mbed os with nrf51 internal bandgap enabled to read battery level
Dependents: BLE_file_test BLE_Blink ExternalEncoder
tools/targets.py
- Committer:
- elessair
- Date:
- 2016-10-23
- Revision:
- 0:f269e3021894
File content as of revision 0:f269e3021894:
""" mbed SDK Copyright (c) 2011-2016 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 os import binascii import struct import shutil import inspect import sys from collections import namedtuple from tools.patch import patch from tools.paths import TOOLS_BOOTLOADERS from tools.utils import json_file_to_dict __all__ = ["target", "TARGETS", "TARGET_MAP", "TARGET_NAMES", "CORE_LABELS", "HookError", "generate_py_target", "Target", "CUMULATIVE_ATTRIBUTES", "get_resolution_order"] CORE_LABELS = { "ARM7TDMI-S": ["ARM7", "LIKE_CORTEX_ARM7"], "Cortex-M0" : ["M0", "CORTEX_M", "LIKE_CORTEX_M0"], "Cortex-M0+": ["M0P", "CORTEX_M", "LIKE_CORTEX_M0"], "Cortex-M1" : ["M1", "CORTEX_M", "LIKE_CORTEX_M1"], "Cortex-M3" : ["M3", "CORTEX_M", "LIKE_CORTEX_M3"], "Cortex-M4" : ["M4", "CORTEX_M", "RTOS_M4_M7", "LIKE_CORTEX_M4"], "Cortex-M4F" : ["M4", "CORTEX_M", "RTOS_M4_M7", "LIKE_CORTEX_M4"], "Cortex-M7" : ["M7", "CORTEX_M", "RTOS_M4_M7", "LIKE_CORTEX_M7"], "Cortex-M7F" : ["M7", "CORTEX_M", "RTOS_M4_M7", "LIKE_CORTEX_M7"], "Cortex-M7FD" : ["M7", "CORTEX_M", "RTOS_M4_M7", "LIKE_CORTEX_M7"], "Cortex-A9" : ["A9", "CORTEX_A", "LIKE_CORTEX_A9"] } ################################################################################ # Generic Target class that reads and interprets the data in targets.json class HookError(Exception): """ A simple class that represents all the exceptions associated with hooking """ pass CACHES = {} def cached(func): """A simple decorator used for automatically caching data returned by a function """ def wrapper(*args, **kwargs): """The wrapped function itself""" if not CACHES.has_key((func.__name__, args)): CACHES[(func.__name__, args)] = func(*args, **kwargs) return CACHES[(func.__name__, args)] return wrapper # Cumulative attributes can have values appended to them, so they # need to be computed differently than regular attributes CUMULATIVE_ATTRIBUTES = ['extra_labels', 'macros', 'device_has', 'features'] def get_resolution_order(json_data, target_name, order, level=0): """ Return the order in which target descriptions are searched for attributes. This mimics the Python 2.2 method resolution order, which is what the old targets.py module used. For more details, check http://makina-corpus.com/blog/metier/2014/python-tutorial-understanding-python-mro-class-search-path The resolution order contains (name, level) tuples, where "name" is the name of the class and "level" is the level in the inheritance hierarchy (the target itself is at level 0, its first parent at level 1, its parent's parent at level 2 and so on) """ # the resolution order can't contain duplicate target names if target_name not in [l[0] for l in order]: order.append((target_name, level)) parents = json_data[target_name].get("inherits", []) for par in parents: order = get_resolution_order(json_data, par, order, level + 1) return order def target(name, json_data): """Construct a target object""" resolution_order = get_resolution_order(json_data, name, []) resolution_order_names = [tgt for tgt, _ in resolution_order] return Target(name=name, json_data={key: value for key, value in json_data.items() if key in resolution_order_names}, resolution_order=resolution_order, resolution_order_names=resolution_order_names) def generate_py_target(new_targets, name): """Add one or more new target(s) represented as a Python dictionary in 'new_targets'. It is an error to add a target with a name that already exists. """ base_targets = Target.get_json_target_data() for new_target in new_targets.keys(): if new_target in base_targets: raise Exception("Attempt to add target '%s' that already exists" % new_target) total_data = {} total_data.update(new_targets) total_data.update(base_targets) return target(name, total_data) class Target(namedtuple("Target", "name json_data resolution_order resolution_order_names")): """An object to represent a Target (MCU/Board)""" # Default location of the 'targets.json' file __targets_json_location_default = os.path.join( os.path.dirname(os.path.abspath(__file__)), '..', 'targets', 'targets.json') # Current/new location of the 'targets.json' file __targets_json_location = None @staticmethod @cached def get_json_target_data(): """Load the description of JSON target data""" return json_file_to_dict(Target.__targets_json_location or Target.__targets_json_location_default) @staticmethod def set_targets_json_location(location=None): """Set the location of the targets.json file""" Target.__targets_json_location = (location or Target.__targets_json_location_default) # Invalidate caches, since the location of the JSON file changed CACHES.clear() @staticmethod @cached def get_module_data(): """Get the members of this module using Python's "inspect" module""" return dict([(m[0], m[1]) for m in inspect.getmembers(sys.modules[__name__])]) @staticmethod def __add_paths_to_progen(data): """Modify the exporter specification ("progen") by changing all "template" keys to full paths """ out = {} for key, val in data.items(): if isinstance(val, dict): out[key] = Target.__add_paths_to_progen(val) elif key == "template": out[key] = [os.path.join(os.path.dirname(__file__), 'export', v) for v in val] else: out[key] = val return out def __getattr_cumulative(self, attrname): """Look for the attribute in the class and its parents, as defined by the resolution order """ tdata = self.json_data # For a cumulative attribute, figure out when it was defined the # last time (in attribute resolution order) then follow the "_add" # and "_remove" data fields for idx, tgt in enumerate(self.resolution_order): # the attribute was defined at this level in the resolution # order if attrname in tdata[tgt[0]]: def_idx = idx break else: raise AttributeError("Attribute '%s' not found in target '%s'" % (attrname, self.name)) # Get the starting value of the attribute starting_value = (tdata[self.resolution_order[def_idx][0]][attrname] or [])[:] # Traverse the resolution list in high inheritance to low # inheritance level, left to right order to figure out all the # other classes that change the definition by adding or removing # elements for idx in xrange(self.resolution_order[def_idx][1] - 1, -1, -1): same_level_targets = [tar[0] for tar in self.resolution_order if tar[1] == idx] for tar in same_level_targets: data = tdata[tar] # Do we have anything to add ? if data.has_key(attrname + "_add"): starting_value.extend(data[attrname + "_add"]) # Do we have anything to remove ? if data.has_key(attrname + "_remove"): # Macros can be defined either without a value (MACRO) # or with a value (MACRO=10). When removing, we specify # only the name of the macro, without the value. So we # need to create a mapping between the macro name and # its value. This will work for extra_labels and other # type of arrays as well, since they fall into the # "macros without a value" category (simple definitions # without a value). name_def_map = {} for crtv in starting_value: if crtv.find('=') != -1: temp = crtv.split('=') if len(temp) != 2: raise ValueError( "Invalid macro definition '%s'" % crtv) name_def_map[temp[0]] = crtv else: name_def_map[crtv] = crtv for element in data[attrname + "_remove"]: if element not in name_def_map: raise ValueError( ("Unable to remove '%s' in '%s.%s' since " % (element, self.name, attrname)) + "it doesn't exist") starting_value.remove(name_def_map[element]) return starting_value def __getattr_helper(self, attrname): """Compute the value of a given target attribute""" if attrname in CUMULATIVE_ATTRIBUTES: return self.__getattr_cumulative(attrname) else: tdata = self.json_data starting_value = None for tgt in self.resolution_order: data = tdata[tgt[0]] if data.has_key(attrname): starting_value = data[attrname] break else: # Attribute not found raise AttributeError( "Attribute '%s' not found in target '%s'" % (attrname, self.name)) # 'progen' needs the full path to the template (the path in JSON is # relative to tools/export) if attrname == "progen": return self.__add_paths_to_progen(starting_value) else: return starting_value def __getattr__(self, attrname): """ Return the value of an attribute. This function only computes the attribute's value once, then adds it to the instance attributes (in __dict__), so the next time it is returned directly """ result = self.__getattr_helper(attrname) self.__dict__[attrname] = result return result @staticmethod @cached def get_target(target_name): """ Return the target instance starting from the target name """ return target(target_name, Target.get_json_target_data()) @property def program_cycle_s(self): """Special override for program_cycle_s as it's default value depends upon is_disk_virtual """ try: return self.__getattr__("program_cycle_s") except AttributeError: return 4 if self.is_disk_virtual else 1.5 @property def labels(self): """Get all possible labels for this target""" labels = [self.name] + CORE_LABELS[self.core] + self.extra_labels # Automatically define UVISOR_UNSUPPORTED if the target doesn't # specifically define UVISOR_SUPPORTED if "UVISOR_SUPPORTED" not in labels: labels.append("UVISOR_UNSUPPORTED") return labels def init_hooks(self, hook, toolchain_name): """Initialize the post-build hooks for a toolchain. For now, this function only allows "post binary" hooks (hooks that are executed after the binary image is extracted from the executable file) """ # If there's no hook, simply return try: hook_data = self.post_binary_hook except AttributeError: return # A hook was found. The hook's name is in the format # "classname.functionname" temp = hook_data["function"].split(".") if len(temp) != 2: raise HookError( ("Invalid format for hook '%s' in target '%s'" % (hook_data["function"], self.name)) + " (must be 'class_name.function_name')") class_name, function_name = temp[0], temp[1] # "class_name" must refer to a class in this file, so check if the # class exists mdata = self.get_module_data() if not mdata.has_key(class_name) or \ not inspect.isclass(mdata[class_name]): raise HookError( ("Class '%s' required by '%s' in target '%s'" % (class_name, hook_data["function"], self.name)) + " not found in targets.py") # "function_name" must refer to a static function inside class # "class_name" cls = mdata[class_name] if (not hasattr(cls, function_name)) or \ (not inspect.isfunction(getattr(cls, function_name))): raise HookError( ("Static function '%s' " % function_name) + ("required by '%s' " % hook_data["function"]) + ("in target '%s' " % self.name) + ("not found in class '%s'" % class_name)) # Check if the hook specification also has target restrictions toolchain_restrictions = hook_data.get("toolchains", []) if toolchain_restrictions and \ (toolchain_name not in toolchain_restrictions): return # Finally, hook the requested function hook.hook_add_binary("post", getattr(cls, function_name)) ################################################################################ # Target specific code goes in this section # This code can be invoked from the target description using the # "post_binary_hook" key class LPCTargetCode(object): """General LPC Target patching code""" @staticmethod def lpc_patch(t_self, resources, elf, binf): """Patch an elf file""" t_self.debug("LPC Patch: %s" % os.path.split(binf)[1]) patch(binf) class LPC4088Code(object): """Code specific to the LPC4088""" @staticmethod def binary_hook(t_self, resources, elf, binf): """Hook to be run after an elf file is built""" if not os.path.isdir(binf): # Regular binary file, nothing to do LPCTargetCode.lpc_patch(t_self, resources, elf, binf) return outbin = open(binf + ".temp", "wb") partf = open(os.path.join(binf, "ER_IROM1"), "rb") # Pad the fist part (internal flash) with 0xFF to 512k data = partf.read() outbin.write(data) outbin.write('\xFF' * (512*1024 - len(data))) partf.close() # Read and append the second part (external flash) in chunks of fixed # size chunksize = 128 * 1024 partf = open(os.path.join(binf, "ER_IROM2"), "rb") while True: data = partf.read(chunksize) outbin.write(data) if len(data) < chunksize: break partf.close() outbin.close() # Remove the directory with the binary parts and rename the temporary # file to 'binf' shutil.rmtree(binf, True) os.rename(binf + '.temp', binf) t_self.debug("Generated custom binary file (internal flash + SPIFI)") LPCTargetCode.lpc_patch(t_self, resources, elf, binf) class TEENSY3_1Code(object): """Hooks for the TEENSY3.1""" @staticmethod def binary_hook(t_self, resources, elf, binf): """Hook that is run after elf is generated""" from intelhex import IntelHex binh = IntelHex() binh.loadbin(binf, offset=0) with open(binf.replace(".bin", ".hex"), "w") as file_desc: binh.tofile(file_desc, format='hex') class MTSCode(object): """Generic MTS code""" @staticmethod def _combine_bins_helper(target_name, binf): """combine bins with the bootloader for a particular target""" loader = os.path.join(TOOLS_BOOTLOADERS, target_name, "bootloader.bin") target = binf + ".tmp" if not os.path.exists(loader): print "Can't find bootloader binary: " + loader return outbin = open(target, 'w+b') part = open(loader, 'rb') data = part.read() outbin.write(data) outbin.write('\xFF' * (64*1024 - len(data))) part.close() part = open(binf, 'rb') data = part.read() outbin.write(data) part.close() outbin.seek(0, 0) data = outbin.read() outbin.seek(0, 1) crc = struct.pack('<I', binascii.crc32(data) & 0xFFFFFFFF) outbin.write(crc) outbin.close() os.remove(binf) os.rename(target, binf) @staticmethod def combine_bins_mts_dot(t_self, resources, elf, binf): """A hook for the MTS MDOT""" MTSCode._combine_bins_helper("MTS_MDOT_F411RE", binf) @staticmethod def combine_bins_mts_dragonfly(t_self, resources, elf, binf): """A hoof for the MTS Dragonfly""" MTSCode._combine_bins_helper("MTS_DRAGONFLY_F411RE", binf) class MCU_NRF51Code(object): """NRF51 Hooks""" @staticmethod def binary_hook(t_self, resources, _, binf): """Hook that merges the soft device with the bin file""" # Scan to find the actual paths of soft device sdf = None for softdevice_and_offset_entry\ in t_self.target.EXPECTED_SOFTDEVICES_WITH_OFFSETS: for hexf in resources.hex_files: if hexf.find(softdevice_and_offset_entry['name']) != -1: t_self.debug("SoftDevice file found %s." % softdevice_and_offset_entry['name']) sdf = hexf if sdf is not None: break if sdf is not None: break if sdf is None: t_self.debug("Hex file not found. Aborting.") return # Look for bootloader file that matches this soft device or bootloader # override image blf = None if t_self.target.MERGE_BOOTLOADER is True: for hexf in resources.hex_files: if hexf.find(t_self.target.OVERRIDE_BOOTLOADER_FILENAME) != -1: t_self.debug("Bootloader file found %s." % t_self.target.OVERRIDE_BOOTLOADER_FILENAME) blf = hexf break elif hexf.find(softdevice_and_offset_entry['boot']) != -1: t_self.debug("Bootloader file found %s." % softdevice_and_offset_entry['boot']) blf = hexf break # Merge user code with softdevice from intelhex import IntelHex binh = IntelHex() binh.loadbin(binf, offset=softdevice_and_offset_entry['offset']) if t_self.target.MERGE_SOFT_DEVICE is True: t_self.debug("Merge SoftDevice file %s" % softdevice_and_offset_entry['name']) sdh = IntelHex(sdf) binh.merge(sdh) if t_self.target.MERGE_BOOTLOADER is True and blf is not None: t_self.debug("Merge BootLoader file %s" % blf) blh = IntelHex(blf) binh.merge(blh) with open(binf.replace(".bin", ".hex"), "w") as fileout: binh.tofile(fileout, format='hex') class NCS36510TargetCode: @staticmethod def ncs36510_addfib(t_self, resources, elf, binf): from tools.add_fib import add_fib_at_start print("binf ", binf) add_fib_at_start(binf[:-4]) ################################################################################ # Instantiate all public targets TARGETS = [Target.get_target(name) for name, value in Target.get_json_target_data().items() if value.get("public", True)] # Map each target name to its unique instance TARGET_MAP = dict([(t.name, t) for t in TARGETS]) TARGET_NAMES = TARGET_MAP.keys() # Some targets with different name have the same exporters EXPORT_MAP = {} # Detection APIs def get_target_detect_codes(): """ Returns dictionary mapping detect_code -> platform_name """ result = {} for tgt in TARGETS: for detect_code in tgt.detect_code: result[detect_code] = tgt.name return result def set_targets_json_location(location=None): """Sets the location of the JSON file that contains the targets""" # First instruct Target about the new location Target.set_targets_json_location(location) # Then re-initialize TARGETS, TARGET_MAP and TARGET_NAMES. The # re-initialization does not create new variables, it keeps the old ones # instead. This ensures compatibility with code that does # "from tools.targets import TARGET_NAMES" TARGETS[:] = [Target.get_target(tgt) for tgt, obj in Target.get_json_target_data().items() if obj.get("public", True)] TARGET_MAP.clear() TARGET_MAP.update(dict([(tgt.name, tgt) for tgt in TARGETS])) TARGET_NAMES[:] = TARGET_MAP.keys()