8c3a1d071c
It makes little sense in some places, but that is subject to some future fixes. Resolves: #1880064 Signed-off-by: Eugene Syromiatnikov <esyr@redhat.com>
863 lines
44 KiB
Plaintext
863 lines
44 KiB
Plaintext
The microcode_ctl package contains microcode files (vendor-provided binary data
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and/or code in proprietary format that affects behaviour of a device) for Intel
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CPUs that may be loaded into the CPU during boot.
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The microcode_ctl package contains provisions for some issues related
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to microcode loading. While those provisions are expected to suit most users,
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several knobs are available in order to provide ability to override the default
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behaviour.
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General behaviour
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=================
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In RHEL 9 (as well as in RHEL 7 and RHEL 8 before it), there are currently
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two main handlers for CPU microcode update:
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* Early microcode update. It uses GenuineIntel.bin or AuthenticAMD.bin file
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placed at the beginning of an initramfs image
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(/boot/initramfs-KERNEL_VERSION.img, where "KERNEL_VERSION" is a kernel
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version in the same format as provided by "uname -r") as a source
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of microcode data, and is performed very early during the boot process
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(if the relevant microcode file is available in the aforementioned file).
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* On-demand (late) microcode update. It can be triggered by writing "1" to
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/sys/devices/system/cpu/microcode/reload file (provided my the "microcode"
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module). It relies on request_firmware infrastructure, which searches (and
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loads, if found) microcode from a file present in one of the following
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directories (in the search order):
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/lib/firmware/updates/KERNEL_VERSION/
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/lib/firmware/updates/
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/lib/firmware/KERNEL_VERSION/
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/lib/firmware/
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(there is also an additional directory that can be configured via the
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"fw_path_para" module option of the "firmware_class" module; as this module
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is built-in in RHEL kernel, a boot parameter "firmware_class.fw_path_para"
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should be used for that purpose; this is out of the document's scope, however)
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The firmware for Intel CPUs is searched in "intel-ucode" subdirectory, and for
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AMD CPUs, a file under "amd-ucode" is searched.
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For Intel CPUs, the name of the specific microcode file the kernel tries to load
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has the format "FF-MM-SS", where "FF" is the family number, "MM" is the model
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number, and "SS" is the stepping. All those numbers are zero-filled to two digits
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and are written in hexadecimal (letters are in the lower case). For AMD CPUs,
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the file name has the format "microcode_amd_famFFh.bin", where "FF" is the
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family number, written in hexadecimal, letters are in the lower case, not
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zero-filled.
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The early microcode is placed into initramfs image by the "dracut" script, which
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scans the aforementioned subdirectories of the configured list of firmware
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directories (by default, the list consists of two directories in RHEL 9,
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"/lib/firmware/updates" and "/lib/firmware").
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In RHEL 9, AMD CPU microcode is shipped as a part of the linux-firmware package,
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and Intel microcode is shipped as a part of the microcode_ctl package.
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The microcode_ctl package currently includes the following:
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* Intel CPU microcode files, placed in /usr/share/microcode_ctl/intel-ucode
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directory (currently there are none);
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* A dracut module, /usr/lib/dracut/modules.d/99microcode_ctl-fw_dir_override,
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that controls which additional firmware directories will be added to dracut's
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default configuration;
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* A dracut configuration file, /usr/lib/dracut/dracut.conf.d/01-microcode.conf,
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that enables inclusion of early microcode to the generated initramfs
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in dracut;
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* A dracut configuration file,
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/usr/lib/dracut/dracut.conf.d/99-microcode-override.conf, that provides a way
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to quickly disable 99microcode_ctl-fw_dir-override dracut module;
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* A systemd service file, microcode.service, that triggers microcode reload
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late during boot;
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* A set of directories in /usr/share/microcode_ctl/ucode_with_caveats, each
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of which contains configuration and related data for various caveats related
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to microcode:
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* readme - description of caveat and related information,
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* config - caveat configuration file, with syntax as described in "Caveat
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configuration" section below,
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* intel-ucode - directory containing microcode files related to the caveat;
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* A set of support scripts, placed in /usr/libexec/microcode_ctl:
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* "check_caveats" is an utility script that performs checks of the target
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kernel (and running CPU) in accordance with caveat configuration files
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in ucode_with_caveats directory and reports whether it passes them or not,
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* "reload_microcode" is a script that is called by microcode.service and
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triggers microcode reloading (by writing "1" to
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/sys/devices/system/cpu/microcode/reload) if the running kernel passes
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check_caveats checks,
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* "update_ucode" is a script that populates symlinks to microcode files
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in /lib/firmware, so it can be picked up by relevant kernels for the late
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microcode loading.
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Also, microcode_ctl RPM includes triggers that run update_ucode script on every
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installation or removal of a kernel RPM in order to provide microcode files
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for newly installed kernels and cleanup symlinks for the uninstalled ones.
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Microcode file structure
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------------------------
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Intel x86 CPU microcode file (that is, one that can be directly consumed
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by the CPU/kernel, and not its text representation such as used in microcode.dat
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files) is a bundle of concatenated microcode blobs. Each blob has a header,
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payload, and an optional additional data, as follows (for additional information
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please refer to "Intel® 64 and IA-32 Architectures Software Developer’s Manual"
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[1], Volume 3A, Section 9.11.1 "Microcode Update"):
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* Header (48 bytes)
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* Header version (unsigned 32-bit integer): version number of the update
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header. Must be 0x1.
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* Microcode revision (signed 32-bit integer)
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* Microcode date (unsigned 32-bit integer): encoded as BCD in mmddyyyy format
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(0x03141592 is 1592-03-14 in ISO 8601)
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* CPU signature (unsigned 32-bit integer): CPU ID, as provided
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by the CPUID (EAX = 0x1) instruction in the EAX register:
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* bits 31..28: reserved
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* bits 27..20: "Extended Family", summed with the Family field value
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* bits 19..16: "Extended Model", bits 7..4 of the CPU model
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* bits 15..14: reserved
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* bits 13..12: "Processor Type", non-zero value (other than the "primary
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processor") so far used only for the Deschutes (Pentium II) CPU family,
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with the processor type of 1, to signify it is an Overdrive processor:
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CPUID 0x1632.
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* bits 11..08: Family, summed with the Extended Family field value
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* bits 07..04: Model (bits 3..0)
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* bits 03..00: Stepping
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In short, microcode file with Family-Model-Stepping of uv-wx-0z corresponds
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to CPUID 0x0TUw0Vxz, where uv = TU + V, with V usually being 0xF when
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uv >= 16; with Family being 6 on most of recent Intel CPUs this transforms
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into 0x000w06xz. Please also refer to README.intel-ucode, section "About
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Processor Signature, Family, Model, Stepping and Platform ID"
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for additional information.
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* Checksum (unsigned 32-bit integer): correct if sum (in base 1 << 32) of all
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the 32-bit integers comprising the microcode amounts to 0.
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* Loader version (unsigned 32-bit integer): 0x1.
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* Platform ID mask (unsigned 32-bit integer): lower 8 bits indicate the set
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of possible values of bits 52..50 of MSR 0x17 ("Platform ID"). In old
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(up to Pentium II) microcode blobs the mask may be zero.
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* Data size (unsigned 32-bit integer): size of the Payload in bytes,
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has to be divisible by 4. 0 means 2000.
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* Total size (unsigned 32-bit integer): total microcode blob size (including
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header and extended header), has to be divisible by 1024. 0 means 2048.
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* Reserved (12 bytes).
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* Payload
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* Additional data (optional, 20 + 12 * n bytes)
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* Extended signature table header (20 bytes)
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* Extended signature count (unsigned 32-bit integer)
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* Checksum (unsigned 32-bit integer): correct if sum (in base 1 << 32)
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of all the 32-bit integers comprising the extender signature table
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amounts to 0.
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* Reserved (12 bytes).
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* Extended signature (12 bytes each)
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* CPU signature (unsigned 32-bit integer): see the description of the CPU
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signature field in the Header above.
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* Platform ID mask (unsigned 32-bit integer): see the description
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of the Platform ID mask field in the Header above.
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* Checksum (unsigned 32-bit integer): correct if sum (in base 1<< 32)
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of all the 32-bit integers comprising the Header (with CPU signature
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and Platform ID mask fields replaced with the values from this signature)
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and the Payload amounts to 0. Note that since External signature table
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header has its own checksum, sum of all its 32-bit values amounts to 0,
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so the Checksum in the Header and in the Extended signature will be
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the same if the values of CPU signature and Platform ID mask fields
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are the same,
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[1] https://software.intel.com/content/www/us/en/develop/download/intel-64-and-ia-32-architectures-sdm-combined-volumes-1-2a-2b-2c-2d-3a-3b-3c-3d-and-4.html
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Caveat configuration
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--------------------
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There is a directory for each caveat under
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/usr/share/microcode_ctl/ucode_with_caveats, containing the following files:
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* "config", a configuration file for the caveat;
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* "readme", that contains description of the caveat;
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* set of related associated microcode files.
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"config" file is a set of lines each containing option name and its value,
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separated by white space. Currently, the following options are supported:
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* "model" option, which has format "VENDOR_ID FF-MM-SS", that specifies
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to which CPU model the caveat is applicable (check_caveats ignores caveats
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with non-matching models if "-m" option is passed to it). Can be set
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in the configuration file only once (the last provided value is used).
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* "vendor" option specifies CPUs of which vendor (as provided
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in the /proc/cpuinfo file) the caveat is applicable to (check_caveats
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ignores caveats with non-matching models when it is invoked with "-m"
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option). Can be set in the configuration file only once.
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* "path" is a glob pattern that specifies set of microcode files associated
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with the caveat as a relative path to the caveat directory. This option
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is used for populating files in /lib/firmware by update_ucode script and
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for matching microcode file when dracut is run in host-only mode
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(as in that case it uses only the first directory in firmware directory list
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to look for the microcode file applicable to the host CPU). Can be set
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in the configuration file multiple times.
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* "kernel" is a minimal kernel version that supports proper handling
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of the related microcode files during late microcode load. It may be
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provided in one of the following formats that affect the way it is compared
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to the running kernel version:
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* A.B.C (where A, B, and C are decimal numbers), "upstream version". In this
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case, simple version comparison against the respective part of the running
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kernel version is used, and the running kernel version should be greater
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or equal than the version provided in the configuration option in order
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for comparison to succeed (that is, the first part, major version number,
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of the running kernel version should be greater than the value provided
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in the configuration option, or those should be equal and the second part,
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minor version number, should be greater than the minor version number
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of the kernel version provided in the configuration option, or the first
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two parts should be equal and the third part, patch level, should
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be greater or equal the patch level of the version in the configuration
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option).
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* A.B.C-Y (where A, B, C, and Y are decimal numbers), "Y-stream version".
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In this case, A.B.C part should be equal, and Y part of the running kernel
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version should be greater or equal than the Y part of the configuration
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option version in order to satisfy the comparison requirement.
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* A.B.C-Y.Z1.Z2 (where A, B, C, Y, Z1, and Z2 are decimal numbers),
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"Z-stream version". In this case, A.B.C-Y part should be equal and Z1.Z2
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part of the running kernel should be greater or equal than the respective
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part of the configuration option version (when compared as a version)
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for comparison to succeed.
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Kernel version check passed if at least one comparison of the running kernel
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version against a kernel version provided in a configuration option
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succeeded. The "kernel" configuration option can be provided
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in the configuration file multiple times.
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* "kernel_early" is a minimal kernel version that supports proper handling
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of the related microcode during early microcode load. The format of the
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option and its semantics is similar to the "kernel" configuration options.
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This option can be provided multiple times as well.
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* "mc_min_ver_late" is the minimal version of the currently loaded microcode
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on the CPU (as reported in /proc/cpuinfo) that supports late microcode
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update. Microcode update will be attempted only if the currently loaded
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microcode version is greater or equal the microcode version provided
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in the configuration option. Can be set in the configuration file only once.
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* "disable" is a way to disable a specific caveat from inside its
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configuration. Argument for the argument is a list of stages ("early",
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"late") for which the caveat should be disable. The configuration option
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can be provided multiple times in a configuration file.
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* "pci_config_val" performs check for specific values in selected parts
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of configuration space of specified PCI devices. If "-m" option
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is not specified, then the actual check is skipped, and the check returns
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result in accordance with the provided "mode" option (se below). Check
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arguments are a white-space-separated list of "key=value" pairs.
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The following keys are supported:
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* "domain" - PCI domain number, or "*" (an asterisk) for any domain.
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Default is "*".
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* "bus" - PCI bus number, or "*" (an asterisk) for any bus. Default is "*".
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* "device" - PCI device number, or "*" (an asterisk) for any device.
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Default is "*".
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* "function" - PCI function number, or "*" (an asterisk) for any function.
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Default is "*".
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* "vid" - PCI vendor ID, or empty string for any vendor ID. Default
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is empty string.
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* "did" - PCI device ID, or empty string for any device ID. Default
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is empty string.
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* "offset" - offset in device's configuration space where the value resides.
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Default is 0.
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* "size" - field size. Possible values are 1, 2, 4, or 8. Default is 4.
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* "mask" - mask applied to the values during the check. Default is 0.
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* "val" - comma-separated list of matching values. Default is 0.
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* "mode" - check mode, the way matches are interpreted:
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* "success-any" - check succeeds if there was at least one match,
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otherwise it fails.
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* "success-all" - check succeeds if there was at least one device checked
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and all the checked devices have matches, otherwise the check fails.
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* "fail-any" - check fails if there was at least one match, otherwise
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it succeeds.
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* "fail-all" - check fails if there was at least one device checked
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and all the checked devices have matches, otherwise the check succeeds.
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Default is "success-any".
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An example of a check:
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pci_config_val mode=success-all device=30 function=3 vid=0x8086 did=0x2083 offset=0x84 size=4 mask=0x38 val=0x38,0x18,0x8
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It interprets 4 bytes at offset 0x84 of special files "config" under
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directories that match glob pattern "/sys/bus/pci/devices/*:*:1e.3"
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as an unsigned integer value, applies mask 0x38 (thus selecting bit 5..3
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of it) and checks whether it is one of the values 0x38, 0x18, or 0x8 (0b111,
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0b011, or 0b001 in bits 5..3, respectively); if there are such files,
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and all the checked values in every checked file has matched at least one
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of the aforementioned value, then the check is successful, otherwise
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it fails (in accordance with "mode=success-all" semantics). This check fails
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if "-m" option is not specified.
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* "dmi" performs checks for specific values available in DMI sysfs files
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(present under /sys/devices/virtual/dmi/id/). The check (when it is actually
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performed; see a not about "no-model-mode" below) fails if one of the files
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is not readable. If "-m" option is not specified, then the actual check
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is skipped, and the check returns value in accordance with "no-model-mode"
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parameter value (see below). Check arguments are a white-space-separated
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list of "key=value" pairs. The following keys are supported:
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* "key" - DMI file to check. Value can be one of the following: bios_date,
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bios_vendor, bios_version, board_asset_tag, board_name, board_serial,
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board_vendor, board_version, chassis_asset_tag, chassis_serial,
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chassis_type, chassis_vendor, chassis_version, product_family,
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product_name, product_serial, product_uuid, product_version, sys_vendor.
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Default is empty string.
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* "val" - a string to match DMI data present in "key" against.
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Can be enclosed in single or double quotes. Default is empty string.
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* "keyval" - a pair of "key" and "val" values (with semantics described
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above), separated with either "=", ":", "!=", or "!:" characters. Enables
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providing of multiple key-value pairs by means of supplying multiple
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keyval= parameters. The exclamation sign ("!") character in separator
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enables negated matching (so, non-equality of the value in DMI "key" file
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and the value of "val" is). The match considered successful when all
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the key/val (non-)equalities are in effect. This parameter works
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in addition to the pair provided in "key" and "val" parameters
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(but allows to avoid using them). Default is empty.
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* "mode" - check mode, the way successful matches are interpreted:
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* "success-equal" - returns 0 if the value present in the file
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with the name supplied via the "key" parameter file under
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/sys/devices/virtual/dmi/id/ is equal to the value supplied as a value
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of "val" parameter and all the pairs provided in "keyval" parameters
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are equal and non-equal in accordance with their definition,
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otherwise 1.
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* "fail-equal" - returns 1 if the value present in the file
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with the name supplied via the "key" parameter file under
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/sys/devices/virtual/dmi/id/ is equal to the value supplied as a value
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of "val" parameter and all the pairs provided in "keyval" parameters
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are equal and non-equal in accordance with their definition,
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otherwise 0.
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Default is "success-any".
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* "no-model-mode" - return value if model filter ("-m" option)
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is not enabled:
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* "success" - return 0.
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* "fail" - return 1.
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Default is "success".
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An example of a check:
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dmi mode=fail-equal no-model-mode=success key=bios_vendor val="Dell Inc."
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It checks file /sys/devices/virtual/dmi/id/bios_vendor and fails if its
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content is "Dell Inc." (without quotes). It succeeds if "-m" option
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is not enabled.
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Another example:
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dmi mode=fail-equal keyval="sys_vendor=Amazon EC2" keyval="product_name=u-18tb1.metal"
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dmi mode=fail-equal keyval="sys_vendor=Lenovo" keyval="product_name=ThinkSystem SR950"
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It blocks the caveat from using when either both
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/sys/devices/virtual/dmi/id/sys_vendor contains the string "Amazon EC2"
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and /sys/devices/virtual/dmi/id/product_name contains the string
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"u-18tb1.metal" or both /sys/devices/virtual/dmi/id/sys_vendor contains
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the string "Lenovo" and /sys/devices/virtual/dmi/id/product_name contains
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the string "ThinkSystem SR950", but enables caveat loading for other products
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with the aforementioned /sys/devices/virtual/dmi/id/sys_vendor values,
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for example.
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* "dependency" allows conditional enablement of a caveat based on the check
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status of some other caveat(s). It has the following format:
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dependency DEPENDENCY_TYPE DEPENDENCY_NAME [OPTION...]
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where DEPENDENCY_NAME is the configuration to be checked, OPTIONs
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are per-DEPENDENCY_TYPE, and the only DEPENDENCY_TYPE that is supported
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currently is "required".
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Options for the "required" dependency type:
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* "match-model-mode" - whether model matching mode ("-m" option)
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has to be used for the nested configuration check. Possible values:
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* "on" - model-matching mode is always used during the nested check;
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* "off" - model-matching mode is never used during the nested check;
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* "same" - used the same model-matching mode as it is now.
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Default is "same".
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* "skip" - controls result of the check when the nested check indicated
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skipping of the configuration.
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* "fail" - the dependent check fails;
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* "success" - the dependent check succeeds;
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* "skip" - the dependent check indicates that the configuration
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is to be skipped.
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Default is "skip".
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* "force-skip" - controls result of the check when the nested check
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indicated skipping of the configuration caused by the presence
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of an override file (see "check_caveats script" section for details).
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* "fail" - the dependent check fails;
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* "success" - the dependent check succeeds;
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* "skip" - the dependent check indicates that the configuration
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is to be skipped.
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Default is "skip".
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* "nesting-too-deep" - as a measure against dependency loop, configuration
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checking logic implements nesting limit on dependency checks (currently
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set at 8). This option controls the behaviour of the check
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when the nested check cannot be performed due to this limit.
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* "fail" - the dependent check fails;
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* "success" - the dependent check succeeds;
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* "skip" - the dependent check indicates that the configuration
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is to be skipped.
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Default is "fail".
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An example of a check:
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dependency required intel skip=success match-model-mode=off
|
||
It checks "intel" caveat configuration (see the "Early microcode load
|
||
inside a virtual machine" section) with model-matching mode being disabled,
|
||
treats skipping of the configuration as a success (unless the configuration
|
||
is forced to be skipped, in that case the dependent configuration
|
||
is to be skipped as well).
|
||
|
||
|
||
check_caveats script
|
||
--------------------
|
||
"check_caveats" is an utility script (called by update_ucode, reload_microcode,
|
||
dracut module) that performs checks of the target kernel (and running CPU)
|
||
in accordance with caveat configuration files in directory
|
||
"/usr/share/microcode_ctl/ucode_with_caveats", and returns information, whether
|
||
the system passes the checks, or not.
|
||
|
||
Usage:
|
||
check_caveats [-e] [-k TARGET_KVER] [-c CONFIG]* [-m] [-v]'
|
||
|
||
Options:
|
||
-e - check for early microcode load possibility (instead of late microcode
|
||
load). "kernel_early" caveat configuration options are used for checking
|
||
instead of "kernel", and "mc_min_ver_late" is not checked.
|
||
-k - target kernel version to check against, $(uname -r) is used otherwise.
|
||
-c - caveat(s) to check, all caveat configurations found inside
|
||
$MC_CAVEATS_DATA_DIR are checked otherwise.
|
||
-m - ignore caveats that do not apply to the current CPU model.
|
||
-v - verbose output.
|
||
|
||
Environment:
|
||
MC_CAVEATS_DATA_DIR - directory that contains caveats configurations,
|
||
"/usr/share/microcode_ctl/ucode_with_caveats"
|
||
by default.
|
||
FW_DIR - directory containing firmware files (per-kernel configuration
|
||
overrides are checked there), "/lib/firmware" by default.
|
||
CFG_DIR - directory containing global caveats overrides,
|
||
"/etc/microcode_ctl/ucode_with_caveats" by default.
|
||
|
||
Output:
|
||
Script returns information about caveats check results. Output has a format
|
||
of "KEY VALUE1 VALUE2 ..." with KEY defining the semantics of the VALUEs.
|
||
Currently, the following data is issued:
|
||
- "cfgs" - list of caveats that have been processed (and not skipped
|
||
due to missing "config", "readme", or a disallow-* override described
|
||
below);
|
||
- "skip_cfgs" - list of caveats that have been skipped (due to missing
|
||
config/readme file, or because of overrides);
|
||
- "paths" - list of glob patterns matching files associated with caveats
|
||
that have been processed;
|
||
- "ok_cfgs" - list of caveat configurations that have all the checks passed
|
||
(or have enforced by one of force-* overrides described below);
|
||
- "ok_paths" - list of glob patterns associated with caveat files from
|
||
the "ok_cfgs" list;
|
||
- "fail_cfgs" - list of caveats that have one of the checks failed.
|
||
- "fail_paths" - list of glob patterns associated with caveats from the
|
||
"fail_cfgs" list.
|
||
|
||
Return value:
|
||
- 0 in case caveats check has passed, 1 otherwise.
|
||
- In "-d" mode, 0 is always returned.
|
||
|
||
Overrides:
|
||
|
||
When check_caveats perform its checks, it also checks for presence of files
|
||
in specific places, and, if they exist, check_caveats skips a caveat or ignores
|
||
its checks; that mechanism allows overriding the information provided
|
||
in configuration on local systems and affect the behaviour of the microcode
|
||
update process.
|
||
|
||
Current list of overrides (where $FW_DIR and $CFG_DIR are the environment
|
||
options described earlier; $kver - the currently processed kernel version,
|
||
$s is the requested stage ("early" or "late"), $cfg is the caveat directory
|
||
name):
|
||
$FW_DIR/$kver/disallow-$s-$cfg - skip a caveat for the requested stage for
|
||
a specific kernel version..
|
||
$FW_DIR/$kver/force-$s-$cfg - apply a specific caveat file for a specific
|
||
kernel version for the requested stage without
|
||
performing any checks.
|
||
$FW_DIR/$kver/disallow-$cfg - skip a caveat for any stage for a specific
|
||
kernel version.
|
||
$FW_DIR/$kver/force-$cfg - apply a specific caveat for any stage
|
||
for a specific kernel version without checks.
|
||
$FW_DIR/$kver/disallow-$s - skip all caveats for a specific stage
|
||
for a specific kernel version.
|
||
$CFG_DIR/disallow-$s-$cfg - skip a caveat for a specific stage for all
|
||
kernel versions.
|
||
$FW_DIR/$kver/force-$s - apply all caveats for a specific stage
|
||
for a specific kernel version without checks.
|
||
$CFG_DIR/force-$s-$cfg - apply a specific caveat for a specific stage for
|
||
all kernel versions without checks.
|
||
$FW_DIR/$kver/disallow - skip all caveats for all stages for a specific
|
||
kernel version.
|
||
$CFG_DIR/disallow-$cfg - skip a caveat for all stages for all kernel
|
||
versions.
|
||
$FW_DIR/$kver/force - apply all caveats for all stages for a specific kernel
|
||
version without checks.
|
||
$CFG_DIR/force-$cfg - apply a caveat for all stages for all kernel versions
|
||
without checks.
|
||
$CFG_DIR/disallow-$s - skip all caveat for all kernel versions
|
||
for a specific stage.
|
||
$CFG_DIR/force-$s - apply all caveats for all kernel versions for specific
|
||
stage without checks.
|
||
$CFG_DIR/disallow - skip all caveats for all stages for all kernel versions
|
||
(disable everything).
|
||
$CFG_DIR/force - force all caveats for all stages for all kernel versions
|
||
(enable everything).
|
||
|
||
The "apply" action above means creating symlinks in /lib/firmware by
|
||
update_ucode in case of the "late" stage and adding caveat directory to the list
|
||
of firmware directories by dracut plugin in case of the "early" stage.
|
||
|
||
The files are checked for existence until the first match, so more specific
|
||
overrides can override more broad ones.
|
||
|
||
Also, a caveat is ignored if it lacks either config or readme file.
|
||
|
||
|
||
update_ucode script
|
||
-------------------
|
||
"update_ucode" populates symlinks to microcode files in accordance with caveats
|
||
configuration. It enables late microcode loading that is invoked by triggering
|
||
/sys/devices/system/cpu/microcode/reload file. Since caveats depend
|
||
on the kernel version, symlinks are populated inside
|
||
"/lib/firmware/KERNEL_VERSION" directory for each installed kernel.
|
||
As a consequence, this script is triggered upon each kernel package installation
|
||
and removal.
|
||
|
||
The script has two parts: common and kernel-version-specific.
|
||
|
||
During the common part, files are populated from
|
||
/usr/share/microcode_ctl/intel-ucode in /lib/firmware/intel-ucode. There are
|
||
several possibilities to affect the process:
|
||
* Presence of "/etc/microcode_ctl/intel-ucode-disallow" file leads to skipping
|
||
the common part of the script.
|
||
* The same for "/lib/firmware/intel-ucode-disallow".
|
||
|
||
During the kernel-version-specific part, each caveat is checked against every
|
||
kernel version, and those combinations, for which caveat check succeeds,
|
||
gets the symlinks to the associated microcode files populated.
|
||
* Absence of "/lib/firmware/KERNEL_VERSION/readme-CAVEAT" prevents update_ucode
|
||
from removing symlinks related to the caveat for specific kernel version.
|
||
* Since the check is being done by check_caveats, all the overrides that
|
||
described there also stay.
|
||
|
||
Usage:
|
||
update_ucode [--action {add|remove|refresh|list}] [--kernel KERNELVER]*
|
||
[--verbose] [--dry-run] [--cleanup intel_ucode caveats_ucode]
|
||
[--skip-common] [--skip-kernel-specific]
|
||
|
||
Options:
|
||
--action - action to perform. Currently, the following actions are supported:
|
||
* "add" - create new symlinks.
|
||
* "remove" - remove old symlinks that are no longer needed.
|
||
* "refresh" - re-populate symlinks.
|
||
* "list" - list files under control of update_ucode.
|
||
By default, "refresh" action is executed.
|
||
--kernel - kernel version to process. By default, list of kernel versions
|
||
is formed based on contents of /lib/firmware and /lib/modules
|
||
directories.
|
||
--verbose - verbose output.
|
||
--dry-run - do not call commands, just print the invocation lines.
|
||
--cleanup - cleanup mode. Used by post-uninstall script during package
|
||
upgrades. Removes excess files in accordance to the contents
|
||
of the files provided in the arguments to the option.
|
||
--skip-common - do not process /lib/firmware directory.
|
||
--skip-kernel-specific - do not process /lib/firmware/KERNEL_VERSION
|
||
directories.
|
||
|
||
Return value:
|
||
0 on success, 1 on error.
|
||
|
||
|
||
reload_microcode script
|
||
-----------------------
|
||
"reload_microcode" is a script that is called by microcode.service and
|
||
triggers late microcode reloading (by writing "1" to
|
||
/sys/devices/system/cpu/microcode/reload) if the following check are passed:
|
||
* the microcode update performed not in a virtualised environment;
|
||
* running kernel passes "check_caveats" checks that applicable to the current
|
||
CPU model.
|
||
|
||
For a virtualised environment check, the script searches the "/proc/cpuinfo"
|
||
file for presence of the "hypervisor" flag among CPU features (it corresponds
|
||
to a CPUID feature bit set by hypervisors in order to inform that the kernel
|
||
operates inside a virtual machine). This check can be overridden and skipped
|
||
by creation of a file "/etc/microcode_ctl/ignore-hypervisor-flag".
|
||
|
||
The script has no options and always returns 0.
|
||
|
||
|
||
99microcode_ctl-fw_dir_override dracut module
|
||
---------------------------------------------
|
||
This dracut module injects directories with microcode files for caveats
|
||
that pass "early" check_caveats check (with "-e" flag). In addition
|
||
to "check_caveats" overrides, the following abilities to control module's
|
||
behaviour are present:
|
||
* Presence of one of the following files:
|
||
- /etc/microcode_ctl/ucode_with_caveats/skip-host-only-check
|
||
- /etc/microcode_ctl/ucode_with_caveats/skip-host-only-check-$cfg
|
||
- /lib/firmware/$kver/skip-host-only-check
|
||
- /lib/firmware/$kver/skip-host-only-check-$cfg
|
||
(where "$kver" is the kernel version in question and "$cfg" is the caveat
|
||
directory name) allows skipping matching of microcode file name when dracut's
|
||
Host-Only mode is enabled.
|
||
|
||
When caveats_check succeeds, caveats directory (not its possibly populated
|
||
version for late microcode update: "/lib/firmware/KERNEL_VERSION";
|
||
it is done so in order
|
||
to have ability to configure list of caveats enabled for early and late
|
||
microcode update, independently) is added to dracut's list of firmware search
|
||
directories.
|
||
|
||
The module can be disabled by running dracut with
|
||
"-o microcode_ctl-fw_dir_override" (for one-time exclusion), or it can
|
||
be disabled permanently by uncommenting string
|
||
"omit_dracutmodules+=' microcode_ctl-fw_dir_override '" in
|
||
/usr/lib/dracut/dracut.conf.d/99-microcode-override.conf configuration file.
|
||
|
||
See dracut(8), section "Omitting dracut Modules", and dracut.conf(5), variable
|
||
"omit_dracutmodules" for additional information.
|
||
|
||
|
||
Caveats
|
||
=======
|
||
|
||
Intel Broadwell-EP/EX ("BDX-ML B/M/R0") caveat
|
||
----------------------------------------------
|
||
Microcode update process on Intel Broadwell-EP/EX CPUs (BDX-ML B/M/R0,
|
||
family 6, model 79, stepping 1) has issues that lead to system instability.
|
||
A series of changes for the Linux kernel has been developed in order to work
|
||
around those issues; however, as it turned out, some systems have issues even
|
||
when a microcode update performed on a kernel that contains those changes.
|
||
As a result, microcode update for this CPU model is disabled by default;
|
||
the microcode file, however, is still shipped as a part of microcode_ctl
|
||
package and can be used for performing a microcode update if it is enforced
|
||
via the aforementioned overrides. (See the sections "check_caveats script"
|
||
and "reload_microcode script" for details.)
|
||
|
||
Caveat name: intel-06-4f-01
|
||
|
||
Affected microcode: intel-ucode/06-4f-01.
|
||
|
||
Dependencies: intel
|
||
|
||
Mitigation: microcode loading is disabled for the affected CPU model.
|
||
|
||
Minimum versions of the kernel package that contain the aforementioned patch
|
||
series:
|
||
- Upstream/RHEL 8/RHEL 9: 4.17.0
|
||
- RHEL 7.6 onwards: 3.10.0-894
|
||
- RHEL 7.5: 3.10.0-862.6.1
|
||
- RHEL 7.4: 3.10.0-693.35.1
|
||
- RHEL 7.3: 3.10.0-514.52.1
|
||
- RHEL 7.2: 3.10.0-327.70.1
|
||
- RHEL 6.10: 2.6.32-754.1.1
|
||
- RHEL 6.7: 2.6.32-573.58.1
|
||
- RHEL 6.6: 2.6.32-504.71.1
|
||
- RHEL 6.5: 2.6.32-431.90.1
|
||
- RHEL 6.4: 2.6.32-358.90.1
|
||
|
||
|
||
Early microcode load inside a virtual machine
|
||
---------------------------------------------
|
||
RHEL 9 kernel supports performing microcode update during early boot stage
|
||
from a cpio archive placed at the beginning of the initramfs image. However,
|
||
when an early microcode update is attempted inside some virtualised
|
||
environments, that may result in unexpected system behaviour.
|
||
|
||
Caveat name: intel
|
||
|
||
Affected microcode: all.
|
||
|
||
Dependencies: (none)
|
||
|
||
Mitigation: early microcode loading is disabled for all CPU models on kernels
|
||
without the fix.
|
||
|
||
Minimum versions of the kernel package that contain the fix:
|
||
- Upstream/RHEL 8/RHEL 9: 4.10.0
|
||
- RHEL 7.6 onwards: 3.10.0-930
|
||
- RHEL 7.5: 3.10.0-862.14.1
|
||
- RHEL 7.4: 3.10.0-693.38.1
|
||
- RHEL 7.3: 3.10.0-514.57.1
|
||
- RHEL 7.2: 3.10.0-327.73.1
|
||
|
||
|
||
Intel Sandy Bridge-E/EN/EP caveat
|
||
---------------------------------
|
||
Microcode revision 0x718 for Intel Sandy Bridge-E/EN/EP (SNB-EP, family 6,
|
||
model 45, stepping 7), that was released to address MDS vulnerability,
|
||
and was available from microcode-20190618 up to microcode-20190508 release)
|
||
could lead to system instability[1][2]. In order to address this,
|
||
this microcode update was not used and the previous microcode revision
|
||
was provided instead by default; the microcode file, however, was still shipped
|
||
as part of microcode_ctl package and could be used for performing a microcode
|
||
update if it is enforced via the aforementioned overrides. With the release
|
||
of 0x71a revision of the microcode (as art of microcode-20200520 release)
|
||
that aims at fixing the aforementioned stability issue, the latest microcode
|
||
revision is again used by default; it is still provided via the caveat
|
||
mechanism, hovewer, in order to enable ability to disable it in case such
|
||
a need arises. (See the sections "check_caveats script" and "reload_microcode
|
||
script" for details regarding caveats mechanism operation.)
|
||
|
||
[1] https://github.com/intel/Intel-Linux-Processor-Microcode-Data-Files/issues/15
|
||
[2] https://access.redhat.com/solutions/4593951
|
||
|
||
Caveat name: intel-06-2d-07
|
||
|
||
Affected microcode: intel-ucode/06-2d-07.
|
||
|
||
Dependencies: intel
|
||
|
||
Mitigation: None; the latest revision of the microcode file is used by default;
|
||
previously published microcode revision 0x714 is still available as a fallback
|
||
as part of "intel" caveat.
|
||
|
||
|
||
Intel Skylake-SP/W/X caveat
|
||
---------------------------
|
||
Microcode revision 0x2000065 (that was provided with microcode releases
|
||
microcode-20191112 up to microcode-20200520) for some CPU models that belong
|
||
to Intel Skylake Scalable Platform (SKL-W/X, family 6, model 85, stepping 4,
|
||
Workstation/HEDT segments) could lead to hangs during reboot[1]. In order
|
||
to address this, by default this microcode update was disabled by default and
|
||
and the previous 0x2000064 microcode revision was used instead; the microcode
|
||
file with, however, is still shipped as part of microcode_ctl package and can
|
||
be used for performing a microcode update if it is enforced
|
||
via the aforementioned overrides. With the availability of 0x2006906 revision
|
||
of the microcode (in the microcode-20200609 release) that fixes
|
||
the aforementioned issue, the latest microcode revision is again used
|
||
by default; it is still provided via caveat mechanism, hovewer, in order
|
||
to enable ability to disable it in case such a need arises. (See the sections
|
||
"check_caveats script" and "reload_microcode script" for details regarding
|
||
caveats mechanism operation.)
|
||
|
||
[1] https://github.com/intel/Intel-Linux-Processor-Microcode-Data-Files/issues/21
|
||
|
||
Caveat name: intel-06-55-04
|
||
|
||
Affected microcode: intel-ucode/06-55-04.
|
||
|
||
Dependencies: intel
|
||
|
||
Mitigation: None; the latest revision of the microcode file is used by default;
|
||
previously published microcode revision 0x2000064 is still available
|
||
as a fallback as part of "intel" caveat.
|
||
|
||
|
||
Intel Skylake-U/Y caveat
|
||
------------------------
|
||
Some Intel Skylake CPU models (SKL-U/Y, family 6, model 78, stepping 3)
|
||
have reports of system hangs when revision 0xdc of microcode, that is included
|
||
in microcode-20200609 update to address CVE-2020-0543, CVE-2020-0548,
|
||
and CVE-2020-0549, is applied[1]. In order to address this, microcode update
|
||
to the newer revision has been disabled by default on these systems,
|
||
and the previously published microcode revision 0xd6 is used instead; the newer
|
||
microcode files, however, are still shipped as part of microcode_ctl package
|
||
and can be used for performing a microcode update if they are enforced
|
||
via the aforementioned overrides. (See the sections "check_caveats script"
|
||
and "reload_microcode script" for details.)
|
||
|
||
[1] https://github.com/intel/Intel-Linux-Processor-Microcode-Data-Files/issues/31
|
||
|
||
Caveat name: intel-06-4e-03
|
||
|
||
Affected microcode: intel-ucode/06-4e-03
|
||
|
||
Dependencies: intel
|
||
|
||
Mitigation: previously published microcode revision 0xd6 is used by default.
|
||
|
||
|
||
Intel Skylake-H/S/Xeon E3 v5 caveat
|
||
-----------------------------------
|
||
Some Intel Skylake CPU models (SKL-H/S/Xeon E3 v5, family 6, model 94,
|
||
stepping 3) had reports of system hangs when revision 0xdc of microcode,
|
||
that is included in microcode-20200609 update to address CVE-2020-0543,
|
||
CVE-2020-0548, and CVE-2020-0549, was applied[1]. In order to address this,
|
||
microcode update to the newer revision had been disabled by default on these
|
||
systems, and the previously published microcode revision 0xd6 was used instead.
|
||
The revision 0xea seems[2] to have fixed the aforementioned issue, hence
|
||
the latest microcode revision usage it is enabled by default,
|
||
but can be disabled explicitly via the aforementioned overrides. (See
|
||
the sections "check_caveats script" and "reload_microcode script" for details.)
|
||
|
||
[1] https://github.com/intel/Intel-Linux-Processor-Microcode-Data-Files/issues/31#issuecomment-644885826
|
||
[2] https://github.com/intel/Intel-Linux-Processor-Microcode-Data-Files/issues/31#issuecomment-857806014
|
||
|
||
Caveat names: intel-06-5e-03
|
||
|
||
Affected microcode: intel-ucode/06-5e-03.
|
||
|
||
Dependencies: intel
|
||
|
||
Mitigation: None; the latest revision of the microcode file is used by default;
|
||
previously published microcode revision 0xd6 is still available as a fallback
|
||
as part of "intel" caveat.
|
||
|
||
|
||
Dell caveats
|
||
------------
|
||
Some Dell systems that use some models of Intel CPUs are susceptible to hangs
|
||
and system instability during or after microcode update to revision 0xc6/0xca
|
||
(included as part of microcode-20191113/microcode-20191115 update that addressed
|
||
CVE-2019-0117, CVE-2019-0123, CVE-2019-11135, and CVE-2019-11139)
|
||
and/or revision 0xd6 (included as part of microcode-20200609 update
|
||
that addressed CVE-2020-0543, CVE-2020-0548, and CVE-2020-0549)
|
||
[1][2][3][4][5][6]. In order to address this, microcode update to the newer
|
||
revision has been disabled by default on these systems, and the previously
|
||
published microcode revisions 0xae/0xb4/0xb8 are used by default
|
||
for the OS-driven microcode update.
|
||
|
||
[1] https://github.com/intel/Intel-Linux-Processor-Microcode-Data-Files/issues/23
|
||
[2] https://github.com/intel/Intel-Linux-Processor-Microcode-Data-Files/issues/24
|
||
[3] https://github.com/intel/Intel-Linux-Processor-Microcode-Data-Files/issues/33
|
||
[4] https://github.com/intel/Intel-Linux-Processor-Microcode-Data-Files/issues/34
|
||
[5] https://github.com/intel/Intel-Linux-Processor-Microcode-Data-Files/issues/35
|
||
[6] https://bugzilla.redhat.com/show_bug.cgi?id=1846097
|
||
|
||
Caveat names: intel-06-8e-9e-0x-dell, intel-06-8e-9e-0x-0xca
|
||
|
||
Affected microcode: intel-ucode/06-8e-09, intel-ucode/06-8e-0a,
|
||
intel-ucode/06-8e-0b, intel-ucode/06-8e-0c,
|
||
intel-ucode/06-9e-09, intel-ucode/06-9e-0a,
|
||
intel-ucode/06-9e-0b, intel-ucode/06-9e-0c,
|
||
intel-ucode/06-9e-0d.
|
||
|
||
Dependencies: intel
|
||
|
||
Mitigation: previously published microcode revision 0xac/0xb4/0xb8 is used
|
||
by default if /sys/devices/virtual/dmi/id/bios_vendor reports
|
||
"Dell Inc."; otherwise, the latest microcode revision is used.
|
||
Caveat with revision 0xca of microcode files is provided
|
||
as a convenience for the cases where it was working well before.
|
||
|
||
|
||
Intel Tiger Lake-UP3/UP4 caveat
|
||
-------------------------------
|
||
Some systems with Intel Tiger Lake-UP3/UP4 CPUs (TGL, family 6, model 140,
|
||
stepping 1) had reports of system hangs when a microcode update,
|
||
that was included since microcode-20201110 release, was applied[1].
|
||
In order to address this, microcode update to a newer revision had been disabled
|
||
by default on these systems. The revision 0x88 seems to have fixed
|
||
the aforementioned issue, hence it is enabled by default; however, it is still
|
||
can be disabled via the aforementioned overrides. (See the sections
|
||
"check_caveats script" and "reload_microcode script" for details.)
|
||
|
||
[1] https://github.com/intel/Intel-Linux-Processor-Microcode-Data-Files/issues/44
|
||
|
||
Caveat names: intel-06-8c-01
|
||
|
||
Affected microcode: intel-ucode/06-8c-01.
|
||
|
||
Dependencies: intel
|
||
|
||
Mitigation: None; the latest revision of the microcode file is used by default.
|
||
|
||
|
||
|
||
Additional information
|
||
======================
|
||
Red Hat provides updated microcode, developed by its microprocessor partners,
|
||
as a customer convenience. Please contact your hardware vendor to determine
|
||
whether more recent BIOS/firmware updates are recommended because additional
|
||
improvements may be available.
|
||
|
||
Information regarding microcode revisions required for mitigating specific
|
||
Intel CPU vulnerabilities is available in the following knowledge base articles:
|
||
* CVE-2017-5715 ("Spectre"):
|
||
https://access.redhat.com/articles/3436091
|
||
* CVE-2018-3639 ("Speculative Store Bypass"):
|
||
https://access.redhat.com/articles/3540901
|
||
* CVE-2018-3620, CVE-2018-3646 ("L1 Terminal Fault Attack"):
|
||
https://access.redhat.com/articles/3562741
|
||
* CVE-2018-12130, CVE-2018-12126, CVE-2018-12127, and CVE-2019-11091
|
||
("Microarchitectural Data Sampling"):
|
||
https://access.redhat.com/articles/4138151
|
||
* CVE-2019-0117 (Intel SGX Information Leak),
|
||
CVE-2019-0123 (Intel SGX Privilege Escalation),
|
||
CVE-2019-11135 (TSX Asynchronous Abort),
|
||
CVE-2019-11139 (Voltage Setting Modulation):
|
||
https://access.redhat.com/solutions/2019-microcode-nov
|
||
* CVE-2020-0543 (Special Register Buffer Data Sampling),
|
||
CVE-2020-0548 (Vector Register Data Sampling),
|
||
CVE-2020-0549 (L1D Cache Eviction Sampling):
|
||
https://access.redhat.com/solutions/5142751
|
||
* CVE-2020-8695 (Information disclosure issue in Intel SGX via RAPL interface),
|
||
CVE-2020-8696 (Vector Register Leakage-Active),
|
||
CVE-2020-8698 (Fast Forward Store Predictor):
|
||
https://access.redhat.com/articles/5569051
|
||
* CVE-2020-24489 (VT-d-related Privilege Escalation),
|
||
CVE-2020-24511 (Improper Isolation of Shared Resources),
|
||
CVE-2020-24512 (Observable Timing Discrepancy),
|
||
CVE-2020-24513 (Information Disclosure on Some Intel Atom Processors):
|
||
https://access.redhat.com/articles/6101171
|