OBJ_WITH_CONTENT_SCAN = malware.o mime.o regex.o spam.o spool_mbox.o
OBJ_WITH_OLD_DEMIME = demime.o
-OBJ_EXPERIMENTAL = bmi_spam.o spf.o srs.o dcc.o
+OBJ_EXPERIMENTAL = bmi_spam.o spf.o srs.o dcc.o dmarc.o
# Targets for final binaries; the main one has a build number which is
# updated each time. We don't bother with that for the auxiliaries.
os.o parse.o queue.o \
rda.o readconf.o receive.o retry.o rewrite.o rfc2047.o \
route.o search.o sieve.o smtp_in.o smtp_out.o spool_in.o spool_out.o \
- store.o string.o tls.o tod.o transport.o tree.o verify.o \
+ std-crypto.o store.o string.o tls.o tod.o transport.o tree.o verify.o \
+ environment.o \
$(OBJ_LOOKUPS) \
local_scan.o $(EXIM_PERL) $(OBJ_WITH_CONTENT_SCAN) \
$(OBJ_WITH_OLD_DEMIME) $(OBJ_EXPERIMENTAL)
enq.o: $(HDRS) enq.c
exim.o: $(HDRS) exim.c
expand.o: $(HDRS) expand.c
+environment.o: $(HDRS) environment.c
filter.o: $(HDRS) filter.c
filtertest.o: $(HDRS) filtertest.c
globals.o: $(HDRS) globals.c
smtp_out.o: $(HDRS) smtp_out.c
spool_in.o: $(HDRS) spool_in.c
spool_out.o: $(HDRS) spool_out.c
+std-crypto.o: $(HDRS) std-crypto.c
store.o: $(HDRS) store.c
string.o: $(HDRS) string.c
tls.o: $(HDRS) tls.c tls-gnu.c tls-openssl.c
spf.o: $(HDRS) spf.h spf.c
srs.o: $(HDRS) srs.h srs.c
dcc.o: $(HDRS) dcc.h dcc.c
+dmarc.o: $(HDRS) dmarc.h dmarc.c
# The module containing tables of available lookups, routers, auths, and
# transports must be rebuilt if any of them are. However, because the makefiles
# When using parallel make, we don't have the dependency to force building
# in the sub-directory unless we force that dependency:
-$(OBJ_LOOKUPS): buildlookups
+$(OBJ_LOOKUPS): lookups/lookups.a
# The exim monitor's private modules - the sources live in a private
# subdirectory. The final binary combines the private modules with some