cmake_minimum_required(VERSION 3.5.1) if(CMAKE_VERSION VERSION_LESS 3.12) cmake_policy(VERSION ${CMAKE_VERSION}) else() cmake_policy(VERSION 3.5.1...3.13.2) endif() set(CMAKE_MACOSX_RPATH 1) # If not specified on the command line, enable C99 as the default # Configuration items that affect the global compiler envirionment standards # should be issued before the "project" command. if(NOT CMAKE_C_STANDARD) set (CMAKE_C_STANDARD 99) # The C standard whose features are requested to build this target endif() if(NOT CMAKE_C_STANDARD_REQUIRED) set (CMAKE_C_STANDARD_REQUIRED ON) # Boolean describing whether the value of C_STANDARD is a requirement endif() if(NOT CMAKE_C_EXTENSIONS) set (CMAKE_C_EXTENSIONS OFF) # Boolean specifying whether compiler specific extensions are requested endif() set(VALID_C_STANDARDS "99" "11") if(NOT CMAKE_C_STANDARD IN_LIST VALID_C_STANDARDS ) MESSAGE(FATAL_ERROR "CMAKE_C_STANDARD:STRING=${CMAKE_C_STANDARD} not in know standards list\n ${VALID_C_STANDARDS}") endif() # Parse the full version number from zlib.h and include in ZLIB_FULL_VERSION file(READ ${CMAKE_CURRENT_SOURCE_DIR}/zlib${SUFFIX}.h _zlib_h_contents) string(REGEX REPLACE ".*#define[ \t]+ZLIB_VERSION[ \t]+\"([0-9]+.[0-9]+.[0-9]+).*\".*" "\\1" ZLIB_HEADER_VERSION ${_zlib_h_contents}) string(REGEX REPLACE ".*#define[ \t]+ZLIBNG_VERSION[ \t]+\"([-0-9A-Za-z.]+)\".*" "\\1" ZLIBNG_HEADER_VERSION ${_zlib_h_contents}) message(STATUS "ZLIB_HEADER_VERSION: ${ZLIB_HEADER_VERSION}") message(STATUS "ZLIBNG_HEADER_VERSION: ${ZLIBNG_HEADER_VERSION}") project(zlib VERSION ${ZLIB_HEADER_VERSION} LANGUAGES C) set(INSTALL_BIN_DIR "${CMAKE_INSTALL_PREFIX}/bin" CACHE PATH "Installation directory for executables") set(INSTALL_LIB_DIR "${CMAKE_INSTALL_PREFIX}/lib" CACHE PATH "Installation directory for libraries") set(INSTALL_INC_DIR "${CMAKE_INSTALL_PREFIX}/include" CACHE PATH "Installation directory for headers") set(INSTALL_MAN_DIR "${CMAKE_INSTALL_PREFIX}/share/man" CACHE PATH "Installation directory for manual pages") set(INSTALL_PKGCONFIG_DIR "${CMAKE_INSTALL_PREFIX}/share/pkgconfig" CACHE PATH "Installation directory for pkgconfig (.pc) files") include(CheckTypeSize) include(CheckSymbolExists) include(CheckFunctionExists) include(CheckIncludeFile) include(CheckCSourceCompiles) include(CheckCSourceRuns) include(CMakeDependentOption) include(FeatureSummary) # Make sure we use an appropriate BUILD_TYPE by default, "Release" to be exact # this should select the maximum generic optimisation on the current platform (i.e. -O3 for gcc/clang) if(NOT CMAKE_BUILD_TYPE) set(CMAKE_BUILD_TYPE "Release" CACHE STRING "Choose the type of build, standard options are: Debug Release RelWithDebInfo MinSizeRel." FORCE) add_feature_info(CMAKE_BUILD_TYPE 1 "Build type: ${CMAKE_BUILD_TYPE} (default)") else() add_feature_info(CMAKE_BUILD_TYPE 1 "Build type: ${CMAKE_BUILD_TYPE} (selected)") endif() check_include_file(sys/types.h HAVE_SYS_TYPES_H) check_include_file(stdint.h HAVE_STDINT_H) check_include_file(stddef.h HAVE_STDDEF_H) check_include_file(sys/sdt.h HAVE_SYS_SDT_H) if(CMAKE_OSX_ARCHITECTURES) # If multiple architectures are requested (universal build), pick only the first list(GET CMAKE_OSX_ARCHITECTURES 0 ARCH) else() set(ARCH ${CMAKE_SYSTEM_PROCESSOR}) endif() message(STATUS "Architecture: ${ARCH}") if(CMAKE_TOOLCHAIN_FILE) message(STATUS "Using cmake toolchain: ${CMAKE_TOOLCHAIN_FILE}") endif() # # Options parsing # option(WITH_GZFILEOP "Compile with support for gzFile related functions" OFF) option(ZLIB_COMPAT "Compile with zlib compatible API" OFF) option(ZLIB_ENABLE_TESTS "Build test binaries" ON) option(WITH_SANITIZERS "Build with address sanitizer and all supported sanitizers other than memory sanitizer" OFF) option(WITH_MSAN "Build with memory sanitizer" OFF) option(WITH_FUZZERS "Build test/fuzz" OFF) option(WITH_OPTIM "Build with optimisation" ON) option(WITH_NEW_STRATEGIES "Use new strategies" ON) option(WITH_NATIVE_INSTRUCTIONS "Instruct the compiler to use the full instruction set on this host (gcc/clang -march=native)" OFF) if("${ARCH}" MATCHES "arm" OR "${ARCH}" MATCHES "aarch64") option(WITH_ACLE "Build with ACLE CRC" ON) option(WITH_NEON "Build with NEON intrinsics" ON) elseif("${ARCH}" MATCHES "s390x") option(WITH_DFLTCC_DEFLATE "Use DEFLATE CONVERSION CALL instruction for compression on IBM Z" OFF) option(WITH_DFLTCC_INFLATE "Use DEFLATE CONVERSION CALL instruction for decompression on IBM Z" OFF) endif() add_feature_info(ZLIB_COMPAT ZLIB_COMPAT "Provide a zlib-compatible API") add_feature_info(WITH_GZFILEOP WITH_GZFILEOP "Compile with support for gzFile-related functions") add_feature_info(WITH_OPTIM WITH_OPTIM "Build with optimisation") add_feature_info(WITH_SANITIZERS WITH_SANITIZERS "Build with address sanitizer and all supported sanitizers other than memory sanitizer") add_feature_info(WITH_MSAN WITH_MSAN "Build with memory sanitizer") add_feature_info(WITH_FUZZERS WITH_FUZZERS "Build test/fuzz") add_feature_info(WITH_NEW_STRATEGIES WITH_NEW_STRATEGIES "Use new strategies") if("${ARCH}" MATCHES "arm" OR "${ARCH}" MATCHES "aarch64") add_feature_info(WITH_ACLE WITH_ACLE "Build with ACLE CRC") add_feature_info(WITH_NEON WITH_NEON "Build with NEON intrinsics") endif() if (ZLIB_COMPAT) add_definitions(-DZLIB_COMPAT) set(WITH_GZFILEOP ON) set(LIBNAME1 libz) set(LIBNAME2 zlib) set(SUFFIX "") else() set(LIBNAME1 libz-ng) set(LIBNAME2 zlib-ng) set(SUFFIX "-ng") endif() if(WITH_GZFILEOP) add_definitions(-DWITH_GZFILEOP) endif() if(${CMAKE_C_COMPILER} MATCHES "icc" OR ${CMAKE_C_COMPILER} MATCHES "icpc" OR ${CMAKE_C_COMPILER} MATCHES "icl") if(WITH_NATIVE_INSTRUCTIONS) message(STATUS "Ignoring WITH_NATIVE_INSTRUCTIONS; not supported on this configuration") endif() if(CMAKE_HOST_UNIX) if(NOT SSE2FLAG) set(SSE2FLAG "-msse2") endif() if(NOT SSE4FLAG) set(SSE4FLAG "-msse4.2") endif() else() if(NOT SSE2FLAG) set(SSE2FLAG "/arch:SSE2") endif() if(NOT SSE4FLAG) set(SSE4FLAG "/arch:SSE4.2") endif() endif() elseif(MSVC) # TODO. ICC can be used through MSVC. I'm not sure if we'd ever see that combination # (who'd use cmake from an IDE...) but checking for ICC before checking for MSVC should # avoid mistakes. # /Oi ? if(NOT ${ARCH} MATCHES "AMD64") set(SSE2FLAG "/arch:SSE2") endif() if("${ARCH}" MATCHES "arm") add_definitions("-D_ARM_WINAPI_PARTITION_DESKTOP_SDK_AVAILABLE=1") set(NEONFLAG "/arch:VFPv4") endif() if(WITH_NATIVE_INSTRUCTIONS) message(STATUS "Ignoring WITH_NATIVE_INSTRUCTIONS; not supported on this configuration") endif() else() # catch all GNU C compilers as well as Clang and AppleClang if(CMAKE_C_COMPILER_ID MATCHES "GNU" OR CMAKE_C_COMPILER_ID MATCHES "Clang") set(__GNUC__ ON) endif() if(WITH_NATIVE_INSTRUCTIONS) if(__GNUC__) set(NATIVEFLAG "-march=native") else() message(STATUS "Ignoring WITH_NATIVE_INSTRUCTIONS; not implemented yet on this configuration") endif() endif() if(__GNUC__ AND "${ARCH}" MATCHES "arm") execute_process(COMMAND ${CMAKE_C_COMPILER} "-dumpmachine" OUTPUT_VARIABLE GCC_MACHINE) if ("${GCC_MACHINE}" MATCHES "eabihf") set(FLOATABI "-mfloat-abi=hard") else() set(FLOATABI "-mfloat-abi=softfp") endif() endif() if(NOT NATIVEFLAG) if(NOT SSE2FLAG) if(__GNUC__) set(SSE2FLAG "-msse2") endif() endif() if(NOT SSE4FLAG) if(__GNUC__) set(SSE4FLAG "-msse4") endif() endif() if(NOT PCLMULFLAG) if(__GNUC__) set(PCLMULFLAG "-mpclmul") endif() endif() if("${ARCH}" MATCHES "arm") set(ACLEFLAG "-march=armv8-a+crc") set(NEONFLAG "${FLOATABI} -mfpu=neon") elseif("${ARCH}" MATCHES "aarch64") set(ACLEFLAG "-march=armv8-a+crc") set(NEONFLAG "-march=armv8-a+crc+simd") endif() else() set(SSE2FLAG ${NATIVEFLAG}) set(SSE4FLAG ${NATIVEFLAG}) set(PCLMULFLAG ${NATIVEFLAG}) if("${ARCH}" MATCHES "arm") set(ACLEFLAG "${NATIVEFLAG}") set(NEONFLAG "${FLOATABI} -mfpu=neon") elseif("${ARCH}" MATCHES "aarch64") set(ACLEFLAG "${NATIVEFLAG}") set(NEONFLAG "${NATIVEFLAG}") endif() endif() endif() # # Check to see if we have large file support # set(CMAKE_REQUIRED_DEFINITIONS -D_LARGEFILE64_SOURCE=1 -D__USE_LARGEFILE64) # We add these other definitions here because CheckTypeSize.cmake # in CMake 2.4.x does not automatically do so and we want # compatibility with CMake 2.4.x. if(HAVE_SYS_TYPES_H) list(APPEND CMAKE_REQUIRED_DEFINITIONS -DHAVE_SYS_TYPES_H) endif() if(HAVE_STDINT_H) list(APPEND CMAKE_REQUIRED_DEFINITIONS -DHAVE_STDINT_H) endif() if(HAVE_STDDEF_H) list(APPEND CMAKE_REQUIRED_DEFINITIONS -DHAVE_STDDEF_H) endif() check_type_size(off64_t OFF64_T) if(HAVE_OFF64_T) add_definitions(-D_LARGEFILE64_SOURCE=1 -D__USE_LARGEFILE64) else() check_type_size(_off64_t _OFF64_T) if(HAVE__OFF64_T) add_definitions(-D_LARGEFILE64_SOURCE=1 -D__USE_LARGEFILE64) else() check_type_size(__off64_t __OFF64_T) endif() endif() set(CMAKE_REQUIRED_DEFINITIONS) # clear variable # # Check for fseeko and other optional functions # check_function_exists(fseeko HAVE_FSEEKO) if(NOT HAVE_FSEEKO) add_definitions(-DNO_FSEEKO) endif() check_function_exists(strerror HAVE_STRERROR) if(NOT HAVE_STRERROR) add_definitions(-DNO_STRERROR) endif() # # Check for unistd.h and stdarg.h # check_include_file(unistd.h Z_HAVE_UNISTD_H) if(WITH_SANITIZERS AND WITH_MSAN) message(FATAL_ERROR "Memory sanitizer is incompatible with address sanitizer") endif() if(WITH_MSAN) set(CMAKE_REQUIRED_FLAGS "-fsanitize=memory") check_c_source_compiles("int main() { return 0; }" HAS_MSAN FAIL_REGEX "not supported") if(${HAS_MSAN}) set(SANITIZERS_FLAGS "-fsanitize=memory") message(STATUS "Adding memory sanitizer flag: ${SANITIZERS_FLAGS}") set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} ${SANITIZERS_FLAGS}") endif() endif() if(WITH_SANITIZERS) set(_sanitize_flags bool address array-bounds float-divide-by-zero function integer-divide-by-zero return shift signed-integer-overflow undefined unsigned-integer-overflow vla-bound vptr ) set(SANITIZERS_FLAGS "") foreach(_flag ${_sanitize_flags}) set(CMAKE_REQUIRED_FLAGS "-fsanitize=${_flag}") check_c_source_compiles("int main() { return 0; }" HAS_SANITIZER_${_flag} FAIL_REGEX "not supported") if(${HAS_SANITIZER_${_flag}}) if("${SANITIZERS_FLAGS}" STREQUAL "") set(SANITIZERS_FLAGS "-fsanitize=${_flag}") else() set(SANITIZERS_FLAGS "${SANITIZERS_FLAGS},${_flag}") endif() endif() set(CMAKE_REQUIRED_FLAGS) endforeach() message(STATUS "Adding sanitizers flags: ${SANITIZERS_FLAGS}") set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} ${SANITIZERS_FLAGS}") endif() # # Check if we can hide zlib internal symbols that are linked between separate source files using hidden # check_c_source_compiles( "#define ZLIB_INTERNAL __attribute__((visibility (\"hidden\"))) int ZLIB_INTERNAL foo; int main() { return 0; }" HAVE_ATTRIBUTE_VISIBILITY_HIDDEN FAIL_REGEX "not supported") if(HAVE_ATTRIBUTE_VISIBILITY_HIDDEN) add_definitions(-DHAVE_HIDDEN) endif() # # Check if we can hide zlib internal symbols that are linked between separate source files using internal # check_c_source_compiles( "#define ZLIB_INTERNAL __attribute__((visibility (\"internal\"))) int ZLIB_INTERNAL foo; int main() { return 0; }" HAVE_ATTRIBUTE_VISIBILITY_INTERNAL FAIL_REGEX "not supported") if(HAVE_ATTRIBUTE_VISIBILITY_INTERNAL) add_definitions(-DHAVE_INTERNAL) endif() # # check for __builtin_ctzl() support in the compiler # check_c_source_compiles( "int main(void) { unsigned int zero = 0; long test = __builtin_ctzl(zero); (void)test; return 0; }" HAVE_BUILTIN_CTZL ) if(HAVE_BUILTIN_CTZL) add_definitions(-DHAVE_BUILTIN_CTZL) endif() # # check for ptrdiff_t support # check_c_source_compiles( "#include int main() { ptrdiff_t *a; return 0; }" HAVE_PTRDIFF_T ) if(NOT HAVE_PTRDIFF_T) set(NEED_PTRDIFF_T 1) check_type_size("void *" SIZEOF_DATA_PTR) message(STATUS "sizeof(void *) is ${SIZEOF_DATA_PTR} bytes") if(${SIZEOF_DATA_PTR} MATCHES "4") set(PTRDIFF_TYPE "uint32_t") elseif(${SIZEOF_DATA_PTR} MATCHES "8") set(PTRDIFF_TYPE "uint64_t") else() message(FATAL_ERROR "sizeof(void *) is neither 32 nor 64 bit") endif() endif() # Macro to check if source compiles when cross-compiling # or runs when compiling natively macro(check_c_source_compile_or_run source flag) if(CMAKE_CROSSCOMPILING) check_c_source_compiles("${source}" ${flag}) else() check_c_source_runs("${source}" ${flag}) endif() endmacro() set(CMAKE_C_FLAGS_DEBUG "${CMAKE_C_FLAGS_DEBUG} -DZLIB_DEBUG") if(MSVC) set(CMAKE_DEBUG_POSTFIX "d") add_definitions(-D_CRT_SECURE_NO_DEPRECATE) add_definitions(-D_CRT_NONSTDC_NO_DEPRECATE) else() # # Not MSVC, so we need to check if we have the MS-style SSE etc. intrinsics # if(WITH_NATIVE_INSTRUCTIONS) set(CMAKE_REQUIRED_FLAGS "${NATIVEFLAG}") else() set(CMAKE_REQUIRED_FLAGS "${SSE2FLAG}") endif() check_c_source_compile_or_run( "#include int main(void) { __m128i zero = _mm_setzero_si128(); (void)zero; return 0; }" HAVE_SSE2_INTRIN ) set(CMAKE_REQUIRED_FLAGS) if(WITH_NATIVE_INSTRUCTIONS) set(CMAKE_REQUIRED_FLAGS "${NATIVEFLAG}") else() # Use the generic SSE4 enabler option to check for the SSE4.2 instruction we require: set(CMAKE_REQUIRED_FLAGS "${SSE4FLAG}") endif() check_c_source_compile_or_run( "int main(void) { unsigned val = 0, h = 0; __asm__ __volatile__ ( \"crc32 %1,%0\" : \"+r\" (h) : \"r\" (val) ); return (int) h; }" HAVE_SSE42_INTRIN ) check_c_source_compile_or_run( "int main(void) { unsigned crc = 0; char c = 'c'; crc = __builtin_ia32_crc32qi(crc, c); (void)crc; return 0; }" HAVE_SSE42CRC_INTRIN ) set(CMAKE_REQUIRED_FLAGS) if(WITH_NATIVE_INSTRUCTIONS) set(CMAKE_REQUIRED_FLAGS "${NATIVEFLAG}") else() set(CMAKE_REQUIRED_FLAGS "${PCLMULFLAG}") endif() if(NOT (APPLE AND ${ARCH} MATCHES "i386")) # The pclmul code currently crashes on Mac in 32bit mode. Avoid for now. check_c_source_compile_or_run( "#include #include int main(void) { __m128i a = _mm_setzero_si128(); __m128i b = _mm_setzero_si128(); __m128i c = _mm_clmulepi64_si128(a, b, 0x10); (void)c; return 0; }" HAVE_PCLMULQDQ_INTRIN ) else() set(HAVE_PCLMULQDQ_INTRIN NO) endif() set(CMAKE_REQUIRED_FLAGS) endif() # Check whether -mfpu=neon is available set(CMAKE_REQUIRED_FLAGS "-mfpu=neon") check_c_source_compiles( "int main() { return 0; }" MFPU_NEON_AVAILABLE FAIL_REGEX "not supported") set(CMAKE_REQUIRED_FLAGS) # FORCE_SSE2 option will only be shown if HAVE_SSE2_INTRIN is true if("${ARCH}" MATCHES "i[3-6]86") cmake_dependent_option(FORCE_SSE2 "Always assume CPU is SSE2 capable" OFF "HAVE_SSE2_INTRIN" OFF) endif() # # Enable deflate_medium at level 4-6 # if(NOT WITH_NEW_STRATEGIES) add_definitions(-DNO_MEDIUM_STRATEGY) endif() # # Macro to add either the given intrinsics option to the global compiler options, # or ${NATIVEFLAG} (-march=native) if that is appropriate and possible. # An alternative version of this macro would take a file argument, and set ${flag} # only for that file as opposed to ${NATIVEFLAG} globally, to limit side-effect of # using ${flag} globally. # macro(add_intrinsics_option flag) if(WITH_NATIVE_INSTRUCTIONS AND NATIVEFLAG) if (NOT "${CMAKE_C_FLAGS} " MATCHES ".*${NATIVEFLAG} .*") set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} ${NATIVEFLAG}") endif() else() if (NOT "${CMAKE_C_FLAGS} " MATCHES ".*${flag} .*") set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} ${flag}") endif() endif() endmacro() set(ZLIB_ARCH_SRCS) set(ARCHDIR "arch/generic") if("${ARCH}" MATCHES "x86_64" OR "${ARCH}" MATCHES "AMD64" OR "${ARCH}" MATCHES "i[3-6]86") set(ARCHDIR "arch/x86") add_definitions(-DUNALIGNED_OK) add_feature_info(SSE2 1 "Support the SSE2 instruction set, using \"${SSE2FLAG}\"") elseif("${ARCH}" MATCHES "arm" OR "${ARCH}" MATCHES "aarch64") set(ARCHDIR "arch/arm") add_definitions(-DUNALIGNED_OK) elseif("${ARCH}" MATCHES "s390x") set(ARCHDIR "arch/s390") else() message(STATUS "No optimized architecture: using ${ARCHDIR}") endif() if("${ARCH}" MATCHES "arm" OR "${ARCH}" MATCHES "aarch64") set(ZLIB_ARCH_SRCS ${ZLIB_ARCH_SRCS} ${ARCHDIR}/armfeature.c ${ARCHDIR}/fill_window_arm.c) endif() if(WITH_OPTIM) if("${ARCH}" MATCHES "arm") if(WITH_ACLE) set(ZLIB_ARCH_SRCS ${ZLIB_ARCH_SRCS} ${ARCHDIR}/crc32_acle.c ${ARCHDIR}/insert_string_acle.c) set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} ${ACLEFLAG}") add_definitions("-DARM_ACLE_CRC_HASH") add_feature_info(ACLE_CRC 1 "Support CRC hash generation using the ACLE instruction set, using \"${ACLEFLAG}\"") endif() if(WITH_NEON) if(MFPU_NEON_AVAILABLE) set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} ${NEONFLAG}") endif() add_definitions("-DARM_NEON_ADLER32") if(MSVC) add_definitions("-D__ARM_NEON__=1") endif(MSVC) set(ZLIB_ARCH_SRCS ${ZLIB_ARCH_SRCS} ${ARCHDIR}/adler32_neon.c) add_feature_info(NEON_FILLWINDOW 1 "Support NEON instructions in fill_window_arm, using \"${NEONFLAG}\"") endif() elseif("${ARCH}" MATCHES "aarch64") if(WITH_ACLE) set(ZLIB_ARCH_SRCS ${ZLIB_ARCH_SRCS} ${ARCHDIR}/crc32_acle.c ${ARCHDIR}/insert_string_acle.c) add_definitions("-DARM_ACLE_CRC_HASH") add_feature_info(ACLE_CRC 1 "Support CRC hash generation using the ACLE instruction set, using \"${ACLEFLAG}\"") endif() # We need to check WITH_NEON first if(WITH_NEON) add_definitions("-DARM_NEON_ADLER32") set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} ${NEONFLAG}") set(ZLIB_ARCH_SRCS ${ZLIB_ARCH_SRCS} ${ARCHDIR}/adler32_neon.c) add_feature_info(NEON_FILLWINDOW 1 "Support NEON instructions in fill_window_arm, using \"${NEONFLAG}\"") elseif(WITH_ACLE) set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} ${ACLEFLAG}") endif() elseif("${ARCHDIR}" MATCHES "arch/x86") add_definitions("-DX86_CPUID") set(ZLIB_ARCH_SRCS ${ZLIB_ARCH_SRCS} ${ARCHDIR}/x86.c) if(HAVE_SSE42_INTRIN) add_definitions(-DX86_SSE4_2_CRC_HASH) set(ZLIB_ARCH_SRCS ${ZLIB_ARCH_SRCS} ${ARCHDIR}/insert_string_sse.c) add_feature_info(SSE4_CRC 1 "Support CRC hash generation using the SSE4.2 instruction set, using \"${SSE4FLAG}\"") add_intrinsics_option("${SSE4FLAG}") if(HAVE_SSE42CRC_INTRIN) add_definitions(-DX86_SSE4_2_CRC_INTRIN) endif() if(WITH_NEW_STRATEGIES) add_definitions(-DX86_QUICK_STRATEGY) set(ZLIB_ARCH_SRCS ${ZLIB_ARCH_SRCS} ${ARCHDIR}/deflate_quick.c) add_feature_info(SSE4DEFLATE 1 "Support SSE4.2-accelerated quick compression") endif() endif() if(HAVE_SSE2_INTRIN) add_definitions(-DX86_SSE2) set(ZLIB_ARCH_SRCS ${ZLIB_ARCH_SRCS} ${ARCHDIR}/fill_window_sse.c) if(NOT ${ARCH} MATCHES "x86_64") add_intrinsics_option("${SSE2FLAG}") add_feature_info(FORCE_SSE2 FORCE_SSE2 "Assume CPU is SSE2 capable") if(FORCE_SSE2) add_definitions(-DX86_NOCHECK_SSE2) endif() endif() endif() if(HAVE_PCLMULQDQ_INTRIN) add_definitions(-DX86_PCLMULQDQ_CRC) set(ZLIB_ARCH_SRCS ${ZLIB_ARCH_SRCS} ${ARCHDIR}/crc_folding.c) add_intrinsics_option("${PCLMULFLAG}") if(HAVE_SSE42_INTRIN) add_feature_info(PCLMUL_CRC 1 "Support CRC hash generation using PCLMULQDQ, using \"${PCLMULFLAG}\"") else() add_feature_info(PCLMUL_CRC 1 "Support CRC hash generation using PCLMULQDQ, using \"${PCLMULFLAG} ${SSE4FLAG}\"") endif() endif() elseif("${ARCH}" MATCHES "s390x") if(WITH_DFLTCC_DEFLATE OR WITH_DFLTCC_INFLATE) set(ZLIB_ARCH_SRCS ${ZLIB_ARCH_SRCS} ${ARCHDIR}/dfltcc_common.c) endif() if(WITH_DFLTCC_DEFLATE) add_definitions(-DS390_DFLTCC_DEFLATE) set(ZLIB_ARCH_SRCS ${ZLIB_ARCH_SRCS} ${ARCHDIR}/dfltcc_deflate.c) endif() if(WITH_DFLTCC_INFLATE) add_definitions(-DS390_DFLTCC_INFLATE) set(ZLIB_ARCH_SRCS ${ZLIB_ARCH_SRCS} ${ARCHDIR}/dfltcc_inflate.c) endif() endif() endif() message(STATUS "Architecture-specific source files: ${ZLIB_ARCH_SRCS}") #============================================================================ # zconf.h #============================================================================ macro(generate_cmakein input output) file(REMOVE ${output}) file(STRINGS ${input} _lines) foreach(_line IN LISTS _lines) file(APPEND ${output} "${_line}\n") if (_line STREQUAL "#define ZCONF_H" OR _line STREQUAL "#define ZCONFNG_H") file(APPEND ${output} "#cmakedefine Z_HAVE_UNISTD_H\n") if(NOT HAVE_PTRDIFF_T) file(APPEND ${output} "#cmakedefine NEED_PTRDIFF_T\n") file(APPEND ${output} "#cmakedefine PTRDIFF_TYPE ${PTRDIFF_TYPE}\n") endif() endif() endforeach() endmacro(generate_cmakein) generate_cmakein( ${CMAKE_CURRENT_SOURCE_DIR}/zconf${SUFFIX}.h.in ${CMAKE_CURRENT_BINARY_DIR}/zconf${SUFFIX}.h.cmakein ) if(NOT CMAKE_CURRENT_SOURCE_DIR STREQUAL CMAKE_CURRENT_BINARY_DIR) # If we're doing an out of source build and the user has a zconf.h # in their source tree... if(EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/zconf${SUFFIX}.h) message(STATUS "Renaming") message(STATUS " ${CMAKE_CURRENT_SOURCE_DIR}/zconf${SUFFIX}.h") message(STATUS "to 'zconf${SUFFIX}.h.included' because this file is included with zlib") message(STATUS "but CMake generates it automatically in the build directory.") file(RENAME ${CMAKE_CURRENT_SOURCE_DIR}/zconf${SUFFIX}.h ${CMAKE_CURRENT_SOURCE_DIR}/zconf${SUFFIX}.h.included) endif() # If we're doing an out of source build and the user has a zconf.h.cmakein # in their source tree... if(EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/zconf${SUFFIX}.h.cmakein) message(STATUS "Renaming") message(STATUS " ${CMAKE_CURRENT_SOURCE_DIR}/zconf${SUFFIX}.h.cmakein") message(STATUS "to 'zconf${SUFFIX}.h.cmakeincluded' because this file is included with zlib") message(STATUS "but CMake generates it automatically in the build directory.") file(RENAME ${CMAKE_CURRENT_SOURCE_DIR}/zconf${SUFFIX}.h.cmakein ${CMAKE_CURRENT_SOURCE_DIR}/zconf${SUFFIX}.h.cmakeincluded) endif() endif() set(ZLIB_PC ${CMAKE_CURRENT_BINARY_DIR}/${LIBNAME2}.pc) configure_file( ${CMAKE_CURRENT_SOURCE_DIR}/zlib.pc.cmakein ${ZLIB_PC} @ONLY) configure_file(${CMAKE_CURRENT_BINARY_DIR}/zconf${SUFFIX}.h.cmakein ${CMAKE_CURRENT_BINARY_DIR}/zconf${SUFFIX}.h @ONLY) #============================================================================ # zlib #============================================================================ set(ZLIB_PUBLIC_HDRS ${CMAKE_CURRENT_BINARY_DIR}/zconf${SUFFIX}.h zlib${SUFFIX}.h ) set(ZLIB_PRIVATE_HDRS crc32.h deflate.h functable.h gzguts.h inffast.h inffixed.h inflate.h inftrees.h trees.h zutil.h ) set(ZLIB_SRCS adler32.c compress.c crc32.c deflate.c deflate_fast.c deflate_medium.c deflate_slow.c functable.c inflate.c infback.c inftrees.c inffast.c trees.c uncompr.c zutil.c ) set(ZLIB_GZFILE_SRCS gzclose.c gzlib.c gzread.c gzwrite.c ) if(NOT MINGW AND NOT MSYS) set(ZLIB_DLL_SRCS win32/zlib${SUFFIX}1.rc # If present will override custom build rule below. ) endif() if(MINGW OR MSYS) # This gets us DLL resource information when compiling on MinGW. if(NOT CMAKE_RC_COMPILER) set(CMAKE_RC_COMPILER windres.exe) endif() add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/zlib1rc.obj COMMAND ${CMAKE_RC_COMPILER} -D GCC_WINDRES -I ${CMAKE_CURRENT_SOURCE_DIR} -I ${CMAKE_CURRENT_BINARY_DIR} -o ${CMAKE_CURRENT_BINARY_DIR}/zlib1rc.obj -i ${CMAKE_CURRENT_SOURCE_DIR}/win32/zlib${SUFFIX}1.rc) set(ZLIB_DLL_SRCS ${CMAKE_CURRENT_BINARY_DIR}/zlib1rc.obj) endif() add_library(zlib SHARED ${ZLIB_SRCS} ${ZLIB_ARCH_SRCS} ${ZLIB_ASMS} ${ZLIB_DLL_SRCS} ${ZLIB_PUBLIC_HDRS} ${ZLIB_PRIVATE_HDRS}) target_include_directories(zlib PUBLIC ${CMAKE_CURRENT_BINARY_DIR} ${CMAKE_CURRENT_SOURCE_DIR}) add_library(zlibstatic STATIC ${ZLIB_SRCS} ${ZLIB_ARCH_SRCS} ${ZLIB_ASMS} ${ZLIB_PUBLIC_HDRS} ${ZLIB_PRIVATE_HDRS}) target_include_directories(zlibstatic PUBLIC ${CMAKE_CURRENT_BINARY_DIR} ${CMAKE_CURRENT_SOURCE_DIR}) if(WITH_GZFILEOP) target_sources(zlib PRIVATE ${ZLIB_GZFILE_SRCS}) target_sources(zlibstatic PRIVATE ${ZLIB_GZFILE_SRCS}) endif() set_target_properties(zlib PROPERTIES DEFINE_SYMBOL ZLIB_DLL) set_target_properties(zlib PROPERTIES SOVERSION 1) if (ZLIB_COMPAT) set(ZLIB_FULL_VERSION ${ZLIB_HEADER_VERSION}) else() set(ZLIB_FULL_VERSION ${ZLIBNG_HEADER_VERSION}) endif() if(NOT CYGWIN) # This property causes shared libraries on Linux to have the full version # encoded into their final filename. We disable this on Cygwin because # it causes cygz-${ZLIB_FULL_VERSION}.dll to be created when cygz.dll # seems to be the default. # # This has no effect with MSVC, on that platform the version info for # the DLL comes from the resource file win32/zlib1.rc set_target_properties(zlib PROPERTIES VERSION ${ZLIB_FULL_VERSION}) endif() if(UNIX) # On unix-like platforms the library is almost always called libz set_target_properties(zlib zlibstatic PROPERTIES OUTPUT_NAME z${SUFFIX}) if(NOT APPLE) set_target_properties(zlib PROPERTIES LINK_FLAGS "-Wl,--version-script,\"${CMAKE_CURRENT_SOURCE_DIR}/${LIBNAME2}.map\"") endif() elseif(MSYS) # Suppress version number from shared library name set(CMAKE_SHARED_LIBRARY_NAME_WITH_VERSION 0) elseif(BUILD_SHARED_LIBS AND WIN32) # Creates zlib1.dll when building shared library version set_target_properties(zlib PROPERTIES SUFFIX "1.dll") endif() if(NOT SKIP_INSTALL_LIBRARIES AND NOT SKIP_INSTALL_ALL ) install(TARGETS zlib zlibstatic RUNTIME DESTINATION "${INSTALL_BIN_DIR}" ARCHIVE DESTINATION "${INSTALL_LIB_DIR}" LIBRARY DESTINATION "${INSTALL_LIB_DIR}" ) endif() if(NOT SKIP_INSTALL_HEADERS AND NOT SKIP_INSTALL_ALL ) install(FILES zlib${SUFFIX}.h DESTINATION "${INSTALL_INC_DIR}" RENAME zlib${SUFFIX}.h) install(FILES ${CMAKE_CURRENT_BINARY_DIR}/zconf${SUFFIX}.h DESTINATION "${INSTALL_INC_DIR}" RENAME zconf${SUFFIX}.h) endif() if(NOT SKIP_INSTALL_FILES AND NOT SKIP_INSTALL_ALL ) install(FILES zlib.3 DESTINATION "${INSTALL_MAN_DIR}/man3" RENAME zlib${SUFFIX}.3) endif() if(NOT SKIP_INSTALL_FILES AND NOT SKIP_INSTALL_ALL ) install(FILES ${ZLIB_PC} DESTINATION "${INSTALL_PKGCONFIG_DIR}") endif() #============================================================================ # Example binaries #============================================================================ option(ZLIB_ENABLE_TESTS "Build test binaries" ON) if (ZLIB_ENABLE_TESTS) enable_testing() macro(configure_test_executable target) target_link_libraries(${target} zlib) if(NOT WITH_GZFILEOP) target_compile_definitions(${target} PUBLIC -DWITH_GZFILEOP) target_sources(${target} PRIVATE ${ZLIB_GZFILE_SRCS}) endif() endmacro() add_executable(example test/example.c) configure_test_executable(example) add_test(NAME example COMMAND example${CMAKE_EXECUTABLE_SUFFIX}) add_executable(minigzip test/minigzip.c) configure_test_executable(minigzip) if(HAVE_OFF64_T) add_executable(example64 test/example.c) configure_test_executable(example64) set_target_properties(example64 PROPERTIES COMPILE_FLAGS "-D_FILE_OFFSET_BITS=64") add_test(NAME example64 COMMAND example64${CMAKE_EXECUTABLE_SUFFIX}) add_executable(minigzip64 test/minigzip.c) configure_test_executable(minigzip64) set_target_properties(minigzip64 PROPERTIES COMPILE_FLAGS "-D_FILE_OFFSET_BITS=64") endif() if(WITH_FUZZERS) set(FUZZERS checksum compress example_small example_large example_flush example_dict minigzip) file(GLOB ALL_SRC_FILES "${CMAKE_CURRENT_SOURCE_DIR}/*") foreach(FUZZER ${FUZZERS}) add_executable(${FUZZER}_fuzzer test/fuzz/${FUZZER}_fuzzer.c test/fuzz/standalone_fuzz_target_runner.c) configure_test_executable(${FUZZER}_fuzzer) add_test(${FUZZER}_fuzzer ${FUZZER}_fuzzer${CMAKE_EXECUTABLE_SUFFIX} ${ALL_SRC_FILES}) endforeach() endif() set(CVES CVE-2002-0059 CVE-2004-0797 CVE-2005-1849 CVE-2005-2096) foreach(CVE ${CVES}) set(CVE_COMMAND ${CMAKE_CROSSCOMPILING_EMULATOR} $ -d) add_test(NAME ${CVE} COMMAND ${CMAKE_COMMAND} "-DCOMMAND=${CVE_COMMAND}" -DINPUT=${CMAKE_CURRENT_SOURCE_DIR}/test/${CVE}/test.gz "-DSUCCESS_EXIT=0;1" -P ${CMAKE_CURRENT_SOURCE_DIR}/cmake/run-and-redirect.cmake) endforeach() if(NOT WIN32 AND ZLIB_COMPAT) add_executable(CVE-2003-0107 test/CVE-2003-0107.c) target_link_libraries(CVE-2003-0107 zlib) add_test(NAME CVE-2003-0107 COMMAND CVE-2003-0107) endif() endif() # FEATURE_SUMMARY(WHAT ALL INCLUDE_QUIET_PACKAGES)