a directory,
it interprets each line as a glob match pattern for files and directories that
are to be excluded from the backup.
The file must contain a single glob pattern per line. Empty lines and lines
starting with #
(indicating a comment) are ignored.
A !
at the beginning of a line reverses the glob match pattern from an
exclusion to an explicit inclusion. This makes it possible to exclude all
entries in a directory except for a few single files/subdirectories.
Lines ending in /
match only on directories.
The directory containing the .pxarexclude
file is considered to be the root
of the given patterns. It is only possible to match files in this directory and
its subdirectories.
Note
Patterns without a leading /
will also match in subdirectories,
while patterns with a leading /
will only match in the current directory.
\
is used to escape special glob characters.
?
matches any single character.
*
matches any character, including an empty string.
**
is used to match current directory and subdirectories. For example, with
the pattern **/*.tmp
, it would exclude all files ending in .tmp
within
a directory and its subdirectories.
[...]
matches a single character from any of the provided characters within
the brackets. [!...]
does the complementary and matches any single
character not contained within the brackets. It is also possible to specify
ranges with two characters separated by -
. For example, [a-z]
matches
any lowercase alphabetic character, and [0-9]
matches any single digit.
The order of the glob match patterns defines whether a file is included or excluded, that is to say, later entries override earlier ones. This is also true for match patterns encountered deeper down the directory tree, which can override a previous exclusion.
Note
Excluded directories will not be read by the backup client. Thus,
a .pxarexclude
file in an excluded subdirectory will have no effect.
.pxarexclude
files are treated as regular files and will be included in
the backup archive.
For example, consider the following directory structure:
# ls -aR folder
folder/:
. .. .pxarexclude subfolder0 subfolder1
folder/subfolder0:
. .. file0 file1 file2 file3 .pxarexclude
folder/subfolder1:
. .. file0 file1 file2 file3
The different .pxarexclude
files contain the following:
# cat folder/.pxarexclude
/subfolder0/file1
/subfolder1/*
!/subfolder1/file2
# cat folder/subfolder0/.pxarexclude
file3
This would exclude file1
and file3
in subfolder0
and all of
subfolder1
except file2
.
Restoring this backup will result in:
# ls -aR restored
restored/:
. .. .pxarexclude subfolder0 subfolder1
restored/subfolder0:
. .. file0 file2 .pxarexclude
restored/subfolder1:
. .. file2
The same syntax can also be used directly in the cli with the --exclude
parameter. For example:
# proxmox-backup-client backup archive-name.pxar:./linux --exclude /usr
Multiple paths can be excluded like this:
# proxmox-backup-client backup archive-name.pxar:./linux --exclude=/usr --exclude=/rust
Change Detection Mode¶
File-based backups containing a lot of data can take a long time, as the default behavior for the Proxmox backup client is to read all data and encode it into a pxar archive. The encoded stream is split into variable sized chunks. For each chunk, a digest is calculated and used to decide whether the chunk needs to be uploaded or can be indexed without upload, as it is already available on the server (and therefore deduplicated). If the backed up files are largely unchanged, re-reading and then detecting the corresponding chunks don't need to be uploaded after all is time consuming and undesired.
The backup client's change-detection-mode
can be switched from default to
metadata
based detection to reduce limitations as described above,
instructing the client to avoid re-reading files with unchanged metadata
whenever possible.
When using this mode, instead of the regular pxar archive, the backup snapshot
is stored into two separate files: the mpxar
containing the archive's
metadata and the ppxar
containing a concatenation of the file contents. This
splitting allows for efficient metadata lookups. When creating the backup
archives, the current file metadata is compared to the one looked up in the
previous mpxar
archive. The operational details are explained more in depth
in the technical documentation.
Using the change-detection-mode
set to data
allows to create the same
split archive as when using the metadata
mode, but without using a previous
reference and therefore reencoding all file payloads. For details of this mode
please see the technical documentation.
Mode |
Description |
---|---|
|
(current default): Encode all files into a self contained pxar archive. |
|
Encode all files into a split data and metadata pxar archive. |
|
Encode changed files, reuse unchanged from previous snapshot, creating a split archive. |
The following shows an example for the client invocation with the metadata mode:
# proxmox-backup-client backup archive-name.pxar:./linux --change-detection-mode=metadata
Encryption¶
Proxmox Backup supports client-side encryption with AES-256 in GCM mode. To set this up, you first need to create an encryption key:
# proxmox-backup-client key create my-backup.key
Encryption Key Password: **************
The key is password protected by default. If you do not need this extra protection, you can also create it without a password:
# proxmox-backup-client key create /path/to/my-backup.key --kdf none
Having created this key, it is now possible to create an encrypted backup, by
passing the --keyfile
parameter, with the path to the key file.
# proxmox-backup-client backup etc.pxar:/etc --keyfile /path/to/my-backup.key
Password: *********
Encryption Key Password: **************
...
Note
If you do not specify the name of the backup key, the key will be
created in the default location
~/.config/proxmox-backup/encryption-key.json
. proxmox-backup-client
will also search this location by default, in case the --keyfile
parameter is not specified.
You can avoid entering the passwords by setting the environment
variables PBS_PASSWORD
and PBS_ENCRYPTION_PASSWORD
.
Using a Master Key to Store and Recover Encryption Keys¶
You can also use proxmox-backup-client key
to create an RSA public/private
key pair, which can be used to store an encrypted version of the symmetric
backup encryption key alongside each backup and recover it later.
To set up a master key:
Create an encryption key for the backup:
# proxmox-backup-client key create creating default key at: "~/.config/proxmox-backup/encryption-key.json" Encryption Key Password: ********** ...
The resulting file will be saved to
~/.config/proxmox-backup/encryption-key.json
.Create an RSA public/private key pair:
# proxmox-backup-client key create-master-key Master Key Password: ********* ...
This will create two files in your current directory,
master-public.pem
andmaster-private.pem
.Import the newly created
master-public.pem
public certificate, so thatproxmox-backup-client
can find and use it upon backup.# proxmox-backup-client key import-master-pubkey /path/to/master-public.pem Imported public master key to "~/.config/proxmox-backup/master-public.pem"
With all these files in place, run a backup job:
# proxmox-backup-client backup etc.pxar:/etc
The key will be stored in your backup, under the name
rsa-encrypted.key
.Note
The
--keyfile
parameter can be excluded, if the encryption key is in the default path. If you specified another path upon creation, you must pass the--keyfile
parameter.To test that everything worked, you can restore the key from the backup:
# proxmox-backup-client restore /path/to/backup/ rsa-encrypted.key /path/to/target
Note
You should not need an encryption key to extract this file. However, if a key exists at the default location (
~/.config/proxmox-backup/encryption-key.json
) the program will prompt you for an encryption key password. Simply movingencryption-key.json
out of this directory will fix this issue.Then, use the previously generated master key to decrypt the file:
# proxmox-backup-client key import-with-master-key /path/to/target --master-keyfile /path/to/master-private.pem --encrypted-keyfile /path/to/rsa-encrypted.key Master Key Password: ****** New Password: ****** Verify Password: ******
The target file will now contain the encryption key information in plain text. The success of this can be confirmed by passing the resulting
json
file, with the--keyfile
parameter, when decrypting files from the backup.
Warning
Without their key, backed up files will be inaccessible. Thus, you should keep keys ordered and in a place that is separate from the contents being backed up. It can happen, for example, that you back up an entire system, using a key on that system. If the system then becomes inaccessible for any reason and needs to be restored, this will not be possible, as the encryption key will be lost along with the broken system.
It is recommended that you keep your master key safe, but easily accessible, in
order for quick disaster recovery. For this reason, the best place to store it
is in your password manager, where it is immediately recoverable. As a backup to
this, you should also save the key to a USB flash drive and store that in a secure
place. This way, it is detached from any system, but is still easy to recover
from, in case of emergency. Finally, in preparation for the worst case scenario,
you should also consider keeping a paper copy of your master key locked away in
a safe place. The paperkey
subcommand can be used to create a QR encoded
version of your master key. The following command sends the output of the
paperkey
command to a text file, for easy printing.
proxmox-backup-client key paperkey --output-format text > qrkey.txt
Restoring Data¶
The regular creation of backups is a necessary step in avoiding data loss. More importantly, however, is the restoration. It is good practice to perform periodic recovery tests to ensure that you can access the data in case of disaster.
First, you need to find the snapshot which you want to restore. The snapshot list command provides a list of all the snapshots on the server:
# proxmox-backup-client snapshot list
┌────────────────────────────────┬─────────────┬────────────────────────────────────┐
│ snapshot │ size │ files │
╞════════════════════════════════╪═════════════╪════════════════════════════════════╡
│ host/elsa/2019-12-03T09:30:15Z │ 51788646825 │ root.pxar catalog.pcat1 index.json │
├────────────────────────────────┼─────────────┼────────────────────────────────────┤
│ host/elsa/2019-12-03T09:35:01Z │ 51790622048 │ root.pxar catalog.pcat1 index.json │
├────────────────────────────────┼─────────────┼────────────────────────────────────┤
...
Tip
List will by default only output the backup snapshots of the root
namespace itself. To list backups from another namespace use the --ns
<ns>
option
You can inspect the catalog to find specific files.
# proxmox-backup-client catalog dump host/elsa/2019-12-03T09:35:01Z
...
d "./root.pxar.didx/etc/cifs-utils"
l "./root.pxar.didx/etc/cifs-utils/idmap-plugin"
d "./root.pxar.didx/etc/console-setup"
...
The restore command lets you restore a single archive from the backup.
# proxmox-backup-client restore host/elsa/2019-12-03T09:35:01Z root.pxar /target/path/
To get the contents of any archive, you can restore the index.json
file in the
repository to the target path '-'. This will dump the contents to the standard output.
# proxmox-backup-client restore host/elsa/2019-12-03T09:35:01Z index.json -
Interactive Restores¶
If you only want to restore a few individual files, it is often easier to use the interactive recovery shell.
# proxmox-backup-client catalog shell host/elsa/2019-12-03T09:35:01Z root.pxar
Starting interactive shell
pxar:/ > ls
bin boot dev etc home lib lib32
...
The interactive recovery shell is a minimal command-line interface that utilizes the metadata stored in the catalog to quickly list, navigate and search for files in a file archive. To restore files, you can select them individually or match them with a glob pattern.
Using the catalog for navigation reduces the overhead considerably because only the catalog needs to be downloaded and, optionally, decrypted. The actual chunks are only accessed if the metadata in the catalog is insufficient or for the actual restore.
Similar to common UNIX shells, cd
and ls
are the commands used to change
working directory and list directory contents in the archive.
pwd
shows the full path of the current working directory with respect to the
archive root.
The ability to quickly search the contents of the archive is a commonly required feature. That's where the catalog is most valuable. For example:
pxar:/ > find etc/**/*.txt --select
"/etc/X11/rgb.txt"
pxar:/ > list-selected
etc/**/*.txt
pxar:/ > restore-selected /target/path
...
This will find and print all files ending in .txt
located in etc/
or its
subdirectories, and add the corresponding pattern to the list for subsequent restores.
list-selected
shows these patterns and restore-selected
finally restores
all files in the archive matching the patterns to /target/path
on the local
host. This will scan the whole archive.
The restore
command can be used to restore all the files contained within
the backup archive. This is most helpful when paired with the --pattern
<glob>
option, as it allows you to restore all files matching a specific
pattern. For example, if you wanted to restore configuration files
located in /etc
, you could do the following:
pxar:/ > restore target/ --pattern etc/**/*.conf
...
The above will scan through all the directories below /etc
and restore all
files ending in .conf
.
Mounting of Archives via FUSE¶
The FUSE implementation for the pxar archive allows you to mount a file archive as a read-only filesystem to a mount point on your host.
# proxmox-backup-client mount host/backup-client/2020-01-29T11:29:22Z root.pxar /mnt/mountpoint
# ls /mnt/mountpoint
bin dev home lib32 libx32 media opt root sbin sys usr
boot etc lib lib64 lost+found mnt proc run srv tmp var
This allows you to access the full contents of the archive in a seamless manner.
Note
As the FUSE connection needs to fetch and decrypt chunks from the backup server's datastore, this can cause some additional network and CPU load on your host, depending on the operations you perform on the mounted filesystem.
To unmount the filesystem, use the umount
command on the mount point:
# umount /mnt/mountpoint
Login and Logout¶
The client tool prompts you to enter the login password as soon as you want to access the backup server. The server checks your credentials and responds with a ticket that is valid for two hours. The client tool automatically stores that ticket and uses it for further requests to this server.
You can also manually trigger this login/logout using the login and logout commands:
# proxmox-backup-client login
Password: **********
To remove the ticket, issue a logout:
# proxmox-backup-client logout
Changing the Owner of a Backup Group¶
By default, the owner of a backup group is the user which was used to originally
create that backup group (or in the case of sync jobs, root@pam
). This
means that if a user mike@pbs
created a backup, another user john@pbs
can not be used to create backups in that same backup group. In case you want
to change the owner of a backup, you can do so with the below command, using a
user that has Datastore.Modify
privileges on the datastore.
# proxmox-backup-client change-owner vm/103 john@pbs
This can also be done from within the web interface, by navigating to the
Content section of the datastore that contains the backup group and selecting
the user icon under the Actions column. Common cases for this could be to
change the owner of a sync job from root@pam
, or to repurpose a backup
group.
Pruning and Removing Backups¶
You can manually delete a backup snapshot using the forget
command:
# proxmox-backup-client snapshot forget <snapshot>
Caution
This command removes all archives in this backup snapshot. They will be inaccessible and unrecoverable.
Don't forget to add the namespace --ns
parameter if you want to forget a
snapshot that is contained in the root namespace:
# proxmox-backup-client snapshot forget <snapshot> --ns <ns>
Although manual removal is sometimes required, the prune
command is normally used to systematically delete older backups. Prune lets
you specify which backup snapshots you want to keep. The
following retention options are available:
--keep-last <N>
Keep the last
<N>
backup snapshots.--keep-hourly <N>
Keep backups for the last
<N>
hours. If there is more than one backup for a single hour, only the latest is kept. Hours without backups do not count.--keep-daily <N>
Keep backups for the last
<N>
days. If there is more than one backup for a single day, only the latest is kept. Days without backups do not count.--keep-weekly <N>
Keep backups for the last
<N>
weeks. If there is more than one backup for a single week, only the latest is kept. Weeks without backup do not count.Note
Weeks start on Monday and end on Sunday. The software uses the ISO week date system and handles weeks at the end of the year correctly.
--keep-monthly <N>
Keep backups for the last
<N>
months. If there is more than one backup for a single month, only the latest is kept. Months without backups do not count.--keep-yearly <N>
Keep backups for the last
<N>
years. If there is more than one backup for a single year, only the latest is kept. Years without backups do not count.
The retention options are processed in the order given above. Each option only covers backups within its time period. The next option does not take care of already covered backups. It will only consider older backups.
Unfinished and incomplete backups will be removed by the prune command unless they are newer than the last successful backup. In this case, the last failed backup is retained.
# proxmox-backup-client prune <group> --keep-daily 7 --keep-weekly 4 --keep-monthly 3
You can use the --dry-run
option to test your settings. This only
shows the list of existing snapshots and what actions prune would take.
# proxmox-backup-client prune host/elsa --dry-run --keep-daily 1 --keep-weekly 3
┌────────────────────────────────┬──────┐
│ snapshot │ keep │
╞════════════════════════════════╪══════╡
│ host/elsa/2019-12-04T13:20:37Z │ 1 │
├────────────────────────────────┼──────┤
│ host/elsa/2019-12-03T09:35:01Z │ 0 │
├────────────────────────────────┼──────┤
│ host/elsa/2019-11-22T11:54:47Z │ 1 │
├────────────────────────────────┼──────┤
│ host/elsa/2019-11-21T12:36:25Z │ 0 │
├────────────────────────────────┼──────┤
│ host/elsa/2019-11-10T10:42:20Z │ 1 │
└────────────────────────────────┴──────┘
Note
Neither the prune
command nor the forget
command free space
in the chunk-store. The chunk-store still contains the data blocks. To free
space you need to perform Garbage Collection.
It is also possible to protect single snapshots from being pruned or deleted:
# proxmox-backup-client snapshot protected update <snapshot> true
This will set the protected flag on the snapshot and prevent pruning or manual deletion of this snapshot until the flag is removed again with:
# proxmox-backup-client snapshot protected update <snapshot> false
When a group with a protected snapshot is deleted, only the non-protected ones are removed, and the rest will remain.
Note
This flag will not be synced when using pull or sync jobs. If you want to protect a synced snapshot, you have to do this again manually on the target backup server.
Garbage Collection¶
The prune
command removes only the backup index files, not the data
from the datastore. Deletion of unused backup data from the datastore is done by
garbage collection. It is therefore recommended to
schedule garbage collection tasks on a regular basis. The working principle of
garbage collection is described in more details in the related background
section.
To start garbage collection from the client side, run the following command:
# proxmox-backup-client garbage-collect
Note
This command needs to read all existing backup index files and touches the complete chunk-store. This can take a long time depending on the number of chunks and the speed of the underlying disks.
The progress of the garbage collection will be displayed as shown in the example below:
# proxmox-backup-client garbage-collect
starting garbage collection on store store2
Start GC phase1 (mark used chunks)
Start GC phase2 (sweep unused chunks)
percentage done: 1, chunk count: 219
percentage done: 2, chunk count: 453
...
percentage done: 99, chunk count: 21188
Removed bytes: 411368505
Removed chunks: 203
Original data bytes: 327160886391
Disk bytes: 52767414743 (16 %)
Disk chunks: 21221
Average chunk size: 2486565
TASK OK
Garbage collection can also be scheduled using proxmox-backup-manager
or
from the Proxmox Backup Server's web interface.
Benchmarking¶
The backup client also comes with a benchmarking tool. This tool measures various metrics relating to compression and encryption speeds. If a Proxmox Backup repository (remote or local) is specified, the TLS upload speed will get measured too.
You can run a benchmark using the benchmark
subcommand of
proxmox-backup-client
:
Note
The TLS speed test is only included if a backup server repository is specified.
# proxmox-backup-client benchmark
Uploaded 1517 chunks in 5 seconds.
Time per request: 3309 microseconds.
TLS speed: 1267.41 MB/s
SHA256 speed: 2066.73 MB/s
Compression speed: 775.11 MB/s
Decompress speed: 1233.35 MB/s
AES256/GCM speed: 3688.27 MB/s
Verify speed: 783.43 MB/s
┌───────────────────────────────────┬─────────────────────┐
│ Name │ Value │
╞═══════════════════════════════════╪═════════════════════╡
│ TLS (maximal backup upload speed) │ 1267.41 MB/s (103%) │
├───────────────────────────────────┼─────────────────────┤
│ SHA256 checksum computation speed │ 2066.73 MB/s (102%) │
├───────────────────────────────────┼─────────────────────┤
│ ZStd level 1 compression speed │ 775.11 MB/s (103%) │
├───────────────────────────────────┼─────────────────────┤
│ ZStd level 1 decompression speed │ 1233.35 MB/s (103%) │
├───────────────────────────────────┼─────────────────────┤
│ Chunk verification speed │ 783.43 MB/s (103%) │
├───────────────────────────────────┼─────────────────────┤
│ AES256 GCM encryption speed │ 3688.27 MB/s (101%) │
└───────────────────────────────────┴─────────────────────┘
Note
The percentages given in the output table correspond to a comparison against a Ryzen 7 2700X.
You can also pass the --output-format
parameter to output stats in json
,
rather than the default table format.