#include #include #include TEST(PROCESSORS, count) { ASSERT_EQ(5, cpuinfo_get_processors_count()); } TEST(PROCESSORS, non_null) { ASSERT_TRUE(cpuinfo_get_processors()); } TEST(PROCESSORS, smt_id) { for (uint32_t i = 0; i < cpuinfo_get_processors_count(); i++) { ASSERT_EQ(0, cpuinfo_get_processor(i)->smt_id); } } TEST(PROCESSORS, core) { for (uint32_t i = 0; i < cpuinfo_get_processors_count(); i++) { ASSERT_EQ(cpuinfo_get_core(i), cpuinfo_get_processor(i)->core); } } TEST(PROCESSORS, cluster) { for (uint32_t i = 0; i < cpuinfo_get_processors_count(); i++) { switch (i) { case 0: case 1: case 2: case 3: ASSERT_EQ(cpuinfo_get_cluster(0), cpuinfo_get_processor(i)->cluster); break; case 4: ASSERT_EQ(cpuinfo_get_cluster(1), cpuinfo_get_processor(i)->cluster); break; } } } TEST(PROCESSORS, package) { for (uint32_t i = 0; i < cpuinfo_get_processors_count(); i++) { ASSERT_EQ(cpuinfo_get_package(0), cpuinfo_get_processor(i)->package); } } TEST(PROCESSORS, linux_id) { for (uint32_t i = 0; i < cpuinfo_get_processors_count(); i++) { switch (i) { case 4: ASSERT_EQ(0, cpuinfo_get_processor(i)->linux_id); break; default: ASSERT_EQ(i + 4, cpuinfo_get_processor(i)->linux_id); break; } } } TEST(PROCESSORS, l1i) { for (uint32_t i = 0; i < cpuinfo_get_processors_count(); i++) { ASSERT_EQ(cpuinfo_get_l1i_cache(i), cpuinfo_get_processor(i)->cache.l1i); } } TEST(PROCESSORS, l1d) { for (uint32_t i = 0; i < cpuinfo_get_processors_count(); i++) { ASSERT_EQ(cpuinfo_get_l1d_cache(i), cpuinfo_get_processor(i)->cache.l1d); } } TEST(PROCESSORS, l2) { for (uint32_t i = 0; i < cpuinfo_get_processors_count(); i++) { switch (i) { case 0: case 1: case 2: case 3: ASSERT_EQ(cpuinfo_get_l2_cache(0), cpuinfo_get_processor(i)->cache.l2); break; case 4: ASSERT_EQ(cpuinfo_get_l2_cache(1), cpuinfo_get_processor(i)->cache.l2); break; } } } TEST(PROCESSORS, l3) { for (uint32_t i = 0; i < cpuinfo_get_processors_count(); i++) { ASSERT_FALSE(cpuinfo_get_processor(i)->cache.l3); } } TEST(PROCESSORS, l4) { for (uint32_t i = 0; i < cpuinfo_get_processors_count(); i++) { ASSERT_FALSE(cpuinfo_get_processor(i)->cache.l4); } } TEST(CORES, count) { ASSERT_EQ(5, cpuinfo_get_cores_count()); } TEST(CORES, non_null) { ASSERT_TRUE(cpuinfo_get_cores()); } TEST(CORES, processor_start) { for (uint32_t i = 0; i < cpuinfo_get_cores_count(); i++) { ASSERT_EQ(i, cpuinfo_get_core(i)->processor_start); } } TEST(CORES, processor_count) { for (uint32_t i = 0; i < cpuinfo_get_cores_count(); i++) { ASSERT_EQ(1, cpuinfo_get_core(i)->processor_count); } } TEST(CORES, core_id) { for (uint32_t i = 0; i < cpuinfo_get_cores_count(); i++) { ASSERT_EQ(i, cpuinfo_get_core(i)->core_id); } } TEST(CORES, cluster) { for (uint32_t i = 0; i < cpuinfo_get_cores_count(); i++) { switch (i) { case 0: case 1: case 2: case 3: ASSERT_EQ(cpuinfo_get_cluster(0), cpuinfo_get_core(i)->cluster); break; case 4: ASSERT_EQ(cpuinfo_get_cluster(1), cpuinfo_get_core(i)->cluster); break; } } } TEST(CORES, package) { for (uint32_t i = 0; i < cpuinfo_get_cores_count(); i++) { ASSERT_EQ(cpuinfo_get_package(0), cpuinfo_get_core(i)->package); } } TEST(CORES, vendor) { for (uint32_t i = 0; i < cpuinfo_get_cores_count(); i++) { ASSERT_EQ(cpuinfo_vendor_arm, cpuinfo_get_core(i)->vendor); } } TEST(CORES, uarch) { for (uint32_t i = 0; i < cpuinfo_get_cores_count(); i++) { ASSERT_EQ(cpuinfo_uarch_cortex_a53, cpuinfo_get_core(i)->uarch); } } TEST(CORES, midr) { for (uint32_t i = 0; i < cpuinfo_get_cores_count(); i++) { ASSERT_EQ(UINT32_C(0x410FD032), cpuinfo_get_core(i)->midr); } } TEST(CORES, DISABLED_frequency) { for (uint32_t i = 0; i < cpuinfo_get_cores_count(); i++) { ASSERT_EQ(UINT64_C(1508000000), cpuinfo_get_core(i)->frequency); } } TEST(CLUSTERS, count) { ASSERT_EQ(2, cpuinfo_get_clusters_count()); } TEST(CLUSTERS, non_null) { ASSERT_TRUE(cpuinfo_get_clusters()); } TEST(CLUSTERS, processor_start) { for (uint32_t i = 0; i < cpuinfo_get_clusters_count(); i++) { switch (i) { case 0: ASSERT_EQ(0, cpuinfo_get_cluster(i)->processor_start); break; case 1: ASSERT_EQ(4, cpuinfo_get_cluster(i)->processor_start); break; } } } TEST(CLUSTERS, processor_count) { for (uint32_t i = 0; i < cpuinfo_get_clusters_count(); i++) { switch (i) { case 0: ASSERT_EQ(4, cpuinfo_get_cluster(i)->processor_count); break; case 1: ASSERT_EQ(1, cpuinfo_get_cluster(i)->processor_count); break; } } } TEST(CLUSTERS, core_start) { for (uint32_t i = 0; i < cpuinfo_get_clusters_count(); i++) { switch (i) { case 0: ASSERT_EQ(0, cpuinfo_get_cluster(i)->core_start); break; case 1: ASSERT_EQ(4, cpuinfo_get_cluster(i)->core_start); break; } } } TEST(CLUSTERS, core_count) { for (uint32_t i = 0; i < cpuinfo_get_clusters_count(); i++) { switch (i) { case 0: ASSERT_EQ(4, cpuinfo_get_cluster(i)->core_count); break; case 1: ASSERT_EQ(1, cpuinfo_get_cluster(i)->core_count); break; } } } TEST(CLUSTERS, cluster_id) { for (uint32_t i = 0; i < cpuinfo_get_clusters_count(); i++) { ASSERT_EQ(i, cpuinfo_get_cluster(i)->cluster_id); } } TEST(CLUSTERS, package) { for (uint32_t i = 0; i < cpuinfo_get_clusters_count(); i++) { ASSERT_EQ(cpuinfo_get_package(0), cpuinfo_get_cluster(i)->package); } } TEST(CLUSTERS, vendor) { for (uint32_t i = 0; i < cpuinfo_get_clusters_count(); i++) { ASSERT_EQ(cpuinfo_vendor_arm, cpuinfo_get_cluster(i)->vendor); } } TEST(CLUSTERS, uarch) { for (uint32_t i = 0; i < cpuinfo_get_clusters_count(); i++) { ASSERT_EQ(cpuinfo_uarch_cortex_a53, cpuinfo_get_cluster(i)->uarch); } } TEST(CLUSTERS, midr) { for (uint32_t i = 0; i < cpuinfo_get_clusters_count(); i++) { ASSERT_EQ(UINT32_C(0x410FD032), cpuinfo_get_cluster(i)->midr); } } TEST(CLUSTERS, DISABLED_frequency) { for (uint32_t i = 0; i < cpuinfo_get_clusters_count(); i++) { ASSERT_EQ(UINT64_C(1508000000), cpuinfo_get_cluster(i)->frequency); } } TEST(PACKAGES, count) { ASSERT_EQ(1, cpuinfo_get_packages_count()); } TEST(PACKAGES, name) { for (uint32_t i = 0; i < cpuinfo_get_packages_count(); i++) { ASSERT_EQ("MediaTek MT6738", std::string(cpuinfo_get_package(i)->name, strnlen(cpuinfo_get_package(i)->name, CPUINFO_PACKAGE_NAME_MAX))); } } TEST(PACKAGES, processor_start) { for (uint32_t i = 0; i < cpuinfo_get_packages_count(); i++) { ASSERT_EQ(0, cpuinfo_get_package(i)->processor_start); } } TEST(PACKAGES, processor_count) { for (uint32_t i = 0; i < cpuinfo_get_packages_count(); i++) { ASSERT_EQ(5, cpuinfo_get_package(i)->processor_count); } } TEST(PACKAGES, core_start) { for (uint32_t i = 0; i < cpuinfo_get_packages_count(); i++) { ASSERT_EQ(0, cpuinfo_get_package(i)->core_start); } } TEST(PACKAGES, core_count) { for (uint32_t i = 0; i < cpuinfo_get_packages_count(); i++) { ASSERT_EQ(5, cpuinfo_get_package(i)->core_count); } } TEST(PACKAGES, cluster_start) { for (uint32_t i = 0; i < cpuinfo_get_packages_count(); i++) { ASSERT_EQ(0, cpuinfo_get_package(i)->cluster_start); } } TEST(PACKAGES, cluster_count) { for (uint32_t i = 0; i < cpuinfo_get_packages_count(); i++) { ASSERT_EQ(2, cpuinfo_get_package(i)->cluster_count); } } TEST(ISA, thumb) { #if CPUINFO_ARCH_ARM ASSERT_TRUE(cpuinfo_has_arm_thumb()); #elif CPUINFO_ARCH_ARM64 ASSERT_FALSE(cpuinfo_has_arm_thumb()); #endif } TEST(ISA, thumb2) { #if CPUINFO_ARCH_ARM ASSERT_TRUE(cpuinfo_has_arm_thumb2()); #elif CPUINFO_ARCH_ARM64 ASSERT_FALSE(cpuinfo_has_arm_thumb2()); #endif } TEST(ISA, armv5e) { #if CPUINFO_ARCH_ARM ASSERT_TRUE(cpuinfo_has_arm_v5e()); #elif CPUINFO_ARCH_ARM64 ASSERT_FALSE(cpuinfo_has_arm_v5e()); #endif } TEST(ISA, armv6) { #if CPUINFO_ARCH_ARM ASSERT_TRUE(cpuinfo_has_arm_v6()); #elif CPUINFO_ARCH_ARM64 ASSERT_FALSE(cpuinfo_has_arm_v6()); #endif } TEST(ISA, armv6k) { #if CPUINFO_ARCH_ARM ASSERT_TRUE(cpuinfo_has_arm_v6k()); #elif CPUINFO_ARCH_ARM64 ASSERT_FALSE(cpuinfo_has_arm_v6k()); #endif } TEST(ISA, armv7) { #if CPUINFO_ARCH_ARM ASSERT_TRUE(cpuinfo_has_arm_v7()); #elif CPUINFO_ARCH_ARM64 ASSERT_FALSE(cpuinfo_has_arm_v7()); #endif } TEST(ISA, armv7mp) { #if CPUINFO_ARCH_ARM ASSERT_TRUE(cpuinfo_has_arm_v7mp()); #elif CPUINFO_ARCH_ARM64 ASSERT_FALSE(cpuinfo_has_arm_v7mp()); #endif } TEST(ISA, idiv) { ASSERT_TRUE(cpuinfo_has_arm_idiv()); } TEST(ISA, vfpv2) { ASSERT_FALSE(cpuinfo_has_arm_vfpv2()); } TEST(ISA, vfpv3) { ASSERT_TRUE(cpuinfo_has_arm_vfpv3()); } TEST(ISA, vfpv3_d32) { ASSERT_TRUE(cpuinfo_has_arm_vfpv3_d32()); } TEST(ISA, vfpv3_fp16) { ASSERT_TRUE(cpuinfo_has_arm_vfpv3_fp16()); } TEST(ISA, vfpv3_fp16_d32) { ASSERT_TRUE(cpuinfo_has_arm_vfpv3_fp16_d32()); } TEST(ISA, vfpv4) { ASSERT_TRUE(cpuinfo_has_arm_vfpv4()); } TEST(ISA, vfpv4_d32) { ASSERT_TRUE(cpuinfo_has_arm_vfpv4_d32()); } TEST(ISA, wmmx) { ASSERT_FALSE(cpuinfo_has_arm_wmmx()); } TEST(ISA, wmmx2) { ASSERT_FALSE(cpuinfo_has_arm_wmmx2()); } TEST(ISA, neon) { ASSERT_TRUE(cpuinfo_has_arm_neon()); } TEST(ISA, neon_fp16) { ASSERT_TRUE(cpuinfo_has_arm_neon_fp16()); } TEST(ISA, neon_fma) { ASSERT_TRUE(cpuinfo_has_arm_neon_fma()); } TEST(ISA, atomics) { ASSERT_FALSE(cpuinfo_has_arm_atomics()); } TEST(ISA, neon_rdm) { ASSERT_FALSE(cpuinfo_has_arm_neon_rdm()); } TEST(ISA, fp16_arith) { ASSERT_FALSE(cpuinfo_has_arm_fp16_arith()); } TEST(ISA, neon_fp16_arith) { ASSERT_FALSE(cpuinfo_has_arm_neon_fp16_arith()); } TEST(ISA, neon_dot) { ASSERT_FALSE(cpuinfo_has_arm_neon_dot()); } TEST(ISA, jscvt) { ASSERT_FALSE(cpuinfo_has_arm_jscvt()); } TEST(ISA, fcma) { ASSERT_FALSE(cpuinfo_has_arm_fcma()); } TEST(ISA, aes) { ASSERT_TRUE(cpuinfo_has_arm_aes()); } TEST(ISA, sha1) { ASSERT_TRUE(cpuinfo_has_arm_sha1()); } TEST(ISA, sha2) { ASSERT_TRUE(cpuinfo_has_arm_sha2()); } TEST(ISA, pmull) { ASSERT_TRUE(cpuinfo_has_arm_pmull()); } TEST(ISA, crc32) { ASSERT_TRUE(cpuinfo_has_arm_crc32()); } TEST(L1I, count) { ASSERT_EQ(5, cpuinfo_get_l1i_caches_count()); } TEST(L1I, non_null) { ASSERT_TRUE(cpuinfo_get_l1i_caches()); } TEST(L1I, size) { for (uint32_t i = 0; i < cpuinfo_get_l1i_caches_count(); i++) { ASSERT_EQ(16 * 1024, cpuinfo_get_l1i_cache(i)->size); } } TEST(L1I, associativity) { for (uint32_t i = 0; i < cpuinfo_get_l1i_caches_count(); i++) { ASSERT_EQ(2, cpuinfo_get_l1i_cache(i)->associativity); } } TEST(L1I, sets) { for (uint32_t i = 0; i < cpuinfo_get_l1i_caches_count(); i++) { ASSERT_EQ(cpuinfo_get_l1i_cache(i)->size, cpuinfo_get_l1i_cache(i)->sets * cpuinfo_get_l1i_cache(i)->line_size * cpuinfo_get_l1i_cache(i)->partitions * cpuinfo_get_l1i_cache(i)->associativity); } } TEST(L1I, partitions) { for (uint32_t i = 0; i < cpuinfo_get_l1i_caches_count(); i++) { ASSERT_EQ(1, cpuinfo_get_l1i_cache(i)->partitions); } } TEST(L1I, line_size) { for (uint32_t i = 0; i < cpuinfo_get_l1i_caches_count(); i++) { ASSERT_EQ(64, cpuinfo_get_l1i_cache(i)->line_size); } } TEST(L1I, flags) { for (uint32_t i = 0; i < cpuinfo_get_l1i_caches_count(); i++) { ASSERT_EQ(0, cpuinfo_get_l1i_cache(i)->flags); } } TEST(L1I, processors) { for (uint32_t i = 0; i < cpuinfo_get_l1i_caches_count(); i++) { ASSERT_EQ(i, cpuinfo_get_l1i_cache(i)->processor_start); ASSERT_EQ(1, cpuinfo_get_l1i_cache(i)->processor_count); } } TEST(L1D, count) { ASSERT_EQ(5, cpuinfo_get_l1d_caches_count()); } TEST(L1D, non_null) { ASSERT_TRUE(cpuinfo_get_l1d_caches()); } TEST(L1D, size) { for (uint32_t i = 0; i < cpuinfo_get_l1d_caches_count(); i++) { ASSERT_EQ(16 * 1024, cpuinfo_get_l1d_cache(i)->size); } } TEST(L1D, associativity) { for (uint32_t i = 0; i < cpuinfo_get_l1d_caches_count(); i++) { ASSERT_EQ(4, cpuinfo_get_l1d_cache(i)->associativity); } } TEST(L1D, sets) { for (uint32_t i = 0; i < cpuinfo_get_l1d_caches_count(); i++) { ASSERT_EQ(cpuinfo_get_l1d_cache(i)->size, cpuinfo_get_l1d_cache(i)->sets * cpuinfo_get_l1d_cache(i)->line_size * cpuinfo_get_l1d_cache(i)->partitions * cpuinfo_get_l1d_cache(i)->associativity); } } TEST(L1D, partitions) { for (uint32_t i = 0; i < cpuinfo_get_l1d_caches_count(); i++) { ASSERT_EQ(1, cpuinfo_get_l1d_cache(i)->partitions); } } TEST(L1D, line_size) { for (uint32_t i = 0; i < cpuinfo_get_l1d_caches_count(); i++) { ASSERT_EQ(64, cpuinfo_get_l1d_cache(i)->line_size); } } TEST(L1D, flags) { for (uint32_t i = 0; i < cpuinfo_get_l1d_caches_count(); i++) { ASSERT_EQ(0, cpuinfo_get_l1d_cache(i)->flags); } } TEST(L1D, processors) { for (uint32_t i = 0; i < cpuinfo_get_l1d_caches_count(); i++) { ASSERT_EQ(i, cpuinfo_get_l1d_cache(i)->processor_start); ASSERT_EQ(1, cpuinfo_get_l1d_cache(i)->processor_count); } } TEST(L2, count) { ASSERT_EQ(2, cpuinfo_get_l2_caches_count()); } TEST(L2, non_null) { ASSERT_TRUE(cpuinfo_get_l2_caches()); } TEST(L2, size) { for (uint32_t i = 0; i < cpuinfo_get_l2_caches_count(); i++) { ASSERT_EQ(256 * 1024, cpuinfo_get_l2_cache(i)->size); } } TEST(L2, associativity) { for (uint32_t i = 0; i < cpuinfo_get_l2_caches_count(); i++) { ASSERT_EQ(16, cpuinfo_get_l2_cache(i)->associativity); } } TEST(L2, sets) { for (uint32_t i = 0; i < cpuinfo_get_l2_caches_count(); i++) { ASSERT_EQ(cpuinfo_get_l2_cache(i)->size, cpuinfo_get_l2_cache(i)->sets * cpuinfo_get_l2_cache(i)->line_size * cpuinfo_get_l2_cache(i)->partitions * cpuinfo_get_l2_cache(i)->associativity); } } TEST(L2, partitions) { for (uint32_t i = 0; i < cpuinfo_get_l2_caches_count(); i++) { ASSERT_EQ(1, cpuinfo_get_l2_cache(i)->partitions); } } TEST(L2, line_size) { for (uint32_t i = 0; i < cpuinfo_get_l2_caches_count(); i++) { ASSERT_EQ(64, cpuinfo_get_l2_cache(i)->line_size); } } TEST(L2, flags) { for (uint32_t i = 0; i < cpuinfo_get_l2_caches_count(); i++) { ASSERT_EQ(0, cpuinfo_get_l2_cache(i)->flags); } } TEST(L2, processors) { for (uint32_t i = 0; i < cpuinfo_get_l2_caches_count(); i++) { switch (i) { case 0: ASSERT_EQ(0, cpuinfo_get_l2_cache(i)->processor_start); ASSERT_EQ(4, cpuinfo_get_l2_cache(i)->processor_count); break; case 1: ASSERT_EQ(4, cpuinfo_get_l2_cache(i)->processor_start); ASSERT_EQ(1, cpuinfo_get_l2_cache(i)->processor_count); break; } } } TEST(L3, none) { ASSERT_EQ(0, cpuinfo_get_l3_caches_count()); ASSERT_FALSE(cpuinfo_get_l3_caches()); } TEST(L4, none) { ASSERT_EQ(0, cpuinfo_get_l4_caches_count()); ASSERT_FALSE(cpuinfo_get_l4_caches()); } #include int main(int argc, char* argv[]) { #if CPUINFO_ARCH_ARM cpuinfo_set_hwcap(UINT32_C(0x0037B0D6)); cpuinfo_set_hwcap2(UINT32_C(0x0000001F)); #elif CPUINFO_ARCH_ARM64 cpuinfo_set_hwcap(UINT32_C(0x000000FF)); #endif cpuinfo_mock_filesystem(filesystem); #ifdef __ANDROID__ cpuinfo_mock_android_properties(properties); #endif cpuinfo_initialize(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); }