OpenModem/bertos/rules.mk

400 lines
12 KiB
Makefile

#
# $Id: rules.mk 4643 2010-12-20 12:10:41Z lottaviano $
# Copyright 2002,2003,2004,2005,2006 Develer S.r.l. (http://www.develer.com/)
# All rights reserved.
#
# Based on:
# GCC-AVR standard Makefile part 2
# Volker Oth 1/2000
#
# Author: Bernie Innocenti <bernie@codewiz.org>
#
# Remove all default pattern rules
.SUFFIXES:
# Verbosity
ifeq ($(V),1)
# Verbose build
Q :=
L := @echo >/dev/null
else
# Quiet build
Q := @
L := @echo
endif
# Select Bourne Again SHell as default make shell
SHELL := bash
# Checker build
ifeq ($(C),1)
CC = $(CHECKER)
CFLAGS += -Wundef -D__x86_64__=1 -D__unix__=1 -D__linux__=1 -D__STDC_VERSION__=199901L
endif
# Initialize $(top_srcdir) with current directory, unless it was already initialized
top_srcdir ?= $(shell pwd)
# Virtual Product: based on target products may be different.
# e.g. Embedded target = hex, s19, bin
# Hosted = exe
# Library = lib.a
TRG_TGT = $(TRG:%=$(OUTDIR)/%.tgt)
RECURSIVE_TARGETS = all-recursive install-recursive clean-recursive
# The default target
.PHONY: all
all:: all-recursive $(TRG_TGT)
# Generate project documentation
.PHONY: docs
docs:
$L "Building documentation"
$Q $(DOXYGEN)
# Generate ctags
.PHONY: tags
tags:
$L "Rebuilding C tags database"
$Q ctags -R --exclude=doc
# Run testsuite
.PHONY: check
check:
$L "Running testsuite"
$Q test/run_tests.sh
define build_target
ifeq ($$($(1)_HOSTED),1)
#On Darwin architecture the assembly doesn't link correctly if these flags are set.
ifeq ($(shell uname | grep -c "Darwin"),1)
LIST_FLAGS := ""
MAP_FLAGS := ""
LDFLAGS := ""
endif
#use hosted specific map flags
$(1)_MAP_FLAGS = $$(MAP_FLAGS_HOST)
#Handle library creation
ifeq ($$($(1)_MAKELIB),1)
$$(OUTDIR)/$(1).tgt : $$(OUTDIR)/$(1).a
else
#Otherwise in hosted application we need only executable file.
$$(OUTDIR)/$(1).tgt : $$(OUTDIR)/$(1)
endif
else
#use embedded specific map flags
$(1)_MAP_FLAGS = $$(MAP_FLAGS_EMB)
#In embedded we need s19, hex and bin
$$(OUTDIR)/$(1).tgt : $$(OUTDIR)/$(1).s19 $$(OUTDIR)/$(1).hex $$(OUTDIR)/$(1).bin
endif
$(1)_LDFLAGS += $$($(1)_MAP_FLAGS)
# In embedded systems the target CPU is needed,
# but there are different options on how to pass
# it to the compiler.
ifneq ($$(strip $$($(1)_MCU)),)
$(1)_MCPU = -mmcu=$$($(1)_MCU)
endif
ifneq ($$(strip $$($(1)_CPU)),)
$(1)_MCPU = -mcpu=$$($(1)_CPU)
endif
# If a CPU is specified add to
# project specific flags.
ifneq ($$($(1)_MCPU),)
$(1)_CFLAGS += $$($(1)_MCPU)
$(1)_CXXFLAGS += $$($(1)_MCPU)
$(1)_ASFLAGS += $$($(1)_MCPU)
$(1)_CPPAFLAGS += $$($(1)_MCPU)
$(1)_LDFLAGS += $$($(1)_MCPU)
endif
ifneq ($$(strip $$($(1)_LDSCRIPT)),)
$(1)_LDFLAGS += -Wl,-T$$($(1)_LDSCRIPT)
endif
ifneq ($$($(1)_CROSS),)
#deprecated: use PREFIX, SUFFIX and HOSTED mechanism instead
$(1)_PREFIX = $$($(1)_CROSS)
$(1)_SUFFIX =
endif
$(1)_CC ?= $$($(1)_PREFIX)$$(CC)$$($(1)_SUFFIX)
$(1)_CXX ?= $$($(1)_PREFIX)$$(CXX)$$($(1)_SUFFIX)
$(1)_AS ?= $$($(1)_PREFIX)$$(AS)$$($(1)_SUFFIX)
$(1)_AR ?= $$($(1)_PREFIX)$$(AR)$$($(1)_SUFFIX)
$(1)_OBJCOPY ?= $$($(1)_PREFIX)$$(OBJCOPY)$$($(1)_SUFFIX)
$(1)_STRIP ?= $$($(1)_PREFIX)$$(STRIP)$$($(1)_SUFFIX)
ifneq ($$(strip $$($(1)_CXXSRC)),)
$(1)_LD = $$($(1)_PREFIX)$$(LDXX)$$($(1)_SUFFIX)
else
$(1)_LD = $$($(1)_PREFIX)$$(LD)$$($(1)_SUFFIX)
endif
# Debug stuff
ifeq ($$($(1)_DEBUG),1)
# AVR is an harvard processor
# and needs debug module
# to be compiled in program memory
ifeq ($$(findstring avr, $$($(1)_PREFIX)),avr)
$(1)_DEBUGSRC = $(1)_PCSRC
else
$(1)_DEBUGSRC = $(1)_CSRC
endif
$$($(1)_DEBUGSRC) += bertos/drv/kdebug.c
# Also add formatwr.c (printf) if not already present
ifneq ($$(findstring formatwr.c, $$($$($(1)_DEBUGSRC))),formatwr.c)
$$($(1)_DEBUGSRC) += bertos/mware/formatwr.c
endif
# Also add hex.c (for printf) if not already present
ifneq ($$(findstring hex.c, $$($$($(1)_CSRC))),hex.c)
$$($(1)_CSRC) += bertos/mware/hex.c
endif
$(1)_CFLAGS += -D_DEBUG
$(1)_CXXFLAGS += -D_DEBUG
else
$(1)_CFLAGS += -fomit-frame-pointer
$(1)_CXXFLAGS += -fomit-frame-pointer
endif
$(1)_COBJ = $$(foreach file,$$($(1)_CSRC:%.c=%.o),$$(OBJDIR)/$(1)/$$(file))
$(1)_CXXOBJ = $$(foreach file,$$($(1)_CXXSRC:%.cpp=%.o),$$(OBJDIR)/$(1)/$$(file))
$(1)_PCOBJ = $$(foreach file,$$($(1)_PCSRC:%.c=%_P.o),$$(OBJDIR)/$(1)/$$(file))
$(1)_AOBJ = $$(foreach file,$$($(1)_ASRC:%.s=%.o),$$(OBJDIR)/$(1)/$$(file))
$(1)_CPPAOBJ = $$(foreach file,$$($(1)_CPPASRC:%.S=%.o),$$(OBJDIR)/$(1)/$$(file))
$(1)_OBJ := $$($(1)_COBJ) $$($(1)_CXXOBJ) $$($(1)_PCOBJ) $$($(1)_AOBJ) $$($(1)_CPPAOBJ)
$(1)_SRC := $$($(1)_CSRC) $$($(1)_CXXSRC) $$($(1)_PCSRC) $$($(1)_ASRC) $$($(1)_CPPASRC)
OBJ += $$($(1)_OBJ)
# Compile: instructions to create assembler and/or object files from C source
$$($(1)_COBJ) : $$(OBJDIR)/$(1)/%.o : %.c
$L "$(1): Compiling $$< (C)"
@$$(MKDIR_P) $$(dir $$@)
$Q $$($(1)_CC) -c $$(CFLAGS) $$($(1)_CFLAGS) $$($(1)_CPPFLAGS) $$(CPPFLAGS) $$($$(*F)_CFLAGS) $$< -o $$@
# Compile: instructions to create assembler and/or object files from C++ source
$$($(1)_CXXOBJ) : $$(OBJDIR)/$(1)/%.o : %.cpp
$L "$(1): Compiling $$< (C++)"
@$$(MKDIR_P) $$(dir $$@)
$Q $$($(1)_CXX) -c $$(CXXFLAGS) $$($(1)_CXXFLAGS) $$($(1)_CPPFLAGS) $$(CPPFLAGS) $$($$(*F)_CXXFLAGS) $$< -o $$@
# Generate assembly sources from C files (debug)
$$(OBJDIR)/$(1)/%.s : %.c
$L "$(1): Generating asm source $$<"
@$$(MKDIR_P) $$(dir $$@)
$Q $$($(1)_CC) -S $$(CFLAGS) $$($(1)_CFLAGS) $$($(1)_CPPFLAGS) $$($$(*F)_CFLAGS) $$< -o $$@
# Generate special progmem variant of a source file
$$($(1)_PCOBJ) : $$(OBJDIR)/$(1)/%_P.o : %.c
$L "$(1): Compiling $$< (PROGMEM)"
@$$(MKDIR_P) $$(dir $$@)
$Q $$($(1)_CC) -c -D_PROGMEM $$(CFLAGS) $$($(1)_CFLAGS) $$($(1)_CPPFLAGS) $$(CPPFLAGS) $$($$(*F)_CFLAGS) $$< -o $$@
# Assemble: instructions to create object file from assembler files
$$($(1)_AOBJ): $$(OBJDIR)/$(1)/%.o : %.s
$L "$(1): Assembling $$<"
@$$(MKDIR_P) $$(dir $$@)
$Q $$($(1)_AS) -c $$(ASFLAGS) $$($(1)_ASFLAGS) $$($$(*F)_ASFLAGS) $$< -o $$@
$$($(1)_CPPAOBJ): $$(OBJDIR)/$(1)/%.o : %.S
$L "$(1): Assembling with CPP $$<"
@$$(MKDIR_P) $$(dir $$@)
$Q $$($(1)_CC) -c $$(CPPAFLAGS) $$($(1)_CPPAFLAGS) $$($(1)_CPPFLAGS) $$(CPPFLAGS) $$($$(*F)_CPPAFLAGS) $$< -o $$@
# Link: instructions to create elf output file from object files
$$(OUTDIR)/$(1).elf $$(OUTDIR)/$(1)_nostrip: bumprev $$($(1)_OBJ) $$($(1)_LDSCRIPT)
$L "$(1): Linking $$@"
@$$(MKDIR_P) $$(dir $$@)
$Q $$($(1)_LD) $$($(1)_OBJ) $$(LIB) $$(LDFLAGS) $$($(1)_LDFLAGS) -o $$@
# Instructions to create a static library from object files
$$(OUTDIR)/$(1).a: bumprev $$($(1)_OBJ)
$L "$(1): Creating static library $$@"
@$$(MKDIR_P) $$(dir $$@)
$Q $$($(1)_AR) $$(ARFLAGS) $$($(1)_ARFLAGS) $$@ $$($(1)_OBJ)
# Strip debug info
$$(OUTDIR)/$(1): $$(OUTDIR)/$(1)_nostrip
$L "$(1): Generating stripped executable $$@"
$Q $$($(1)_STRIP) -o $$@ $$^
# Compile and link (program-at-a-time)
$$(OUTDIR)/$(1)_whole.elf: bumprev $$($(1)_SRC) $$($(1)_LDSCRIPT)
$L "$(1): Compiling and Linking whole program $$@"
@$$(MKDIR_P) $$(dir $$@)
$Q $$($(1)_CC) $$($(1)_SRC) $$(CFLAGS) $$($(1)_CFLAGS) $$(LIB) $$(LDFLAGS) $$($(1)_LDFLAGS) -o $$@
# Flash target
.PHONY: flash_$(1)
flash_$(1): $(OUTDIR)/$(1).hex flash_$(1)_local
$L "$(1): Flashing target"
$Q if [ ! -f $$($(1)_FLASH_SCRIPT) ] ; then \
printf "CLDLG: No flash script found.\n" ; \
exit 1 ; \
fi
$Q if [ ! "$$($(1)_PROGRAMMER_TYPE)" == "none" ] ; then \
PROGRAMMER_CPU=$$($(1)_PROGRAMMER_CPU) PROGRAMMER_TYPE=$$($(1)_PROGRAMMER_TYPE) \
PROGRAMMER_PORT=$$($(1)_PROGRAMMER_PORT) IMAGE_FILE=$$< \
$$($(1)_FLASH_SCRIPT) ; \
else \
printf "CLDLG: No programmer interface configured, see http://dev.bertos.org/wiki/ProgrammerInterface\n" ; \
exit 1 ; \
fi
.PHONY: flash_$(1)_local
flash_$(1)_local:
.PHONY: stopflash_$(1)
stopflash_$(1):
$L "$(1): Stopping target flashing"
$Q if [ ! -f $$($(1)_STOPFLASH_SCRIPT) ] ; then \
printf "CLDLG: No stopflash script found.\n" ; \
exit 1 ; \
fi
$Q $$($(1)_STOPFLASH_SCRIPT) ;
# Debug target
.PHONY: debug_$(1)
debug_$(1): $(OUTDIR)/$(1).elf
$L "$(1): Debugging target"
$Q if [ ! -f $$($(1)_DEBUG_SCRIPT) ] ; then \
printf "CLDLG: No debug script found.\n" ; \
exit 1 ; \
fi
$Q if [ ! "$$($(1)_PROGRAMMER_TYPE)" == "none" ] ; then \
PROGRAMMER_CPU=$$($(1)_PROGRAMMER_CPU) PROGRAMMER_TYPE=$$($(1)_PROGRAMMER_TYPE) \
PROGRAMMER_PORT=$$($(1)_PROGRAMMER_PORT) GDB_PORT=3333 \
ELF_FILE=$$< \
$$($(1)_DEBUG_SCRIPT) ; \
else \
printf "CLDLG: No programmer interface configured, see http://dev.bertos.org/wiki/ProgrammerInterface\n" ; \
exit 1 ; \
fi
.PHONY: stopdebug_$(1)
stopdebug_$(1):
$L "$(1): Stopping debugger"
$Q if [ ! -f $$($(1)_STOPDEBUG_SCRIPT) ] ; then \
printf "CLDLG: No stopdebug script found.\n" ; \
exit 1 ; \
fi
$Q $$($(1)_STOPDEBUG_SCRIPT) ;
.PHONY: fuses_$(!)
fuses_$(1):
if [ ! -z "$$($(1)_efuse)" ] ; then \
if ! $(AVRDUDE) $(DPROG) -p $$($(1)_MCU) -U efuse:w:$$($(1)_efuse):m ; then \
$(AVRDUDE) $(DPROG) -p $$($(1)_MCU) -U efuse:w:$$($(1)_efuse):m ; \
fi \
fi
if [ ! -z "$$($(1)_hfuse)" ] ; then \
if ! $(AVRDUDE) $(DPROG) -p $$($(1)_MCU) -U hfuse:w:$$($(1)_hfuse):m ; then \
$(AVRDUDE) $(DPROG) -p $$($(1)_MCU) -U hfuse:w:$$($(1)_hfuse):m ; \
fi \
fi
if [ ! -z "$$($(1)_lfuse)" ] ; then \
if ! $(AVRDUDE) $(DPROG) -p $$($(1)_MCU) -U lfuse:w:$$($(1)_lfuse):m ; then \
$(AVRDUDE) $(DPROG) -p $$($(1)_MCU) -U lfuse:w:$$($(1)_lfuse):m ; \
fi \
fi
if [ ! -z "$$($(1)_lock)" ] ; then \
if ! $(AVRDUDE) $(DPROG) -p $$($(1)_MCU) -U lock:w:$$($(1)_lock):m ; then \
$(AVRDUDE) $(DPROG) -p $$($(1)_MCU) -U lock:w:$$($(1)_lock):m ; \
fi \
fi
$$(OUTDIR)/$(1).hex: $$(OUTDIR)/$(1).elf
$$($(1)_OBJCOPY) -R .eeprom -O ihex $$< $$@
$$(OUTDIR)/$(1).s19: $$(OUTDIR)/$(1).elf
$$($(1)_OBJCOPY) -O srec $$< $$@
$$(OUTDIR)/$(1).bin: $$(OUTDIR)/$(1).elf
$$($(1)_OBJCOPY) -O binary $$< $$@
$$(OUTDIR)/$(1).obj: $$(OUTDIR)/$(1).elf
$$($(1)_OBJCOPY) -O avrobj $$< $$@
$$(OUTDIR)/$(1).rom: $$(OUTDIR)/$(1).elf
$$($(1)_OBJCOPY) -O $$(FORMAT) $$< $$@
# $$($(1)_OBJCOPY) -j .eeprom --set-section-flags=.eeprom="alloc,load" -O $$(FORMAT) $$< $$(@:.rom=.eep)
endef
# Generate build rules for all targets
$(foreach t,$(TRG),$(eval $(call build_target,$(t))))
# Generate Qt's moc files from headers
# NOTE: moc totally sucks and can generate empty files for some error conditions,
# leading to puzzling linker errors. Kill 'em and abort build.
%_moc.cpp: %.h
$(QT_MOC) -o $@ $<
if [ ! -s $< ]; then \
rm -f $@; \
exit 1; \
fi
%.cof: %.elf
$(COFFCONVERT) -O coff-ext-avr $< $@
# $(COFFCONVERT) -O coff-avr $< $@ # For use with AVRstudio 3
#make instruction to delete created files
cleanall: clean
clean: clean-recursive
-$(RM_R) $(OBJDIR)
-$(RM_R) $(OUTDIR)
$(RECURSIVE_TARGETS):
@target=`echo $@ | sed s/-recursive//`; \
for dir in $(SUBDIRS); do \
if [ -e $$dir/configure.in ] || [ -e $$dir/configure.ac ] && [ ! -x $$dir/configure ]; then \
echo "Running autogen.sh in $$dir..."; \
( cd $$dir && chmod a+x autogen.sh && ./autogen.sh && rm -f Makefile || exit 1 ); \
fi; \
if [ ! -e $$dir/Makefile ]; then \
if [ -e "$$dir/build-$(ARCH)" ]; then \
echo "Running build script in $$dir..."; \
( cd $$dir && chmod a+x build && ./build || exit 1 ); \
else \
echo "Running configure in $$dir..."; \
( cd $$dir && ./configure --prefix=$(PREFIX) || exit 1 ); \
fi; \
fi; \
$(MAKE) -C $$dir $$target || exit 1; \
done
BUILDREV_H = buildrev.h
.PHONY: bumprev
bumprev:
@if [ -e bertos/verstag.c ]; then \
buildnr=0; \
if [ -f $(BUILDREV_H) ]; then \
buildnr=`sed <"$(BUILDREV_H)" -n -e 's/#define VERS_BUILD \([0-9][0-9]*\)/\1/p'`; \
fi; \
buildnr=`expr $$buildnr + 1`; \
buildhost=`hostname | sed -n -e '1h;2,$$H;$${g;s/\n//g;p;}'`; \
echo "#define VERS_BUILD $$buildnr" >"$(BUILDREV_H)"; \
echo "#define VERS_HOST \"$$buildhost\"" >>"$(BUILDREV_H)"; \
echo "Building revision $$buildnr"; \
fi; \
#
# Include dependencies
ifneq ($(strip $(OBJ)),)
-include $(OBJ:%.o=%.d)
endif