b0402403e5
collects and manages previously encountered hw errors in order to save them to persistent storage across reboots. Previously recorded errors are "replayed" upon reboot in order to poison memory which has caused said errors in the past. The main use case is stacked, on-chip memory which cannot simply be replaced so poisoning faulty areas of it and thus making them inaccessible is the only strategy to prolong its lifetime. - Add an AMD address translation library glue which converts the reported addresses of hw errors into system physical addresses in order to be used by other subsystems like memory failure, for example. Add support for MI300 accelerators to that library. - igen6: Add support for Alder Lake-N SoC - i10nm: Add Grand Ridge support - The usual fixlets and cleanups -----BEGIN PGP SIGNATURE----- iQIzBAABCgAdFiEEzv7L6UO9uDPlPSfHEsHwGGHeVUoFAmXvKHcACgkQEsHwGGHe VUo4Lg/+OwXDI1EaCDyaHJ+f6JRmNok1EGjKMVjpp71/XmE3eUjiXfCv/b0bwl3V oIXGlXpJ5RSME+9aFDWADaE3h5zAGzTwQXuKtOUQPiJ6UuCebXodm8SaIG8V8trG yaW/hhP98AoJD+fN6qzv4XWYvTG8VRQs4tdISg9FXiljTjv4mKA+sxuCu8KpfrDh Tg+9F4Rre6gyR5GaB6N7Cc0k97DM7n5yKBZZGKucv+oYzDyf6n631ZSJ2zA9NC51 CJlux917hCXI/IWrCQ2nkyfPPXxn8AaznUAA30wKgwlt8TFSdKTW+DvRA2zyuAU3 0UDHO4FezOKuzVnWkzdnKsIMAnDyTGOz3Fi2LU4mC+JHaHHmI2quSWDxp5phWBuy S+T3XHxpbSsLGEI7zxT5F9u1oAlCvYu1C7HJw+yxNSn2iCy5LoNo0H/kl/nhR8Xr FgVp8SYgQRU2Pp8vgGOibMYY/TAHX55EticKdxvBI0yY+iqoJyAbZ0fb0XyLNc7s GqoWfvrK1KQzf5/Ya1Mm//0/QTPyFmJwujMJ2eEnMRRER+23bYpGvVBBT8E1sG9s gqEJkKjmVCPt9xJTcivm96sLJ7CG36w8+r/axSqpKXdcvDG9ec8G8PRqjlo5pcvh gYevmCBIcKny1xuhALwD6Rn2mkPip7araycDx9X9nd5z1qCxBaU= =FR2l -----END PGP SIGNATURE----- Merge tag 'edac_updates_for_v6.9' of git://git.kernel.org/pub/scm/linux/kernel/git/ras/ras Pull EDAC updates from Borislav Petkov: - Add a FRU (Field Replaceable Unit) memory poison manager which collects and manages previously encountered hw errors in order to save them to persistent storage across reboots. Previously recorded errors are "replayed" upon reboot in order to poison memory which has caused said errors in the past. The main use case is stacked, on-chip memory which cannot simply be replaced so poisoning faulty areas of it and thus making them inaccessible is the only strategy to prolong its lifetime. - Add an AMD address translation library glue which converts the reported addresses of hw errors into system physical addresses in order to be used by other subsystems like memory failure, for example. Add support for MI300 accelerators to that library. - igen6: Add support for Alder Lake-N SoC - i10nm: Add Grand Ridge support - The usual fixlets and cleanups * tag 'edac_updates_for_v6.9' of git://git.kernel.org/pub/scm/linux/kernel/git/ras/ras: EDAC/versal: Convert to platform remove callback returning void RAS/AMD/FMPM: Fix off by one when unwinding on error RAS/AMD/FMPM: Add debugfs interface to print record entries RAS/AMD/FMPM: Save SPA values RAS: Export helper to get ras_debugfs_dir RAS/AMD/ATL: Fix bit overflow in denorm_addr_df4_np2() RAS: Introduce a FRU memory poison manager RAS/AMD/ATL: Add MI300 row retirement support Documentation: Move RAS section to admin-guide EDAC/versal: Make the bit position of injected errors configurable EDAC/i10nm: Add Intel Grand Ridge micro-server support EDAC/igen6: Add one more Intel Alder Lake-N SoC support RAS/AMD/ATL: Add MI300 DRAM to normalized address translation support RAS/AMD/ATL: Fix array overflow in get_logical_coh_st_fabric_id_mi300() RAS/AMD/ATL: Add MI300 support Documentation: RAS: Add index and address translation section EDAC/amd64: Use new AMD Address Translation Library RAS: Introduce AMD Address Translation Library EDAC/synopsys: Convert to devm_platform_ioremap_resource() |
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amd | ||
cec.c | ||
debugfs.c | ||
debugfs.h | ||
Kconfig | ||
Makefile | ||
ras.c |