# # Custom file for "portsw" -- AMD 29205 based board # # $Id$ # # Specify here the host and target "architectures" HOST_ARCH=o-$(RTEMS_HOST) TARGET_ARCH=o-$(RTEMS_BSP) RTEMS_CPU=a29k RTEMS_CPU_MODEL=a29205 # This is the actual bsp directory used during the build process. RTEMS_BSP_FAMILY=portsw # use the inline functions instead of the macros # ref: src/exec/generic/Makefile # Need INLINE_UPCASE set to uppercase value of INLINE variable # ref: make/compilers/gcc-force386.cfg INLINE=macros INLINE_UPCASE= # The makefiles all use PROJECT_xxx for variables. # Ie: $(PROJECT_RELEASE) is the install point. # Externally, we think of these as "RTEMS" variables. # Here is where we convert from RTEMS forms to PROJECT forms # See also make/main.cfg, which derives some more. PROJECT_ROOT=$(RTEMS_ROOT)/c # HOST Compiler config file # You may also want to specify where the compiler resides here. CC_$(HOST_ARCH)_DIR=$(RTEMS_GNUTOOLS_HOST) CONFIG.$(HOST_ARCH).CC = $(RTEMS_ROOT)/make/compilers/gcc.cfg ## Target compiler config file, if any CC_$(TARGET_ARCH)_DIR=$(RTEMS_GNUTOOLS) CONFIG.$(TARGET_ARCH).CC = $(RTEMS_ROOT)/make/compilers/gcc-$(RTEMS_BSP).cfg # Use the LIBC support for CYGNUS newlib # RTEMS_LIBC_DIR must already be set (by module file) RTEMS_USE_NEWLIB=yes # Define this to yes if C++ is included in the development environment. # This requires that at least the GNU C++ compiler and libg++ be installed. # # Need "main" in BSP so can't link C++ sample test or you will get # duplicate symbol errors for main # HAS_CPLUSPLUS=no # Define this to yes if this target supports multiprocessor environments. HAS_MP=no # This target does NOT support the TCP/IP stack so ignore requests # to enable it. HAS_NETWORKING=no # Define this to yes if this target wants the posix api HAS_POSIX_API=no # Miscellaneous additions go here