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Memory errors are an expected occurrence on systems with high memory density. Generally, errors within a small number of unique physical locations are acceptable, based on manufacturer and/or admin policy. During run time, memory with errors may be retired so it is no longer used by the system. This is done in mm through page poisoning, and the effect will remain until the system is restarted. If a memory location is consistently faulty, then the same run time error handling may occur in the next reboot cycle, leading to terminating jobs due to that already known bad memory. This could be prevented if information from the previous boot was not lost. Some add-in cards with driver-managed memory have on-board persistent storage. Their driver saves memory error information to the persistent storage during run time. The information is then restored after reset, and known bad memory will be retired before the hardware is used. A running log of bad memory locations is kept across multiple resets. A similar solution is desirable for CPUs. However, this solution should leverage industry-standard components as much as possible, rather than a bespoke platform driver. Two components are needed: a record format and a persistent storage interface. Implement a new module to manage the record formats on persistent storage. Use the requirements for an AMD MI300-based system to start. Vendor- and platform-specific details can be abstracted later as needed. [ bp: Massage commit message and code, squash 30-ish more fixes from Yazen and me. ] Signed-off-by: Yazen Ghannam <yazen.ghannam@amd.com> Co-developed-by: <naveenkrishna.chatradhi@amd.com> Signed-off-by: <naveenkrishna.chatradhi@amd.com> Co-developed-by: <muralidhara.mk@amd.com> Signed-off-by: <muralidhara.mk@amd.com> Tested-by: <sathyapriya.k@amd.com> Signed-off-by: Borislav Petkov (AMD) <bp@alien8.de> Link: https://lore.kernel.org/r/20240214033516.1344948-3-yazen.ghannam@amd.com
50 lines
1.9 KiB
Plaintext
50 lines
1.9 KiB
Plaintext
# SPDX-License-Identifier: GPL-2.0-only
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menuconfig RAS
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bool "Reliability, Availability and Serviceability (RAS) features"
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help
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Reliability, availability and serviceability (RAS) is a computer
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hardware engineering term. Computers designed with higher levels
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of RAS have a multitude of features that protect data integrity
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and help them stay available for long periods of time without
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failure.
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Reliability can be defined as the probability that the system will
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produce correct outputs up to some given time. Reliability is
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enhanced by features that help to avoid, detect and repair hardware
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faults.
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Availability is the probability a system is operational at a given
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time, i.e. the amount of time a device is actually operating as the
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percentage of total time it should be operating.
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Serviceability or maintainability is the simplicity and speed with
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which a system can be repaired or maintained; if the time to repair
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a failed system increases, then availability will decrease.
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Note that Reliability and Availability are distinct concepts:
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Reliability is a measure of the ability of a system to function
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correctly, including avoiding data corruption, whereas Availability
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measures how often it is available for use, even though it may not
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be functioning correctly. For example, a server may run forever and
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so have ideal availability, but may be unreliable, with frequent
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data corruption.
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if RAS
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source "arch/x86/ras/Kconfig"
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source "drivers/ras/amd/atl/Kconfig"
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config RAS_FMPM
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tristate "FRU Memory Poison Manager"
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default m
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depends on AMD_ATL && ACPI_APEI
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help
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Support saving and restoring memory error information across reboot
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using ACPI ERST as persistent storage. Error information is saved with
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the UEFI CPER "FRU Memory Poison" section format.
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Memory will be retired during boot time and run time depending on
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platform-specific policies.
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endif
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