#------------------------------------------------------------------------------ # BSP "PUBLIC" MAKEFILE CONTENT # # This file is intended to be included in an application or library # Makefile that is using this BSP. You can create such a Makefile with # the nios2-app-generate-makefile or nios2-lib-generate-makefile # commands. # # The following variables must be defined before including this file: # # ALT_LIBRARY_ROOT_DIR # Contains the path to the BSP top-level (aka root) directory #------------------------------------------------------------------------------ #------------------------------------------------------------------------------ # PATHS #------------------------------------------------------------------------------ # Path to the provided linker script. BSP_LINKER_SCRIPT := $(ALT_LIBRARY_ROOT_DIR)/linker.x # Include paths: # The path to root of all header files that a library wishes to make # available for an application's use is specified here. Note that this # may not be *all* folders within a hierarchy. For example, if it is # desired that the application developer type: # #include # #include # With files laid out like this: # /inc/sockets.h # /inc/ip/tcpip.h # # Then, only /inc need be added to the list of include # directories. Alternatively, if you wish to be able to directly include # all files in a hierarchy, separate paths to each folder in that # hierarchy must be defined. # The following are the "base" set of include paths for a BSP. # These paths are appended to the list that individual software # components, drivers, etc., add in the generated portion of this # file (below). ALT_INCLUDE_DIRS_TO_APPEND += \ $(ALT_LIBRARY_ROOT_DIR) \ $(ALT_LIBRARY_ROOT_DIR)/drivers/inc # Additions to linker library search-path: # Here we provide a path to "our self" for the application to construct a # "-L " out of. This should contain a list of directories, # relative to the library root, of all directories with .a files to link # against. ALT_LIBRARY_DIRS += $(ALT_LIBRARY_ROOT_DIR) #------------------------------------------------------------------------------ # COMPILATION FLAGS #------------------------------------------------------------------------------ # Default C pre-processor flags for a BSP: ALT_CPPFLAGS += -pipe #------------------------------------------------------------------------------ # MANAGED CONTENT # # All content between the lines "START MANAGED" and "END MANAGED" below is # generated based on variables in the BSP settings file when the # nios2-bsp-generate-files command is invoked. If you wish to persist any # information pertaining to the build process, it is recomended that you # utilize the BSP settings mechanism to do so. #------------------------------------------------------------------------------ #START MANAGED # The following TYPE comment allows tools to identify the 'type' of target this # makefile is associated with. # TYPE: BSP_PUBLIC_MAKEFILE # This following VERSION comment indicates the version of the tool used to # generate this makefile. A makefile variable is provided for VERSION as well. # ACDS_VERSION: 22.1 ACDS_VERSION := 22.1 # This following BUILD_NUMBER comment indicates the build number of the tool # used to generate this makefile. # BUILD_NUMBER: 917 # Qsys--generated SOPCINFO file. Required for resolving node instance ID's with # design component names. SOPCINFO_FILE := $(ABS_BSP_ROOT_DIR)/../../niosII.sopcinfo # Big-Endian operation. # setting BIG_ENDIAN is false # BMX present. # setting BMX is false # Path to the provided C language runtime initialization code. BSP_CRT0 := $(ALT_LIBRARY_ROOT_DIR)/obj/HAL/src/crt0.o # Name of BSP library as provided to linker using the "-msys-lib" flag or # linker script GROUP command. # setting BSP_SYS_LIB is hal_bsp BSP_SYS_LIB := hal_bsp ELF_PATCH_FLAG += --thread_model hal # Type identifier of the BSP library # setting BSP_TYPE is hal ALT_CPPFLAGS += -D__hal__ BSP_TYPE := hal # CDX present. # setting CDX is false # CPU Name # setting CPU_NAME is core CPU_NAME = core ELF_PATCH_FLAG += --cpu_name $(CPU_NAME) # Hardware Divider present. # setting HARDWARE_DIVIDE is true ALT_CFLAGS += -mhw-div ALT_CFLAGS += -mhw-div # Hardware Multiplier present. # setting HARDWARE_MULTIPLY is true ALT_CFLAGS += -mhw-mul # Hardware Mulx present. # setting HARDWARE_MULX is false ALT_CFLAGS += -mno-hw-mulx # Debug Core present. # setting HAS_DEBUG_CORE is true CPU_HAS_DEBUG_CORE = 1 # Qsys generated design # setting QSYS is 1 QSYS := 1 ELF_PATCH_FLAG += --qsys true # Design Name # setting SOPC_NAME is niosII SOPC_NAME := niosII # SopcBuilder Simulation Enabled # setting SOPC_SIMULATION_ENABLED is false ELF_PATCH_FLAG += --simulation_enabled false # The SOPC System ID # setting SOPC_SYSID is 0 SOPC_SYSID_FLAG += --id=0 ELF_PATCH_FLAG += --id 0 # The SOPC System ID Base Address # setting SOPC_SYSID_BASE_ADDRESS is 0x613e0 SOPC_SYSID_FLAG += --sidp=0x613e0 ELF_PATCH_FLAG += --sidp 0x613e0 # The SOPC Timestamp # setting SOPC_TIMESTAMP is 1730878419 SOPC_SYSID_FLAG += --timestamp=1730878419 ELF_PATCH_FLAG += --timestamp 1730878419 # Enable JTAG UART driver to recover when host is inactive causing buffer to # full without returning error. Printf will not fail with this recovery. none # setting altera_avalon_jtag_uart_driver.enable_jtag_uart_ignore_fifo_full_error is false # Small-footprint (polled mode) driver none # setting altera_avalon_jtag_uart_driver.enable_small_driver is false # Build a custom version of newlib with the specified space-separated compiler # flags. The custom newlib build will be placed in the /newlib # directory, and will be used only for applications that utilize this BSP. # setting hal.custom_newlib_flags is none # Enable support for a subset of the C++ language. This option increases code # footprint by adding support for C++ constructors. Certain features, such as # multiple inheritance and exceptions are not supported. If false, adds # -DALT_NO_C_PLUS_PLUS to ALT_CPPFLAGS in public.mk, and reduces code # footprint. none # setting hal.enable_c_plus_plus is true # When your application exits, close file descriptors, call C++ destructors, # etc. Code footprint can be reduced by disabling clean exit. If disabled, adds # -DALT_NO_CLEAN_EXIT to ALT_CPPFLAGS -D'exit(a)=_exit(a)' in public.mk. none # setting hal.enable_clean_exit is true # Add exit() support. This option increases code footprint if your "main()" # routine does "return" or call "exit()". If false, adds -DALT_NO_EXIT to # ALT_CPPFLAGS in public.mk, and reduces footprint none # setting hal.enable_exit is true # Causes code to be compiled with gprof profiling enabled and the application # ELF to be linked with the GPROF library. If true, adds -DALT_PROVIDE_GMON to # ALT_CPPFLAGS and -pg to ALT_CFLAGS in public.mk. none # setting hal.enable_gprof is false # Enables lightweight device driver API. This reduces code and data footprint # by removing the HAL layer that maps device names (e.g. /dev/uart0) to file # descriptors. Instead, driver routines are called directly. The open(), # close(), and lseek() routines will always fail if called. The read(), # write(), fstat(), ioctl(), and isatty() routines only work for the stdio # devices. If true, adds -DALT_USE_DIRECT_DRIVERS to ALT_CPPFLAGS in public.mk. # The Altera Host and read-only ZIP file systems can't be used if # hal.enable_lightweight_device_driver_api is true. # setting hal.enable_lightweight_device_driver_api is false # Adds code to emulate multiply and divide instructions in case they are # executed but aren't present in the CPU. Normally this isn't required because # the compiler won't use multiply and divide instructions that aren't present # in the CPU. If false, adds -DALT_NO_INSTRUCTION_EMULATION to ALT_CPPFLAGS in # public.mk. none # setting hal.enable_mul_div_emulation is false ALT_CPPFLAGS += -DALT_NO_INSTRUCTION_EMULATION # Certain drivers are compiled with reduced functionality to reduce code # footprint. Not all drivers observe this setting. The altera_avalon_uart and # altera_avalon_jtag_uart drivers switch from interrupt-driven to polled # operation. CAUTION: Several device drivers are disabled entirely. These # include the altera_avalon_cfi_flash, altera_avalon_epcs_flash_controller, and # altera_avalon_lcd_16207 drivers. This can result in certain API (HAL flash # access routines) to fail. You can define a symbol provided by each driver to # prevent it from being removed. If true, adds -DALT_USE_SMALL_DRIVERS to # ALT_CPPFLAGS in public.mk. none # setting hal.enable_reduced_device_drivers is false # Turns on HAL runtime stack checking feature. Enabling this setting causes # additional code to be placed into each subroutine call to generate an # exception if a stack collision occurs with the heap or statically allocated # data. If true, adds -DALT_STACK_CHECK and -fstack-limit-register=et to # ALT_CPPFLAGS in public.mk. none # setting hal.enable_runtime_stack_checking is false # The BSP is compiled with optimizations to speedup HDL simulation such as # initializing the cache, clearing the .bss section, and skipping long delay # loops. If true, adds -DALT_SIM_OPTIMIZE to ALT_CPPFLAGS in public.mk. When # this setting is true, the BSP shouldn't be used to build applications that # are expected to run real hardware. # setting hal.enable_sim_optimize is false # Causes the small newlib (C library) to be used. This reduces code and data # footprint at the expense of reduced functionality. Several newlib features # are removed such as floating-point support in printf(), stdin input routines, # and buffered I/O. The small C library is not compatible with Micrium # MicroC/OS-II. If true, adds -msmallc to ALT_LDFLAGS in public.mk. none # setting hal.enable_small_c_library is false # Enable SOPC Builder System ID. If a System ID SOPC Builder component is # connected to the CPU associated with this BSP, it will be enabled in the # creation of command-line arguments to download an ELF to the target. # Otherwise, system ID and timestamp values are left out of public.mk for # application Makefile "download-elf" target definition. With the system ID # check disabled, the Nios II EDS tools will not automatically ensure that the # application .elf file (and BSP it is linked against) corresponds to the # hardware design on the target. If false, adds --accept-bad-sysid to # SOPC_SYSID_FLAG in public.mk. none # setting hal.enable_sopc_sysid_check is true # C/C++ compiler to generate (do not generate) GP-relative accesses. 'none' # tells the compilter not to generate GP-relative accesses. 'local' will # generate GP-relative accesses for small data objects that are not external, # weak, or uninitialized common symbols. Also use GP-relative addressing for # objects that have been explicitly placed in a small data section via a # section attribute. provides the default set of debug symbols typically # required to debug a typical application. 'global' is same as 'local' but also # generate GP-relative accesses for small data objects that are external, weak, # or common. none # setting hal.make.cflags_mgpopt is -mgpopt=global ALT_CFLAGS += -mgpopt=global # Enable BSP generation to query if SOPC system is big endian. If true ignores # export of 'ALT_CFLAGS += -meb' to public.mk if big endian system. none # setting hal.make.ignore_system_derived.big_endian is false # If true, prevents GCC from using BMX instructions. If false, GCC uses BMX # instructions if present in the CPU. none # setting hal.make.ignore_system_derived.bmx_present is false # If true, prevents GCC from using CDX instructions. If false, GCC uses CDX # instructions if present in the CPU. none # setting hal.make.ignore_system_derived.cdx_present is false # Enable BSP generation to query if SOPC system has a debug core present. If # true ignores export of 'CPU_HAS_DEBUG_CORE = 1' to public.mk if a debug core # is found in the system. If true ignores export of 'CPU_HAS_DEBUG_CORE = 0' if # no debug core is found in the system. none # setting hal.make.ignore_system_derived.debug_core_present is false # Enable BSP generation to query if SOPC system has FPU present. If true # ignores export of 'ALT_CFLAGS += -mhard-float' to public.mk if FPU is found # in the system. If true ignores export of 'ALT_CFLAGS += -mhard-soft' if FPU # is not found in the system. none # setting hal.make.ignore_system_derived.fpu_present is false # Enable BSP generation to query if SOPC system has hardware divide present. If # true ignores export of 'ALT_CFLAGS += -mno-hw-div' to public.mk if no # division is found in system. If true ignores export of 'ALT_CFLAGS += # -mhw-div' if division is found in the system. none # setting hal.make.ignore_system_derived.hardware_divide_present is false # Enable BSP generation to query if SOPC system floating point custom # instruction with a divider is present. If true ignores export of 'ALT_CFLAGS # += -mcustom-fpu-cfg=60-2' and 'ALT_LDFLAGS += -mcustom-fpu-cfg=60-2' to # public.mk if the custom instruction is found in the system. none # setting hal.make.ignore_system_derived.hardware_fp_cust_inst_divider_present is false # Enable BSP generation to query if SOPC system floating point custom # instruction without a divider is present. If true ignores export of # 'ALT_CFLAGS += -mcustom-fpu-cfg=60-1' and 'ALT_LDFLAGS += # -mcustom-fpu-cfg=60-1' to public.mk if the custom instruction is found in the # system. none # setting hal.make.ignore_system_derived.hardware_fp_cust_inst_no_divider_present is false # Enable BSP generation to query if SOPC system has multiplier present. If true # ignores export of 'ALT_CFLAGS += -mno-hw-mul' to public.mk if no multiplier # is found in the system. If true ignores export of 'ALT_CFLAGS += -mhw-mul' if # multiplier is found in the system. none # setting hal.make.ignore_system_derived.hardware_multiplier_present is false # Enable BSP generation to query if SOPC system has hardware mulx present. If # true ignores export of 'ALT_CFLAGS += -mno-hw-mulx' to public.mk if no mulx # is found in the system. If true ignores export of 'ALT_CFLAGS += -mhw-mulx' # if mulx is found in the system. none # setting hal.make.ignore_system_derived.hardware_mulx_present is false # Enable BSP generation to query if SOPC system has simulation enabled. If true # ignores export of 'ELF_PATCH_FLAG += --simulation_enabled' to public.mk. none # setting hal.make.ignore_system_derived.sopc_simulation_enabled is false # Enable BSP generation to query SOPC system for system ID base address. If # true ignores export of 'SOPC_SYSID_FLAG += --sidp=
' and # 'ELF_PATCH_FLAG += --sidp=
' to public.mk. none # setting hal.make.ignore_system_derived.sopc_system_base_address is false # Enable BSP generation to query SOPC system for system ID. If true ignores # export of 'SOPC_SYSID_FLAG += --id=' and 'ELF_PATCH_FLAG += # --id=' to public.mk. none # setting hal.make.ignore_system_derived.sopc_system_id is false # Enable BSP generation to query SOPC system for system timestamp. If true # ignores export of 'SOPC_SYSID_FLAG += --timestamp=' and # 'ELF_PATCH_FLAG += --timestamp=' to public.mk. none # setting hal.make.ignore_system_derived.sopc_system_timestamp is false # Slave descriptor of STDERR character-mode device. This setting is used by the # ALT_STDERR family of defines in system.h. none # setting hal.stderr is jtag_uart ELF_PATCH_FLAG += --stderr_dev jtag_uart # Slave descriptor of STDIN character-mode device. This setting is used by the # ALT_STDIN family of defines in system.h. none # setting hal.stdin is jtag_uart ELF_PATCH_FLAG += --stdin_dev jtag_uart # Slave descriptor of STDOUT character-mode device. This setting is used by the # ALT_STDOUT family of defines in system.h. none # setting hal.stdout is jtag_uart ELF_PATCH_FLAG += --stdout_dev jtag_uart #------------------------------------------------------------------------------ # SOFTWARE COMPONENT & DRIVER INCLUDE PATHS #------------------------------------------------------------------------------ ALT_INCLUDE_DIRS += $(ALT_LIBRARY_ROOT_DIR)/HAL/inc #------------------------------------------------------------------------------ # SOFTWARE COMPONENT & DRIVER PRODUCED ALT_CPPFLAGS ADDITIONS #------------------------------------------------------------------------------ ALT_CPPFLAGS += -DALT_SINGLE_THREADED #END MANAGED #------------------------------------------------------------------------------ # LIBRARY INFORMATION #------------------------------------------------------------------------------ # Assemble the name of the BSP *.a file using the BSP library name # (BSP_SYS_LIB) in generated content above. BSP_LIB := lib$(BSP_SYS_LIB).a # Additional libraries to link against: # An application including this file will prefix each library with "-l". # For example, to include the Newlib math library "m" is included, which # becomes "-lm" when linking the application. ALT_LIBRARY_NAMES += m # Additions to linker dependencies: # An application Makefile will typically add these directly to the list # of dependencies required to build the executable target(s). The BSP # library (*.a) file is specified here. ALT_LDDEPS += $(ALT_LIBRARY_ROOT_DIR)/$(BSP_LIB) # Is this library "Makeable"? # Add to list of root library directories that support running 'make' # to build them. Because libraries may or may not have a Makefile in their # root, appending to this variable tells an application to run 'make' in # the library root to build/update this library. MAKEABLE_LIBRARY_ROOT_DIRS += $(ALT_LIBRARY_ROOT_DIR) # Additional Assembler Flags # -gdwarf2 flag is required for stepping through assembly code ALT_ASFLAGS += -gdwarf2 #------------------------------------------------------------------------------ # FINAL INCLUDE PATH LIST #------------------------------------------------------------------------------ # Append static include paths to paths specified by OS/driver/sw package # additions to the BSP thus giving them precedence in case a BSP addition # is attempting to override BSP sources. ALT_INCLUDE_DIRS += $(ALT_INCLUDE_DIRS_TO_APPEND)