ACPI: ioremap: avoid redundant rounding to OS page size
The arm64 implementation of acpi_os_ioremap() was recently updated to tighten the checks around which parts of memory are permitted to be mapped by ACPI code, which generally only needs access to memory regions that are statically described by firmware, and any attempts to access memory that is in active use by the OS is generally a bug or a hacking attempt. This tightening is based on the EFI memory map, which describes all memory in the system. The AArch64 architecture permits page sizes of 16k and 64k in addition to the EFI default, which is 4k, which means that the EFI memory map may describe regions that cannot be mapped seamlessly if the OS page size is greater than 4k. This is usually not a problem, given that the EFI spec does not permit memory regions requiring different memory attributes to share a 64k page frame, and so the usual rounding to page size performed by ioremap() is sufficient to deal with this. However, this rounding does complicate our EFI memory map permission check, due to the loss of information that occurs when several small regions share a single 64k page frame (where rounding each of them will result in the same 64k single page region). However, due to the fact that the region check occurs *before* the call to ioremap() where the necessary rounding is performed, we can deal with this issue simply by removing the redundant rounding performed by acpi_os_map_iomem(), as it appears to be the only place where the arguments to a call to acpi_os_ioremap() are rounded up. So omit the rounding in the call, and instead, apply the necessary masking when assigning the map->virt member. Fixes: 1583052d ("arm64/acpi: disallow AML memory opregions to access kernel memory") Signed-off-by: Ard Biesheuvel <ardb@kernel.org> Signed-off-by: Rafael J. Wysocki <rafael.j.wysocki@intel.com>
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