u-boot/tools/binman/image.py

# Copyright (c) 2016 Google, Inc
# Written by Simon Glass <sjg@chromium.org>
#
# SPDX-License-Identifier:      GPL-2.0+
#
# Class for an image, the output of binman
#

from collections import OrderedDict
from operator import attrgetter

import entry
from entry import Entry
import fdt_util
import tools

class Image:
    """A Image, representing an output from binman

    An image is comprised of a collection of entries each containing binary
    data. The image size must be large enough to hold all of this data.

    This class implements the various operations needed for images.

    Atrtributes:
        _node: Node object that contains the image definition in device tree
        _name: Image name
        _size: Image size in bytes, or None if not known yet
        _align_size: Image size alignment, or None
        _pad_before: Number of bytes before the first entry starts. This
            effectively changes the place where entry position 0 starts
        _pad_after: Number of bytes after the last entry ends. The last
            entry will finish on or before this boundary
        _pad_byte: Byte to use to pad the image where there is no entry
        _filename: Output filename for image
        _sort: True if entries should be sorted by position, False if they
            must be in-order in the device tree description
        _skip_at_start: Number of bytes before the first entry starts. These
            effecively adjust the starting position of entries. For example,
            if _pad_before is 16, then the first entry would start at 16.
            An entry with pos = 20 would in fact be written at position 4
            in the image file.
        _end_4gb: Indicates that the image ends at the 4GB boundary. This is
            used for x86 images, which want to use positions such that a
             memory address (like 0xff800000) is the first entry position.
             This causes _skip_at_start to be set to the starting memory
             address.
        _entries: OrderedDict() of entries
    """
    def __init__(self, name, node):
        self._node = node
        self._name = name
        self._size = None
        self._align_size = None
        self._pad_before = 0
        self._pad_after = 0
        self._pad_byte = 0
        self._filename = '%s.bin' % self._name
        self._sort = False
        self._skip_at_start = 0
        self._end_4gb = False
        self._entries = OrderedDict()

        self._ReadNode()
        self._ReadEntries()

    def _ReadNode(self):
        """Read properties from the image node"""
        self._size = fdt_util.GetInt(self._node, 'size')
        self._align_size = fdt_util.GetInt(self._node, 'align-size')
        if tools.NotPowerOfTwo(self._align_size):
            self._Raise("Alignment size %s must be a power of two" %
                        self._align_size)
        self._pad_before = fdt_util.GetInt(self._node, 'pad-before', 0)
        self._pad_after = fdt_util.GetInt(self._node, 'pad-after', 0)
        self._pad_byte = fdt_util.GetInt(self._node, 'pad-byte', 0)
        filename = fdt_util.GetString(self._node, 'filename')
        if filename:
            self._filename = filename
        self._sort = fdt_util.GetBool(self._node, 'sort-by-pos')
        self._end_4gb = fdt_util.GetBool(self._node, 'end-at-4gb')
        if self._end_4gb and not self._size:
            self._Raise("Image size must be provided when using end-at-4gb")
        if self._end_4gb:
            self._skip_at_start = 0x100000000 - self._size

    def CheckSize(self):
        """Check that the image contents does not exceed its size, etc."""
        contents_size = 0
        for entry in self._entries.values():
            contents_size = max(contents_size, entry.pos + entry.size)

        contents_size -= self._skip_at_start

        size = self._size
        if not size:
            size = self._pad_before + contents_size + self._pad_after
            size = tools.Align(size, self._align_size)

        if self._size and contents_size > self._size:
            self._Raise("contents size %#x (%d) exceeds image size %#x (%d)" %
                       (contents_size, contents_size, self._size, self._size))
        if not self._size:
            self._size = size
        if self._size != tools.Align(self._size, self._align_size):
            self._Raise("Size %#x (%d) does not match align-size %#x (%d)" %
                  (self._size, self._size, self._align_size, self._align_size))

    def _Raise(self, msg):
        """Raises an error for this image

        Args:
            msg: Error message to use in the raise string
        Raises:
            ValueError()
        """
        raise ValueError("Image '%s': %s" % (self._node.path, msg))

    def _ReadEntries(self):
        for node in self._node.subnodes:
            self._entries[node.name] = Entry.Create(self, node)

    def FindEntryType(self, etype):
        """Find an entry type in the image

        Args:
            etype: Entry type to find
        Returns:
            entry matching that type, or None if not found
        """
        for entry in self._entries.values():
            if entry.etype == etype:
                return entry
        return None

    def GetEntryContents(self):
        """Call ObtainContents() for each entry

        This calls each entry's ObtainContents() a few times until they all
        return True. We stop calling an entry's function once it returns
        True. This allows the contents of one entry to depend on another.

        After 3 rounds we give up since it's likely an error.
        """
        todo = self._entries.values()
        for passnum in range(3):
            next_todo = []
            for entry in todo:
                if not entry.ObtainContents():
                    next_todo.append(entry)
            todo = next_todo
            if not todo:
                break

    def _SetEntryPosSize(self, name, pos, size):
        """Set the position and size of an entry

        Args:
            name: Entry name to update
            pos: New position
            size: New size
        """
        entry = self._entries.get(name)
        if not entry:
            self._Raise("Unable to set pos/size for unknown entry '%s'" % name)
        entry.SetPositionSize(self._skip_at_start + pos, size)

    def GetEntryPositions(self):
        """Handle entries that want to set the position/size of other entries

        This calls each entry's GetPositions() method. If it returns a list
        of entries to update, it updates them.
        """
        for entry in self._entries.values():
            pos_dict = entry.GetPositions()
            for name, info in pos_dict.iteritems():
                self._SetEntryPosSize(name, *info)

    def PackEntries(self):
        """Pack all entries into the image"""
        pos = self._skip_at_start
        for entry in self._entries.values():
            pos = entry.Pack(pos)

    def _SortEntries(self):
        """Sort entries by position"""
        entries = sorted(self._entries.values(), key=lambda entry: entry.pos)
        self._entries.clear()
        for entry in entries:
            self._entries[entry._node.name] = entry

    def CheckEntries(self):
        """Check that entries do not overlap or extend outside the image"""
        if self._sort:
            self._SortEntries()
        pos = 0
        prev_name = 'None'
        for entry in self._entries.values():
            if (entry.pos < self._skip_at_start or
                entry.pos >= self._skip_at_start + self._size):
                entry.Raise("Position %#x (%d) is outside the image starting "
                            "at %#x (%d)" %
                            (entry.pos, entry.pos, self._skip_at_start,
                             self._skip_at_start))
            if entry.pos < pos:
                entry.Raise("Position %#x (%d) overlaps with previous entry '%s' "
                            "ending at %#x (%d)" %
                            (entry.pos, entry.pos, prev_name, pos, pos))
            pos = entry.pos + entry.size
            prev_name = entry.GetPath()

    def ProcessEntryContents(self):
        """Call the ProcessContents() method for each entry

        This is intended to adjust the contents as needed by the entry type.
        """
        for entry in self._entries.values():
            entry.ProcessContents()

    def BuildImage(self):
        """Write the image to a file"""
        fname = tools.GetOutputFilename(self._filename)
        with open(fname, 'wb') as fd:
            fd.write(chr(self._pad_byte) * self._size)

            for entry in self._entries.values():
                data = entry.GetData()
                fd.seek(self._pad_before + entry.pos - self._skip_at_start)
                fd.write(data)
binman: Introduce binman, a tool for building binary images This adds the basic code for binman, including command parsing, processing of entries and generation of images. So far no entry types are supported. These will be added in future commits as examples of how to add new types. See the README for documentation. Signed-off-by: Simon Glass <sjg@chromium.org> Tested-by: Bin Meng <bmeng.cn@gmail.com> 2016-11-26 03:15:51 +00:00			`# Copyright (c) 2016 Google, Inc`
			`# Written by Simon Glass <sjg@chromium.org>`
			`#`
			`# SPDX-License-Identifier: GPL-2.0+`
			`#`
			`# Class for an image, the output of binman`
			`#`

			`from collections import OrderedDict`
			`from operator import attrgetter`

			`import entry`
			`from entry import Entry`
			`import fdt_util`
			`import tools`

			`class Image:`
			`"""A Image, representing an output from binman`

			`An image is comprised of a collection of entries each containing binary`
			`data. The image size must be large enough to hold all of this data.`

			`This class implements the various operations needed for images.`

			`Atrtributes:`
			`_node: Node object that contains the image definition in device tree`
			`_name: Image name`
			`_size: Image size in bytes, or None if not known yet`
			`_align_size: Image size alignment, or None`
			`_pad_before: Number of bytes before the first entry starts. This`
			`effectively changes the place where entry position 0 starts`
			`_pad_after: Number of bytes after the last entry ends. The last`
			`entry will finish on or before this boundary`
			`_pad_byte: Byte to use to pad the image where there is no entry`
			`_filename: Output filename for image`
			`_sort: True if entries should be sorted by position, False if they`
			`must be in-order in the device tree description`
			`_skip_at_start: Number of bytes before the first entry starts. These`
			`effecively adjust the starting position of entries. For example,`
			`if _pad_before is 16, then the first entry would start at 16.`
			`An entry with pos = 20 would in fact be written at position 4`
			`in the image file.`
			`_end_4gb: Indicates that the image ends at the 4GB boundary. This is`
			`used for x86 images, which want to use positions such that a`
			`memory address (like 0xff800000) is the first entry position.`
			`This causes _skip_at_start to be set to the starting memory`
			`address.`
			`_entries: OrderedDict() of entries`
			`"""`
			`def __init__(self, name, node):`
			`self._node = node`
			`self._name = name`
			`self._size = None`
			`self._align_size = None`
			`self._pad_before = 0`
			`self._pad_after = 0`
			`self._pad_byte = 0`
			`self._filename = '%s.bin' % self._name`
			`self._sort = False`
			`self._skip_at_start = 0`
			`self._end_4gb = False`
			`self._entries = OrderedDict()`

			`self._ReadNode()`
			`self._ReadEntries()`

			`def _ReadNode(self):`
			`"""Read properties from the image node"""`
			`self._size = fdt_util.GetInt(self._node, 'size')`
			`self._align_size = fdt_util.GetInt(self._node, 'align-size')`
			`if tools.NotPowerOfTwo(self._align_size):`
			`self._Raise("Alignment size %s must be a power of two" %`
			`self._align_size)`
			`self._pad_before = fdt_util.GetInt(self._node, 'pad-before', 0)`
			`self._pad_after = fdt_util.GetInt(self._node, 'pad-after', 0)`
			`self._pad_byte = fdt_util.GetInt(self._node, 'pad-byte', 0)`
			`filename = fdt_util.GetString(self._node, 'filename')`
			`if filename:`
			`self._filename = filename`
			`self._sort = fdt_util.GetBool(self._node, 'sort-by-pos')`
			`self._end_4gb = fdt_util.GetBool(self._node, 'end-at-4gb')`
			`if self._end_4gb and not self._size:`
			`self._Raise("Image size must be provided when using end-at-4gb")`
			`if self._end_4gb:`
			`self._skip_at_start = 0x100000000 - self._size`

			`def CheckSize(self):`
			`"""Check that the image contents does not exceed its size, etc."""`
			`contents_size = 0`
			`for entry in self._entries.values():`
			`contents_size = max(contents_size, entry.pos + entry.size)`

			`contents_size -= self._skip_at_start`

			`size = self._size`
			`if not size:`
			`size = self._pad_before + contents_size + self._pad_after`
			`size = tools.Align(size, self._align_size)`

			`if self._size and contents_size > self._size:`
			`self._Raise("contents size %#x (%d) exceeds image size %#x (%d)" %`
			`(contents_size, contents_size, self._size, self._size))`
			`if not self._size:`
			`self._size = size`
			`if self._size != tools.Align(self._size, self._align_size):`
			`self._Raise("Size %#x (%d) does not match align-size %#x (%d)" %`
			`(self._size, self._size, self._align_size, self._align_size))`

			`def _Raise(self, msg):`
			`"""Raises an error for this image`

			`Args:`
			`msg: Error message to use in the raise string`
			`Raises:`
			`ValueError()`
			`"""`
			`raise ValueError("Image '%s': %s" % (self._node.path, msg))`

			`def _ReadEntries(self):`
			`for node in self._node.subnodes:`
			`self._entries[node.name] = Entry.Create(self, node)`

			`def FindEntryType(self, etype):`
			`"""Find an entry type in the image`

			`Args:`
			`etype: Entry type to find`
			`Returns:`
			`entry matching that type, or None if not found`
			`"""`
			`for entry in self._entries.values():`
			`if entry.etype == etype:`
			`return entry`
			`return None`

			`def GetEntryContents(self):`
			`"""Call ObtainContents() for each entry`

			`This calls each entry's ObtainContents() a few times until they all`
			`return True. We stop calling an entry's function once it returns`
			`True. This allows the contents of one entry to depend on another.`

			`After 3 rounds we give up since it's likely an error.`
			`"""`
			`todo = self._entries.values()`
			`for passnum in range(3):`
			`next_todo = []`
			`for entry in todo:`
			`if not entry.ObtainContents():`
			`next_todo.append(entry)`
			`todo = next_todo`
			`if not todo:`
			`break`

			`def _SetEntryPosSize(self, name, pos, size):`
			`"""Set the position and size of an entry`

			`Args:`
			`name: Entry name to update`
			`pos: New position`
			`size: New size`
			`"""`
			`entry = self._entries.get(name)`
			`if not entry:`
			`self._Raise("Unable to set pos/size for unknown entry '%s'" % name)`
			`entry.SetPositionSize(self._skip_at_start + pos, size)`

			`def GetEntryPositions(self):`
			`"""Handle entries that want to set the position/size of other entries`

			`This calls each entry's GetPositions() method. If it returns a list`
			`of entries to update, it updates them.`
			`"""`
			`for entry in self._entries.values():`
			`pos_dict = entry.GetPositions()`
			`for name, info in pos_dict.iteritems():`
			`self._SetEntryPosSize(name, *info)`

			`def PackEntries(self):`
			`"""Pack all entries into the image"""`
			`pos = self._skip_at_start`
			`for entry in self._entries.values():`
			`pos = entry.Pack(pos)`

			`def _SortEntries(self):`
			`"""Sort entries by position"""`
			`entries = sorted(self._entries.values(), key=lambda entry: entry.pos)`
			`self._entries.clear()`
			`for entry in entries:`
			`self._entries[entry._node.name] = entry`

			`def CheckEntries(self):`
			`"""Check that entries do not overlap or extend outside the image"""`
			`if self._sort:`
			`self._SortEntries()`
			`pos = 0`
			`prev_name = 'None'`
			`for entry in self._entries.values():`
			`if (entry.pos < self._skip_at_start or`
			`entry.pos >= self._skip_at_start + self._size):`
			`entry.Raise("Position %#x (%d) is outside the image starting "`
			`"at %#x (%d)" %`
			`(entry.pos, entry.pos, self._skip_at_start,`
			`self._skip_at_start))`
			`if entry.pos < pos:`
			`entry.Raise("Position %#x (%d) overlaps with previous entry '%s' "`
			`"ending at %#x (%d)" %`
			`(entry.pos, entry.pos, prev_name, pos, pos))`
			`pos = entry.pos + entry.size`
			`prev_name = entry.GetPath()`

			`def ProcessEntryContents(self):`
			`"""Call the ProcessContents() method for each entry`

			`This is intended to adjust the contents as needed by the entry type.`
			`"""`
			`for entry in self._entries.values():`
			`entry.ProcessContents()`

			`def BuildImage(self):`
			`"""Write the image to a file"""`
			`fname = tools.GetOutputFilename(self._filename)`
			`with open(fname, 'wb') as fd:`
			`fd.write(chr(self._pad_byte) * self._size)`

			`for entry in self._entries.values():`
			`data = entry.GetData()`
			`fd.seek(self._pad_before + entry.pos - self._skip_at_start)`
			`fd.write(data)`