# Common version number defines for libcap LIBTITLE=libcap VERSION=2 MINOR=48 # ## Optional prefixes: # # common 'packaging' directory FAKEROOT=$(DESTDIR) # Autoconf-style prefixes are activated when $(prefix) is defined. # Otherwise binaries and libraries are installed in /{lib,sbin}/, # header files in /usr/include/ and documentation in /usr/man/man?/. # These choices are motivated by the fact that getcap and setcap are # administrative operations that could be needed to recover a system. ifndef lib lib=$(shell ldd /usr/bin/ld|egrep "ld-linux|ld.so"|cut -d/ -f2) endif ifdef prefix exec_prefix=$(prefix) lib_prefix=$(exec_prefix) inc_prefix=$(lib_prefix) man_prefix=$(prefix)/share else prefix=/usr exec_prefix= lib_prefix=$(exec_prefix) inc_prefix=$(prefix) man_prefix=$(prefix)/share endif # Target directories MANDIR=$(man_prefix)/man SBINDIR=$(exec_prefix)/sbin INCDIR=$(inc_prefix)/include LIBDIR=$(lib_prefix)/$(lib) PKGCONFIGDIR=$(LIBDIR)/pkgconfig GOPKGDIR=$(prefix)/share/gocode/src # From here on out, the Go module packages should always remain # backwardly compatible. I will only resort to using major version 2 # etc if Go's syntax dramatically changes in a backwards incompatible # manner. (Let's hope not.) GOMAJOR=1 # Compilation specifics KERNEL_HEADERS := $(topdir)/libcap/include/uapi IPATH += -fPIC -I$(KERNEL_HEADERS) -I$(topdir)/libcap/include CC := $(CROSS_COMPILE)gcc DEFINES := -D_LARGEFILE64_SOURCE -D_FILE_OFFSET_BITS=64 COPTS ?= -O2 CFLAGS ?= $(COPTS) $(DEFINES) BUILD_CC ?= $(CC) BUILD_COPTS ?= -O2 BUILD_CFLAGS ?= $(BUILD_COPTS) $(DEFINES) $(IPATH) AR := $(CROSS_COMPILE)ar RANLIB := $(CROSS_COMPILE)ranlib DEBUG = -g #-DDEBUG WARNINGS=-Wall -Wwrite-strings \ -Wpointer-arith -Wcast-qual -Wcast-align \ -Wstrict-prototypes -Wmissing-prototypes \ -Wnested-externs -Winline -Wshadow LD=$(CC) -Wl,-x -shared LDFLAGS ?= #-g LIBCAPLIB := -L$(topdir)/libcap -lcap PSXLINKFLAGS := -lpthread -Wl,-wrap,pthread_create LIBPSXLIB := -L$(topdir)/libcap -lpsx $(PSXLINKFLAGS) BUILD_GPERF := $(shell which gperf >/dev/null 2>/dev/null && echo yes) SYSTEM_HEADERS = /usr/include INCS=$(topdir)/libcap/include/sys/capability.h LDFLAGS += -L$(topdir)/libcap CFLAGS += -Dlinux $(WARNINGS) $(DEBUG) INDENT := $(shell if [ -n "$$(which indent 2>/dev/null)" ]; then echo "| indent -kr" ; fi) # SHARED tracks whether or not the SHARED libraries (libcap.so, # libpsx.so and pam_cap.so) are built. (Some environments don't # support shared libraries.) SHARED ?= yes # DYNAMIC controls how capsh etc are linked - to shared or static libraries DYNAMIC := $(shell if [ ! -d "$(topdir)/.git" ]; then echo $(SHARED); else echo no ; fi) PAM_CAP ?= $(shell if [ -f /usr/include/security/pam_modules.h ]; then echo $(SHARED) ; else echo no ; fi) # If your system does not support pthreads, override this as "no". # # make PTHREADS=no ... # # This implies no Go support and no C/C++ libpsx build. Why might you # need libpsx for non-Go use? Tl;dr for POSIX semantics security: # # https://sites.google.com/site/fullycapable/who-ordered-libpsx # PTHREADS ?= yes ifeq ($(PTHREADS),yes) GO ?= go GOLANG ?= $(shell if [ -n "$(shell $(GO) version 2>/dev/null)" ]; then echo yes ; else echo no ; fi) ifeq ($(GOLANG),yes) GOROOT ?= $(shell $(GO) env GOROOT) GOCGO ?= $(shell if [ "$(shell $(GO) env CGO_ENABLED)" = 1 ]; then echo yes ; else echo no ; fi) GOOSARCH ?= $(shell $(GO) env GOHOSTOS)_$(shell $(GO) env GOHOSTARCH) CGO_REQUIRED=$(shell $(topdir)/go/cgo-required.sh $(GO)) ifeq ($(CGO_REQUIRED),1) # Strictly speaking go1.15 doesn't need this, but 1.16 is when the # real golang support arrives for non-cgo support, so drop the last # vestige of legacy workarounds then. CGO_LDFLAGS_ALLOW := -Wl,-?-wrap[=,][^-.@][^,]* endif CGO_CFLAGS := -I$(topdir)/libcap/include CGO_LDFLAGS := -L$(topdir)/libcap endif endif # If you want capsh to launch with something other than /bin/bash # build like this: # # make CAPSH_SHELL='-DSHELL=\"/bin/sh\"' # # or undefine the following: #CAPSH_SHELL := '-DSHELL="/bin/sh"' # When installing setcap, you can arrange for the installation process # to set its inheritable bit to be able to place capabilities on files. # It can be used in conjunction with pam_cap (associated with su and # certain users say) to make it useful for specially blessed users. # # make RAISE_SETFCAP=yes install # # This is now defaulted to no because some distributions have started # shipping with all users blessed with full inheritable sets which makes # no sense whatsoever! # # Indeed, it looks alarmingly like these distributions are recreating # the environment for what became known as the sendmail-capabilities # bug from 2000: # # https://sites.google.com/site/fullycapable/Home/thesendmailcapabilitiesissue # # they are also nullifying the difference between a p-bit and an i-bit. # # Folk really should read this document, which explains there is a really # important difference being lost here: # # https://static.googleusercontent.com/media/research.google.com/en//pubs/archive/33528.pdf # # In the context of this tree, on such such systems, a yes setting will # guarantee that every user, by default, is able to bless any binary with # any capability - a ready made local exploit machanism. RAISE_SETFCAP := no # If set to yes, this will cause the go "web" demo app to force the needed p # bit to be able to bind to port 80 without running as root. RAISE_GO_FILECAP := no # Global cleanup stuff LOCALCLEAN=rm -f *~ core DISTCLEAN=@find . \( -name '*.orig' -o -name '*.rej' \) | xargs rm -f