mirror of
https://github.com/brain-hackers/u-boot-brain
synced 2024-09-21 04:00:25 +09:00
bf776679a7
At present patman sets the python path on startup so that it can access the libraries it needs. If we convert to use absolute imports this is not necessary. Move patman to use absolute imports. This requires changes in tools which use the patman libraries (which is most of them). Signed-off-by: Simon Glass <sjg@chromium.org>
538 lines
20 KiB
Python
538 lines
20 KiB
Python
# SPDX-License-Identifier: GPL-2.0+
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# Copyright (c) 2018 Google, Inc
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# Written by Simon Glass <sjg@chromium.org>
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"""Entry-type module for sections (groups of entries)
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Sections are entries which can contain other entries. This allows hierarchical
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images to be created.
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"""
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from collections import OrderedDict
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import re
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import sys
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from binman.entry import Entry
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from dtoc import fdt_util
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from patman import tools
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from patman import tout
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class Entry_section(Entry):
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"""Entry that contains other entries
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Properties / Entry arguments: (see binman README for more information)
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pad-byte: Pad byte to use when padding
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sort-by-offset: True if entries should be sorted by offset, False if
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they must be in-order in the device tree description
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end-at-4gb: Used to build an x86 ROM which ends at 4GB (2^32)
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skip-at-start: Number of bytes before the first entry starts. These
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effectively adjust the starting offset of entries. For example,
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if this is 16, then the first entry would start at 16. An entry
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with offset = 20 would in fact be written at offset 4 in the image
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file, since the first 16 bytes are skipped when writing.
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name-prefix: Adds a prefix to the name of every entry in the section
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when writing out the map
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Since a section is also an entry, it inherits all the properies of entries
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too.
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A section is an entry which can contain other entries, thus allowing
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hierarchical images to be created. See 'Sections and hierarchical images'
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in the binman README for more information.
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"""
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def __init__(self, section, etype, node, test=False):
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if not test:
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Entry.__init__(self, section, etype, node)
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self._entries = OrderedDict()
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self._pad_byte = 0
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self._sort = False
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self._skip_at_start = None
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self._end_4gb = False
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def ReadNode(self):
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"""Read properties from the image node"""
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Entry.ReadNode(self)
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self._pad_byte = fdt_util.GetInt(self._node, 'pad-byte', 0)
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self._sort = fdt_util.GetBool(self._node, 'sort-by-offset')
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self._end_4gb = fdt_util.GetBool(self._node, 'end-at-4gb')
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self._skip_at_start = fdt_util.GetInt(self._node, 'skip-at-start')
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if self._end_4gb:
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if not self.size:
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self.Raise("Section size must be provided when using end-at-4gb")
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if self._skip_at_start is not None:
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self.Raise("Provide either 'end-at-4gb' or 'skip-at-start'")
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else:
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self._skip_at_start = 0x100000000 - self.size
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else:
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if self._skip_at_start is None:
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self._skip_at_start = 0
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self._name_prefix = fdt_util.GetString(self._node, 'name-prefix')
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filename = fdt_util.GetString(self._node, 'filename')
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if filename:
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self._filename = filename
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self._ReadEntries()
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def _ReadEntries(self):
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for node in self._node.subnodes:
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if node.name == 'hash':
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continue
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entry = Entry.Create(self, node)
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entry.ReadNode()
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entry.SetPrefix(self._name_prefix)
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self._entries[node.name] = entry
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def _Raise(self, msg):
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"""Raises an error for this section
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Args:
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msg: Error message to use in the raise string
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Raises:
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ValueError()
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"""
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raise ValueError("Section '%s': %s" % (self._node.path, msg))
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def GetFdts(self):
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fdts = {}
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for entry in self._entries.values():
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fdts.update(entry.GetFdts())
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return fdts
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def ProcessFdt(self, fdt):
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"""Allow entries to adjust the device tree
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Some entries need to adjust the device tree for their purposes. This
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may involve adding or deleting properties.
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"""
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todo = self._entries.values()
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for passnum in range(3):
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next_todo = []
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for entry in todo:
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if not entry.ProcessFdt(fdt):
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next_todo.append(entry)
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todo = next_todo
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if not todo:
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break
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if todo:
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self.Raise('Internal error: Could not complete processing of Fdt: remaining %s' %
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todo)
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return True
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def ExpandEntries(self):
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"""Expand out any entries which have calculated sub-entries
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Some entries are expanded out at runtime, e.g. 'files', which produces
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a section containing a list of files. Process these entries so that
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this information is added to the device tree.
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"""
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Entry.ExpandEntries(self)
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for entry in self._entries.values():
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entry.ExpandEntries()
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def AddMissingProperties(self):
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"""Add new properties to the device tree as needed for this entry"""
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Entry.AddMissingProperties(self)
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for entry in self._entries.values():
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entry.AddMissingProperties()
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def ObtainContents(self):
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return self.GetEntryContents()
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def GetData(self):
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section_data = b''
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for entry in self._entries.values():
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data = entry.GetData()
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base = self.pad_before + (entry.offset or 0) - self._skip_at_start
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pad = base - len(section_data)
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if pad > 0:
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section_data += tools.GetBytes(self._pad_byte, pad)
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section_data += data
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if self.size:
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pad = self.size - len(section_data)
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if pad > 0:
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section_data += tools.GetBytes(self._pad_byte, pad)
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self.Detail('GetData: %d entries, total size %#x' %
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(len(self._entries), len(section_data)))
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return section_data
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def GetOffsets(self):
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"""Handle entries that want to set the offset/size of other entries
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This calls each entry's GetOffsets() method. If it returns a list
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of entries to update, it updates them.
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"""
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self.GetEntryOffsets()
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return {}
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def ResetForPack(self):
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"""Reset offset/size fields so that packing can be done again"""
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Entry.ResetForPack(self)
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for entry in self._entries.values():
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entry.ResetForPack()
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def Pack(self, offset):
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"""Pack all entries into the section"""
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self._PackEntries()
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return Entry.Pack(self, offset)
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def _PackEntries(self):
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"""Pack all entries into the image"""
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offset = self._skip_at_start
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for entry in self._entries.values():
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offset = entry.Pack(offset)
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self.size = self.CheckSize()
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def _ExpandEntries(self):
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"""Expand any entries that are permitted to"""
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exp_entry = None
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for entry in self._entries.values():
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if exp_entry:
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exp_entry.ExpandToLimit(entry.offset)
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exp_entry = None
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if entry.expand_size:
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exp_entry = entry
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if exp_entry:
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exp_entry.ExpandToLimit(self.size)
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def _SortEntries(self):
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"""Sort entries by offset"""
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entries = sorted(self._entries.values(), key=lambda entry: entry.offset)
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self._entries.clear()
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for entry in entries:
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self._entries[entry._node.name] = entry
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def CheckEntries(self):
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"""Check that entries do not overlap or extend outside the image"""
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if self._sort:
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self._SortEntries()
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self._ExpandEntries()
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offset = 0
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prev_name = 'None'
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for entry in self._entries.values():
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entry.CheckOffset()
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if (entry.offset < self._skip_at_start or
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entry.offset + entry.size > self._skip_at_start +
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self.size):
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entry.Raise("Offset %#x (%d) is outside the section starting "
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"at %#x (%d)" %
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(entry.offset, entry.offset, self._skip_at_start,
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self._skip_at_start))
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if entry.offset < offset:
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entry.Raise("Offset %#x (%d) overlaps with previous entry '%s' "
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"ending at %#x (%d)" %
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(entry.offset, entry.offset, prev_name, offset, offset))
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offset = entry.offset + entry.size
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prev_name = entry.GetPath()
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def WriteSymbols(self, section):
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"""Write symbol values into binary files for access at run time"""
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for entry in self._entries.values():
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entry.WriteSymbols(self)
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def SetCalculatedProperties(self):
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Entry.SetCalculatedProperties(self)
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for entry in self._entries.values():
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entry.SetCalculatedProperties()
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def SetImagePos(self, image_pos):
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Entry.SetImagePos(self, image_pos)
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for entry in self._entries.values():
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entry.SetImagePos(image_pos + self.offset)
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def ProcessContents(self):
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sizes_ok_base = super(Entry_section, self).ProcessContents()
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sizes_ok = True
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for entry in self._entries.values():
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if not entry.ProcessContents():
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sizes_ok = False
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return sizes_ok and sizes_ok_base
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def CheckOffset(self):
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self.CheckEntries()
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def WriteMap(self, fd, indent):
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"""Write a map of the section to a .map file
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Args:
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fd: File to write the map to
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"""
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Entry.WriteMapLine(fd, indent, self.name, self.offset or 0,
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self.size, self.image_pos)
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for entry in self._entries.values():
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entry.WriteMap(fd, indent + 1)
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def GetEntries(self):
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return self._entries
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def GetContentsByPhandle(self, phandle, source_entry):
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"""Get the data contents of an entry specified by a phandle
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This uses a phandle to look up a node and and find the entry
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associated with it. Then it returnst he contents of that entry.
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Args:
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phandle: Phandle to look up (integer)
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source_entry: Entry containing that phandle (used for error
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reporting)
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Returns:
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data from associated entry (as a string), or None if not found
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"""
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node = self._node.GetFdt().LookupPhandle(phandle)
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if not node:
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source_entry.Raise("Cannot find node for phandle %d" % phandle)
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for entry in self._entries.values():
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if entry._node == node:
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return entry.GetData()
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source_entry.Raise("Cannot find entry for node '%s'" % node.name)
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def LookupSymbol(self, sym_name, optional, msg, base_addr):
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"""Look up a symbol in an ELF file
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Looks up a symbol in an ELF file. Only entry types which come from an
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ELF image can be used by this function.
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At present the only entry properties supported are:
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offset
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image_pos - 'base_addr' is added if this is not an end-at-4gb image
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size
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Args:
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sym_name: Symbol name in the ELF file to look up in the format
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_binman_<entry>_prop_<property> where <entry> is the name of
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the entry and <property> is the property to find (e.g.
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_binman_u_boot_prop_offset). As a special case, you can append
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_any to <entry> to have it search for any matching entry. E.g.
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_binman_u_boot_any_prop_offset will match entries called u-boot,
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u-boot-img and u-boot-nodtb)
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optional: True if the symbol is optional. If False this function
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will raise if the symbol is not found
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msg: Message to display if an error occurs
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base_addr: Base address of image. This is added to the returned
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image_pos in most cases so that the returned position indicates
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where the targetted entry/binary has actually been loaded. But
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if end-at-4gb is used, this is not done, since the binary is
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already assumed to be linked to the ROM position and using
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execute-in-place (XIP).
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Returns:
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Value that should be assigned to that symbol, or None if it was
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optional and not found
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Raises:
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ValueError if the symbol is invalid or not found, or references a
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property which is not supported
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"""
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m = re.match(r'^_binman_(\w+)_prop_(\w+)$', sym_name)
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if not m:
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raise ValueError("%s: Symbol '%s' has invalid format" %
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(msg, sym_name))
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entry_name, prop_name = m.groups()
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entry_name = entry_name.replace('_', '-')
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entry = self._entries.get(entry_name)
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if not entry:
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if entry_name.endswith('-any'):
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root = entry_name[:-4]
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for name in self._entries:
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if name.startswith(root):
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rest = name[len(root):]
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if rest in ['', '-img', '-nodtb']:
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entry = self._entries[name]
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if not entry:
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err = ("%s: Entry '%s' not found in list (%s)" %
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(msg, entry_name, ','.join(self._entries.keys())))
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if optional:
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print('Warning: %s' % err, file=sys.stderr)
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return None
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raise ValueError(err)
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if prop_name == 'offset':
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return entry.offset
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elif prop_name == 'image_pos':
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value = entry.image_pos
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if not self.GetImage()._end_4gb:
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value += base_addr
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return value
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if prop_name == 'size':
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return entry.size
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else:
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raise ValueError("%s: No such property '%s'" % (msg, prop_name))
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def GetRootSkipAtStart(self):
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"""Get the skip-at-start value for the top-level section
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This is used to find out the starting offset for root section that
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contains this section. If this is a top-level section then it returns
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the skip-at-start offset for this section.
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This is used to get the absolute position of section within the image.
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Returns:
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Integer skip-at-start value for the root section containing this
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section
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"""
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if self.section:
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return self.section.GetRootSkipAtStart()
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return self._skip_at_start
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def GetStartOffset(self):
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"""Get the start offset for this section
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Returns:
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The first available offset in this section (typically 0)
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"""
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return self._skip_at_start
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def GetImageSize(self):
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"""Get the size of the image containing this section
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Returns:
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Image size as an integer number of bytes, which may be None if the
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image size is dynamic and its sections have not yet been packed
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"""
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return self.GetImage().size
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def FindEntryType(self, etype):
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"""Find an entry type in the section
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Args:
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etype: Entry type to find
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Returns:
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entry matching that type, or None if not found
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"""
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for entry in self._entries.values():
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if entry.etype == etype:
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return entry
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return None
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def GetEntryContents(self):
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"""Call ObtainContents() for the section
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"""
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todo = self._entries.values()
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for passnum in range(3):
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next_todo = []
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for entry in todo:
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if not entry.ObtainContents():
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next_todo.append(entry)
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todo = next_todo
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if not todo:
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break
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if todo:
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self.Raise('Internal error: Could not complete processing of contents: remaining %s' %
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todo)
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return True
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def _SetEntryOffsetSize(self, name, offset, size):
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"""Set the offset and size of an entry
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Args:
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name: Entry name to update
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offset: New offset, or None to leave alone
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size: New size, or None to leave alone
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"""
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entry = self._entries.get(name)
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if not entry:
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self._Raise("Unable to set offset/size for unknown entry '%s'" %
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name)
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entry.SetOffsetSize(self._skip_at_start + offset if offset else None,
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size)
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def GetEntryOffsets(self):
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"""Handle entries that want to set the offset/size of other entries
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This calls each entry's GetOffsets() method. If it returns a list
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of entries to update, it updates them.
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"""
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for entry in self._entries.values():
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offset_dict = entry.GetOffsets()
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for name, info in offset_dict.items():
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self._SetEntryOffsetSize(name, *info)
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def CheckSize(self):
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"""Check that the image contents does not exceed its size, etc."""
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contents_size = 0
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for entry in self._entries.values():
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contents_size = max(contents_size, entry.offset + entry.size)
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contents_size -= self._skip_at_start
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size = self.size
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if not size:
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size = self.pad_before + contents_size + self.pad_after
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size = tools.Align(size, self.align_size)
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if self.size and contents_size > self.size:
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self._Raise("contents size %#x (%d) exceeds section size %#x (%d)" %
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(contents_size, contents_size, self.size, self.size))
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if not self.size:
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self.size = size
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if self.size != tools.Align(self.size, self.align_size):
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self._Raise("Size %#x (%d) does not match align-size %#x (%d)" %
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(self.size, self.size, self.align_size,
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self.align_size))
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return size
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def ListEntries(self, entries, indent):
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"""List the files in the section"""
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Entry.AddEntryInfo(entries, indent, self.name, 'section', self.size,
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self.image_pos, None, self.offset, self)
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for entry in self._entries.values():
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entry.ListEntries(entries, indent + 1)
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def LoadData(self, decomp=True):
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for entry in self._entries.values():
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entry.LoadData(decomp)
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self.Detail('Loaded data')
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def GetImage(self):
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"""Get the image containing this section
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Note that a top-level section is actually an Image, so this function may
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return self.
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Returns:
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Image object containing this section
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"""
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if not self.section:
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return self
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return self.section.GetImage()
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def GetSort(self):
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"""Check if the entries in this section will be sorted
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Returns:
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True if to be sorted, False if entries will be left in the order
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they appear in the device tree
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"""
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return self._sort
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def ReadData(self, decomp=True):
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tout.Info("ReadData path='%s'" % self.GetPath())
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parent_data = self.section.ReadData(True)
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tout.Info('%s: Reading data from offset %#x-%#x, size %#x' %
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(self.GetPath(), self.offset, self.offset + self.size,
|
|
self.size))
|
|
data = parent_data[self.offset:self.offset + self.size]
|
|
return data
|
|
|
|
def ReadChildData(self, child, decomp=True):
|
|
tout.Debug("ReadChildData for child '%s'" % child.GetPath())
|
|
parent_data = self.ReadData(True)
|
|
offset = child.offset - self._skip_at_start
|
|
tout.Debug("Extract for child '%s': offset %#x, skip_at_start %#x, result %#x" %
|
|
(child.GetPath(), child.offset, self._skip_at_start, offset))
|
|
data = parent_data[offset:offset + child.size]
|
|
if decomp:
|
|
indata = data
|
|
data = tools.Decompress(indata, child.compress)
|
|
if child.uncomp_size:
|
|
tout.Info("%s: Decompressing data size %#x with algo '%s' to data size %#x" %
|
|
(child.GetPath(), len(indata), child.compress,
|
|
len(data)))
|
|
return data
|
|
|
|
def WriteChildData(self, child):
|
|
return True
|