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SYSTEMD-CRYPTENROLL(1) systemd-cryptenroll SYSTEMD-CRYPTENROLL(1)

NAME

systemd-cryptenroll - Enroll PKCS#11, FIDO2, TPM2 token/devices to LUKS2 encrypted volumes

SYNOPSIS

systemd-cryptenroll [OPTIONS...] [DEVICE]

DESCRIPTION

systemd-cryptenroll is a tool for enrolling hardware security tokens and devices into a LUKS2 encrypted volume, which may then be used to unlock the volume during boot. Specifically, it supports tokens and credentials of the following kind to be enrolled:

1.PKCS#11 security tokens and smartcards that may carry an RSA key pair (e.g. various YubiKeys)

2.FIDO2 security tokens that implement the "hmac-secret" extension (most FIDO2 keys, including YubiKeys)

3.TPM2 security devices

4.Regular passphrases

5.Recovery keys. These are similar to regular passphrases, however are randomly generated on the computer and thus generally have higher entropy than user-chosen passphrases. Their character set has been designed to ensure they are easy to type in, while having high entropy. They may also be scanned off screen using QR codes. Recovery keys may be used for unlocking LUKS2 volumes wherever passphrases are accepted. They are intended to be used in combination with an enrolled hardware security token, as a recovery option when the token is lost.

In addition, the tool may be used to enumerate currently enrolled security tokens and wipe a subset of them. The latter may be combined with the enrollment operation of a new security token, in order to update or replace enrollments.

The tool supports only LUKS2 volumes, as it stores token meta-information in the LUKS2 JSON token area, which is not available in other encryption formats.

TPM2 PCRs and policies

PCRs allow binding of the encryption of secrets to specific software versions and system state, so that the enrolled key is only accessible (may be "unsealed") if specific trusted software and/or configuration is used. Such bindings may be created with the option --tpm2-pcrs= described below.

Secrets may also be bound indirectly: a signed policy for a state of some combination of PCR values is provided, and the secret is bound to the public part of the key used to sign this policy. This means that the owner of a key can generate a sequence of signed policies, for specific software versions and system states, and the secret can be decrypted as long as the machine state matches one of those policies. For example, a vendor may provide such a policy for each kernel+initrd update, allowing users to encrypt secrets so that they can be decrypted when running any kernel+initrd signed by the vendor. Such bindings may be created with the options --tpm2-public-key=, --tpm2-public-key-pcrs=, --tpm2-signature= described below.

See Linux TPM PCR Registry[1] for an authoritative list of PCRs and how they are updated. The table below contains a quick reference, describing in particular the PCRs modified by systemd.

Table 1. Well-known PCR Definitions

PCR name Explanation
0 platform-code Core system firmware executable code; changes on firmware updates
1 platform-config Core system firmware data/host platform configuration; typically contains serial and model numbers, changes on basic hardware/CPU/RAM replacements
2 external-code Extended or pluggable executable code; includes option ROMs on pluggable hardware
3 external-config Extended or pluggable firmware data; includes information about pluggable hardware
4 boot-loader-code Boot loader and additional drivers, PE binaries invoked by the boot loader; changes on boot loader updates. sd-stub(7) measures system extension images read from the ESP here too (see systemd-sysext(8)).
5 boot-loader-config GPT/Partition table; changes when the partitions are added, modified, or removed
7 secure-boot-policy Secure Boot state; changes when UEFI SecureBoot mode is enabled/disabled, or firmware certificates (PK, KEK, db, dbx, ...) changes.
9 kernel-initrd The Linux kernel measures all initrds it receives into this PCR.
10 ima The IMA project measures its runtime state into this PCR.
11 kernel-boot systemd-stub(7) measures the ELF kernel image, embedded initrd and other payload of the PE image it is placed in into this PCR. systemd-pcrphase.service(8) measures boot phase strings into this PCR at various milestones of the boot process.
12 kernel-config systemd-boot(7) measures the kernel command line into this PCR. systemd-stub(7) measures any manually specified kernel command line (i.e. a kernel command line that overrides the one embedded in the unified PE image) and loaded credentials into this PCR.
13 sysexts systemd-stub(7) measures any systemd-sysext(8) images it passes to the booted kernel into this PCR.
14 shim-policy The shim project measures its "MOK" certificates and hashes into this PCR.
15 system-identity systemd-cryptsetup(8) optionally measures the volume key of activated LUKS volumes into this PCR. systemd-pcrmachine.service(8) measures the machine-id(5) into this PCR. systemd-pcrfs@.service(8) measures mount points, file system UUIDs, labels, partition UUIDs of the root and /var/ filesystems into this PCR.
16 debug Debug
23 application-support Application Support

In general, encrypted volumes would be bound to some combination of PCRs 7, 11, and 14 (if shim/MOK is used). In order to allow firmware and OS version updates, it is typically not advisable to use PCRs such as 0 and 2, since the program code they cover should already be covered indirectly through the certificates measured into PCR 7. Validation through certificates hashes is typically preferable over validation through direct measurements as it is less brittle in context of OS/firmware updates: the measurements will change on every update, but signatures should remain unchanged. See the
Linux TPM PCR Registry[1] for more discussion.

LIMITATIONS

Note that currently when enrolling a new key of one of the five supported types listed above, it is required to first provide a passphrase, a recovery key or a FIDO2 token. It's currently not supported to unlock a device with a TPM2/PKCS#11 key in order to enroll a new TPM2/PKCS#11 key. Thus, if in future key roll-over is desired it's generally recommended to ensure a passphrase, a recovery key or a FIDO2 token is always enrolled.

Also note that support for enrolling multiple FIDO2 tokens is currently limited. When multiple FIDO2 tokens are enrolled, systemd-cryptseup will perform pre-flight requests to attempt to identify which of the enrolled tokens are currently plugged in. However, this is not possible for FIDO2 tokens with user verification (UV, usually via biometrics), in which case it will fall back to attempting each enrolled token one by one. This will result in multiple prompts for PIN and user verification. This limitation does not apply to PKCS#11 tokens.

COMPATIBILITY

Security technology both in systemd and in the general industry constantly evolves. In order to provide best security guarantees, the way TPM2, FIDO2, PKCS#11 devices are enrolled is regularly updated in newer versions of systemd. Whenever this happens the following compatibility guarantees are given:

•Old enrollments continue to be supported and may be unlocked with newer versions of systemd-cryptsetup@.service(8).

•The opposite is not guaranteed however: it might not be possible to unlock volumes with enrollments done with a newer version of systemd-cryptenroll with an older version of systemd-cryptsetup.

That said, it is generally recommended to use matching versions of systemd-cryptenroll and systemd-cryptsetup, since this is best tested and supported.

It might be advisable to re-enroll existing enrollments to take benefit of newer security features, as they are added to systemd.

OPTIONS

The following options are understood:

--password

Enroll a regular password/passphrase. This command is mostly equivalent to cryptsetup luksAddKey, however may be combined with --wipe-slot= in one call, see below.

--recovery-key

Enroll a recovery key. Recovery keys are mostly identical to passphrases, but are computer-generated instead of being chosen by a human, and thus have a guaranteed high entropy. The key uses a character set that is easy to type in, and may be scanned off screen via a QR code.

--unlock-key-file=PATH

Use a file instead of a password/passphrase read from stdin to unlock the volume. Expects the PATH to the file containing your key to unlock the volume. Currently there is nothing like --key-file-offset= or --key-file-size= so this file has to only contain the full key.

--unlock-fido2-device=PATH

Use a FIDO2 device instead of a password/passphrase read from stdin to unlock the volume. Expects a hidraw device referring to the FIDO2 device (e.g. /dev/hidraw1). Alternatively the special value "auto" may be specified, in order to automatically determine the device node of a currently plugged in security token (of which there must be exactly one). This automatic discovery is unsupported if --fido2-device= option is also specified.

--pkcs11-token-uri=URI

Enroll a PKCS#11 security token or smartcard (e.g. a YubiKey). Expects a PKCS#11 smartcard URI referring to the token. Alternatively the special value "auto" may be specified, in order to automatically determine the URI of a currently plugged in security token (of which there must be exactly one). The special value "list" may be used to enumerate all suitable PKCS#11 tokens currently plugged in. The security token must contain an RSA key pair which is used to encrypt the randomly generated key that is used to unlock the LUKS2 volume. The encrypted key is then stored in the LUKS2 JSON token header area.

In order to unlock a LUKS2 volume with an enrolled PKCS#11 security token, specify the pkcs11-uri= option in the respective /etc/crypttab line:

myvolume /dev/sda1 - pkcs11-uri=auto

See crypttab(5) for a more comprehensive example of a systemd-cryptenroll invocation and its matching /etc/crypttab line.

--fido2-credential-algorithm=STRING

Specify COSE algorithm used in credential generation. The default value is "es256". Supported values are "es256", "rs256" and "eddsa".

"es256" denotes ECDSA over NIST P-256 with SHA-256. "rs256" denotes 2048-bit RSA with PKCS#1.5 padding and SHA-256. "eddsa" denotes EDDSA over Curve25519 with SHA-512.

Note that your authenticator may not support some algorithms.

--fido2-device=PATH

Enroll a FIDO2 security token that implements the "hmac-secret" extension (e.g. a YubiKey). Expects a hidraw device referring to the FIDO2 device (e.g. /dev/hidraw1). Alternatively the special value "auto" may be specified, in order to automatically determine the device node of a currently plugged in security token (of which there must be exactly one). This automatic discovery is unsupported if --unlock-fido2-device= option is also specified. The special value "list" may be used to enumerate all suitable FIDO2 tokens currently plugged in. Note that many hardware security tokens that implement FIDO2 also implement the older PKCS#11 standard. Typically FIDO2 is preferable, given it's simpler to use and more modern.

In order to unlock a LUKS2 volume with an enrolled FIDO2 security token, specify the fido2-device= option in the respective /etc/crypttab line:

myvolume /dev/sda1 - fido2-device=auto

See crypttab(5) for a more comprehensive example of a systemd-cryptenroll invocation and its matching /etc/crypttab line.

--fido2-with-client-pin=BOOL

When enrolling a FIDO2 security token, controls whether to require the user to enter a PIN when unlocking the volume (the FIDO2 "clientPin" feature). Defaults to "yes". (Note: this setting is without effect if the security token does not support the "clientPin" feature at all, or does not allow enabling or disabling it.)

--fido2-with-user-presence=BOOL

When enrolling a FIDO2 security token, controls whether to require the user to verify presence (tap the token, the FIDO2 "up" feature) when unlocking the volume. Defaults to "yes". (Note: this setting is without effect if the security token does not support the "up" feature at all, or does not allow enabling or disabling it.)

--fido2-with-user-verification=BOOL

When enrolling a FIDO2 security token, controls whether to require user verification when unlocking the volume (the FIDO2 "uv" feature). Defaults to "no". (Note: this setting is without effect if the security token does not support the "uv" feature at all, or does not allow enabling or disabling it.)

--tpm2-device=PATH

Enroll a TPM2 security chip. Expects a device node path referring to the TPM2 chip (e.g. /dev/tpmrm0). Alternatively the special value "auto" may be specified, in order to automatically determine the device node of a currently discovered TPM2 device (of which there must be exactly one). The special value "list" may be used to enumerate all suitable TPM2 devices currently discovered.

In order to unlock a LUKS2 volume with an enrolled TPM2 security chip, specify the tpm2-device= option in the respective /etc/crypttab line:

myvolume /dev/sda1 - tpm2-device=auto

See crypttab(5) for a more comprehensive example of a systemd-cryptenroll invocation and its matching /etc/crypttab line.

Use --tpm2-pcrs= (see below) to configure which TPM2 PCR indexes to bind the enrollment to.

--tpm2-pcrs= [PCR...]

Configures the TPM2 PCRs (Platform Configuration Registers) to bind to when enrollment is requested via --tpm2-device=. Takes a list of PCR names or numeric indices in the range 0...23. Multiple PCR indexes are separated by "+". If not specified, the default is to use PCR 7 only. If an empty string is specified, binds the enrollment to no PCRs at all. See the table above for a list of available PCRs.

Example: --tpm2-pcrs=boot-loader-code+platform-config+boot-loader-config specifies that PCR registers 4, 1, and 5 should be used.

--tpm2-with-pin=BOOL

When enrolling a TPM2 device, controls whether to require the user to enter a PIN when unlocking the volume in addition to PCR binding, based on TPM2 policy authentication. Defaults to "no". Despite being called PIN, any character can be used, not just numbers.

Note that incorrect PIN entry when unlocking increments the TPM dictionary attack lockout mechanism, and may lock out users for a prolonged time, depending on its configuration. The lockout mechanism is a global property of the TPM, systemd-cryptenroll does not control or configure the lockout mechanism. You may use tpm2-tss tools to inspect or configure the dictionary attack lockout, with tpm2_getcap(1) and tpm2_dictionarylockout(1) commands, respectively.

--tpm2-public-key= [PATH], --tpm2-public-key-pcrs= [PCR...], --tpm2-signature= [PATH]

Configures a TPM2 signed PCR policy to bind encryption to. The --tpm2-public-key= option accepts a path to a PEM encoded RSA public key, to bind the encryption to. If this is not specified explicitly, but a file tpm2-pcr-public-key.pem exists in one of the directories /etc/systemd/, /run/systemd/, /usr/lib/systemd/ (searched in this order), it is automatically used. The --tpm2-public-key-pcrs= option takes a list of TPM2 PCR indexes to bind to (same syntax as --tpm2-pcrs= described above). If not specified defaults to 11 (i.e. this binds the policy to any unified kernel image for which a PCR signature can be provided).

Note the difference between --tpm2-pcrs= and --tpm2-public-key-pcrs=: the former binds decryption to the current, specific PCR values; the latter binds decryption to any set of PCR values for which a signature by the specified public key can be provided. The latter is hence more useful in scenarios where software updates shell be possible without losing access to all previously encrypted LUKS2 volumes. Like with --tpm2-pcrs=, names defined in the table above can also be used to specify the registers, for instance --tpm2-public-key-pcrs=boot-loader-code+system-identity.

The --tpm2-signature= option takes a path to a TPM2 PCR signature file as generated by the systemd-measure(1) tool. If this is not specified explicitly, a suitable signature file tpm2-pcr-signature.json is searched for in /etc/systemd/, /run/systemd/, /usr/lib/systemd/ (in this order) and used. If a signature file is specified or found it is used to verify if the volume can be unlocked with it given the current PCR state, before the new slot is written to disk. This is intended as safety net to ensure that access to a volume is not lost if a public key is enrolled for which no valid signature for the current PCR state is available. If the supplied signature does not unlock the current PCR state and public key combination, no slot is enrolled and the operation will fail. If no signature file is specified or found no such safety verification is done.

--wipe-slot= [SLOT...]

Wipes one or more LUKS2 key slots. Takes a comma separated list of numeric slot indexes, or the special strings "all" (for wiping all key slots), "empty" (for wiping all key slots that are unlocked by an empty passphrase), "password" (for wiping all key slots that are unlocked by a traditional passphrase), "recovery" (for wiping all key slots that are unlocked by a recovery key), "pkcs11" (for wiping all key slots that are unlocked by a PKCS#11 token), "fido2" (for wiping all key slots that are unlocked by a FIDO2 token), "tpm2" (for wiping all key slots that are unlocked by a TPM2 chip), or any combination of these strings or numeric indexes, in which case all slots matching either are wiped. As safety precaution an operation that wipes all slots without exception (so that the volume cannot be unlocked at all anymore, unless the volume key is known) is refused.

This switch may be used alone, in which case only the requested wipe operation is executed. It may also be used in combination with any of the enrollment options listed above, in which case the enrollment is completed first, and only when successful the wipe operation executed — and the newly added slot is always excluded from the wiping. Combining enrollment and slot wiping may thus be used to update existing enrollments:

systemd-cryptenroll /dev/sda1 --wipe-slot=tpm2 --tpm2-device=auto

The above command will enroll the TPM2 chip, and then wipe all previously created TPM2 enrollments on the LUKS2 volume, leaving only the newly created one. Combining wiping and enrollment may also be used to replace enrollments of different types, for example for changing from a PKCS#11 enrollment to a FIDO2 one:

systemd-cryptenroll /dev/sda1 --wipe-slot=pkcs11 --fido2-device=auto

Or for replacing an enrolled empty password by TPM2:

systemd-cryptenroll /dev/sda1 --wipe-slot=empty --tpm2-device=auto

-h, --help

Print a short help text and exit.

--version

Print a short version string and exit.

EXIT STATUS

On success, 0 is returned, a non-zero failure code otherwise.

EXAMPLES

crypttab(5) and systemd-measure(1) contain various examples employing systemd-cryptenroll.

SEE ALSO

systemd(1), systemd-cryptsetup@.service(8), crypttab(5), cryptsetup(8), systemd-measure(1)

NOTES

1.
Linux TPM PCR Registry
systemd 254