// SPDX-License-Identifier: GPL-2.0 // Copyright (C) 2025 Arm Ltd. /* This file is intended to be included into mpam_devices.c */ #include /* * This test catches fields that aren't being sanitised - but can't tell you * which one... */ static void test__props_mismatch(struct kunit *test) { struct mpam_props parent = { 0 }; struct mpam_props child; memset(&child, 0xff, sizeof(child)); __props_mismatch(&parent, &child, false); memset(&child, 0, sizeof(child)); KUNIT_EXPECT_EQ(test, memcmp(&parent, &child, sizeof(child)), 0); memset(&child, 0xff, sizeof(child)); __props_mismatch(&parent, &child, true); KUNIT_EXPECT_EQ(test, memcmp(&parent, &child, sizeof(child)), 0); } static struct list_head fake_classes_list; static struct mpam_class fake_class = { 0 }; static struct mpam_component fake_comp1 = { 0 }; static struct mpam_component fake_comp2 = { 0 }; static struct mpam_vmsc fake_vmsc1 = { 0 }; static struct mpam_vmsc fake_vmsc2 = { 0 }; static struct mpam_msc fake_msc1 = { 0 }; static struct mpam_msc fake_msc2 = { 0 }; static struct mpam_msc_ris fake_ris1 = { 0 }; static struct mpam_msc_ris fake_ris2 = { 0 }; static struct platform_device fake_pdev = { 0 }; static inline void reset_fake_hierarchy(void) { INIT_LIST_HEAD(&fake_classes_list); memset(&fake_class, 0, sizeof(fake_class)); fake_class.level = 3; fake_class.type = MPAM_CLASS_CACHE; INIT_LIST_HEAD_RCU(&fake_class.components); INIT_LIST_HEAD(&fake_class.classes_list); memset(&fake_comp1, 0, sizeof(fake_comp1)); memset(&fake_comp2, 0, sizeof(fake_comp2)); fake_comp1.comp_id = 1; fake_comp2.comp_id = 2; INIT_LIST_HEAD(&fake_comp1.vmsc); INIT_LIST_HEAD(&fake_comp1.class_list); INIT_LIST_HEAD(&fake_comp2.vmsc); INIT_LIST_HEAD(&fake_comp2.class_list); memset(&fake_vmsc1, 0, sizeof(fake_vmsc1)); memset(&fake_vmsc2, 0, sizeof(fake_vmsc2)); INIT_LIST_HEAD(&fake_vmsc1.ris); INIT_LIST_HEAD(&fake_vmsc1.comp_list); fake_vmsc1.msc = &fake_msc1; INIT_LIST_HEAD(&fake_vmsc2.ris); INIT_LIST_HEAD(&fake_vmsc2.comp_list); fake_vmsc2.msc = &fake_msc2; memset(&fake_ris1, 0, sizeof(fake_ris1)); memset(&fake_ris2, 0, sizeof(fake_ris2)); fake_ris1.ris_idx = 1; INIT_LIST_HEAD(&fake_ris1.msc_list); fake_ris2.ris_idx = 2; INIT_LIST_HEAD(&fake_ris2.msc_list); fake_msc1.pdev = &fake_pdev; fake_msc2.pdev = &fake_pdev; list_add(&fake_class.classes_list, &fake_classes_list); } static void test_mpam_enable_merge_features(struct kunit *test) { reset_fake_hierarchy(); mutex_lock(&mpam_list_lock); /* One Class+Comp, two RIS in one vMSC with common features */ fake_comp1.class = &fake_class; list_add(&fake_comp1.class_list, &fake_class.components); fake_comp2.class = NULL; fake_vmsc1.comp = &fake_comp1; list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); fake_vmsc2.comp = NULL; fake_ris1.vmsc = &fake_vmsc1; list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); fake_ris2.vmsc = &fake_vmsc1; list_add(&fake_ris2.vmsc_list, &fake_vmsc1.ris); mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); mpam_set_feature(mpam_feat_cpor_part, &fake_ris2.props); fake_ris1.props.cpbm_wd = 4; fake_ris2.props.cpbm_wd = 4; mpam_enable_merge_features(&fake_classes_list); KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 4); reset_fake_hierarchy(); /* One Class+Comp, two RIS in one vMSC with non-overlapping features */ fake_comp1.class = &fake_class; list_add(&fake_comp1.class_list, &fake_class.components); fake_comp2.class = NULL; fake_vmsc1.comp = &fake_comp1; list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); fake_vmsc2.comp = NULL; fake_ris1.vmsc = &fake_vmsc1; list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); fake_ris2.vmsc = &fake_vmsc1; list_add(&fake_ris2.vmsc_list, &fake_vmsc1.ris); mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); mpam_set_feature(mpam_feat_cmax_cmin, &fake_ris2.props); fake_ris1.props.cpbm_wd = 4; fake_ris2.props.cmax_wd = 4; mpam_enable_merge_features(&fake_classes_list); /* Multiple RIS within one MSC controlling the same resource can be mismatched */ KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cmax_cmin, &fake_class.props)); KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cmax_cmin, &fake_vmsc1.props)); KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 4); KUNIT_EXPECT_EQ(test, fake_vmsc1.props.cmax_wd, 4); KUNIT_EXPECT_EQ(test, fake_class.props.cmax_wd, 4); reset_fake_hierarchy(); /* One Class+Comp, two MSC with overlapping features */ fake_comp1.class = &fake_class; list_add(&fake_comp1.class_list, &fake_class.components); fake_comp2.class = NULL; fake_vmsc1.comp = &fake_comp1; list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); fake_vmsc2.comp = &fake_comp1; list_add(&fake_vmsc2.comp_list, &fake_comp1.vmsc); fake_ris1.vmsc = &fake_vmsc1; list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); fake_ris2.vmsc = &fake_vmsc2; list_add(&fake_ris2.vmsc_list, &fake_vmsc2.ris); mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); mpam_set_feature(mpam_feat_cpor_part, &fake_ris2.props); fake_ris1.props.cpbm_wd = 4; fake_ris2.props.cpbm_wd = 4; mpam_enable_merge_features(&fake_classes_list); KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 4); reset_fake_hierarchy(); /* One Class+Comp, two MSC with non-overlapping features */ fake_comp1.class = &fake_class; list_add(&fake_comp1.class_list, &fake_class.components); fake_comp2.class = NULL; fake_vmsc1.comp = &fake_comp1; list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); fake_vmsc2.comp = &fake_comp1; list_add(&fake_vmsc2.comp_list, &fake_comp1.vmsc); fake_ris1.vmsc = &fake_vmsc1; list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); fake_ris2.vmsc = &fake_vmsc2; list_add(&fake_ris2.vmsc_list, &fake_vmsc2.ris); mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); mpam_set_feature(mpam_feat_cmax_cmin, &fake_ris2.props); fake_ris1.props.cpbm_wd = 4; fake_ris2.props.cmax_wd = 4; mpam_enable_merge_features(&fake_classes_list); /* * Multiple RIS in different MSC can't control the same resource, * mismatched features can not be supported. */ KUNIT_EXPECT_FALSE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); KUNIT_EXPECT_FALSE(test, mpam_has_feature(mpam_feat_cmax_cmin, &fake_class.props)); KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 0); KUNIT_EXPECT_EQ(test, fake_class.props.cmax_wd, 0); reset_fake_hierarchy(); /* One Class+Comp, two MSC with incompatible overlapping features */ fake_comp1.class = &fake_class; list_add(&fake_comp1.class_list, &fake_class.components); fake_comp2.class = NULL; fake_vmsc1.comp = &fake_comp1; list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); fake_vmsc2.comp = &fake_comp1; list_add(&fake_vmsc2.comp_list, &fake_comp1.vmsc); fake_ris1.vmsc = &fake_vmsc1; list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); fake_ris2.vmsc = &fake_vmsc2; list_add(&fake_ris2.vmsc_list, &fake_vmsc2.ris); mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); mpam_set_feature(mpam_feat_cpor_part, &fake_ris2.props); mpam_set_feature(mpam_feat_mbw_part, &fake_ris1.props); mpam_set_feature(mpam_feat_mbw_part, &fake_ris2.props); fake_ris1.props.cpbm_wd = 5; fake_ris2.props.cpbm_wd = 3; fake_ris1.props.mbw_pbm_bits = 5; fake_ris2.props.mbw_pbm_bits = 3; mpam_enable_merge_features(&fake_classes_list); /* * Multiple RIS in different MSC can't control the same resource, * mismatched features can not be supported. */ KUNIT_EXPECT_FALSE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); KUNIT_EXPECT_FALSE(test, mpam_has_feature(mpam_feat_mbw_part, &fake_class.props)); KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 0); KUNIT_EXPECT_EQ(test, fake_class.props.mbw_pbm_bits, 0); reset_fake_hierarchy(); /* One Class+Comp, two MSC with overlapping features that need tweaking */ fake_comp1.class = &fake_class; list_add(&fake_comp1.class_list, &fake_class.components); fake_comp2.class = NULL; fake_vmsc1.comp = &fake_comp1; list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); fake_vmsc2.comp = &fake_comp1; list_add(&fake_vmsc2.comp_list, &fake_comp1.vmsc); fake_ris1.vmsc = &fake_vmsc1; list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); fake_ris2.vmsc = &fake_vmsc2; list_add(&fake_ris2.vmsc_list, &fake_vmsc2.ris); mpam_set_feature(mpam_feat_mbw_min, &fake_ris1.props); mpam_set_feature(mpam_feat_mbw_min, &fake_ris2.props); mpam_set_feature(mpam_feat_cmax_cmax, &fake_ris1.props); mpam_set_feature(mpam_feat_cmax_cmax, &fake_ris2.props); fake_ris1.props.bwa_wd = 5; fake_ris2.props.bwa_wd = 3; fake_ris1.props.cmax_wd = 5; fake_ris2.props.cmax_wd = 3; mpam_enable_merge_features(&fake_classes_list); /* * RIS with different control properties need to be sanitised so the * class has the common set of properties. */ KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_mbw_min, &fake_class.props)); KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cmax_cmax, &fake_class.props)); KUNIT_EXPECT_EQ(test, fake_class.props.bwa_wd, 3); KUNIT_EXPECT_EQ(test, fake_class.props.cmax_wd, 3); reset_fake_hierarchy(); /* One Class Two Comp with overlapping features */ fake_comp1.class = &fake_class; list_add(&fake_comp1.class_list, &fake_class.components); fake_comp2.class = &fake_class; list_add(&fake_comp2.class_list, &fake_class.components); fake_vmsc1.comp = &fake_comp1; list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); fake_vmsc2.comp = &fake_comp2; list_add(&fake_vmsc2.comp_list, &fake_comp2.vmsc); fake_ris1.vmsc = &fake_vmsc1; list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); fake_ris2.vmsc = &fake_vmsc2; list_add(&fake_ris2.vmsc_list, &fake_vmsc2.ris); mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); mpam_set_feature(mpam_feat_cpor_part, &fake_ris2.props); fake_ris1.props.cpbm_wd = 4; fake_ris2.props.cpbm_wd = 4; mpam_enable_merge_features(&fake_classes_list); KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 4); reset_fake_hierarchy(); /* One Class Two Comp with non-overlapping features */ fake_comp1.class = &fake_class; list_add(&fake_comp1.class_list, &fake_class.components); fake_comp2.class = &fake_class; list_add(&fake_comp2.class_list, &fake_class.components); fake_vmsc1.comp = &fake_comp1; list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); fake_vmsc2.comp = &fake_comp2; list_add(&fake_vmsc2.comp_list, &fake_comp2.vmsc); fake_ris1.vmsc = &fake_vmsc1; list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); fake_ris2.vmsc = &fake_vmsc2; list_add(&fake_ris2.vmsc_list, &fake_vmsc2.ris); mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); mpam_set_feature(mpam_feat_cmax_cmin, &fake_ris2.props); fake_ris1.props.cpbm_wd = 4; fake_ris2.props.cmax_wd = 4; mpam_enable_merge_features(&fake_classes_list); /* * Multiple components can't control the same resource, mismatched features can * not be supported. */ KUNIT_EXPECT_FALSE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); KUNIT_EXPECT_FALSE(test, mpam_has_feature(mpam_feat_cmax_cmin, &fake_class.props)); KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 0); KUNIT_EXPECT_EQ(test, fake_class.props.cmax_wd, 0); mutex_unlock(&mpam_list_lock); } static void test_mpam_reset_msc_bitmap(struct kunit *test) { char __iomem *buf = kunit_kzalloc(test, SZ_16K, GFP_KERNEL); struct mpam_msc fake_msc = {}; u32 *test_result; if (!buf) return; fake_msc.mapped_hwpage = buf; fake_msc.mapped_hwpage_sz = SZ_16K; cpumask_copy(&fake_msc.accessibility, cpu_possible_mask); /* Satisfy lockdep checks */ mutex_init(&fake_msc.part_sel_lock); mutex_lock(&fake_msc.part_sel_lock); test_result = (u32 *)(buf + MPAMCFG_CPBM); mpam_reset_msc_bitmap(&fake_msc, MPAMCFG_CPBM, 0); KUNIT_EXPECT_EQ(test, test_result[0], 0); KUNIT_EXPECT_EQ(test, test_result[1], 0); test_result[0] = 0; test_result[1] = 0; mpam_reset_msc_bitmap(&fake_msc, MPAMCFG_CPBM, 1); KUNIT_EXPECT_EQ(test, test_result[0], 1); KUNIT_EXPECT_EQ(test, test_result[1], 0); test_result[0] = 0; test_result[1] = 0; mpam_reset_msc_bitmap(&fake_msc, MPAMCFG_CPBM, 16); KUNIT_EXPECT_EQ(test, test_result[0], 0xffff); KUNIT_EXPECT_EQ(test, test_result[1], 0); test_result[0] = 0; test_result[1] = 0; mpam_reset_msc_bitmap(&fake_msc, MPAMCFG_CPBM, 32); KUNIT_EXPECT_EQ(test, test_result[0], 0xffffffff); KUNIT_EXPECT_EQ(test, test_result[1], 0); test_result[0] = 0; test_result[1] = 0; mpam_reset_msc_bitmap(&fake_msc, MPAMCFG_CPBM, 33); KUNIT_EXPECT_EQ(test, test_result[0], 0xffffffff); KUNIT_EXPECT_EQ(test, test_result[1], 1); test_result[0] = 0; test_result[1] = 0; mutex_unlock(&fake_msc.part_sel_lock); } static struct kunit_case mpam_devices_test_cases[] = { KUNIT_CASE(test_mpam_reset_msc_bitmap), KUNIT_CASE(test_mpam_enable_merge_features), KUNIT_CASE(test__props_mismatch), {} }; static struct kunit_suite mpam_devices_test_suite = { .name = "mpam_devices_test_suite", .test_cases = mpam_devices_test_cases, }; kunit_test_suites(&mpam_devices_test_suite);