Nicolas Borla
/
BBR_1Ebene
BBR 1 Ebene
Diff: mbed-os/tools/toolchains/gcc.py
- Revision:
- 0:fbdae7e6d805
diff -r 000000000000 -r fbdae7e6d805 mbed-os/tools/toolchains/gcc.py --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/mbed-os/tools/toolchains/gcc.py Mon May 14 11:29:06 2018 +0000 @@ -0,0 +1,288 @@ +""" +mbed SDK +Copyright (c) 2011-2013 ARM Limited + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +""" +import re +from os.path import join, basename, splitext, dirname, exists +from distutils.spawn import find_executable + +from tools.toolchains import mbedToolchain, TOOLCHAIN_PATHS +from tools.hooks import hook_tool + +class GCC(mbedToolchain): + LINKER_EXT = '.ld' + LIBRARY_EXT = '.a' + + STD_LIB_NAME = "lib%s.a" + DIAGNOSTIC_PATTERN = re.compile('((?P<file>[^:]+):(?P<line>\d+):)(?P<col>\d+):? (?P<severity>warning|[eE]rror|fatal error): (?P<message>.+)') + + def __init__(self, target, notify=None, macros=None, build_profile=None, + build_dir=None): + mbedToolchain.__init__(self, target, notify, macros, + build_profile=build_profile, build_dir=build_dir) + + tool_path=TOOLCHAIN_PATHS['GCC_ARM'] + # Add flags for current size setting + default_lib = "std" + if hasattr(target, "default_lib"): + default_lib = target.default_lib + elif hasattr(target, "default_build"): # Legacy + default_lib = target.default_build + + if default_lib == "small": + self.flags["common"].append("-DMBED_RTOS_SINGLE_THREAD") + self.flags["ld"].append("--specs=nano.specs") + + if target.core == "Cortex-M0+": + self.cpu = ["-mcpu=cortex-m0plus"] + elif target.core.startswith("Cortex-M4"): + self.cpu = ["-mcpu=cortex-m4"] + elif target.core.startswith("Cortex-M7"): + self.cpu = ["-mcpu=cortex-m7"] + elif target.core.startswith("Cortex-M23"): + self.cpu = ["-mcpu=cortex-m23"] + elif target.core.startswith("Cortex-M33F"): + self.cpu = ["-mcpu=cortex-m33"] + elif target.core.startswith("Cortex-M33"): + self.cpu = ["-march=armv8-m.main"] + else: + self.cpu = ["-mcpu={}".format(target.core.lower())] + + if target.core.startswith("Cortex-M"): + self.cpu.append("-mthumb") + + # FPU handling, M7 possibly to have double FPU + if target.core == "Cortex-M4F": + self.cpu.append("-mfpu=fpv4-sp-d16") + self.cpu.append("-mfloat-abi=softfp") + elif target.core == "Cortex-M7F": + self.cpu.append("-mfpu=fpv5-sp-d16") + self.cpu.append("-mfloat-abi=softfp") + elif target.core == "Cortex-M7FD": + self.cpu.append("-mfpu=fpv5-d16") + self.cpu.append("-mfloat-abi=softfp") + + if target.core == "Cortex-A9": + self.cpu.append("-mthumb-interwork") + self.cpu.append("-marm") + self.cpu.append("-march=armv7-a") + self.cpu.append("-mfpu=vfpv3") + self.cpu.append("-mfloat-abi=hard") + self.cpu.append("-mno-unaligned-access") + + if ((target.core.startswith("Cortex-M23") or + target.core.startswith("Cortex-M33")) and + not target.core.endswith("-NS")): + self.cpu.append("-mcmse") + elif target.core == "Cortex-M23-NS" or target.core == "Cortex-M33-NS": + self.flags["ld"].append("-D__DOMAIN_NS=1") + + self.flags["common"] += self.cpu + + main_cc = join(tool_path, "arm-none-eabi-gcc") + main_cppc = join(tool_path, "arm-none-eabi-g++") + self.asm = [main_cc] + self.flags['asm'] + self.flags["common"] + self.cc = [main_cc] + self.cppc =[main_cppc] + self.cc += self.flags['c'] + self.flags['common'] + self.cppc += self.flags['cxx'] + self.flags['common'] + + self.flags['ld'] += self.cpu + self.ld = [join(tool_path, "arm-none-eabi-gcc")] + self.flags['ld'] + self.sys_libs = ["stdc++", "supc++", "m", "c", "gcc", "nosys"] + self.preproc = [join(tool_path, "arm-none-eabi-cpp"), "-E", "-P"] + + self.ar = join(tool_path, "arm-none-eabi-ar") + self.elf2bin = join(tool_path, "arm-none-eabi-objcopy") + + def is_not_supported_error(self, output): + return "error: #error [NOT_SUPPORTED]" in output + + def parse_output(self, output): + # The warning/error notification is multiline + msg = None + for line in output.splitlines(): + match = self.DIAGNOSTIC_PATTERN.search(line) + if match is not None: + if msg is not None: + self.notify.cc_info(msg) + msg = None + msg = { + 'severity': match.group('severity').lower(), + 'file': match.group('file'), + 'line': match.group('line'), + 'col': match.group('col'), + 'message': match.group('message'), + 'text': '', + 'target_name': self.target.name, + 'toolchain_name': self.name + } + + if msg is not None: + self.notify.cc_info(msg) + + def get_dep_option(self, object): + base, _ = splitext(object) + dep_path = base + '.d' + return ["-MD", "-MF", dep_path] + + def get_config_option(self, config_header): + return ['-include', config_header] + + def get_compile_options(self, defines, includes, for_asm=False): + opts = ['-D%s' % d for d in defines] + if self.RESPONSE_FILES: + opts += ['@%s' % self.get_inc_file(includes)] + else: + opts += ["-I%s" % i for i in includes] + + if not for_asm: + config_header = self.get_config_header() + if config_header is not None: + opts = opts + self.get_config_option(config_header) + return opts + + @hook_tool + def assemble(self, source, object, includes): + # Build assemble command + cmd = self.asm + self.get_compile_options(self.get_symbols(True), includes) + ["-o", object, source] + + # Call cmdline hook + cmd = self.hook.get_cmdline_assembler(cmd) + + # Return command array, don't execute + return [cmd] + + @hook_tool + def compile(self, cc, source, object, includes): + # Build compile command + cmd = cc + self.get_compile_options(self.get_symbols(), includes) + + cmd.extend(self.get_dep_option(object)) + + cmd.extend(["-o", object, source]) + + # Call cmdline hook + cmd = self.hook.get_cmdline_compiler(cmd) + + return [cmd] + + def compile_c(self, source, object, includes): + return self.compile(self.cc, source, object, includes) + + def compile_cpp(self, source, object, includes): + return self.compile(self.cppc, source, object, includes) + + @hook_tool + def link(self, output, objects, libraries, lib_dirs, mem_map): + libs = [] + for l in libraries: + name, _ = splitext(basename(l)) + libs.append("-l%s" % name[3:]) + libs.extend(["-l%s" % l for l in self.sys_libs]) + + # Preprocess + if mem_map: + preproc_output = join(dirname(output), ".link_script.ld") + cmd = (self.preproc + [mem_map] + self.ld[1:] + + [ "-o", preproc_output]) + self.notify.cc_verbose("Preproc: %s" % ' '.join(cmd)) + self.default_cmd(cmd) + mem_map = preproc_output + + # Build linker command + map_file = splitext(output)[0] + ".map" + cmd = self.ld + ["-o", output, "-Wl,-Map=%s" % map_file] + objects + ["-Wl,--start-group"] + libs + ["-Wl,--end-group"] + # Create Secure library + if self.target.core == "Cortex-M23" or self.target.core == "Cortex-M33": + secure_file = join(dirname(output), "cmse_lib.o") + cmd.extend(["-Wl,--cmse-implib"]) + cmd.extend(["-Wl,--out-implib=%s" % secure_file]) + + if mem_map: + cmd.extend(['-T', mem_map]) + + for L in lib_dirs: + cmd.extend(['-L', L]) + cmd.extend(libs) + + # Call cmdline hook + cmd = self.hook.get_cmdline_linker(cmd) + + if self.RESPONSE_FILES: + # Split link command to linker executable + response file + cmd_linker = cmd[0] + link_files = self.get_link_file(cmd[1:]) + cmd = [cmd_linker, "@%s" % link_files] + + # Exec command + self.notify.cc_verbose("Link: %s" % ' '.join(cmd)) + self.default_cmd(cmd) + if self.target.core == "Cortex-M23" or self.target.core == "Cortex-M33": + self.notify.info("Secure Library Object %s" %secure_file) + + @hook_tool + def archive(self, objects, lib_path): + if self.RESPONSE_FILES: + param = ["@%s" % self.get_arch_file(objects)] + else: + param = objects + + # Exec command + self.default_cmd([self.ar, 'rcs', lib_path] + param) + + @hook_tool + def binary(self, resources, elf, bin): + # Build binary command + _, fmt = splitext(bin) + bin_arg = {'.bin': 'binary', '.hex': 'ihex'}[fmt] + cmd = [self.elf2bin, "-O", bin_arg, elf, bin] + + # Call cmdline hook + cmd = self.hook.get_cmdline_binary(cmd) + + # Exec command + self.notify.cc_verbose("FromELF: %s" % ' '.join(cmd)) + self.default_cmd(cmd) + + @staticmethod + def name_mangle(name): + return "_Z%i%sv" % (len(name), name) + + @staticmethod + def make_ld_define(name, value): + return "-D%s=0x%x" % (name, value) + + @staticmethod + def redirect_symbol(source, sync, build_dir): + return "-Wl,--defsym=%s=%s" % (source, sync) + + @staticmethod + def check_executable(): + """Returns True if the executable (arm-none-eabi-gcc) location + specified by the user exists OR the executable can be found on the PATH. + Returns False otherwise.""" + if not TOOLCHAIN_PATHS['GCC_ARM'] or not exists(TOOLCHAIN_PATHS['GCC_ARM']): + if find_executable('arm-none-eabi-gcc'): + TOOLCHAIN_PATHS['GCC_ARM'] = '' + return True + else: + return False + else: + exec_name = join(TOOLCHAIN_PATHS['GCC_ARM'], 'arm-none-eabi-gcc') + return exists(exec_name) or exists(exec_name + '.exe') + +class GCC_ARM(GCC): + pass