# Automagically pick clang or gcc, with preference for clang # This is only done if we have not overridden these with an environment or CLI variable ifeq ($(origin CC),default) CC=$(shell if [ -e /usr/bin/clang ]; then echo clang; else echo gcc; fi) endif ifeq ($(origin CXX),default) CXX=$(shell if [ -e /usr/bin/clang++ ]; then echo clang++; else echo g++; fi) endif INCLUDES?= DEFS?= LDLIBS?= DESTDIR?= include objects.mk ONE_OBJS+=osdep/LinuxEthernetTap.o # Auto-detect miniupnpc and nat-pmp as well and use system libs if present, # otherwise build into binary as done on Mac and Windows. ONE_OBJS+=osdep/PortMapper.o DEFS+=-DZT_USE_MINIUPNPC MINIUPNPC_IS_NEW_ENOUGH=$(shell grep -sqr '.*define.*MINIUPNPC_VERSION.*"2.."' /usr/include/miniupnpc/miniupnpc.h && echo 1) ifeq ($(MINIUPNPC_IS_NEW_ENOUGH),1) DEFS+=-DZT_USE_SYSTEM_MINIUPNPC LDLIBS+=-lminiupnpc else DEFS+=-DMINIUPNP_STATICLIB -DMINIUPNPC_SET_SOCKET_TIMEOUT -DMINIUPNPC_GET_SRC_ADDR -D_BSD_SOURCE -D_DEFAULT_SOURCE -D_XOPEN_SOURCE=600 -DOS_STRING=\"Linux\" -DMINIUPNPC_VERSION_STRING=\"2.0\" -DUPNP_VERSION_STRING=\"UPnP/1.1\" -DENABLE_STRNATPMPERR ONE_OBJS+=ext/miniupnpc/connecthostport.o ext/miniupnpc/igd_desc_parse.o ext/miniupnpc/minisoap.o ext/miniupnpc/minissdpc.o ext/miniupnpc/miniupnpc.o ext/miniupnpc/miniwget.o ext/miniupnpc/minixml.o ext/miniupnpc/portlistingparse.o ext/miniupnpc/receivedata.o ext/miniupnpc/upnpcommands.o ext/miniupnpc/upnpdev.o ext/miniupnpc/upnperrors.o ext/miniupnpc/upnpreplyparse.o endif ifeq ($(wildcard /usr/include/natpmp.h),) ONE_OBJS+=ext/libnatpmp/natpmp.o ext/libnatpmp/getgateway.o else LDLIBS+=-lnatpmp DEFS+=-DZT_USE_SYSTEM_NATPMP endif # Use bundled http-parser since distribution versions are NOT API-stable or compatible! # Trying to use dynamically linked libhttp-parser causes tons of compatibility problems. ONE_OBJS+=ext/http-parser/http_parser.o ifeq ($(ZT_SYNOLOGY), 1) DEFS+=-D__SYNOLOGY__ endif ifeq ($(ZT_QNAP), 1) DEFS+=-D__QNAP__ endif ifeq ($(ZT_TRACE),1) DEFS+=-DZT_TRACE endif ifeq ($(ZT_RULES_ENGINE_DEBUGGING),1) DEFS+=-DZT_RULES_ENGINE_DEBUGGING endif ifeq ($(ZT_DEBUG),1) override CFLAGS+=-Wall -Wno-deprecated -Werror -g -pthread $(INCLUDES) $(DEFS) override CXXFLAGS+=-Wall -Wno-deprecated -Werror -g -std=c++11 -pthread $(INCLUDES) $(DEFS) override LDFLAGS+= ZT_TRACE=1 STRIP?=echo # The following line enables optimization for the crypto code, since # C25519 in particular is almost UNUSABLE in -O0 even on a 3ghz box! node/Salsa20.o node/SHA512.o node/C25519.o node/Poly1305.o: CXXFLAGS=-Wall -O2 -g -pthread $(INCLUDES) $(DEFS) else override DEFS+=-D_FORTIFY_SOURCE=2 CFLAGS?=-Os -fstack-protector override CFLAGS+=-Wall -Wno-deprecated -fPIE -pthread $(INCLUDES) -DNDEBUG $(DEFS) CXXFLAGS?=-Os -fstack-protector override CXXFLAGS+=-Wall -Wno-deprecated -Wno-unused-result -Wreorder -fPIE -std=c++11 -pthread $(INCLUDES) -DNDEBUG $(DEFS) override LDFLAGS+=-pie -Wl,-z,relro,-z,now STRIP?=strip STRIP+=--strip-all endif ifeq ($(ZT_TRACE),1) override DEFS+=-DZT_TRACE endif ifeq ($(ZT_USE_TEST_TAP),1) override DEFS+=-DZT_USE_TEST_TAP endif # Uncomment for gprof profile build #CFLAGS=-Wall -g -pg -pthread $(INCLUDES) $(DEFS) #CXXFLAGS=-Wall -g -pg -pthread $(INCLUDES) $(DEFS) #LDFLAGS= #STRIP=echo # Determine system build architecture from compiler target CC_MACH=$(shell $(CC) -dumpmachine | cut -d '-' -f 1) ZT_ARCHITECTURE=999 ifeq ($(CC_MACH),x86_64) ZT_ARCHITECTURE=2 ZT_USE_X64_ASM_SALSA2012=1 endif ifeq ($(CC_MACH),amd64) ZT_ARCHITECTURE=2 ZT_USE_X64_ASM_SALSA2012=1 endif ifeq ($(CC_MACH),i386) ZT_ARCHITECTURE=1 endif ifeq ($(CC_MACH),i486) ZT_ARCHITECTURE=1 endif ifeq ($(CC_MACH),i586) ZT_ARCHITECTURE=1 endif ifeq ($(CC_MACH),i686) ZT_ARCHITECTURE=1 endif ifeq ($(CC_MACH),arm) ZT_ARCHITECTURE=3 override DEFS+=-DZT_NO_TYPE_PUNNING ZT_USE_ARM32_NEON_ASM_SALSA2012=1 endif ifeq ($(CC_MACH),armel) ZT_ARCHITECTURE=3 override DEFS+=-DZT_NO_TYPE_PUNNING ZT_USE_ARM32_NEON_ASM_SALSA2012=1 endif ifeq ($(CC_MACH),armhf) ZT_ARCHITECTURE=3 override DEFS+=-DZT_NO_TYPE_PUNNING ZT_USE_ARM32_NEON_ASM_SALSA2012=1 endif ifeq ($(CC_MACH),armv6) ZT_ARCHITECTURE=3 override DEFS+=-DZT_NO_TYPE_PUNNING ZT_USE_ARM32_NEON_ASM_SALSA2012=1 endif ifeq ($(CC_MACH),armv6zk) ZT_ARCHITECTURE=3 override DEFS+=-DZT_NO_TYPE_PUNNING ZT_USE_ARM32_NEON_ASM_SALSA2012=1 endif ifeq ($(CC_MACH),armv6kz) ZT_ARCHITECTURE=3 override DEFS+=-DZT_NO_TYPE_PUNNING ZT_USE_ARM32_NEON_ASM_SALSA2012=1 endif ifeq ($(CC_MACH),armv7) ZT_ARCHITECTURE=3 override DEFS+=-DZT_NO_TYPE_PUNNING ZT_USE_ARM32_NEON_ASM_SALSA2012=1 endif ifeq ($(CC_MACH),arm64) ZT_ARCHITECTURE=4 override DEFS+=-DZT_NO_TYPE_PUNNING endif ifeq ($(CC_MACH),aarch64) ZT_ARCHITECTURE=4 override DEFS+=-DZT_NO_TYPE_PUNNING endif ifeq ($(CC_MACH),mipsel) ZT_ARCHITECTURE=5 override DEFS+=-DZT_NO_TYPE_PUNNING endif ifeq ($(CC_MACH),mips) ZT_ARCHITECTURE=5 override DEFS+=-DZT_NO_TYPE_PUNNING endif ifeq ($(CC_MACH),mips64) ZT_ARCHITECTURE=6 override DEFS+=-DZT_NO_TYPE_PUNNING endif ifeq ($(CC_MACH),mips64el) ZT_ARCHITECTURE=6 override DEFS+=-DZT_NO_TYPE_PUNNING endif # Fail if system architecture could not be determined ifeq ($(ZT_ARCHITECTURE),999) ERR=$(error FATAL: architecture could not be determined from $(CC) -dumpmachine: $CC_MACH) .PHONY: err err: ; $(ERR) endif # Disable software updates by default on Linux since that is normally done with package management override DEFS+=-DZT_BUILD_PLATFORM=1 -DZT_BUILD_ARCHITECTURE=$(ZT_ARCHITECTURE) -DZT_SOFTWARE_UPDATE_DEFAULT="\"disable\"" # Static builds, which are currently done for a number of Linux targets ifeq ($(ZT_STATIC),1) override LDFLAGS+=-static endif # ARM32 hell -- use conservative CFLAGS ifeq ($(ZT_ARCHITECTURE),3) ifeq ($(shell if [ -e /usr/bin/dpkg ]; then dpkg --print-architecture; fi),armel) override CFLAGS+=-march=armv5 -mfloat-abi=soft -msoft-float -mno-unaligned-access -marm override CXXFLAGS+=-march=armv5 -mfloat-abi=soft -msoft-float -mno-unaligned-access -marm ZT_USE_ARM32_NEON_ASM_SALSA2012=0 else override CFLAGS+=-march=armv5 -mno-unaligned-access -marm override CXXFLAGS+=-march=armv5 -mno-unaligned-access -marm endif endif # Build faster crypto on some targets ifeq ($(ZT_USE_X64_ASM_SALSA2012),1) override DEFS+=-DZT_USE_X64_ASM_SALSA2012 override CORE_OBJS+=ext/x64-salsa2012-asm/salsa2012.o endif ifeq ($(ZT_USE_ARM32_NEON_ASM_SALSA2012),1) override DEFS+=-DZT_USE_ARM32_NEON_ASM_SALSA2012 override CORE_OBJS+=ext/arm32-neon-salsa2012-asm/salsa2012.o endif all: one #ext/x64-salsa2012-asm/salsa2012.o: # $(CC) -c ext/x64-salsa2012-asm/salsa2012.s -o ext/x64-salsa2012-asm/salsa2012.o #ext/arm32-neon-salsa2012-asm/salsa2012.o: # $(CC) -c ext/arm32-neon-salsa2012-asm/salsa2012.s -o ext/arm32-neon-salsa2012-asm/salsa2012.o one: $(CORE_OBJS) $(ONE_OBJS) one.o $(CXX) $(CXXFLAGS) $(LDFLAGS) -o zerotier-one $(CORE_OBJS) $(ONE_OBJS) one.o $(LDLIBS) $(STRIP) zerotier-one ln -sf zerotier-one zerotier-idtool ln -sf zerotier-one zerotier-cli zerotier-one: one zerotier-idtool: one zerotier-cli: one libzerotiercore.a: $(CORE_OBJS) ar rcs libzerotiercore.a $(CORE_OBJS) ranlib libzerotiercore.a core: libzerotiercore.a selftest: $(CORE_OBJS) $(ONE_OBJS) selftest.o $(CXX) $(CXXFLAGS) $(LDFLAGS) -o zerotier-selftest selftest.o $(CORE_OBJS) $(ONE_OBJS $(LDLIBS) $(STRIP) zerotier-selftest zerotier-selftest: selftest manpages: FORCE cd doc ; ./build.sh doc: manpages clean: FORCE rm -rf *.a *.so *.o node/*.o controller/*.o osdep/*.o service/*.o ext/http-parser/*.o ext/miniupnpc/*.o ext/libnatpmp/*.o $(CORE_OBJS) $(ONE_OBJS) zerotier-one zerotier-idtool zerotier-cli zerotier-selftest build-* ZeroTierOneInstaller-* *.deb *.rpm .depend debian/files debian/zerotier-one*.debhelper debian/zerotier-one.substvars debian/*.log debian/zerotier-one doc/node_modules distclean: clean realclean: distclean debug: FORCE make ZT_DEBUG=1 one make ZT_DEBUG=1 selftest # Note: keep the symlinks in /var/lib/zerotier-one to the binaries since these # provide backward compatibility with old releases where the binaries actually # lived here. Folks got scripts. install: FORCE mkdir -p $(DESTDIR)/usr/sbin rm -f $(DESTDIR)/usr/sbin/zerotier-one cp -f zerotier-one $(DESTDIR)/usr/sbin/zerotier-one rm -f $(DESTDIR)/usr/sbin/zerotier-cli rm -f $(DESTDIR)/usr/sbin/zerotier-idtool ln -s zerotier-one $(DESTDIR)/usr/sbin/zerotier-cli ln -s zerotier-one $(DESTDIR)/usr/sbin/zerotier-idtool mkdir -p $(DESTDIR)/var/lib/zerotier-one rm -f $(DESTDIR)/var/lib/zerotier-one/zerotier-one rm -f $(DESTDIR)/var/lib/zerotier-one/zerotier-cli rm -f $(DESTDIR)/var/lib/zerotier-one/zerotier-idtool ln -s ../../../usr/sbin/zerotier-one $(DESTDIR)/var/lib/zerotier-one/zerotier-one ln -s ../../../usr/sbin/zerotier-one $(DESTDIR)/var/lib/zerotier-one/zerotier-cli ln -s ../../../usr/sbin/zerotier-one $(DESTDIR)/var/lib/zerotier-one/zerotier-idtool mkdir -p $(DESTDIR)/usr/share/man/man8 rm -f $(DESTDIR)/usr/share/man/man8/zerotier-one.8.gz cat doc/zerotier-one.8 | gzip -9 >$(DESTDIR)/usr/share/man/man8/zerotier-one.8.gz mkdir -p $(DESTDIR)/usr/share/man/man1 rm -f $(DESTDIR)/usr/share/man/man1/zerotier-idtool.1.gz rm -f $(DESTDIR)/usr/share/man/man1/zerotier-cli.1.gz cat doc/zerotier-cli.1 | gzip -9 >$(DESTDIR)/usr/share/man/man1/zerotier-cli.1.gz cat doc/zerotier-idtool.1 | gzip -9 >$(DESTDIR)/usr/share/man/man1/zerotier-idtool.1.gz # Uninstall preserves identity.public and identity.secret since the user might # want to save these. These are your ZeroTier address. uninstall: FORCE rm -f $(DESTDIR)/var/lib/zerotier-one/zerotier-one rm -f $(DESTDIR)/var/lib/zerotier-one/zerotier-cli rm -f $(DESTDIR)/var/lib/zerotier-one/zerotier-idtool rm -f $(DESTDIR)/usr/sbin/zerotier-cli rm -f $(DESTDIR)/usr/sbin/zerotier-idtool rm -f $(DESTDIR)/usr/sbin/zerotier-one rm -rf $(DESTDIR)/var/lib/zerotier-one/iddb.d rm -rf $(DESTDIR)/var/lib/zerotier-one/updates.d rm -rf $(DESTDIR)/var/lib/zerotier-one/networks.d rm -f $(DESTDIR)/var/lib/zerotier-one/zerotier-one.port rm -f $(DESTDIR)/usr/share/man/man8/zerotier-one.8.gz rm -f $(DESTDIR)/usr/share/man/man1/zerotier-idtool.1.gz rm -f $(DESTDIR)/usr/share/man/man1/zerotier-cli.1.gz # These are just for convenience for building Linux packages debian: FORCE debuild -I -i -us -uc -nc -b redhat: FORCE rpmbuild -ba zerotier-one.spec FORCE: