Add some general description and pull in the kdoc comments from the source file to index most of the useful functions.
Tested-by: Alejandro Jimenez alejandro.j.jimenez@oracle.com Signed-off-by: Jason Gunthorpe jgg@nvidia.com --- Documentation/driver-api/generic_pt.rst | 140 ++++++++++++++++++++++++ Documentation/driver-api/index.rst | 1 + 2 files changed, 141 insertions(+) create mode 100644 Documentation/driver-api/generic_pt.rst
diff --git a/Documentation/driver-api/generic_pt.rst b/Documentation/driver-api/generic_pt.rst new file mode 100644 index 00000000000000..c0593f73318653 --- /dev/null +++ b/Documentation/driver-api/generic_pt.rst @@ -0,0 +1,140 @@ +.. SPDX-License-Identifier: GPL-2.0 + +======================== +Generic Radix Page Table +======================== + +.. kernel-doc:: include/linux/generic_pt/common.h + :doc: Generic Radix Page Table + +.. kernel-doc:: drivers/iommu/generic_pt/pt_defs.h + :doc: Generic Page Table Language + +----- +Usage +----- + +Generic PT is structured as a multi-compilation system. Since each format +provides an API using a common set of names there can be only one format active +within a compilation unit. This design avoids function pointers around the low +level API. + +Instead the function pointers can end up at the higher level API (ie map/unmap, +etc) and the per-format code can be directly inlined into the per-format +compilation unit. For something like iommu each format will be compiled into a +per-format iommu operations kernel module. + +For this to work the .c file for each compilation unit will include both the +format headers and the generic code for the implementation. For instance in an +implementation compilation unit the headers would normally be included as +follows:: + + #include <linux/generic_pt/common.h> + #include "fmt/defs_amdv1.h" + #include "pt_defs.h" + #include "fmt/amdv1.h" + #include "pt_common.h" + #include "pt_iter.h" + #include "iommut_pt.h" /* The iommu implementation */ + +iommu_pt.h includes definitions that will generate the operations functions for +map/unmap/etc using the definitions provided by AMDv1. The resulting module +will have exported symbols named like pt_iommu_amdv1_init(). + +Refer to drivers/iommu/generic-pt/fmt/iommu_template.h for an example of how the +iommu implementation uses multi-compilation to generate per-format ops structs +pointers. + +The format code is written so that the common names arise from #defines to +distinct format specific names. This is intended to aid debuggability by +avoiding symbol clashes across all the different formats. + +Exported symbols and other global names are mangled using a per-format string +via the NS() helper macro. + +The format uses struct pt_common as the top level struct for the table, +and each format will have its own struct pt_xxx which embeds it to store +format-specific information. + +The implementation will further wrapper this in its own top level struct, such +as struct pt_iommu_amdv1. + +---------------------------------------------- +Format functions at the struct pt_common level +---------------------------------------------- + +.. kernel-doc:: include/linux/generic_pt/common.h + :identifiers: +.. kernel-doc:: drivers/iommu/generic_pt/pt_common.h + +----------------- +Iteration Helpers +----------------- + +.. kernel-doc:: drivers/iommu/generic_pt/pt_iter.h + +---------------- +Writing a Format +---------------- + +It is best to start from a simple format that is similar to the target. x86_64 +is usually a good reference for something simple, and AMDv1 is something fairly +complete. + +The required inline functions need to be implemented in the format header. +These should all follow the standard pattern of:: + + static inline pt_oaddr_t amdv1pt_entry_oa(const struct pt_state *pts) + { + [..] + } + #define pt_entry_oa amdv1pt_entry_oa + +Where a uniquely named per-format inline function provides the implementation +and a define maps it to the generic name. This is intended to make debug symbols +work better. inline functions should always be used as the prototypes in +pt_common.h will cause the compiler to validate the function signature to +prevent errors. + +Review pt_fmt_defaults.h to understand some of the optional inlines. + +Once the format compiles then it should be run through the generic page table +kunit test in kunit_generic_pt.h using kunit. For example:: + + $ tools/testing/kunit/kunit.py run --build_dir build_kunit_x86_64 --arch x86_64 --kunitconfig ./drivers/iommu/generic_pt/.kunitconfig amdv1_fmt_test.* + [...] + [11:15:08] Testing complete. Ran 9 tests: passed: 9 + [11:15:09] Elapsed time: 3.137s total, 0.001s configuring, 2.368s building, 0.311s running + +The generic tests are intended to prove out the format functions and give +clearer failures to speed finding the problems. Once those pass then the entire +kunit suite should be run. + +--------------------------- +IOMMU Invalidation Features +--------------------------- + +Invalidation is how the page table algorithms synchronize with a HW cache of the +pagetable memory, typically called the TLB (or IOTLB for IOMMU cases). + +The TLB can store present PTEs, non-present PTEs and table pointers, depending +on its design. Every HW has its own approach on how to describe what has changed +to get changed items removed from the TLB. + +PT_FEAT_FLUSH_RANGE +------------------- + +PT_FEAT_FLUSH_RANGE is the easiest scheme to understand. It tries to generate a +single range invalidation for each operation, over invalidating if there are +gaps of VA that don't need invalidation. This trades off impacted VA for number +of invalidation operations. It does not keep track of what is being invalidated, +however if pages have to be freed then page table pointers have to be cleaned +from the walk cache. The range can start/end at any page boundary. + +PT_FEAT_FLUSH_RANGE_NO_GAPS +--------------------------- + +PT_FEAT_FLUSH_RANGE_NO_GAPS is similar to PT_FEAT_FLUSH_RANGE however it tries +to minimize the amount of impacted VA by issuing extra flush operations. This is +useful if the cost of processing VA is very high, for instance because a +hypervisor is processing the page table with a shadowing algorithm. diff --git a/Documentation/driver-api/index.rst b/Documentation/driver-api/index.rst index 3e2a270bd82826..baff96b5cf0ba4 100644 --- a/Documentation/driver-api/index.rst +++ b/Documentation/driver-api/index.rst @@ -93,6 +93,7 @@ Subsystem-specific APIs frame-buffer aperture generic-counter + generic_pt gpio/index hsi hte/index