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- =pod
- {- OpenSSL::safe::output_do_not_edit_headers(); -}
- =head1 NAME
- openssl-enc - symmetric cipher routines
- =head1 SYNOPSIS
- B<openssl> B<enc>|I<cipher>
- [B<-I<cipher>>]
- [B<-help>]
- [B<-list>]
- [B<-ciphers>]
- [B<-in> I<filename>]
- [B<-out> I<filename>]
- [B<-pass> I<arg>]
- [B<-e>]
- [B<-d>]
- [B<-a>]
- [B<-base64>]
- [B<-A>]
- [B<-k> I<password>]
- [B<-kfile> I<filename>]
- [B<-K> I<key>]
- [B<-iv> I<IV>]
- [B<-S> I<salt>]
- [B<-salt>]
- [B<-nosalt>]
- [B<-z>]
- [B<-md> I<digest>]
- [B<-iter> I<count>]
- [B<-pbkdf2>]
- [B<-p>]
- [B<-P>]
- [B<-bufsize> I<number>]
- [B<-nopad>]
- [B<-v>]
- [B<-debug>]
- [B<-none>]
- {- $OpenSSL::safe::opt_engine_synopsis -}
- {- $OpenSSL::safe::opt_r_synopsis -}
- {- $OpenSSL::safe::opt_provider_synopsis -}
- =for openssl ifdef z engine ciphers
- B<openssl> I<cipher> [B<...>]
- =head1 DESCRIPTION
- The symmetric cipher commands allow data to be encrypted or decrypted
- using various block and stream ciphers using keys based on passwords
- or explicitly provided. Base64 encoding or decoding can also be performed
- either by itself or in addition to the encryption or decryption.
- =head1 OPTIONS
- =over 4
- =item B<-help>
- Print out a usage message.
- =item B<-list>
- List all supported ciphers.
- =item B<-ciphers>
- Alias of -list to display all supported ciphers.
- =item B<-in> I<filename>
- The input filename, standard input by default.
- =item B<-out> I<filename>
- The output filename, standard output by default.
- =item B<-pass> I<arg>
- The password source. For more information about the format of I<arg>
- see L<openssl(1)/Pass Phrase Options>.
- =item B<-e>
- Encrypt the input data: this is the default.
- =item B<-d>
- Decrypt the input data.
- =item B<-a>
- Base64 process the data. This means that if encryption is taking place
- the data is base64 encoded after encryption. If decryption is set then
- the input data is base64 decoded before being decrypted.
- =item B<-base64>
- Same as B<-a>
- =item B<-A>
- If the B<-a> option is set then base64 process the data on one line.
- =item B<-k> I<password>
- The password to derive the key from. This is for compatibility with previous
- versions of OpenSSL. Superseded by the B<-pass> argument.
- =item B<-kfile> I<filename>
- Read the password to derive the key from the first line of I<filename>.
- This is for compatibility with previous versions of OpenSSL. Superseded by
- the B<-pass> argument.
- =item B<-md> I<digest>
- Use the specified digest to create the key from the passphrase.
- The default algorithm is sha-256.
- =item B<-iter> I<count>
- Use a given number of iterations on the password in deriving the encryption key.
- High values increase the time required to brute-force the resulting file.
- This option enables the use of PBKDF2 algorithm to derive the key.
- =item B<-pbkdf2>
- Use PBKDF2 algorithm with default iteration count unless otherwise specified.
- =item B<-nosalt>
- Don't use a salt in the key derivation routines. This option B<SHOULD NOT> be
- used except for test purposes or compatibility with ancient versions of
- OpenSSL.
- =item B<-salt>
- Use salt (randomly generated or provide with B<-S> option) when
- encrypting, this is the default.
- =item B<-S> I<salt>
- The actual salt to use: this must be represented as a string of hex digits.
- =item B<-K> I<key>
- The actual key to use: this must be represented as a string comprised only
- of hex digits. If only the key is specified, the IV must additionally specified
- using the B<-iv> option. When both a key and a password are specified, the
- key given with the B<-K> option will be used and the IV generated from the
- password will be taken. It does not make much sense to specify both key
- and password.
- =item B<-iv> I<IV>
- The actual IV to use: this must be represented as a string comprised only
- of hex digits. When only the key is specified using the B<-K> option, the
- IV must explicitly be defined. When a password is being specified using
- one of the other options, the IV is generated from this password.
- =item B<-p>
- Print out the key and IV used.
- =item B<-P>
- Print out the key and IV used then immediately exit: don't do any encryption
- or decryption.
- =item B<-bufsize> I<number>
- Set the buffer size for I/O.
- =item B<-nopad>
- Disable standard block padding.
- =item B<-v>
- Verbose print; display some statistics about I/O and buffer sizes.
- =item B<-debug>
- Debug the BIOs used for I/O.
- =item B<-z>
- Compress or decompress clear text using zlib before encryption or after
- decryption. This option exists only if OpenSSL with compiled with zlib
- or zlib-dynamic option.
- =item B<-none>
- Use NULL cipher (no encryption or decryption of input).
- {- $OpenSSL::safe::opt_r_item -}
- {- $OpenSSL::safe::opt_provider_item -}
- {- $OpenSSL::safe::opt_engine_item -}
- =back
- =head1 NOTES
- The program can be called either as C<openssl I<cipher>> or
- C<openssl enc -I<cipher>>. The first form doesn't work with
- engine-provided ciphers, because this form is processed before the
- configuration file is read and any ENGINEs loaded.
- Use the L<openssl-list(1)> command to get a list of supported ciphers.
- Engines which provide entirely new encryption algorithms (such as the ccgost
- engine which provides gost89 algorithm) should be configured in the
- configuration file. Engines specified on the command line using B<-engine>
- option can only be used for hardware-assisted implementations of
- ciphers which are supported by the OpenSSL core or another engine specified
- in the configuration file.
- When the enc command lists supported ciphers, ciphers provided by engines,
- specified in the configuration files are listed too.
- A password will be prompted for to derive the key and IV if necessary.
- The B<-salt> option should B<ALWAYS> be used if the key is being derived
- from a password unless you want compatibility with previous versions of
- OpenSSL.
- Without the B<-salt> option it is possible to perform efficient dictionary
- attacks on the password and to attack stream cipher encrypted data. The reason
- for this is that without the salt the same password always generates the same
- encryption key. When the salt is being used the first eight bytes of the
- encrypted data are reserved for the salt: it is generated at random when
- encrypting a file and read from the encrypted file when it is decrypted.
- Some of the ciphers do not have large keys and others have security
- implications if not used correctly. A beginner is advised to just use
- a strong block cipher, such as AES, in CBC mode.
- All the block ciphers normally use PKCS#5 padding, also known as standard
- block padding. This allows a rudimentary integrity or password check to
- be performed. However, since the chance of random data passing the test
- is better than 1 in 256 it isn't a very good test.
- If padding is disabled then the input data must be a multiple of the cipher
- block length.
- All RC2 ciphers have the same key and effective key length.
- Blowfish and RC5 algorithms use a 128 bit key.
- =head1 SUPPORTED CIPHERS
- Note that some of these ciphers can be disabled at compile time
- and some are available only if an appropriate engine is configured
- in the configuration file. The output when invoking this command
- with the B<-ciphers> option (that is C<openssl enc -ciphers>) is
- a list of ciphers, supported by your version of OpenSSL, including
- ones provided by configured engines.
- This command does not support authenticated encryption modes
- like CCM and GCM, and will not support such modes in the future.
- This is due to having to begin streaming output (e.g., to standard output
- when B<-out> is not used) before the authentication tag could be validated.
- When this command is used in a pipeline, the receiving end will not be
- able to roll back upon authentication failure. The AEAD modes currently in
- common use also suffer from catastrophic failure of confidentiality and/or
- integrity upon reuse of key/iv/nonce, and since B<openssl enc> places the
- entire burden of key/iv/nonce management upon the user, the risk of
- exposing AEAD modes is too great to allow. These key/iv/nonce
- management issues also affect other modes currently exposed in this command,
- but the failure modes are less extreme in these cases, and the
- functionality cannot be removed with a stable release branch.
- For bulk encryption of data, whether using authenticated encryption
- modes or other modes, L<openssl-cms(1)> is recommended, as it provides a
- standard data format and performs the needed key/iv/nonce management.
- base64 Base 64
- bf-cbc Blowfish in CBC mode
- bf Alias for bf-cbc
- blowfish Alias for bf-cbc
- bf-cfb Blowfish in CFB mode
- bf-ecb Blowfish in ECB mode
- bf-ofb Blowfish in OFB mode
- cast-cbc CAST in CBC mode
- cast Alias for cast-cbc
- cast5-cbc CAST5 in CBC mode
- cast5-cfb CAST5 in CFB mode
- cast5-ecb CAST5 in ECB mode
- cast5-ofb CAST5 in OFB mode
- chacha20 ChaCha20 algorithm
- des-cbc DES in CBC mode
- des Alias for des-cbc
- des-cfb DES in CFB mode
- des-ofb DES in OFB mode
- des-ecb DES in ECB mode
- des-ede-cbc Two key triple DES EDE in CBC mode
- des-ede Two key triple DES EDE in ECB mode
- des-ede-cfb Two key triple DES EDE in CFB mode
- des-ede-ofb Two key triple DES EDE in OFB mode
- des-ede3-cbc Three key triple DES EDE in CBC mode
- des-ede3 Three key triple DES EDE in ECB mode
- des3 Alias for des-ede3-cbc
- des-ede3-cfb Three key triple DES EDE CFB mode
- des-ede3-ofb Three key triple DES EDE in OFB mode
- desx DESX algorithm.
- gost89 GOST 28147-89 in CFB mode (provided by ccgost engine)
- gost89-cnt GOST 28147-89 in CNT mode (provided by ccgost engine)
- idea-cbc IDEA algorithm in CBC mode
- idea same as idea-cbc
- idea-cfb IDEA in CFB mode
- idea-ecb IDEA in ECB mode
- idea-ofb IDEA in OFB mode
- rc2-cbc 128 bit RC2 in CBC mode
- rc2 Alias for rc2-cbc
- rc2-cfb 128 bit RC2 in CFB mode
- rc2-ecb 128 bit RC2 in ECB mode
- rc2-ofb 128 bit RC2 in OFB mode
- rc2-64-cbc 64 bit RC2 in CBC mode
- rc2-40-cbc 40 bit RC2 in CBC mode
- rc4 128 bit RC4
- rc4-64 64 bit RC4
- rc4-40 40 bit RC4
- rc5-cbc RC5 cipher in CBC mode
- rc5 Alias for rc5-cbc
- rc5-cfb RC5 cipher in CFB mode
- rc5-ecb RC5 cipher in ECB mode
- rc5-ofb RC5 cipher in OFB mode
- seed-cbc SEED cipher in CBC mode
- seed Alias for seed-cbc
- seed-cfb SEED cipher in CFB mode
- seed-ecb SEED cipher in ECB mode
- seed-ofb SEED cipher in OFB mode
- sm4-cbc SM4 cipher in CBC mode
- sm4 Alias for sm4-cbc
- sm4-cfb SM4 cipher in CFB mode
- sm4-ctr SM4 cipher in CTR mode
- sm4-ecb SM4 cipher in ECB mode
- sm4-ofb SM4 cipher in OFB mode
- aes-[128|192|256]-cbc 128/192/256 bit AES in CBC mode
- aes[128|192|256] Alias for aes-[128|192|256]-cbc
- aes-[128|192|256]-cfb 128/192/256 bit AES in 128 bit CFB mode
- aes-[128|192|256]-cfb1 128/192/256 bit AES in 1 bit CFB mode
- aes-[128|192|256]-cfb8 128/192/256 bit AES in 8 bit CFB mode
- aes-[128|192|256]-ctr 128/192/256 bit AES in CTR mode
- aes-[128|192|256]-ecb 128/192/256 bit AES in ECB mode
- aes-[128|192|256]-ofb 128/192/256 bit AES in OFB mode
- aria-[128|192|256]-cbc 128/192/256 bit ARIA in CBC mode
- aria[128|192|256] Alias for aria-[128|192|256]-cbc
- aria-[128|192|256]-cfb 128/192/256 bit ARIA in 128 bit CFB mode
- aria-[128|192|256]-cfb1 128/192/256 bit ARIA in 1 bit CFB mode
- aria-[128|192|256]-cfb8 128/192/256 bit ARIA in 8 bit CFB mode
- aria-[128|192|256]-ctr 128/192/256 bit ARIA in CTR mode
- aria-[128|192|256]-ecb 128/192/256 bit ARIA in ECB mode
- aria-[128|192|256]-ofb 128/192/256 bit ARIA in OFB mode
- camellia-[128|192|256]-cbc 128/192/256 bit Camellia in CBC mode
- camellia[128|192|256] Alias for camellia-[128|192|256]-cbc
- camellia-[128|192|256]-cfb 128/192/256 bit Camellia in 128 bit CFB mode
- camellia-[128|192|256]-cfb1 128/192/256 bit Camellia in 1 bit CFB mode
- camellia-[128|192|256]-cfb8 128/192/256 bit Camellia in 8 bit CFB mode
- camellia-[128|192|256]-ctr 128/192/256 bit Camellia in CTR mode
- camellia-[128|192|256]-ecb 128/192/256 bit Camellia in ECB mode
- camellia-[128|192|256]-ofb 128/192/256 bit Camellia in OFB mode
- =head1 EXAMPLES
- Just base64 encode a binary file:
- openssl base64 -in file.bin -out file.b64
- Decode the same file
- openssl base64 -d -in file.b64 -out file.bin
- Encrypt a file using AES-128 using a prompted password
- and PBKDF2 key derivation:
- openssl enc -aes128 -pbkdf2 -in file.txt -out file.aes128
- Decrypt a file using a supplied password:
- openssl enc -aes128 -pbkdf2 -d -in file.aes128 -out file.txt \
- -pass pass:<password>
- Encrypt a file then base64 encode it (so it can be sent via mail for example)
- using AES-256 in CTR mode and PBKDF2 key derivation:
- openssl enc -aes-256-ctr -pbkdf2 -a -in file.txt -out file.aes256
- Base64 decode a file then decrypt it using a password supplied in a file:
- openssl enc -aes-256-ctr -pbkdf2 -d -a -in file.aes256 -out file.txt \
- -pass file:<passfile>
- =head1 BUGS
- The B<-A> option when used with large files doesn't work properly.
- The B<openssl enc> command only supports a fixed number of algorithms with
- certain parameters. So if, for example, you want to use RC2 with a
- 76 bit key or RC4 with an 84 bit key you can't use this program.
- =head1 HISTORY
- The default digest was changed from MD5 to SHA256 in OpenSSL 1.1.0.
- The B<-list> option was added in OpenSSL 1.1.1e.
- The B<-ciphers> and B<-engine> options were deprecated in OpenSSL 3.0.
- =head1 COPYRIGHT
- Copyright 2000-2020 The OpenSSL Project Authors. All Rights Reserved.
- Licensed under the Apache License 2.0 (the "License"). You may not use
- this file except in compliance with the License. You can obtain a copy
- in the file LICENSE in the source distribution or at
- L<https://www.openssl.org/source/license.html>.
- =cut
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