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163 lines
6.0 KiB
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163 lines
6.0 KiB
Plaintext
dm-crypt
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=========
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Device-Mapper's "crypt" target provides transparent encryption of block devices
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using the kernel crypto API.
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For a more detailed description of supported parameters see:
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https://gitlab.com/cryptsetup/cryptsetup/wikis/DMCrypt
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Parameters: <cipher> <key> <iv_offset> <device path> \
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<offset> [<#opt_params> <opt_params>]
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<cipher>
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Encryption cipher, encryption mode and Initial Vector (IV) generator.
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The cipher specifications format is:
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cipher[:keycount]-chainmode-ivmode[:ivopts]
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Examples:
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aes-cbc-essiv:sha256
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aes-xts-plain64
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serpent-xts-plain64
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Cipher format also supports direct specification with kernel crypt API
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format (selected by capi: prefix). The IV specification is the same
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as for the first format type.
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This format is mainly used for specification of authenticated modes.
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The crypto API cipher specifications format is:
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capi:cipher_api_spec-ivmode[:ivopts]
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Examples:
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capi:cbc(aes)-essiv:sha256
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capi:xts(aes)-plain64
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Examples of authenticated modes:
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capi:gcm(aes)-random
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capi:authenc(hmac(sha256),xts(aes))-random
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capi:rfc7539(chacha20,poly1305)-random
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The /proc/crypto contains a list of curently loaded crypto modes.
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<key>
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Key used for encryption. It is encoded either as a hexadecimal number
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or it can be passed as <key_string> prefixed with single colon
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character (':') for keys residing in kernel keyring service.
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You can only use key sizes that are valid for the selected cipher
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in combination with the selected iv mode.
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Note that for some iv modes the key string can contain additional
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keys (for example IV seed) so the key contains more parts concatenated
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into a single string.
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<key_string>
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The kernel keyring key is identified by string in following format:
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<key_size>:<key_type>:<key_description>.
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<key_size>
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The encryption key size in bytes. The kernel key payload size must match
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the value passed in <key_size>.
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<key_type>
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Either 'logon' or 'user' kernel key type.
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<key_description>
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The kernel keyring key description crypt target should look for
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when loading key of <key_type>.
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<keycount>
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Multi-key compatibility mode. You can define <keycount> keys and
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then sectors are encrypted according to their offsets (sector 0 uses key0;
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sector 1 uses key1 etc.). <keycount> must be a power of two.
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<iv_offset>
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The IV offset is a sector count that is added to the sector number
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before creating the IV.
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<device path>
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This is the device that is going to be used as backend and contains the
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encrypted data. You can specify it as a path like /dev/xxx or a device
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number <major>:<minor>.
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<offset>
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Starting sector within the device where the encrypted data begins.
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<#opt_params>
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Number of optional parameters. If there are no optional parameters,
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the optional paramaters section can be skipped or #opt_params can be zero.
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Otherwise #opt_params is the number of following arguments.
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Example of optional parameters section:
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3 allow_discards same_cpu_crypt submit_from_crypt_cpus
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allow_discards
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Block discard requests (a.k.a. TRIM) are passed through the crypt device.
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The default is to ignore discard requests.
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WARNING: Assess the specific security risks carefully before enabling this
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option. For example, allowing discards on encrypted devices may lead to
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the leak of information about the ciphertext device (filesystem type,
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used space etc.) if the discarded blocks can be located easily on the
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device later.
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same_cpu_crypt
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Perform encryption using the same cpu that IO was submitted on.
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The default is to use an unbound workqueue so that encryption work
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is automatically balanced between available CPUs.
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submit_from_crypt_cpus
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Disable offloading writes to a separate thread after encryption.
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There are some situations where offloading write bios from the
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encryption threads to a single thread degrades performance
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significantly. The default is to offload write bios to the same
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thread because it benefits CFQ to have writes submitted using the
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same context.
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integrity:<bytes>:<type>
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The device requires additional <bytes> metadata per-sector stored
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in per-bio integrity structure. This metadata must by provided
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by underlying dm-integrity target.
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The <type> can be "none" if metadata is used only for persistent IV.
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For Authenticated Encryption with Additional Data (AEAD)
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the <type> is "aead". An AEAD mode additionally calculates and verifies
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integrity for the encrypted device. The additional space is then
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used for storing authentication tag (and persistent IV if needed).
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sector_size:<bytes>
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Use <bytes> as the encryption unit instead of 512 bytes sectors.
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This option can be in range 512 - 4096 bytes and must be power of two.
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Virtual device will announce this size as a minimal IO and logical sector.
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iv_large_sectors
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IV generators will use sector number counted in <sector_size> units
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instead of default 512 bytes sectors.
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For example, if <sector_size> is 4096 bytes, plain64 IV for the second
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sector will be 8 (without flag) and 1 if iv_large_sectors is present.
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The <iv_offset> must be multiple of <sector_size> (in 512 bytes units)
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if this flag is specified.
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Example scripts
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===============
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LUKS (Linux Unified Key Setup) is now the preferred way to set up disk
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encryption with dm-crypt using the 'cryptsetup' utility, see
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https://gitlab.com/cryptsetup/cryptsetup
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[[
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#!/bin/sh
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# Create a crypt device using dmsetup
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dmsetup create crypt1 --table "0 `blockdev --getsz $1` crypt aes-cbc-essiv:sha256 babebabebabebabebabebabebabebabe 0 $1 0"
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]]
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[[
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#!/bin/sh
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# Create a crypt device using dmsetup when encryption key is stored in keyring service
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dmsetup create crypt2 --table "0 `blockdev --getsize $1` crypt aes-cbc-essiv:sha256 :32:logon:my_prefix:my_key 0 $1 0"
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]]
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[[
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#!/bin/sh
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# Create a crypt device using cryptsetup and LUKS header with default cipher
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cryptsetup luksFormat $1
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cryptsetup luksOpen $1 crypt1
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]]
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