diff options
author | Miao Wang <miaowang@google.com> | 2022-09-03 02:03:27 +0000 |
---|---|---|
committer | Automerger Merge Worker <android-build-automerger-merge-worker@system.gserviceaccount.com> | 2022-09-03 02:03:27 +0000 |
commit | 107961a788647867bfea52fee12457a9cc9c57c9 (patch) | |
tree | 01125c6c04cd48ed1fd60ac43fd55085dcab254a | |
parent | 30d514761f699dfe6ffc0edae03008f675d41007 (diff) | |
parent | 70f8adc3a792ccfbdda72efb20214347509acd8a (diff) | |
download | cpuinfo-android14-qpr2-s5-release.tar.gz |
Merge remote-tracking branch 'aosp/upstream-master' into rebase_xnnpack am: 1b64d9d304 am: 782bdb7c29 am: 66e5f4ceed am: 936f298fa0 am: 70f8adc3a7android-14.0.0_r45android-14.0.0_r44android-14.0.0_r43android-14.0.0_r42android-14.0.0_r41android-14.0.0_r40android-14.0.0_r39android-14.0.0_r38android-14.0.0_r37android-14.0.0_r36android-14.0.0_r35android-14.0.0_r34android-14.0.0_r33android-14.0.0_r32android-14.0.0_r31android-14.0.0_r30android-14.0.0_r29android-14.0.0_r27android-14.0.0_r26android-14.0.0_r25android-14.0.0_r24android-14.0.0_r23android-14.0.0_r22android-14.0.0_r21android-14.0.0_r20android-14.0.0_r19android-14.0.0_r18android-14.0.0_r17android-14.0.0_r16aml_rkp_341510000aml_rkp_341311000aml_rkp_341114000aml_rkp_341015010aml_rkp_341012000aml_hef_341717050aml_hef_341613000aml_hef_341512030aml_hef_341415040aml_hef_341311010aml_hef_341114030aml_cfg_341510000android14-qpr2-s5-releaseandroid14-qpr2-s4-releaseandroid14-qpr2-s3-releaseandroid14-qpr2-s2-releaseandroid14-qpr2-s1-releaseandroid14-qpr2-releaseandroid14-qpr1-s2-releaseandroid14-qpr1-releaseandroid14-mainline-healthfitness-releaseandroid14-devandroid14-d2-s5-releaseandroid14-d2-s4-releaseandroid14-d2-s3-releaseandroid14-d2-s2-releaseandroid14-d2-s1-releaseandroid14-d2-release
Original change: https://android-review.googlesource.com/c/platform/external/cpuinfo/+/2203158
Change-Id: Iab9a17491309988a362098d3b54bae7389dc35dd
Signed-off-by: Automerger Merge Worker <android-build-automerger-merge-worker@system.gserviceaccount.com>
39 files changed, 2621 insertions, 261 deletions
diff --git a/.bazelrc b/.bazelrc new file mode 100644 index 0000000..583cbbd --- /dev/null +++ b/.bazelrc @@ -0,0 +1 @@ +build --symlink_prefix=/ # Out of source build diff --git a/.bazelversion b/.bazelversion new file mode 100644 index 0000000..0062ac9 --- /dev/null +++ b/.bazelversion @@ -0,0 +1 @@ +5.0.0 diff --git a/.github/workflows/build.yml b/.github/workflows/build.yml new file mode 100644 index 0000000..794e283 --- /dev/null +++ b/.github/workflows/build.yml @@ -0,0 +1,68 @@ +name: Build using CMake +on: + pull_request: + push: + branches: + - master + - main + +concurrency: + group: ${{ github.workflow }}-${{ github.head_ref || github.ref }} + cancel-in-progress: true +jobs: + cmake-linux-local: + runs-on: ubuntu-latest + timeout-minutes: 40 + steps: + - uses: actions/checkout@v2 + - name: Update apt + run: sudo apt update + - name: Install ninja + run: sudo apt install ninja-build + - name: Configure and build + run: scripts/local-build.sh + working-directory: ${{ github.workspace }} + cmake-darwin: + runs-on: macos-latest + timeout-minutes: 40 + steps: + - uses: actions/checkout@v2 + - name: Install ninja + run: brew install ninja + - name: Configure and build + run: scripts/local-build.sh + working-directory: ${{ github.workspace }} + cmake-windows: + runs-on: windows-latest + timeout-minutes: 40 + steps: + - uses: actions/checkout@v2 + - name: Install ninja + run: choco install ninja + - name: Configure and build + run: scripts/local-build.sh + shell: bash # Specify bash so we can reuse the build script on Windows (runs on Git bash) + working-directory: ${{ github.workspace }} + cmake-android: + strategy: + matrix: + script: [android-arm64-build.sh, android-armv7-build.sh, android-x86-build.sh] + runs-on: ubuntu-latest + timeout-minutes: 40 + steps: + - uses: actions/checkout@v2 + - name: Update apt + run: sudo apt update + - name: Install ninja + run: sudo apt install ninja-build + - name: Setup Android NDK + id: setup-ndk + uses: nttld/setup-ndk@v1.0.6 + with: + ndk-version: r23b + add-to-path: false + - name: Configure and build + run: scripts/${{ matrix.script }} + working-directory: ${{ github.workspace }} + env: + ANDROID_NDK: ${{ steps.setup-ndk.outputs.ndk-path }} diff --git a/BUILD.bazel b/BUILD.bazel new file mode 100644 index 0000000..90bef8d --- /dev/null +++ b/BUILD.bazel @@ -0,0 +1,416 @@ +# Copied from TensorFlow's `tensorflow/tree/master/third_party/cpuinfo/BUILD +# Licenced under Apache-2.0 License + +# cpuinfo, a library to detect information about the host CPU +package(default_visibility = ["//visibility:public"]) + +licenses(["notice"]) + +exports_files(["LICENSE"]) + +C99OPTS = [ + "-std=gnu99", # gnu99, not c99, because dprintf is used + "-Wno-vla", + "-D_GNU_SOURCE=1", # to use CPU_SETSIZE + "-DCPUINFO_INTERNAL=", + "-DCPUINFO_PRIVATE=", +] + +# Source code common to all platforms. +COMMON_SRCS = [ + "src/api.c", + "src/init.c", + "src/cache.c", +] + +# Architecture-specific sources and headers. +X86_SRCS = [ + "src/x86/cache/descriptor.c", + "src/x86/cache/deterministic.c", + "src/x86/cache/init.c", + "src/x86/info.c", + "src/x86/init.c", + "src/x86/isa.c", + "src/x86/name.c", + "src/x86/topology.c", + "src/x86/uarch.c", + "src/x86/vendor.c", +] + +ARM_SRCS = [ + "src/arm/cache.c", + "src/arm/uarch.c", +] + +# Platform-specific sources and headers +LINUX_SRCS = [ + "src/linux/cpulist.c", + "src/linux/multiline.c", + "src/linux/processors.c", + "src/linux/smallfile.c", +] + +MOCK_LINUX_SRCS = [ + "src/linux/mockfile.c", +] + +MACH_SRCS = [ + "src/mach/topology.c", +] + +EMSCRIPTEN_SRCS = [ + "src/emscripten/init.c", +] + +LINUX_X86_SRCS = [ + "src/x86/linux/cpuinfo.c", + "src/x86/linux/init.c", +] + +LINUX_ARM_SRCS = [ + "src/arm/linux/chipset.c", + "src/arm/linux/clusters.c", + "src/arm/linux/cpuinfo.c", + "src/arm/linux/hwcap.c", + "src/arm/linux/init.c", + "src/arm/linux/midr.c", +] + +LINUX_ARM32_SRCS = LINUX_ARM_SRCS + ["src/arm/linux/aarch32-isa.c"] + +LINUX_ARM64_SRCS = LINUX_ARM_SRCS + ["src/arm/linux/aarch64-isa.c"] + +ANDROID_ARM_SRCS = [ + "src/arm/android/properties.c", +] + +WINDOWS_X86_SRCS = [ + "src/x86/windows/init.c", +] + +MACH_X86_SRCS = [ + "src/x86/mach/init.c", +] + +MACH_ARM_SRCS = [ + "src/arm/mach/init.c", +] + +EMSCRIPTEN_SRCS = [ + "src/emscripten/init.c", +] + +cc_library( + name = "cpuinfo_impl", + srcs = select({ + ":linux_x86_64": COMMON_SRCS + X86_SRCS + LINUX_SRCS + LINUX_X86_SRCS, + ":linux_arm": COMMON_SRCS + ARM_SRCS + LINUX_SRCS + LINUX_ARM32_SRCS, + ":linux_armhf": COMMON_SRCS + ARM_SRCS + LINUX_SRCS + LINUX_ARM32_SRCS, + ":linux_armv7a": COMMON_SRCS + ARM_SRCS + LINUX_SRCS + LINUX_ARM32_SRCS, + ":linux_armeabi": COMMON_SRCS + ARM_SRCS + LINUX_SRCS + LINUX_ARM32_SRCS, + ":linux_aarch64": COMMON_SRCS + ARM_SRCS + LINUX_SRCS + LINUX_ARM64_SRCS, + ":linux_mips64": COMMON_SRCS + LINUX_SRCS, + ":linux_riscv64": COMMON_SRCS + LINUX_SRCS, + ":linux_s390x": COMMON_SRCS + LINUX_SRCS, + ":macos_x86_64": COMMON_SRCS + X86_SRCS + MACH_SRCS + MACH_X86_SRCS, + ":macos_arm64": COMMON_SRCS + MACH_SRCS + MACH_ARM_SRCS, + ":windows_x86_64": COMMON_SRCS + X86_SRCS + WINDOWS_X86_SRCS, + ":android_armv7": COMMON_SRCS + ARM_SRCS + LINUX_SRCS + LINUX_ARM32_SRCS + ANDROID_ARM_SRCS, + ":android_arm64": COMMON_SRCS + ARM_SRCS + LINUX_SRCS + LINUX_ARM64_SRCS + ANDROID_ARM_SRCS, + ":android_x86": COMMON_SRCS + X86_SRCS + LINUX_SRCS + LINUX_X86_SRCS, + ":android_x86_64": COMMON_SRCS + X86_SRCS + LINUX_SRCS + LINUX_X86_SRCS, + ":ios_x86_64": COMMON_SRCS + X86_SRCS + MACH_SRCS + MACH_X86_SRCS, + ":ios_x86": COMMON_SRCS + X86_SRCS + MACH_SRCS + MACH_X86_SRCS, + ":ios_armv7": COMMON_SRCS + MACH_SRCS + MACH_ARM_SRCS, + ":ios_arm64": COMMON_SRCS + MACH_SRCS + MACH_ARM_SRCS, + ":ios_arm64e": COMMON_SRCS + MACH_SRCS + MACH_ARM_SRCS, + ":ios_sim_arm64": COMMON_SRCS + MACH_SRCS + MACH_ARM_SRCS, + ":watchos_x86_64": COMMON_SRCS + X86_SRCS + MACH_SRCS + MACH_X86_SRCS, + ":watchos_x86": COMMON_SRCS + X86_SRCS + MACH_SRCS + MACH_X86_SRCS, + ":watchos_armv7k": COMMON_SRCS + MACH_SRCS + MACH_ARM_SRCS, + ":watchos_arm64_32": COMMON_SRCS + MACH_SRCS + MACH_ARM_SRCS, + ":tvos_x86_64": COMMON_SRCS + X86_SRCS + MACH_SRCS + MACH_X86_SRCS, + ":tvos_arm64": COMMON_SRCS + MACH_SRCS + MACH_ARM_SRCS, + ":emscripten_wasm": COMMON_SRCS + EMSCRIPTEN_SRCS, + }), + copts = select({ + ":windows_x86_64": [], + "//conditions:default": C99OPTS, + }) + [ + "-Iexternal/cpuinfo/include", + "-Iexternal/cpuinfo/src", + ], + includes = [ + "include", + "src", + ], + linkstatic = select({ + # https://github.com/bazelbuild/bazel/issues/11552 + ":macos_x86_64": False, + "//conditions:default": True, + }), + # Headers must be in textual_hdrs to allow us to set the standard to C99 + textual_hdrs = [ + "include/cpuinfo.h", + "src/linux/api.h", + "src/mach/api.h", + "src/cpuinfo/common.h", + "src/cpuinfo/internal-api.h", + "src/cpuinfo/log.h", + "src/cpuinfo/utils.h", + "src/x86/api.h", + "src/x86/cpuid.h", + "src/x86/linux/api.h", + "src/arm/android/api.h", + "src/arm/linux/api.h", + "src/arm/linux/cp.h", + "src/arm/api.h", + "src/arm/midr.h", + ], + deps = [ + "@org_pytorch_cpuinfo//deps/clog", + ], +) + +cc_library( + name = "cpuinfo", + hdrs = [ + "include/cpuinfo.h", + ], + strip_include_prefix = "include", + deps = [ + ":cpuinfo_impl", + ], +) + +cc_library( + name = "cpuinfo_with_unstripped_include_path", + hdrs = [ + "include/cpuinfo.h", + ], + deps = [ + ":cpuinfo_impl", + ], +) + +############################# Build configurations ############################# + +config_setting( + name = "linux_x86_64", + values = {"cpu": "k8"}, +) + +config_setting( + name = "linux_arm", + values = {"cpu": "arm"}, +) + +config_setting( + name = "linux_armhf", + values = {"cpu": "armhf"}, +) + +config_setting( + name = "linux_armv7a", + values = {"cpu": "armv7a"}, +) + +config_setting( + name = "linux_armeabi", + values = {"cpu": "armeabi"}, +) + +config_setting( + name = "linux_aarch64", + values = {"cpu": "aarch64"}, +) + +config_setting( + name = "linux_mips64", + values = {"cpu": "mips64"}, +) + +config_setting( + name = "linux_riscv64", + values = {"cpu": "riscv64"}, +) + +config_setting( + name = "linux_s390x", + values = {"cpu": "s390x"}, +) + +config_setting( + name = "macos_x86_64", + values = { + "apple_platform_type": "macos", + "cpu": "darwin", + }, +) + +config_setting( + name = "windows_x86_64", + values = {"cpu": "x64_windows"}, +) + +config_setting( + name = "android_armv7", + values = { + "crosstool_top": "//external:android/crosstool", + "cpu": "armeabi-v7a", + }, + visibility = ["//visibility:public"], +) + +config_setting( + name = "android_arm64", + values = { + "crosstool_top": "//external:android/crosstool", + "cpu": "arm64-v8a", + }, + visibility = ["//visibility:public"], +) + +config_setting( + name = "android_x86", + values = { + "crosstool_top": "//external:android/crosstool", + "cpu": "x86", + }, + visibility = ["//visibility:public"], +) + +config_setting( + name = "android_x86_64", + values = { + "crosstool_top": "//external:android/crosstool", + "cpu": "x86_64", + }, + visibility = ["//visibility:public"], +) + +config_setting( + name = "ios_armv7", + values = { + "apple_platform_type": "ios", + "cpu": "ios_armv7", + }, +) + +config_setting( + name = "ios_arm64", + values = { + "apple_platform_type": "ios", + "cpu": "ios_arm64", + }, +) + +config_setting( + name = "ios_arm64e", + values = { + "apple_platform_type": "ios", + "cpu": "ios_arm64e", + }, +) + +config_setting( + name = "macos_arm64", + values = { + "apple_platform_type": "macos", + "cpu": "darwin_arm64", + }, +) + +config_setting( + name = "ios_x86", + values = { + "apple_platform_type": "ios", + "cpu": "ios_i386", + }, +) + +config_setting( + name = "ios_x86_64", + values = { + "apple_platform_type": "ios", + "cpu": "ios_x86_64", + }, +) + +config_setting( + name = "ios_sim_arm64", + values = { + "apple_platform_type": "ios", + "cpu": "ios_sim_arm64", + }, +) + +config_setting( + name = "watchos_armv7k", + values = { + "apple_platform_type": "watchos", + "cpu": "watchos_armv7k", + }, +) + +config_setting( + name = "watchos_arm64_32", + values = { + "apple_platform_type": "watchos", + "cpu": "watchos_arm64_32", + }, +) + +config_setting( + name = "watchos_x86", + values = { + "apple_platform_type": "watchos", + "cpu": "watchos_i386", + }, +) + +config_setting( + name = "watchos_x86_64", + values = { + "apple_platform_type": "watchos", + "cpu": "watchos_x86_64", + }, +) + +config_setting( + name = "tvos_arm64", + values = { + "apple_platform_type": "tvos", + "cpu": "tvos_arm64", + }, +) + +config_setting( + name = "tvos_x86_64", + values = { + "apple_platform_type": "tvos", + "cpu": "tvos_x86_64", + }, +) + +config_setting( + name = "emscripten_wasm", + values = { + "cpu": "wasm", + }, +) + +config_setting( + name = "emscripten_wasmsimd", + values = { + "cpu": "wasm", + "features": "wasm_simd", + }, +) + +config_setting( + name = "emscripten_asmjs", + values = { + "cpu": "asmjs", + }, +) diff --git a/CMakeLists.txt b/CMakeLists.txt index e2d7d53..d7e1786 100644 --- a/CMakeLists.txt +++ b/CMakeLists.txt @@ -1,7 +1,10 @@ CMAKE_MINIMUM_REQUIRED(VERSION 3.5 FATAL_ERROR) -# ---[ Project and semantic versioning. -PROJECT(cpuinfo C CXX) +# ---[ Setup project +PROJECT( + cpuinfo + LANGUAGES C CXX + ) # ---[ Options. SET(CPUINFO_LIBRARY_TYPE "default" CACHE STRING "Type of cpuinfo library (shared, static, or default) to build") @@ -14,6 +17,7 @@ OPTION(CPUINFO_BUILD_TOOLS "Build command-line tools" ON) OPTION(CPUINFO_BUILD_UNIT_TESTS "Build cpuinfo unit tests" ON) OPTION(CPUINFO_BUILD_MOCK_TESTS "Build cpuinfo mock tests" ON) OPTION(CPUINFO_BUILD_BENCHMARKS "Build cpuinfo micro-benchmarks" ON) +OPTION(CPUINFO_BUILD_PKG_CONFIG "Build pkg-config manifest" ON) # ---[ CMake options INCLUDE(GNUInstallDirs) @@ -48,7 +52,7 @@ ENDMACRO() # -- [ Determine target processor SET(CPUINFO_TARGET_PROCESSOR "${CMAKE_SYSTEM_PROCESSOR}") -IF(CMAKE_SYSTEM_NAME STREQUAL "Darwin" AND CMAKE_OSX_ARCHITECTURES MATCHES "^(x86_64|arm64)$") +IF(IOS OR (CMAKE_SYSTEM_NAME STREQUAL "Darwin" AND CMAKE_OSX_ARCHITECTURES MATCHES "^(x86_64|arm64)$")) SET(CPUINFO_TARGET_PROCESSOR "${CMAKE_OSX_ARCHITECTURES}") ENDIF() @@ -61,7 +65,7 @@ IF(NOT CMAKE_SYSTEM_PROCESSOR) "cpuinfo will compile, but cpuinfo_initialize() will always fail.") SET(CPUINFO_SUPPORTED_PLATFORM FALSE) ENDIF() -ELSEIF(NOT CPUINFO_TARGET_PROCESSOR MATCHES "^(i[3-6]86|AMD64|x86(_64)?|armv[5-8].*|aarch64|arm64)$") +ELSEIF(NOT CPUINFO_TARGET_PROCESSOR MATCHES "^(i[3-6]86|AMD64|x86(_64)?|armv[5-8].*|aarch64|arm64|ARM64)$") MESSAGE(WARNING "Target processor architecture \"${CPUINFO_TARGET_PROCESSOR}\" is not supported in cpuinfo. " "cpuinfo will compile, but cpuinfo_initialize() will always fail.") @@ -167,6 +171,9 @@ IF(CPUINFO_SUPPORTED_PLATFORM) LIST(APPEND CPUINFO_SRCS src/arm/android/properties.c) ENDIF() + ELSEIF(CMAKE_SYSTEM_NAME STREQUAL "Windows" AND CPUINFO_TARGET_PROCESSOR STREQUAL "ARM64") + LIST(APPEND CPUINFO_SRCS src/arm/windows/init-by-logical-sys-info.c) + LIST(APPEND CPUINFO_SRCS src/arm/windows/init.c) ENDIF() IF(CMAKE_SYSTEM_NAME STREQUAL "Emscripten") @@ -210,7 +217,7 @@ IF(CMAKE_SYSTEM_NAME MATCHES "^(Windows|CYGWIN|MSYS)$") TARGET_COMPILE_DEFINITIONS(cpuinfo_internals PRIVATE _WIN32_WINNT=0x0601) ENDIF() SET_TARGET_PROPERTIES(cpuinfo PROPERTIES PUBLIC_HEADER include/cpuinfo.h) -TARGET_INCLUDE_DIRECTORIES(cpuinfo BEFORE PUBLIC include) +TARGET_INCLUDE_DIRECTORIES(cpuinfo BEFORE PUBLIC $<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR}/include> $<INSTALL_INTERFACE:${CMAKE_INSTALL_INCLUDEDIR}>) TARGET_INCLUDE_DIRECTORIES(cpuinfo BEFORE PRIVATE src) TARGET_INCLUDE_DIRECTORIES(cpuinfo_internals BEFORE PUBLIC include src) IF(CPUINFO_LOG_LEVEL STREQUAL "default") @@ -260,11 +267,27 @@ ENDIF() TARGET_LINK_LIBRARIES(cpuinfo PRIVATE clog) TARGET_LINK_LIBRARIES(cpuinfo_internals PRIVATE clog) +ADD_LIBRARY(${PROJECT_NAME}::cpuinfo ALIAS cpuinfo) + +# support find_package(cpuinfo CONFIG) +INCLUDE(CMakePackageConfigHelpers) +GET_FILENAME_COMPONENT(CONFIG_FILE_PATH ${CMAKE_CURRENT_BINARY_DIR}/cpuinfo-config.cmake ABSOLUTE) +CONFIGURE_PACKAGE_CONFIG_FILE( + cmake/cpuinfo-config.cmake.in ${CONFIG_FILE_PATH} + INSTALL_DESTINATION ${CMAKE_INSTALL_DATAROOTDIR}/${PROJECT_NAME}) +INSTALL(FILES ${CONFIG_FILE_PATH} + DESTINATION ${CMAKE_INSTALL_DATAROOTDIR}/${PROJECT_NAME}) # cpuinfo_DIR ${prefix}/share/cpuinfo + INSTALL(TARGETS cpuinfo + EXPORT cpuinfo-targets LIBRARY DESTINATION ${CMAKE_INSTALL_LIBDIR} ARCHIVE DESTINATION ${CMAKE_INSTALL_LIBDIR} PUBLIC_HEADER DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}) +INSTALL(EXPORT cpuinfo-targets + NAMESPACE ${PROJECT_NAME}:: # IMPORTED cpuinfo::cpuinfo, cpuinfo::clog + DESTINATION ${CMAKE_INSTALL_DATAROOTDIR}/${PROJECT_NAME}) + # ---[ cpuinfo micro-benchmarks IF(CPUINFO_SUPPORTED_PLATFORM AND CPUINFO_BUILD_BENCHMARKS) # ---[ Build google benchmark @@ -301,7 +324,7 @@ ENDIF() # ---[ cpuinfo mock library and mock tests IF(CPUINFO_SUPPORTED_PLATFORM AND CPUINFO_BUILD_MOCK_TESTS) SET(CPUINFO_MOCK_SRCS "${CPUINFO_SRCS}") - IF(CPUINFO_TARGET_PROCESSOR MATCHES "^(i[3-6]86|AMD64|x86_64)$") + IF(CPUINFO_TARGET_PROCESSOR MATCHES "^(i[3-6]86|AMD64|x86(_64)?)$") LIST(APPEND CPUINFO_MOCK_SRCS src/x86/mockcpuid.c) ENDIF() IF(CMAKE_SYSTEM_NAME STREQUAL "Linux" OR CMAKE_SYSTEM_NAME STREQUAL "Android") @@ -326,406 +349,406 @@ IF(CPUINFO_SUPPORTED_PLATFORM AND CPUINFO_BUILD_MOCK_TESTS) ADD_EXECUTABLE(atm7029b-tablet-test test/mock/atm7029b-tablet.cc) TARGET_INCLUDE_DIRECTORIES(atm7029b-tablet-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(atm7029b-tablet-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(atm7029b-tablet-test atm7029b-tablet-test) + ADD_TEST(NAME atm7029b-tablet-test COMMAND atm7029b-tablet-test) ADD_EXECUTABLE(blu-r1-hd-test test/mock/blu-r1-hd.cc) TARGET_INCLUDE_DIRECTORIES(blu-r1-hd-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(blu-r1-hd-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(blu-r1-hd-test blu-r1-hd-test) + ADD_TEST(NAME blu-r1-hd-test COMMAND blu-r1-hd-test) ADD_EXECUTABLE(galaxy-a3-2016-eu-test test/mock/galaxy-a3-2016-eu.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-a3-2016-eu-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-a3-2016-eu-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-a3-2016-eu-test galaxy-a3-2016-eu-test) + ADD_TEST(NAME galaxy-a3-2016-eu-test COMMAND galaxy-a3-2016-eu-test) ADD_EXECUTABLE(galaxy-a8-2016-duos-test test/mock/galaxy-a8-2016-duos.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-a8-2016-duos-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-a8-2016-duos-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-a8-2016-duos-test galaxy-a8-2016-duos-test) + ADD_TEST(NAME galaxy-a8-2016-duos-test COMMAND galaxy-a8-2016-duos-test) ADD_EXECUTABLE(galaxy-grand-prime-value-edition-test test/mock/galaxy-grand-prime-value-edition.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-grand-prime-value-edition-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-grand-prime-value-edition-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-grand-prime-value-edition-test galaxy-grand-prime-value-edition-test) + ADD_TEST(NAME galaxy-grand-prime-value-edition-test COMMAND galaxy-grand-prime-value-edition-test) ADD_EXECUTABLE(galaxy-j1-2016-test test/mock/galaxy-j1-2016.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-j1-2016-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-j1-2016-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-j1-2016-test galaxy-j1-2016-test) + ADD_TEST(NAME galaxy-j1-2016-test COMMAND galaxy-j1-2016-test) ADD_EXECUTABLE(galaxy-j5-test test/mock/galaxy-j5.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-j5-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-j5-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-j5-test galaxy-j5-test) + ADD_TEST(NAME galaxy-j5-test COMMAND galaxy-j5-test) ADD_EXECUTABLE(galaxy-j7-prime-test test/mock/galaxy-j7-prime.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-j7-prime-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-j7-prime-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-j7-prime-test galaxy-j7-prime-test) + ADD_TEST(NAME galaxy-j7-prime-test COMMAND galaxy-j7-prime-test) ADD_EXECUTABLE(galaxy-j7-tmobile-test test/mock/galaxy-j7-tmobile.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-j7-tmobile-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-j7-tmobile-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-j7-tmobile-test galaxy-j7-tmobile-test) + ADD_TEST(NAME galaxy-j7-tmobile-test COMMAND galaxy-j7-tmobile-test) ADD_EXECUTABLE(galaxy-j7-uae-test test/mock/galaxy-j7-uae.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-j7-uae-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-j7-uae-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-j7-uae-test galaxy-j7-uae-test) + ADD_TEST(NAME galaxy-j7-uae-test COMMAND galaxy-j7-uae-test) ADD_EXECUTABLE(galaxy-s3-us-test test/mock/galaxy-s3-us.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-s3-us-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-s3-us-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-s3-us-test galaxy-s3-us-test) + ADD_TEST(NAME galaxy-s3-us-test COMMAND galaxy-s3-us-test) ADD_EXECUTABLE(galaxy-s4-us-test test/mock/galaxy-s4-us.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-s4-us-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-s4-us-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-s4-us-test galaxy-s4-us-test) + ADD_TEST(NAME galaxy-s4-us-test COMMAND galaxy-s4-us-test) ADD_EXECUTABLE(galaxy-s5-global-test test/mock/galaxy-s5-global.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-s5-global-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-s5-global-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-s5-global-test galaxy-s5-global-test) + ADD_TEST(NAME galaxy-s5-global-test COMMAND galaxy-s5-global-test) ADD_EXECUTABLE(galaxy-s5-us-test test/mock/galaxy-s5-us.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-s5-us-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-s5-us-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-s5-us-test galaxy-s5-us-test) + ADD_TEST(NAME galaxy-s5-us-test COMMAND galaxy-s5-us-test) ADD_EXECUTABLE(galaxy-tab-3-7.0-test test/mock/galaxy-tab-3-7.0.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-tab-3-7.0-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-tab-3-7.0-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-tab-3-7.0-test galaxy-tab-3-7.0-test) + ADD_TEST(NAME galaxy-tab-3-7.0-test COMMAND galaxy-tab-3-7.0-test) ADD_EXECUTABLE(galaxy-tab-3-lite-test test/mock/galaxy-tab-3-lite.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-tab-3-lite-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-tab-3-lite-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-tab-3-lite-test galaxy-tab-3-lite-test) + ADD_TEST(NAME galaxy-tab-3-lite-test COMMAND galaxy-tab-3-lite-test) ADD_EXECUTABLE(galaxy-win-duos-test test/mock/galaxy-win-duos.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-win-duos-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-win-duos-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-win-duos-test galaxy-win-duos-test) + ADD_TEST(NAME galaxy-win-duos-test COMMAND galaxy-win-duos-test) ADD_EXECUTABLE(huawei-ascend-p7-test test/mock/huawei-ascend-p7.cc) TARGET_INCLUDE_DIRECTORIES(huawei-ascend-p7-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(huawei-ascend-p7-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(huawei-ascend-p7-test huawei-ascend-p7-test) + ADD_TEST(NAME huawei-ascend-p7-test COMMAND huawei-ascend-p7-test) ADD_EXECUTABLE(huawei-honor-6-test test/mock/huawei-honor-6.cc) TARGET_INCLUDE_DIRECTORIES(huawei-honor-6-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(huawei-honor-6-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(huawei-honor-6-test huawei-honor-6-test) + ADD_TEST(NAME huawei-honor-6-test COMMAND huawei-honor-6-test) ADD_EXECUTABLE(lenovo-a6600-plus-test test/mock/lenovo-a6600-plus.cc) TARGET_INCLUDE_DIRECTORIES(lenovo-a6600-plus-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(lenovo-a6600-plus-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(lenovo-a6600-plus-test lenovo-a6600-plus-test) + ADD_TEST(NAME lenovo-a6600-plus-test COMMAND lenovo-a6600-plus-test) ADD_EXECUTABLE(lenovo-vibe-x2-test test/mock/lenovo-vibe-x2.cc) TARGET_INCLUDE_DIRECTORIES(lenovo-vibe-x2-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(lenovo-vibe-x2-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(lenovo-vibe-x2-test lenovo-vibe-x2-test) + ADD_TEST(NAME lenovo-vibe-x2-test COMMAND lenovo-vibe-x2-test) ADD_EXECUTABLE(lg-k10-eu-test test/mock/lg-k10-eu.cc) TARGET_INCLUDE_DIRECTORIES(lg-k10-eu-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(lg-k10-eu-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(lg-k10-eu-test lg-k10-eu-test) + ADD_TEST(NAME lg-k10-eu-test COMMAND lg-k10-eu-test) ADD_EXECUTABLE(lg-optimus-g-pro-test test/mock/lg-optimus-g-pro.cc) TARGET_INCLUDE_DIRECTORIES(lg-optimus-g-pro-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(lg-optimus-g-pro-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(lg-optimus-g-pro-test lg-optimus-g-pro-test) + ADD_TEST(NAME lg-optimus-g-pro-test COMMAND lg-optimus-g-pro-test) ADD_EXECUTABLE(moto-e-gen1-test test/mock/moto-e-gen1.cc) TARGET_INCLUDE_DIRECTORIES(moto-e-gen1-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(moto-e-gen1-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(moto-e-gen1-test moto-e-gen1-test) + ADD_TEST(NAME moto-e-gen1-test COMMAND moto-e-gen1-test) ADD_EXECUTABLE(moto-g-gen1-test test/mock/moto-g-gen1.cc) TARGET_INCLUDE_DIRECTORIES(moto-g-gen1-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(moto-g-gen1-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(moto-g-gen1-test moto-g-gen1-test) + ADD_TEST(NAME moto-g-gen1-test COMMAND moto-g-gen1-test) ADD_EXECUTABLE(moto-g-gen2-test test/mock/moto-g-gen2.cc) TARGET_INCLUDE_DIRECTORIES(moto-g-gen2-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(moto-g-gen2-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(moto-g-gen2-test moto-g-gen2-test) + ADD_TEST(NAME moto-g-gen2-test COMMAND moto-g-gen2-test) ADD_EXECUTABLE(moto-g-gen3-test test/mock/moto-g-gen3.cc) TARGET_INCLUDE_DIRECTORIES(moto-g-gen3-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(moto-g-gen3-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(moto-g-gen3-test moto-g-gen3-test) + ADD_TEST(NAME moto-g-gen3-test COMMAND moto-g-gen3-test) ADD_EXECUTABLE(moto-g-gen4-test test/mock/moto-g-gen4.cc) TARGET_INCLUDE_DIRECTORIES(moto-g-gen4-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(moto-g-gen4-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(moto-g-gen4-test moto-g-gen4-test) + ADD_TEST(NAME moto-g-gen4-test COMMAND moto-g-gen4-test) ADD_EXECUTABLE(moto-g-gen5-test test/mock/moto-g-gen5.cc) TARGET_INCLUDE_DIRECTORIES(moto-g-gen5-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(moto-g-gen5-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(moto-g-gen5-test moto-g-gen5-test) + ADD_TEST(NAME moto-g-gen5-test COMMAND moto-g-gen5-test) ADD_EXECUTABLE(nexus-s-test test/mock/nexus-s.cc) TARGET_INCLUDE_DIRECTORIES(nexus-s-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(nexus-s-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(nexus-s-test nexus-s-test) + ADD_TEST(NAME nexus-s-test COMMAND nexus-s-test) ADD_EXECUTABLE(nexus4-test test/mock/nexus4.cc) TARGET_INCLUDE_DIRECTORIES(nexus4-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(nexus4-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(nexus4-test nexus4-test) + ADD_TEST(NAME nexus4-test COMMAND nexus4-test) ADD_EXECUTABLE(nexus6-test test/mock/nexus6.cc) TARGET_INCLUDE_DIRECTORIES(nexus6-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(nexus6-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(nexus6-test nexus6-test) + ADD_TEST(NAME nexus6-test COMMAND nexus6-test) ADD_EXECUTABLE(nexus10-test test/mock/nexus10.cc) TARGET_INCLUDE_DIRECTORIES(nexus10-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(nexus10-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(nexus10-test nexus10-test) + ADD_TEST(NAME nexus10-test COMMAND nexus10-test) ADD_EXECUTABLE(padcod-10.1-test test/mock/padcod-10.1.cc) TARGET_INCLUDE_DIRECTORIES(padcod-10.1-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(padcod-10.1-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(padcod-10.1-test padcod-10.1-test) + ADD_TEST(NAME padcod-10.1-test COMMAND padcod-10.1-test) ADD_EXECUTABLE(xiaomi-redmi-2a-test test/mock/xiaomi-redmi-2a.cc) TARGET_INCLUDE_DIRECTORIES(xiaomi-redmi-2a-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(xiaomi-redmi-2a-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(xiaomi-redmi-2a-test xiaomi-redmi-2a-test) + ADD_TEST(NAME xiaomi-redmi-2a-test COMMAND xiaomi-redmi-2a-test) ADD_EXECUTABLE(xperia-sl-test test/mock/xperia-sl.cc) TARGET_INCLUDE_DIRECTORIES(xperia-sl-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(xperia-sl-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(xperia-sl-test xperia-sl-test) + ADD_TEST(NAME xperia-sl-test COMMAND xperia-sl-test) ENDIF() IF(CMAKE_SYSTEM_NAME STREQUAL "Android" AND CMAKE_SYSTEM_PROCESSOR MATCHES "^(armv5te|armv7-a|aarch64)$") ADD_EXECUTABLE(alcatel-revvl-test test/mock/alcatel-revvl.cc) TARGET_INCLUDE_DIRECTORIES(alcatel-revvl-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(alcatel-revvl-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(alcatel-revvl-test alcatel-revvl-test) + ADD_TEST(NAME alcatel-revvl-test COMMAND alcatel-revvl-test) ADD_EXECUTABLE(galaxy-a8-2018-test test/mock/galaxy-a8-2018.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-a8-2018-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-a8-2018-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-a8-2018-test galaxy-a8-2018-test) + ADD_TEST(NAME galaxy-a8-2018-test COMMAND galaxy-a8-2018-test) ADD_EXECUTABLE(galaxy-c9-pro-test test/mock/galaxy-c9-pro.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-c9-pro-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-c9-pro-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-c9-pro-test galaxy-c9-pro-test) + ADD_TEST(NAME galaxy-c9-pro-test COMMAND galaxy-c9-pro-test) ADD_EXECUTABLE(galaxy-s6-test test/mock/galaxy-s6.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-s6-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-s6-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-s6-test galaxy-s6-test) + ADD_TEST(NAME galaxy-s6-test COMMAND galaxy-s6-test) ADD_EXECUTABLE(galaxy-s7-us-test test/mock/galaxy-s7-us.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-s7-us-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-s7-us-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-s7-us-test galaxy-s7-us-test) + ADD_TEST(NAME galaxy-s7-us-test COMMAND galaxy-s7-us-test) ADD_EXECUTABLE(galaxy-s7-global-test test/mock/galaxy-s7-global.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-s7-global-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-s7-global-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-s7-global-test galaxy-s7-global-test) + ADD_TEST(NAME galaxy-s7-global-test COMMAND galaxy-s7-global-test) ADD_EXECUTABLE(galaxy-s8-us-test test/mock/galaxy-s8-us.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-s8-us-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-s8-us-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-s8-us-test galaxy-s8-us-test) + ADD_TEST(NAME galaxy-s8-us-test COMMAND galaxy-s8-us-test) ADD_EXECUTABLE(galaxy-s8-global-test test/mock/galaxy-s8-global.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-s8-global-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-s8-global-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-s8-global-test galaxy-s8-global-test) + ADD_TEST(NAME galaxy-s8-global-test COMMAND galaxy-s8-global-test) ADD_EXECUTABLE(galaxy-s9-us-test test/mock/galaxy-s9-us.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-s9-us-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-s9-us-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-s9-us-test galaxy-s9-us-test) + ADD_TEST(NAME galaxy-s9-us-test COMMAND galaxy-s9-us-test) ADD_EXECUTABLE(galaxy-s9-global-test test/mock/galaxy-s9-global.cc) TARGET_INCLUDE_DIRECTORIES(galaxy-s9-global-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(galaxy-s9-global-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(galaxy-s9-global-test galaxy-s9-global-test) + ADD_TEST(NAME galaxy-s9-global-test COMMAND galaxy-s9-global-test) ADD_EXECUTABLE(huawei-mate-8-test test/mock/huawei-mate-8.cc) TARGET_INCLUDE_DIRECTORIES(huawei-mate-8-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(huawei-mate-8-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(huawei-mate-8-test huawei-mate-8-test) + ADD_TEST(NAME huawei-mate-8-test COMMAND huawei-mate-8-test) ADD_EXECUTABLE(huawei-mate-9-test test/mock/huawei-mate-9.cc) TARGET_INCLUDE_DIRECTORIES(huawei-mate-9-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(huawei-mate-9-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(huawei-mate-9-test huawei-mate-9-test) + ADD_TEST(NAME huawei-mate-9-test COMMAND huawei-mate-9-test) ADD_EXECUTABLE(huawei-mate-10-test test/mock/huawei-mate-10.cc) TARGET_INCLUDE_DIRECTORIES(huawei-mate-10-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(huawei-mate-10-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(huawei-mate-10-test huawei-mate-10-test) + ADD_TEST(NAME huawei-mate-10-test COMMAND huawei-mate-10-test) ADD_EXECUTABLE(huawei-mate-20-test test/mock/huawei-mate-20.cc) TARGET_INCLUDE_DIRECTORIES(huawei-mate-20-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(huawei-mate-20-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(huawei-mate-20-test huawei-mate-20-test) + ADD_TEST(NAME huawei-mate-20-test COMMAND huawei-mate-20-test) ADD_EXECUTABLE(huawei-p8-lite-test test/mock/huawei-p8-lite.cc) TARGET_INCLUDE_DIRECTORIES(huawei-p8-lite-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(huawei-p8-lite-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(huawei-p8-lite-test huawei-p8-lite-test) + ADD_TEST(NAME huawei-p8-lite-test COMMAND huawei-p8-lite-test) ADD_EXECUTABLE(huawei-p9-lite-test test/mock/huawei-p9-lite.cc) TARGET_INCLUDE_DIRECTORIES(huawei-p9-lite-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(huawei-p9-lite-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(huawei-p9-lite-test huawei-p9-lite-test) + ADD_TEST(NAME huawei-p9-lite-test COMMAND huawei-p9-lite-test) ADD_EXECUTABLE(huawei-p20-pro-test test/mock/huawei-p20-pro.cc) TARGET_INCLUDE_DIRECTORIES(huawei-p20-pro-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(huawei-p20-pro-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(huawei-p20-pro-test huawei-p20-pro-test) + ADD_TEST(NAME huawei-p20-pro-test COMMAND huawei-p20-pro-test) ADD_EXECUTABLE(iconia-one-10-test test/mock/iconia-one-10.cc) TARGET_INCLUDE_DIRECTORIES(iconia-one-10-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(iconia-one-10-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(iconia-one-10-test iconia-one-10-test) + ADD_TEST(NAME iconia-one-10-test COMMAND iconia-one-10-test) ADD_EXECUTABLE(meizu-pro-6-test test/mock/meizu-pro-6.cc) TARGET_INCLUDE_DIRECTORIES(meizu-pro-6-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(meizu-pro-6-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(meizu-pro-6-test meizu-pro-6-test) + ADD_TEST(NAME meizu-pro-6-test COMMAND meizu-pro-6-test) ADD_EXECUTABLE(meizu-pro-6s-test test/mock/meizu-pro-6s.cc) TARGET_INCLUDE_DIRECTORIES(meizu-pro-6s-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(meizu-pro-6s-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(meizu-pro-6s-test meizu-pro-6s-test) + ADD_TEST(NAME meizu-pro-6s-test COMMAND meizu-pro-6s-test) ADD_EXECUTABLE(meizu-pro-7-plus-test test/mock/meizu-pro-7-plus.cc) TARGET_INCLUDE_DIRECTORIES(meizu-pro-7-plus-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(meizu-pro-7-plus-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(meizu-pro-7-plus-test meizu-pro-7-plus-test) + ADD_TEST(NAME meizu-pro-7-plus-test COMMAND meizu-pro-7-plus-test) ADD_EXECUTABLE(nexus5x-test test/mock/nexus5x.cc) TARGET_INCLUDE_DIRECTORIES(nexus5x-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(nexus5x-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(nexus5x-test nexus5x-test) + ADD_TEST(NAME nexus5x-test COMMAND nexus5x-test) ADD_EXECUTABLE(nexus6p-test test/mock/nexus6p.cc) TARGET_INCLUDE_DIRECTORIES(nexus6p-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(nexus6p-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(nexus6p-test nexus6p-test) + ADD_TEST(NAME nexus6p-test COMMAND nexus6p-test) ADD_EXECUTABLE(nexus9-test test/mock/nexus9.cc) TARGET_INCLUDE_DIRECTORIES(nexus9-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(nexus9-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(nexus9-test nexus9-test) + ADD_TEST(NAME nexus9-test COMMAND nexus9-test) ADD_EXECUTABLE(oneplus-3t-test test/mock/oneplus-3t.cc) TARGET_INCLUDE_DIRECTORIES(oneplus-3t-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(oneplus-3t-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(oneplus-3t-test oneplus-3t-test) + ADD_TEST(NAME oneplus-3t-test COMMAND oneplus-3t-test) ADD_EXECUTABLE(oneplus-5-test test/mock/oneplus-5.cc) TARGET_INCLUDE_DIRECTORIES(oneplus-5-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(oneplus-5-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(oneplus-5-test oneplus-5-test) + ADD_TEST(NAME oneplus-5-test COMMAND oneplus-5-test) ADD_EXECUTABLE(oneplus-5t-test test/mock/oneplus-5t.cc) TARGET_INCLUDE_DIRECTORIES(oneplus-5t-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(oneplus-5t-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(oneplus-5t-test oneplus-5t-test) + ADD_TEST(NAME oneplus-5t-test COMMAND oneplus-5t-test) ADD_EXECUTABLE(oppo-a37-test test/mock/oppo-a37.cc) TARGET_INCLUDE_DIRECTORIES(oppo-a37-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(oppo-a37-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(oppo-a37-test oppo-a37-test) + ADD_TEST(NAME oppo-a37-test COMMAND oppo-a37-test) ADD_EXECUTABLE(oppo-r9-test test/mock/oppo-r9.cc) TARGET_INCLUDE_DIRECTORIES(oppo-r9-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(oppo-r9-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(oppo-r9-test oppo-r9-test) + ADD_TEST(NAME oppo-r9-test COMMAND oppo-r9-test) ADD_EXECUTABLE(oppo-r15-test test/mock/oppo-r15.cc) TARGET_INCLUDE_DIRECTORIES(oppo-r15-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(oppo-r15-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(oppo-r15-test oppo-r15-test) + ADD_TEST(NAME oppo-r15-test COMMAND oppo-r15-test) ADD_EXECUTABLE(pixel-test test/mock/pixel.cc) TARGET_INCLUDE_DIRECTORIES(pixel-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(pixel-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(pixel-test pixel-test) + ADD_TEST(NAME pixel-test COMMAND pixel-test) ADD_EXECUTABLE(pixel-c-test test/mock/pixel-c.cc) TARGET_INCLUDE_DIRECTORIES(pixel-c-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(pixel-c-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(pixel-c-test pixel-c-test) + ADD_TEST(NAME pixel-c-test COMMAND pixel-c-test) ADD_EXECUTABLE(pixel-xl-test test/mock/pixel-xl.cc) TARGET_INCLUDE_DIRECTORIES(pixel-xl-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(pixel-xl-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(pixel-xl-test pixel-xl-test) + ADD_TEST(NAME pixel-xl-test COMMAND pixel-xl-test) ADD_EXECUTABLE(pixel-2-xl-test test/mock/pixel-2-xl.cc) TARGET_INCLUDE_DIRECTORIES(pixel-2-xl-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(pixel-2-xl-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(pixel-2-xl-test pixel-2-xl-test) + ADD_TEST(NAME pixel-2-xl-test COMMAND pixel-2-xl-test) ADD_EXECUTABLE(xiaomi-mi-5c-test test/mock/xiaomi-mi-5c.cc) TARGET_INCLUDE_DIRECTORIES(xiaomi-mi-5c-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(xiaomi-mi-5c-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(xiaomi-mi-5c-test xiaomi-mi-5c-test) + ADD_TEST(NAME xiaomi-mi-5c-test COMMAND xiaomi-mi-5c-test) ADD_EXECUTABLE(xiaomi-redmi-note-3-test test/mock/xiaomi-redmi-note-3.cc) TARGET_INCLUDE_DIRECTORIES(xiaomi-redmi-note-3-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(xiaomi-redmi-note-3-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(xiaomi-redmi-note-3-test xiaomi-redmi-note-3-test) + ADD_TEST(NAME xiaomi-redmi-note-3-test COMMAND xiaomi-redmi-note-3-test) ADD_EXECUTABLE(xiaomi-redmi-note-4-test test/mock/xiaomi-redmi-note-4.cc) TARGET_INCLUDE_DIRECTORIES(xiaomi-redmi-note-4-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(xiaomi-redmi-note-4-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(xiaomi-redmi-note-4-test xiaomi-redmi-note-4-test) + ADD_TEST(NAME xiaomi-redmi-note-4-test COMMAND xiaomi-redmi-note-4-test) ADD_EXECUTABLE(xperia-c4-dual-test test/mock/xperia-c4-dual.cc) TARGET_INCLUDE_DIRECTORIES(xperia-c4-dual-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(xperia-c4-dual-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(xperia-c4-dual-test xperia-c4-dual-test) + ADD_TEST(NAME xperia-c4-dual-test COMMAND xperia-c4-dual-test) ENDIF() IF(CMAKE_SYSTEM_NAME STREQUAL "Android" AND CMAKE_SYSTEM_PROCESSOR MATCHES "^(i686|x86_64)$") ADD_EXECUTABLE(alldocube-iwork8-test test/mock/alldocube-iwork8.cc) TARGET_INCLUDE_DIRECTORIES(alldocube-iwork8-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(alldocube-iwork8-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(alldocube-iwork8-test alldocube-iwork8-test) + ADD_TEST(NAME alldocube-iwork8-test COMMAND alldocube-iwork8-test) ADD_EXECUTABLE(leagoo-t5c-test test/mock/leagoo-t5c.cc) TARGET_INCLUDE_DIRECTORIES(leagoo-t5c-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(leagoo-t5c-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(leagoo-t5c-test leagoo-t5c-test) + ADD_TEST(NAME leagoo-t5c-test COMMAND leagoo-t5c-test) ADD_EXECUTABLE(memo-pad-7-test test/mock/memo-pad-7.cc) TARGET_INCLUDE_DIRECTORIES(memo-pad-7-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(memo-pad-7-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(memo-pad-7-test memo-pad-7-test) + ADD_TEST(NAME memo-pad-7-test COMMAND memo-pad-7-test) ADD_EXECUTABLE(zenfone-c-test test/mock/zenfone-c.cc) TARGET_INCLUDE_DIRECTORIES(zenfone-c-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(zenfone-c-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(zenfone-c-test zenfone-c-test) + ADD_TEST(NAME zenfone-c-test COMMAND zenfone-c-test) ADD_EXECUTABLE(zenfone-2-test test/mock/zenfone-2.cc) TARGET_INCLUDE_DIRECTORIES(zenfone-2-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(zenfone-2-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(zenfone-2-test zenfone-2-test) + ADD_TEST(NAME zenfone-2-test COMMAND zenfone-2-test) ADD_EXECUTABLE(zenfone-2e-test test/mock/zenfone-2e.cc) TARGET_INCLUDE_DIRECTORIES(zenfone-2e-test BEFORE PRIVATE test/mock) TARGET_LINK_LIBRARIES(zenfone-2e-test PRIVATE cpuinfo_mock gtest) - ADD_TEST(zenfone-2e-test zenfone-2e-test) + ADD_TEST(NAME zenfone-2e-test COMMAND zenfone-2e-test) ENDIF() ENDIF() @@ -735,22 +758,22 @@ IF(CPUINFO_SUPPORTED_PLATFORM AND CPUINFO_BUILD_UNIT_TESTS) CPUINFO_TARGET_ENABLE_CXX11(init-test) CPUINFO_TARGET_RUNTIME_LIBRARY(init-test) TARGET_LINK_LIBRARIES(init-test PRIVATE cpuinfo gtest gtest_main) - ADD_TEST(init-test init-test) + ADD_TEST(NAME init-test COMMAND init-test) IF(CMAKE_SYSTEM_NAME STREQUAL "Linux" OR CMAKE_SYSTEM_NAME STREQUAL "Android") ADD_EXECUTABLE(get-current-test test/get-current.cc) CPUINFO_TARGET_ENABLE_CXX11(get-current-test) CPUINFO_TARGET_RUNTIME_LIBRARY(get-current-test) TARGET_LINK_LIBRARIES(get-current-test PRIVATE cpuinfo gtest gtest_main) - ADD_TEST(get-current-test get-current-test) + ADD_TEST(NAME get-current-test COMMAND get-current-test) ENDIF() - IF(CPUINFO_TARGET_PROCESSOR MATCHES "^(i[3-6]86|AMD64|x86_64)$") + IF(CPUINFO_TARGET_PROCESSOR MATCHES "^(i[3-6]86|AMD64|x86(_64)?)$") ADD_EXECUTABLE(brand-string-test test/name/brand-string.cc) CPUINFO_TARGET_ENABLE_CXX11(brand-string-test) CPUINFO_TARGET_RUNTIME_LIBRARY(brand-string-test) TARGET_LINK_LIBRARIES(brand-string-test PRIVATE cpuinfo_internals gtest gtest_main) - ADD_TEST(brand-string-test brand-string-test) + ADD_TEST(NAME brand-string-test COMMAND brand-string-test) ENDIF() IF(CMAKE_SYSTEM_NAME STREQUAL "Android" AND CMAKE_SYSTEM_PROCESSOR MATCHES "^(armv[5-8].*|aarch64)$") @@ -770,14 +793,14 @@ IF(CPUINFO_SUPPORTED_PLATFORM AND CPUINFO_BUILD_UNIT_TESTS) CPUINFO_TARGET_ENABLE_CXX11(chipset-test) CPUINFO_TARGET_RUNTIME_LIBRARY(chipset-test) TARGET_LINK_LIBRARIES(chipset-test PRIVATE android_properties_interface gtest gtest_main) - ADD_TEST(chipset-test chipset-test) + ADD_TEST(NAME chipset-test COMMAND chipset-test) ADD_EXECUTABLE(cache-test test/arm-cache.cc) CPUINFO_TARGET_ENABLE_CXX11(cache-test) CPUINFO_TARGET_RUNTIME_LIBRARY(cache-test) TARGET_COMPILE_DEFINITIONS(cache-test PRIVATE __STDC_LIMIT_MACROS=1 __STDC_CONSTANT_MACROS=1) TARGET_LINK_LIBRARIES(cache-test PRIVATE cpuinfo_internals gtest gtest_main) - ADD_TEST(cache-test, cache-test) + ADD_TEST(NAME cache-test COMMAND cache-test) ENDIF() ENDIF() @@ -812,7 +835,7 @@ IF(CPUINFO_SUPPORTED_PLATFORM AND CPUINFO_BUILD_TOOLS) CPUINFO_TARGET_RUNTIME_LIBRARY(cpuinfo-dump) ENDIF() - IF(CPUINFO_TARGET_PROCESSOR MATCHES "^(i[3-6]86|AMD64|x86_64)$") + IF(CPUINFO_TARGET_PROCESSOR MATCHES "^(i[3-6]86|AMD64|x86(_64)?)$") ADD_EXECUTABLE(cpuid-dump tools/cpuid-dump.c) CPUINFO_TARGET_ENABLE_C99(cpuid-dump) CPUINFO_TARGET_RUNTIME_LIBRARY(cpuid-dump) @@ -821,3 +844,33 @@ IF(CPUINFO_SUPPORTED_PLATFORM AND CPUINFO_BUILD_TOOLS) INSTALL(TARGETS cpuid-dump RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR}) ENDIF() ENDIF() + +# ---[ pkg-config manifest. This is mostly from JsonCpp... +IF(CPUINFO_BUILD_PKG_CONFIG) + + FUNCTION(JOIN_PATHS joined_path first_path_segment) + SET(temp_path "${first_path_segment}") + FOREACH(current_segment IN LISTS ARGN) + IF(NOT ("${current_segment}" STREQUAL "")) + IF(IS_ABSOLUTE "${current_segment}") + SET(temp_path "${current_segment}") + ELSE() + SET(temp_path "${temp_path}/${current_segment}") + ENDIF() + ENDIF() + ENDFOREACH() + SET(${joined_path} "${temp_path}" PARENT_SCOPE) + ENDFUNCTION() + + JOIN_PATHS(libdir_for_pc_file "\${exec_prefix}" "${CMAKE_INSTALL_LIBDIR}") + JOIN_PATHS(includedir_for_pc_file "\${prefix}" "${CMAKE_INSTALL_INCLUDEDIR}") + + CONFIGURE_FILE( + "libcpuinfo.pc.in" + "libcpuinfo.pc" + @ONLY) + + INSTALL(FILES "${CMAKE_CURRENT_BINARY_DIR}/libcpuinfo.pc" + DESTINATION "${CMAKE_INSTALL_LIBDIR}/pkgconfig") + +ENDIF() diff --git a/CODE_OF_CONDUCT.md b/CODE_OF_CONDUCT.md new file mode 100644 index 0000000..4bd525a --- /dev/null +++ b/CODE_OF_CONDUCT.md @@ -0,0 +1,76 @@ +# Code of Conduct + +## Our Pledge + +In the interest of fostering an open and welcoming environment, we as +contributors and maintainers pledge to make participation in our project and +our community a harassment-free experience for everyone, regardless of age, body +size, disability, ethnicity, sex characteristics, gender identity and expression, +level of experience, education, socio-economic status, nationality, personal +appearance, race, religion, or sexual identity and orientation. + +## Our Standards + +Examples of behavior that contributes to creating a positive environment +include: + +* Using welcoming and inclusive language +* Being respectful of differing viewpoints and experiences +* Gracefully accepting constructive criticism +* Focusing on what is best for the community +* Showing empathy towards other community members + +Examples of unacceptable behavior by participants include: + +* The use of sexualized language or imagery and unwelcome sexual attention or +advances +* Trolling, insulting/derogatory comments, and personal or political attacks +* Public or private harassment +* Publishing others' private information, such as a physical or electronic +address, without explicit permission +* Other conduct which could reasonably be considered inappropriate in a +professional setting + +## Our Responsibilities + +Project maintainers are responsible for clarifying the standards of acceptable +behavior and are expected to take appropriate and fair corrective action in +response to any instances of unacceptable behavior. + +Project maintainers have the right and responsibility to remove, edit, or +reject comments, commits, code, wiki edits, issues, and other contributions +that are not aligned to this Code of Conduct, or to ban temporarily or +permanently any contributor for other behaviors that they deem inappropriate, +threatening, offensive, or harmful. + +## Scope + +This Code of Conduct applies within all project spaces, and it also applies when +an individual is representing the project or its community in public spaces. +Examples of representing a project or community include using an official +project e-mail address, posting via an official social media account, or acting +as an appointed representative at an online or offline event. Representation of +a project may be further defined and clarified by project maintainers. + +## Enforcement + +Instances of abusive, harassing, or otherwise unacceptable behavior may be +reported by contacting the project team at <opensource-conduct@fb.com>. All +complaints will be reviewed and investigated and will result in a response that +is deemed necessary and appropriate to the circumstances. The project team is +obligated to maintain confidentiality with regard to the reporter of an incident. +Further details of specific enforcement policies may be posted separately. + +Project maintainers who do not follow or enforce the Code of Conduct in good +faith may face temporary or permanent repercussions as determined by other +members of the project's leadership. + +## Attribution + +This Code of Conduct is adapted from the [Contributor Covenant][homepage], version 1.4, +available at https://www.contributor-covenant.org/version/1/4/code-of-conduct.html + +[homepage]: https://www.contributor-covenant.org + +For answers to common questions about this code of conduct, see +https://www.contributor-covenant.org/faq diff --git a/CONTRIBUTING.md b/CONTRIBUTING.md new file mode 100644 index 0000000..f519e26 --- /dev/null +++ b/CONTRIBUTING.md @@ -0,0 +1,31 @@ +# Contributing to cpuinfo +We want to make contributing to this project as easy and transparent as +possible. + +## Pull Requests +We actively welcome your pull requests. + +1. Fork the repo and create your branch from `master`. +2. If you've added code that should be tested, add tests. +3. If you've changed APIs, update the documentation. +4. Ensure the test suite passes. +5. Make sure your code lints. +6. If you haven't already, complete the Contributor License Agreement ("CLA"). + +## Contributor License Agreement ("CLA") +In order to accept your pull request, we need you to submit a CLA. You only need +to do this once to work on any of Facebook's open source projects. + +Complete your CLA here: <https://code.facebook.com/cla> + +## Issues +We use GitHub issues to track public bugs. Please ensure your description is +clear and has sufficient instructions to be able to reproduce the issue. + +Facebook has a [bounty program](https://www.facebook.com/whitehat/) for the safe +disclosure of security bugs. In those cases, please go through the process +outlined on that page and do not file a public issue. + +## License +By contributing to cpuinfo, you agree that your contributions will be licensed +under the LICENSE file in the root directory of this source tree.
\ No newline at end of file @@ -9,11 +9,11 @@ third_party { type: GIT value: "https://github.com/pytorch/cpuinfo" } - version: "5916273f79a21551890fd3d56fc5375a78d1598d" + version: "8ec7bd91ad0470e61cf38f618cc1f270dede599c" license_type: NOTICE last_upgrade_date { - year: 2020 - month: 12 - day: 22 + year: 2022 + month: 9 + day: 1 } } @@ -48,7 +48,7 @@ Detect if target is a 32-bit or 64-bit ARM system: #endif ``` -Check if the host CPU support ARM NEON +Check if the host CPU supports ARM NEON ```c cpuinfo_initialize(); @@ -100,6 +100,114 @@ for (uint32_t i = 0; i < current_l2->processor_count; i++) { pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpu_set); ``` +## Use via pkg-config + +If you would like to provide your project's build environment with the necessary compiler and linker flags in a portable manner, the library by default when built enables `CPUINFO_BUILD_PKG_CONFIG` and will generate a [pkg-config](https://www.freedesktop.org/wiki/Software/pkg-config/) manifest (_libcpuinfo.pc_). Here are several examples of how to use it: + +### Command Line + +If you used your distro's package manager to install the library, you can verify that it is available to your build environment like so: + +```console +$ pkg-config --cflags --libs libcpuinfo +-I/usr/include/x86_64-linux-gnu/ -L/lib/x86_64-linux-gnu/ -lcpuinfo +``` + +If you have installed the library from source into a non-standard prefix, pkg-config may need help finding it: + +```console +$ PKG_CONFIG_PATH="/home/me/projects/cpuinfo/prefix/lib/pkgconfig/:$PKG_CONFIG_PATH" pkg-config --cflags --libs libcpuinfo +-I/home/me/projects/cpuinfo/prefix/include -L/home/me/projects/cpuinfo/prefix/lib -lcpuinfo +``` + +### GNU Autotools + +To [use](https://autotools.io/pkgconfig/pkg_check_modules.html) with the GNU Autotools include the following snippet in your project's `configure.ac`: + +```makefile +# CPU INFOrmation library... +PKG_CHECK_MODULES( + [libcpuinfo], [libcpuinfo], [], + [AC_MSG_ERROR([libcpuinfo missing...])]) +YOURPROJECT_CXXFLAGS="$YOURPROJECT_CXXFLAGS $libcpuinfo_CFLAGS" +YOURPROJECT_LIBS="$YOURPROJECT_LIBS $libcpuinfo_LIBS" +``` + +### Meson + +To use with Meson you just need to add `dependency('libcpuinfo')` as a dependency for your executable. + +```meson +project( + 'MyCpuInfoProject', + 'cpp', + meson_version: '>=0.55.0' +) + +executable( + 'MyCpuInfoExecutable', + sources: 'main.cpp', + dependencies: dependency('libcpuinfo') +) +``` + +### Bazel + +This project can be built using [Bazel](https://bazel.build/install). + +You can also use this library as a dependency to your Bazel project. Add to the `WORKSPACE` file: + +```python +load("@bazel_tools//tools/build_defs/repo:git.bzl", "git_repository") + +git_repository( + name = "org_pytorch_cpuinfo", + branch = "master", + remote = "https://github.com/Vertexwahn/cpuinfo.git", +) +``` + +And to your `BUILD` file: + +```python +cc_binary( + name = "cpuinfo_test", + srcs = [ + # ... + ], + deps = [ + "@org_pytorch_cpuinfo//:cpuinfo", + ], +) +``` + +### CMake + +To use with CMake use the [FindPkgConfig](https://cmake.org/cmake/help/latest/module/FindPkgConfig.html) module. Here is an example: + +```cmake +cmake_minimum_required(VERSION 3.6) +project("MyCpuInfoProject") + +find_package(PkgConfig) +pkg_check_modules(CpuInfo REQUIRED IMPORTED_TARGET libcpuinfo) + +add_executable(${PROJECT_NAME} main.cpp) +target_link_libraries(${PROJECT_NAME} PkgConfig::CpuInfo) +``` + +### Makefile + +To use within a vanilla makefile, you can call pkg-config directly to supply compiler and linker flags using shell substitution. + +```makefile +CFLAGS=-g3 -Wall -Wextra -Werror ... +LDFLAGS=-lfoo ... +... +CFLAGS+= $(pkg-config --cflags libcpuinfo) +LDFLAGS+= $(pkg-config --libs libcpuinfo) +``` + ## Exposed information - [x] Processor (SoC) name - [x] Microarchitecture @@ -142,12 +250,14 @@ pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpu_set); - [x] x86-64 (iPhone simulator) - [x] ARMv7 - [x] ARM64 -- [x] OS X +- [x] macOS - [x] x86 - [x] x86-64 + - [x] ARM64 (Apple silicon) - [x] Windows - [x] x86 - [x] x86-64 + - [x] arm64 ## Methods @@ -156,12 +266,13 @@ pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpu_set); - [x] Using `/proc/cpuinfo` on ARM - [x] Using `ro.chipname`, `ro.board.platform`, `ro.product.board`, `ro.mediatek.platform`, `ro.arch` properties (Android) - [ ] Using kernel log (`dmesg`) on ARM Linux + - [x] Using Windows registry on ARM64 Windows - Vendor and microarchitecture detection - [x] Intel-designed x86/x86-64 cores (up to Sunny Cove, Goldmont Plus, and Knights Mill) - [x] AMD-designed x86/x86-64 cores (up to Puma/Jaguar and Zen 2) - [ ] VIA-designed x86/x86-64 cores - [ ] Other x86 cores (DM&P, RDC, Transmeta, Cyrix, Rise) - - [x] ARM-designed ARM cores (up to Cortex-A55, Cortex-A77, and Neoverse E1/N1) + - [x] ARM-designed ARM cores (up to Cortex-A55, Cortex-A77, and Neoverse E1/N1/V1/N2) - [x] Qualcomm-designed ARM cores (Scorpion, Krait, and Kryo) - [x] Nvidia-designed ARM cores (Denver and Carmel) - [x] Samsung-designed ARM cores (Exynos) @@ -178,6 +289,7 @@ pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpu_set); - [x] Using `/proc/self/auxv` (Android/ARM) - [ ] Using instruction probing on ARM (Linux) - [ ] Using CPUID registers on ARM64 (Linux) + - [x] Using IsProcessorFeaturePresent on ARM64 Windows - Cache detection - [x] Using CPUID leaf 0x00000002 (x86/x86-64) - [x] Using CPUID leaf 0x00000004 (non-AMD x86/x86-64) @@ -189,6 +301,7 @@ pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpu_set); - [x] Using `sysctlbyname` (Mach) - [x] Using sysfs `typology` directories (ARM/Linux) - [ ] Using sysfs `cache` directories (Linux) + - [x] Using `GetLogicalProcessorInformationEx` on ARM64 Windows - TLB detection - [x] Using CPUID leaf 0x00000002 (x86/x86-64) - [ ] Using CPUID leaves 0x80000005-0x80000006 and 0x80000019 (AMD x86/x86-64) @@ -202,3 +315,4 @@ pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpu_set); - [x] Using `GetLogicalProcessorInformationEx` (Windows) - [x] Using sysfs (Linux) - [x] Using chipset name (ARM/Linux) + diff --git a/WORKSPACE.bazel b/WORKSPACE.bazel new file mode 100644 index 0000000..24874c7 --- /dev/null +++ b/WORKSPACE.bazel @@ -0,0 +1 @@ +workspace(name = "org_pytorch_cpuinfo")
\ No newline at end of file diff --git a/cmake/DownloadGoogleBenchmark.cmake b/cmake/DownloadGoogleBenchmark.cmake index 59da7a6..fd99d0e 100644 --- a/cmake/DownloadGoogleBenchmark.cmake +++ b/cmake/DownloadGoogleBenchmark.cmake @@ -4,8 +4,8 @@ PROJECT(googlebenchmark-download NONE) INCLUDE(ExternalProject) ExternalProject_Add(googlebenchmark - URL https://github.com/google/benchmark/archive/v1.2.0.zip - URL_HASH SHA256=cc463b28cb3701a35c0855fbcefb75b29068443f1952b64dd5f4f669272e95ea + URL https://github.com/google/benchmark/archive/v1.6.1.zip + URL_HASH SHA256=367e963b8620080aff8c831e24751852cffd1f74ea40f25d9cc1b667a9dd5e45 SOURCE_DIR "${CONFU_DEPENDENCIES_SOURCE_DIR}/googlebenchmark" BINARY_DIR "${CONFU_DEPENDENCIES_BINARY_DIR}/googlebenchmark" CONFIGURE_COMMAND "" diff --git a/cmake/DownloadGoogleTest.cmake b/cmake/DownloadGoogleTest.cmake index dc86c9c..c58fd09 100644 --- a/cmake/DownloadGoogleTest.cmake +++ b/cmake/DownloadGoogleTest.cmake @@ -4,8 +4,8 @@ PROJECT(googletest-download NONE) INCLUDE(ExternalProject) ExternalProject_Add(googletest - URL https://github.com/google/googletest/archive/release-1.10.0.zip - URL_HASH SHA256=94c634d499558a76fa649edb13721dce6e98fb1e7018dfaeba3cd7a083945e91 + URL https://github.com/google/googletest/archive/release-1.11.0.zip + URL_HASH SHA256=353571c2440176ded91c2de6d6cd88ddd41401d14692ec1f99e35d013feda55a SOURCE_DIR "${CONFU_DEPENDENCIES_SOURCE_DIR}/googletest" BINARY_DIR "${CONFU_DEPENDENCIES_BINARY_DIR}/googletest" CONFIGURE_COMMAND "" diff --git a/cmake/cpuinfo-config.cmake.in b/cmake/cpuinfo-config.cmake.in new file mode 100644 index 0000000..fd52c8c --- /dev/null +++ b/cmake/cpuinfo-config.cmake.in @@ -0,0 +1,12 @@ +@PACKAGE_INIT@ + +get_filename_component(_DIR "${CMAKE_CURRENT_LIST_FILE}" PATH) +file(GLOB CONFIG_FILES "${_DIR}/cpuinfo-config-*.cmake") +foreach(f ${CONFIG_FILES}) + include(${f}) +endforeach() + +# ${_DIR}/cpuinfo-targets-*.cmake will be included here +include("${_DIR}/cpuinfo-targets.cmake") + +check_required_components(@PROJECT_NAME@) diff --git a/deps/clog/BUILD.bazel b/deps/clog/BUILD.bazel new file mode 100644 index 0000000..7dc52ea --- /dev/null +++ b/deps/clog/BUILD.bazel @@ -0,0 +1,58 @@ +# Copied from TensorFlow's `https://github.com/tensorflow/tensorflow/blob/master/third_party/clog/clog.BUILD +# Licenced under Apache-2.0 License + +# Description: +# C-style (a-la printf) logging library + +package(default_visibility = ["//visibility:public"]) + +licenses(["notice"]) + +exports_files(["LICENSE"]) + +cc_library( + name = "clog", + srcs = [ + "src/clog.c", + ], + hdrs = [ + "include/clog.h", + ], + copts = select({ + ":windows": [], + "//conditions:default": ["-Wno-unused-result"], + }), + defines = select({ + # When linkstatic=False, we need default visibility + ":macos_x86_64": ["CLOG_VISIBILITY="], + "//conditions:default": [], + }), + linkopts = select({ + ":android": ["-llog"], + "//conditions:default": [], + }), + linkstatic = select({ + # https://github.com/bazelbuild/bazel/issues/11552 + ":macos_x86_64": False, + "//conditions:default": True, + }), + strip_include_prefix = "include", +) + +config_setting( + name = "android", + values = {"crosstool_top": "//external:android/crosstool"}, +) + +config_setting( + name = "windows", + values = {"cpu": "x64_windows"}, +) + +config_setting( + name = "macos_x86_64", + values = { + "apple_platform_type": "macos", + "cpu": "darwin", + }, +) diff --git a/deps/clog/CMakeLists.txt b/deps/clog/CMakeLists.txt index 083f519..4f34d23 100644 --- a/deps/clog/CMakeLists.txt +++ b/deps/clog/CMakeLists.txt @@ -57,7 +57,7 @@ SET_TARGET_PROPERTIES(clog PROPERTIES C_EXTENSIONS NO) CLOG_TARGET_RUNTIME_LIBRARY(clog) SET_TARGET_PROPERTIES(clog PROPERTIES PUBLIC_HEADER include/clog.h) -TARGET_INCLUDE_DIRECTORIES(clog BEFORE PUBLIC include) +TARGET_INCLUDE_DIRECTORIES(clog PUBLIC $<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR}/include> $<INSTALL_INTERFACE:${CMAKE_INSTALL_INCLUDEDIR}>) IF(CLOG_LOG_TO_STDIO) TARGET_COMPILE_DEFINITIONS(clog PRIVATE CLOG_LOG_TO_STDIO=1) ELSE() @@ -67,7 +67,10 @@ IF(ANDROID AND NOT CLOG_LOG_TO_STDIO) TARGET_LINK_LIBRARIES(clog PRIVATE log) ENDIF() +ADD_LIBRARY(cpuinfo::clog ALIAS clog) + INSTALL(TARGETS clog + EXPORT cpuinfo-targets LIBRARY DESTINATION "${CMAKE_INSTALL_LIBDIR}" ARCHIVE DESTINATION "${CMAKE_INSTALL_LIBDIR}" PUBLIC_HEADER DESTINATION "${CMAKE_INSTALL_INCLUDEDIR}") diff --git a/deps/clog/src/clog.c b/deps/clog/src/clog.c index fe5d43e..27658f9 100644 --- a/deps/clog/src/clog.c +++ b/deps/clog/src/clog.c @@ -10,6 +10,9 @@ #ifdef __ANDROID__ #include <android/log.h> #endif +#ifdef __hexagon__ + #include <qurt_printf.h> +#endif #ifndef CLOG_LOG_TO_STDIO #ifdef __ANDROID__ @@ -102,12 +105,14 @@ void clog_vlog_fatal(const char* module, const char* format, va_list args) { out_buffer = heap_buffer; } out_buffer[prefix_chars + format_chars] = '\n'; - #ifdef _WIN32 + #if defined(_WIN32) DWORD bytes_written; WriteFile( GetStdHandle(STD_ERROR_HANDLE), out_buffer, prefix_chars + format_chars + CLOG_SUFFIX_LENGTH, &bytes_written, NULL); + #elif defined(__hexagon__) + qurt_printf("%s", out_buffer); #else write(STDERR_FILENO, out_buffer, prefix_chars + format_chars + CLOG_SUFFIX_LENGTH); #endif @@ -178,12 +183,14 @@ void clog_vlog_error(const char* module, const char* format, va_list args) { out_buffer = heap_buffer; } out_buffer[prefix_chars + format_chars] = '\n'; - #ifdef _WIN32 + #if defined(_WIN32) DWORD bytes_written; WriteFile( GetStdHandle(STD_ERROR_HANDLE), out_buffer, prefix_chars + format_chars + CLOG_SUFFIX_LENGTH, &bytes_written, NULL); + #elif defined(__hexagon__) + qurt_printf("%s", out_buffer); #else write(STDERR_FILENO, out_buffer, prefix_chars + format_chars + CLOG_SUFFIX_LENGTH); #endif @@ -254,12 +261,14 @@ void clog_vlog_warning(const char* module, const char* format, va_list args) { out_buffer = heap_buffer; } out_buffer[prefix_chars + format_chars] = '\n'; - #ifdef _WIN32 + #if defined(_WIN32) DWORD bytes_written; WriteFile( GetStdHandle(STD_ERROR_HANDLE), out_buffer, prefix_chars + format_chars + CLOG_SUFFIX_LENGTH, &bytes_written, NULL); + #elif defined(__hexagon__) + qurt_printf("%s", out_buffer); #else write(STDERR_FILENO, out_buffer, prefix_chars + format_chars + CLOG_SUFFIX_LENGTH); #endif @@ -330,12 +339,14 @@ void clog_vlog_info(const char* module, const char* format, va_list args) { out_buffer = heap_buffer; } out_buffer[prefix_chars + format_chars] = '\n'; - #ifdef _WIN32 + #if defined(_WIN32) DWORD bytes_written; WriteFile( GetStdHandle(STD_OUTPUT_HANDLE), out_buffer, prefix_chars + format_chars + CLOG_SUFFIX_LENGTH, &bytes_written, NULL); + #elif defined(__hexagon__) + qurt_printf("%s", out_buffer); #else write(STDOUT_FILENO, out_buffer, prefix_chars + format_chars + CLOG_SUFFIX_LENGTH); #endif @@ -406,12 +417,14 @@ void clog_vlog_debug(const char* module, const char* format, va_list args) { out_buffer = heap_buffer; } out_buffer[prefix_chars + format_chars] = '\n'; - #ifdef _WIN32 + #if defined(_WIN32) DWORD bytes_written; WriteFile( GetStdHandle(STD_OUTPUT_HANDLE), out_buffer, prefix_chars + format_chars + CLOG_SUFFIX_LENGTH, &bytes_written, NULL); + #elif defined(__hexagon__) + qurt_printf("%s", out_buffer); #else write(STDOUT_FILENO, out_buffer, prefix_chars + format_chars + CLOG_SUFFIX_LENGTH); #endif diff --git a/include/cpuinfo.h b/include/cpuinfo.h index cffa299..bcbb3ec 100644 --- a/include/cpuinfo.h +++ b/include/cpuinfo.h @@ -426,9 +426,20 @@ enum cpuinfo_uarch { cpuinfo_uarch_neoverse_n1 = 0x00300400, /** ARM Neoverse E1. */ cpuinfo_uarch_neoverse_e1 = 0x00300401, + /** ARM Neoverse V1. */ + cpuinfo_uarch_neoverse_v1 = 0x00300402, + /** ARM Neoverse N2. */ + cpuinfo_uarch_neoverse_n2 = 0x00300403, /** ARM Cortex-X1. */ - cpuinfo_uarch_cortex_x1 = 0x00300500, + cpuinfo_uarch_cortex_x1 = 0x00300501, + /** ARM Cortex-X2. */ + cpuinfo_uarch_cortex_x2 = 0x00300502, + + /** ARM Cortex-A510. */ + cpuinfo_uarch_cortex_a510 = 0x00300551, + /** ARM Cortex-A710. */ + cpuinfo_uarch_cortex_a710 = 0x00300571, /** Qualcomm Scorpion. */ cpuinfo_uarch_scorpion = 0x00400100, @@ -489,10 +500,14 @@ enum cpuinfo_uarch { cpuinfo_uarch_lightning = 0x00700109, /** Apple A13 processor (little cores). */ cpuinfo_uarch_thunder = 0x0070010A, - /** Apple M1 processor (big cores). */ + /** Apple A14 / M1 processor (big cores). */ cpuinfo_uarch_firestorm = 0x0070010B, - /** Apple M1 processor (little cores). */ + /** Apple A14 / M1 processor (little cores). */ cpuinfo_uarch_icestorm = 0x0070010C, + /** Apple A15 / M2 processor (big cores). */ + cpuinfo_uarch_avalanche = 0x0070010D, + /** Apple A15 / M2 processor (little cores). */ + cpuinfo_uarch_blizzard = 0x0070010E, /** Cavium ThunderX. */ cpuinfo_uarch_thunderx = 0x00800100, @@ -1460,14 +1475,17 @@ static inline bool cpuinfo_has_x86_sha(void) { #endif #if CPUINFO_ARCH_ARM64 bool atomics; + bool bf16; bool sve; bool sve2; + bool i8mm; #endif bool rdm; bool fp16arith; bool dot; bool jscvt; bool fcma; + bool fhm; bool aes; bool sha1; @@ -1623,6 +1641,22 @@ static inline bool cpuinfo_has_arm_vfpv4_d32(void) { #endif } +static inline bool cpuinfo_has_arm_fp16_arith(void) { + #if CPUINFO_ARCH_ARM || CPUINFO_ARCH_ARM64 + return cpuinfo_isa.fp16arith; + #else + return false; + #endif +} + +static inline bool cpuinfo_has_arm_bf16(void) { + #if CPUINFO_ARCH_ARM64 + return cpuinfo_isa.bf16; + #else + return false; + #endif +} + static inline bool cpuinfo_has_arm_wmmx(void) { #if CPUINFO_ARCH_ARM return cpuinfo_isa.wmmx; @@ -1705,9 +1739,9 @@ static inline bool cpuinfo_has_arm_neon_fp16_arith(void) { #endif } -static inline bool cpuinfo_has_arm_fp16_arith(void) { +static inline bool cpuinfo_has_arm_fhm(void) { #if CPUINFO_ARCH_ARM || CPUINFO_ARCH_ARM64 - return cpuinfo_isa.fp16arith; + return cpuinfo_isa.fhm; #else return false; #endif @@ -1721,6 +1755,14 @@ static inline bool cpuinfo_has_arm_neon_dot(void) { #endif } +static inline bool cpuinfo_has_arm_neon_bf16(void) { + #if CPUINFO_ARCH_ARM64 + return cpuinfo_isa.bf16; + #else + return false; + #endif +} + static inline bool cpuinfo_has_arm_jscvt(void) { #if CPUINFO_ARCH_ARM || CPUINFO_ARCH_ARM64 return cpuinfo_isa.jscvt; @@ -1737,6 +1779,14 @@ static inline bool cpuinfo_has_arm_fcma(void) { #endif } +static inline bool cpuinfo_has_arm_i8mm(void) { + #if CPUINFO_ARCH_ARM64 + return cpuinfo_isa.i8mm; + #else + return false; + #endif +} + static inline bool cpuinfo_has_arm_aes(void) { #if CPUINFO_ARCH_ARM || CPUINFO_ARCH_ARM64 return cpuinfo_isa.aes; @@ -1785,6 +1835,14 @@ static inline bool cpuinfo_has_arm_sve(void) { #endif } +static inline bool cpuinfo_has_arm_sve_bf16(void) { + #if CPUINFO_ARCH_ARM64 + return cpuinfo_isa.sve && cpuinfo_isa.bf16; + #else + return false; + #endif +} + static inline bool cpuinfo_has_arm_sve2(void) { #if CPUINFO_ARCH_ARM64 return cpuinfo_isa.sve2; diff --git a/libcpuinfo.pc.in b/libcpuinfo.pc.in new file mode 100644 index 0000000..3027da3 --- /dev/null +++ b/libcpuinfo.pc.in @@ -0,0 +1,12 @@ +prefix=@CMAKE_INSTALL_PREFIX@ +exec_prefix=@CMAKE_INSTALL_PREFIX@ +libdir=@libdir_for_pc_file@ +includedir=@includedir_for_pc_file@ + +Name: lib@CMAKE_PROJECT_NAME@ +Description: Library to detect essential performance optimization information about host CPU. +Version: +URL: @PROJECT_HOMEPAGE_URL@ +Libs: -L${libdir} -lcpuinfo +Cflags: -I${includedir} + diff --git a/scripts/local-build.sh b/scripts/local-build.sh new file mode 100755 index 0000000..426a13b --- /dev/null +++ b/scripts/local-build.sh @@ -0,0 +1,38 @@ +#!/usr/bin/env bash +# +# Copyright (c) Facebook, Inc. and its affiliates. +# All rights reserved. +# +# This source code is licensed under the BSD-style license found in the +# LICENSE file in the root directory of this source tree. + +set -e + +mkdir -p build/local + +CMAKE_ARGS=() + +# CMake-level configuration +CMAKE_ARGS+=("-DCMAKE_BUILD_TYPE=Release") +CMAKE_ARGS+=("-DCMAKE_POSITION_INDEPENDENT_CODE=ON") + +# If Ninja is installed, prefer it to Make +if [ -x "$(command -v ninja)" ] +then + CMAKE_ARGS+=("-GNinja") +fi + +# Use-specified CMake arguments go last to allow overridding defaults +CMAKE_ARGS+=($@) + +cd build/local && cmake ../.. \ + "${CMAKE_ARGS[@]}" + +# Cross-platform parallel build +if [ "$(uname)" == "Darwin" ]; then + cmake --build . -- "-j$(sysctl -n hw.ncpu)" +elif [ "$(uname)" == "Linux" ]; then + cmake --build . -- "-j$(nproc)" +else + cmake --build . +fi diff --git a/src/arm/cache.c b/src/arm/cache.c index 446b02b..1a6dd38 100644 --- a/src/arm/cache.c +++ b/src/arm/cache.c @@ -535,6 +535,7 @@ void cpuinfo_arm_decode_cache( l2_size = 1024 * 1024; break; case 660: + case 662: /* Snapdragon 660: 1 MB L2 (little cores only) */ l2_size = 1024 * 1024; break; @@ -1238,6 +1239,63 @@ void cpuinfo_arm_decode_cache( }; break; } + case cpuinfo_uarch_neoverse_n1: + case cpuinfo_uarch_neoverse_v1: + case cpuinfo_uarch_neoverse_n2: + { + /* + * ARM Neoverse-n1 Core Technical Reference Manual + * A6.1. About the L1 memory system + * The L1 memory system consists of separate instruction and data caches. Both have a fixed size of 64KB. + * + * A6.1.1 L1 instruction-side memory system + * The L1 instruction memory system has the following key features: + * - Virtually Indexed, Physically Tagged (VIPT), which behaves as a Physically Indexed, + * Physically Tagged (PIPT) 4-way set-associative L1 data cache. + * - Fixed cache line length of 64 bytes. + * + * A6.1.2 L1 data-side memory system + * The L1 data memory system has the following features: + * - Virtually Indexed, Physically Tagged (VIPT), which behaves as a Physically Indexed, + * Physically Tagged (PIPT) 4-way set-associative L1 data cache. + * - Fixed cache line length of 64 bytes. + * - Pseudo-LRU cache replacement policy. + * + * A7.1 About the L2 memory system + * The L2 memory subsystem consist of: + * - An 8-way set associative L2 cache with a configurable size of 256KB, 512KB, or 1024KB. Cache lines + * have a fixed length of 64 bytes. + * - Strictly inclusive with L1 data cache. + * - When configured with instruction cache hardware coherency, strictly inclusive with L1 instruction cache. + * - When configured without instruction cache hardware coherency, weakly inclusive with L1 instruction cache. + */ + + const uint32_t min_l2_size_KB= 256; + const uint32_t min_l3_size_KB = 0; + + *l1i = (struct cpuinfo_cache) { + .size = 64 * 1024, + .associativity = 4, + .line_size = 64, + }; + *l1d = (struct cpuinfo_cache) { + .size = 64 * 1024, + .associativity = 4, + .line_size = 64, + }; + *l2 = (struct cpuinfo_cache) { + .size = min_l2_size_KB * 1024, + .associativity = 8, + .line_size = 64, + .flags = CPUINFO_CACHE_INCLUSIVE, + }; + *l3 = (struct cpuinfo_cache) { + .size = min_l3_size_KB * 1024, + .associativity = 16, + .line_size = 64, + }; + break; + } #if CPUINFO_ARCH_ARM && !defined(__ARM_ARCH_8A__) case cpuinfo_uarch_scorpion: /* @@ -1655,6 +1713,9 @@ uint32_t cpuinfo_arm_compute_max_cache_size(const struct cpuinfo_processor* proc */ return 8 * 1024 * 1024; case cpuinfo_uarch_cortex_a55: + case cpuinfo_uarch_neoverse_n1: + case cpuinfo_uarch_neoverse_v1: + case cpuinfo_uarch_neoverse_n2: case cpuinfo_uarch_cortex_a75: case cpuinfo_uarch_cortex_a76: case cpuinfo_uarch_exynos_m4: diff --git a/src/arm/linux/aarch32-isa.c b/src/arm/linux/aarch32-isa.c index df68aa1..fb95ee9 100644 --- a/src/arm/linux/aarch32-isa.c +++ b/src/arm/linux/aarch32-isa.c @@ -64,6 +64,8 @@ void cpuinfo_arm_linux_decode_isa_from_proc_cpuinfo( * - Processors with Exynos M4 cores * - Processors with Exynos M5 cores * - Neoverse N1 cores + * - Neoverse V1 cores + * - Neoverse N2 cores */ if (chipset->series == cpuinfo_arm_chipset_series_samsung_exynos && chipset->model == 9810) { /* Only little cores of Exynos 9810 support FP16 & RDM */ @@ -73,9 +75,11 @@ void cpuinfo_arm_linux_decode_isa_from_proc_cpuinfo( case UINT32_C(0x4100D050): /* Cortex-A55 */ case UINT32_C(0x4100D060): /* Cortex-A65 */ case UINT32_C(0x4100D0B0): /* Cortex-A76 */ - case UINT32_C(0x4100D0C0): /* Neoverse N1 */ case UINT32_C(0x4100D0D0): /* Cortex-A77 */ case UINT32_C(0x4100D0E0): /* Cortex-A76AE */ + case UINT32_C(0x4100D460): /* Cortex-A510 */ + case UINT32_C(0x4100D470): /* Cortex-A710 */ + case UINT32_C(0x4100D480): /* Cortex-X2 */ case UINT32_C(0x4800D400): /* Cortex-A76 (HiSilicon) */ case UINT32_C(0x51008020): /* Kryo 385 Gold (Cortex-A75) */ case UINT32_C(0x51008030): /* Kryo 385 Silver (Cortex-A55) */ @@ -98,6 +102,9 @@ void cpuinfo_arm_linux_decode_isa_from_proc_cpuinfo( case UINT32_C(0x4100D0D0): /* Cortex-A77 */ case UINT32_C(0x4100D0E0): /* Cortex-A76AE */ case UINT32_C(0x4800D400): /* Cortex-A76 (HiSilicon) */ + case UINT32_C(0x4100D460): /* Cortex-A510 */ + case UINT32_C(0x4100D470): /* Cortex-A710 */ + case UINT32_C(0x4100D480): /* Cortex-X2 */ case UINT32_C(0x51008040): /* Kryo 485 Gold (Cortex-A76) */ case UINT32_C(0x51008050): /* Kryo 485 Silver (Cortex-A55) */ case UINT32_C(0x53000030): /* Exynos-M4 */ diff --git a/src/arm/linux/aarch64-isa.c b/src/arm/linux/aarch64-isa.c index 2000e1a..44a8f4d 100644 --- a/src/arm/linux/aarch64-isa.c +++ b/src/arm/linux/aarch64-isa.c @@ -41,6 +41,8 @@ void cpuinfo_arm64_linux_decode_isa_from_proc_cpuinfo( * - Processors with Exynos M4 cores * - Processors with Exynos M5 cores * - Neoverse N1 cores + * - Neoverse V1 cores + * - Neoverse N2 cores */ if (chipset->series == cpuinfo_arm_chipset_series_samsung_exynos && chipset->model == 9810) { /* Exynos 9810 reports that it supports FP16 compute, but in fact only little cores do */ @@ -54,6 +56,8 @@ void cpuinfo_arm64_linux_decode_isa_from_proc_cpuinfo( case UINT32_C(0x4100D0C0): /* Neoverse N1 */ case UINT32_C(0x4100D0D0): /* Cortex-A77 */ case UINT32_C(0x4100D0E0): /* Cortex-A76AE */ + case UINT32_C(0x4100D400): /* Neoverse V1 */ + case UINT32_C(0x4100D490): /* Neoverse N2 */ case UINT32_C(0x4800D400): /* Cortex-A76 (HiSilicon) */ case UINT32_C(0x51008020): /* Kryo 385 Gold (Cortex-A75) */ case UINT32_C(0x51008030): /* Kryo 385 Silver (Cortex-A55) */ @@ -78,6 +82,9 @@ void cpuinfo_arm64_linux_decode_isa_from_proc_cpuinfo( break; } } + if (features2 & CPUINFO_ARM_LINUX_FEATURE2_I8MM) { + isa->i8mm = true; + } /* * Many phones ship with an old kernel configuration that doesn't report UDOT/SDOT instructions. @@ -89,6 +96,8 @@ void cpuinfo_arm64_linux_decode_isa_from_proc_cpuinfo( case UINT32_C(0x4100D0C0): /* Neoverse N1 */ case UINT32_C(0x4100D0D0): /* Cortex-A77 */ case UINT32_C(0x4100D0E0): /* Cortex-A76AE */ + case UINT32_C(0x4100D400): /* Neoverse V1 */ + case UINT32_C(0x4100D490): /* Neoverse N2 */ case UINT32_C(0x4100D4A0): /* Neoverse E1 */ case UINT32_C(0x4800D400): /* Cortex-A76 (HiSilicon) */ case UINT32_C(0x51008040): /* Kryo 485 Gold (Cortex-A76) */ @@ -124,4 +133,13 @@ void cpuinfo_arm64_linux_decode_isa_from_proc_cpuinfo( if (features2 & CPUINFO_ARM_LINUX_FEATURE2_SVE2) { isa->sve2 = true; } + // SVEBF16 is set iff SVE and BF16 are both supported, but the SVEBF16 feature flag + // was added in Linux kernel before the BF16 feature flag, so we check for either. + if (features2 & (CPUINFO_ARM_LINUX_FEATURE2_BF16 | CPUINFO_ARM_LINUX_FEATURE2_SVEBF16)) { + isa->bf16 = true; + } + if (features & CPUINFO_ARM_LINUX_FEATURE_ASIMDFHM) { + isa->fhm = true; + } } + diff --git a/src/arm/linux/chipset.c b/src/arm/linux/chipset.c index e36283c..f2a002d 100644 --- a/src/arm/linux/chipset.c +++ b/src/arm/linux/chipset.c @@ -1,3 +1,4 @@ +#include <ctype.h> #include <stdbool.h> #include <stdint.h> #include <stdio.h> @@ -281,6 +282,82 @@ static bool match_sm( return true; } + +struct special_map_entry { + const char* platform; + uint16_t model; + uint8_t series; + char suffix; +}; + +static const struct special_map_entry qualcomm_hardware_map_entries[] = { + { + /* "Kona" -> Qualcomm Kona */ + .platform = "Kona", + .series = cpuinfo_arm_chipset_series_qualcomm_snapdragon, + .model = 865, + }, + { + /* "Bengal" -> Qualcomm Bengal */ + .platform = "Bengal", + .series = cpuinfo_arm_chipset_series_qualcomm_snapdragon, + .model = 662, + }, + { + /* "Bengalp" -> Qualcomm Bengalp */ + .platform = "Bengalp", + .series = cpuinfo_arm_chipset_series_qualcomm_snapdragon, + .model = 662, + }, + { + /* "Lito" -> Qualcomm Lito */ + .platform = "Lito", + .series = cpuinfo_arm_chipset_series_qualcomm_snapdragon, + .model = 765, + .suffix = 'G' + }, + { + /* "Lagoon" -> Qualcomm Lagoon */ + .platform = "Lagoon", + .series = cpuinfo_arm_chipset_series_qualcomm_snapdragon, + .model = 0, + }, +}; + + +int strcicmp(char const *a, char const *b) +{ + for (;; a++, b++) { + int d = tolower((unsigned char)*a) - tolower((unsigned char)*b); + if (d != 0 || !*a) + return d; + } +} + +static bool match_qualcomm_special( + const char* start, const char* end, + struct cpuinfo_arm_chipset chipset[restrict static 1]) +{ + for (size_t i = 0; i < CPUINFO_COUNT_OF(qualcomm_hardware_map_entries); i++) { + int length = end - start; + if (strcicmp(qualcomm_hardware_map_entries[i].platform, start) == 0 && + qualcomm_hardware_map_entries[i].platform[length] == 0) + { + *chipset = (struct cpuinfo_arm_chipset) { + .vendor = chipset_series_vendor[qualcomm_hardware_map_entries[i].series], + .series = (enum cpuinfo_arm_chipset_series) qualcomm_hardware_map_entries[i].series, + .model = qualcomm_hardware_map_entries[i].model, + .suffix = { + [0] = qualcomm_hardware_map_entries[i].suffix, + }, + }; + return true; + } + } + return false; + +} + /** * Tries to match /Samsung Exynos\d{4}$/ signature (case-insensitive) for Samsung Exynos chipsets. * If match successful, extracts model information into \p chipset argument. @@ -1351,7 +1428,7 @@ static bool match_and_parse_sunxi( return false; } - /* Compare sunXi platform id and number of cores to tabluted values to decode chipset name */ + /* Compare sunXi platform id and number of cores to tabulated values to decode chipset name */ uint32_t model = 0; char suffix = 0; for (size_t i = 0; i < CPUINFO_COUNT_OF(sunxi_map_entries); i++) { @@ -1752,13 +1829,6 @@ static bool is_tegra(const char* start, const char* end) { return (length == 5 || start[5] == '3'); } -struct special_map_entry { - const char* platform; - uint16_t model; - uint8_t series; - char suffix; -}; - static const struct special_map_entry special_hardware_map_entries[] = { #if CPUINFO_ARCH_ARM { @@ -2317,6 +2387,14 @@ struct cpuinfo_arm_chipset cpuinfo_arm_linux_decode_chipset_from_proc_cpuinfo_ha (int) hardware_length, hardware); return chipset; } + + if (match_qualcomm_special(pos, hardware_end, &chipset)) { + cpuinfo_log_debug( + "matched Qualcomm signature in /proc/cpuinfo Hardware string \"%.*s\"", + (int) hardware_length, hardware); + return chipset; + } + } word_start = false; break; diff --git a/src/arm/linux/clusters.c b/src/arm/linux/clusters.c index c7a4045..430773d 100644 --- a/src/arm/linux/clusters.c +++ b/src/arm/linux/clusters.c @@ -48,7 +48,7 @@ static inline bool bitmask_all(uint32_t bitfield, uint32_t mask) { * @param usable_processors - number of processors in the @p processors array with CPUINFO_LINUX_FLAG_VALID flags. * @param max_processors - number of elements in the @p processors array. * @param[in,out] processors - processor descriptors with pre-parsed POSSIBLE and PRESENT flags, minimum/maximum - * frequency, MIDR infromation, and core cluster (package siblings list) information. + * frequency, MIDR information, and core cluster (package siblings list) information. * * @retval true if the heuristic successfully assigned all processors into clusters of cores. * @retval false if known details about processors contradict the heuristic configuration of core clusters. @@ -292,9 +292,9 @@ bool cpuinfo_arm_linux_detect_core_clusters_by_heuristic( * - Processors assigned to these clusters stay assigned to the same clusters * - No new processors are added to these clusters * - Processors without pre-assigned cluster are clustered in one sequential scan: - * - If known details (min/max frequency, MIDR components) of a processor are compatible with a preceeding - * processor, without pre-assigned cluster, the processor is assigned to the cluster of the preceeding processor. - * - If known details (min/max frequency, MIDR components) of a processor are not compatible with a preceeding + * - If known details (min/max frequency, MIDR components) of a processor are compatible with a preceding + * processor, without pre-assigned cluster, the processor is assigned to the cluster of the preceding processor. + * - If known details (min/max frequency, MIDR components) of a processor are not compatible with a preceding * processor, the processor is assigned to a newly created cluster. * * The function must be called after parsing OS-provided information on core clusters, and usually is called only @@ -309,7 +309,7 @@ bool cpuinfo_arm_linux_detect_core_clusters_by_heuristic( * * @param max_processors - number of elements in the @p processors array. * @param[in,out] processors - processor descriptors with pre-parsed POSSIBLE and PRESENT flags, minimum/maximum - * frequency, MIDR infromation, and core cluster (package siblings list) information. + * frequency, MIDR information, and core cluster (package siblings list) information. * * @retval true if the heuristic successfully assigned all processors into clusters of cores. * @retval false if known details about processors contradict the heuristic configuration of core clusters. @@ -331,7 +331,7 @@ void cpuinfo_arm_linux_detect_core_clusters_by_sequential_scan( if (cluster_flags & CPUINFO_LINUX_FLAG_MIN_FREQUENCY) { if (cluster_min_frequency != processors[i].min_frequency) { cpuinfo_log_info( - "minimum frequency of processor %"PRIu32" (%"PRIu32" KHz) is different than of preceeding cluster (%"PRIu32" KHz); " + "minimum frequency of processor %"PRIu32" (%"PRIu32" KHz) is different than of preceding cluster (%"PRIu32" KHz); " "processor %"PRIu32" starts to a new cluster", i, processors[i].min_frequency, cluster_min_frequency, i); goto new_cluster; @@ -346,7 +346,7 @@ void cpuinfo_arm_linux_detect_core_clusters_by_sequential_scan( if (cluster_flags & CPUINFO_LINUX_FLAG_MAX_FREQUENCY) { if (cluster_max_frequency != processors[i].max_frequency) { cpuinfo_log_debug( - "maximum frequency of processor %"PRIu32" (%"PRIu32" KHz) is different than of preceeding cluster (%"PRIu32" KHz); " + "maximum frequency of processor %"PRIu32" (%"PRIu32" KHz) is different than of preceding cluster (%"PRIu32" KHz); " "processor %"PRIu32" starts a new cluster", i, processors[i].max_frequency, cluster_max_frequency, i); goto new_cluster; @@ -361,7 +361,7 @@ void cpuinfo_arm_linux_detect_core_clusters_by_sequential_scan( if (cluster_flags & CPUINFO_ARM_LINUX_VALID_IMPLEMENTER) { if ((cluster_midr & CPUINFO_ARM_MIDR_IMPLEMENTER_MASK) != (processors[i].midr & CPUINFO_ARM_MIDR_IMPLEMENTER_MASK)) { cpuinfo_log_debug( - "CPU Implementer of processor %"PRIu32" (0x%02"PRIx32") is different than of preceeding cluster (0x%02"PRIx32"); " + "CPU Implementer of processor %"PRIu32" (0x%02"PRIx32") is different than of preceding cluster (0x%02"PRIx32"); " "processor %"PRIu32" starts to a new cluster", i, midr_get_implementer(processors[i].midr), midr_get_implementer(cluster_midr), i); goto new_cluster; @@ -417,11 +417,11 @@ void cpuinfo_arm_linux_detect_core_clusters_by_sequential_scan( } } - /* All checks passed, attach processor to the preceeding cluster */ + /* All checks passed, attach processor to the preceding cluster */ cluster_processors++; processors[i].package_leader_id = cluster_start; processors[i].flags |= CPUINFO_LINUX_FLAG_PACKAGE_CLUSTER; - cpuinfo_log_debug("assigned processor %"PRIu32" to preceeding cluster of processor %"PRIu32, i, cluster_start); + cpuinfo_log_debug("assigned processor %"PRIu32" to preceding cluster of processor %"PRIu32, i, cluster_start); continue; new_cluster: diff --git a/src/arm/linux/cpuinfo.c b/src/arm/linux/cpuinfo.c index 90e1631..817da12 100644 --- a/src/arm/linux/cpuinfo.c +++ b/src/arm/linux/cpuinfo.c @@ -177,6 +177,10 @@ static void parse_features( #if CPUINFO_ARCH_ARM64 processor->features |= CPUINFO_ARM_LINUX_FEATURE_FCMA; #endif + } else if (memcmp(feature_start, "i8mm", feature_length) == 0) { + #if CPUINFO_ARCH_ARM64 + processor->features2 |= CPUINFO_ARM_LINUX_FEATURE2_I8MM; + #endif #if CPUINFO_ARCH_ARM } else if (memcmp(feature_start, "half", feature_length) == 0) { processor->features |= CPUINFO_ARM_LINUX_FEATURE_HALF; @@ -283,6 +287,10 @@ static void parse_features( #if CPUINFO_ARCH_ARM64 processor->features |= CPUINFO_ARM_LINUX_FEATURE_ASIMDRDM; #endif + } else if (memcmp(feature_start, "asimdfhm", feature_length) == 0) { + #if CPUINFO_ARCH_ARM64 + processor->features |= CPUINFO_ARM_LINUX_FEATURE_ASIMDFHM; + #endif #if CPUINFO_ARCH_ARM } else if (memcmp(feature_start, "fastmult", feature_length) == 0) { processor->features |= CPUINFO_ARM_LINUX_FEATURE_FASTMULT; diff --git a/src/arm/linux/init.c b/src/arm/linux/init.c index 23d8439..d3da5a9 100644 --- a/src/arm/linux/init.c +++ b/src/arm/linux/init.c @@ -510,7 +510,7 @@ void cpuinfo_arm_linux_init(void) { uint32_t l2_count = 0, l3_count = 0, big_l3_size = 0, cluster_id = UINT32_MAX; /* Indication whether L3 (if it exists) is shared between all cores */ bool shared_l3 = true; - /* Populate cache infromation structures in l1i, l1d */ + /* Populate cache information structures in l1i, l1d */ for (uint32_t i = 0; i < valid_processors; i++) { if (arm_linux_processors[i].package_leader_id == arm_linux_processors[i].system_processor_id) { cluster_id += 1; diff --git a/src/arm/linux/midr.c b/src/arm/linux/midr.c index 2c3116b..0d8f03f 100644 --- a/src/arm/linux/midr.c +++ b/src/arm/linux/midr.c @@ -675,10 +675,10 @@ static bool cpuinfo_arm_linux_detect_cluster_midr_by_big_little_heuristic( /* * Initializes MIDR for leaders of core clusters in a single sequential scan: - * - Clusters preceeding the first reported MIDR value are assumed to have default MIDR value. + * - Clusters preceding the first reported MIDR value are assumed to have default MIDR value. * - Clusters following any reported MIDR value to have that MIDR value. * - * @param default_midr - MIDR value that will be assigned to cluster leaders preceeding any reported MIDR value. + * @param default_midr - MIDR value that will be assigned to cluster leaders preceding any reported MIDR value. * @param processors_count - number of logical processor descriptions in the @p processors array. * @param[in,out] processors - array of logical processor descriptions with pre-parsed MIDR, maximum frequency, * and decoded core cluster (package_leader_id) information. @@ -833,7 +833,7 @@ uint32_t cpuinfo_arm_linux_detect_cluster_midr( * 2. For systems with 2 clusters and MIDR known for one cluster, assume big.LITTLE configuration, * and estimate MIDR for the other cluster under assumption that MIDR for the big cluster is known. * 3. Initialize MIDRs for core clusters in a single sequential scan: - * - Clusters preceeding the first reported MIDR value are assumed to have the last reported MIDR value. + * - Clusters preceding the first reported MIDR value are assumed to have the last reported MIDR value. * - Clusters following any reported MIDR value to have that MIDR value. */ diff --git a/src/arm/mach/init.c b/src/arm/mach/init.c index dbea578..6a28b2d 100644 --- a/src/arm/mach/init.c +++ b/src/arm/mach/init.c @@ -15,43 +15,25 @@ #include <cpuinfo/log.h> /* Polyfill recent CPUFAMILY_ARM_* values for older SDKs */ -#ifndef CPUFAMILY_ARM_MONSOON_MISTRAL - #define CPUFAMILY_ARM_MONSOON_MISTRAL 0xE81E7EF6 -#endif #ifndef CPUFAMILY_ARM_VORTEX_TEMPEST - #define CPUFAMILY_ARM_VORTEX_TEMPEST 0x07D34B9F + #define CPUFAMILY_ARM_VORTEX_TEMPEST 0x07D34B9F #endif #ifndef CPUFAMILY_ARM_LIGHTNING_THUNDER - #define CPUFAMILY_ARM_LIGHTNING_THUNDER 0x462504D2 + #define CPUFAMILY_ARM_LIGHTNING_THUNDER 0x462504D2 #endif #ifndef CPUFAMILY_ARM_FIRESTORM_ICESTORM #define CPUFAMILY_ARM_FIRESTORM_ICESTORM 0x1B588BB3 #endif +#ifndef CPUFAMILY_ARM_AVALANCHE_BLIZZARD + #define CPUFAMILY_ARM_AVALANCHE_BLIZZARD 0xDA33D83D +#endif struct cpuinfo_arm_isa cpuinfo_isa = { -#if CPUINFO_ARCH_ARM - .thumb = true, - .thumb2 = true, - .thumbee = false, - .jazelle = false, - .armv5e = true, - .armv6 = true, - .armv6k = true, - .armv7 = true, - .vfpv2 = false, - .vfpv3 = true, - .d32 = true, - .wmmx = false, - .wmmx2 = false, - .neon = true, -#endif -#if CPUINFO_ARCH_ARM64 .aes = true, .sha1 = true, .sha2 = true, .pmull = true, .crc32 = true, -#endif }; static uint32_t get_sys_info(int type_specifier, const char* name) { @@ -83,10 +65,8 @@ static uint32_t get_sys_info_by_name(const char* type_specifier) { return result; } -static enum cpuinfo_uarch decode_uarch(uint32_t cpu_family, uint32_t cpu_subtype, uint32_t core_index, uint32_t core_count) { +static enum cpuinfo_uarch decode_uarch(uint32_t cpu_family, uint32_t core_index, uint32_t core_count) { switch (cpu_family) { - case CPUFAMILY_ARM_SWIFT: - return cpuinfo_uarch_swift; case CPUFAMILY_ARM_CYCLONE: return cpuinfo_uarch_cyclone; case CPUFAMILY_ARM_TYPHOON: @@ -107,25 +87,15 @@ static enum cpuinfo_uarch decode_uarch(uint32_t cpu_family, uint32_t cpu_subtype case CPUFAMILY_ARM_FIRESTORM_ICESTORM: /* Hexa-core: 2x Firestorm + 4x Icestorm; Octa-core: 4x Firestorm + 4x Icestorm */ return core_index + 4 < core_count ? cpuinfo_uarch_firestorm : cpuinfo_uarch_icestorm; + case CPUFAMILY_ARM_AVALANCHE_BLIZZARD: + /* Hexa-core: 2x Avalanche + 4x Blizzard */ + return core_index + 4 < core_count ? cpuinfo_uarch_avalanche : cpuinfo_uarch_blizzard; default: /* Use hw.cpusubtype for detection */ break; } - #if CPUINFO_ARCH_ARM - switch (cpu_subtype) { - case CPU_SUBTYPE_ARM_V7: - return cpuinfo_uarch_cortex_a8; - case CPU_SUBTYPE_ARM_V7F: - return cpuinfo_uarch_cortex_a9; - case CPU_SUBTYPE_ARM_V7K: - return cpuinfo_uarch_cortex_a7; - default: - return cpuinfo_uarch_unknown; - } - #else - return cpuinfo_uarch_unknown; - #endif + return cpuinfo_uarch_unknown; } static void decode_package_name(char* package_name) { @@ -299,71 +269,118 @@ void cpuinfo_arm_mach_init(void) { const uint32_t cpu_family = get_sys_info_by_name("hw.cpufamily"); - const uint32_t cpu_type = get_sys_info_by_name("hw.cputype"); - const uint32_t cpu_subtype = get_sys_info_by_name("hw.cpusubtype"); - switch (cpu_type) { - case CPU_TYPE_ARM64: - cpuinfo_isa.aes = true; - cpuinfo_isa.sha1 = true; - cpuinfo_isa.sha2 = true; - cpuinfo_isa.pmull = true; - cpuinfo_isa.crc32 = true; - break; -#if CPUINFO_ARCH_ARM - case CPU_TYPE_ARM: - switch (cpu_subtype) { - case CPU_SUBTYPE_ARM_V8: - cpuinfo_isa.armv8 = true; - cpuinfo_isa.aes = true; - cpuinfo_isa.sha1 = true; - cpuinfo_isa.sha2 = true; - cpuinfo_isa.pmull = true; - cpuinfo_isa.crc32 = true; - /* Fall-through to add ARMv7S features */ - case CPU_SUBTYPE_ARM_V7S: - case CPU_SUBTYPE_ARM_V7K: - cpuinfo_isa.fma = true; - /* Fall-through to add ARMv7F features */ - case CPU_SUBTYPE_ARM_V7F: - cpuinfo_isa.armv7mp = true; - cpuinfo_isa.fp16 = true; - /* Fall-through to add ARMv7 features */ - case CPU_SUBTYPE_ARM_V7: - break; - default: - break; - } - break; -#endif - } + /* - * Support for ARMv8.1 Atomics & FP16 arithmetic instructions is supposed to be detected via - * sysctlbyname calls with "hw.optional.armv8_1_atomics" and "hw.optional.neon_fp16" arguments - * (see https://devstreaming-cdn.apple.com/videos/wwdc/2018/409t8zw7rumablsh/409/409_whats_new_in_llvm.pdf), - * but on new iOS versions these calls just fail with EPERM. - * - * Thus, we whitelist CPUs known to support these instructions. + * iOS 15 and macOS 12 added sysctls for ARM features, use them where possible. + * Otherwise, fallback to hardcoded set of CPUs with known support. */ - switch (cpu_family) { - case CPUFAMILY_ARM_MONSOON_MISTRAL: - case CPUFAMILY_ARM_VORTEX_TEMPEST: - case CPUFAMILY_ARM_LIGHTNING_THUNDER: - case CPUFAMILY_ARM_FIRESTORM_ICESTORM: - #if CPUINFO_ARCH_ARM64 + const uint32_t has_feat_lse = get_sys_info_by_name("hw.optional.arm.FEAT_LSE"); + if (has_feat_lse != 0) { + cpuinfo_isa.atomics = true; + } else { + // Mandatory in ARMv8.1-A, list only cores released before iOS 15 / macOS 12 + switch (cpu_family) { + case CPUFAMILY_ARM_MONSOON_MISTRAL: + case CPUFAMILY_ARM_VORTEX_TEMPEST: + case CPUFAMILY_ARM_LIGHTNING_THUNDER: + case CPUFAMILY_ARM_FIRESTORM_ICESTORM: cpuinfo_isa.atomics = true; - #endif - cpuinfo_isa.fp16arith = true; + } } - /* - * There does not yet seem to exist an OS mechanism to detect support for - * ARMv8.2 optional dot-product instructions, so we currently whitelist CPUs - * known to support these instruction. - */ - switch (cpu_family) { - case CPUFAMILY_ARM_LIGHTNING_THUNDER: - case CPUFAMILY_ARM_FIRESTORM_ICESTORM: - cpuinfo_isa.dot = true; + const uint32_t has_feat_rdm = get_sys_info_by_name("hw.optional.arm.FEAT_RDM"); + if (has_feat_rdm != 0) { + cpuinfo_isa.rdm = true; + } else { + // Optional in ARMv8.2-A (implemented in Apple cores), + // list only cores released before iOS 15 / macOS 12 + switch (cpu_family) { + case CPUFAMILY_ARM_MONSOON_MISTRAL: + case CPUFAMILY_ARM_VORTEX_TEMPEST: + case CPUFAMILY_ARM_LIGHTNING_THUNDER: + case CPUFAMILY_ARM_FIRESTORM_ICESTORM: + cpuinfo_isa.rdm = true; + } + } + + const uint32_t has_feat_fp16 = get_sys_info_by_name("hw.optional.arm.FEAT_FP16"); + if (has_feat_fp16 != 0) { + cpuinfo_isa.fp16arith = true; + } else { + // Optional in ARMv8.2-A (implemented in Apple cores), + // list only cores released before iOS 15 / macOS 12 + switch (cpu_family) { + case CPUFAMILY_ARM_MONSOON_MISTRAL: + case CPUFAMILY_ARM_VORTEX_TEMPEST: + case CPUFAMILY_ARM_LIGHTNING_THUNDER: + case CPUFAMILY_ARM_FIRESTORM_ICESTORM: + cpuinfo_isa.fp16arith = true; + } + } + + const uint32_t has_feat_fhm = get_sys_info_by_name("hw.optional.arm.FEAT_FHM"); + if (has_feat_fhm != 0) { + cpuinfo_isa.fhm = true; + } else { + // Prior to iOS 15, use 'hw.optional.armv8_2_fhm' + const uint32_t has_feat_fhm_legacy = get_sys_info_by_name("hw.optional.armv8_2_fhm"); + if (has_feat_fhm_legacy != 0) { + cpuinfo_isa.fhm = true; + } else { + // Mandatory in ARMv8.4-A when FP16 arithmetics is implemented, + // list only cores released before iOS 15 / macOS 12 + switch (cpu_family) { + case CPUFAMILY_ARM_LIGHTNING_THUNDER: + case CPUFAMILY_ARM_FIRESTORM_ICESTORM: + cpuinfo_isa.fhm = true; + } + } + } + + const uint32_t has_feat_bf16 = get_sys_info_by_name("hw.optional.arm.FEAT_BF16"); + if (has_feat_bf16 != 0) { + cpuinfo_isa.bf16 = true; + } + + const uint32_t has_feat_fcma = get_sys_info_by_name("hw.optional.arm.FEAT_FCMA"); + if (has_feat_fcma != 0) { + cpuinfo_isa.fcma = true; + } else { + // Mandatory in ARMv8.3-A, list only cores released before iOS 15 / macOS 12 + switch (cpu_family) { + case CPUFAMILY_ARM_LIGHTNING_THUNDER: + case CPUFAMILY_ARM_FIRESTORM_ICESTORM: + cpuinfo_isa.fcma = true; + } + } + + const uint32_t has_feat_jscvt = get_sys_info_by_name("hw.optional.arm.FEAT_JSCVT"); + if (has_feat_jscvt != 0) { + cpuinfo_isa.jscvt = true; + } else { + // Mandatory in ARMv8.3-A, list only cores released before iOS 15 / macOS 12 + switch (cpu_family) { + case CPUFAMILY_ARM_LIGHTNING_THUNDER: + case CPUFAMILY_ARM_FIRESTORM_ICESTORM: + cpuinfo_isa.jscvt = true; + } + } + + const uint32_t has_feat_dotprod = get_sys_info_by_name("hw.optional.arm.FEAT_DotProd"); + if (has_feat_dotprod != 0) { + cpuinfo_isa.dot = true; + } else { + // Mandatory in ARMv8.4-A, list only cores released before iOS 15 / macOS 12 + switch (cpu_family) { + case CPUFAMILY_ARM_LIGHTNING_THUNDER: + case CPUFAMILY_ARM_FIRESTORM_ICESTORM: + cpuinfo_isa.dot = true; + } + } + + const uint32_t has_feat_i8mm = get_sys_info_by_name("hw.optional.arm.FEAT_I8MM"); + if (has_feat_i8mm != 0) { + cpuinfo_isa.i8mm = true; } uint32_t num_clusters = 1; @@ -374,7 +391,7 @@ void cpuinfo_arm_mach_init(void) { .core_id = i % cores_per_package, .package = packages + i / cores_per_package, .vendor = cpuinfo_vendor_apple, - .uarch = decode_uarch(cpu_family, cpu_subtype, i, mach_topology.cores), + .uarch = decode_uarch(cpu_family, i, mach_topology.cores), }; if (i != 0 && cores[i].uarch != cores[i - 1].uarch) { num_clusters++; diff --git a/src/arm/midr.h b/src/arm/midr.h index 739dc19..b0e244c 100644 --- a/src/arm/midr.h +++ b/src/arm/midr.h @@ -174,23 +174,25 @@ inline static uint32_t midr_score_core(uint32_t midr) { case UINT32_C(0x53000030): /* Exynos M4 */ case UINT32_C(0x53000040): /* Exynos M5 */ case UINT32_C(0x4100D440): /* Cortex-X1 */ - /* These cores are in big role w.r.t Cortex-A75/-A76/-A77/-A78 */ + case UINT32_C(0x4100D480): /* Cortex-X2 */ + /* These cores are in big role w.r.t Cortex-A75/-A76/-A77/-A78/-A710 */ return 6; + case UINT32_C(0x4100D080): /* Cortex-A72 */ + case UINT32_C(0x4100D090): /* Cortex-A73 */ + case UINT32_C(0x4100D0A0): /* Cortex-A75 */ + case UINT32_C(0x4100D0B0): /* Cortex-A76 */ + case UINT32_C(0x4100D0D0): /* Cortex-A77 */ + case UINT32_C(0x4100D0E0): /* Cortex-A76AE */ + case UINT32_C(0x4100D410): /* Cortex-A78 */ + case UINT32_C(0x4100D470): /* Cortex-A710 */ + case UINT32_C(0x4800D400): /* Cortex-A76 (HiSilicon) */ case UINT32_C(0x4E000030): /* Denver 2 */ + case UINT32_C(0x51002050): /* Kryo Gold */ + case UINT32_C(0x51008000): /* Kryo 260 / 280 Gold */ + case UINT32_C(0x51008020): /* Kryo 385 Gold */ + case UINT32_C(0x51008040): /* Kryo 485 Gold / Gold Prime */ case UINT32_C(0x53000010): /* Exynos M1 and Exynos M2 */ case UINT32_C(0x53000020): /* Exynos M3 */ - case UINT32_C(0x51008040): /* Kryo 485 Gold / Gold Prime */ - case UINT32_C(0x51008020): /* Kryo 385 Gold */ - case UINT32_C(0x51008000): /* Kryo 260 / 280 Gold */ - case UINT32_C(0x51002050): /* Kryo Gold */ - case UINT32_C(0x4800D400): /* Cortex-A76 (HiSilicon) */ - case UINT32_C(0x4100D410): /* Cortex-A78 */ - case UINT32_C(0x4100D0D0): /* Cortex-A77 */ - case UINT32_C(0x4100D0E0): /* Cortex-A76AE */ - case UINT32_C(0x4100D0B0): /* Cortex-A76 */ - case UINT32_C(0x4100D0A0): /* Cortex-A75 */ - case UINT32_C(0x4100D090): /* Cortex-A73 */ - case UINT32_C(0x4100D080): /* Cortex-A72 */ #if CPUINFO_ARCH_ARM case UINT32_C(0x4100C0F0): /* Cortex-A15 */ case UINT32_C(0x4100C0E0): /* Cortex-A17 */ @@ -205,8 +207,9 @@ inline static uint32_t midr_score_core(uint32_t midr) { #if CPUINFO_ARCH_ARM64 case UINT32_C(0x4100D060): /* Cortex-A65 */ #endif /* CPUINFO_ARCH_ARM64 */ - case UINT32_C(0x4100D050): /* Cortex-A55 */ case UINT32_C(0x4100D030): /* Cortex-A53 */ + case UINT32_C(0x4100D050): /* Cortex-A55 */ + case UINT32_C(0x4100D460): /* Cortex-A510 */ /* Cortex-A53 is usually in LITTLE role, but can be in big role w.r.t. Cortex-A35 */ return 2; case UINT32_C(0x4100D040): /* Cortex-A35 */ diff --git a/src/arm/uarch.c b/src/arm/uarch.c index 8b5362b..1d4c6ee 100644 --- a/src/arm/uarch.c +++ b/src/arm/uarch.c @@ -91,13 +91,30 @@ void cpuinfo_arm_decode_vendor_uarch( case 0xD0E: /* Cortex-A76AE */ *uarch = cpuinfo_uarch_cortex_a76; break; +#if CPUINFO_ARCH_ARM64 && !defined(__ANDROID__) + case 0xD40: + *uarch = cpuinfo_uarch_neoverse_v1; + break; +#endif /* CPUINFO_ARCH_ARM64 && !defined(__ANDROID__) */ case 0xD41: /* Cortex-A78 */ *uarch = cpuinfo_uarch_cortex_a78; break; case 0xD44: /* Cortex-X1 */ *uarch = cpuinfo_uarch_cortex_x1; break; + case 0xD46: /* Cortex-A510 */ + *uarch = cpuinfo_uarch_cortex_a510; + break; + case 0xD47: /* Cortex-A710 */ + *uarch = cpuinfo_uarch_cortex_a710; + break; + case 0xD48: /* Cortex-X2 */ + *uarch = cpuinfo_uarch_cortex_x2; + break; #if CPUINFO_ARCH_ARM64 && !defined(__ANDROID__) + case 0xD49: + *uarch = cpuinfo_uarch_neoverse_n2; + break; case 0xD4A: *uarch = cpuinfo_uarch_neoverse_e1; break; diff --git a/src/arm/windows/init-by-logical-sys-info.c b/src/arm/windows/init-by-logical-sys-info.c new file mode 100644 index 0000000..f088011 --- /dev/null +++ b/src/arm/windows/init-by-logical-sys-info.c @@ -0,0 +1,885 @@ +#include <stdio.h>
+#include <stdint.h>
+#include <stdlib.h>
+#include <string.h>
+#include <malloc.h>
+#include <errno.h>
+#include <sys/types.h>
+
+#include <cpuinfo.h>
+#include <cpuinfo/internal-api.h>
+#include <cpuinfo/log.h>
+
+#include "windows-arm-init.h"
+
+#define MAX_NR_OF_CACHES (cpuinfo_cache_level_max - 1)
+
+/* Call chain:
+ * cpu_info_init_by_logical_sys_info
+ * read_packages_for_processors
+ * read_cores_for_processors
+ * read_caches_for_processors
+ * read_all_logical_processor_info_of_relation
+ * parse_relation_processor_info
+ * store_package_info_per_processor
+ * store_core_info_per_processor
+ * parse_relation_cache_info
+ * store_cache_info_per_processor
+ */
+
+static uint32_t count_logical_processors(
+ const uint32_t max_group_count,
+ uint32_t* global_proc_index_per_group);
+
+static uint32_t read_packages_for_processors(
+ struct cpuinfo_processor* processors,
+ const uint32_t number_of_processors,
+ const uint32_t* global_proc_index_per_group,
+ const struct woa_chip_info *chip_info);
+
+static uint32_t read_cores_for_processors(
+ struct cpuinfo_processor* processors,
+ const uint32_t number_of_processors,
+ const uint32_t* global_proc_index_per_group,
+ struct cpuinfo_core* cores,
+ const struct woa_chip_info *chip_info);
+
+static uint32_t read_caches_for_processors(
+ struct cpuinfo_processor *processors,
+ const uint32_t number_of_processors,
+ struct cpuinfo_cache *caches,
+ uint32_t* numbers_of_caches,
+ const uint32_t* global_proc_index_per_group,
+ const struct woa_chip_info *chip_info);
+
+static uint32_t read_all_logical_processor_info_of_relation(
+ LOGICAL_PROCESSOR_RELATIONSHIP info_type,
+ struct cpuinfo_processor* processors,
+ const uint32_t number_of_processors,
+ struct cpuinfo_cache* caches,
+ uint32_t* numbers_of_caches,
+ struct cpuinfo_core* cores,
+ const uint32_t* global_proc_index_per_group,
+ const struct woa_chip_info *chip_info);
+
+static bool parse_relation_processor_info(
+ struct cpuinfo_processor* processors,
+ uint32_t nr_of_processors,
+ const uint32_t* global_proc_index_per_group,
+ PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX info,
+ const uint32_t info_id,
+ struct cpuinfo_core* cores,
+ const struct woa_chip_info *chip_info);
+
+static bool parse_relation_cache_info(
+ struct cpuinfo_processor* processors,
+ struct cpuinfo_cache* caches,
+ uint32_t* numbers_of_caches,
+ const uint32_t* global_proc_index_per_group,
+ PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX info);
+
+static void store_package_info_per_processor(
+ struct cpuinfo_processor* processors,
+ const uint32_t processor_global_index,
+ const uint32_t package_id,
+ const uint32_t group_id,
+ const uint32_t processor_id_in_group);
+
+static void store_core_info_per_processor(
+ struct cpuinfo_processor* processors,
+ const uint32_t processor_global_index,
+ const uint32_t core_id,
+ PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX core_info,
+ struct cpuinfo_core* cores,
+ const struct woa_chip_info *chip_info);
+
+static void store_cache_info_per_processor(
+ struct cpuinfo_processor* processors,
+ const uint32_t processor_global_index,
+ PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX info,
+ struct cpuinfo_cache* current_cache);
+
+static bool connect_packages_cores_clusters_by_processors(
+ struct cpuinfo_processor* processors,
+ const uint32_t nr_of_processors,
+ struct cpuinfo_package* packages,
+ const uint32_t nr_of_packages,
+ struct cpuinfo_cluster* clusters,
+ struct cpuinfo_core* cores,
+ const uint32_t nr_of_cores,
+ const struct woa_chip_info* chip_info,
+ enum cpuinfo_vendor vendor);
+
+static inline uint32_t low_index_from_kaffinity(KAFFINITY kaffinity);
+
+
+bool cpu_info_init_by_logical_sys_info(
+ const struct woa_chip_info *chip_info,
+ const enum cpuinfo_vendor vendor)
+{
+ struct cpuinfo_processor* processors = NULL;
+ struct cpuinfo_package* packages = NULL;
+ struct cpuinfo_cluster* clusters = NULL;
+ struct cpuinfo_core* cores = NULL;
+ struct cpuinfo_cache* caches = NULL;
+ struct cpuinfo_uarch_info* uarchs = NULL;
+
+ uint32_t nr_of_packages = 0;
+ uint32_t nr_of_cores = 0;
+ uint32_t nr_of_all_caches = 0;
+ uint32_t numbers_of_caches[MAX_NR_OF_CACHES] = {0};
+
+ uint32_t nr_of_uarchs = 0;
+ bool result = false;
+
+ HANDLE heap = GetProcessHeap();
+
+ /* 1. Count available logical processor groups and processors */
+ const uint32_t max_group_count = (uint32_t) GetMaximumProcessorGroupCount();
+ cpuinfo_log_debug("detected %"PRIu32" processor group(s)", max_group_count);
+ /* We need to store the absolute processor ID offsets for every groups, because
+ * 1. We can't assume every processor groups include the same number of
+ * logical processors.
+ * 2. Every processor groups know its group number and processor IDs within
+ * the group, but not the global processor IDs.
+ * 3. We need to list every logical processors by global IDs.
+ */
+ uint32_t* global_proc_index_per_group =
+ (uint32_t*) HeapAlloc(heap, 0, max_group_count * sizeof(uint32_t));
+ if (global_proc_index_per_group == NULL) {
+ cpuinfo_log_error(
+ "failed to allocate %zu bytes for descriptions of %"PRIu32" processor groups",
+ max_group_count * sizeof(struct cpuinfo_processor), max_group_count);
+ goto clean_up;
+ }
+
+ uint32_t nr_of_processors =
+ count_logical_processors(max_group_count, global_proc_index_per_group);
+ processors = HeapAlloc(heap, HEAP_ZERO_MEMORY, nr_of_processors * sizeof(struct cpuinfo_processor));
+ if (processors == NULL) {
+ cpuinfo_log_error(
+ "failed to allocate %zu bytes for descriptions of %"PRIu32" logical processors",
+ nr_of_processors * sizeof(struct cpuinfo_processor), nr_of_processors);
+ goto clean_up;
+ }
+
+ /* 2. Read topology information via MSDN API: packages, cores and caches*/
+ nr_of_packages = read_packages_for_processors(
+ processors, nr_of_processors,
+ global_proc_index_per_group,
+ chip_info);
+ if (!nr_of_packages) {
+ cpuinfo_log_error("error in reading package information");
+ goto clean_up;
+ }
+ cpuinfo_log_debug("detected %"PRIu32" processor package(s)", nr_of_packages);
+
+ /* We need the EfficiencyClass to parse uarch from the core information,
+ * but we need to iterate first to count cores and allocate memory then
+ * we will iterate again to read and store data to cpuinfo_core structures.
+ */
+ nr_of_cores = read_cores_for_processors(
+ processors, nr_of_processors,
+ global_proc_index_per_group, NULL,
+ chip_info);
+ if (!nr_of_cores) {
+ cpuinfo_log_error("error in reading core information");
+ goto clean_up;
+ }
+ cpuinfo_log_debug("detected %"PRIu32" processor core(s)", nr_of_cores);
+
+ /* There is no API to read number of caches, so we need to iterate twice on caches:
+ 1. Count all type of caches -> allocate memory
+ 2. Read out cache data and store to allocated memory
+ */
+ nr_of_all_caches = read_caches_for_processors(
+ processors, nr_of_processors,
+ caches, numbers_of_caches,
+ global_proc_index_per_group, chip_info);
+ if (!nr_of_all_caches) {
+ cpuinfo_log_error("error in reading cache information");
+ goto clean_up;
+ }
+ cpuinfo_log_debug("detected %"PRIu32" processor cache(s)", nr_of_all_caches);
+
+ /* 3. Allocate memory for package, cluster, core and cache structures */
+ packages = HeapAlloc(heap, HEAP_ZERO_MEMORY, nr_of_packages * sizeof(struct cpuinfo_package));
+ if (packages == NULL) {
+ cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" physical packages",
+ nr_of_packages * sizeof(struct cpuinfo_package), nr_of_packages);
+ goto clean_up;
+ }
+
+ /* We don't have cluster information so we explicitly set clusters to equal to cores. */
+ clusters = HeapAlloc(heap, HEAP_ZERO_MEMORY, nr_of_cores * sizeof(struct cpuinfo_cluster));
+ if (clusters == NULL) {
+ cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" core clusters",
+ nr_of_cores * sizeof(struct cpuinfo_cluster), nr_of_cores);
+ goto clean_up;
+ }
+
+ cores = HeapAlloc(heap, HEAP_ZERO_MEMORY, nr_of_cores * sizeof(struct cpuinfo_core));
+ if (cores == NULL) {
+ cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" cores",
+ nr_of_cores * sizeof(struct cpuinfo_core), nr_of_cores);
+ goto clean_up;
+ }
+
+ /* We allocate one contiguous cache array for all caches, then use offsets per cache type. */
+ caches = HeapAlloc(heap, HEAP_ZERO_MEMORY, nr_of_all_caches * sizeof(struct cpuinfo_cache));
+ if (caches == NULL) {
+ cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" caches",
+ nr_of_all_caches * sizeof(struct cpuinfo_cache), nr_of_all_caches);
+ goto clean_up;
+ }
+
+ /* 4.Read missing topology information that can't be saved without counted
+ * allocate structures in the first round.
+ */
+ nr_of_all_caches = read_caches_for_processors(
+ processors, nr_of_processors,
+ caches, numbers_of_caches, global_proc_index_per_group, chip_info);
+ if (!nr_of_all_caches) {
+ cpuinfo_log_error("error in reading cache information");
+ goto clean_up;
+ }
+
+ nr_of_cores = read_cores_for_processors(
+ processors, nr_of_processors,
+ global_proc_index_per_group, cores,
+ chip_info);
+ if (!nr_of_cores) {
+ cpuinfo_log_error("error in reading core information");
+ goto clean_up;
+ }
+
+ /* 5. Now that we read out everything from the system we can, fill the package, cluster
+ * and core structures respectively.
+ */
+ result = connect_packages_cores_clusters_by_processors(
+ processors, nr_of_processors,
+ packages, nr_of_packages,
+ clusters,
+ cores, nr_of_cores,
+ chip_info,
+ vendor);
+ if(!result) {
+ cpuinfo_log_error("error in connecting information");
+ goto clean_up;
+ }
+
+ /* 6. Count and store uarchs of cores, assuming same uarchs are neighbors */
+ enum cpuinfo_uarch prev_uarch = cpuinfo_uarch_unknown;
+ for (uint32_t i = 0; i < nr_of_cores; i++) {
+ if (prev_uarch != cores[i].uarch) {
+ nr_of_uarchs++;
+ prev_uarch = cores[i].uarch;
+ }
+ }
+ uarchs = HeapAlloc(heap, HEAP_ZERO_MEMORY, nr_of_uarchs * sizeof(struct cpuinfo_uarch_info));
+ if (uarchs == NULL) {
+ cpuinfo_log_error("failed to allocate %zu bytes for descriptions of %"PRIu32" uarchs",
+ nr_of_uarchs * sizeof(struct cpuinfo_uarch_info), nr_of_uarchs);
+ goto clean_up;
+ }
+ prev_uarch = cpuinfo_uarch_unknown;
+ for (uint32_t i = 0, uarch_counter = 0; i < nr_of_cores; i++) {
+ if (prev_uarch != cores[i].uarch) {
+ prev_uarch = cores[i].uarch;
+ uarchs[uarch_counter].uarch = cores[i].uarch;
+ uarchs[uarch_counter].core_count = 1;
+ uarchs[uarch_counter].processor_count = cores[i].processor_count;
+ uarch_counter++;
+ } else if (prev_uarch != cpuinfo_uarch_unknown) {
+ uarchs[uarch_counter].core_count++;
+ uarchs[uarch_counter].processor_count += cores[i].processor_count;
+ }
+ }
+
+ /* 7. Commit changes */
+ cpuinfo_processors = processors;
+ cpuinfo_packages = packages;
+ cpuinfo_clusters = clusters;
+ cpuinfo_cores = cores;
+ cpuinfo_uarchs = uarchs;
+
+ cpuinfo_processors_count = nr_of_processors;
+ cpuinfo_packages_count = nr_of_packages;
+ cpuinfo_clusters_count = nr_of_cores;
+ cpuinfo_cores_count = nr_of_cores;
+ cpuinfo_uarchs_count = nr_of_uarchs;
+
+ for (uint32_t i = 0; i < MAX_NR_OF_CACHES; i++) {
+ cpuinfo_cache_count[i] = numbers_of_caches[i];
+ }
+ cpuinfo_cache[cpuinfo_cache_level_1i] = caches;
+ cpuinfo_cache[cpuinfo_cache_level_1d] = cpuinfo_cache[cpuinfo_cache_level_1i] + cpuinfo_cache_count[cpuinfo_cache_level_1i];
+ cpuinfo_cache[cpuinfo_cache_level_2] = cpuinfo_cache[cpuinfo_cache_level_1d] + cpuinfo_cache_count[cpuinfo_cache_level_1d];
+ cpuinfo_cache[cpuinfo_cache_level_3] = cpuinfo_cache[cpuinfo_cache_level_2] + cpuinfo_cache_count[cpuinfo_cache_level_2];
+ cpuinfo_cache[cpuinfo_cache_level_4] = cpuinfo_cache[cpuinfo_cache_level_3] + cpuinfo_cache_count[cpuinfo_cache_level_3];
+ cpuinfo_max_cache_size = cpuinfo_compute_max_cache_size(&processors[0]);
+
+ result = true;
+ MemoryBarrier();
+
+ processors = NULL;
+ packages = NULL;
+ clusters = NULL;
+ cores = NULL;
+ caches = NULL;
+ uarchs = NULL;
+
+clean_up:
+ /* The propagated pointers, shouldn't be freed, only in case of error
+ * and unfinished init.
+ */
+ if (processors != NULL) {
+ HeapFree(heap, 0, processors);
+ }
+ if (packages != NULL) {
+ HeapFree(heap, 0, packages);
+ }
+ if (clusters != NULL) {
+ HeapFree(heap, 0, clusters);
+ }
+ if (cores != NULL) {
+ HeapFree(heap, 0, cores);
+ }
+ if (caches != NULL) {
+ HeapFree(heap, 0, caches);
+ }
+ if (uarchs != NULL) {
+ HeapFree(heap, 0, uarchs);
+ }
+
+ /* Free the locally used temporary pointers */
+ HeapFree(heap, 0, global_proc_index_per_group);
+ global_proc_index_per_group = NULL;
+ return result;
+}
+
+static uint32_t count_logical_processors(
+ const uint32_t max_group_count,
+ uint32_t* global_proc_index_per_group)
+{
+ uint32_t nr_of_processors = 0;
+
+ for (uint32_t i = 0; i < max_group_count; i++) {
+ uint32_t nr_of_processors_per_group = GetMaximumProcessorCount((WORD) i);
+ cpuinfo_log_debug("detected %"PRIu32" processor(s) in group %"PRIu32"",
+ nr_of_processors_per_group, i);
+ global_proc_index_per_group[i] = nr_of_processors;
+ nr_of_processors += nr_of_processors_per_group;
+ }
+ return nr_of_processors;
+}
+
+static uint32_t read_packages_for_processors(
+ struct cpuinfo_processor* processors,
+ const uint32_t number_of_processors,
+ const uint32_t* global_proc_index_per_group,
+ const struct woa_chip_info *chip_info)
+{
+ return read_all_logical_processor_info_of_relation(
+ RelationProcessorPackage,
+ processors,
+ number_of_processors,
+ NULL,
+ NULL,
+ NULL,
+ global_proc_index_per_group,
+ chip_info);
+}
+
+uint32_t read_cores_for_processors(
+ struct cpuinfo_processor* processors,
+ const uint32_t number_of_processors,
+ const uint32_t* global_proc_index_per_group,
+ struct cpuinfo_core* cores,
+ const struct woa_chip_info *chip_info)
+{
+ return read_all_logical_processor_info_of_relation(
+ RelationProcessorCore,
+ processors,
+ number_of_processors,
+ NULL,
+ NULL,
+ cores,
+ global_proc_index_per_group,
+ chip_info);
+}
+
+static uint32_t read_caches_for_processors(
+ struct cpuinfo_processor* processors,
+ const uint32_t number_of_processors,
+ struct cpuinfo_cache* caches,
+ uint32_t* numbers_of_caches,
+ const uint32_t* global_proc_index_per_group,
+ const struct woa_chip_info *chip_info)
+{
+ /* Reset processor start indexes */
+ if (caches) {
+ uint32_t cache_offset = 0;
+ for (uint32_t i = 0; i < MAX_NR_OF_CACHES; i++) {
+ for (uint32_t j = 0; j < numbers_of_caches[i]; j++) {
+ caches[cache_offset + j].processor_start = UINT32_MAX;
+ }
+ cache_offset += numbers_of_caches[i];
+ }
+ }
+
+ return read_all_logical_processor_info_of_relation(
+ RelationCache,
+ processors,
+ number_of_processors,
+ caches,
+ numbers_of_caches,
+ NULL,
+ global_proc_index_per_group,
+ chip_info);
+}
+
+static uint32_t read_all_logical_processor_info_of_relation(
+ LOGICAL_PROCESSOR_RELATIONSHIP info_type,
+ struct cpuinfo_processor* processors,
+ const uint32_t number_of_processors,
+ struct cpuinfo_cache* caches,
+ uint32_t* numbers_of_caches,
+ struct cpuinfo_core* cores,
+ const uint32_t* global_proc_index_per_group,
+ const struct woa_chip_info* chip_info)
+{
+ PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX infos = NULL;
+ uint32_t nr_of_structs = 0;
+ DWORD info_size = 0;
+ bool result = false;
+ HANDLE heap = GetProcessHeap();
+
+ /* 1. Query the size of the information structure first */
+ if (GetLogicalProcessorInformationEx(info_type, NULL, &info_size) == FALSE) {
+ const DWORD last_error = GetLastError();
+ if (last_error != ERROR_INSUFFICIENT_BUFFER) {
+ cpuinfo_log_error(
+ "failed to query size of processor %"PRIu32" information information: error %"PRIu32"",
+ (uint32_t)info_type, (uint32_t) last_error);
+ goto clean_up;
+ }
+ }
+ /* 2. Allocate memory for the information structure */
+ infos = HeapAlloc(heap, 0, info_size);
+ if (infos == NULL) {
+ cpuinfo_log_error("failed to allocate %"PRIu32" bytes for logical processor information",
+ (uint32_t) info_size);
+ goto clean_up;
+ }
+ /* 3. Read the information structure */
+ if (GetLogicalProcessorInformationEx(info_type, infos, &info_size) == FALSE) {
+ cpuinfo_log_error("failed to query processor %"PRIu32" information: error %"PRIu32"",
+ (uint32_t)info_type, (uint32_t) GetLastError());
+ goto clean_up;
+ }
+
+ /* 4. Parse the structure and store relevant data */
+ PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX info_end =
+ (PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX) ((uintptr_t) infos + info_size);
+ for (PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX info = infos;
+ info < info_end;
+ info = (PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX) ((uintptr_t) info + info->Size))
+ {
+ if (info->Relationship != info_type) {
+ cpuinfo_log_warning(
+ "unexpected processor info type (%"PRIu32") for processor information",
+ (uint32_t) info->Relationship);
+ continue;
+ }
+
+ const uint32_t info_id = nr_of_structs++;
+
+ switch(info_type) {
+ case RelationProcessorPackage:
+ result = parse_relation_processor_info(
+ processors,
+ number_of_processors,
+ global_proc_index_per_group,
+ info,
+ info_id,
+ cores,
+ chip_info);
+ break;
+ case RelationProcessorCore:
+ result = parse_relation_processor_info(
+ processors,
+ number_of_processors,
+ global_proc_index_per_group,
+ info,
+ info_id,
+ cores,
+ chip_info);
+ break;
+ case RelationCache:
+ result = parse_relation_cache_info(
+ processors,
+ caches,
+ numbers_of_caches,
+ global_proc_index_per_group,
+ info);
+ break;
+ default:
+ cpuinfo_log_error(
+ "unexpected processor info type (%"PRIu32") for processor information",
+ (uint32_t) info->Relationship);
+ result = false;
+ break;
+ }
+ if (!result) {
+ nr_of_structs = 0;
+ goto clean_up;
+ }
+ }
+clean_up:
+ /* 5. Release dynamically allocated info structure. */
+ HeapFree(heap, 0, infos);
+ infos = NULL;
+ return nr_of_structs;
+}
+
+static bool parse_relation_processor_info(
+ struct cpuinfo_processor* processors,
+ uint32_t nr_of_processors,
+ const uint32_t* global_proc_index_per_group,
+ PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX info,
+ const uint32_t info_id,
+ struct cpuinfo_core* cores,
+ const struct woa_chip_info *chip_info)
+{
+ for (uint32_t i = 0; i < info->Processor.GroupCount; i++) {
+ const uint32_t group_id = info->Processor.GroupMask[i].Group;
+ /* Bitmask representing processors in this group belonging to this package */
+ KAFFINITY group_processors_mask = info->Processor.GroupMask[i].Mask;
+ while (group_processors_mask != 0) {
+ const uint32_t processor_id_in_group =
+ low_index_from_kaffinity(group_processors_mask);
+ const uint32_t processor_global_index =
+ global_proc_index_per_group[group_id] + processor_id_in_group;
+
+ if(processor_global_index >= nr_of_processors) {
+ cpuinfo_log_error("unexpected processor index %"PRIu32"",
+ processor_global_index);
+ return false;
+ }
+
+ switch(info->Relationship) {
+ case RelationProcessorPackage:
+ store_package_info_per_processor(
+ processors, processor_global_index, info_id,
+ group_id, processor_id_in_group);
+ break;
+ case RelationProcessorCore:
+ store_core_info_per_processor(
+ processors, processor_global_index,
+ info_id, info,
+ cores, chip_info);
+ break;
+ default:
+ cpuinfo_log_error(
+ "unexpected processor info type (%"PRIu32") for processor information",
+ (uint32_t) info->Relationship);
+ break;
+ }
+ /* Clear the bits in affinity mask, lower the least set bit. */
+ group_processors_mask &= (group_processors_mask - 1);
+ }
+ }
+ return true;
+}
+
+static bool parse_relation_cache_info(
+ struct cpuinfo_processor* processors,
+ struct cpuinfo_cache* caches,
+ uint32_t* numbers_of_caches,
+ const uint32_t* global_proc_index_per_group,
+ PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX info)
+{
+ static uint32_t l1i_counter = 0;
+ static uint32_t l1d_counter = 0;
+ static uint32_t l2_counter = 0;
+ static uint32_t l3_counter = 0;
+
+ /* Count cache types for allocation at first. */
+ if (caches == NULL) {
+ switch(info->Cache.Level) {
+ case 1:
+ switch (info->Cache.Type) {
+ case CacheInstruction:
+ numbers_of_caches[cpuinfo_cache_level_1i]++;
+ break;
+ case CacheData:
+ numbers_of_caches[cpuinfo_cache_level_1d]++;
+ break;
+ case CacheUnified:
+ break;
+ case CacheTrace:
+ break;
+ default:
+ break;
+ }
+ break;
+ case 2:
+ numbers_of_caches[cpuinfo_cache_level_2]++;
+ break;
+ case 3:
+ numbers_of_caches[cpuinfo_cache_level_3]++;
+ break;
+ }
+ return true;
+ }
+ struct cpuinfo_cache* l1i_base = caches;
+ struct cpuinfo_cache* l1d_base = l1i_base + numbers_of_caches[cpuinfo_cache_level_1i];
+ struct cpuinfo_cache* l2_base = l1d_base + numbers_of_caches[cpuinfo_cache_level_1d];
+ struct cpuinfo_cache* l3_base = l2_base + numbers_of_caches[cpuinfo_cache_level_2];
+
+ cpuinfo_log_debug(
+ "info->Cache.GroupCount:%"PRIu32", info->Cache.GroupMask:%"PRIu32","
+ "info->Cache.Level:%"PRIu32", info->Cache.Associativity:%"PRIu32","
+ "info->Cache.LineSize:%"PRIu32","
+ "info->Cache.CacheSize:%"PRIu32", info->Cache.Type:%"PRIu32"",
+ info->Cache.GroupCount, (unsigned int)info->Cache.GroupMask.Mask,
+ info->Cache.Level, info->Cache.Associativity, info->Cache.LineSize,
+ info->Cache.CacheSize, info->Cache.Type);
+
+ struct cpuinfo_cache* current_cache = NULL;
+ switch (info->Cache.Level) {
+ case 1:
+ switch (info->Cache.Type) {
+ case CacheInstruction:
+ current_cache = l1i_base + l1i_counter;
+ l1i_counter++;
+ break;
+ case CacheData:
+ current_cache = l1d_base + l1d_counter;
+ l1d_counter++;
+ break;
+ case CacheUnified:
+ break;
+ case CacheTrace:
+ break;
+ default:
+ break;
+ }
+ break;
+ case 2:
+ current_cache = l2_base + l2_counter;
+ l2_counter++;
+ break;
+ case 3:
+ current_cache = l3_base + l3_counter;
+ l3_counter++;
+ break;
+ }
+ current_cache->size = info->Cache.CacheSize;
+ current_cache->line_size = info->Cache.LineSize;
+ current_cache->associativity = info->Cache.Associativity;
+ /* We don't have partition and set information of caches on Windows,
+ * so we set partitions to 1 and calculate the expected sets.
+ */
+ current_cache->partitions = 1;
+ current_cache->sets =
+ current_cache->size / current_cache->line_size / current_cache->associativity;
+ if (info->Cache.Type == CacheUnified) {
+ current_cache->flags = CPUINFO_CACHE_UNIFIED;
+ }
+
+ for (uint32_t i = 0; i <= info->Cache.GroupCount; i++) {
+ /* Zero GroupCount is valid, GroupMask still can store bits set. */
+ const uint32_t group_id = info->Cache.GroupMasks[i].Group;
+ /* Bitmask representing processors in this group belonging to this package */
+ KAFFINITY group_processors_mask = info->Cache.GroupMasks[i].Mask;
+ while (group_processors_mask != 0) {
+ const uint32_t processor_id_in_group =
+ low_index_from_kaffinity(group_processors_mask);
+ const uint32_t processor_global_index =
+ global_proc_index_per_group[group_id] + processor_id_in_group;
+
+ store_cache_info_per_processor(
+ processors, processor_global_index,
+ info, current_cache);
+
+ /* Clear the bits in affinity mask, lower the least set bit. */
+ group_processors_mask &= (group_processors_mask - 1);
+ }
+ }
+ return true;
+}
+
+static void store_package_info_per_processor(
+ struct cpuinfo_processor* processors,
+ const uint32_t processor_global_index,
+ const uint32_t package_id,
+ const uint32_t group_id,
+ const uint32_t processor_id_in_group)
+{
+ processors[processor_global_index].windows_group_id =
+ (uint16_t) group_id;
+ processors[processor_global_index].windows_processor_id =
+ (uint16_t) processor_id_in_group;
+
+ /* As we're counting the number of packages now, we haven't allocated memory for
+ * cpuinfo_packages yet, so we only set the package pointer's offset now.
+ */
+ processors[processor_global_index].package =
+ (const struct cpuinfo_package*) NULL + package_id;
+}
+
+void store_core_info_per_processor(
+ struct cpuinfo_processor* processors,
+ const uint32_t processor_global_index,
+ const uint32_t core_id,
+ PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX core_info,
+ struct cpuinfo_core* cores,
+ const struct woa_chip_info *chip_info)
+{
+ if (cores) {
+ processors[processor_global_index].core = cores + core_id;
+ cores[core_id].core_id = core_id;
+ get_core_uarch_for_efficiency(
+ chip_info->chip_name, core_info->Processor.EfficiencyClass,
+ &(cores[core_id].uarch), &(cores[core_id].frequency));
+
+ /* We don't have cluster information, so we handle it as
+ * fixed 1 to (cluster / cores).
+ * Set the cluster offset ID now, as soon as we have the
+ * cluster base address, we'll set the absolute address.
+ */
+ processors[processor_global_index].cluster =
+ (const struct cpuinfo_cluster*) NULL + core_id;
+ }
+}
+
+static void store_cache_info_per_processor(
+ struct cpuinfo_processor* processors,
+ const uint32_t processor_global_index,
+ PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX info,
+ struct cpuinfo_cache* current_cache)
+{
+ if (current_cache->processor_start > processor_global_index) {
+ current_cache->processor_start = processor_global_index;
+ }
+ current_cache->processor_count++;
+
+ switch(info->Cache.Level) {
+ case 1:
+ switch (info->Cache.Type) {
+ case CacheInstruction:
+ processors[processor_global_index].cache.l1i = current_cache;
+ break;
+ case CacheData:
+ processors[processor_global_index].cache.l1d = current_cache;
+ break;
+ case CacheUnified:
+ break;
+ case CacheTrace:
+ break;
+ default:
+ break;
+ }
+ break;
+ case 2:
+ processors[processor_global_index].cache.l2 = current_cache;
+ break;
+ case 3:
+ processors[processor_global_index].cache.l3 = current_cache;
+ break;
+ }
+}
+
+static bool connect_packages_cores_clusters_by_processors(
+ struct cpuinfo_processor* processors,
+ const uint32_t nr_of_processors,
+ struct cpuinfo_package* packages,
+ const uint32_t nr_of_packages,
+ struct cpuinfo_cluster* clusters,
+ struct cpuinfo_core* cores,
+ const uint32_t nr_of_cores,
+ const struct woa_chip_info* chip_info,
+ enum cpuinfo_vendor vendor)
+{
+ /* Adjust core and package pointers for all logical processors. */
+ for (uint32_t i = nr_of_processors; i != 0; i--) {
+ const uint32_t processor_id = i - 1;
+ struct cpuinfo_processor* processor = processors + processor_id;
+
+ struct cpuinfo_core* core = (struct cpuinfo_core*)processor->core;
+
+ /* We stored the offset of pointers when we haven't allocated memory
+ * for packages and clusters, so now add offsets to base addresses.
+ */
+ struct cpuinfo_package* package =
+ (struct cpuinfo_package*) ((uintptr_t) packages + (uintptr_t) processor->package);
+ if (package < packages ||
+ package >= (packages + nr_of_packages)) {
+ cpuinfo_log_error("invalid package indexing");
+ return false;
+ }
+ processor->package = package;
+
+ struct cpuinfo_cluster* cluster =
+ (struct cpuinfo_cluster*) ((uintptr_t) clusters + (uintptr_t) processor->cluster);
+ if (cluster < clusters ||
+ cluster >= (clusters + nr_of_cores)) {
+ cpuinfo_log_error("invalid cluster indexing");
+ return false;
+ }
+ processor->cluster = cluster;
+
+ if (chip_info) {
+ strncpy_s(package->name, CPUINFO_PACKAGE_NAME_MAX, chip_info->chip_name_string,
+ strnlen(chip_info->chip_name_string, CPUINFO_PACKAGE_NAME_MAX));
+ }
+
+ /* Set start indexes and counts per packages / clusters / cores - going backwards */
+
+ /* This can be overwritten by lower-index processors on the same package. */
+ package->processor_start = processor_id;
+ package->processor_count++;
+
+ /* This can be overwritten by lower-index processors on the same cluster. */
+ cluster->processor_start = processor_id;
+ cluster->processor_count++;
+
+ /* This can be overwritten by lower-index processors on the same core. */
+ core->processor_start = processor_id;
+ core->processor_count++;
+ }
+ /* Fill cores */
+ for (uint32_t i = nr_of_cores; i != 0; i--) {
+ const uint32_t global_core_id = i - 1;
+ struct cpuinfo_core* core = cores + global_core_id;
+ const struct cpuinfo_processor* processor = processors + core->processor_start;
+ struct cpuinfo_package* package = (struct cpuinfo_package*) processor->package;
+ struct cpuinfo_cluster* cluster = (struct cpuinfo_cluster*) processor->cluster;
+
+ core->package = package;
+ core->cluster = cluster;
+ core->vendor = vendor;
+
+ /* This can be overwritten by lower-index cores on the same cluster/package. */
+ cluster->core_start = global_core_id;
+ cluster->core_count++;
+ package->core_start = global_core_id;
+ package->core_count++;
+ package->cluster_start = global_core_id;
+ package->cluster_count = package->core_count;
+
+ cluster->package = package;
+ cluster->vendor = cores[cluster->core_start].vendor;
+ cluster->uarch = cores[cluster->core_start].uarch;
+ cluster->frequency = cores[cluster->core_start].frequency;
+ }
+ return true;
+}
+
+static inline uint32_t low_index_from_kaffinity(KAFFINITY kaffinity) {
+ unsigned long index;
+ _BitScanForward64(&index, (unsigned __int64) kaffinity);
+ return (uint32_t) index;
+}
diff --git a/src/arm/windows/init.c b/src/arm/windows/init.c new file mode 100644 index 0000000..8effc15 --- /dev/null +++ b/src/arm/windows/init.c @@ -0,0 +1,253 @@ +#include <stdio.h>
+#include <stdint.h>
+#include <stdlib.h>
+#include <errno.h>
+
+#include <cpuinfo.h>
+#include <cpuinfo/internal-api.h>
+#include <cpuinfo/log.h>
+
+#include "windows-arm-init.h"
+
+/* Efficiency class = 0 means little core, while 1 means big core for now */
+#define MAX_WOA_VALID_EFFICIENCY_CLASSES 2
+#define VENDOR_NAME_MAX CPUINFO_PACKAGE_NAME_MAX
+
+struct cpuinfo_arm_isa cpuinfo_isa;
+
+static void set_cpuinfo_isa_fields(void);
+static bool get_system_info_from_registry(
+ struct woa_chip_info** chip_info,
+ enum cpuinfo_vendor* vendor);
+
+struct vendor_info {
+ char vendor_name[VENDOR_NAME_MAX];
+ enum cpuinfo_vendor vendor;
+};
+
+/* Please add new vendor here! */
+static struct vendor_info vendors[] = {
+ {
+ "Qualcomm",
+ cpuinfo_vendor_qualcomm
+ }
+};
+
+/* Please add new SoC/chip info here! */
+static struct woa_chip_info woa_chips[] = {
+ /* Microsoft SQ1 Kryo 495 4 + 4 cores (3 GHz + 1.80 GHz) */
+ {
+ "Microsoft SQ1",
+ woa_chip_name_microsoft_sq_1,
+ {
+ {
+ cpuinfo_uarch_cortex_a55,
+ 1800000000,
+ },
+ {
+ cpuinfo_uarch_cortex_a76,
+ 3000000000,
+ }
+ }
+ },
+ /* Microsoft SQ2 Kryo 495 4 + 4 cores (3.15 GHz + 2.42 GHz) */
+ {
+ "Microsoft SQ2",
+ woa_chip_name_microsoft_sq_2,
+ {
+ {
+ cpuinfo_uarch_cortex_a55,
+ 2420000000,
+ },
+ {
+ cpuinfo_uarch_cortex_a76,
+ 3150000000
+ }
+ }
+ }
+};
+
+BOOL CALLBACK cpuinfo_arm_windows_init(
+ PINIT_ONCE init_once, PVOID parameter, PVOID* context)
+{
+ struct woa_chip_info *chip_info = NULL;
+ enum cpuinfo_vendor vendor = cpuinfo_vendor_unknown;
+ bool result = false;
+
+ set_cpuinfo_isa_fields();
+ result = get_system_info_from_registry(&chip_info, &vendor);
+ result &= cpu_info_init_by_logical_sys_info(chip_info, vendor);
+ cpuinfo_is_initialized = result;
+ return ((result == true) ? TRUE : FALSE);
+}
+
+bool get_core_uarch_for_efficiency(
+ enum woa_chip_name chip, BYTE EfficiencyClass,
+ enum cpuinfo_uarch* uarch, uint64_t* frequency)
+{
+ /* For currently supported WoA chips, the Efficiency class selects
+ * the pre-defined little and big core.
+ * Any further supported SoC's logic should be implemented here.
+ */
+ if (uarch && frequency && chip < woa_chip_name_last &&
+ EfficiencyClass < MAX_WOA_VALID_EFFICIENCY_CLASSES) {
+ *uarch = woa_chips[chip].uarchs[EfficiencyClass].uarch;
+ *frequency = woa_chips[chip].uarchs[EfficiencyClass].frequency;
+ return true;
+ }
+ return false;
+}
+
+/* Static helper functions */
+
+static bool read_registry(
+ LPCTSTR subkey,
+ LPCTSTR value,
+ char** textBuffer)
+{
+ DWORD keyType = 0;
+ DWORD dataSize = 0;
+ const DWORD flags = RRF_RT_REG_SZ; /* Only read strings (REG_SZ) */
+ LSTATUS result = 0;
+ HANDLE heap = GetProcessHeap();
+
+ result = RegGetValue(
+ HKEY_LOCAL_MACHINE,
+ subkey,
+ value,
+ flags,
+ &keyType,
+ NULL, /* Request buffer size */
+ &dataSize);
+ if (result != 0 || dataSize == 0) {
+ cpuinfo_log_error("Registry entry size read error");
+ return false;
+ }
+
+ if (*textBuffer) {
+ HeapFree(heap, 0, *textBuffer);
+ }
+ *textBuffer = HeapAlloc(heap, HEAP_ZERO_MEMORY, dataSize);
+ if (*textBuffer == NULL) {
+ cpuinfo_log_error("Registry textbuffer allocation error");
+ return false;
+ }
+
+ result = RegGetValue(
+ HKEY_LOCAL_MACHINE,
+ subkey,
+ value,
+ flags,
+ NULL,
+ *textBuffer, /* Write string in this destination buffer */
+ &dataSize);
+ if (result != 0) {
+ cpuinfo_log_error("Registry read error");
+ return false;
+ }
+ return true;
+}
+
+static bool get_system_info_from_registry(
+ struct woa_chip_info** chip_info,
+ enum cpuinfo_vendor* vendor)
+{
+ bool result = false;
+ char* textBuffer = NULL;
+ LPCTSTR cpu0_subkey =
+ (LPCTSTR)"HARDWARE\\DESCRIPTION\\System\\CentralProcessor\\0";
+ LPCTSTR chip_name_value = (LPCTSTR)"ProcessorNameString";
+ LPCTSTR vendor_name_value = (LPCTSTR)"VendorIdentifier";
+
+ *chip_info = NULL;
+ *vendor = cpuinfo_vendor_unknown;
+ HANDLE heap = GetProcessHeap();
+
+ /* 1. Read processor model name from registry and find in the hard-coded list. */
+ if (!read_registry(cpu0_subkey, chip_name_value, &textBuffer)) {
+ cpuinfo_log_error("Registry read error");
+ goto cleanup;
+ }
+ for (uint32_t i = 0; i < (uint32_t) woa_chip_name_last; i++) {
+ size_t compare_length = strnlen(woa_chips[i].chip_name_string, CPUINFO_PACKAGE_NAME_MAX);
+ int compare_result = strncmp(textBuffer, woa_chips[i].chip_name_string, compare_length);
+ if (compare_result == 0) {
+ *chip_info = woa_chips+i;
+ break;
+ }
+ }
+ if (*chip_info == NULL) {
+ cpuinfo_log_error("Unknown chip model name.\n Please add new Windows on Arm SoC/chip support!");
+ goto cleanup;
+ }
+ cpuinfo_log_debug("detected chip model name: %s", (**chip_info).chip_name_string);
+
+ /* 2. Read vendor/manufacturer name from registry. */
+ if (!read_registry(cpu0_subkey, vendor_name_value, &textBuffer)) {
+ cpuinfo_log_error("Registry read error");
+ goto cleanup;
+ }
+
+ for (uint32_t i = 0; i < (sizeof(vendors) / sizeof(struct vendor_info)); i++) {
+ if (strncmp(textBuffer, vendors[i].vendor_name,
+ strlen(vendors[i].vendor_name)) == 0) {
+ *vendor = vendors[i].vendor;
+ result = true;
+ break;
+ }
+ }
+ if (*vendor == cpuinfo_vendor_unknown) {
+ cpuinfo_log_error("Unexpected vendor: %s", textBuffer);
+ }
+
+cleanup:
+ HeapFree(heap, 0, textBuffer);
+ textBuffer = NULL;
+ return result;
+}
+
+static void set_cpuinfo_isa_fields(void)
+{
+ bool armv8 = IsProcessorFeaturePresent(PF_ARM_V8_INSTRUCTIONS_AVAILABLE);
+ bool crypto = IsProcessorFeaturePresent(PF_ARM_V8_CRYPTO_INSTRUCTIONS_AVAILABLE);
+ bool load_store_atomic = IsProcessorFeaturePresent(PF_ARM_64BIT_LOADSTORE_ATOMIC);
+ bool float_multiply_accumulate = IsProcessorFeaturePresent(PF_ARM_FMAC_INSTRUCTIONS_AVAILABLE);
+ bool crc32 = IsProcessorFeaturePresent(PF_ARM_V8_CRC32_INSTRUCTIONS_AVAILABLE);
+ bool float_emulated = IsProcessorFeaturePresent(PF_FLOATING_POINT_EMULATED);
+
+ /* Read all Arm related Windows features for debug purposes, even if we can't
+ * pair Arm ISA feature to that now.
+ */
+#if CPUINFO_LOG_DEBUG_PARSERS
+ bool divide = IsProcessorFeaturePresent(PF_ARM_DIVIDE_INSTRUCTION_AVAILABLE);
+ bool ext_cache = IsProcessorFeaturePresent(PF_ARM_EXTERNAL_CACHE_AVAILABLE);
+ bool vfp_registers = IsProcessorFeaturePresent(PF_ARM_VFP_32_REGISTERS_AVAILABLE);
+ bool arm_v81 = IsProcessorFeaturePresent(PF_ARM_V81_ATOMIC_INSTRUCTIONS_AVAILABLE);
+
+ cpuinfo_log_debug("divide present: %d", divide);
+ cpuinfo_log_debug("ext_cache present: %d", ext_cache);
+ cpuinfo_log_debug("vfp_registers present: %d", vfp_registers);
+ cpuinfo_log_debug("arm_v81 present: %d", arm_v81);
+#endif
+
+ cpuinfo_log_debug("armv8 present: %d", armv8);
+ cpuinfo_log_debug("crypto present: %d", crypto);
+ cpuinfo_log_debug("load_store_atomic present: %d", load_store_atomic);
+ cpuinfo_log_debug("float_multiply_accumulate present: %d", float_multiply_accumulate);
+ cpuinfo_log_debug("crc32 present: %d", crc32);
+ cpuinfo_log_debug("float_emulated: %d", float_emulated);
+
+#if CPUINFO_ARCH_ARM
+ cpuinfo_isa.armv8 = armv8;
+#endif
+#if CPUINFO_ARCH_ARM64
+ cpuinfo_isa.atomics = load_store_atomic;
+#endif
+ cpuinfo_isa.crc32 = crc32;
+ /* Windows API reports all or nothing for cryptographic instructions. */
+ cpuinfo_isa.aes = crypto;
+ cpuinfo_isa.sha1 = crypto;
+ cpuinfo_isa.sha2 = crypto;
+ cpuinfo_isa.pmull = crypto;
+ cpuinfo_isa.fp16arith = !float_emulated && float_multiply_accumulate;
+}
diff --git a/src/arm/windows/windows-arm-init.h b/src/arm/windows/windows-arm-init.h new file mode 100644 index 0000000..76cc51e --- /dev/null +++ b/src/arm/windows/windows-arm-init.h @@ -0,0 +1,32 @@ +#pragma once
+
+/* List of known and supported Windows on Arm SoCs/chips. */
+enum woa_chip_name {
+ woa_chip_name_microsoft_sq_1 = 0,
+ woa_chip_name_microsoft_sq_2 = 1,
+ woa_chip_name_unknown = 2,
+ woa_chip_name_last = woa_chip_name_unknown
+};
+
+/* Topology information hard-coded by SoC/chip name */
+struct core_info_by_chip_name {
+ enum cpuinfo_uarch uarch;
+ uint64_t frequency; /* Hz */
+};
+
+/* SoC/chip info that's currently not readable by logical system information,
+ * but can be read from registry.
+ */
+struct woa_chip_info {
+ char* chip_name_string;
+ enum woa_chip_name chip_name;
+ struct core_info_by_chip_name uarchs[woa_chip_name_last];
+};
+
+bool get_core_uarch_for_efficiency(
+ enum woa_chip_name chip, BYTE EfficiencyClass,
+ enum cpuinfo_uarch* uarch, uint64_t* frequency);
+
+bool cpu_info_init_by_logical_sys_info(
+ const struct woa_chip_info *chip_info,
+ enum cpuinfo_vendor vendor);
diff --git a/src/cpuinfo/internal-api.h b/src/cpuinfo/internal-api.h index 9c23d7c..c04620e 100644 --- a/src/cpuinfo/internal-api.h +++ b/src/cpuinfo/internal-api.h @@ -51,7 +51,11 @@ extern CPUINFO_INTERNAL uint32_t cpuinfo_max_cache_size; CPUINFO_PRIVATE void cpuinfo_x86_mach_init(void); CPUINFO_PRIVATE void cpuinfo_x86_linux_init(void); #if defined(_WIN32) || defined(__CYGWIN__) - CPUINFO_PRIVATE BOOL CALLBACK cpuinfo_x86_windows_init(PINIT_ONCE init_once, PVOID parameter, PVOID* context); + #if CPUINFO_ARCH_ARM64 + CPUINFO_PRIVATE BOOL CALLBACK cpuinfo_arm_windows_init(PINIT_ONCE init_once, PVOID parameter, PVOID* context); + #else + CPUINFO_PRIVATE BOOL CALLBACK cpuinfo_x86_windows_init(PINIT_ONCE init_once, PVOID parameter, PVOID* context); + #endif #endif CPUINFO_PRIVATE void cpuinfo_arm_mach_init(void); CPUINFO_PRIVATE void cpuinfo_arm_linux_init(void); @@ -37,6 +37,8 @@ bool CPUINFO_ABI cpuinfo_initialize(void) { pthread_once(&init_guard, &cpuinfo_arm_linux_init); #elif defined(__MACH__) && defined(__APPLE__) pthread_once(&init_guard, &cpuinfo_arm_mach_init); + #elif defined(_WIN32) + InitOnceExecuteOnce(&init_guard, &cpuinfo_arm_windows_init, NULL, NULL); #else cpuinfo_log_error("operating system is not supported in cpuinfo"); #endif diff --git a/src/x86/name.c b/src/x86/name.c index a7cc7c6..957a0d8 100644 --- a/src/x86/name.c +++ b/src/x86/name.c @@ -234,7 +234,7 @@ static bool transform_token(char* token_start, char* token_end, struct parser_st return true; } /* - * Erase everywhing after "SOC" on AMD System-on-Chips, e.g. + * Erase everything after "SOC" on AMD System-on-Chips, e.g. * "AMD GX-212JC SOC with Radeon(TM) R2E Graphics \0" */ if (erase_matching(token_start, token_length, "SOC")) { diff --git a/test/arm-cache.cc b/test/arm-cache.cc index 4d6218b..6711373 100644 --- a/test/arm-cache.cc +++ b/test/arm-cache.cc @@ -1684,7 +1684,7 @@ TEST(BROADCOM, bcm2835) { EXPECT_EQ(16 * 1024, l1i.size); EXPECT_EQ(16 * 1024, l1d.size); EXPECT_EQ(0, l2.size); - EXPECT_EQ(0, big_l3.size); + EXPECT_EQ(0, l3.size); } TEST(BROADCOM, bcm2836) { @@ -1706,7 +1706,7 @@ TEST(BROADCOM, bcm2836) { EXPECT_EQ(32 * 1024, l1i.size); EXPECT_EQ(32 * 1024, l1d.size); EXPECT_EQ(512 * 1024, l2.size); - EXPECT_EQ(0, big_l3.size); + EXPECT_EQ(0, l3.size); } TEST(BROADCOM, bcm2837) { @@ -1728,7 +1728,7 @@ TEST(BROADCOM, bcm2837) { EXPECT_EQ(16 * 1024, l1i.size); EXPECT_EQ(16 * 1024, l1d.size); EXPECT_EQ(512 * 1024, l2.size); - EXPECT_EQ(0, big_l3.size); + EXPECT_EQ(0, l3.size); } TEST(BROADCOM, bcm2711) { @@ -1750,5 +1750,5 @@ TEST(BROADCOM, bcm2711) { EXPECT_EQ(48 * 1024, l1i.size); EXPECT_EQ(32 * 1024, l1d.size); EXPECT_EQ(1024 * 1024, l2.size); - EXPECT_EQ(0, big_l3.size); + EXPECT_EQ(0, l3.size); } diff --git a/tools/cpu-info.c b/tools/cpu-info.c index 30ec633..8602fc0 100644 --- a/tools/cpu-info.c +++ b/tools/cpu-info.c @@ -187,8 +187,20 @@ static const char* uarch_to_string(enum cpuinfo_uarch uarch) { return "Cortex-A77"; case cpuinfo_uarch_cortex_a78: return "Cortex-A78"; + case cpuinfo_uarch_cortex_a510: + return "Cortex-A510"; + case cpuinfo_uarch_cortex_a710: + return "Cortex-A710"; case cpuinfo_uarch_cortex_x1: return "Cortex-X1"; + case cpuinfo_uarch_cortex_x2: + return "Cortex-X2"; + case cpuinfo_uarch_neoverse_n1: + return "Neoverse-N1"; + case cpuinfo_uarch_neoverse_v1: + return "Neoverse-V1"; + case cpuinfo_uarch_neoverse_n2: + return "Neoverse-N2"; case cpuinfo_uarch_scorpion: return "Scorpion"; case cpuinfo_uarch_krait: @@ -241,6 +253,10 @@ static const char* uarch_to_string(enum cpuinfo_uarch uarch) { return "Firestorm"; case cpuinfo_uarch_icestorm: return "Icestorm"; + case cpuinfo_uarch_avalanche: + return "Avalanche"; + case cpuinfo_uarch_blizzard: + return "Blizzard"; case cpuinfo_uarch_thunderx: return "ThunderX"; case cpuinfo_uarch_thunderx2: diff --git a/tools/isa-info.c b/tools/isa-info.c index 92abb57..4ac9c8b 100644 --- a/tools/isa-info.c +++ b/tools/isa-info.c @@ -143,7 +143,8 @@ int main(int argc, char** argv) { printf("\tNEON VQRDMLAH/VQRDMLSH: %s\n", cpuinfo_has_arm_neon_rdm() ? "yes" : "no"); printf("\tNEON FP16 arithmetics: %s\n", cpuinfo_has_arm_neon_fp16_arith() ? "yes" : "no"); printf("\tNEON complex: %s\n", cpuinfo_has_arm_fcma() ? "yes" : "no"); - printf("\tNEON dot product: %s\n", cpuinfo_has_arm_neon_dot() ? "yes" : "no"); + printf("\tNEON VSDOT/VUDOT: %s\n", cpuinfo_has_arm_neon_dot() ? "yes" : "no"); + printf("\tNEON VFMLAL/VFMLSL: %s\n", cpuinfo_has_arm_fhm() ? "yes" : "no"); printf("Cryptography extensions:\n"); printf("\tAES: %s\n", cpuinfo_has_arm_aes() ? "yes" : "no"); @@ -157,7 +158,10 @@ int main(int argc, char** argv) { printf("\tARM v8.1 atomics: %s\n", cpuinfo_has_arm_atomics() ? "yes" : "no"); printf("\tARM v8.1 SQRDMLxH: %s\n", cpuinfo_has_arm_neon_rdm() ? "yes" : "no"); printf("\tARM v8.2 FP16 arithmetics: %s\n", cpuinfo_has_arm_fp16_arith() ? "yes" : "no"); - printf("\tARM v8.3 dot product: %s\n", cpuinfo_has_arm_neon_dot() ? "yes" : "no"); + printf("\tARM v8.2 FHM: %s\n", cpuinfo_has_arm_fhm() ? "yes" : "no"); + printf("\tARM v8.2 BF16: %s\n", cpuinfo_has_arm_bf16() ? "yes" : "no"); + printf("\tARM v8.2 Int8 dot product: %s\n", cpuinfo_has_arm_neon_dot() ? "yes" : "no"); + printf("\tARM v8.2 Int8 matrix multiplication: %s\n", cpuinfo_has_arm_i8mm() ? "yes" : "no"); printf("\tARM v8.3 JS conversion: %s\n", cpuinfo_has_arm_jscvt() ? "yes" : "no"); printf("\tARM v8.3 complex: %s\n", cpuinfo_has_arm_fcma() ? "yes" : "no"); |