mbed-os
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tools/host_tests/host_test.py
- Committer:
- elessair
- Date:
- 2016-10-23
- Revision:
- 0:f269e3021894
File content as of revision 0:f269e3021894:
""" 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. """ # Check if 'serial' module is installed try: from serial import Serial except ImportError, e: print "Error: Can't import 'serial' module: %s"% e exit(-1) import os import re import types from sys import stdout from time import sleep, time from optparse import OptionParser import host_tests_plugins # This is a little tricky. We need to add upper directory to path so # we can find packages we want from the same level as other files do import sys sys.path.append(os.path.abspath(os.path.join(os.path.dirname(__file__), '../..'))) from tools.test_api import get_autodetected_MUTS_list from tools.test_api import get_module_avail class Mbed: """ Base class for a host driven test """ def __init__(self): parser = OptionParser() parser.add_option("-m", "--micro", dest="micro", help="The target microcontroller", metavar="MICRO") parser.add_option("-p", "--port", dest="port", help="The serial port of the target mbed", metavar="PORT") parser.add_option("-d", "--disk", dest="disk", help="The target disk path", metavar="DISK_PATH") parser.add_option("-f", "--image-path", dest="image_path", help="Path with target's image", metavar="IMAGE_PATH") parser.add_option("-c", "--copy", dest="copy_method", help="Copy method selector", metavar="COPY_METHOD") parser.add_option("-C", "--program_cycle_s", dest="program_cycle_s", help="Program cycle sleep. Define how many seconds you want wait after copying bianry onto target", type="float", metavar="COPY_METHOD") parser.add_option("-t", "--timeout", dest="timeout", help="Timeout", metavar="TIMEOUT") parser.add_option("-r", "--reset", dest="forced_reset_type", help="Forces different type of reset") parser.add_option("-R", "--reset-timeout", dest="forced_reset_timeout", metavar="NUMBER", type="int", help="When forcing a reset using option -r you can set up after reset timeout in seconds") parser.add_option('', '--auto', dest='auto_detect', metavar=False, action="store_true", help='Use mbed-ls module to detect all connected mbed devices') (self.options, _) = parser.parse_args() self.DEFAULT_RESET_TOUT = 0 self.DEFAULT_TOUT = 10 if self.options.port is None: raise Exception("The serial port of the target mbed have to be provided as command line arguments") # Options related to copy / reset mbed device self.port = self.options.port self.disk = self.options.disk self.image_path = self.options.image_path.strip('"') self.copy_method = self.options.copy_method self.program_cycle_s = float(self.options.program_cycle_s) self.serial = None self.serial_baud = 9600 self.serial_timeout = 1 self.timeout = self.DEFAULT_TOUT if self.options.timeout is None else self.options.timeout print 'MBED: Instrumentation: "%s" and disk: "%s"' % (self.port, self.disk) def init_serial_params(self, serial_baud=9600, serial_timeout=1): """ Initialize port parameters. This parameters will be used by self.init_serial() function to open serial port """ self.serial_baud = serial_baud self.serial_timeout = serial_timeout def init_serial(self, serial_baud=None, serial_timeout=None): """ Initialize serial port. Function will return error is port can't be opened or initialized """ # Overload serial port configuration from default to parameters' values if they are specified serial_baud = serial_baud if serial_baud is not None else self.serial_baud serial_timeout = serial_timeout if serial_timeout is not None else self.serial_timeout if get_module_avail('mbed_lstools') and self.options.auto_detect: # Ensure serial port is up-to-date (try to find it 60 times) found = False for i in range(0, 60): print('Looking for %s with MBEDLS' % self.options.micro) muts_list = get_autodetected_MUTS_list(platform_name_filter=[self.options.micro]) if 1 in muts_list: mut = muts_list[1] self.port = mut['port'] found = True break else: sleep(3) if not found: return False # Clear serial port if self.serial: self.serial.close() self.serial = None # We will pool for serial to be re-mounted if it was unmounted after device reset result = self.pool_for_serial_init(serial_baud, serial_timeout) # Blocking # Port can be opened if result: self.flush() return result def pool_for_serial_init(self, serial_baud, serial_timeout, pooling_loops=40, init_delay=0.5, loop_delay=0.25): """ Functions pools for serial port readiness """ result = True last_error = None # This loop is used to check for serial port availability due to # some delays and remounting when devices are being flashed with new software. for i in range(pooling_loops): sleep(loop_delay if i else init_delay) try: self.serial = Serial(self.port, baudrate=serial_baud, timeout=serial_timeout) except Exception as e: result = False last_error = "MBED: %s"% str(e) stdout.write('.') stdout.flush() else: print "...port ready!" result = True break if not result and last_error: print last_error return result def set_serial_timeout(self, timeout): """ Wraps self.mbed.serial object timeout property """ result = None if self.serial: self.serial.timeout = timeout result = True return result def serial_read(self, count=1): """ Wraps self.mbed.serial object read method """ result = None if self.serial: try: result = self.serial.read(count) except: result = None return result def serial_readline(self, timeout=5): """ Wraps self.mbed.serial object read method to read one line from serial port """ result = '' start = time() while (time() - start) < timeout: if self.serial: try: c = self.serial.read(1) result += c except Exception as e: print "MBED: %s"% str(e) result = None break if c == '\n': break return result def serial_write(self, write_buffer): """ Wraps self.mbed.serial object write method """ result = None if self.serial: try: result = self.serial.write(write_buffer) except: result = None return result def reset_timeout(self, timeout): """ Timeout executed just after reset command is issued """ for n in range(0, timeout): sleep(1) def reset(self): """ Calls proper reset plugin to do the job. Please refer to host_test_plugins functionality """ # Flush serials to get only input after reset self.flush() if self.options.forced_reset_type: result = host_tests_plugins.call_plugin('ResetMethod', self.options.forced_reset_type, disk=self.disk) else: result = host_tests_plugins.call_plugin('ResetMethod', 'default', serial=self.serial) # Give time to wait for the image loading reset_tout_s = self.options.forced_reset_timeout if self.options.forced_reset_timeout is not None else self.DEFAULT_RESET_TOUT self.reset_timeout(reset_tout_s) return result def copy_image(self, image_path=None, disk=None, copy_method=None): """ Closure for copy_image_raw() method. Method which is actually copying image to mbed """ # Set closure environment image_path = image_path if image_path is not None else self.image_path disk = disk if disk is not None else self.disk copy_method = copy_method if copy_method is not None else self.copy_method # Call proper copy method result = self.copy_image_raw(image_path, disk, copy_method) return result def copy_image_raw(self, image_path=None, disk=None, copy_method=None): """ Copy file depending on method you want to use. Handles exception and return code from shell copy commands. """ # image_path - Where is binary with target's firmware if copy_method is not None: # We override 'default' method with 'shell' method if copy_method == 'default': copy_method = 'shell' else: copy_method = 'shell' result = host_tests_plugins.call_plugin('CopyMethod', copy_method, image_path=image_path, destination_disk=disk, program_cycle_s=self.program_cycle_s, target_mcu=self.options.micro) return result; def flush(self): """ Flush serial ports """ result = False if self.serial: self.serial.flushInput() self.serial.flushOutput() result = True return result class HostTestResults: """ Test results set by host tests """ def __init__(self): self.RESULT_SUCCESS = 'success' self.RESULT_FAILURE = 'failure' self.RESULT_ERROR = 'error' self.RESULT_IO_SERIAL = 'ioerr_serial' self.RESULT_NO_IMAGE = 'no_image' self.RESULT_IOERR_COPY = "ioerr_copy" self.RESULT_PASSIVE = "passive" self.RESULT_NOT_DETECTED = "not_detected" self.RESULT_MBED_ASSERT = "mbed_assert" import tools.host_tests as host_tests class Test(HostTestResults): """ Base class for host test's test runner """ # Select default host_test supervision (replaced after autodetection) test_supervisor = host_tests.get_host_test("default") def __init__(self): self.mbed = Mbed() def detect_test_config(self, verbose=False): """ Detects test case configuration """ result = {} while True: line = self.mbed.serial_readline() if "{start}" in line: self.notify("HOST: Start test...") break else: # Detect if this is property from TEST_ENV print m = re.search('{([\w_]+);([\w\d\+ ]+)}}', line[:-1]) if m and len(m.groups()) == 2: # This is most likely auto-detection property result[m.group(1)] = m.group(2) if verbose: self.notify("HOST: Property '%s' = '%s'"% (m.group(1), m.group(2))) else: # We can check if this is TArget Id in mbed specific format m2 = re.search('^([\$]+)([a-fA-F0-9]+)', line[:-1]) if m2 and len(m2.groups()) == 2: if verbose: target_id = m2.group(1) + m2.group(2) self.notify("HOST: TargetID '%s'"% target_id) self.notify(line[len(target_id):-1]) else: self.notify("HOST: Unknown property: %s"% line.strip()) return result def run(self): """ Test runner for host test. This function will start executing test and forward test result via serial port to test suite """ # Copy image to device self.notify("HOST: Copy image onto target...") result = self.mbed.copy_image() if not result: self.print_result(self.RESULT_IOERR_COPY) # Initialize and open target's serial port (console) self.notify("HOST: Initialize serial port...") result = self.mbed.init_serial() if not result: self.print_result(self.RESULT_IO_SERIAL) # Reset device self.notify("HOST: Reset target...") result = self.mbed.reset() if not result: self.print_result(self.RESULT_IO_SERIAL) # Run test try: CONFIG = self.detect_test_config(verbose=True) # print CONFIG if "host_test_name" in CONFIG: if host_tests.is_host_test(CONFIG["host_test_name"]): self.test_supervisor = host_tests.get_host_test(CONFIG["host_test_name"]) result = self.test_supervisor.test(self) #result = self.test() if result is not None: self.print_result(result) else: self.notify("HOST: Passive mode...") except Exception, e: print str(e) self.print_result(self.RESULT_ERROR) def setup(self): """ Setup and check if configuration for test is correct. E.g. if serial port can be opened. """ result = True if not self.mbed.serial: result = False self.print_result(self.RESULT_IO_SERIAL) return result def notify(self, message): """ On screen notification function """ print message stdout.flush() def print_result(self, result): """ Test result unified printing function """ self.notify("\r\n{{%s}}\r\n{{end}}" % result) class DefaultTestSelector(Test): """ Test class with serial port initialization """ def __init__(self): HostTestResults.__init__(self) Test.__init__(self) if __name__ == '__main__': DefaultTestSelector().run()