예제 #1
0
        def _gen_fdt_nodes(base_node, node, depth, in_images):
            """Generate FDT nodes

            This creates one node for each member of self._fdts using the
            provided template. If a property value contains 'NAME' it is
            replaced with the filename of the FDT. If a property value contains
            SEQ it is replaced with the node sequence number, where 1 is the
            first.

            Args:
                node (None): Generator node to process
                depth: Current node depth (0 is the base 'fit' node)
                in_images: True if this is inside the 'images' node, so that
                    'data' properties should be generated
            """
            if self._fdts:
                # Generate nodes for each FDT
                for seq, fdt_fname in enumerate(self._fdts):
                    node_name = node.name[1:].replace('SEQ', str(seq + 1))
                    fname = tools.get_input_filename(fdt_fname + '.dtb')
                    with fsw.add_node(node_name):
                        for pname, prop in node.props.items():
                            if pname == 'fit,loadables':
                                val = '\0'.join(self._loadables) + '\0'
                                fsw.property('loadables', val.encode('utf-8'))
                            elif pname == 'fit,operation':
                                pass
                            elif pname.startswith('fit,'):
                                self._raise_subnode(
                                    node, f"Unknown directive '{pname}'")
                            else:
                                val = prop.bytes.replace(
                                    b'NAME', tools.to_bytes(fdt_fname))
                                val = val.replace(b'SEQ',
                                                  tools.to_bytes(str(seq + 1)))
                                fsw.property(pname, val)

                        # Add data for 'images' nodes (but not 'config')
                        if depth == 1 and in_images:
                            fsw.property('data', tools.read_file(fname))

                        for subnode in node.subnodes:
                            with fsw.add_node(subnode.name):
                                _add_node(node, depth + 1, subnode)
            else:
                if self._fdts is None:
                    if self._fit_list_prop:
                        self.Raise(
                            'Generator node requires '
                            f"'{self._fit_list_prop.value}' entry argument")
                    else:
                        self.Raise(
                            "Generator node requires 'fit,fdt-list' property")
예제 #2
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파일: text.py 프로젝트: tmn505/u-boot
 def __init__(self, section, etype, node):
     super().__init__(section, etype, node)
     value = fdt_util.GetString(self._node, 'text')
     if value:
         value = tools.to_bytes(value)
     else:
         label, = self.GetEntryArgsOrProps([EntryArg('text-label', str)])
         self.text_label = label
         if self.text_label:
             value, = self.GetEntryArgsOrProps(
                 [EntryArg(self.text_label, str)])
             value = tools.to_bytes(value) if value is not None else value
     self.value = value
예제 #3
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파일: test_fdt.py 프로젝트: tmn505/u-boot
    def testAddMore(self):
        """Test various other methods for adding and setting properties"""
        self.node.AddZeroProp('one')
        self.dtb.Sync(auto_resize=True)
        data = self.fdt.getprop(self.node.Offset(), 'one')
        self.assertEqual(0, fdt32_to_cpu(data))

        self.node.SetInt('one', 1)
        self.dtb.Sync(auto_resize=False)
        data = self.fdt.getprop(self.node.Offset(), 'one')
        self.assertEqual(1, fdt32_to_cpu(data))

        val = 1234
        self.node.AddInt('integer', val)
        self.dtb.Sync(auto_resize=True)
        data = self.fdt.getprop(self.node.Offset(), 'integer')
        self.assertEqual(val, fdt32_to_cpu(data))

        val = '123' + chr(0) + '456'
        self.node.AddString('string', val)
        self.dtb.Sync(auto_resize=True)
        data = self.fdt.getprop(self.node.Offset(), 'string')
        self.assertEqual(tools.to_bytes(val) + b'\0', data)

        self.fdt.pack()
        self.node.SetString('string', val + 'x')
        with self.assertRaises(libfdt.FdtException) as e:
            self.dtb.Sync(auto_resize=False)
        self.assertIn('FDT_ERR_NOSPACE', str(e.exception))
        self.node.SetString('string', val[:-1])

        prop = self.node.props['string']
        prop.SetData(tools.to_bytes(val))
        self.dtb.Sync(auto_resize=False)
        data = self.fdt.getprop(self.node.Offset(), 'string')
        self.assertEqual(tools.to_bytes(val), data)

        self.node.AddEmptyProp('empty', 5)
        self.dtb.Sync(auto_resize=True)
        prop = self.node.props['empty']
        prop.SetData(tools.to_bytes(val))
        self.dtb.Sync(auto_resize=False)
        data = self.fdt.getprop(self.node.Offset(), 'empty')
        self.assertEqual(tools.to_bytes(val), data)

        self.node.SetData('empty', b'123')
        self.assertEqual(b'123', prop.bytes)

        # Trying adding a lot of data at once
        self.node.AddData('data', tools.get_bytes(65, 20000))
        self.dtb.Sync(auto_resize=True)
예제 #4
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def _pack_string(instr):
    """Pack a string to the required aligned size by adding padding

    Args:
        instr: String to process

    Returns:
        String with required padding (at least one 0x00 byte) at the end
    """
    val = tools.to_bytes(instr)
    pad_len = align_int(len(val) + 1, FILENAME_ALIGN)
    return val + tools.get_bytes(0, pad_len - len(val))
예제 #5
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        def _scan_gen_fdt_nodes(subnode, depth, in_images):
            """Generate FDT nodes

            This creates one node for each member of self._fdts using the
            provided template. If a property value contains 'NAME' it is
            replaced with the filename of the FDT. If a property value contains
            SEQ it is replaced with the node sequence number, where 1 is the
            first.

            Args:
                subnode (None): Generator node to process
                depth: Current node depth (0 is the base 'fit' node)
                in_images: True if this is inside the 'images' node, so that
                    'data' properties should be generated
            """
            if self._fdts:
                # Generate nodes for each FDT
                for seq, fdt_fname in enumerate(self._fdts):
                    node_name = subnode.name[1:].replace('SEQ', str(seq + 1))
                    fname = tools.get_input_filename(fdt_fname + '.dtb')
                    with fsw.add_node(node_name):
                        for pname, prop in subnode.props.items():
                            val = prop.bytes.replace(b'NAME',
                                                     tools.to_bytes(fdt_fname))
                            val = val.replace(b'SEQ',
                                              tools.to_bytes(str(seq + 1)))
                            fsw.property(pname, val)

                        # Add data for 'images' nodes (but not 'config')
                        if depth == 1 and in_images:
                            fsw.property('data', tools.read_file(fname))
            else:
                if self._fdts is None:
                    if self._fit_list_prop:
                        self.Raise(
                            "Generator node requires '%s' entry argument" %
                            self._fit_list_prop.value)
                    else:
                        self.Raise(
                            "Generator node requires 'fit,fdt-list' property")
예제 #6
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    def MakeEnvironment(self, full_path):
        """Returns an environment for using the toolchain.

        Thie takes the current environment and adds CROSS_COMPILE so that
        the tool chain will operate correctly. This also disables localized
        output and possibly unicode encoded output of all build tools by
        adding LC_ALL=C.

        Note that os.environb is used to obtain the environment, since in some
        cases the environment many contain non-ASCII characters and we see
        errors like:

          UnicodeEncodeError: 'utf-8' codec can't encode characters in position
             569-570: surrogates not allowed

        Args:
            full_path: Return the full path in CROSS_COMPILE and don't set
                PATH
        Returns:
            Dict containing the (bytes) environment to use. This is based on the
            current environment, with changes as needed to CROSS_COMPILE, PATH
            and LC_ALL.
        """
        env = dict(os.environb)
        wrapper = self.GetWrapper()

        if self.override_toolchain:
            # We'll use MakeArgs() to provide this
            pass
        elif full_path:
            env[b'CROSS_COMPILE'] = tools.to_bytes(
                wrapper + os.path.join(self.path, self.cross))
        else:
            env[b'CROSS_COMPILE'] = tools.to_bytes(wrapper + self.cross)
            env[b'PATH'] = tools.to_bytes(self.path) + b':' + env[b'PATH']

        env[b'LC_ALL'] = b'C'

        return env
예제 #7
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def ConvertName(field_names, fields):
    """Convert a name to something flashrom likes

    Flashrom requires upper case, underscores instead of hyphens. We remove any
    null characters as well. This updates the 'name' value in fields.

    Args:
        field_names: List of field names for this struct
        fields: Dict:
            key: Field name
            value: value of that field (string for the ones we support)
    """
    name_index = field_names.index('name')
    fields[name_index] = tools.to_bytes(NameToFmap(fields[name_index]))
예제 #8
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파일: fit.py 프로젝트: petegriffin/u-boot
        def _AddNode(base_node, depth, node):
            """Add a node to the FIT

            Args:
                base_node: Base Node of the FIT (with 'description' property)
                depth: Current node depth (0 is the base node)
                node: Current node to process

            There are two cases to deal with:
                - hash and signature nodes which become part of the FIT
                - binman entries which are used to define the 'data' for each
                  image
            """
            for pname, prop in node.props.items():
                if not pname.startswith('fit,'):
                    if pname == 'default':
                        val = prop.value
                        # Handle the 'default' property
                        if val.startswith('@'):
                            if not self._fdts:
                                continue
                            if not self._fit_default_dt:
                                self.Raise("Generated 'default' node requires default-dt entry argument")
                            if self._fit_default_dt not in self._fdts:
                                self.Raise("default-dt entry argument '%s' not found in fdt list: %s" %
                                           (self._fit_default_dt,
                                            ', '.join(self._fdts)))
                            seq = self._fdts.index(self._fit_default_dt)
                            val = val[1:].replace('DEFAULT-SEQ', str(seq + 1))
                            fsw.property_string(pname, val)
                            continue
                    fsw.property(pname, prop.bytes)

            rel_path = node.path[len(base_node.path):]
            in_images = rel_path.startswith('/images')
            has_images = depth == 2 and in_images
            if has_images:
                # This node is a FIT subimage node (e.g. "/images/kernel")
                # containing content nodes. We collect the subimage nodes and
                # section entries for them here to merge the content subnodes
                # together and put the merged contents in the subimage node's
                # 'data' property later.
                entry = Entry.Create(self.section, node, etype='section')
                entry.ReadNode()
                self._entries[rel_path] = entry

            for subnode in node.subnodes:
                if has_images and not (subnode.name.startswith('hash') or
                                       subnode.name.startswith('signature')):
                    # This subnode is a content node not meant to appear in
                    # the FIT (e.g. "/images/kernel/u-boot"), so don't call
                    # fsw.add_node() or _AddNode() for it.
                    pass
                elif self.GetImage().generate and subnode.name.startswith('@'):
                    if self._fdts:
                        # Generate notes for each FDT
                        for seq, fdt_fname in enumerate(self._fdts):
                            node_name = subnode.name[1:].replace('SEQ',
                                                                 str(seq + 1))
                            fname = tools.get_input_filename(fdt_fname + '.dtb')
                            with fsw.add_node(node_name):
                                for pname, prop in subnode.props.items():
                                    val = prop.bytes.replace(
                                        b'NAME', tools.to_bytes(fdt_fname))
                                    val = val.replace(
                                        b'SEQ', tools.to_bytes(str(seq + 1)))
                                    fsw.property(pname, val)

                                # Add data for 'fdt' nodes (but not 'config')
                                if depth == 1 and in_images:
                                    fsw.property('data',
                                                 tools.read_file(fname))
                    else:
                        if self._fdts is None:
                            if self._fit_list_prop:
                                self.Raise("Generator node requires '%s' entry argument" %
                                           self._fit_list_prop.value)
                            else:
                                self.Raise("Generator node requires 'fit,fdt-list' property")
                else:
                    with fsw.add_node(subnode.name):
                        _AddNode(base_node, depth + 1, subnode)