2023-03-14 16:23:53 +01:00
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---
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title: backup.sh
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section: 1
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header: General Commands Manual
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footer: Marco Cetica
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date: March 14, 2023
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---
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# NAME
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**backup.sh** is a POSIX compliant, modular and lightweight backup utility to save and encrypt your files.
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# SYNOPSIS
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```
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Syntax: backup.sh [-b|-e|-h]
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options:
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-b|--backup SOURCES DEST PASS Backup folders from SOURCES file.
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-e|--extract ARCHIVE PASS Extract ARCHIVE using PASS.
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-h|--help Show this helper.
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```
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# DESCRIPTION
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**backup.sh** is a POSIX compliant, modular and lightweight backup utility to save and encrypt your files.
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This tool is intended to be used on small scale UNIX environment such as VPS, small servers and workstations.
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**backup.sh** uses _rsync_, _tar_ and _openssl_ to copy, compress and encrypt the backup.
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# OPTIONS
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**backup.sh** supports two options: _backup creation_ and _backup extraction_.
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The former requires root permissions, while the latter does not. Let us see them in details:
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## Backup creation
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To specify the directories to backup, **backup.sh** uses an associative array defined in a text file(called sources file)
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with the following syntax:
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```
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<LABEL>=<PATH>
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```
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Where `<LABEL>` is the name of the backup and `<PATH>` is its path.
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For example, if you want to back up _/etc/nginx_ and _/etc/ssh_, add the following entries to the sources file:
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```
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nginx=/etc/nginx/
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ssh=/etc/ssh/
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```
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**backup.sh** will create two folders inside the backup archive with the following syntax:
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```
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backup-<LABEL>-<YYYYMMDD>
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```
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In the previous example, this would be:
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```
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backup-nginx-<YYYYMMDD>
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backup-ssh-<YYYYMMDD>
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```
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You can add as many entries as you want, just be sure to use the proper syntax.
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In particular, the sources file, _should not_ includes:
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- Spaces between the label and the equal sign;
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- Empty lines;
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- Comments.
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2023-03-16 11:43:14 +01:00
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You can find a sample sources file at `sources.bk`(or at `/usr/local/etc/sources.bk`).
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2023-03-14 16:23:53 +01:00
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After having defined the sources file, you can invoke **backup.sh** using the following syntax:
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```
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$> sudo ./backup.sh --backup <SOURCES_FILE> <DEST> <ENCRYPTION_PASSWORD>
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```
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Where `<SOURCES_FILE>` is the _sources file_, `<DEST>` is the absolute path of the output of the backup _without trailing slashes_
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and `<ENCRYPTION_PASSWORD>` is the password to encrypt the compressed archive.
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In the previous example, this would be:
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```
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$> sudo ./backup.sh --backup sources.bk /home/john badpw1234
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```
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The backup utility will begin to copy the files defined in the sources file:
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```
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Copying nginx(1/2)
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Copying ssh(2/2)
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Compressing and encrypting backup...
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Elapsed time: 10 seconds.
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```
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After that, you will find the final backup archive in `/home/john/backup-<HOSTNAME>-<YYYMMDD>.tar.gz.enc`.
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You can also use **backup.sh** from a crontab rule:
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```
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$> sudo crontab -e
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2023-03-20 11:42:51 +01:00
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30 03 * * 6 EKEY=$(cat /home/john/.ekey) bash -c '/usr/local/bin/backup.sh -b /usr/local/etc/sources.bk /home/john $EKEY' > /dev/null 2>&1
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2023-03-14 16:23:53 +01:00
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```
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This will automatically run **backup.sh** every Saturday morning at 03:30 AM.
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In the example above, the encryption key is stored in a local file(with fixed permissions) to avoid password leaking in crontab logs.
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You can also adopt this practice while using the `--extract` option to avoid password leaking in shell history.
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## Backup extraction
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**backup.sh** can also extract the encrypted backup archive using the following syntax:
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```
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$> ./backup.sh --extract <ENCRYPTED_ARCHIVE> <ARCHIVE_PASSWORD>
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```
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Where `<ENCRYPTED_ARCHIVE>` is the encrypted backup and `<ARCHIVE_PASSWORD>` is the backup password.
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For instance:
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```
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$> ./backup.sh --extract backup-<hostname>-<YYYMMDD>.tar.gz.enc badpw1234
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```
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This will create a new folder called `backup.sh.tmp` in your local directory.
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Be sure to rename any directory with that name to avoid collisions. From the previous example, you should have the following directories:
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```
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backup-nginx-<YYYYMMDD>
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backup-ssh-<YYYYMMDD>
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```
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## How does backup.sh work?
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**backup.sh** uses _rsync_ to copy the files, _tar_ to compress the backup and _openssl_ to encrypt it.
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By default, rsync is being used with the following parameters:
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```
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$> rsync -aPhrq --delete
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```
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That is:
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- a: archive mode: rsync copies files recursively while preserving as much metadata as possible;
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- P: progress/partial: allows rsync to resume interrupted transfers and to shows progress information;
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- h: human readable output, rsync shows output numbers in a more readable way;
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- r: recursive mode: forces rsync to copy directories and their content;
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- q: quiet mode: reduces the amount of information rsync produces;
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- delete: delete mode: forces rsync to delete any extraneous files at the destination dir.
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After that the backup folder is being encrypred using openssl. By default, it is used with the following parameters:
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```
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$> openssl enc -aes-256-cbc -md sha512 -pbkdf2 -iter 100000 -salt -k "$PASSWORD" > file.tar.gz.enc
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```
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This command encrypts the backup using the AES-256-CBC symmetric encryption algorithm with a 256bit key. Here is what each option means:
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- enc: encrypt mode: tell openssl to use encryption functionality;
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- aes-256-cbc: encryption algorithm: this option tells openssl which encryption algorithm to use;
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- md sh512: hashing algorithm: this option tells openssl which hashing algorithm to use for key derivation,
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i.e., converting the text-based password(`$PASSWORD`) into an encryption key;
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- pbkdf2: key deriving algorithm: this option tells openssl which key deriving algorithm to use. In this case
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we use the _password-based key derivation function 2_ algorithm;
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- iter 100000: number of iterations: this options tells openssl the number of iteration to use for the key derivation
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function;
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- salt: enable salting: this option tells openssl to add a random salt to the key derivation process in order to
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avoid rainbow table based attacks.
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# EXAMPLES
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Below there are some examples that demostrate **backup.sh**'s usage.
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1. Create a backup of `/etc/ssh`, `/var/www` and `/var/log` inside the `/tmp` directory using a password
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stored in `/home/op1/.backup_pw`
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The first thing to do is to define the source paths inside a _sources file_:
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```
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$> cat sources.bk
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ssh=/etc/ssh
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web_root=/var/www
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logs=/var/log
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```
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After that we can load our encryption key from the specified file inside a environment variable:
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```
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$> ENC_KEY=$(cat /home/op1/.backup_pw)
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```
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Finally, we can start the backup process with:
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```
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$> sudo backup.sh --backup sources.bk /tmp $ENC_KEY
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```
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2. Extract the content of a backup made on 2023-03-14 with the password 'Ax98f!'
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To do this, we can simply issue the following command:
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```
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$> backup.sh --extract backup-af9a8e6bfe15-20230314.tar.gz.enc "Ax98f!"
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```
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2023-03-20 11:57:29 +01:00
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3. Extract the content of a backup made on 2018-04-25 using the password in `/home/john/.pw`
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This example is very similar to the previous one, we just need to read the password from the text file:
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```
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$> backup.sh --extract backup-af9a8e6bfe15-20180425.tar.gz.enc "$(cat /home/john/.pw)"
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```
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2023-03-14 16:23:53 +01:00
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# AUTHORS
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**backup.sh** was written by Marco Cetica on late 2018.
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# BUGS
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Submit bug reports online at: <email@marcocetica.com> or open an issue
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on the issue tracker of the GitHub page of this project: https://github.com/ice-bit/backup.sh
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