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|
#! gmake
#
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
#######################################################################
# (1) Include initial platform-independent assignments (MANDATORY). #
#######################################################################
include manifest.mn
#######################################################################
# (2) Include "global" configuration information. (OPTIONAL) #
#######################################################################
include $(CORE_DEPTH)/coreconf/config.mk
#######################################################################
# (3) Include "component" configuration information. (OPTIONAL) #
#######################################################################
#######################################################################
# (4) Include "local" platform-dependent assignments (OPTIONAL). #
#######################################################################
include config.mk
# default for all platforms
# unset this on those that have multiple freebl libraries
FREEBL_BUILD_SINGLE_SHLIB = 1
ifdef USE_64
DEFINES += -DNSS_USE_64
endif
ifdef USE_ABI32_FPU
DEFINES += -DNSS_USE_ABI32_FPU
endif
ifeq ($(FREEBL_NO_DEPEND),1)
DEFINES += -DFREEBL_NO_DEPEND
STUBS_SRCS = stubs.c
endif
ifeq ($(FREEBL_LOWHASH),1)
DEFINES += -DFREEBL_LOWHASH
LOWHASH_SRCS = nsslowhash.c
LOWHASH_EXPORTS = nsslowhash.h
MAPFILE_SOURCE = freebl_hash_vector.def
NEED_STUB_BUILD = 1
else
MAPFILE_SOURCE = freebl.def
endif
ifdef USE_STUB_BUILD
CSRCS = lowhash_vector.c
SIMPLE_OBJS = $(CSRCS:.c=$(OBJ_SUFFIX))
OBJS = $(addprefix $(OBJDIR)/$(PROG_PREFIX), $(SIMPLE_OBJS))
ALL_TRASH := $(TARGETS) $(OBJS) $(OBJDIR) LOGS TAGS $(GARBAGE) \
$(NOSUCHFILE) so_locations
MAPFILE_SOURCE = freebl_hash.def
endif
# FREEBL_USE_PRELINK
#
# Most modern version of Linux support a speed optimization scheme where an
# application called prelink modifies programs and shared libraries to quickly
# load if they fit into an already designed address space. In short, prelink
# scans the list of programs and libraries on your system, assigns them a
# predefined space in the the address space, then provides the fixups to the
# library.
#
# The modification of the shared library is correctly detected by the freebl
# FIPS checksum scheme where we check a signed hash of the library against the
# library itself.
#
# The prelink command itself can reverse the process of modification and output
# the prestine shared library as it was before prelink made it's changes.
# This option tells Freebl could use prelink to output the original copy of
# the shared library before prelink modified it.
#
# FREEBL_PRELINK_COMMAND
#
# This is an optional environment variable which can override the default
# prelink command. It could be used on systems that did something similiar to
# prelink but used a different command and syntax. The only requirement is the
# program must take the library as the last argument, the program must output
# the original library to standard out, and the program does not need to take
# any quoted or imbedded spaces in its arguments (except the path to the
# library itself, which can have imbedded spaces or special characters).
#
ifdef FREEBL_USE_PRELINK
DEFINES += -DFREEBL_USE_PRELINK
ifdef LINUX
DEFINES += -D__GNU_SOURCE=1
endif
endif
ifdef NSS_NO_INIT_SUPPORT
DEFINES += -DNSS_NO_INIT_SUPPORT
endif
ifdef FREEBL_PRELINK_COMMAND
DEFINES +=-DFREEBL_PRELINK_COMMAND=\"$(FREEBL_PRELINK_COMMAND)\"
endif
# NSS_X86 means the target is a 32-bits x86 CPU architecture
# NSS_X64 means the target is a 64-bits 64 CPU architecture
# NSS_X86_OR_X64 means the target is either x86 or x64
ifeq (,$(filter-out i386 x386 x86 x86_64,$(CPU_ARCH)))
DEFINES += -DNSS_X86_OR_X64
ifneq (,$(USE_64)$(USE_X32))
DEFINES += -DNSS_X64
else
DEFINES += -DNSS_X86
endif
endif
ifeq ($(OS_TARGET),OSF1)
DEFINES += -DMP_ASSEMBLY_MULTIPLY -DMP_NO_MP_WORD
MPI_SRCS += mpvalpha.c
endif
ifeq (OS2,$(OS_TARGET))
ASFILES = mpi_x86_os2.s
DEFINES += -DMP_ASSEMBLY_MULTIPLY -DMP_ASSEMBLY_SQUARE
DEFINES += -DMP_ASSEMBLY_DIV_2DX1D
DEFINES += -DMP_USE_UINT_DIGIT -DMP_NO_MP_WORD
DEFINES += -DMP_IS_LITTLE_ENDIAN
endif
ifeq (,$(filter-out WINNT WIN95,$(OS_TARGET)))
ifndef USE_64
# 32-bit Windows
ifdef NS_USE_GCC
# Ideally, we want to use assembler
# ASFILES = mpi_x86.s
# DEFINES += -DMP_ASSEMBLY_MULTIPLY -DMP_ASSEMBLY_SQUARE \
# -DMP_ASSEMBLY_DIV_2DX1D
# but we haven't figured out how to make it work, so we are not
# using assembler right now.
ASFILES =
DEFINES += -DMP_NO_MP_WORD -DMP_USE_UINT_DIGIT
else
# MSVC
MPI_SRCS += mpi_x86_asm.c
DEFINES += -DMP_ASSEMBLY_MULTIPLY -DMP_ASSEMBLY_SQUARE
DEFINES += -DMP_ASSEMBLY_DIV_2DX1D -DMP_USE_UINT_DIGIT -DMP_NO_MP_WORD
ifdef BUILD_OPT
OPTIMIZER += -Ox # maximum optimization for freebl
endif
# The Intel AES assembly code requires Visual C++ 2010.
# if $(_MSC_VER) >= 1600 (Visual C++ 2010)
ifeq ($(firstword $(sort $(_MSC_VER) 1600)),1600)
DEFINES += -DUSE_HW_AES -DINTEL_GCM
ASFILES += intel-aes-x86-masm.asm intel-gcm-x86-masm.asm
EXTRA_SRCS += intel-gcm-wrap.c
ifeq ($(CLANG_CL),1)
INTEL_GCM_CLANG_CL = 1
endif
endif
endif
else
# -DMP_NO_MP_WORD
DEFINES += -DMP_IS_LITTLE_ENDIAN
ifdef NS_USE_GCC
# Ideally, we should use amd64 assembly code, but it's not yet mingw-w64
# compatible.
else
# MSVC
ifdef BUILD_OPT
OPTIMIZER += -Ox # maximum optimization for freebl
endif
ASFILES = arcfour-amd64-masm.asm mpi_amd64_masm.asm mp_comba_amd64_masm.asm
DEFINES += -DNSS_BEVAND_ARCFOUR -DMPI_AMD64 -DMP_ASSEMBLY_MULTIPLY
DEFINES += -DNSS_USE_COMBA
# The Intel AES assembly code requires Visual C++ 2010 (10.0). The _xgetbv
# compiler intrinsic function requires Visual C++ 2010 (10.0) SP1.
ifeq ($(_MSC_VER_GE_10SP1),1)
DEFINES += -DUSE_HW_AES -DINTEL_GCM
ASFILES += intel-aes-x64-masm.asm intel-gcm-x64-masm.asm
EXTRA_SRCS += intel-gcm-wrap.c
ifeq ($(CLANG_CL),1)
INTEL_GCM_CLANG_CL = 1
endif
endif
MPI_SRCS += mpi_amd64.c
endif
endif
endif
ifeq ($(OS_TARGET),IRIX)
ifeq ($(USE_N32),1)
ASFILES = mpi_mips.s
ifeq ($(NS_USE_GCC),1)
ASFLAGS = -Wp,-P -Wp,-traditional -O -mips3
else
ASFLAGS = -O -OPT:Olimit=4000 -dollar -fullwarn -xansi -n32 -mips3
endif
DEFINES += -DMP_ASSEMBLY_MULTIPLY -DMP_ASSEMBLY_SQUARE
DEFINES += -DMP_USE_UINT_DIGIT
endif
endif
ifeq ($(OS_TARGET),Darwin)
ifeq ($(CPU_ARCH),x86)
ASFILES = mpi_sse2.s
DEFINES += -DMP_USE_UINT_DIGIT
DEFINES += -DMP_ASSEMBLY_MULTIPLY -DMP_ASSEMBLY_SQUARE
DEFINES += -DMP_ASSEMBLY_DIV_2DX1D
endif
endif # Darwin
ifeq ($(OS_TARGET),Linux)
ifeq ($(CPU_ARCH),x86_64)
ASFILES = arcfour-amd64-gas.s mpi_amd64_gas.s
ASFLAGS += -fPIC -Wa,--noexecstack
DEFINES += -DNSS_BEVAND_ARCFOUR -DMPI_AMD64 -DMP_ASSEMBLY_MULTIPLY
DEFINES += -DNSS_USE_COMBA
DEFINES += -DMP_IS_LITTLE_ENDIAN
# DEFINES += -DMPI_AMD64_ADD
# comment the next four lines to turn off Intel HW acceleration.
DEFINES += -DUSE_HW_AES -DINTEL_GCM
ASFILES += intel-aes.s intel-gcm.s
EXTRA_SRCS += intel-gcm-wrap.c
INTEL_GCM = 1
MPI_SRCS += mpi_amd64.c mp_comba.c
endif
ifeq ($(CPU_ARCH),x86)
ASFILES = mpi_x86.s
DEFINES += -DMP_ASSEMBLY_MULTIPLY -DMP_ASSEMBLY_SQUARE
DEFINES += -DMP_ASSEMBLY_DIV_2DX1D -DMP_USE_UINT_DIGIT
DEFINES += -DMP_IS_LITTLE_ENDIAN
# The floating point ECC code doesn't work on Linux x86 (bug 311432).
#ECL_USE_FP = 1
endif
ifeq ($(CPU_ARCH),arm)
DEFINES += -DMP_ASSEMBLY_MULTIPLY -DMP_ASSEMBLY_SQUARE
DEFINES += -DMP_USE_UINT_DIGIT
DEFINES += -DSHA_NO_LONG_LONG # avoid 64-bit arithmetic in SHA512
MPI_SRCS += mpi_arm.c
endif
ifeq ($(CPU_ARCH),ppc)
ifdef USE_64
DEFINES += -DNSS_NO_INIT_SUPPORT
endif # USE_64
endif # ppc
endif # Linux
ifeq ($(OS_TARGET),AIX)
DEFINES += -DMP_USE_UINT_DIGIT
ifndef USE_64
DEFINES += -DMP_NO_DIV_WORD -DMP_NO_ADD_WORD -DMP_NO_SUB_WORD
endif
endif # AIX
ifeq ($(OS_TARGET), HP-UX)
ifneq ($(OS_TEST), ia64)
# PA-RISC
ASFILES += ret_cr16.s
ifndef USE_64
FREEBL_BUILD_SINGLE_SHLIB =
HAVE_ABI32_INT32 = 1
HAVE_ABI32_FPU = 1
endif
ifdef FREEBL_CHILD_BUILD
ifdef USE_ABI32_INT32
# build for DA1.1 (HP PA 1.1) 32-bit ABI build with 32-bit arithmetic
DEFINES += -DMP_USE_UINT_DIGIT -DMP_NO_MP_WORD
DEFINES += -DSHA_NO_LONG_LONG # avoid 64-bit arithmetic in SHA512
else
ifdef USE_64
# this builds for DA2.0W (HP PA 2.0 Wide), the LP64 ABI, using 64-bit digits
MPI_SRCS += mpi_hp.c
ASFILES += hpma512.s hppa20.s
DEFINES += -DMP_ASSEMBLY_MULTIPLY -DMP_ASSEMBLY_SQUARE
else
# this builds for DA2.0 (HP PA 2.0 Narrow) ABI32_FPU model
# (the 32-bit ABI with 64-bit registers) using 64-bit digits
MPI_SRCS += mpi_hp.c
ASFILES += hpma512.s hppa20.s
DEFINES += -DMP_ASSEMBLY_MULTIPLY -DMP_ASSEMBLY_SQUARE
ifndef NS_USE_GCC
ARCHFLAG = -Aa +e +DA2.0 +DS2.0
endif
endif
endif
endif
endif
endif
# The blapi functions are defined not only in the freebl shared
# libraries but also in the shared libraries linked with loader.c
# (libsoftokn3.so and libssl3.so). We need to use GNU ld's
# -Bsymbolic option or the equivalent option for other linkers
# to bind the blapi function references in FREEBLVector vector
# (ldvector.c) to the blapi functions defined in the freebl
# shared libraries.
ifeq (,$(filter-out BSD_OS FreeBSD Linux NetBSD OpenBSD, $(OS_TARGET)))
MKSHLIB += -Wl,-Bsymbolic
endif
ifeq ($(OS_TARGET),SunOS)
ifdef NS_USE_GCC
ifdef GCC_USE_GNU_LD
MKSHLIB += -Wl,-Bsymbolic,-z,now,-z,text
else
MKSHLIB += -Wl,-B,symbolic,-z,now,-z,text
endif # GCC_USE_GNU_LD
else
MKSHLIB += -B symbolic -z now -z text
endif # NS_USE_GCC
# Sun's WorkShop defines v8, v8plus and v9 architectures.
# gcc on Solaris defines v8 and v9 "cpus".
# gcc's v9 is equivalent to Workshop's v8plus.
# gcc's -m64 is equivalent to Workshop's v9
# We always use Sun's assembler, which uses Sun's naming convention.
ifeq ($(CPU_ARCH),sparc)
FREEBL_BUILD_SINGLE_SHLIB=
ifdef USE_64
HAVE_ABI64_INT = 1
HAVE_ABI64_FPU = 1
else
HAVE_ABI32_FPU = 1
HAVE_ABI32_INT64 = 1
endif
SYSV_SPARC = 1
SOLARIS_AS = /usr/ccs/bin/as
#### set arch, asm, c flags
ifdef NS_USE_GCC
ifdef USE_ABI32_INT64
ARCHFLAG=-mcpu=v9 -Wa,-xarch=v8plus
SOLARIS_AS_FLAGS = -xarch=v8plus -K PIC
endif
ifdef USE_ABI32_FPU
ARCHFLAG=-mcpu=v9 -Wa,-xarch=v8plusa
SOLARIS_AS_FLAGS = -xarch=v8plusa -K PIC
endif # USE_ABI32_FPU
ifdef USE_ABI64_INT
# this builds for Sparc v9a pure 64-bit architecture
ARCHFLAG += -mcpu=v9 -Wa,-xarch=v9
SOLARIS_AS_FLAGS = -xarch=v9 -K PIC
endif
ifdef USE_ABI64_FPU
# this builds for Sparc v9a pure 64-bit architecture
# It uses floating point, and 32-bit word size
ARCHFLAG += -mcpu=v9 -Wa,-xarch=v9a
SOLARIS_AS_FLAGS = -xarch=v9a -K PIC
endif
else # NS_USE_GCC
# FPU_TARGET_OPTIMIZER specifies the target processor and cache
# properties of the ABI32_FPU and ABI64_FPU architectures for use
# by the optimizer.
ifeq (,$(findstring Sun WorkShop 6,$(shell $(CC) -V 2>&1)))
# if the compiler is not Forte 6
FPU_TARGET_OPTIMIZER = -xcache=64/32/4:1024/64/4 -xchip=ultra3
else
# Forte 6 C compiler generates incorrect code for rijndael.c
# if -xchip=ultra3 is used (Bugzilla bug 333925). So we revert
# to what we used in NSS 3.10.
FPU_TARGET_OPTIMIZER = -xchip=ultra2
endif
ifdef USE_ABI32_INT64
# this builds for Sparc v8+a ABI32_FPU architecture, 64-bit registers,
# 32-bit ABI, it uses 64-bit words, integer arithmetic,
# no FPU (non-VIS cpus).
# These flags were suggested by the compiler group for building
# with SunStudio 10.
ifdef BUILD_OPT
SOL_CFLAGS += -xO4
endif
SOL_CFLAGS += -xtarget=generic
ARCHFLAG = -xarch=v8plus
SOLARIS_AS_FLAGS = -xarch=v8plus -K PIC
endif
ifdef USE_ABI32_FPU
# this builds for Sparc v8+a ABI32_FPU architecture, 64-bit registers,
# 32-bit ABI, it uses FPU code, and 32-bit word size.
# these flags were determined by running cc -### -fast and copying
# the generated flag settings
SOL_CFLAGS += -fsingle -xmemalign=8s
ifdef BUILD_OPT
SOL_CFLAGS += -D__MATHERR_ERRNO_DONTCARE -fsimple=1
SOL_CFLAGS += -xalias_level=basic -xbuiltin=%all
SOL_CFLAGS += $(FPU_TARGET_OPTIMIZER) -xdepend
SOL_CFLAGS += -xlibmil -xO5
endif
ARCHFLAG = -xarch=v8plusa
SOLARIS_AS_FLAGS = -xarch=v8plusa -K PIC
endif
ifdef USE_ABI64_INT
# this builds for Sparc v9a pure 64-bit architecture,
# no FPU (non-VIS cpus). For building with SunStudio 10.
ifdef BUILD_OPT
SOL_CFLAGS += -xO4
endif
SOL_CFLAGS += -xtarget=generic
ARCHFLAG = -xarch=v9
SOLARIS_AS_FLAGS = -xarch=v9 -K PIC
endif
ifdef USE_ABI64_FPU
# this builds for Sparc v9a pure 64-bit architecture
# It uses floating point, and 32-bit word size.
# See comment for USE_ABI32_FPU.
SOL_CFLAGS += -fsingle -xmemalign=8s
ifdef BUILD_OPT
SOL_CFLAGS += -D__MATHERR_ERRNO_DONTCARE -fsimple=1
SOL_CFLAGS += -xalias_level=basic -xbuiltin=%all
SOL_CFLAGS += $(FPU_TARGET_OPTIMIZER) -xdepend
SOL_CFLAGS += -xlibmil -xO5
endif
ARCHFLAG = -xarch=v9a
SOLARIS_AS_FLAGS = -xarch=v9a -K PIC
endif
endif # NS_USE_GCC
### set flags for both GCC and Sun cc
ifdef USE_ABI32_INT64
# this builds for Sparc v8+a ABI32_FPU architecture, 64-bit registers,
# 32-bit ABI, it uses 64-bit words, integer arithmetic, no FPU
# best times are with no MP_ flags specified
endif
ifdef USE_ABI32_FPU
# this builds for Sparc v8+a ABI32_FPU architecture, 64-bit registers,
# 32-bit ABI, it uses FPU code, and 32-bit word size
MPI_SRCS += mpi_sparc.c
ASFILES = mpv_sparcv8.s montmulfv8.s
DEFINES += -DMP_NO_MP_WORD -DMP_USE_UINT_DIGIT -DMP_ASSEMBLY_MULTIPLY
DEFINES += -DMP_USING_MONT_MULF -DMP_MONT_USE_MP_MUL
ECL_USE_FP = 1
endif
ifdef USE_ABI64_INT
# this builds for Sparc v9a pure 64-bit architecture
# best times are with no MP_ flags specified
endif
ifdef USE_ABI64_FPU
# this builds for Sparc v9a pure 64-bit architecture
# It uses floating point, and 32-bit word size
MPI_SRCS += mpi_sparc.c
ASFILES = mpv_sparcv9.s montmulfv9.s
DEFINES += -DMP_NO_MP_WORD -DMP_USE_UINT_DIGIT -DMP_ASSEMBLY_MULTIPLY
DEFINES += -DMP_USING_MONT_MULF -DMP_MONT_USE_MP_MUL
ECL_USE_FP = 1
endif
else
# Solaris for non-sparc family CPUs
ifdef NS_USE_GCC
LD = gcc
AS = gcc
ASFLAGS = -x assembler-with-cpp
endif
ifeq ($(USE_64),1)
# Solaris for AMD64
ifdef NS_USE_GCC
ASFILES = arcfour-amd64-gas.s mpi_amd64_gas.s
ASFLAGS += -march=opteron -m64 -fPIC
MPI_SRCS += mp_comba.c
# comment the next four lines to turn off Intel HW acceleration
ASFILES += intel-gcm.s
EXTRA_SRCS += intel-gcm-wrap.c
INTEL_GCM = 1
DEFINES += -DINTEL_GCM
else
ASFILES = arcfour-amd64-sun.s mpi_amd64_sun.s sha-fast-amd64-sun.s
ASFILES += mp_comba_amd64_sun.s mpcpucache_amd64.s
ASFLAGS += -xarch=generic64 -K PIC
SOL_CFLAGS += -xprefetch=no
SHA_SRCS =
MPCPU_SRCS =
# Intel acceleration for GCM does not build currently with Studio
endif
DEFINES += -DNSS_BEVAND_ARCFOUR -DMPI_AMD64 -DMP_ASSEMBLY_MULTIPLY
DEFINES += -DNSS_USE_COMBA -DMP_IS_LITTLE_ENDIAN
# comment the next two lines to turn off Intel HW acceleration
DEFINES += -DUSE_HW_AES
ASFILES += intel-aes.s
MPI_SRCS += mpi_amd64.c
else
# Solaris x86
DEFINES += -DMP_USE_UINT_DIGIT
DEFINES += -DMP_ASSEMBLY_MULTIPLY -DMP_ASSEMBLY_SQUARE
DEFINES += -DMP_ASSEMBLY_DIV_2DX1D
ASFILES = mpi_i86pc.s
ifndef NS_USE_GCC
MPCPU_SRCS =
ASFILES += mpcpucache_x86.s
endif
endif
endif # Solaris for non-sparc family CPUs
endif # target == SunOS
ifndef NSS_DISABLE_ECC
ifdef ECL_USE_FP
#enable floating point ECC code
DEFINES += -DECL_USE_FP
ECL_SRCS += ecp_fp160.c ecp_fp192.c ecp_fp224.c ecp_fp.c
ECL_HDRS += ecp_fp.h
endif
endif
# poly1305-donna-x64-sse2-incremental-source.c requires __int128 support
# in GCC 4.6.0.
ifdef USE_64
ifdef CC_IS_CLANG
HAVE_INT128_SUPPORT = 1
DEFINES += -DHAVE_INT128_SUPPORT
else ifeq (1,$(CC_IS_GCC))
ifneq (,$(filter 4.6 4.7 4.8 4.9,$(word 1,$(GCC_VERSION)).$(word 2,$(GCC_VERSION))))
HAVE_INT128_SUPPORT = 1
DEFINES += -DHAVE_INT128_SUPPORT
endif
ifeq (,$(filter 0 1 2 3 4,$(word 1,$(GCC_VERSION))))
HAVE_INT128_SUPPORT = 1
DEFINES += -DHAVE_INT128_SUPPORT
endif
endif
endif
ifndef NSS_DISABLE_CHACHAPOLY
ifeq ($(CPU_ARCH),x86_64)
ifdef HAVE_INT128_SUPPORT
EXTRA_SRCS += poly1305-donna-x64-sse2-incremental-source.c
else
EXTRA_SRCS += poly1305.c
endif
ifneq (1,$(CC_IS_GCC))
EXTRA_SRCS += chacha20.c
else
EXTRA_SRCS += chacha20_vec.c
endif
else
EXTRA_SRCS += poly1305.c
EXTRA_SRCS += chacha20.c
endif # x86_64
endif # NSS_DISABLE_CHACHAPOLY
ifeq (,$(filter-out i386 x386 x86 x86_64,$(CPU_ARCH)))
# All intel architectures get the 64 bit version
# With custom uint128 if necessary (faster than generic 32 bit version).
ECL_SRCS += curve25519_64.c
else
# All non intel architectures get the generic 32 bit implementation (slow!)
ECL_SRCS += curve25519_32.c
endif
ifndef HAVE_INT128_SUPPORT
ECL_SRCS += uint128.c
endif
#######################################################################
# (5) Execute "global" rules. (OPTIONAL) #
#######################################################################
include $(CORE_DEPTH)/coreconf/rules.mk
#######################################################################
# (6) Execute "component" rules. (OPTIONAL) #
#######################################################################
#######################################################################
# (7) Execute "local" rules. (OPTIONAL). #
#######################################################################
export:: private_export
rijndael_tables:
$(CC) -o $(OBJDIR)/make_rijndael_tab rijndael_tables.c \
$(DEFINES) $(INCLUDES) $(OBJDIR)/libfreebl.a
$(OBJDIR)/make_rijndael_tab
vpath %.h mpi ecl
vpath %.c mpi ecl
vpath %.S mpi ecl
vpath %.s mpi ecl
vpath %.asm mpi ecl
INCLUDES += -Impi -Iecl
DEFINES += -DMP_API_COMPATIBLE
MPI_USERS = dh.c pqg.c dsa.c rsa.c ec.c
MPI_OBJS = $(addprefix $(OBJDIR)/$(PROG_PREFIX), $(MPI_SRCS:.c=$(OBJ_SUFFIX)))
MPI_OBJS += $(addprefix $(OBJDIR)/$(PROG_PREFIX), $(MPI_USERS:.c=$(OBJ_SUFFIX)))
$(MPI_OBJS): $(MPI_HDRS)
ECL_USERS = ec.c
ECL_OBJS = $(addprefix $(OBJDIR)/$(PROG_PREFIX), $(ECL_SRCS:.c=$(OBJ_SUFFIX)) $(ECL_ASM_SRCS:$(ASM_SUFFIX)=$(OBJ_SUFFIX)))
ECL_OBJS += $(addprefix $(OBJDIR)/$(PROG_PREFIX), $(ECL_USERS:.c=$(OBJ_SUFFIX)))
$(ECL_OBJS): $(ECL_HDRS)
$(OBJDIR)/sysrand$(OBJ_SUFFIX): sysrand.c unix_rand.c win_rand.c os2_rand.c
$(OBJDIR)/$(PROG_PREFIX)mpprime$(OBJ_SUFFIX): primes.c
$(OBJDIR)/ldvector$(OBJ_SUFFIX) $(OBJDIR)/loader$(OBJ_SUFFIX) : loader.h
ifeq ($(SYSV_SPARC),1)
$(OBJDIR)/mpv_sparcv8.o $(OBJDIR)/mpv_sparcv8x.o $(OBJDIR)/montmulfv8.o : $(OBJDIR)/%.o : %.s
@$(MAKE_OBJDIR)
$(SOLARIS_AS) -o $@ $(SOLARIS_AS_FLAGS) $<
$(OBJDIR)/mpv_sparcv9.o $(OBJDIR)/montmulfv9.o : $(OBJDIR)/%.o : %.s
@$(MAKE_OBJDIR)
$(SOLARIS_AS) -o $@ $(SOLARIS_AS_FLAGS) $<
$(OBJDIR)/mpmontg.o: mpmontg.c montmulf.h
endif
ifndef FREEBL_CHILD_BUILD
# Parent build. This is where we decide which shared libraries to build
ifdef FREEBL_BUILD_SINGLE_SHLIB
################### Single shared lib stuff #########################
SINGLE_SHLIB_DIR = $(OBJDIR)/$(OS_TARGET)_SINGLE_SHLIB
ALL_TRASH += $(SINGLE_SHLIB_DIR)
$(SINGLE_SHLIB_DIR):
-mkdir -p $(SINGLE_SHLIB_DIR)
release_md libs:: $(SINGLE_SHLIB_DIR)
$(MAKE) FREEBL_CHILD_BUILD=1 \
OBJDIR=$(SINGLE_SHLIB_DIR) $@
######################## common stuff #########################
endif
ifdef NEED_STUB_BUILD
SINGLE_SHLIB_DIR = $(OBJDIR)/$(OS_TARGET)_SINGLE_SHLIB
ALL_TRASH += $(SINGLE_SHLIB_DIR)
$(SINGLE_SHLIB_DIR):
-mkdir $(SINGLE_SHLIB_DIR)
release_md libs:: $(SINGLE_SHLIB_DIR)
$(MAKE) FREEBL_CHILD_BUILD=1 USE_STUB_BUILD=1 \
OBJDIR=$(SINGLE_SHLIB_DIR) $@
endif
# multiple shared libraries
######################## ABI32_FPU stuff #########################
ifdef HAVE_ABI32_FPU
ABI32_FPU_DIR = $(OBJDIR)/$(OS_TARGET)_ABI32_FPU
ALL_TRASH += $(ABI32_FPU_DIR)
$(ABI32_FPU_DIR):
-mkdir $(ABI32_FPU_DIR)
release_md libs:: $(ABI32_FPU_DIR)
$(MAKE) FREEBL_CHILD_BUILD=1 USE_ABI32_FPU=1 \
OBJDIR=$(ABI32_FPU_DIR) $@
endif
######################## ABI32_INT32 stuff #########################
ifdef HAVE_ABI32_INT32
ABI32_INT32_DIR = $(OBJDIR)/$(OS_TARGET)_ABI32_INT32
ALL_TRASH += $(ABI32_INT32_DIR)
$(ABI32_INT32_DIR):
-mkdir $(ABI32_INT32_DIR)
release_md libs:: $(ABI32_INT32_DIR)
$(MAKE) FREEBL_CHILD_BUILD=1 USE_ABI32_INT32=1 \
OBJDIR=$(ABI32_INT32_DIR) $@
endif
######################## ABI32_INT64 stuff #########################
ifdef HAVE_ABI32_INT64
ABI32_INT64_DIR = $(OBJDIR)/$(OS_TARGET)_ABI32_INT64
ALL_TRASH += $(ABI32_INT64_DIR)
$(ABI32_INT64_DIR):
-mkdir $(ABI32_INT64_DIR)
release_md libs:: $(ABI32_INT64_DIR)
$(MAKE) FREEBL_CHILD_BUILD=1 USE_ABI32_INT64=1\
OBJDIR=$(ABI32_INT64_DIR) $@
endif
######################## END of 32-bit stuff #########################
# above is 32-bit builds, below is 64-bit builds
######################## ABI64_FPU stuff #########################
ifdef HAVE_ABI64_FPU
ABI64_FPU_DIR = $(OBJDIR)/$(OS_TARGET)_ABI64_FPU
ALL_TRASH += $(ABI64_FPU_DIR)
$(ABI64_FPU_DIR):
-mkdir $(ABI64_FPU_DIR)
release_md libs:: $(ABI64_FPU_DIR)
$(MAKE) FREEBL_CHILD_BUILD=1 USE_ABI64_FPU=1 \
OBJDIR=$(ABI64_FPU_DIR) $@
endif
######################## ABI64_INT stuff #########################
ifdef HAVE_ABI64_INT
ABI64_INT_DIR = $(OBJDIR)/$(OS_TARGET)_ABI64_INT
ALL_TRASH += $(ABI64_INT_DIR)
$(ABI64_INT_DIR):
-mkdir $(ABI64_INT_DIR)
release_md libs:: $(ABI64_INT_DIR)
$(MAKE) FREEBL_CHILD_BUILD=1 USE_ABI64_INT=1 \
OBJDIR=$(ABI64_INT_DIR) $@
endif
endif # FREEBL_CHILD_BUILD
# Bugzilla Bug 333917: the non-x86 code in desblapi.c seems to violate
# ANSI C's strict aliasing rules.
ifeq ($(OS_TARGET),Linux)
ifneq ($(CPU_ARCH),x86)
$(OBJDIR)/$(PROG_PREFIX)desblapi$(OBJ_SUFFIX): desblapi.c
@$(MAKE_OBJDIR)
ifdef NEED_ABSOLUTE_PATH
$(CC) -o $@ -c $(CFLAGS) -fno-strict-aliasing $(call core_abspath,$<)
else
$(CC) -o $@ -c $(CFLAGS) -fno-strict-aliasing $<
endif
endif
endif
ifdef INTEL_GCM
#
# GCM binary needs -mssse3
#
$(OBJDIR)/$(PROG_PREFIX)intel-gcm-wrap$(OBJ_SUFFIX): CFLAGS += -mssse3
# The integrated assembler in Clang 3.2 does not support % in the
# expression of a .set directive. intel-gcm.s uses .set to give
# symbolic names to registers, for example,
# .set Htbl, %rdi
# So we can't use Clang's integrated assembler with intel-gcm.s.
ifdef CC_IS_CLANG
$(OBJDIR)/$(PROG_PREFIX)intel-gcm$(OBJ_SUFFIX): CFLAGS += -no-integrated-as
endif
endif
ifdef INTEL_GCM_CLANG_CL
#
# clang-cl needs -mssse3
#
$(OBJDIR)/$(PROG_PREFIX)intel-gcm-wrap$(OBJ_SUFFIX): CFLAGS += -mssse3
endif
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