def merge_region_list(region_list, destination, padding=b'\xFF'):
"""Merege the region_list into a single image
Positional Arguments:
region_list - list of regions, which should contain filenames
destination - file name to write all regions to
padding - bytes to fill gapps with
"""
merged = IntelHex()
print("Merging Regions:")
for region in region_list:
if region.active and not region.filename:
raise ToolException("Active region has no contents: No file found.")
if region.filename:
print(" Filling region %s with %s" % (region.name, region.filename))
part = intelhex_offset(region.filename, offset=region.start)
part_size = (part.maxaddr() - part.minaddr()) + 1
if part_size > region.size:
raise ToolException("Contents of region %s does not fit"
% region.name)
merged.merge(part)
pad_size = region.size - part_size
if pad_size > 0 and region != region_list[-1]:
print(" Padding region %s with 0x%x bytes" % (region.name, pad_size))
merged.puts(merged.maxaddr() + 1, padding * pad_size)
if not exists(dirname(destination)):
makedirs(dirname(destination))
print("Space used after regions merged: 0x%x" %
(merged.maxaddr() - merged.minaddr() + 1))
with open(destination, "wb+") as output:
merged.tofile(output, format='bin')
def compile_queue(self, queue, objects):
jobs_count = int(self.jobs if self.jobs else cpu_count() * CPU_COEF)
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.cc_verbose(
"Compile: %s" % ' '.join(res['command']),
result['source'])
self.compile_output(
[res['code'], res['output'], res['command']])
objects.append(result['object'])
except ToolException, err:
if p._taskqueue.queue:
p._taskqueue.queue.clear()
sleep(0.5)
p.terminate()
p.join()
raise ToolException(err)
else:
pending += 1
if pending >= jobs_count:
break
def default_cmd(self, command):
_stdout, _stderr, _rc = run_cmd(command, work_dir=getcwd(), chroot=self.CHROOT)
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)
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)
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:
if self.is_not_supported_error(_stderr):
raise NotSupportedException(_stderr)
else:
raise ToolException(_stderr)
def default_cmd(self, command):
self.debug("Command: %s" % ' '.join(command))
_stdout, _stderr, _rc = run_cmd(command)
# Print all warning / erros from stderr to console output
for error_line in _stderr.splitlines():
print error_line
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)
def main():
error = False
try:
# Parse Options
parser = get_default_options_parser(add_app_config=True)
parser.add_argument("-D",
action="append",
dest="macros",
help="Add a macro definition")
parser.add_argument(
"-j",
"--jobs",
type=int,
dest="jobs",
default=0,
help=
"Number of concurrent jobs. Default: 0/auto (based on host machine's number of CPUs)"
)
parser.add_argument(
"--source",
dest="source_dir",
type=argparse_filestring_type,
default=None,
help=
"The source (input) directory (for sources other than tests). Defaults to current directory.",
action="append")
parser.add_argument("--build",
dest="build_dir",
type=argparse_dir_not_parent(ROOT),
default=None,
help="The build (output) directory")
parser.add_argument(
"-l",
"--list",
action="store_true",
dest="list",
default=False,
help="List (recursively) available tests in order and exit")
parser.add_argument(
"-p",
"--paths",
dest="paths",
type=argparse_many(argparse_filestring_type),
default=None,
help=
"Limit the tests to those within the specified comma separated list of paths"
)
format_choices = ["list", "json"]
format_default_choice = "list"
format_help = "Change the format in which tests are listed. Choices include: %s. Default: %s" % (
", ".join(format_choices), format_default_choice)
parser.add_argument("-f",
"--format",
dest="format",
type=argparse_lowercase_type(
format_choices, "format"),
default=format_default_choice,
help=format_help)
parser.add_argument(
"--continue-on-build-fail",
action="store_true",
dest="continue_on_build_fail",
default=None,
help="Continue trying to build all tests if a build failure occurs"
)
#TODO validate the names instead of just passing through str
parser.add_argument(
"-n",
"--names",
dest="names",
type=argparse_many(str),
default=None,
help="Limit the tests to a comma separated list of names")
parser.add_argument("--test-config",
dest="test_config",
type=str,
default=None,
help="Test config for a module")
parser.add_argument(
"--test-spec",
dest="test_spec",
default=None,
help=
"Destination path for a test spec file that can be used by the Greentea automated test tool"
)
parser.add_argument(
"--build-report-junit",
dest="build_report_junit",
default=None,
help="Destination path for a build report in the JUnit xml format")
parser.add_argument("--build-data",
dest="build_data",
default=None,
help="Dump build_data to this file")
parser.add_argument("-v",
"--verbose",
action="store_true",
dest="verbose",
default=False,
help="Verbose diagnostic output")
parser.add_argument(
"--silent",
action="store_true",
dest="silent",
default=False,
help="Silent diagnostic output (no copy, compile notification)")
parser.add_argument("--stats-depth",
type=int,
dest="stats_depth",
default=2,
help="Depth level for static memory report")
parser.add_argument(
"--ignore",
dest="ignore",
type=argparse_many(str),
default=None,
help=
"Comma separated list of patterns to add to mbedignore (eg. ./main.cpp)"
)
parser.add_argument(
"--coverage-filters",
dest="coverage_patterns",
nargs='+',
default=[],
help=
"match patterns to build with debug compile and coverage linker options"
)
parser.add_argument("--icetea",
action="store_true",
dest="icetea",
default=False,
help="Only icetea tests")
parser.add_argument("--greentea",
action="store_true",
dest="greentea",
default=False,
help="Only greentea tests")
options = parser.parse_args()
# Filter tests by path if specified
if options.paths:
all_paths = options.paths
else:
all_paths = ["."]
all_tests = {}
tests = {}
end_warnings = []
# As default both test tools are enabled
if not (options.greentea or options.icetea):
options.greentea = True
options.icetea = True
# Target
if options.mcu is None:
args_error(parser, "argument -m/--mcu is required")
mcu = extract_mcus(parser, options)[0]
target = Target.get_target(mcu)
# Toolchain
if options.tool is None:
args_error(parser, "argument -t/--tool is required")
toolchain = options.tool[0]
try:
toolchain_name, internal_tc_name, end_warnings = find_valid_toolchain(
target, toolchain)
except NoValidToolchainException as e:
print_end_warnings(e.end_warnings)
args_error(parser, str(e))
# Assign config file. Precedence: test_config>app_config
# TODO: merge configs if both given
if options.test_config:
config = get_test_config(options.test_config, mcu)
if not config:
args_error(
parser,
"argument --test-config contains invalid path or identifier"
)
elif options.app_config:
config = options.app_config
else:
config = Config.find_app_config(options.source_dir)
if not config:
config = get_default_config(options.source_dir or ['.'], mcu)
# Find all tests in the relevant paths
for path in all_paths:
all_tests.update(
find_tests(base_dir=path,
target_name=mcu,
toolchain_name=toolchain_name,
icetea=options.icetea,
greentea=options.greentea,
app_config=config))
# Filter tests by name if specified
if options.names:
all_names = options.names
all_names = [x.lower() for x in all_names]
for name in all_names:
if any(
fnmatch.fnmatch(testname, name)
for testname in all_tests):
for testname, test in all_tests.items():
if fnmatch.fnmatch(testname, name):
tests[testname] = test
else:
print("[Warning] Test with name '%s' was not found in the "
"available tests" % (name))
else:
tests = all_tests
if options.list:
# Print available tests in order and exit
print_tests(tests, options.format)
sys.exit(0)
else:
# Build all tests
if not options.build_dir:
args_error(parser, "argument --build is required")
base_source_paths = options.source_dir
# Default base source path is the current directory
if not base_source_paths:
base_source_paths = ['.']
# Coverage requires debug profile
if options.coverage_patterns:
if toolchain != u'GCC_ARM':
raise ToolException(
'Coverage supports only GCC_ARM toolchain')
options.profile.append(
argparse_profile_filestring_type('debug'))
print("[Warning] Test building with coverage filters %s" %
options.coverage_patterns)
build_report = {}
build_properties = {}
library_build_success = False
profile = extract_profile(parser, options, internal_tc_name)
try:
resource_filter = None
# Build sources
notify = TerminalNotifier(options.verbose, options.silent)
build_library(base_source_paths,
options.build_dir,
mcu,
toolchain_name,
jobs=options.jobs,
clean=options.clean,
report=build_report,
properties=build_properties,
name="mbed-build",
macros=options.macros,
notify=notify,
archive=False,
app_config=config,
build_profile=profile,
ignore=options.ignore,
coverage_patterns=options.coverage_patterns,
resource_filter=resource_filter)
library_build_success = True
except ToolException as e:
# ToolException output is handled by the build log
print("[ERROR] " + str(e))
pass
except NotSupportedException as e:
# NotSupportedException is handled by the build log
print("[ERROR] " + str(e))
pass
except Exception as e:
if options.verbose:
import traceback
traceback.print_exc()
# Some other exception occurred, print the error message
print(e)
if not library_build_success:
print("Failed to build library")
else:
resource_filter = None
# Build all the tests
notify = TerminalNotifier(options.verbose, options.silent)
test_build_success, test_build = build_tests(
tests, [os.path.relpath(options.build_dir)],
options.build_dir,
mcu,
toolchain_name,
clean=options.clean,
report=build_report,
properties=build_properties,
macros=options.macros,
notify=notify,
jobs=options.jobs,
continue_on_build_fail=options.continue_on_build_fail,
app_config=config,
build_profile=profile,
stats_depth=options.stats_depth,
ignore=options.ignore,
coverage_patterns=options.coverage_patterns,
resource_filter=resource_filter)
# If a path to a test spec is provided, write it to a file
if options.test_spec:
write_json_to_file(test_spec_from_test_builds(test_build),
options.test_spec)
# If a path to a JUnit build report spec is provided, write it to a file
if options.build_report_junit:
report_exporter = ReportExporter(ResultExporterType.JUNIT,
package="build")
report_exporter.report_to_file(
build_report,
options.build_report_junit,
test_suite_properties=build_properties)
# Print memory map summary on screen
if build_report:
print()
print(print_build_memory_usage(build_report))
print_report_exporter = ReportExporter(ResultExporterType.PRINT,
package="build")
status = print_report_exporter.report(build_report)
if options.build_data:
merge_build_data(options.build_data, build_report, "test")
if status:
sys.exit(0)
else:
sys.exit(1)
except KeyboardInterrupt as e:
print("\n[CTRL+c] exit")
except ConfigException as e:
# Catching ConfigException here to prevent a traceback
print("[ERROR] %s" % str(e))
error = True
except Exception as e:
import traceback
traceback.print_exc(file=sys.stdout)
print("[ERROR] %s" % str(e))
error = True
print_end_warnings(end_warnings)
if error:
sys.exit(1)