ext-cryptopp/GNUmakefile
Thomas Petazzoni 230c558a4b
GNUmakefiles: add missing shared library symlink (GH #1101)
The GNUmakefile install-lib target currently installs the following
symlink:

	libcryptopp.so -> libcryptopp.so.8.6.0

However, it does not create the following symlink:

	libcryptopp.so.8 -> libcryptopp.so.8.6.0

This symlink is necessary at runtime because libcryptopp.so.8 is the
SONAME of the cryptopp library, and therefore this is what the dynamic
loader will search when starting a program that is linked against
cryptopp.

For native compilation, the 'ldconfig' invocation that immediately
follows will create that symlink, so everything works.

For cross-compilation however, ldconfig can't be used, and therefore
LDCONFIG is passed as /bin/true, and therefore it doesn't create the
symlink. So instead, create it directly inside the GNUmakefile,
without relying on ldconfig.

Signed-off-by: Kamel Bouhara <kamel.bouhara@bootlin.com>
Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>

Co-authored-by: Kamel Bouhara <kamel.bouhara@bootlin.com>
2022-01-07 18:26:53 -05:00

1797 lines
59 KiB
Makefile

###########################################################
##### System Attributes and Programs #####
###########################################################
# https://www.gnu.org/software/make/manual/make.html#Makefile-Conventions
# and https://www.gnu.org/prep/standards/standards.html
SHELL = /bin/sh
# If needed
TMPDIR ?= /tmp
# Used for feature tests
TOUT ?= a.out
TOUT := $(strip $(TOUT))
# Allow override for the cryptest.exe recipe. Change to
# ./libcryptopp.so or ./libcryptopp.dylib to suit your
# taste. https://github.com/weidai11/cryptopp/issues/866
LINK_LIBRARY ?= libcryptopp.a
LINK_LIBRARY_PATH ?= ./
# Command and arguments
AR ?= ar
ARFLAGS ?= -cr # ar needs the dash on OpenBSD
RANLIB ?= ranlib
CP ?= cp
MV ?= mv
RM ?= rm -f
GREP ?= grep
SED ?= sed
CHMOD ?= chmod
MKDIR ?= mkdir -p
LN ?= ln -sf
LDCONF ?= /sbin/ldconfig -n
# Solaris provides a non-Posix sed and grep at /usr/bin
# Solaris 10 is missing AR in /usr/bin
ifneq ($(wildcard /usr/xpg4/bin/grep),)
GREP := /usr/xpg4/bin/grep
endif
ifneq ($(wildcard /usr/xpg4/bin/sed),)
SED := /usr/xpg4/bin/sed
endif
ifneq ($(wildcard /usr/xpg4/bin/ar),)
AR := /usr/xpg4/bin/ar
endif
# Clang is reporting armv8l-unknown-linux-gnueabihf
# for ARMv7 images on Aarch64 hardware.
MACHINEX := $(shell $(CXX) $(CXXFLAGS) -dumpmachine 2>/dev/null)
HOSTX := $(shell echo $(MACHINEX) | cut -f 1 -d '-')
ifeq ($(HOSTX),)
HOSTX := $(shell uname -m 2>/dev/null)
endif
IS_X86 := $(shell echo "$(HOSTX)" | $(GREP) -v "64" | $(GREP) -i -c -E 'i.86|x86|i86')
IS_X64 := $(shell echo "$(HOSTX)" | $(GREP) -i -c -E '_64|d64')
IS_PPC32 := $(shell echo "$(HOSTX)" | $(GREP) -v "64" | $(GREP) -i -c -E 'ppc|power')
IS_PPC64 := $(shell echo "$(HOSTX)" | $(GREP) -i -c -E 'ppc64|powerpc64|power64')
IS_SPARC32 := $(shell echo "$(HOSTX)" | $(GREP) -v "64" | $(GREP) -i -c -E 'sun|sparc')
IS_SPARC64 := $(shell echo "$(HOSTX)" | $(GREP) -i -c -E 'sun|sparc64')
IS_ARM32 := $(shell echo "$(HOSTX)" | $(GREP) -v "64" | $(GREP) -i -c -E 'arm|armhf|armv7|eabihf|armv8')
IS_ARMV8 := $(shell echo "$(HOSTX)" | $(GREP) -i -c -E 'aarch32|aarch64|arm64')
# Attempt to determine platform
SYSTEMX := $(shell $(CXX) $(CXXFLAGS) -dumpmachine 2>/dev/null)
ifeq ($(SYSTEMX),)
SYSTEMX := $(shell uname -s 2>/dev/null)
endif
IS_LINUX := $(shell echo "$(SYSTEMX)" | $(GREP) -i -c "Linux")
IS_HURD := $(shell echo "$(SYSTEMX)" | $(GREP) -i -c -E "GNU|Hurd")
IS_MINGW := $(shell echo "$(SYSTEMX)" | $(GREP) -i -c "MinGW")
IS_CYGWIN := $(shell echo "$(SYSTEMX)" | $(GREP) -i -c "Cygwin")
IS_DARWIN := $(shell echo "$(SYSTEMX)" | $(GREP) -i -c "Darwin")
IS_NETBSD := $(shell echo "$(SYSTEMX)" | $(GREP) -i -c "NetBSD")
IS_AIX := $(shell echo "$(SYSTEMX)" | $(GREP) -i -c "aix")
IS_SUN := $(shell echo "$(SYSTEMX)" | $(GREP) -i -c -E "SunOS|Solaris")
SUN_COMPILER := $(shell $(CXX) -V 2>&1 | $(GREP) -i -c -E 'CC: (Sun|Studio)')
GCC_COMPILER := $(shell $(CXX) --version 2>/dev/null | $(GREP) -v -E '(llvm|clang)' | $(GREP) -i -c -E '(gcc|g\+\+)')
XLC_COMPILER := $(shell $(CXX) -qversion 2>/dev/null |$(GREP) -i -c "IBM XL")
CLANG_COMPILER := $(shell $(CXX) --version 2>/dev/null | $(GREP) -i -c -E '(llvm|clang)')
INTEL_COMPILER := $(shell $(CXX) --version 2>/dev/null | $(GREP) -i -c '\(icc\)')
# Enable shared object versioning for Linux and Solaris
HAS_SOLIB_VERSION ?= 0
ifneq ($(IS_LINUX)$(IS_HURD)$(IS_SUN),000)
HAS_SOLIB_VERSION := 1
endif
# Formerly adhoc.cpp was created from adhoc.cpp.proto when needed.
ifeq ($(wildcard adhoc.cpp),)
$(shell cp adhoc.cpp.proto adhoc.cpp)
endif
# Hack to skip CPU feature tests for some recipes
DETECT_FEATURES ?= 1
ifeq ($(findstring -DCRYPTOPP_DISABLE_ASM,$(CXXFLAGS)),-DCRYPTOPP_DISABLE_ASM)
DETECT_FEATURES := 0
else ifeq ($(findstring clean,$(MAKECMDGOALS)),clean)
DETECT_FEATURES := 0
else ifeq ($(findstring distclean,$(MAKECMDGOALS)),distclean)
DETECT_FEATURES := 0
else ifeq ($(findstring trim,$(MAKECMDGOALS)),trim)
DETECT_FEATURES := 0
else ifeq ($(findstring zip,$(MAKECMDGOALS)),zip)
DETECT_FEATURES := 0
endif
# Strip out -Wall, -Wextra and friends for feature testing. FORTIFY_SOURCE is removed
# because it requires -O1 or higher, but we use -O0 to tame the optimizer.
# Always print testing flags since some tests always happen, like 64-bit.
TCXXFLAGS := $(filter-out -D_FORTIFY_SOURCE=% -M -MM -Wall -Wextra -Werror% -Wunused -Wconversion -Wp%, $(CPPFLAGS) $(CXXFLAGS))
ifneq ($(strip $(TCXXFLAGS)),)
$(info Using testing flags: $(TCXXFLAGS))
endif
# TCOMMAND is used for just about all tests. Make will lazy-evaluate
# the variables when executed by $(shell $(TCOMMAND) ...).
TCOMMAND = $(CXX) $(TCXXFLAGS) $(TEXTRA) $(ZOPT) $(TOPT) $(TPROG) -o $(TOUT)
# Fixup AIX
ifeq ($(IS_AIX),1)
TPROG = TestPrograms/test_64bit.cpp
TOPT =
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
IS_PPC64=1
else
IS_PPC32=1
endif
endif
# Uncomment for debugging
# $(info Here's what we found... IS_X86: $(IS_X86), IS_X64: $(IS_X64), IS_ARM32: $(IS_ARM32), IS_ARMV8: $(IS_ARMV8))
###########################################################
##### General Variables #####
###########################################################
# Base CXXFLAGS used if the user did not specify them
ifeq ($(CXXFLAGS),)
ifeq ($(SUN_COMPILER),1)
CRYPTOPP_CXXFLAGS += -DNDEBUG -g -xO3
ZOPT = -xO0
else
CRYPTOPP_CXXFLAGS += -DNDEBUG -g2 -O3
ZOPT = -O0
endif
endif
# Fix CXX on Cygwin 1.1.4
ifeq ($(CXX),gcc)
CXX := g++
endif
# On ARM we may compile aes_armv4.S though the CC compiler
ifeq ($(GCC_COMPILER),1)
CC=gcc
else ifeq ($(CLANG_COMPILER),1)
CC=clang
endif
# http://www.gnu.org/prep/standards/html_node/Directory-Variables.html
ifeq ($(PREFIX),)
PREFIX = /usr/local
PC_PREFIX = /usr/local
else
PC_PREFIX = $(PREFIX)
endif
ifeq ($(LIBDIR),)
LIBDIR := $(PREFIX)/lib
PC_LIBDIR = $${prefix}/lib
else
PC_LIBDIR = $(LIBDIR)
endif
ifeq ($(DATADIR),)
DATADIR := $(PREFIX)/share
PC_DATADIR = $${prefix}/share
else
PC_DATADIR = $(DATADIR)
endif
ifeq ($(INCLUDEDIR),)
INCLUDEDIR := $(PREFIX)/include
PC_INCLUDEDIR = $${prefix}/include
else
PC_INCLUDEDIR = $(INCLUDEDIR)
endif
ifeq ($(BINDIR),)
BINDIR := $(PREFIX)/bin
endif
# We honor ARFLAGS, but the "v" option used by default causes a noisy make
ifeq ($(ARFLAGS),rv)
ARFLAGS = r
endif
# Original MinGW targets Win2k by default, but lacks proper Win2k support
# if target Windows version is not specified, use Windows XP instead
ifeq ($(IS_MINGW),1)
ifeq ($(findstring -D_WIN32_WINNT,$(CXXFLAGS)),)
ifeq ($(findstring -D_WIN32_WINDOWS,$(CXXFLAGS)),)
ifeq ($(findstring -DWINVER,$(CXXFLAGS)),)
ifeq ($(findstring -DNTDDI_VERSION,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -D_WIN32_WINNT=0x0501
endif # NTDDI_VERSION
endif # WINVER
endif # _WIN32_WINDOWS
endif # _WIN32_WINNT
endif # IS_MINGW
# Newlib needs _XOPEN_SOURCE=600 for signals
TPROG = TestPrograms/test_newlib.cpp
TOPT =
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
ifeq ($(findstring -D_XOPEN_SOURCE,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -D_XOPEN_SOURCE=600
endif
endif
###########################################################
##### X86/X32/X64 Options #####
###########################################################
ifneq ($(IS_X86)$(IS_X64)$(IS_MINGW),000)
ifeq ($(DETECT_FEATURES),1)
ifeq ($(SUN_COMPILER),1)
SSE2_FLAG = -xarch=sse2
SSE3_FLAG = -xarch=sse3
SSSE3_FLAG = -xarch=ssse3
SSE41_FLAG = -xarch=sse4_1
SSE42_FLAG = -xarch=sse4_2
CLMUL_FLAG = -xarch=aes
AESNI_FLAG = -xarch=aes
AVX_FLAG = -xarch=avx
AVX2_FLAG = -xarch=avx2
SHANI_FLAG = -xarch=sha
else
SSE2_FLAG = -msse2
SSE3_FLAG = -msse3
SSSE3_FLAG = -mssse3
SSE41_FLAG = -msse4.1
SSE42_FLAG = -msse4.2
CLMUL_FLAG = -mpclmul
AESNI_FLAG = -maes
AVX_FLAG = -mavx
AVX2_FLAG = -mavx2
SHANI_FLAG = -msha
endif
# Tell MacPorts and Homebrew GCC to use Clang integrated assembler
# Intel-based Macs. http://github.com/weidai11/cryptopp/issues/190
ifneq ($(IS_DARWIN),0)
ifeq ($(findstring -Wa,-q,$(CXXFLAGS)),)
TPROG = TestPrograms/test_cxx.cpp
TOPT = -Wa,-q
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
TEXTRA += -Wa,-q
CRYPTOPP_CXXFLAGS += -Wa,-q
endif
endif
endif
TPROG = TestPrograms/test_x86_sse2.cpp
TOPT = $(SSE2_FLAG)
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
CHACHA_FLAG = $(SSE2_FLAG)
SUN_LDFLAGS += $(SSE2_FLAG)
else
# Make does not have useful debugging facilities. Show the user
# what happened by compiling again without the pipe.
$(info Running make again to see what failed)
$(info $(shell $(TCOMMAND)))
SSE2_FLAG =
endif
ifeq ($(SSE2_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ASM
endif
# Need SSE2 or higher for these tests
ifneq ($(SSE2_FLAG),)
TPROG = TestPrograms/test_x86_ssse3.cpp
TOPT = $(SSSE3_FLAG)
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
ARIA_FLAG = $(SSSE3_FLAG)
CHAM_FLAG = $(SSSE3_FLAG)
KECCAK_FLAG = $(SSSE3_FLAG)
LEA_FLAG = $(SSSE3_FLAG)
LSH256_FLAG = $(SSSE3_FLAG)
LSH512_FLAG = $(SSSE3_FLAG)
SIMON128_FLAG = $(SSSE3_FLAG)
SPECK128_FLAG = $(SSSE3_FLAG)
SUN_LDFLAGS += $(SSSE3_FLAG)
else
SSSE3_FLAG =
endif
# The first Apple MacBooks were Core2's with SSE4.1
ifneq ($(IS_DARWIN),0)
# Add SSE2 algo's here as required
# They get a free upgrade
endif
TPROG = TestPrograms/test_x86_sse41.cpp
TOPT = $(SSE41_FLAG)
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
BLAKE2B_FLAG = $(SSE41_FLAG)
BLAKE2S_FLAG = $(SSE41_FLAG)
SUN_LDFLAGS += $(SSE41_FLAG)
else
SSE41_FLAG =
endif
TPROG = TestPrograms/test_x86_sse42.cpp
TOPT = $(SSE42_FLAG)
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
CRC_FLAG = $(SSE42_FLAG)
SUN_LDFLAGS += $(SSE42_FLAG)
else
SSE42_FLAG =
endif
TPROG = TestPrograms/test_x86_clmul.cpp
TOPT = $(CLMUL_FLAG)
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
GCM_FLAG = $(SSSE3_FLAG) $(CLMUL_FLAG)
GF2N_FLAG = $(CLMUL_FLAG)
SUN_LDFLAGS += $(CLMUL_FLAG)
else
CLMUL_FLAG =
endif
TPROG = TestPrograms/test_x86_aes.cpp
TOPT = $(AESNI_FLAG)
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
AES_FLAG = $(SSE41_FLAG) $(AESNI_FLAG)
SM4_FLAG = $(SSSE3_FLAG) $(AESNI_FLAG)
SUN_LDFLAGS += $(AESNI_FLAG)
else
AESNI_FLAG =
endif
TPROG = TestPrograms/test_x86_avx.cpp
TOPT = $(AVX_FLAG)
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
# XXX_FLAG = $(AVX_FLAG)
SUN_LDFLAGS += $(AVX_FLAG)
else
AVX_FLAG =
endif
TPROG = TestPrograms/test_x86_avx2.cpp
TOPT = $(AVX2_FLAG)
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
CHACHA_AVX2_FLAG = $(AVX2_FLAG)
LSH256_AVX2_FLAG = $(AVX2_FLAG)
LSH512_AVX2_FLAG = $(AVX2_FLAG)
SUN_LDFLAGS += $(AVX2_FLAG)
else
AVX2_FLAG =
endif
TPROG = TestPrograms/test_x86_sha.cpp
TOPT = $(SHANI_FLAG)
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
SHA_FLAG = $(SSE42_FLAG) $(SHANI_FLAG)
SUN_LDFLAGS += $(SHANI_FLAG)
else
SHANI_FLAG =
endif
ifeq ($(SUN_COMPILER),1)
CRYPTOPP_LDFLAGS += $(SUN_LDFLAGS)
endif
ifeq ($(SSE3_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_SSE3
else ifeq ($(SSSE3_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_SSSE3
else ifeq ($(SSE41_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_SSE4
else ifeq ($(SSE42_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_SSE4
endif
ifneq ($(SSE42_FLAG),)
# Unusual GCC/Clang on Macports. It assembles AES, but not CLMUL.
# test_x86_clmul.s:15: no such instruction: 'pclmulqdq $0, %xmm1,%xmm0'
ifeq ($(CLMUL_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_CLMUL
endif
ifeq ($(AESNI_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_AESNI
endif
ifeq ($(AVX_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_AVX
else ifeq ($(AVX2_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_AVX2
endif
# SHANI independent of AVX per GH #1045
ifeq ($(SHANI_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_SHANI
endif
endif
# Drop to SSE2 if available
ifeq ($(GCM_FLAG),)
GCM_FLAG = $(SSE2_FLAG)
endif
# Most Clang cannot handle mixed asm with positional arguments, where the
# body is Intel style with no prefix and the templates are AT&T style.
# Also see https://bugs.llvm.org/show_bug.cgi?id=39895 .
# CRYPTOPP_DISABLE_MIXED_ASM is now being added in config_asm.h for all
# Clang compilers. This test will need to be re-enabled if Clang fixes it.
#TPROG = TestPrograms/test_asm_mixed.cpp
#TOPT =
#HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
#ifneq ($(strip $(HAVE_OPT)),0)
# CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_MIXED_ASM
#endif
# SSE2_FLAGS
endif
# DETECT_FEATURES
endif
ifneq ($(INTEL_COMPILER),0)
CRYPTOPP_CXXFLAGS += -wd68 -wd186 -wd279 -wd327 -wd161 -wd3180
ICC111_OR_LATER := $(shell $(CXX) --version 2>&1 | $(GREP) -c -E "\(ICC\) ([2-9][0-9]|1[2-9]|11\.[1-9])")
ifeq ($(ICC111_OR_LATER),0)
# "internal error: backend signals" occurs on some x86 inline assembly with ICC 9 and
# some x64 inline assembly with ICC 11.0. If you want to use Crypto++'s assembly code
# with ICC, try enabling it on individual files
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ASM
endif
endif
# Allow use of "/" operator for GNU Assembler.
# http://sourceware.org/bugzilla/show_bug.cgi?id=4572
ifeq ($(findstring -DCRYPTOPP_DISABLE_ASM,$(CXXFLAGS)),)
ifeq ($(IS_SUN)$(GCC_COMPILER),11)
CRYPTOPP_CXXFLAGS += -Wa,--divide
endif
endif
# IS_X86, IS_X32 and IS_X64
endif
###########################################################
##### ARM A-32 and NEON #####
###########################################################
ifneq ($(IS_ARM32),0)
ifeq ($(DETECT_FEATURES),1)
# Clang needs an option to include <arm_neon.h>
TPROG = TestPrograms/test_arm_neon_header.cpp
TOPT = -DCRYPTOPP_ARM_NEON_HEADER=1 -march=armv7-a -mfpu=neon
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
TEXTRA += -DCRYPTOPP_ARM_NEON_HEADER=1
endif
TPROG = TestPrograms/test_arm_neon.cpp
TOPT = -march=armv7-a -mfpu=neon
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
NEON_FLAG = -march=armv7-a -mfpu=neon
ARIA_FLAG = -march=armv7-a -mfpu=neon
GCM_FLAG = -march=armv7-a -mfpu=neon
BLAKE2B_FLAG = -march=armv7-a -mfpu=neon
BLAKE2S_FLAG = -march=armv7-a -mfpu=neon
CHACHA_FLAG = -march=armv7-a -mfpu=neon
CHAM_FLAG = -march=armv7-a -mfpu=neon
LEA_FLAG = -march=armv7-a -mfpu=neon
SIMON128_FLAG = -march=armv7-a -mfpu=neon
SPECK128_FLAG = -march=armv7-a -mfpu=neon
SM4_FLAG = -march=armv7-a -mfpu=neon
else
# Make does not have useful debugging facilities. Show the user
# what happened by compiling again without the pipe.
$(info Running make again to see what failed)
$(info $(shell $(TCOMMAND)))
NEON_FLAG =
endif
ifeq ($(NEON_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ASM
endif
# DETECT_FEATURES
endif
# IS_ARM32
endif
###########################################################
##### Aach32 and Aarch64 #####
###########################################################
ifneq ($(IS_ARMV8),0)
ifeq ($(DETECT_FEATURES),1)
TPROG = TestPrograms/test_arm_neon_header.cpp
TOPT = -DCRYPTOPP_ARM_NEON_HEADER=1
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
TEXTRA += -DCRYPTOPP_ARM_NEON_HEADER=1
endif
TPROG = TestPrograms/test_arm_acle_header.cpp
TOPT = -DCRYPTOPP_ARM_ACLE_HEADER=1 -march=armv8-a
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
TEXTRA += -DCRYPTOPP_ARM_ACLE_HEADER=1
endif
TPROG = TestPrograms/test_arm_asimd.cpp
TOPT = -march=armv8-a
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
ASIMD_FLAG = -march=armv8-a
ARIA_FLAG = -march=armv8-a
BLAKE2B_FLAG = -march=armv8-a
BLAKE2S_FLAG = -march=armv8-a
CHACHA_FLAG = -march=armv8-a
CHAM_FLAG = -march=armv8-a
LEA_FLAG = -march=armv8-a
NEON_FLAG = -march=armv8-a
SIMON128_FLAG = -march=armv8-a
SPECK128_FLAG = -march=armv8-a
SM4_FLAG = -march=armv8-a
else
# Make does not have useful debugging facilities. Show the user
# what happened by compiling again without the pipe.
$(info Running make again to see what failed)
$(info $(shell $(TCOMMAND)))
ASIMD_FLAG =
endif
ifeq ($(ASIMD_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ASM
endif
ifneq ($(ASIMD_FLAG),)
TPROG = TestPrograms/test_arm_crc.cpp
TOPT = -march=armv8-a+crc
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
CRC_FLAG = -march=armv8-a+crc
else
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ARM_CRC32
endif
TPROG = TestPrograms/test_arm_aes.cpp
TOPT = -march=armv8-a+crypto
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
AES_FLAG = -march=armv8-a+crypto
else
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ARM_AES
endif
TPROG = TestPrograms/test_arm_pmull.cpp
TOPT = -march=armv8-a+crypto
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
GCM_FLAG = -march=armv8-a+crypto
GF2N_FLAG = -march=armv8-a+crypto
else
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ARM_PMULL
endif
TPROG = TestPrograms/test_arm_sha1.cpp
TOPT = -march=armv8-a+crypto
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
SHA_FLAG = -march=armv8-a+crypto
else
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ARM_SHA1
endif
TPROG = TestPrograms/test_arm_sha256.cpp
TOPT = -march=armv8-a+crypto
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
SHA_FLAG = -march=armv8-a+crypto
else
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ARM_SHA2
endif
TPROG = TestPrograms/test_arm_sm3.cpp
TOPT = -march=armv8.4-a+sm3
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
SM3_FLAG = -march=armv8.4-a+sm3
SM4_FLAG = -march=armv8.4-a+sm3
else
#CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ARM_SM3
#CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ARM_SM4
endif
TPROG = TestPrograms/test_arm_sha3.cpp
TOPT = -march=armv8.4-a+sha3
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
SHA3_FLAG = -march=armv8.4-a+sha3
else
#CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ARM_SHA3
endif
TPROG = TestPrograms/test_arm_sha512.cpp
TOPT = -march=armv8.4-a+sha512
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
SHA512_FLAG = -march=armv8.4-a+sha512
else
#CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ARM_SHA512
endif
# ASIMD_FLAG
endif
# DETECT_FEATURES
endif
# IS_ARMV8
endif
###########################################################
##### PowerPC #####
###########################################################
# PowerPC and PowerPC64. Altivec is available with POWER4 with GCC and
# POWER6 with XLC. The tests below are crafted for IBM XLC and the LLVM
# front-end. XLC/LLVM only supplies POWER8 so we have to set the flags for
# XLC/LLVM to POWER8. I've got a feeling LLVM is going to cause trouble.
ifneq ($(IS_PPC32)$(IS_PPC64),00)
ifeq ($(DETECT_FEATURES),1)
# IBM XL C/C++ has the -qaltivec flag really screwed up. We can't seem
# to get it enabled without an -qarch= option. And -qarch= produces an
# error on later versions of the compiler. The only thing that seems
# to work consistently is -qarch=auto. -qarch=auto is equivalent to
# GCC's -march=native, which we don't really want.
# XLC requires -qaltivec in addition to Arch or CPU option
ifeq ($(XLC_COMPILER),1)
# POWER9_FLAG = -qarch=pwr9 -qaltivec
POWER8_FLAG = -qarch=pwr8 -qaltivec
POWER7_VSX_FLAG = -qarch=pwr7 -qvsx -qaltivec
POWER7_PWR_FLAG = -qarch=pwr7 -qaltivec
ALTIVEC_FLAG = -qarch=auto -qaltivec
else
# POWER9_FLAG = -mcpu=power9
POWER8_FLAG = -mcpu=power8
POWER7_VSX_FLAG = -mcpu=power7 -mvsx
POWER7_PWR_FLAG = -mcpu=power7
ALTIVEC_FLAG = -maltivec
endif
# GCC 10 is giving us trouble in CPU_ProbePower9() and
# CPU_ProbeDARN(). GCC is generating POWER9 instructions
# on POWER8 for ppc_power9.cpp. The compiler folks did
# not think through the consequences of requiring us to
# use -mcpu=power9 to unlock the ISA. Epic fail.
# https:#github.com/weidai11/cryptopp/issues/986
POWER9_FLAG =
# XLC with LLVM front-ends failed to define XLC defines.
#ifeq ($(findstring -qxlcompatmacros,$(CXXFLAGS)),)
# TPROG = TestPrograms/test_ppc_altivec.cpp
# TOPT = -qxlcompatmacros
# HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
# ifeq ($(strip $(HAVE_OPT)),0)
# CRYPTOPP_CXXFLAGS += -qxlcompatmacros
# endif
#endif
#####################################################################
# Looking for a POWER9 option
#TPROG = TestPrograms/test_ppc_power9.cpp
#TOPT = $(POWER9_FLAG)
#HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
#ifeq ($(strip $(HAVE_OPT)),0)
# DARN_FLAG = $(POWER9_FLAG)
#else
# POWER9_FLAG =
#endif
#####################################################################
# Looking for a POWER8 option
TPROG = TestPrograms/test_ppc_power8.cpp
TOPT = $(POWER8_FLAG)
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
AES_FLAG = $(POWER8_FLAG)
BLAKE2B_FLAG = $(POWER8_FLAG)
CRC_FLAG = $(POWER8_FLAG)
GCM_FLAG = $(POWER8_FLAG)
GF2N_FLAG = $(POWER8_FLAG)
LEA_FLAG = $(POWER8_FLAG)
SHA_FLAG = $(POWER8_FLAG)
SHACAL2_FLAG = $(POWER8_FLAG)
else
POWER8_FLAG =
endif
#####################################################################
# Looking for a POWER7 option
# GCC needs -mvsx for Power7 to enable 64-bit vector elements.
# XLC provides 64-bit vector elements without an option.
TPROG = TestPrograms/test_ppc_power7.cpp
TOPT = $(POWER7_VSX_FLAG)
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
POWER7_FLAG = $(POWER7_VSX_FLAG)
else
TPROG = TestPrograms/test_ppc_power7.cpp
TOPT = $(POWER7_PWR_FLAG)
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
POWER7_FLAG = $(POWER7_PWR_FLAG)
else
POWER7_FLAG =
endif
endif
#####################################################################
# Looking for an Altivec option
TPROG = TestPrograms/test_ppc_altivec.cpp
TOPT = $(ALTIVEC_FLAG)
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
ALTIVEC_FLAG := $(ALTIVEC_FLAG)
else
# Make does not have useful debugging facilities. Show the user
# what happened by compiling again without the pipe.
$(info Running make again to see what failed)
$(info $(shell $(TCOMMAND)))
ALTIVEC_FLAG =
endif
ifneq ($(ALTIVEC_FLAG),)
BLAKE2S_FLAG = $(ALTIVEC_FLAG)
CHACHA_FLAG = $(ALTIVEC_FLAG)
SPECK128_FLAG = $(ALTIVEC_FLAG)
SIMON128_FLAG = $(ALTIVEC_FLAG)
endif
#####################################################################
# Fixups for algorithms that can drop to a lower ISA, if needed
# Drop to Altivec if higher Power is not available
ifneq ($(ALTIVEC_FLAG),)
ifeq ($(GCM_FLAG),)
GCM_FLAG = $(ALTIVEC_FLAG)
endif
endif
#####################################################################
# Fixups for missing ISAs
ifeq ($(ALTIVEC_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ALTIVEC
else ifeq ($(POWER7_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_POWER7
else ifeq ($(POWER8_FLAG),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_POWER8
#else ifeq ($(POWER9_FLAG),)
# CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_POWER9
endif
# DETECT_FEATURES
endif
# IBM XL C++ compiler
ifeq ($(XLC_COMPILER),1)
ifeq ($(findstring -qmaxmem,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -qmaxmem=-1
endif
# http://www-01.ibm.com/support/docview.wss?uid=swg21007500
ifeq ($(findstring -qrtti,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -qrtti
endif
endif
# IS_PPC32, IS_PPC64
endif
###########################################################
##### Common #####
###########################################################
# Add -fPIC for targets *except* X86, X32, Cygwin or MinGW
ifeq ($(IS_X86)$(IS_CYGWIN)$(IS_MINGW),000)
ifeq ($(findstring -fpic,$(CXXFLAGS))$(findstring -fPIC,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -fPIC
endif
endif
# Use -pthread whenever it is available. See http://www.hpl.hp.com/techreports/2004/HPL-2004-209.pdf
# http://stackoverflow.com/questions/2127797/gcc-significance-of-pthread-flag-when-compiling
ifeq ($(DETECT_FEATURES),1)
ifeq ($(XLC_COMPILER),1)
ifeq ($(findstring -qthreaded,$(CXXFLAGS)),)
TPROG = TestPrograms/test_pthreads.cpp
TOPT = -qthreaded
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
CRYPTOPP_CXXFLAGS += -qthreaded
endif # CRYPTOPP_CXXFLAGS
endif # qthreaded
else
ifeq ($(findstring -pthread,$(CXXFLAGS)),)
TPROG = TestPrograms/test_pthreads.cpp
TOPT = -pthread
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
CRYPTOPP_CXXFLAGS += -pthread
endif # CRYPTOPP_CXXFLAGS
endif # pthread
endif # XLC/GCC and friends
endif # DETECT_FEATURES
# Remove -fPIC if present. SunCC use -KPIC, and needs the larger GOT table
# https://docs.oracle.com/cd/E19205-01/819-5267/bkbaq/index.html
ifeq ($(SUN_COMPILER),1)
CRYPTOPP_CXXFLAGS := $(subst -fPIC,-KPIC,$(CRYPTOPP_CXXFLAGS))
CRYPTOPP_CXXFLAGS := $(subst -fpic,-KPIC,$(CRYPTOPP_CXXFLAGS))
endif
# Remove -fPIC if present. IBM XL C++ uses -qpic
ifeq ($(XLC_COMPILER),1)
CRYPTOPP_CXXFLAGS := $(subst -fPIC,-qpic,$(CRYPTOPP_CXXFLAGS))
CRYPTOPP_CXXFLAGS := $(subst -fpic,-qpic,$(CRYPTOPP_CXXFLAGS))
endif
# Disable IBM XL C++ "1500-036: (I) The NOSTRICT option (default at OPT(3))
# has the potential to alter the semantics of a program."
ifeq ($(XLC_COMPILER),1)
TPROG = TestPrograms/test_cxx.cpp
TOPT = -qsuppress=1500-036
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
CRYPTOPP_CXXFLAGS += -qsuppress=1500-036
endif # -qsuppress
endif # IBM XL C++ compiler
# libc++ is LLVM's standard C++ library. If we add libc++
# here then all user programs must use it too. The open
# question is, which choice is easier on users?
ifneq ($(IS_DARWIN),0)
CXX ?= c++
# CRYPTOPP_CXXFLAGS += -stdlib=libc++
ifeq ($(findstring -fno-common,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -fno-common
endif
IS_APPLE_LIBTOOL=$(shell libtool -V 2>&1 | $(GREP) -i -c 'Apple')
ifeq ($(IS_APPLE_LIBTOOL),1)
AR = libtool
else
AR = /usr/bin/libtool
endif
ARFLAGS = -static -o
endif
# Add -xregs=no%appl SPARC. SunCC should not use certain registers in library code.
# https://docs.oracle.com/cd/E18659_01/html/821-1383/bkamt.html
ifneq ($(IS_SPARC32)$(IS_SPARC64),00)
ifeq ($(SUN_COMPILER),1)
ifeq ($(findstring -xregs=no%appl,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -xregs=no%appl
endif # -xregs
endif # SunCC
ifeq ($(GCC_COMPILER),1)
ifeq ($(findstring -mno-app-regs,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -mno-app-regs
endif # no-app-regs
endif # GCC
endif # Sparc
# Add -pipe for everything except IBM XL C++, SunCC and ARM.
# Allow ARM-64 because they seems to have >1 GB of memory
ifeq ($(XLC_COMPILER)$(SUN_COMPILER)$(IS_ARM32),000)
ifeq ($(findstring -save-temps,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -pipe
endif
endif
# For SunOS, create a Mapfile that allows our object files
# to contain additional bits (like SSE4 and AES on old Xeon)
# http://www.oracle.com/technetwork/server-storage/solaris/hwcap-modification-139536.html
ifeq ($(IS_SUN)$(SUN_COMPILER),11)
ifneq ($(IS_X86)$(IS_X64),00)
ifeq ($(findstring -DCRYPTOPP_DISABLE_ASM,$(CRYPTOPP_CXXFLAGS) $(CXXFLAGS)),)
CRYPTOPP_LDFLAGS += -M cryptopp.mapfile
endif # No CRYPTOPP_DISABLE_ASM
endif # X86/X32/X64
endif # SunOS
ifneq ($(IS_LINUX)$(IS_HURD),00)
ifeq ($(findstring -fopenmp,$(CXXFLAGS)),-fopenmp)
ifeq ($(findstring -lgomp,$(LDLIBS)),)
LDLIBS += -lgomp
endif # LDLIBS
endif # OpenMP
endif # IS_LINUX or IS_HURD
# Add -errtags=yes to get the name for a warning suppression
ifneq ($(SUN_COMPILER),0) # override flags for CC Sun C++ compiler
# Add to all Solaris
CRYPTOPP_CXXFLAGS += -template=no%extdef
SUN_CC10_BUGGY := $(shell $(CXX) -V 2>&1 | $(GREP) -c -E "CC: Sun .* 5\.10 .* (2009|2010/0[1-4])")
ifneq ($(SUN_CC10_BUGGY),0)
# -DCRYPTOPP_INCLUDE_VECTOR_CC is needed for Sun Studio 12u1 Sun C++ 5.10 SunOS_i386 128229-02 2009/09/21
# and was fixed in May 2010. Remove it if you get "already had a body defined" errors in vector.cc
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_INCLUDE_VECTOR_CC
endif
AR = $(CXX)
ARFLAGS = -xar -o
RANLIB = true
endif
# No ASM for Travis testing
ifeq ($(findstring no-asm,$(MAKECMDGOALS)),no-asm)
ifeq ($(findstring -DCRYPTOPP_DISABLE_ASM,$(CRYPTOPP_CXXFLAGS) $(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_DISABLE_ASM
endif # CRYPTOPP_CXXFLAGS
endif # No ASM
# Native build testing. Issue 'make native'.
ifeq ($(findstring native,$(MAKECMDGOALS)),native)
NATIVE_OPT =
# Try GCC and compatibles first
TPROG = TestPrograms/test_cxx.cpp
TOPT = -march=native
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
NATIVE_OPT = -march=native
endif # NATIVE_OPT
# And tune
ifeq ($(NATIVE_OPT),)
TOPT = -mtune=native
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
NATIVE_OPT = -mtune=native
endif # NATIVE_OPT
endif
# Try SunCC next
ifeq ($(NATIVE_OPT),)
TOPT = -native
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
NATIVE_OPT = -native
endif # NATIVE_OPT
endif
ifneq ($(NATIVE_OPT),)
CRYPTOPP_CXXFLAGS += $(NATIVE_OPT)
endif
endif # Native
# Undefined Behavior Sanitizer (UBsan) testing. Issue 'make ubsan'.
ifeq ($(findstring ubsan,$(MAKECMDGOALS)),ubsan)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-g%=-g3)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-O%=-O1)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-xO%=-xO1)
ifeq ($(findstring -fsanitize=undefined,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -fsanitize=undefined
endif # CRYPTOPP_CXXFLAGS
ifeq ($(findstring -DCRYPTOPP_COVERAGE,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_COVERAGE
endif # CRYPTOPP_CXXFLAGS
endif # UBsan
# Address Sanitizer (Asan) testing. Issue 'make asan'.
ifeq ($(findstring asan,$(MAKECMDGOALS)),asan)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-g%=-g3)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-O%=-O1)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-xO%=-xO1)
ifeq ($(findstring -fsanitize=address,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -fsanitize=address
endif # CRYPTOPP_CXXFLAGS
ifeq ($(findstring -DCRYPTOPP_COVERAGE,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_COVERAGE
endif # CRYPTOPP_CXXFLAGS
ifeq ($(findstring -fno-omit-frame-pointer,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -fno-omit-frame-pointer
endif # CRYPTOPP_CXXFLAGS
endif # Asan
# LD gold linker testing. Triggered by 'LD=ld.gold'.
ifeq ($(findstring ld.gold,$(LD)),ld.gold)
ifeq ($(findstring -fuse-ld=gold,$(CXXFLAGS)),)
LD_GOLD = $(shell command -v ld.gold)
ELF_FORMAT := $(shell file $(LD_GOLD) 2>&1 | cut -d":" -f 2 | $(GREP) -i -c "elf")
ifneq ($(ELF_FORMAT),0)
CRYPTOPP_LDFLAGS += -fuse-ld=gold
endif # ELF/ELF64
endif # CXXFLAGS
endif # Gold
# lcov code coverage. Issue 'make coverage'.
ifneq ($(filter lcov coverage,$(MAKECMDGOALS)),)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-g%=-g3)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-O%=-O1)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-xO%=-xO1)
ifeq ($(findstring -DCRYPTOPP_COVERAGE,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_COVERAGE
endif # CRYPTOPP_COVERAGE
ifeq ($(findstring -coverage,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -coverage
endif # -coverage
endif # GCC code coverage
# gcov code coverage for Travis. Issue 'make codecov'.
ifneq ($(filter gcov codecov,$(MAKECMDGOALS)),)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-g%=-g3)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-O%=-O1)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-xO%=-xO1)
ifeq ($(findstring -DCRYPTOPP_COVERAGE,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_COVERAGE
endif # CRYPTOPP_COVERAGE
ifeq ($(findstring -coverage,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -coverage
endif # -coverage
endif # GCC code coverage
# Valgrind testing. Issue 'make valgrind'.
ifneq ($(filter valgrind,$(MAKECMDGOALS)),)
# Tune flags; see http://valgrind.org/docs/manual/quick-start.html
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-g%=-g3)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-O%=-O1)
CRYPTOPP_CXXFLAGS := $(CRYPTOPP_CXXFLAGS:-xO%=-xO1)
ifeq ($(findstring -DCRYPTOPP_COVERAGE,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -DCRYPTOPP_COVERAGE
endif # -DCRYPTOPP_COVERAGE
endif # Valgrind
# Debug testing on GNU systems. Triggered by -DDEBUG.
# Newlib test due to http://sourceware.org/bugzilla/show_bug.cgi?id=20268
ifneq ($(filter -DDEBUG -DDEBUG=1,$(CXXFLAGS)),)
TPROG = TestPrograms/test_cxx.cpp
TOPT =
USING_GLIBCXX := $(shell $(CXX)$(CXXFLAGS) -E $(TPROG) -c 2>&1 | $(GREP) -i -c "__GLIBCXX__")
ifneq ($(USING_GLIBCXX),0)
ifeq ($(HAS_NEWLIB),0)
ifeq ($(findstring -D_GLIBCXX_DEBUG,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -D_GLIBCXX_DEBUG
endif # CRYPTOPP_CXXFLAGS
endif # HAS_NEWLIB
endif # USING_GLIBCXX
ifeq ($(XLC_COMPILER),1)
TPROG = TestPrograms/test_cxx.cpp
TOPT = -qheapdebug -qro
HAVE_OPT = $(shell $(TCOMMAND) 2>&1 | wc -w)
ifeq ($(strip $(HAVE_OPT)),0)
CRYPTOPP_CXXFLAGS += -qheapdebug -qro
endif # CRYPTOPP_CXXFLAGS
endif # XLC_COMPILER
endif # Debug build
# Dead code stripping. Issue 'make lean'.
ifeq ($(findstring lean,$(MAKECMDGOALS)),lean)
ifeq ($(findstring -ffunction-sections,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -ffunction-sections
endif # CRYPTOPP_CXXFLAGS
ifeq ($(findstring -fdata-sections,$(CXXFLAGS)),)
CRYPTOPP_CXXFLAGS += -fdata-sections
endif # CRYPTOPP_CXXFLAGS
ifneq ($(IS_DARWIN),0)
ifeq ($(findstring -Wl,-dead_strip,$(LDFLAGS)),)
CRYPTOPP_LDFLAGS += -Wl,-dead_strip
endif # CRYPTOPP_CXXFLAGS
else # BSD, Linux and Unix
ifeq ($(findstring -Wl,--gc-sections,$(LDFLAGS)),)
CRYPTOPP_LDFLAGS += -Wl,--gc-sections
endif # LDFLAGS
endif # MAKECMDGOALS
endif # Dead code stripping
# For Shared Objects, Diff, Dist/Zip rules
LIB_VER := $(shell $(GREP) "define CRYPTOPP_VERSION" config_ver.h | cut -d" " -f 3)
LIB_MAJOR := $(shell echo $(LIB_VER) | cut -c 1)
LIB_MINOR := $(shell echo $(LIB_VER) | cut -c 2)
LIB_PATCH := $(shell echo $(LIB_VER) | cut -c 3)
ifeq ($(strip $(LIB_PATCH)),)
LIB_PATCH := 0
endif
ifeq ($(HAS_SOLIB_VERSION),1)
# Different patchlevels and minors are compatible since 6.1
SOLIB_COMPAT_SUFFIX=.$(LIB_MAJOR)
# Linux uses -Wl,-soname
ifneq ($(IS_LINUX)$(IS_HURD),00)
# Linux uses full version suffix for shared library
SOLIB_VERSION_SUFFIX=.$(LIB_MAJOR).$(LIB_MINOR).$(LIB_PATCH)
SOLIB_FLAGS=-Wl,-soname,libcryptopp.so$(SOLIB_COMPAT_SUFFIX)
endif
# Solaris uses -Wl,-h
ifeq ($(IS_SUN),1)
# Solaris uses major version suffix for shared library, but we use major.minor
# The minor version allows previous version to remain and not overwritten.
# https://blogs.oracle.com/solaris/how-to-name-a-solaris-shared-object-v2
SOLIB_VERSION_SUFFIX=.$(LIB_MAJOR).$(LIB_MINOR)
SOLIB_FLAGS=-Wl,-h,libcryptopp.so$(SOLIB_COMPAT_SUFFIX)
endif
endif # HAS_SOLIB_VERSION
###########################################################
##### Temp file cleanup #####
###########################################################
# After this point no more test programs should be run.
# https://github.com/weidai11/cryptopp/issues/738
ifeq ($(findstring /dev/null,$(TOUT)),)
# $(info TOUT is not /dev/null, cleaning $(TOUT))
ifeq ($(wildcard $(TOUT)),$(TOUT))
UNUSED := $(shell $(RM) $(TOUT) 2>/dev/null)
endif
ifeq ($(wildcard $(TOUT).dSYM/),$(TOUT).dSYM/)
UNUSED := $(shell $(RM) -r $(TOUT).dSYM/ 2>/dev/null)
endif
endif
###########################################################
##### Source and object files #####
###########################################################
# List cryptlib.cpp first, then cpu.cpp, then integer.cpp to tame C++ static initialization problems.
SRCS := cryptlib.cpp cpu.cpp integer.cpp $(filter-out cryptlib.cpp cpu.cpp integer.cpp pch.cpp simple.cpp,$(sort $(wildcard *.cpp)))
# For Makefile.am; resource.h is Windows
INCL := $(filter-out resource.h,$(sort $(wildcard *.h)))
ifneq ($(IS_MINGW),0)
INCL += resource.h
endif
# Cryptogams source files. We couple to ARMv7.
# Limit to Linux. The source files target the GNU assembler.
# Also see https://www.cryptopp.com/wiki/Cryptogams.
ifeq ($(IS_ARM32)$(IS_LINUX),11)
ifeq ($(CLANG_COMPILER),1)
CRYPTOGAMS_ARMV4_FLAG = -march=armv7-a -Wa,--noexecstack
CRYPTOGAMS_ARMV4_THUMB_FLAG = -march=armv7-a -mthumb -Wa,--noexecstack
else
CRYPTOGAMS_ARMV4_FLAG = -march=armv7-a -Wa,--noexecstack
CRYPTOGAMS_ARMV4_THUMB_FLAG = -march=armv7-a -Wa,--noexecstack
endif
SRCS += aes_armv4.S sha1_armv4.S sha256_armv4.S sha512_armv4.S
endif
# Remove unneeded arch specific files to speed build time.
ifeq ($(IS_PPC32)$(IS_PPC64),00)
SRCS := $(filter-out ppc_%,$(SRCS))
endif
ifeq ($(IS_ARM32)$(IS_ARMV8),00)
SRCS := $(filter-out arm_%,$(SRCS))
SRCS := $(filter-out neon_%,$(SRCS))
endif
ifeq ($(IS_X86)$(IS_X32)$(IS_X64),000)
SRCS := $(filter-out sse_%,$(SRCS))
endif
# List cryptlib.cpp first, then cpu.cpp, then integer.cpp to tame C++ static initialization problems.
OBJS := $(SRCS:.cpp=.o)
OBJS := $(OBJS:.S=.o)
# List test.cpp first to tame C++ static initialization problems.
TESTSRCS := adhoc.cpp test.cpp bench1.cpp bench2.cpp bench3.cpp datatest.cpp dlltest.cpp fipsalgt.cpp validat0.cpp validat1.cpp validat2.cpp validat3.cpp validat4.cpp validat5.cpp validat6.cpp validat7.cpp validat8.cpp validat9.cpp validat10.cpp regtest1.cpp regtest2.cpp regtest3.cpp regtest4.cpp
TESTINCL := bench.h factory.h validate.h
# Test objects
TESTOBJS := $(TESTSRCS:.cpp=.o)
LIBOBJS := $(filter-out $(TESTOBJS),$(OBJS))
# In Crypto++ 5.6.2 these were the source and object files for the FIPS DLL.
# Since the library is on the Historical Validation List we add all files.
# The 5.6.2 list is at https://github.com/weidai11/cryptopp/blob/789f81f048c9.
DLLSRCS := $(SRCS)
DLLOBJS := $(DLLSRCS:.cpp=.export.o)
DLLOBJS := $(DLLOBJS:.S=.export.o)
# Import lib testing
LIBIMPORTOBJS := $(LIBOBJS:.o=.import.o)
TESTIMPORTOBJS := $(TESTOBJS:.o=.import.o)
DLLTESTOBJS := dlltest.dllonly.o
# Clean recipe, Issue 998. Don't filter-out some artifacts from the list of objects
# The *.S is a hack. It makes the ASM appear like C++ so the object files make the CLEAN_OBJS list
CLEAN_SRCS := $(wildcard *.cpp) $(patsubst %.S,%.cpp,$(wildcard *.S))
CLEAN_OBJS := $(CLEAN_SRCS:.cpp=.o) $(CLEAN_SRCS:.cpp=.import.o) $(CLEAN_SRCS:.cpp=.export.o)
###########################################################
##### Add our flags to user flags #####
###########################################################
# This ensures we don't add flags when the user forbids
# use of customary library flags, like -fPIC. Make will
# ignore this assignment when CXXFLAGS is passed as an
# argument to the make program: make CXXFLAGS="..."
CPPFLAGS := $(strip $(CRYPTOPP_CPPFLAGS) $(CPPFLAGS))
CXXFLAGS := $(strip $(CRYPTOPP_CXXFLAGS) $(CXXFLAGS))
LDFLAGS := $(strip $(CRYPTOPP_LDFLAGS) $(LDFLAGS))
###########################################################
##### Targets and Recipes #####
###########################################################
# Default builds program with static library only
.PHONY: default
default: cryptest.exe
.PHONY: all static dynamic
all: static dynamic cryptest.exe
ifneq ($(IS_DARWIN),0)
static: libcryptopp.a
shared dynamic dylib: libcryptopp.dylib
else
static: libcryptopp.a
shared dynamic: libcryptopp.so$(SOLIB_VERSION_SUFFIX)
endif
# CXXFLAGS are tuned earlier.
.PHONY: native no-asm asan ubsan
native no-asm asan ubsan: cryptest.exe
# CXXFLAGS are tuned earlier. Applications must use linker flags
# -Wl,--gc-sections (Linux and Unix) or -Wl,-dead_strip (OS X)
.PHONY: lean
lean: static dynamic cryptest.exe
# May want to export CXXFLAGS="-g3 -O1"
.PHONY: lcov coverage
lcov coverage: cryptest.exe
@-$(RM) -r ./TestCoverage/
lcov --base-directory . --directory . --zerocounters -q
./cryptest.exe v
./cryptest.exe tv all
./cryptest.exe b 0.25
lcov --base-directory . --directory . -c -o cryptest.info
lcov --remove cryptest.info "adhoc.*" -o cryptest.info
lcov --remove cryptest.info "fips140.*" -o cryptest.info
lcov --remove cryptest.info "*test.*" -o cryptest.info
lcov --remove cryptest.info "/usr/*" -o cryptest.info
genhtml -o ./TestCoverage/ -t "Crypto++ test coverage" --num-spaces 4 cryptest.info
# Travis CI and CodeCov rule
.PHONY: gcov codecov
gcov codecov: cryptest.exe
@-$(RM) -r ./TestCoverage/
./cryptest.exe v
./cryptest.exe tv all
gcov -r $(SRCS)
# Should use CXXFLAGS="-g3 -O1"
.PHONY: valgrind
valgrind: cryptest.exe
valgrind --track-origins=yes --suppressions=cryptopp.supp ./cryptest.exe v
.PHONY: test check
test check: cryptest.exe
./cryptest.exe v
# Used to generate list of source files for Autotools, CMakeList, Android.mk, etc
.PHONY: sources
sources: adhoc.cpp
$(info ***** Library sources *****)
$(info $(filter-out $(TESTSRCS),$(SRCS)))
$(info )
$(info ***** Library headers *****)
$(info $(filter-out $(TESTINCL),$(INCL)))
$(info )
$(info ***** Test sources *****)
$(info $(TESTSRCS))
$(info )
$(info ***** Test headers *****)
$(info $(TESTINCL))
# Directory we want (can't specify on Doygen command line)
DOCUMENT_DIRECTORY := ref$(LIB_VER)
# Directory Doxygen uses (specified in Doygen config file)
ifeq ($(wildcard Doxyfile),Doxyfile)
DOXYGEN_DIRECTORY := $(strip $(shell $(GREP) "OUTPUT_DIRECTORY" Doxyfile | $(GREP) -v "\#" | cut -d "=" -f 2))
endif
# Default directory (in case its missing in the config file)
ifeq ($(strip $(DOXYGEN_DIRECTORY)),)
DOXYGEN_DIRECTORY := html-docs
endif
# Builds the documentation. Directory name is ref563, ref570, etc.
.PHONY: docs html
docs html:
@-$(RM) -r $(DOXYGEN_DIRECTORY)/ $(DOCUMENT_DIRECTORY)/ html-docs/
@-$(RM) CryptoPPRef.zip
doxygen Doxyfile -d CRYPTOPP_DOXYGEN_PROCESSING
$(MV) $(DOXYGEN_DIRECTORY)/ $(DOCUMENT_DIRECTORY)/
zip -9 CryptoPPRef.zip -x ".*" -x "*/.*" -r $(DOCUMENT_DIRECTORY)/
.PHONY: clean
clean:
-$(RM) adhoc.cpp.o adhoc.cpp.proto.o $(CLEAN_OBJS) rdrand-*.o
@-$(RM) libcryptopp.a libcryptopp.dylib cryptopp.dll libcryptopp.dll.a libcryptopp.import.a
@-$(RM) libcryptopp.so libcryptopp.so$(SOLIB_COMPAT_SUFFIX) libcryptopp.so$(SOLIB_VERSION_SUFFIX)
@-$(RM) cryptest.exe dlltest.exe cryptest.import.exe cryptest.dat ct et
@-$(RM) *.la *.lo *.gcov *.gcno *.gcda *.stackdump core core-*
@-$(RM) /tmp/adhoc.exe
@-$(RM) -r /tmp/cryptopp_test/
@-$(RM) -r *.exe.dSYM/ *.dylib.dSYM/
@-$(RM) -r cov-int/
.PHONY: autotools-clean
autotools-clean:
@-$(RM) -f configure.ac configure configure.in Makefile.am Makefile.in Makefile
@-$(RM) -f config.guess config.status config.sub config.h.in compile depcomp
@-$(RM) -f install-sh stamp-h1 ar-lib *.lo *.la *.m4 local.* lt*.sh missing
@-$(RM) -f cryptest cryptestcwd libtool* libcryptopp.la libcryptopp.pc*
@-$(RM) -rf build-aux/ m4/ auto*.cache/ .deps/ .libs/
.PHONY: cmake-clean
cmake-clean:
@-$(RM) -f cryptopp-config.cmake CMakeLists.txt
@-$(RM) -rf cmake_build/
.PHONY: android-clean
android-clean:
@-$(RM) -f $(patsubst %_simd.cpp,%_simd.cpp.neon,$(wildcard *_simd.cpp))
@-$(RM) -rf obj/
.PHONY: distclean
distclean: clean autotools-clean cmake-clean android-clean
-$(RM) adhoc.cpp adhoc.cpp.copied GNUmakefile.deps benchmarks.html cryptest.txt
-$(RM) cryptest_all.info cryptest_debug.info cryptest_noasm.info cryptest_base.info cryptest.info cryptest_release.info
@-$(RM) cryptest-*.txt cryptopp.tgz libcryptopp.pc *.o *.bc *.ii *~
@-$(RM) -r cryptlib.lib cryptest.exe *.suo *.sdf *.pdb Win32/ x64/ ipch/
@-$(RM) -r $(LIBOBJS:.o=.obj) $(TESTOBJS:.o=.obj)
@-$(RM) -r $(LIBOBJS:.o=.lst) $(TESTOBJS:.o=.lst)
@-$(RM) -r TestCoverage/ ref*/
@-$(RM) cryptopp$(LIB_VER)\.* CryptoPPRef.zip
# Install cryptest.exe, libcryptopp.a, libcryptopp.so and libcryptopp.pc.
# The library install was broken-out into its own recipe at GH #653.
.PHONY: install
install: cryptest.exe install-lib
@-$(MKDIR) $(DESTDIR)$(BINDIR)
$(CP) cryptest.exe $(DESTDIR)$(BINDIR)
$(CHMOD) u=rwx,go=rx $(DESTDIR)$(BINDIR)/cryptest.exe
@-$(MKDIR) $(DESTDIR)$(DATADIR)/cryptopp/TestData
@-$(MKDIR) $(DESTDIR)$(DATADIR)/cryptopp/TestVectors
$(CP) TestData/*.dat $(DESTDIR)$(DATADIR)/cryptopp/TestData
$(CHMOD) u=rw,go=r $(DESTDIR)$(DATADIR)/cryptopp/TestData/*.dat
$(CP) TestVectors/*.txt $(DESTDIR)$(DATADIR)/cryptopp/TestVectors
$(CHMOD) u=rw,go=r $(DESTDIR)$(DATADIR)/cryptopp/TestVectors/*.txt
# A recipe to install only the library, and not cryptest.exe. Also
# see https://github.com/weidai11/cryptopp/issues/653. Some users
# already have a libcryptopp.pc. Install the *.pc file if the file
# is present. If you want one, then issue 'make libcryptopp.pc'.
.PHONY: install-lib
install-lib:
@-$(MKDIR) $(DESTDIR)$(INCLUDEDIR)/cryptopp
$(CP) *.h $(DESTDIR)$(INCLUDEDIR)/cryptopp
$(CHMOD) u=rw,go=r $(DESTDIR)$(INCLUDEDIR)/cryptopp/*.h
ifneq ($(wildcard libcryptopp.a),)
@-$(MKDIR) $(DESTDIR)$(LIBDIR)
$(CP) libcryptopp.a $(DESTDIR)$(LIBDIR)
$(CHMOD) u=rw,go=r $(DESTDIR)$(LIBDIR)/libcryptopp.a
endif
ifneq ($(wildcard libcryptopp.dylib),)
@-$(MKDIR) $(DESTDIR)$(LIBDIR)
$(CP) libcryptopp.dylib $(DESTDIR)$(LIBDIR)
$(CHMOD) u=rwx,go=rx $(DESTDIR)$(LIBDIR)/libcryptopp.dylib
-install_name_tool -id $(DESTDIR)$(LIBDIR)/libcryptopp.dylib $(DESTDIR)$(LIBDIR)/libcryptopp.dylib
endif
ifneq ($(wildcard libcryptopp.so$(SOLIB_VERSION_SUFFIX)),)
@-$(MKDIR) $(DESTDIR)$(LIBDIR)
$(CP) libcryptopp.so$(SOLIB_VERSION_SUFFIX) $(DESTDIR)$(LIBDIR)
$(CHMOD) u=rwx,go=rx $(DESTDIR)$(LIBDIR)/libcryptopp.so$(SOLIB_VERSION_SUFFIX)
ifeq ($(HAS_SOLIB_VERSION),1)
-$(LN) libcryptopp.so$(SOLIB_VERSION_SUFFIX) $(DESTDIR)$(LIBDIR)/libcryptopp.so
-$(LN) libcryptopp.so$(SOLIB_VERSION_SUFFIX) $(DESTDIR)$(LIBDIR)/libcryptopp.so$(SOLIB_COMPAT_SUFFIX)
$(LDCONF) $(DESTDIR)$(LIBDIR)
endif
endif
ifneq ($(wildcard libcryptopp.pc),)
@-$(MKDIR) $(DESTDIR)$(LIBDIR)/pkgconfig
$(CP) libcryptopp.pc $(DESTDIR)$(LIBDIR)/pkgconfig
$(CHMOD) u=rw,go=r $(DESTDIR)$(LIBDIR)/pkgconfig/libcryptopp.pc
endif
.PHONY: remove uninstall
remove uninstall:
-$(RM) -r $(DESTDIR)$(INCLUDEDIR)/cryptopp
-$(RM) $(DESTDIR)$(LIBDIR)/libcryptopp.a
-$(RM) $(DESTDIR)$(BINDIR)/cryptest.exe
ifneq ($(wildcard $(DESTDIR)$(LIBDIR)/libcryptopp.dylib),)
-$(RM) $(DESTDIR)$(LIBDIR)/libcryptopp.dylib
endif
ifneq ($(wildcard $(DESTDIR)$(LIBDIR)/libcryptopp.so),)
-$(RM) $(DESTDIR)$(LIBDIR)/libcryptopp.so
endif
@-$(RM) $(DESTDIR)$(LIBDIR)/libcryptopp.so$(SOLIB_VERSION_SUFFIX)
@-$(RM) $(DESTDIR)$(LIBDIR)/libcryptopp.so$(SOLIB_COMPAT_SUFFIX)
@-$(RM) $(DESTDIR)$(LIBDIR)/pkgconfig/libcryptopp.pc
@-$(RM) -r $(DESTDIR)$(DATADIR)/cryptopp
libcryptopp.a: $(LIBOBJS) | osx_warning
$(AR) $(ARFLAGS) $@ $(LIBOBJS)
ifeq ($(IS_SUN),0)
$(RANLIB) $@
endif
ifeq ($(HAS_SOLIB_VERSION),1)
.PHONY: libcryptopp.so
libcryptopp.so: libcryptopp.so$(SOLIB_VERSION_SUFFIX) | so_warning
endif
libcryptopp.so$(SOLIB_VERSION_SUFFIX): $(LIBOBJS)
ifeq ($(XLC_COMPILER),1)
$(CXX) -qmkshrobj $(SOLIB_FLAGS) -o $@ $(CXXFLAGS) $(LDFLAGS) $(LIBOBJS) $(LDLIBS)
else
$(CXX) -shared $(SOLIB_FLAGS) -o $@ $(CXXFLAGS) $(LDFLAGS) $(LIBOBJS) $(LDLIBS)
endif
ifeq ($(HAS_SOLIB_VERSION),1)
-$(LN) libcryptopp.so$(SOLIB_VERSION_SUFFIX) libcryptopp.so
-$(LN) libcryptopp.so$(SOLIB_VERSION_SUFFIX) libcryptopp.so$(SOLIB_COMPAT_SUFFIX)
endif
libcryptopp.dylib: $(LIBOBJS) | osx_warning
$(CXX) -dynamiclib -o $@ $(CXXFLAGS) -install_name "$@" -current_version "$(LIB_MAJOR).$(LIB_MINOR).$(LIB_PATCH)" -compatibility_version "$(LIB_MAJOR).$(LIB_MINOR)" -headerpad_max_install_names $(LDFLAGS) $(LIBOBJS)
cryptest.exe: $(LINK_LIBRARY) $(TESTOBJS) | osx_warning
$(CXX) -o $@ $(CXXFLAGS) $(TESTOBJS) $(LINK_LIBRARY_PATH)$(LINK_LIBRARY) $(LDFLAGS) $(LDLIBS)
# Makes it faster to test changes
nolib: $(OBJS)
$(CXX) -o ct $(CXXFLAGS) $(OBJS) $(LDFLAGS) $(LDLIBS)
dll: cryptest.import.exe dlltest.exe
cryptopp.dll: $(DLLOBJS)
$(CXX) -shared -o $@ $(CXXFLAGS) $(DLLOBJS) $(LDFLAGS) $(LDLIBS) -Wl,--out-implib=libcryptopp.dll.a
libcryptopp.import.a: $(LIBIMPORTOBJS)
$(AR) $(ARFLAGS) $@ $(LIBIMPORTOBJS)
ifeq ($(IS_SUN),0)
$(RANLIB) $@
endif
cryptest.import.exe: cryptopp.dll libcryptopp.import.a $(TESTIMPORTOBJS)
$(CXX) -o $@ $(CXXFLAGS) $(TESTIMPORTOBJS) -L. -lcryptopp.dll -lcryptopp.import $(LDFLAGS) $(LDLIBS)
dlltest.exe: cryptopp.dll $(DLLTESTOBJS)
$(CXX) -o $@ $(CXXFLAGS) $(DLLTESTOBJS) -L. -lcryptopp.dll $(LDFLAGS) $(LDLIBS)
# Some users already have a libcryptopp.pc. We install it if the file
# is present. If you want one, then issue 'make libcryptopp.pc'. Be sure
# to use/verify PREFIX and LIBDIR below after writing the file.
cryptopp.pc libcryptopp.pc:
@echo '# Crypto++ package configuration file' > libcryptopp.pc
@echo '' >> libcryptopp.pc
@echo 'prefix=$(PC_PREFIX)' >> libcryptopp.pc
@echo 'libdir=$(PC_LIBDIR)' >> libcryptopp.pc
@echo 'includedir=$(PC_INCLUDEDIR)' >> libcryptopp.pc
@echo 'datadir=$(PC_DATADIR)' >> libcryptopp.pc
@echo '' >> libcryptopp.pc
@echo 'Name: Crypto++' >> libcryptopp.pc
@echo 'Description: Crypto++ cryptographic library' >> libcryptopp.pc
@echo 'Version: 8.7' >> libcryptopp.pc
@echo 'URL: https://cryptopp.com/' >> libcryptopp.pc
@echo '' >> libcryptopp.pc
@echo 'Cflags: -I$${includedir}' >> libcryptopp.pc
@echo 'Libs: -L$${libdir} -lcryptopp' >> libcryptopp.pc
# This recipe prepares the distro files
TEXT_FILES := *.h *.cpp *.S GNUmakefile GNUmakefile-cross License.txt Readme.txt Install.txt Filelist.txt Doxyfile cryptest* cryptlib* dlltest* cryptdll* *.sln *.vcxproj *.filters cryptopp.rc TestVectors/*.txt TestData/*.dat TestPrograms/*.cpp
EXEC_FILES := TestScripts/*.sh TestScripts/*.cmd
EXEC_DIRS := TestData/ TestVectors/ TestScripts/ TestPrograms/
ifeq ($(wildcard Filelist.txt),Filelist.txt)
DIST_FILES := $(shell cat Filelist.txt)
endif
.PHONY: trim
trim:
ifneq ($(IS_DARWIN),0)
$(SED) -i '' -e's/[[:space:]]*$$//' *.supp *.txt .*.yml *.h *.cpp *.asm *.S
$(SED) -i '' -e's/[[:space:]]*$$//' *.sln *.vcxproj *.filters GNUmakefile GNUmakefile-cross
$(SED) -i '' -e's/[[:space:]]*$$//' TestData/*.dat TestVectors/*.txt TestPrograms/*.cpp TestScripts/*.*
make convert
else
$(SED) -i -e's/[[:space:]]*$$//' *.supp *.txt .*.yml *.h *.cpp *.asm *.S
$(SED) -i -e's/[[:space:]]*$$//' *.sln *.vcxproj *.filters GNUmakefile GNUmakefile-cross
$(SED) -i -e's/[[:space:]]*$$//' TestData/*.dat TestVectors/*.txt TestPrograms/*.cpp TestScripts/*.*
make convert
endif
.PHONY: convert
convert:
@-$(CHMOD) u=rwx,go=rx $(EXEC_DIRS)
@-$(CHMOD) u=rw,go=r $(TEXT_FILES) *.supp .*.yml *.asm *.zip TestVectors/*.txt TestData/*.dat TestPrograms/*.cpp
@-$(CHMOD) u=rwx,go=rx $(EXEC_FILES) *.sh
-unix2dos --keepdate --quiet $(TEXT_FILES) .*.yml *.asm TestScripts/*.cmd TestScripts/*.txt TestScripts/*.cpp
-dos2unix --keepdate --quiet GNUmakefile GNUmakefile-cross *.sh *.S *.supp *.mapfile TestScripts/*.sh
ifneq ($(IS_DARWIN),0)
@-xattr -c *
endif
# Build the ZIP file with source files. No documentation.
.PHONY: zip dist
zip dist: | distclean convert
zip -q -9 cryptopp$(LIB_VER).zip $(DIST_FILES)
# Build the ISO to transfer the ZIP to old distros via CDROM
.PHONY: iso
iso: | zip
ifneq ($(IS_DARWIN),0)
$(MKDIR) $(PWD)/cryptopp$(LIB_VER)
$(CP) cryptopp$(LIB_VER).zip $(PWD)/cryptopp$(LIB_VER)
hdiutil makehybrid -iso -joliet -o cryptopp$(LIB_VER).iso $(PWD)/cryptopp$(LIB_VER)
@-$(RM) -r $(PWD)/cryptopp$(LIB_VER)
else ifneq ($(IS_LINUX)$(IS_HURD),00)
$(MKDIR) $(PWD)/cryptopp$(LIB_VER)
$(CP) cryptopp$(LIB_VER).zip $(PWD)/cryptopp$(LIB_VER)
genisoimage -q -o cryptopp$(LIB_VER).iso $(PWD)/cryptopp$(LIB_VER)
@-$(RM) -r $(PWD)/cryptopp$(LIB_VER)
endif
# CRYPTOPP_CPU_FREQ in GHz
CRYPTOPP_CPU_FREQ ?= 0.0
.PHONY: bench benchmark benchmarks
bench benchmark benchmarks: cryptest.exe
@-$(RM) -f benchmarks.html
./cryptest.exe b 2 $(CRYPTOPP_CPU_FREQ)
adhoc.cpp: adhoc.cpp.proto
ifeq ($(wildcard adhoc.cpp),)
cp adhoc.cpp.proto adhoc.cpp
else
touch adhoc.cpp
endif
# Include dependencies, if present. You must issue `make deps` to create them.
ifeq ($(wildcard GNUmakefile.deps),GNUmakefile.deps)
-include GNUmakefile.deps
endif # Dependencies
# A few recipes trigger warnings for -std=c++11 and -stdlib=c++
NOSTD_CXXFLAGS=$(filter-out -stdlib=%,$(filter-out -std=%,$(CXXFLAGS)))
# Cryptogams ARM asm implementation. AES needs -mthumb for Clang
aes_armv4.o : aes_armv4.S
$(CXX) $(strip $(CPPFLAGS) $(NOSTD_CXXFLAGS) $(CRYPTOGAMS_ARMV4_THUMB_FLAG) -c) $<
# SSSE3 or NEON available
aria_simd.o : aria_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(ARIA_FLAG) -c) $<
# SSE, NEON or POWER7 available
blake2s_simd.o : blake2s_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(BLAKE2S_FLAG) -c) $<
# SSE, NEON or POWER8 available
blake2b_simd.o : blake2b_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(BLAKE2B_FLAG) -c) $<
# SSE2 or NEON available
chacha_simd.o : chacha_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(CHACHA_FLAG) -c) $<
# AVX2 available
chacha_avx.o : chacha_avx.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(CHACHA_AVX2_FLAG) -c) $<
# SSSE3 available
cham_simd.o : cham_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(CHAM_FLAG) -c) $<
# SSE4.2 or ARMv8a available
crc_simd.o : crc_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(CRC_FLAG) -c) $<
# Power9 available
darn.o : darn.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(DARN_FLAG) -c) $<
# SSE2 on i686
donna_sse.o : donna_sse.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(SSE2_FLAG) -c) $<
# Carryless multiply
gcm_simd.o : gcm_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(GCM_FLAG) -c) $<
# Carryless multiply
gf2n_simd.o : gf2n_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(GF2N_FLAG) -c) $<
# SSSE3 available
keccak_simd.o : keccak_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(KECCAK_FLAG) -c) $<
# SSSE3 available
lea_simd.o : lea_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(LEA_FLAG) -c) $<
# SSSE3 available
lsh256_sse.o : lsh256_sse.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(LSH256_FLAG) -c) $<
# AVX2 available
lsh256_avx.o : lsh256_avx.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(LSH256_AVX2_FLAG) -c) $<
# SSSE3 available
lsh512_sse.o : lsh512_sse.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(LSH512_FLAG) -c) $<
# AVX2 available
lsh512_avx.o : lsh512_avx.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(LSH512_AVX2_FLAG) -c) $<
# NEON available
neon_simd.o : neon_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(NEON_FLAG) -c) $<
# AltiVec available
ppc_simd.o : ppc_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(ALTIVEC_FLAG) -c) $<
# Power7 available
ppc_power7.o : ppc_power7.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(POWER7_FLAG) -c) $<
# Power8 available
ppc_power8.o : ppc_power8.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(POWER8_FLAG) -c) $<
# Power9 available
ppc_power9.o : ppc_power9.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(POWER9_FLAG) -c) $<
# AESNI or ARMv7a/ARMv8a available
rijndael_simd.o : rijndael_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(AES_FLAG) -c) $<
# SSE4.2/SHA-NI or ARMv8a available
sha_simd.o : sha_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(SHA_FLAG) -c) $<
# Cryptogams SHA1 asm implementation.
sha1_armv4.o : sha1_armv4.S
$(CXX) $(strip $(CPPFLAGS) $(NOSTD_CXXFLAGS) $(CRYPTOGAMS_ARMV4_FLAG) -c) $<
# Cryptogams SHA256 asm implementation.
sha256_armv4.o : sha256_armv4.S
$(CXX) $(strip $(CPPFLAGS) $(NOSTD_CXXFLAGS) $(CRYPTOGAMS_ARMV4_FLAG) -c) $<
# Cryptogams SHA512 asm implementation.
sha512_armv4.o : sha512_armv4.S
$(CXX) $(strip $(CPPFLAGS) $(NOSTD_CXXFLAGS) $(CRYPTOGAMS_ARMV4_FLAG) -c) $<
sha3_simd.o : sha3_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(SHA3_FLAG) -c) $<
# SSE4.2/SHA-NI or ARMv8a available
shacal2_simd.o : shacal2_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(SHA_FLAG) -c) $<
# SSSE3, NEON or POWER8 available
simon128_simd.o : simon128_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(SIMON128_FLAG) -c) $<
# SSSE3, NEON or POWER8 available
speck128_simd.o : speck128_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(SPECK128_FLAG) -c) $<
# ARMv8.4 available
sm3_simd.o : sm3_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(SM3_FLAG) -c) $<
# AESNI available
sm4_simd.o : sm4_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(SM4_FLAG) -c) $<
# IBM XLC -O3 optimization bug
ifeq ($(XLC_COMPILER),1)
sm3.o : sm3.cpp
$(CXX) $(strip $(CPPFLAGS) $(subst -O3,-O2,$(CXXFLAGS)) -c) $<
donna_32.o : donna_32.cpp
$(CXX) $(strip $(CPPFLAGS) $(subst -O3,-O2,$(CXXFLAGS)) -c) $<
donna_64.o : donna_64.cpp
$(CXX) $(strip $(CPPFLAGS) $(subst -O3,-O2,$(CXXFLAGS)) -c) $<
endif
# SSE2 on i686
sse_simd.o : sse_simd.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(SSE2_FLAG) -c) $<
# Don't build Rijndael with UBsan. Too much noise due to unaligned data accesses.
ifneq ($(findstring -fsanitize=undefined,$(CXXFLAGS)),)
rijndael.o : rijndael.cpp
$(CXX) $(strip $(subst -fsanitize=undefined,,$(CXXFLAGS)) -c) $<
endif
# Only use CRYPTOPP_DATA_DIR if its not set in CXXFLAGS
ifeq ($(findstring -DCRYPTOPP_DATA_DIR, $(CXXFLAGS)),)
ifneq ($(strip $(CRYPTOPP_DATA_DIR)),)
validat%.o : validat%.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) -DCRYPTOPP_DATA_DIR=\"$(CRYPTOPP_DATA_DIR)\" -c) $<
bench%.o : bench%.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) -DCRYPTOPP_DATA_DIR=\"$(CRYPTOPP_DATA_DIR)\" -c) $<
datatest.o : datatest.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) -DCRYPTOPP_DATA_DIR=\"$(CRYPTOPP_DATA_DIR)\" -c) $<
test.o : test.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) -DCRYPTOPP_DATA_DIR=\"$(CRYPTOPP_DATA_DIR)\" -c) $<
endif
endif
validat1.o : validat1.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) $(ALTIVEC_FLAG) -c) $<
%.dllonly.o : %.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) -DCRYPTOPP_DLL_ONLY -c) $< -o $@
%.import.o : %.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) -DCRYPTOPP_IMPORTS -c) $< -o $@
%.export.o : %.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) -DCRYPTOPP_EXPORTS -c) $< -o $@
%.bc : %.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) -c) $<
%.o : %.cpp
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS) -c) $<
.PHONY: so_warning
so_warning:
ifeq ($(HAS_SOLIB_VERSION),1)
$(info )
$(info WARNING: Only the symlinks to the shared-object library have been updated.)
$(info WARNING: If the library is installed in a system directory you will need)
$(info WARNING: to run 'ldconfig' to update the shared-object library cache.)
$(info )
endif
.PHONY: osx_warning
osx_warning:
ifeq ($(IS_DARWIN)$(CLANG_COMPILER),11)
ifeq ($(findstring -stdlib=libc++,$(CRYPTOPP_CXXFLAGS)$(CXXFLAGS)),)
$(info )
$(info INFO: Crypto++ was built without LLVM's libc++. If you are using the library)
$(info INFO: with modern Xcode, then you should add -stdlib=libc++ to CXXFLAGS. It is)
$(info INFO: already present in the makefile, and you only need to uncomment it.)
$(info )
endif
endif
.PHONY: dep deps depend
dep deps depend GNUmakefile.deps:
$(CXX) $(strip $(CPPFLAGS) $(CXXFLAGS)) -MM *.cpp > GNUmakefile.deps