Anders Blomdell
Clone of official tools
toolchains/__init__.py
- Committer:
- screamer
- Date:
- 2016-07-15
- Revision:
- 18:11afe2c1837e
- Parent:
- 17:04753e1e329d
- Child:
- 20:835f6355470d
File content as of revision 18:11afe2c1837e:
"""
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
import sys
from os import stat, walk, getcwd, sep
from copy import copy
from time import time, sleep
from types import ListType
from shutil import copyfile
from os.path import join, splitext, exists, relpath, dirname, basename, split, abspath, isfile, isdir
from inspect import getmro
from copy import deepcopy
from tools.config import Config
from multiprocessing import Pool, cpu_count
from tools.utils import run_cmd, mkdir, rel_path, ToolException, NotSupportedException, split_path
from tools.settings import BUILD_OPTIONS, MBED_ORG_USER
import tools.hooks as hooks
from tools.memap import MemapParser
from hashlib import md5
import fnmatch
#Disables multiprocessing if set to higher number than the host machine CPUs
CPU_COUNT_MIN = 1
def compile_worker(job):
results = []
for command in job['commands']:
try:
_, _stderr, _rc = run_cmd(command, work_dir=job['work_dir'], chroot=job['chroot'])
except KeyboardInterrupt as e:
raise ToolException
results.append({
'code': _rc,
'output': _stderr,
'command': command
})
return {
'source': job['source'],
'object': job['object'],
'commands': job['commands'],
'results': results
}
class Resources:
def __init__(self, base_path=None):
self.base_path = base_path
self.file_basepath = {}
self.inc_dirs = []
self.headers = []
self.s_sources = []
self.c_sources = []
self.cpp_sources = []
self.lib_dirs = set([])
self.objects = []
self.libraries = []
# mbed special files
self.lib_builds = []
self.lib_refs = []
self.repo_dirs = []
self.repo_files = []
self.linker_script = None
# Other files
self.hex_files = []
self.bin_files = []
self.json_files = []
# Features
self.features = {}
def __add__(self, resources):
if resources is None:
return self
else:
return self.add(resources)
def __radd__(self, resources):
if resources is None:
return self
else:
return self.add(resources)
def add(self, resources):
for f,p in resources.file_basepath.items():
self.file_basepath[f] = p
self.inc_dirs += resources.inc_dirs
self.headers += resources.headers
self.s_sources += resources.s_sources
self.c_sources += resources.c_sources
self.cpp_sources += resources.cpp_sources
self.lib_dirs |= resources.lib_dirs
self.objects += resources.objects
self.libraries += resources.libraries
self.lib_builds += resources.lib_builds
self.lib_refs += resources.lib_refs
self.repo_dirs += resources.repo_dirs
self.repo_files += resources.repo_files
if resources.linker_script is not None:
self.linker_script = resources.linker_script
self.hex_files += resources.hex_files
self.bin_files += resources.bin_files
self.json_files += resources.json_files
self.features.update(resources.features)
return self
def relative_to(self, base, dot=False):
for field in ['inc_dirs', 'headers', 's_sources', 'c_sources',
'cpp_sources', 'lib_dirs', 'objects', 'libraries',
'lib_builds', 'lib_refs', 'repo_dirs', 'repo_files',
'hex_files', 'bin_files', 'json_files']:
v = [rel_path(f, base, dot) for f in getattr(self, field)]
setattr(self, field, v)
self.features = {k: f.relative_to(base, dot) for k, f in self.features.iteritems() if f}
if self.linker_script is not None:
self.linker_script = rel_path(self.linker_script, base, dot)
def win_to_unix(self):
for field in ['inc_dirs', 'headers', 's_sources', 'c_sources',
'cpp_sources', 'lib_dirs', 'objects', 'libraries',
'lib_builds', 'lib_refs', 'repo_dirs', 'repo_files',
'hex_files', 'bin_files', 'json_files']:
v = [f.replace('\\', '/') for f in getattr(self, field)]
setattr(self, field, v)
self.features = {k: f.win_to_unix() for k, f in self.features.iteritems() if f}
if self.linker_script is not None:
self.linker_script = self.linker_script.replace('\\', '/')
def __str__(self):
s = []
for (label, resources) in (
('Include Directories', self.inc_dirs),
('Headers', self.headers),
('Assembly sources', self.s_sources),
('C sources', self.c_sources),
('C++ sources', self.cpp_sources),
('Library directories', self.lib_dirs),
('Objects', self.objects),
('Libraries', self.libraries),
('Hex files', self.hex_files),
('Bin files', self.bin_files),
('Features', self.features),
):
if resources:
s.append('%s:\n ' % label + '\n '.join(resources))
if self.linker_script:
s.append('Linker Script: ' + self.linker_script)
return '\n'.join(s)
# Support legacy build conventions: the original mbed build system did not have
# standard labels for the "TARGET_" and "TOOLCHAIN_" specific directories, but
# had the knowledge of a list of these directories to be ignored.
LEGACY_IGNORE_DIRS = set([
'LPC11U24', 'LPC1768', 'LPC2368', 'LPC4088', 'LPC812', 'KL25Z',
'ARM', 'uARM', 'IAR',
'GCC_ARM', 'GCC_CS', 'GCC_CR', 'GCC_CW', 'GCC_CW_EWL', 'GCC_CW_NEWLIB',
])
LEGACY_TOOLCHAIN_NAMES = {
'ARM_STD':'ARM', 'ARM_MICRO': 'uARM',
'GCC_ARM': 'GCC_ARM', 'GCC_CR': 'GCC_CR',
'IAR': 'IAR',
}
class mbedToolchain:
VERBOSE = True
CORTEX_SYMBOLS = {
"Cortex-M0" : ["__CORTEX_M0", "ARM_MATH_CM0", "__CMSIS_RTOS", "__MBED_CMSIS_RTOS_CM"],
"Cortex-M0+": ["__CORTEX_M0PLUS", "ARM_MATH_CM0PLUS", "__CMSIS_RTOS", "__MBED_CMSIS_RTOS_CM"],
"Cortex-M1" : ["__CORTEX_M3", "ARM_MATH_CM1", "__CMSIS_RTOS", "__MBED_CMSIS_RTOS_CM"],
"Cortex-M3" : ["__CORTEX_M3", "ARM_MATH_CM3", "__CMSIS_RTOS", "__MBED_CMSIS_RTOS_CM"],
"Cortex-M4" : ["__CORTEX_M4", "ARM_MATH_CM4", "__CMSIS_RTOS", "__MBED_CMSIS_RTOS_CM"],
"Cortex-M4F" : ["__CORTEX_M4", "ARM_MATH_CM4", "__FPU_PRESENT=1", "__CMSIS_RTOS", "__MBED_CMSIS_RTOS_CM"],
"Cortex-M7" : ["__CORTEX_M7", "ARM_MATH_CM7", "__CMSIS_RTOS", "__MBED_CMSIS_RTOS_CM"],
"Cortex-M7F" : ["__CORTEX_M7", "ARM_MATH_CM7", "__FPU_PRESENT=1", "__CMSIS_RTOS", "__MBED_CMSIS_RTOS_CM"],
"Cortex-M7FD" : ["__CORTEX_M7", "ARM_MATH_CM7", "__FPU_PRESENT=1", "__CMSIS_RTOS", "__MBED_CMSIS_RTOS_CM"],
"Cortex-A9" : ["__CORTEX_A9", "ARM_MATH_CA9", "__FPU_PRESENT", "__CMSIS_RTOS", "__EVAL", "__MBED_CMSIS_RTOS_CA9"],
}
GOANNA_FORMAT = "[Goanna] warning [%FILENAME%:%LINENO%] - [%CHECKNAME%(%SEVERITY%)] %MESSAGE%"
GOANNA_DIAGNOSTIC_PATTERN = re.compile(r'"\[Goanna\] (?P<severity>warning) \[(?P<file>[^:]+):(?P<line>\d+)\] \- (?P<message>.*)"')
MBED_CONFIG_FILE_NAME="mbed_config.h"
def __init__(self, target, options=None, notify=None, macros=None, silent=False, extra_verbose=False):
self.target = target
self.name = self.__class__.__name__
# compile/assemble/link/binary hooks
self.hook = hooks.Hook(target, self)
# Toolchain flags
self.flags = deepcopy(self.DEFAULT_FLAGS)
# User-defined macros
self.macros = macros or []
# Macros generated from toolchain and target rules/features
self.symbols = None
# Labels generated from toolchain and target rules/features (used for selective build)
self.labels = None
# This will hold the configuration data (as returned by Config.get_config_data())
self.config_data = None
# Non-incremental compile
self.build_all = False
# Build output dir
self.build_dir = None
self.timestamp = time()
# Output build naming based on target+toolchain combo (mbed 2.0 builds)
self.obj_path = join("TARGET_"+target.name, "TOOLCHAIN_"+self.name)
# Number of concurrent build jobs. 0 means auto (based on host system cores)
self.jobs = 0
self.CHROOT = None
# Ignore patterns from .mbedignore files
self.ignore_patterns = []
# Pre-mbed 2.0 ignore dirs
self.legacy_ignore_dirs = LEGACY_IGNORE_DIRS - set([target.name, LEGACY_TOOLCHAIN_NAMES[self.name]])
# Output notify function
if notify:
self.notify_fun = notify
elif extra_verbose:
self.notify_fun = self.print_notify_verbose
else:
self.notify_fun = self.print_notify
# Silent builds (no output)
self.silent = silent
# Print output buffer
self.output = ""
# Build options passed by -o flag
self.options = options if options is not None else []
# Build options passed by settings.py or mbed_settings.py
self.options.extend(BUILD_OPTIONS)
if self.options:
self.info("Build Options: %s" % (', '.join(self.options)))
# uVisor spepcific rules
if 'UVISOR' in self.target.features and 'UVISOR_SUPPORTED' in self.target.extra_labels:
self.target.core = re.sub(r"F$", '', self.target.core)
self.stat_cache = {}
self.init()
# This allows post __init__() hooks. Do not use
def init(self):
return True
def get_output(self):
return self.output
def print_notify(self, event, silent=False):
""" Default command line notification
"""
msg = None
if not self.VERBOSE and event['type'] == 'tool_error':
msg = event['message']
elif event['type'] in ['info', 'debug']:
msg = event['message']
elif event['type'] == 'cc':
event['severity'] = event['severity'].title()
event['file'] = basename(event['file'])
msg = '[%(severity)s] %(file)s@%(line)s: %(message)s' % event
elif event['type'] == 'progress':
if not silent:
msg = '%s: %s' % (event['action'].title(), basename(event['file']))
if msg:
print msg
self.output += msg + "\n"
def print_notify_verbose(self, event, silent=False):
""" Default command line notification with more verbose mode
"""
if event['type'] in ['info', 'debug']:
self.print_notify(event) # standard handle
elif event['type'] == 'cc':
event['severity'] = event['severity'].title()
event['file'] = basename(event['file'])
event['mcu_name'] = "None"
event['toolchain'] = "None"
event['target_name'] = event['target_name'].upper() if event['target_name'] else "Unknown"
event['toolchain_name'] = event['toolchain_name'].upper() if event['toolchain_name'] else "Unknown"
msg = '[%(severity)s] %(target_name)s::%(toolchain_name)s::%(file)s@%(line)s: %(message)s' % event
print msg
self.output += msg + "\n"
elif event['type'] == 'progress':
self.print_notify(event) # standard handle
def notify(self, event):
""" Little closure for notify functions
"""
return self.notify_fun(event, self.silent)
def goanna_parse_line(self, line):
if "analyze" in self.options:
return self.GOANNA_DIAGNOSTIC_PATTERN.match(line)
else:
return None
def get_symbols(self):
if self.symbols is None:
# Target and Toolchain symbols
labels = self.get_labels()
self.symbols = ["TARGET_%s" % t for t in labels['TARGET']]
self.symbols.extend(["TOOLCHAIN_%s" % t for t in labels['TOOLCHAIN']])
# Cortex CPU symbols
if self.target.core in mbedToolchain.CORTEX_SYMBOLS:
self.symbols.extend(mbedToolchain.CORTEX_SYMBOLS[self.target.core])
# Symbols defined by the on-line build.system
self.symbols.extend(['MBED_BUILD_TIMESTAMP=%s' % self.timestamp, 'TARGET_LIKE_MBED', '__MBED__=1'])
if MBED_ORG_USER:
self.symbols.append('MBED_USERNAME=' + MBED_ORG_USER)
# Add target's symbols
self.symbols += self.target.macros
# Add target's hardware
self.symbols += ["DEVICE_" + data + "=1" for data in self.target.device_has]
# Add target's features
self.symbols += ["FEATURE_" + data + "=1" for data in self.target.features]
# Add extra symbols passed via 'macros' parameter
self.symbols += self.macros
# Form factor variables
if hasattr(self.target, 'supported_form_factors'):
self.symbols.extend(["TARGET_FF_%s" % t for t in self.target.supported_form_factors])
return list(set(self.symbols)) # Return only unique symbols
# Extend the internal list of macros
def add_macros(self, new_macros):
self.macros.extend(new_macros)
def get_labels(self):
if self.labels is None:
toolchain_labels = [c.__name__ for c in getmro(self.__class__)]
toolchain_labels.remove('mbedToolchain')
self.labels = {
'TARGET': self.target.get_labels() + ["DEBUG" if "debug-info" in self.options else "RELEASE"],
'FEATURE': self.target.features,
'TOOLCHAIN': toolchain_labels
}
return self.labels
def need_update(self, target, dependencies):
if self.build_all:
return True
if not exists(target):
return True
target_mod_time = stat(target).st_mtime
for d in dependencies:
# Some objects are not provided with full path and here we do not have
# information about the library paths. Safe option: assume an update
if not d:
return True
if self.stat_cache.has_key(d):
if self.stat_cache[d] >= target_mod_time:
return True
else:
if not exists(d): return True
self.stat_cache[d] = stat(d).st_mtime
if self.stat_cache[d] >= target_mod_time: return True
return False
def is_ignored(self, file_path):
for pattern in self.ignore_patterns:
if fnmatch.fnmatch(file_path, pattern):
return True
return False
# Create a Resources object from the path pointed to by *path* by either traversing a
# a directory structure, when *path* is a directory, or adding *path* to the resources,
# when *path* is a file.
# The parameter *base_path* is used to set the base_path attribute of the Resources
# object and the parameter *exclude_paths* is used by the directory traversal to
# exclude certain paths from the traversal.
def scan_resources(self, path, exclude_paths=None, base_path=None):
resources = Resources(path)
if not base_path:
if isfile(path):
base_path = dirname(path)
else:
base_path = path
resources.base_path = base_path
if isfile(path):
self._add_file(path, resources, base_path, exclude_paths=exclude_paths)
else:
self._add_dir(path, resources, base_path, exclude_paths=exclude_paths)
return resources
# A helper function for scan_resources. _add_dir traverses *path* (assumed to be a
# directory) and heeds the ".mbedignore" files along the way. _add_dir calls _add_file
# on every file it considers adding to the resources object.
def _add_dir(self, path, resources, base_path, exclude_paths=None):
""" os.walk(top[, topdown=True[, onerror=None[, followlinks=False]]])
When topdown is True, the caller can modify the dirnames list in-place
(perhaps using del or slice assignment), and walk() will only recurse into
the subdirectories whose names remain in dirnames; this can be used to prune
the search, impose a specific order of visiting, or even to inform walk()
about directories the caller creates or renames before it resumes walk()
again. Modifying dirnames when topdown is False is ineffective, because in
bottom-up mode the directories in dirnames are generated before dirpath
itself is generated.
"""
labels = self.get_labels()
for root, dirs, files in walk(path, followlinks=True):
# Check if folder contains .mbedignore
if ".mbedignore" in files:
with open (join(root,".mbedignore"), "r") as f:
lines=f.readlines()
lines = [l.strip() for l in lines] # Strip whitespaces
lines = [l for l in lines if l != ""] # Strip empty lines
lines = [l for l in lines if not re.match("^#",l)] # Strip comment lines
# Append root path to glob patterns and append patterns to ignore_patterns
self.ignore_patterns.extend([join(root,line.strip()) for line in lines])
# Skip the whole folder if ignored, e.g. .mbedignore containing '*'
if self.is_ignored(join(root,"")):
continue
for d in copy(dirs):
dir_path = join(root, d)
# Add internal repo folders/files. This is needed for exporters
if d == '.hg':
resources.repo_dirs.append(dir_path)
resources.repo_files.extend(self.scan_repository(dir_path))
if ((d.startswith('.') or d in self.legacy_ignore_dirs) or
# Ignore targets that do not match the TARGET in extra_labels list
(d.startswith('TARGET_') and d[7:] not in labels['TARGET']) or
# Ignore toolchain that do not match the current TOOLCHAIN
(d.startswith('TOOLCHAIN_') and d[10:] not in labels['TOOLCHAIN']) or
# Ignore .mbedignore files
self.is_ignored(join(dir_path,"")) or
# Ignore TESTS dir
(d == 'TESTS')):
dirs.remove(d)
elif d.startswith('FEATURE_'):
# Recursively scan features but ignore them in the current scan.
# These are dynamically added by the config system if the conditions are matched
resources.features[d[8:]] = self.scan_resources(dir_path, base_path=base_path)
dirs.remove(d)
elif exclude_paths:
for exclude_path in exclude_paths:
rel_path = relpath(dir_path, exclude_path)
if not (rel_path.startswith('..')):
dirs.remove(d)
break
# Add root to include paths
resources.inc_dirs.append(root)
for file in files:
file_path = join(root, file)
self._add_file(file_path, resources, base_path)
# A helper function for both scan_resources and _add_dir. _add_file adds one file
# (*file_path*) to the resources object based on the file type.
def _add_file(self, file_path, resources, base_path, exclude_paths=None):
resources.file_basepath[file_path] = base_path
if self.is_ignored(file_path):
return
_, ext = splitext(file_path)
ext = ext.lower()
if ext == '.s':
resources.s_sources.append(file_path)
elif ext == '.c':
resources.c_sources.append(file_path)
elif ext == '.cpp':
resources.cpp_sources.append(file_path)
elif ext == '.h' or ext == '.hpp':
resources.headers.append(file_path)
elif ext == '.o':
resources.objects.append(file_path)
elif ext == self.LIBRARY_EXT:
resources.libraries.append(file_path)
resources.lib_dirs.add(dirname(file_path))
elif ext == self.LINKER_EXT:
if resources.linker_script is not None:
self.info("Warning: Multiple linker scripts detected: %s -> %s" % (resources.linker_script, file_path))
resources.linker_script = file_path
elif ext == '.lib':
resources.lib_refs.append(file_path)
elif ext == '.bld':
resources.lib_builds.append(file_path)
elif file == '.hgignore':
resources.repo_files.append(file_path)
elif ext == '.hex':
resources.hex_files.append(file_path)
elif ext == '.bin':
resources.bin_files.append(file_path)
elif ext == '.json':
resources.json_files.append(file_path)
def scan_repository(self, path):
resources = []
for root, dirs, files in walk(path):
# Remove ignored directories
for d in copy(dirs):
if d == '.' or d == '..':
dirs.remove(d)
for file in files:
file_path = join(root, file)
resources.append(file_path)
return resources
def copy_files(self, files_paths, trg_path, resources=None, rel_path=None):
# Handle a single file
if type(files_paths) != ListType: files_paths = [files_paths]
for source in files_paths:
if source is None:
files_paths.remove(source)
for source in files_paths:
if resources is not None and resources.file_basepath.has_key(source):
relative_path = relpath(source, resources.file_basepath[source])
elif rel_path is not None:
relative_path = relpath(source, rel_path)
else:
_, relative_path = split(source)
target = join(trg_path, relative_path)
if (target != source) and (self.need_update(target, [source])):
self.progress("copy", relative_path)
mkdir(dirname(target))
copyfile(source, target)
def relative_object_path(self, build_path, base_dir, source):
source_dir, name, _ = split_path(source)
obj_dir = join(build_path, relpath(source_dir, base_dir))
if obj_dir is not self.prev_dir:
self.prev_dir = obj_dir
mkdir(obj_dir)
return join(obj_dir, name + '.o')
def get_inc_file(self, includes):
include_file = join(self.build_dir, ".includes_%s.txt" % self.inc_md5)
if not exists(include_file):
with open(include_file, "wb") as f:
cmd_list = []
for c in includes:
if c:
cmd_list.append(('-I%s' % c).replace("\\", "/"))
string = " ".join(cmd_list)
f.write(string)
return include_file
def compile_sources(self, resources, build_path, inc_dirs=None):
# Web IDE progress bar for project build
files_to_compile = resources.s_sources + resources.c_sources + resources.cpp_sources
self.to_be_compiled = len(files_to_compile)
self.compiled = 0
inc_paths = resources.inc_dirs
if inc_dirs is not None:
inc_paths.extend(inc_dirs)
# De-duplicate include paths
inc_paths = set(inc_paths)
# Sort include paths for consistency
inc_paths = sorted(set(inc_paths))
# Unique id of all include paths
self.inc_md5 = md5(' '.join(inc_paths)).hexdigest()
# Where to store response files
self.build_dir = build_path
objects = []
queue = []
work_dir = getcwd()
self.prev_dir = None
# Sort compile queue for consistency
files_to_compile.sort()
for source in files_to_compile:
object = self.relative_object_path(build_path, resources.file_basepath[source], source)
# Queue mode (multiprocessing)
commands = self.compile_command(source, object, inc_paths)
if commands is not None:
queue.append({
'source': source,
'object': object,
'commands': commands,
'work_dir': work_dir,
'chroot': self.CHROOT
})
else:
objects.append(object)
# Use queues/multiprocessing if cpu count is higher than setting
jobs = self.jobs if self.jobs else cpu_count()
if jobs > CPU_COUNT_MIN and len(queue) > jobs:
return self.compile_queue(queue, objects)
else:
return self.compile_seq(queue, objects)
def compile_seq(self, queue, objects):
for item in queue:
result = compile_worker(item)
self.compiled += 1
self.progress("compile", item['source'], build_update=True)
for res in result['results']:
self.debug("Command: %s" % ' '.join(res['command']))
self.compile_output([
res['code'],
res['output'],
res['command']
])
objects.append(result['object'])
return objects
def compile_queue(self, queue, objects):
jobs_count = int(self.jobs if self.jobs else cpu_count())
p = Pool(processes=jobs_count)
results = []
for i in range(len(queue)):
results.append(p.apply_async(compile_worker, [queue[i]]))
p.close()
itr = 0
while len(results):
itr += 1
if itr > 180000:
p.terminate()
p.join()
raise ToolException("Compile did not finish in 5 minutes")
sleep(0.01)
pending = 0
for r in results:
if r._ready is True:
try:
result = r.get()
results.remove(r)
self.compiled += 1
self.progress("compile", result['source'], build_update=True)
for res in result['results']:
self.debug("Command: %s" % ' '.join(res['command']))
self.compile_output([
res['code'],
res['output'],
res['command']
])
objects.append(result['object'])
except ToolException, err:
p.terminate()
p.join()
raise ToolException(err)
else:
pending += 1
if pending >= jobs_count:
break
results = None
p.join()
return objects
def compile_command(self, source, object, includes):
# Check dependencies
_, ext = splitext(source)
ext = ext.lower()
if ext == '.c' or ext == '.cpp':
base, _ = splitext(object)
dep_path = base + '.d'
deps = self.parse_dependencies(dep_path) if (exists(dep_path)) else []
if len(deps) == 0 or self.need_update(object, deps):
if ext == '.c':
return self.compile_c(source, object, includes)
else:
return self.compile_cpp(source, object, includes)
elif ext == '.s':
deps = [source]
if self.need_update(object, deps):
return self.assemble(source, object, includes)
else:
return False
return None
def is_not_supported_error(self, output):
return "#error directive: [NOT_SUPPORTED]" in output
def compile_output(self, output=[]):
_rc = output[0]
_stderr = output[1]
command = output[2]
# Parse output for Warnings and Errors
self.parse_output(_stderr)
self.debug("Return: %s"% _rc)
for error_line in _stderr.splitlines():
self.debug("Output: %s"% error_line)
# Check return code
if _rc != 0:
for line in _stderr.splitlines():
self.tool_error(line)
if self.is_not_supported_error(_stderr):
raise NotSupportedException(_stderr)
else:
raise ToolException(_stderr)
def build_library(self, objects, dir, name):
needed_update = False
lib = self.STD_LIB_NAME % name
fout = join(dir, lib)
if self.need_update(fout, objects):
self.info("Library: %s" % lib)
self.archive(objects, fout)
needed_update = True
return needed_update
def link_program(self, r, tmp_path, name):
needed_update = False
ext = 'bin'
if hasattr(self.target, 'OUTPUT_EXT'):
ext = self.target.OUTPUT_EXT
if hasattr(self.target, 'OUTPUT_NAMING'):
self.var("binary_naming", self.target.OUTPUT_NAMING)
if self.target.OUTPUT_NAMING == "8.3":
name = name[0:8]
ext = ext[0:3]
# Create destination directory
head, tail = split(name)
new_path = join(tmp_path, head)
mkdir(new_path)
filename = name+'.'+ext
elf = join(tmp_path, name + '.elf')
bin = join(tmp_path, filename)
map = join(tmp_path, name + '.map')
if self.need_update(elf, r.objects + r.libraries + [r.linker_script]):
needed_update = True
self.progress("link", name)
self.link(elf, r.objects, r.libraries, r.lib_dirs, r.linker_script)
if self.need_update(bin, [elf]):
needed_update = True
self.progress("elf2bin", name)
self.binary(r, elf, bin)
self.mem_stats(map)
self.var("compile_succeded", True)
self.var("binary", filename)
return bin, needed_update
def default_cmd(self, command):
self.debug("Command: %s"% ' '.join(command))
_stdout, _stderr, _rc = run_cmd(command)
self.debug("Return: %s"% _rc)
for output_line in _stdout.splitlines():
self.debug("Output: %s"% output_line)
for error_line in _stderr.splitlines():
self.debug("Errors: %s"% error_line)
if _rc != 0:
for line in _stderr.splitlines():
self.tool_error(line)
raise ToolException(_stderr)
### NOTIFICATIONS ###
def info(self, message):
self.notify({'type': 'info', 'message': message})
def debug(self, message):
if self.VERBOSE:
if type(message) is ListType:
message = ' '.join(message)
message = "[DEBUG] " + message
self.notify({'type': 'debug', 'message': message})
def cc_info(self, severity, file, line, message, target_name=None, toolchain_name=None):
self.notify({'type': 'cc',
'severity': severity,
'file': file,
'line': line,
'message': message,
'target_name': target_name,
'toolchain_name': toolchain_name})
def progress(self, action, file, build_update=False):
msg = {'type': 'progress', 'action': action, 'file': file}
if build_update:
msg['percent'] = 100. * float(self.compiled) / float(self.to_be_compiled)
self.notify(msg)
def tool_error(self, message):
self.notify({'type': 'tool_error', 'message': message})
def var(self, key, value):
self.notify({'type': 'var', 'key': key, 'val': value})
def mem_stats(self, map):
# Creates parser object
toolchain = self.__class__.__name__
# Create memap object
memap = MemapParser()
# Parse and decode a map file
if memap.parse(abspath(map), toolchain) is False:
self.info("Unknown toolchain for memory statistics %s" % toolchain)
return
# Write output to stdout in text (pretty table) format
memap.generate_output('table')
# Write output to file in JSON format
map_out = splitext(map)[0] + "_map.json"
memap.generate_output('json', map_out)
# Write output to file in CSV format for the CI
map_csv = splitext(map)[0] + "_map.csv"
memap.generate_output('csv-ci', map_csv)
# Set the configuration data
def set_config_data(self, config_data):
self.config_data = config_data
# Return the location of the config header. This function will create the config
# header first if needed. The header will be written in a file called "mbed_conf.h"
# located in the project's build directory.
# If config headers are not used (self.config_header_content is None), the function
# returns None
def get_config_header(self):
if self.config_data is None:
return None
config_file = join(self.build_dir, self.MBED_CONFIG_FILE_NAME)
if not exists(config_file):
with open(config_file, "wt") as f:
f.write(Config.config_to_header(self.config_data))
return config_file
# Return the list of macros geenrated by the build system
def get_config_macros(self):
return Config.config_to_macros(self.config_data) if self.config_data else []
from tools.settings import ARM_BIN
from tools.settings import GCC_ARM_PATH, GCC_CR_PATH
from tools.settings import IAR_PATH
TOOLCHAIN_BIN_PATH = {
'ARM': ARM_BIN,
'uARM': ARM_BIN,
'GCC_ARM': GCC_ARM_PATH,
'GCC_CR': GCC_CR_PATH,
'IAR': IAR_PATH
}
from tools.toolchains.arm import ARM_STD, ARM_MICRO
from tools.toolchains.gcc import GCC_ARM, GCC_CR
from tools.toolchains.iar import IAR
TOOLCHAIN_CLASSES = {
'ARM': ARM_STD,
'uARM': ARM_MICRO,
'GCC_ARM': GCC_ARM,
'GCC_CR': GCC_CR,
'IAR': IAR
}
TOOLCHAINS = set(TOOLCHAIN_CLASSES.keys())