ukify systemd ukify 1 ukify Combine components into a signed Unified Kernel Image for UEFI systems ukify OPTIONS build ukify OPTIONS genkey ukify OPTIONS inspect FILE Description ukify is a tool whose primary purpose is to combine components (usually a kernel, an initrd, and a UEFI boot stub) to create a Unified Kernel Image (UKI) — a PE binary that can be executed by the firmware to start the embedded linux kernel. See systemd-stub7 for details about the stub. Commands The following commands are understood: <command>build</command> This command creates a Unified Kernel Image. The two primary options that should be specified for the build verb are Linux=/, and Initrd=/. Initrd= accepts multiple whitespace-separated paths and can be specified multiple times. Additional sections will be inserted into the UKI, either automatically or only if a specific option is provided. See the discussions of Microcode=/, Cmdline=/, OSRelease=/, DeviceTree=/, DeviceTreeAuto=/, HWIDs=/, Splash=/, PCRPKey=/, Uname=/, SBAT=/, and below. ukify can also be used to assemble a PE binary that is not executable but contains auxiliary data, for example additional kernel command line entries. If PCR signing keys are provided via the PCRPrivateKey=/ and PCRPublicKey=/ options, PCR values that will be seen after booting with the given kernel, initrd, and other sections, will be calculated, signed, and embedded in the UKI. systemd-measure1 is used to perform this calculation and signing. The calculation of PCR values is done for specific boot phase paths. Those can be specified with the Phases=/ option. If not specified, the default provided by systemd-measure is used. It is also possible to specify the PCRPrivateKey=/, PCRPublicKey=/, and Phases=/ arguments more than once. Signatures will then be performed with each of the specified keys. On the command line, when both and are used, they must be specified the same number of times, and then the n-th boot phase path set will be signed by the n-th key. This can be used to build different trust policies for different phases of the boot. In the config file, PCRPrivateKey=, PCRPublicKey=, and Phases= are grouped into separate sections, describing separate boot phases. If one of SigningEngine=/ or SigningProvider=/ is specified, then the private key arguments will be passed verbatim to OpenSSL as URIs, and the public key arguments will be loaded as X.509 certificates, so that signing can be performed with an OpenSSL engine or provider respectively. If a SecureBoot signing key is provided via the SecureBootPrivateKey=/ option, the resulting PE binary will be signed as a whole, allowing the resulting UKI to be trusted by SecureBoot. Also see the discussion of automatic enrollment in systemd-boot7. If the stub and/or the kernel contain .sbat sections they will be merged in the UKI so that revocation updates affecting either are considered when the UKI is loaded by Shim. For more information on SBAT see Shim documentation. <command>genkey</command> This command creates the keys for PCR signing and the key and certificate used for SecureBoot signing. The same configuration options that determine what keys and in which paths will be needed for signing when build is used, here determine which keys will be created. See the discussion of PCRPrivateKey=/, PCRPublicKey=/, and SecureBootPrivateKey=/ below. The output files must not exist. <command>inspect</command> Display information about the sections in a given binary or binaries. If is given, all sections are shown. Otherwise, if option is specified at least once, only those sections are shown. Otherwise, well-known sections that are typically included in an UKI are shown. For each section, its name, size, and sha256-digest is printed. For text sections, the contents are printed. Also see the description of / and . Other tools that may be useful for inspect UKIs: llvm-objdump1 and pe-inspect. Configuration settings Settings can appear in configuration files (the syntax with SomeSetting=value) and on the command line (the syntax with ). For some command line parameters, a single-letter shortcut is also allowed. In the configuration files, the setting must be in the appropriate section, so the descriptions are grouped by section below. When the same setting appears in the configuration file and on the command line, generally the command line setting has higher priority and overwrites the config file setting completely. If some setting behaves differently, this is described below. If no config file is provided via the option , ukify will try to look for a default configuration file in the following paths in this order: /etc/systemd/ukify.conf, /run/systemd/ukify.conf, /usr/local/lib/systemd/ukify.conf, and /usr/lib/systemd/ukify.conf, and then load the first one found. ukify will proceed normally if no configuration file is specified and no default one is found. The LINUX and INITRD positional arguments, or the equivalent Linux= and Initrd= settings, are optional. If more than one initrd is specified, they will all be combined into a single PE section. This is useful to, for example, prepend microcode before the actual initrd. The following options and settings are understood: Command line-only options Load configuration from the given config file. In general, settings specified in the config file have lower precedence than the settings specified via options. In cases where the command line option does not fully override the config file setting are explicitly mentioned in the descriptions of individual options. Enable or disable a call to systemd-measure1 to print pre-calculated PCR values. Defaults to false. For all verbs except inspect, the first syntax is used. Specify an arbitrary additional section NAME. The argument may be a literal string, or @ followed by a path name. This option may be specified more than once. Any sections specified in this fashion will be inserted (in order) before the .linux section which is always last. For the inspect verb, the second syntax is used. The section NAME will be inspected (if found). If the second argument is text, the contents will be printed. If the third argument is given, the contents will be saved to the file named PATH. Note that the name is used as-is, and if the section name should start with a dot, it must be included in NAME. Takes a path to an existing PE file containing an additional profile to add to the unified kernel image. The profile can be generated beforehand with ukify. The profile does not need to be signed or contain PCR measurements. All UKI PE sections of the specified PE file are copied into the generated UKI. This is useful for generating multi-profile UKIs. Note that this only copies PE sections that are defined by the UKI specification, and ignores any other, for example .text or similar. Specify one or more directories with helper tools. ukify will look for helper tools in those directories first, and if not found, try to load them from $PATH in the usual fashion. The output filename. If not specified, the name of the LINUX argument, with the suffix .unsigned.efi or .signed.efi will be used, depending on whether signing for SecureBoot was performed. Print a summary of loaded config and exit. This is useful to check how the options from the configuration file and the command line are combined. Print all sections (with inspect verb). Generate JSON output (with inspect verb). [UKI] section Linux=LINUX A path to the kernel binary. OSRelease=TEXT|@PATH The os-release description (the .osrel section). The argument may be a literal string, or @ followed by a path name. If not specified, the os-release5 file will be picked up from the host system. Cmdline=TEXT|@PATH The kernel command line (the .cmdline section). The argument may be a literal string, or @ followed by a path name. If not specified, no command line will be embedded. Initrd=INITRD... Zero or more initrd paths. In the configuration file, items are separated by whitespace. The initrds are combined in the order of specification, with the initrds specified in the config file first. Microcode=UCODE Path to initrd containing microcode updates. If not specified, the section will not be present. Splash=PATH A picture to display during boot (the .splash section). The argument is a path to a BMP file. If not specified, the section will not be present. DeviceTree=PATH The devicetree description (the .dtb section). The argument is a path to a compiled binary DeviceTree file. If not specified, the section will not be present. DeviceTreeAuto=PATH... Zero or more automatically selectable DeviceTree files. In the configuration file, items are separated by whitespace. Each DeviceTree will be in a separate .dtbauto section. HWIDs=PATH The hardware ID device table (the .hwids section). The argument is a path to a directory with JSON HWID device description files. Each file needs to contain a single JSON object with a name, compatible and hwids keys. The name and compatible keys must have string values and the hwids key must have a list of strings as value, where the strings must be valid UUIDs that represent CHIDs/HWIDs. Example: Here Example Laptop 16 Gen 7 is the device name (as defined by the manufacturer), example,laptop-16-g7 is the compatible (as defined by the kernel) and hwids is an array of CHIDs/HWIDs (extracted i.e. from fwupdtool hwids output). If not specified, the section will not be present. It is recommended to specify this parameter if automatically selectable DeviceTrees are to be used. Uname=VERSION Specify the kernel version (as in uname -r, the .uname section). If not specified, an attempt will be made to extract the version string from the kernel image. It is recommended to pass this explicitly if known, because the extraction is based on heuristics and not very reliable. If not specified and extraction fails, the section will not be present. SBAT=TEXT|@PATH SBAT metadata associated with the UKI or addon. SBAT policies are useful to revoke whole groups of UKIs or addons with a single, static policy update that does not take space in DBX/MOKX. If not specified manually, a default metadata entry consisting of uki,1,UKI,uki,1,https://uapi-group.org/specifications/specs/unified_kernel_image/ for UKIs and uki-addon,1,UKI Addon,addon,1,https://www.freedesktop.org/software/systemd/man/latest/systemd-stub.html for addons will be used, to ensure it is always possible to revoke them. For more information on SBAT see Shim documentation. PCRPKey=PATH A path to a public key to embed in the .pcrpkey section. If not specified, and there's exactly one PCRPublicKey=/ argument, that key will be used. Otherwise, the section will not be present. Profile=PATH A path to a UKI profile to place in an .profile section. This option is useful for creating multi-profile UKIs, and is typically used in combination with , to extend the specified UKI with an additional profile. PCRBanks=PATH A comma or space-separated list of PCR banks to sign a policy for. If not present, all known banks will be used (sha1, sha256, sha384, sha512), which will fail if not supported by the system. SecureBootSigningTool=SIGNER Whether to use sbsign, pesign, or systemd-sbsign. Depending on this choice, different parameters are required in order to sign an image. Defaults to sbsign. SecureBootPrivateKey=SB_KEY A path to a private key to use for signing of the resulting binary. If the SigningEngine=/ or SigningProvider=/ option is used, this may also be an engine or provider specific designation. This option is required by SecureBootSigningTool=sbsign/. SecureBootCertificate=SB_CERT A path to a certificate to use for signing of the resulting binary. If the SigningEngine=/ or SigningProvider=/ option is used, this may also be an engine or provider specific designation. This option is required by SecureBootSigningTool=sbsign/. SecureBootCertificateDir=SB_PATH A path to a nss certificate database directory to use for signing of the resulting binary. Takes effect when SecureBootSigningTool=pesign/ is used. Defaults to /etc/pki/pesign. SecureBootCertificateName=SB_CERTNAME The name of the nss certificate database entry to use for signing of the resulting binary. This option is required by SecureBootSigningTool=pesign/. SecureBootCertificateValidity=DAYS Period of validity (in days) for a certificate created by genkey. Defaults to 3650, i.e. 10 years. SigningEngine=ENGINE An OpenSSL engine to be used for signing the resulting binary and PCR measurements. SigningProvider=PROVIDER An OpenSSL provider to be used for signing the resulting binary and PCR measurements. This option can only be used when using systemd-sbsign as the signing tool. CertificateProvider=PROVIDER An OpenSSL provider to be used for loading the certificate used to sign the resulting binary and PCR measurements. This option can only be used when using systemd-sbsign as the signing tool. SignKernel=BOOL Override the detection of whether to sign the Linux binary itself before it is embedded in the combined image. If not specified, it will be signed if a SecureBoot signing key is provided via the SecureBootPrivateKey=/ option and the binary has not already been signed. If SignKernel=/ is true, and the binary has already been signed, the signature will be appended anyway. [PCRSignature:<replaceable>NAME</replaceable>] section In the config file, those options are grouped by section. On the command line, they must be specified in the same order. The sections specified in both sources are combined. PCRPrivateKey=PATH A private key to use for signing PCR policies. On the command line, this option may be specified more than once, in which case multiple signatures will be made. PCRPublicKey=PATH A public key to use for signing PCR policies. On the command line, this option may be specified more than once, similarly to the option. If not present, the public keys will be extracted from the private keys. On the command line, if present, this option must be specified the same number of times as the option. Phases=LIST A comma or space-separated list of colon-separated phase paths to sign a policy for. Each set of boot phase paths will be signed with the corresponding private key. If not present, the default of systemd-measure1 will be used. On the command line, when this argument is present, it must appear the same number of times as the option. Examples Minimal invocation $ ukify build \ --linux=/lib/modules/6.0.9-300.fc37.x86_64/vmlinuz \ --initrd=/some/path/initramfs-6.0.9-300.fc37.x86_64.img \ --cmdline='quiet rw' This creates an unsigned UKI ./vmlinuz.unsigned.efi. All the bells and whistles $ ukify build \ --linux=/lib/modules/6.0.9-300.fc37.x86_64/vmlinuz \ --initrd=early_cpio \ --initrd=/some/path/initramfs-6.0.9-300.fc37.x86_64.img \ --sbat='sbat,1,SBAT Version,sbat,1,https://github.com/rhboot/shim/blob/main/SBAT.md uki.author.myimage,1,UKI for System,uki.author.myimage,1,https://uapi-group.org/specifications/specs/unified_kernel_image/' \ --pcr-private-key=tpm2-pcr-private-key-initrd.pem \ --pcr-public-key=tpm2-pcr-public-key-initrd.pem \ --phases='enter-initrd' \ --pcr-private-key=tpm2-pcr-private-key-system.pem \ --pcr-public-key=tpm2-pcr-public-key-system.pem \ --phases='enter-initrd:leave-initrd enter-initrd:leave-initrd:sysinit \ enter-initrd:leave-initrd:sysinit:ready' \ --pcr-banks=sha384,sha512 \ --secureboot-private-key=sb.key \ --secureboot-certificate=sb.cert \ --sign-kernel \ --cmdline='quiet rw rhgb' This creates a signed UKI ./vmlinuz.signed.efi. The initrd section contains two concatenated parts, early_cpio and initramfs-6.0.9-300.fc37.x86_64.img. The policy embedded in the .pcrsig section will be signed for the initrd (the enter-initrd phase) with the key tpm2-pcr-private-key-initrd.pem, and for the main system (phases leave-initrd, sysinit, ready) with the key tpm2-pcr-private-key-system.pem. The Linux binary and the resulting combined image will be signed with the SecureBoot key sb.key. All the bells and whistles, via a config file This is the same as the previous example, but this time the configuration is stored in a file: $ cat ukify.conf [UKI] Initrd=early_cpio Cmdline=quiet rw rhgb SecureBootPrivateKey=secure-boot-key.pem SecureBootCertificate=secure-boot-certificate.pem SignKernel=yes PCRBanks=sha384,sha512 [PCRSignature:initrd] PCRPrivateKey=tpm2-pcr-private-key-initrd.pem PCRPublicKey=tpm2-pcr-public-key-initrd.pem Phases=enter-initrd [PCRSignature:system] PCRPrivateKey=tpm2-pcr-private-key-system.pem PCRPublicKey=tpm2-pcr-public-key-system.pem Phases=enter-initrd:leave-initrd enter-initrd:leave-initrd:sysinit enter-initrd:leave-initrd:sysinit:ready $ ukify -c ukify.conf build \ --linux=/lib/modules/6.0.9-300.fc37.x86_64/vmlinuz \ --initrd=/some/path/initramfs-6.0.9-300.fc37.x86_64.img One "initrd" (early_cpio) is specified in the config file, and the other initrd (initramfs-6.0.9-300.fc37.x86_64.img) is specified on the command line. This may be useful for example when the first initrd contains microcode for the CPU and does not need to be updated when the kernel version changes, unlike the actual initrd. Kernel command line PE addon ukify build \ --secureboot-private-key=secure-boot-key.pem \ --secureboot-certificate=secure-boot-certificate.pem \ --cmdline='debug' \ --sbat='sbat,1,SBAT Version,sbat,1,https://github.com/rhboot/shim/blob/main/SBAT.md uki-addon.author,1,UKI Addon for System,uki-addon.author,1,https://www.freedesktop.org/software/systemd/man/systemd-stub.html' --output=debug.addon.efi This creates a signed PE binary that contains the additional kernel command line parameter debug with SBAT metadata referring to the owner of the addon. Decide signing policy, and create certificate and keys First, let's create a configuration file that specifies what signatures shall be made: # cat >/etc/kernel/uki.conf <<EOF EOF Next, we can generate the certificate and keys: # ukify genkey --config=/etc/kernel/uki.conf Writing SecureBoot private key to /etc/kernel/secure-boot-key.pem Writing SecureBoot certificate to /etc/kernel/secure-boot-certificate.pem Writing private key for PCR signing to /etc/systemd/tpm2-pcr-private-key-initrd.pem Writing public key for PCR signing to /etc/systemd/tpm2-pcr-public-key-initrd.pem Writing private key for PCR signing to /etc/systemd/tpm2-pcr-private-key-system.pem Writing public key for PCR signing to /etc/systemd/tpm2-pcr-public-key-system.pem (Both operations need to be done as root to allow write access to /etc/kernel/.) Subsequent invocations using the config file (ukify build --config=/etc/kernel/uki.conf) will use this certificate and key files. Note that the kernel-install8 plugin 60-ukify.install uses /etc/kernel/uki.conf by default, so after this file has been created, installations of kernels that create a UKI on the local machine using kernel-install will perform signing using this config. Multi-Profile UKI First, create a few profiles: $ ukify build \ --profile='TITLE=Base' \ --output=profile0.efi Add a second profile (@1): $ ukify build \ --profile='TITLE=Boot into Storage Target Mode ID=storagetm' \ --cmdline='quiet rw rd.systemd.unit=stroage-target-mode.target' \ --output=profile1.efi Add a third profile (@2): $ ukify build \ --profile='TITLE=Factory Reset ID=factory-reset' \ --cmdline='quiet rw systemd.unit=factory-reset.target' \ --output=profile2.efi Then, create a UKI and include all the generated profiles: $ ukify build \ --linux=/lib/modules/6.0.9-300.fc37.x86_64/vmlinuz \ --initrd=/some/path/initramfs-6.0.9-300.fc37.x86_64.img \ --cmdline='quiet rw' \ --join-profile=profile0.efi \ --join-profile=profile1.efi \ --join-profile=profile2.efi \ --output=base.efi The resulting UKI base-with-profile-0-1-2.efi will now contain three profiles. See Also systemd1 systemd-stub7 systemd-boot7 systemd-measure1 systemd-pcrphase.service8