/* SPDX-License-Identifier: MIT */ /* * Copyright © 2023 Intel Corporation */ #ifndef _XE_ASSERT_H_ #define _XE_ASSERT_H_ #include #include #include "xe_gt_types.h" #include "xe_step.h" /** * DOC: Xe ASSERTs * * While Xe driver aims to be simpler than legacy i915 driver it is still * complex enough that some changes introduced while adding new functionality * could break the existing code. * * Adding &drm_WARN or &drm_err to catch unwanted programming usage could lead * to undesired increased driver footprint and may impact production driver * performance as this additional code will be always present. * * To allow annotate functions with additional detailed debug checks to assert * that all prerequisites are satisfied, without worrying about footprint or * performance penalty on production builds where all potential misuses * introduced during code integration were already fixed, we introduce family * of Xe assert macros that try to follow classic assert() utility: * * * xe_assert() * * xe_tile_assert() * * xe_gt_assert() * * These macros are implemented on top of &drm_WARN, but unlikely to the origin, * warning is triggered when provided condition is false. Additionally all above * assert macros cannot be used in expressions or as a condition, since * underlying code will be compiled out on non-debug builds. * * Note that these macros are not intended for use to cover known gaps in the * implementation; for such cases use regular &drm_WARN or &drm_err and provide * valid safe fallback. * * Also in cases where performance or footprint is not an issue, developers * should continue to use the regular &drm_WARN or &drm_err to ensure that bug * reports from production builds will contain meaningful diagnostics data. * * Below code shows how asserts could help in debug to catch unplanned use:: * * static void one_igfx(struct xe_device *xe) * { * xe_assert(xe, xe->info.is_dgfx == false); * xe_assert(xe, xe->info.tile_count == 1); * } * * static void two_dgfx(struct xe_device *xe) * { * xe_assert(xe, xe->info.is_dgfx); * xe_assert(xe, xe->info.tile_count == 2); * } * * void foo(struct xe_device *xe) * { * if (xe->info.dgfx) * return two_dgfx(xe); * return one_igfx(xe); * } * * void bar(struct xe_device *xe) * { * if (drm_WARN_ON(xe->drm, xe->info.tile_count > 2)) * return; * * if (xe->info.tile_count == 2) * return two_dgfx(xe); * return one_igfx(xe); * } */ #if IS_ENABLED(CONFIG_DRM_XE_DEBUG) #define __xe_assert_msg(xe, condition, msg, arg...) ({ \ (void)drm_WARN(&(xe)->drm, !(condition), "Assertion `%s` failed!\n" msg, \ __stringify(condition), ## arg); \ }) #else #define __xe_assert_msg(xe, condition, msg, arg...) ({ \ typecheck(const struct xe_device *, xe); \ BUILD_BUG_ON_INVALID(condition); \ }) #endif /** * xe_assert - warn if condition is false when debugging. * @xe: the &struct xe_device pointer to which &condition applies * @condition: condition to check * * xe_assert() uses &drm_WARN to emit a warning and print additional information * that could be read from the &xe pointer if provided &condition is false. * * Contrary to &drm_WARN, xe_assert() is effective only on debug builds * (&CONFIG_DRM_XE_DEBUG must be enabled) and cannot be used in expressions * or as a condition. * * See `Xe ASSERTs`_ for general usage guidelines. */ #define xe_assert(xe, condition) xe_assert_msg((xe), condition, "") #define xe_assert_msg(xe, condition, msg, arg...) ({ \ const struct xe_device *__xe = (xe); \ __xe_assert_msg(__xe, condition, \ "platform: %s subplatform: %d\n" \ "graphics: %s %u.%02u step %s\n" \ "media: %s %u.%02u step %s\n" \ msg, \ __xe->info.platform_name, __xe->info.subplatform, \ __xe->info.graphics_name, \ __xe->info.graphics_verx100 / 100, \ __xe->info.graphics_verx100 % 100, \ xe_step_name(__xe->info.step.graphics), \ __xe->info.media_name, \ __xe->info.media_verx100 / 100, \ __xe->info.media_verx100 % 100, \ xe_step_name(__xe->info.step.media), \ ## arg); \ }) /** * xe_tile_assert - warn if condition is false when debugging. * @tile: the &struct xe_tile pointer to which &condition applies * @condition: condition to check * * xe_tile_assert() uses &drm_WARN to emit a warning and print additional * information that could be read from the &tile pointer if provided &condition * is false. * * Contrary to &drm_WARN, xe_tile_assert() is effective only on debug builds * (&CONFIG_DRM_XE_DEBUG must be enabled) and cannot be used in expressions * or as a condition. * * See `Xe ASSERTs`_ for general usage guidelines. */ #define xe_tile_assert(tile, condition) xe_tile_assert_msg((tile), condition, "") #define xe_tile_assert_msg(tile, condition, msg, arg...) ({ \ const struct xe_tile *__tile = (tile); \ char __buf[10] __maybe_unused; \ xe_assert_msg(tile_to_xe(__tile), condition, "tile: %u VRAM %s\n" msg, \ __tile->id, ({ string_get_size(__tile->mem.vram.actual_physical_size, 1, \ STRING_UNITS_2, __buf, sizeof(__buf)); __buf; }), ## arg); \ }) /** * xe_gt_assert - warn if condition is false when debugging. * @gt: the &struct xe_gt pointer to which &condition applies * @condition: condition to check * * xe_gt_assert() uses &drm_WARN to emit a warning and print additional * information that could be safetely read from the > pointer if provided * &condition is false. * * Contrary to &drm_WARN, xe_gt_assert() is effective only on debug builds * (&CONFIG_DRM_XE_DEBUG must be enabled) and cannot be used in expressions * or as a condition. * * See `Xe ASSERTs`_ for general usage guidelines. */ #define xe_gt_assert(gt, condition) xe_gt_assert_msg((gt), condition, "") #define xe_gt_assert_msg(gt, condition, msg, arg...) ({ \ const struct xe_gt *__gt = (gt); \ xe_tile_assert_msg(gt_to_tile(__gt), condition, "GT: %u type %d\n" msg, \ __gt->info.id, __gt->info.type, ## arg); \ }) #endif