106 lines
3.5 KiB
Makefile
106 lines
3.5 KiB
Makefile
# Makefile.am
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OCT_INC = $(OCT_PATH)/software/include
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INCLUDES = -I$(top_srcdir) -I$(includedir) -I$(OCT_INC) -I$(OCT_INC)/octvc1 -I$(OCT_INC)/vocallo -I$(OCT_INC)/octpkt
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include Makefile.common
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#if HAVE_WARNINGS_AS_ERRORS
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#AM_CFLAGS = -Werror
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#endif
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AM_CFLAGS=-DTGT_VERSION=$(TGT_VERSION) -DMODULE_VERSION=$(MODULE_VERSION)
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plugindir = @plugindir@
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plugin_LTLIBRARIES = octpkt_ws.la
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octpkt_ws_la_SOURCES = \
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source/plugin.c \
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include/moduleinfo.h \
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$(DISSECTOR_SRC) \
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$(DISSECTOR_INCLUDES)
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octpkt_ws_la_LDFLAGS = -module -avoid-version
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octpkt_ws_la_LIBADD = @PLUGIN_LIBS@
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# Libs must be cleared, or else libtool won't create a shared module.
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# If your module needs to be linked against any particular libraries,
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# add them here.
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LIBS =
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#
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# Build plugin.c, which contains the plugin version[] string, a
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# function plugin_register() that calls the register routines for all
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# protocols, and a function plugin_reg_handoff() that calls the handoff
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# registration routines for all protocols.
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#
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# We do this by scanning sources. If that turns out to be too slow,
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# maybe we could just require every .o file to have an register routine
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# of a given name (packet-aarp.o -> proto_register_aarp, etc.).
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#
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# Formatting conventions: The name of the proto_register_* routines an
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# proto_reg_handoff_* routines must start in column zero, or must be
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# preceded only by "void " starting in column zero, and must not be
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# inside #if.
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#
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# DISSECTOR_SRC is assumed to have all the files that need to be scanned.
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#
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# For some unknown reason, having a big "for" loop in the Makefile
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# to scan all the files doesn't work with some "make"s; they seem to
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# pass only the first few names in the list to the shell, for some
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# reason.
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#
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# Therefore, we have a script to generate the plugin.c file.
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# The shell script runs slowly, as multiple greps and seds are run
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# for each input file; this is especially slow on Windows. Therefore,
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# if Python is present (as indicated by PYTHON being defined), we run
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# a faster Python script to do that work instead.
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#
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# The first argument is the directory in which the source files live.
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# The second argument is "plugin", to indicate that we should build
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# a plugin.c file for a plugin.
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# All subsequent arguments are the files to scan.
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#
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plugin.c: $(DISSECTOR_SRC) $(top_srcdir)/tools/make-dissector-reg \
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$(top_srcdir)/tools/make-dissector-reg.py
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@if test -n "$(PYTHON)"; then \
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echo Making plugin.c with python ; \
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$(PYTHON) $(top_srcdir)/tools/make-dissector-reg.py $(srcdir) \
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plugin $(DISSECTOR_SRC) ; \
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else \
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echo Making plugin.c with shell script ; \
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$(top_srcdir)/tools/make-dissector-reg $(srcdir) \
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$(plugin_src) plugin $(DISSECTOR_SRC) ; \
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fi
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#
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# Currently plugin.c can be included in the distribution because
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# we always build all protocol dissectors. We used to have to check
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# whether or not to build the snmp dissector. If we again need to
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# variably build something, making plugin.c non-portable, uncomment
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# the dist-hook line below.
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#
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# Oh, yuk. We don't want to include "plugin.c" in the distribution, as
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# its contents depend on the configuration, and therefore we want it
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# to be built when the first "make" is done; however, Automake insists
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# on putting *all* source into the distribution.
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#
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# We work around this by having a "dist-hook" rule that deletes
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# "plugin.c", so that "dist" won't pick it up.
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#
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#dist-hook:
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# @rm -f $(distdir)/plugin.c
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CLEANFILES = \
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octpkt_ws \
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*~
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MAINTAINERCLEANFILES = \
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Makefile.in \
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source/plugin.c
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EXTRA_DIST = \
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Makefile.common \
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Makefile.nmake
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