# Copyright (c) 2007-2010 Nokia Corporation and/or its subsidiary(-ies).
# All rights reserved.
# This component and the accompanying materials are made available
# under the terms of the License "Eclipse Public License v1.0"
# which accompanies this distribution, and is available
# at the URL "http://www.eclipse.org/legal/epl-v10.html".
#
# Initial Contributors:
# Nokia Corporation - initial contribution.
#
# Contributors:
#
# Description:
# WINSCW EXE/DLL/IMPLIB/LIB Function Like Makefile (FLM)
# Knows how to build all possible executables for the WINSCW emulator build
#
#
# passed in values, stripped of whitespace
COPY_FOR_STATIC_LINKAGE:=$(strip $(COPY_FOR_STATIC_LINKAGE))
DEFFILE:=$(strip $(DEFFILE))
DEFFILEKEYWORD:=$(strip $(DEFFILEKEYWORD))
EPOCALLOWDLLDATA:=$(strip $(EPOCALLOWDLLDATA))
EXPORTLIBRARY:=$(strip $(EXPORTLIBRARY))
BASEADDRESS:=$(strip $(BASEADDRESS))
LINKAS:=$(strip $(LINKAS))
NOEXPORTLIBRARY:=$(strip $(NOEXPORTLIBRARY))
SECUREID:=$(strip $(SECUREID))
UID2:=$(strip $(UID2))
UID3:=$(strip $(UID3))
VENDORID:=$(strip $(VENDORID))
VID:=$(strip $(VID))
WIN32_HEADERS:=$(strip $(WIN32_HEADERS))
# local variables
BINDIR:=
BINDIRSTATICLINK:=
BINTARGET:=
BINTARGETSTATICLINK:=
BLDDIR:=
CHECKLIB_TYPE:=
CREATABLEPATHS:=
CLEANTARGETS:=
CW_RUNTIME:=
ENTRYSYMBOL:=
IMPORTLIBLINKAS:=
IMPORTLIBTARGET:=
LIBDIR:=
LINKER_FIRSTSTATLIB:=
MAINLINKAS:=
NEWLIBFILE:=
RELEASABLES:=
TC_RELEASABLES:=
STATLIBDIR:=
STDCPP_BUILD:=
STDCPPTAGFILE:=
UID1:=
WIN32_LIBRARIES:=
# FIVESPACES variable created to ensure that a suitable gap of space characters can
# be placed between the separate arguments in the call to a tool (if required).
# This is a workaround for a problem in Cygwin, where separate arguments are interpreted
# as a single argument when passed to bash.
FIVESPACES=$(BLANK) $(BLANK)
# CW runtime varies based on TARGETTYPE requirements, with wrapper FLMs dictating the choice
# We override a CW-specific environment variable to do this, in common with ABLD
ifeq ($(CW_STATIC_RUNTIME),1)
CW_RUNTIME:=$(CW_RUNTIME_STATIC)
CFLAGS:=$(CFLAGS) $(OPT.RUNTIME)staticmulti
else
CW_RUNTIME:=$(CW_RUNTIME_NONSTATIC)
CFLAGS:=$(CFLAGS) $(OPT.RUNTIME)dllmulti
endif
MWSym2LibraryFiles:=$(subst $(CHAR_SPACE),$(DIRSEP),$(CW_RUNTIME) $(CW_DEFAULT_LIBS))
ifneq ($(WIN32_LIBRARY),)
WIN32_HEADERS:=1
WIN32_LIBRARIES:=$(addprefix $(OPT.LIBFILE),$(WIN32_LIBRARY))
endif
# top-level definitions
BINDIR:=$(RELEASEPATH)/$(FULLVARIANTPATH)
# TARGETPATH and COPY_FOR_STATIC_LINKAGE only apply when TARGETPATH is a sub-directory of /sys/bin
TARGETPATH_APPEND:=$(subst \,/,$(TARGETPATH))
ifneq ($(findstring /sys/bin/,$(TARGETPATH_APPEND)),)
ifeq ($(COPY_FOR_STATIC_LINKAGE),1)
BINDIRSTATICLINK:=$(BINDIR)
endif
BINDIR:=$(BINDIR)/z$(TARGETPATH_APPEND)
else
COPY_FOR_STATIC_LINKAGE:=0
endif
BLDDIR:=$(OUTPUTPATH)/$(FULLVARIANTPATH)
LIBDIR:=$(RELEASEPATH)/$(LINKPATH)
STATLIBDIR:=$(RELEASEPATH)/$(FULLVARIANTPATH)
CREATABLEPATHS:=$(BLDDIR) $(BINDIR) $(BINDIRSTATICLINK)
# Deduce whether we should be performing a build with standard CPP characteristics
# This operates differently per-OS release, although OE TARGETTYPEs always build with standard CPP traits
ifeq ($(OPEN_ENVIRONMENT),1)
STDCPP_BUILD:=1
endif
ifeq ($(SUPPORTS_STDCPP_NEWLIB),1)
ifeq ($(NOSTDCPP),1)
STDCPP_BUILD:=
else
ifeq ($(STDCPP),1)
STDCPP_BUILD:=1
endif
endif
# Operator new linking depends on both the use of the NEWLIB keyword and whether a component supports a standard
# CPP build.
ifneq ($(NEWLIB),)
# If specified, always use the NEWLIB keyword value for operator new library linking
NEWLIBFILE:=$(STATLIBDIR)/$(NEWLIB)
else
# If not performing a standard CPP build, link to an appropriate default Symbian new library.
# Standard CPP components defer to the toolchain supplied libraries.
ifneq ($(STDCPP_BUILD),1)
ifeq ($(SYSTEM_TARGET),1)
NEWLIBFILE:=$(STATLIBDIR)/$(DEFAULT_SYSTEM_NEWLIB)
else
NEWLIBFILE:=$(STATLIBDIR)/$(DEFAULT_NORMAL_NEWLIB)
endif
endif
endif
endif
ifeq ($(STDCPP_BUILD),1)
CDEFS:=$(CDEFS) $(STDCPP_DEF)
SYSTEMINCLUDE:=$(SYSTEMINCLUDE) $(STDCPP_INCLUDE)
CFLAGS:=$(CFLAGS) $(OPT.WCHAR) on
CHECKLIB_TYPE:=$(OPT.CHECKLIB.STDCPP)
STDCPPTAGFILE:=$(OPT.LIBPATH)$(EPOCROOT)/epoc32/tools/tag $(OPT.SEARCH) tag_coff
else
CFLAGS:=$(CFLAGS) $(OPT.WCHAR) off
CHECKLIB_TYPE:=$(OPT.CHECKLIB.SYMCPP)
endif
ifeq ($(WIN32_HEADERS),1)
CDEFS:=$(CDEFS) WIN32
CDEFS:=$(CDEFS) _WINDOWS
CFLAGS:=$(CFLAGS) $(OPT.STDINC)
else
CFLAGS:=$(CFLAGS) $(OPT.NOSTDINC)
endif
# get the compiler to generate dependencies for us?
ifeq ($(DEPEND_SKIP),)
CFLAGS:=$(CFLAGS) $(OPT.DEPEND)
endif
# specifics relating to the base type of the target being processed
ifeq ($(BASE_TYPE),dll)
# Special case, although this should be dealt with in the wrapper FLM in a better way
ifeq ($(TARGETTYPE),exexp)
CDEFS:=$(CDEFS) __EXE__
ENTRYSYMBOL:=__E32Startup
LFLAGS:=$(LFLAGS) $(OPT.NOENTRY)
UID1:=1000007a
else
CDEFS:=$(CDEFS) __DLL__
ENTRYSYMBOL:=__E32Dll
LFLAGS:=$(LFLAGS) $(OPT.MAINENTRYPOINT)__Win32DllMain@12
UID1:=10000079
endif
LFLAGS:=$(LFLAGS) $(OPT.SHARED)
ifneq ($(BASEADDRESS),)
LFLAGS:=$(LFLAGS) $(OPT.IMAGEBASE)$(BASEADDRESS)
endif
ifeq ($(FIRST_STATLIB),)
BASE_TYPE_STATLIB:=edll.lib
else
BASE_TYPE_STATLIB:=$(FIRST_STATLIB)
endif
endif
ifeq ($(BASE_TYPE),exe)
CDEFS:=$(CDEFS) __EXE__
ENTRYSYMBOL:=?_E32Bootstrap@@YGXXZ
UID1:=1000007a
ifeq ($(FIRST_STATLIB),)
BASE_TYPE_STATLIB:=eexe.lib
else
BASE_TYPE_STATLIB:=$(FIRST_STATLIB)
endif
endif
ifeq ($(FIRSTLIB),)
LINKER_FIRSTSTATLIB:=$(BASE_TYPE_STATLIB)
else
LINKER_FIRSTSTATLIB:=$(FIRSTLIB)
endif
BINTARGET:=$(BINDIR)/$(TARGET).$(if $(REQUESTEDTARGETEXT),$(REQUESTEDTARGETEXT),$(TARGETTYPE))
# Run trace compiler #####################################
TRACE_MARKER_PATH:=$(OUTPUTPATH)
ifeq ($(subst 0,,$(UID3)),)
ifeq ($(UID2),)
USE_TRACE_COMPILER:=
else
UID_TC:=$(UID2)
endif
else
UID_TC:=$(UID3)
endif
# USE_TRACE_COMPILER defaults to blank in Raptor config.
# Users can turn TC on by setting it to 1 in user config.
ifneq ($(USE_TRACE_COMPILER),)
include $(FLMHOME)/tracecompiler.mk
TC_RELEASABLES:=$(TRACE_DICTIONARY) $(AUTOGEN_HEADER)
endif
####################
## IMPORT LIBRARY ##
####################
IMPORTLIBLINKAS:=$(TARGET).$(if $(REQUESTEDTARGETEXT),$(REQUESTEDTARGETEXT),$(TARGETTYPE))
# LINKAS, if supplied, only applies to IMPLIB TARGETTYPEs
ifeq ($(BASE_TYPE),importlib)
ifneq ($(LINKAS),)
IMPORTLIBLINKAS:=$(LINKAS)
else
IMPORTLIBLINKAS:=$(TARGET).dll
endif
endif
ifneq ($(EXPORTLIBRARY),)
IMPORTLIBTARGET:=$(LIBDIR)/$(EXPORTLIBRARY).lib
else
IMPORTLIBTARGET:=$(LIBDIR)/$(TARGET).lib
endif
# Regardless of whether a TARGETTYPE normally supports an import library, always attempt
# to generate one if an explicit DEFFILE keyword was listed
ifeq ($(DEFFILEKEYWORD),1)
SUPPORTS_IMPORT_LIBRARY:=1
endif
ifeq ($(SUPPORTS_IMPORT_LIBRARY),1)
ifneq ($(NOEXPORTLIBRARY),1)
ifneq ($(TARGET_$(call sanitise,$(IMPORTLIBTARGET))),1)
RELEASABLES:=$(RELEASABLES) $(if $(or $(EXPORTUNFROZEN),$(DEFFILE)),$(IMPORTLIBTARGET))
# import libraries are generated to the UDEB release directory
ifneq ($(VARIANTTYPE),udeb)
CREATABLEPATHS:=$(CREATABLEPATHS) $(if $(or $(EXPORTUNFROZEN),$(DEFFILE)),$(LIBDIR))
endif
ifneq ($(EXPORTUNFROZEN),)
# EXPORTUNFROZEN amounts to doing the stage-two link with the makedef generated temporary .def file but creating a .lib
# file as a side-effect of linking. The import library is therefore dependent on the final binary in this instance.
$(info <warning project='$(PROJECT_META)' component='$(COMPONENT_META)'>EXPORTUNFROZEN present in $(PROJECT_META) - unfrozen exports will be represented in import library.</warning> )
$(IMPORTLIBTARGET): $(BINTARGET)
$(eval TARGET_$(call sanitise,$(IMPORTLIBTARGET)):=1)
else
ifneq ($(DEFFILE),)
# If a .def file physically exists (either explicitly via DEFFILE or implicitly in the correct place) then we
# generate an import library with reference to it
PREPPEDDEFFILE:=$(BLDDIR)/$(TARGET).prep.def
CLEANTARGETS:=$(CLEANTARGETS) $(PREPPEDDEFFILE)
define win32def2lib
$(IMPORTLIBTARGET): $(DEFFILE)
$(call startrule,win32def2lib) \
$(PREPDEF) "$(DEFFILE)" "$(PREPPEDDEFFILE)" && \
$(LD) $(PREPPEDDEFFILE) $(OPT.IMPORTLIB) -o "$$@" $(OPT.ADDCOMMAND) "out:$(IMPORTLIBLINKAS)" $(OPT.WARNINGS) off \
$(call endrule,win32def2lib)
endef
$(eval $(win32def2lib))
$(eval TARGET_$(call sanitise,$(IMPORTLIBTARGET)):=1)
endif
endif
endif
endif
endif
ifneq ($(BASE_TYPE),importlib)
#############
## COMPILE ##
#############
ifeq ($(COPY_FOR_STATIC_LINKAGE),1)
BINTARGETSTATICLINK:=$(BINDIRSTATICLINK)/$(TARGET).$(if $(REQUESTEDTARGETEXT),$(REQUESTEDTARGETEXT),$(TARGETTYPE))
endif
RELEASABLES:=$(RELEASABLES) $(BINTARGET) $(BINTARGETSTATICLINK)
# work on a local source files list
SRCFILES:=$(SOURCE)
# and there may be more source for stage 2 in OE builds
SRCFILES_OE:=
ifneq ($(BASE_TYPE),staticlib)
# add the generated UID source file
GENSOURCE:=$(BLDDIR)/$(TARGET).UID.CPP
SRCFILES:=$(SRCFILES) $(GENSOURCE)
# the generated symbol lookup source file for Open Environment.
# this only gets linked in at stage 2
SYMSOURCE:=$(if $(OPEN_ENVIRONMENT),$(BLDDIR)/$(TARGET)_SYM_.cpp,)
SRCFILES_OE:=$(SYMSOURCE)
CLEANTARGETS:=$(CLEANTARGETS) $(GENSOURCE) $(SYMSOURCE)
ifeq ($(UID2),00000000)
ifneq ($(UID2_DEFAULT),)
UID2:=$(UID2_DEFAULT)
endif
endif
ifeq ($(SECUREID),)
SECUREID:=$(UID3)
endif
define win32generateUIDcpp
$(GENSOURCE): $(PROJECT_META)
$(call startrule,win32generateUIDcpp,,) \
echo "// SBS-generated uid source file" > $$@ && \
echo "#include <e32cmn.h>" >> $$@ && \
echo "#pragma data_seg(\".SYMBIAN\")" >> $$@ && \
echo "__EMULATOR_IMAGE_HEADER2(0x$(UID1),0x$(UID2),0x$(UID3),EPriority$(EPOCPROCESSPRIORITY),0x$(CAPABILITYFLAG1),0x$(CAPABILITYFLAG2),0x$(SECUREID),0x$(VENDORID),0x$(VERSIONHEX),$(EPOCALLOWDLLDATA))" >> $$@ && \
echo "#pragma data_seg()" >> $$@ \
$(call endrule,win32generateUIDcpp)
endef
$(eval $(win32generateUIDcpp))
endif # neq $(BASE_TYPE),staticlib
# object files
OBJECTFILES:=$(patsubst %,$(BLDDIR)/%,$(addsuffix .o,$(basename $(notdir $(call allsuffixsubst,.cia .CIA .Cia,_.cia,$(SRCFILES))))))
OBJECTFILES:=$(patsubst %.UID.o,%_UID_.o,$(OBJECTFILES))
# object file extras for stage 2
OBJECTFILES_OE:=$(patsubst %,$(BLDDIR)/%,$(addsuffix .o,$(basename $(notdir $(SRCFILES_OE)))))
CLEANTARGETS:=$(CLEANTARGETS) $(OBJECTFILES) $(OBJECTFILES_OE)
# include paths and preinclude file
UINCLUDE:=$(patsubst %,$(OPT.USERINCLUDE)%,$(USERINCLUDE))
SINCLUDE:=$(patsubst %,$(OPT.SYSINCLUDE)%,$(SYSTEMINCLUDE))
PINCLUDE:=$(OPT.PREINCLUDE)$(notdir $(PRODUCT_INCLUDE))
#INCLUDES:=$(UINCLUDE) $(OPT.SPLITINCLUDE) $(SINCLUDE) $(PINCLUDE)
INCLUDES:=$(OPT.SPLITINCLUDE) $(UINCLUDE) $(SINCLUDE) $(PINCLUDE)
# macro definitions
DEFINES:=$(call makemacrodef,$(OPT.DEFINE),$(CDEFS) $(TARGET_MACRO))
# $(1) is the name of the source file, $(2) is the extension to map it to e.g. .o
# no space in front of function body
define mapwin32file
$(patsubst %.UID$(2),%_UID_$(2),$(BLDDIR)/$(addsuffix $2,$(basename $(notdir $(call allsuffixsubst,.cia .CIA .Cia,_.cia,$(1))))))
endef
# compile all source files, creating and including compiler generated dependency files along the way
# SED is used to (a) remove relatively pathed "object_file: source_file" references that can appear
# with some versions of mwccsym2 and (b) convert slashes
define win32compile2object
$(eval DEPENDFILENAME:=$(call mapwin32file,$(1),.o.d))
$(eval DEPENDFILE:=$(wildcard $(DEPENDFILENAME)))
$(call mapwin32file,$(1),.o): $(1) $(PROJECT_META) $(if $(DEPENDFILE),,RESOURCE BITMAP EXPORT) | $(if $(USE_TRACE_COMPILER),$(TRACE_MARKER))
$(call startrule,win32compile2object,,$(1)) \
$(CC) $$(if $$(filter %.C,$(1)),-lang c) $(CFLAGS) $(OPTION_CW) \
$(if $(STDCPP_BUILD),$$(if $$(filter %.c %.C,$(1)),,$$(call makemacrodef,$(OPT.DEFINE),$(STDCPP_WCHAR_DEF))),) \
$(DEFINES) $(INCLUDES) $(OPT.OUT)"$$@" "$(1)" && \
$(GNUSED) 's#\\\\\(.\)#/\1#g;s#/ #\\\ #g;s#\([A-Za-z]:\)\\\\#\1/#g;1,1s#.*: .* \(.\)\?$$$$#$(call mapwin32file,$(1),.o): $1 \1#' $(call mapwin32file,$(1),.dep) > $(call mapwin32file,$(1),.o.d) \
$(call endrule,win32compile2object)
CLEANTARGETS:=$$(CLEANTARGETS) $(call mapwin32file,$(1),.dep)
CLEANTARGETS:=$$(CLEANTARGETS) $(DEPENDFILENAME)
ifneq "$(DEPENDFILE)" ""
ifeq ($(NO_DEPEND_INCLUDE),)
ifeq "$(filter %CLEAN,$(call uppercase,$(MAKECMDGOALS)))" ""
-include $(DEPENDFILE)
endif
endif
endif
# individual source file compilation
SOURCETARGET_$(call sanitise,$(1)): $(call mapwin32file,$(1),.o)
endef
# List target, depends on object file
define win32list
LISTING:: $(OBJECTFILES) $(OBJECTFILES_OE)
$(call startrule,win32listing) \
$(CC) $(OPT.LISTING) $(patsubst %.UID.o,%_UID_.o,$(BLDDIR)/$(addsuffix .o,$(basename $(notdir $(1))))) -o $(basename $1).WINSCW.lst \
$(call endrule,win32listing)
endef
$(foreach SRCFILE,$(SRCFILES) $(SRCFILES_OE),$(eval $(call win32compile2object,$(SRCFILE))))
$(foreach SRCFILE,$(SRCFILES) $(SRCFILES_OE),$(eval $(call win32list,$(SRCFILE))))
######################
## RESOURCE COMPILE ##
######################
# If Python has been used to construct the environment on Windows then the standard MW include path environment
# variable will have been munged to UPPERCASE.
STDMWCINCLUDEPATHS:=$(if $(MWCSym2Includes),$(MWCSym2Includes),$(MWCSYM2INCLUDES))
define win32resourcecompile
# Note that two calls are made to the resource compiler here. There seems to be no means to override the
# default behaviour of dumping dependency files into the CWD when using -MD. So - we compile once for real,
# and then pipe dependency output through SED afterwards to create the dependency file where we want it
$(eval DEPENDFILENAME:=$(call mapwin32file,$(1),.res.d))
$(eval DEPENDFILE:=$(wildcard $(DEPENDFILENAME)))
$(call mapwin32file,$(1),.res): $(1) $(PROJECT_META) $(if $(DEPENDFILE),,RESOURCE BITMAP EXPORT)
$(call startrule,win32resourcecompile,,$(1)) \
MWCIncludes='$(STDMWCINCLUDEPATHS)' $(RC) $(OPT.OUT)"$$@" "$(1)" && \
MWCIncludes='$(STDMWCINCLUDEPATHS)' $(RC) -make $(OPT.OUT)"$$@" "$(1)" | \
$(GNUSED) 's#\\\\\(.\)#/\1#g;s#/ #\\\ #g;s#\([A-Za-z]:\)\\\\#\1/#g;1,1s#.*: .* \(.\)\?$$$$#$(call mapwin32file,$(1),.res): $1 \1#' > $(call mapwin32file,$(1),.res.d) \
$(call endrule,win32resourcecompile)
CLEANTARGETS:=$$(CLEANTARGETS) $(DEPENDFILENAME)
ifneq "$(DEPENDFILE)" ""
ifeq ($(NO_DEPEND_INCLUDE),)
ifeq "$(filter %CLEAN,$(call uppercase,$(MAKECMDGOALS)))" ""
-include $(DEPENDFILE)
endif
endif
endif
endef
$(foreach WIN32RESOURCEFILE,$(WIN32_RESOURCE),$(eval $(call win32resourcecompile,$(WIN32RESOURCEFILE))))
OBJECTFILES:=$(OBJECTFILES) $(patsubst %,$(BLDDIR)/%,$(addsuffix .res,$(basename $(notdir $(WIN32_RESOURCE)))))
##################
## LINK/ARCHIVE ##
##################
# libraries
STATICLIBS:=$(patsubst %,%.lib,$(STATICLIBRARY))
STATICLIBFILES:=$(patsubst %,$(STATLIBDIR)/%,$(STATICLIBS))
LINKER_FIRSTSTATLIBFILE:=$(STATLIBDIR)/$(LINKER_FIRSTSTATLIB)
ifeq ($(VARIANTTYPE),urel)
LINKLIBS:=$(patsubst %.dso,%.lib,$(LIBRARY))
else
LINKLIBS:=$(patsubst %.dso,%.lib,$(LIBRARY_DEBUG))
endif
LINKLIBFILES:=$(patsubst %,$(LIBDIR)/%,$(LINKLIBS))
MAP:=
ifneq ($(BASE_TYPE),staticlib)
ifneq ($(BASE_TYPE),importlib)
# link map file (urel only)
ifeq ($(VARIANTTYPE),urel)
MAP:=$(OPT.MAP)$(BINTARGET).map
RELEASABLES:=$(RELEASABLES) $(BINTARGET).map
endif
endif
endif
# all object files are listed in a response file to minimise the length of linker calls
OBJECTFILES_LRF:=$(BLDDIR)/$(TARGET)_$(VARIANTTYPE)_objects.lrf
CLEANTARGET:=$(CLEANTARGETS) $(OBJECTFILES_LRF)
define groupin10
$(if $1,@echo -e $(foreach L,$(wordlist 1,10,$1),"$(L)\\n") >> $(OBJECTFILES_LRF),)
$(if $1,$(call groupin10,$(wordlist 11,$(words $1),$1)),@true)
endef
#
# Archive
#
ifeq ($(BASE_TYPE),staticlib)
define win32archive
$(BINTARGET): $(OBJECTFILES)
@echo "" > $(OBJECTFILES_LRF);
$(call groupin10,$(notdir $(OBJECTFILES))) ;
$(call startrule,win32archive) \
$(LD) $(OPT.STATICLIBRARY) $(LFLAGS) $(OPT.NOIMPLIB) $(WIN32_LIBRARIES) $(OPT.OUT)"$$@" $(STDCPPTAGFILE) $(OPT.LIBPATH)$(BLDDIR) $(OPT.SEARCH) @$(OBJECTFILES_LRF) \
$(if $(SAVESPACE),; $(GNURM) -rf $(BLDDIR); true,) \
$(call endrule,win32archive)
endef
$(eval $(win32archive))
endif
ifneq ($(EPOCHEAPSIZEMIN_DEC_KB),)
LFLAGS:=$(LFLAGS) $(OPT.HEAPRESERVE)$(EPOCHEAPSIZEMAX_DEC_KB) $(OPT.HEAPCOMMIT)$(EPOCHEAPSIZEMIN_DEC_KB)
endif
#
# Simple link
#
ifeq ($(BASE_TYPE),exe)
define win32simplelink
$(BINTARGET).map: $(BINTARGET)
$(BINTARGET): $(OBJECTFILES) $(LINKER_FIRSTSTATLIBFILE) $(NEWLIBFILE) $(STATICLIBFILES) $(LINKLIBFILES)
@echo "" > $(OBJECTFILES_LRF);
$(call groupin10,$(notdir $(OBJECTFILES))) ;
$(call startrule,win32simplelink) \
$(if $(SUPPORTS_STDCPP_NEWLIB),$(if $(STATICLIBFILES),$(CHECKLIB) $(CHECKLIB_TYPE) $(OPT.CHECKLIB.WIN32) $(STATICLIBFILES) &&,),) \
MWSym2LibraryFiles="$(MWSym2LibraryFiles)" $(LD) $(LFLAGS) $(OPT.MENTRYPOINT)$(ENTRYSYMBOL) $(MAP) $(LINKER_FIRSTSTATLIBFILE) $(NEWLIBFILE) $(WIN32_LIBRARIES) $(STATICLIBFILES) $(LINKLIBFILES) $(OPT.OUT)"$$@" $(OPT.NOIMPLIB) $(OPT.LIBPATH)$(BLDDIR) $(OPT.SEARCH) @$(OBJECTFILES_LRF) \
$(if $(SAVESPACE),; $(GNURM) -rf $(BLDDIR); true,) \
$(call endrule,win32simplelink)
endef
$(eval $(win32simplelink))
endif
#
# Two stage link
#
ifeq ($(BASE_TYPE),dll)
TMP_IMPLIB:=$(BLDDIR)/$(TARGET).lib
TMP_INFFILE:=$(BLDDIR)/$(TARGET).inf
TMP_SYMFILE:=$(if $(OPEN_ENVIRONMENT),$(BLDDIR)/$(TARGET).sym,)
TMP_TARGET:=$(BLDDIR)/$(TARGET).$(if $(REQUESTEDTARGETEXT),$(REQUESTEDTARGETEXT),$(TARGETTYPE))
TMP_DEFFILE:=$(BLDDIR)/$(TARGET).def
CLEANTARGETS:=$(CLEANTARGETS) $(TMP_IMPLIB) $(TMP_INFFILE) $(TMP_TARGET) $(TMP_DEFFILE) $(TMP_SYMFILE)
MAKEDEF_ARGS:=-absent $(ENTRYSYMBOL) -Inffile $(call dblquote,$(TMP_INFFILE)) $(NAME_LOOKUP)
ifeq ($(SYSTEM_TARGET),1)
MAKEDEF_ARGS:=$(MAKEDEF_ARGS) -SystemTargetType
endif
ifneq ($(FIXED_EXPORT),)
# Fixed export TARGETTYPE, but with possibility of a .def file if explicitly specified and available
ifeq ($(DEFFILEKEYWORD),1)
ifneq ($(DEFFILE),)
MAKEDEF_ARGS:=$(MAKEDEF_ARGS) -Frzfile $(call dblquote,$(DEFFILE))
endif
endif
MAKEDEF_ARGS:=$(MAKEDEF_ARGS) -1 $(FIXED_EXPORT)
else
# Variable export TARGETTYPE with either deduced or explicitly specified .def file (if available)
ifneq ($(DEFFILE),)
MAKEDEF_ARGS:=$(MAKEDEF_ARGS) -Frzfile $(call dblquote,$(DEFFILE))
endif
endif
ifneq ($(EXPORTSUNFROZEN),)
LIBRARY: $(TMP_IMPLIB)
endif
define win32stageonelink
# Stage One
# Link by name, generating temporary main binary and import library.
$(TMP_IMPLIB): $(TMP_TARGET)
$(TMP_TARGET): $(OBJECTFILES) $(LINKER_FIRSTSTATLIBFILE) $(NEWLIBFILE) $(STATICLIBFILES) $(LINKLIBFILES)
@echo "" > $(OBJECTFILES_LRF);
$(call groupin10,$(notdir $(OBJECTFILES))) ;
$(call startrule,win32stageonelink) \
$(if $(SUPPORTS_STDCPP_NEWLIB),$(if $(STATICLIBFILES),$(CHECKLIB) $(CHECKLIB_TYPE) $(OPT.CHECKLIB.WIN32) $(STATICLIBFILES) &&,),) \
MWSym2LibraryFiles="$(MWSym2LibraryFiles)" $(LD) $(LFLAGS) $(OPT.MENTRYPOINT)$(ENTRYSYMBOL) $(OPT.EXPORT)$(EXPORT_TYPE) $(OPT.NOCOMPACTIMPORTLIB) $(OPT.ADDCOMMAND) "out:$(TARGET).$(if $(REQUESTEDTARGETEXT),$(REQUESTEDTARGETEXT),$(TARGETTYPE))" $(OPT.WARNINGS) off $(OPT.IMPLIB)"$(TMP_IMPLIB)" $(OPT.OUT)"$(TMP_TARGET)" $(LINKER_FIRSTSTATLIBFILE) $(NEWLIBFILE) $(WIN32_LIBRARIES) $(STATICLIBFILES) $(LINKLIBFILES) $(OPT.LIBPATH)$(BLDDIR) $(OPT.SEARCH) @$(OBJECTFILES_LRF) \
$(call endrule,win32stageonelink)
endef
$(eval $(win32stageonelink))
define win32processexports
# Process exports
# Generate a descriptive info file from the import library.
# Push info file through MAKEDEF to generated a valid .def file for link by ordinal.
$(TMP_DEFFILE): $(TMP_IMPLIB)
$(call startrule,win32processexports) \
$(LD) $(LFLAGS_INFGEN) $(OPT.OUT)"$(TMP_INFFILE)" "$(TMP_IMPLIB)" && \
$(MAKEDEF) $(MAKEDEF_ARGS) "$$@" \
$(call endrule,win32processexports)
endef
$(eval $(win32processexports))
ifeq ($(OPEN_ENVIRONMENT),1)
define win32processoeexports
# Process additional exports for Open Environment
# Generate a symbol file from the temporary DLL.
# Generate a C++ source file from the symbol file
$(TMP_SYMFILE): $(TMP_TARGET)
$(call startrule,win32generatesymfile) \
$(LD) $(LFLAGS_SYMGEN) $(OPT.OUT)"$(TMP_SYMFILE)" "$(TMP_TARGET)" \
$(call endrule,win32generatesymfile)
$(SYMSOURCE): $(TMP_SYMFILE)
$(call startrule,win32generatesymcpp) \
$(SYMLOOKUPUTIL) $(OPT.OUT)"$(SYMSOURCE)" $(OPT.SYM)"$(TMP_SYMFILE)" $(SYMLOOKUPARGS) \
$(call endrule,win32generatesymcpp)
endef
$(eval $(win32processoeexports))
endif
define win32stagetwolink
# Stage Two
# Link by ordinal, based on a previously MAKEDEF-generated temporary .def file
# Optionally create an import library if EXPORTUNFROZEN is specified
#
$(BINTARGET).map: $(BINTARGET)
$(BINTARGET): $(OBJECTFILES) $(OBJECTFILES_OE) $(LINKER_FIRSTSTATLIBFILE) $(STATICLIBFILES) $(NEWLIBFILE) $(LINKLIBFILES) $(TMP_DEFFILE)
@echo "" > $(OBJECTFILES_LRF);
$(call groupin10,$(notdir $(OBJECTFILES) $(OBJECTFILES_OE))) ;
$(call startrule,win32stagetwolink) \
MWSym2LibraryFiles="$(MWSym2LibraryFiles)" \
$(LD) $(LFLAGS) $(OPT.DEFFILE)$(TMP_DEFFILE) $(MAP) $(LINKER_FIRSTSTATLIBFILE) $(NEWLIBFILE) $(WIN32_LIBRARIES) $(STATICLIBFILES) $(LINKLIBFILES) \
$(OPT.OUT)"$$@" \
$(if $(EXPORTUNFROZEN),$(OPT.IMPLIB)$(IMPORTLIBTARGET),$(OPT.NOIMPLIB)) \
$(OPT.LIBPATH)$(BLDDIR) $(OPT.SEARCH) @$(OBJECTFILES_LRF) \
$(if $(SAVESPACE),; $(GNURM) -rf $(BLDDIR); true,) \
$(call endrule,win32stagetwolink)
endef
$(eval $(win32stagetwolink))
define win32copyforstaticlink
# Copy additonal binary to "traditional" output location (if required)
$(BINTARGETSTATICLINK): $(BINTARGET)
$(call startrule,win32copyforstaticlink) \
$(GNUCP) $$< $$@ \
$(call endrule,win32copyforstaticlink)
endef
ifeq ($(COPY_FOR_STATIC_LINKAGE),1)
$(eval $(win32copyforstaticlink))
endif
define e32freeze
# DLL-type targets that support import library generation support freezing of exports using EFREEZE
FREEZE:: $(1)
$(call startrule,freeze,,$(RESOLVED_DEFFILE)) \
$(EFREEZE) $(EFREEZE_REMOVE_OPTION) "$(RESOLVED_DEFFILE)" $(FIVESPACES) "$(2)" \
$(call endrule,freeze)
endef
# Create only one freeze target per urel/udeb variant as the interface won't differ between them
# Only create a freeze target if the component supports import library generation
ifneq ($(TARGET_$(call sanitise,$(IMPORTLIBTARGET))_FREEZE),1)
ifeq ($(SUPPORTS_IMPORT_LIBRARY),1)
$(eval $(call e32freeze,$(BINTARGET),$(TMP_DEFFILE)))
$(eval TARGET_$(call sanitise,$(IMPORTLIBTARGET))_FREEZE:=1)
endif
endif
endif
endif # neq $(BASE_TYPE),importlib
# Global targets
.PHONY:: $(ALLTARGET)
$(ALLTARGET):: $(RELEASABLES)
TARGET:: $(RELEASABLES)
ifeq ($(TARGET_$(call sanitise,$(IMPORTLIBTARGET))),1)
LIBRARY:: $(IMPORTLIBTARGET)
else
ifeq ($(BASE_TYPE),staticlib)
LIBRARY:: $(BINTARGET)
endif
endif
# Deal with test code batch files generation.
ifneq ($(TESTPATH),)
EPOC_ROOT:=$(patsubst %/,%,$(EPOCROOT))
TOBLDINF:=$(dir $(subst :,,$(subst $(EPOC_ROOT)/,,$(COMPONENT_META))))
BATCHDIR:=$(EPOCROOT)/epoc32/release/$(VARIANTPLATFORM)/$(VARIANTTYPE)/z/test/
$(eval $(call MakeTestBatchFiles,$(TARGET),$(BATCHDIR)$(MODULE)/$(VARIANTPLATFORM).$(TESTPATH)))
BATCHFILE_CREATED_$(BATCHDIR)$(MODULE)/$(VARIANTPLATFORM).$(TESTPATH):=1
TARGET_CREATED_$(EPOCROOT)/epoc32/release/$(VARIANTPLATFORM)/$(VARIANTTYPE)/z/test/$(MODULE)/$(VARIANTPLATFORM).$(TESTPATH)_$(TARGET):=1
RELEASABLES:=$(RELEASABLES) $(EPOCROOT)/epoc32/release/$(VARIANTPLATFORM)/$(VARIANTTYPE)/z/test/$(MODULE)/$(VARIANTPLATFORM).$(TESTPATH)
endif
# clean up
$(call raptor_clean,$(CLEANTARGETS))
# make the output directories while reading makefile - some build engines prefer this
$(call makepath,$(CREATABLEPATHS))
# for the --what option and the log file
$(call raptor_release,$(RELEASABLES) $(TC_RELEASABLES))