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# SPDX-License-Identifier: GPL-2.0+
# Copyright (c) 2018 Google, Inc
# Written by Simon Glass <sjg@chromium.org>
#
# Base class for sections (collections of entries)
#
from __future__ import print_function
from collections import OrderedDict
import sys
import fdt_util
import re
import state
import tools
class Section(object):
"""A section which contains multiple entries
A section represents a collection of entries. There must be one or more
sections in an image. Sections are used to group entries together.
Attributes:
_node: Node object that contains the section definition in device tree
_parent_section: Parent Section object which created this Section
_size: Section size in bytes, or None if not known yet
_align_size: Section size alignment, or None
_pad_before: Number of bytes before the first entry starts. This
effectively changes the place where entry offset 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 section where there is no entry
_sort: True if entries should be sorted by offset, False if they
must be in-order in the device tree description
_skip_at_start: Number of bytes before the first entry starts. These
effectively adjust the starting offset of entries. For example,
if _pad_before is 16, then the first entry would start at 16.
An entry with offset = 20 would in fact be written at offset 4
in the image file.
_end_4gb: Indicates that the section ends at the 4GB boundary. This is
used for x86 images, which want to use offsets such that a memory
address (like 0xff800000) is the first entry offset. This causes
_skip_at_start to be set to the starting memory address.
_name_prefix: Prefix to add to the name of all entries within this
section
_entries: OrderedDict() of entries
"""
def __init__(self, name, parent_section, node, image, test=False):
global entry
global Entry
import entry
from entry import Entry
self._parent_section = parent_section
self._name = name
self._node = node
self._image = image
self._offset = None
self._size = None
self._align_size = None
self._pad_before = 0
self._pad_after = 0
self._pad_byte = 0
self._sort = False
self._skip_at_start = None
self._end_4gb = False
self._name_prefix = ''
self._entries = OrderedDict()
self._image_pos = None
if not test:
self._ReadNode()
self._ReadEntries()
def _ReadNode(self):
"""Read properties from the section node"""
self._offset = fdt_util.GetInt(self._node, 'offset')
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)
self._sort = fdt_util.GetBool(self._node, 'sort-by-offset')
self._end_4gb = fdt_util.GetBool(self._node, 'end-at-4gb')
self._skip_at_start = fdt_util.GetInt(self._node, 'skip-at-start')
if self._end_4gb:
if not self._size:
self._Raise("Section size must be provided when using end-at-4gb")
if self._skip_at_start is not None:
self._Raise("Provide either 'end-at-4gb' or 'skip-at-start'")
else:
self._skip_at_start = 0x100000000 - self._size
else:
if self._skip_at_start is None:
self._skip_at_start = 0
self._name_prefix = fdt_util.GetString(self._node, 'name-prefix')
def _ReadEntries(self):
for node in self._node.subnodes:
if node.name == 'hash':
continue
entry = Entry.Create(self, node)
entry.SetPrefix(self._name_prefix)
self._entries[node.name] = entry
def GetFdtSet(self):
"""Get the set of device tree files used by this image"""
fdt_set = set()
for entry in self._entries.values():
fdt_set.update(entry.GetFdtSet())
return fdt_set
def SetOffset(self, offset):
self._offset = offset
def ExpandEntries(self):
for entry in self._entries.values():
entry.ExpandEntries()
def AddMissingProperties(self):
"""Add new properties to the device tree as needed for this entry"""
for prop in ['offset', 'size', 'image-pos']:
if not prop in self._node.props:
state.AddZeroProp(self._node, prop)
state.CheckAddHashProp(self._node)
for entry in self._entries.values():
entry.AddMissingProperties()
def SetCalculatedProperties(self):
state.SetInt(self._node, 'offset', self._offset or 0)
state.SetInt(self._node, 'size', self._size)
image_pos = self._image_pos
if self._parent_section:
image_pos -= self._parent_section.GetRootSkipAtStart()
state.SetInt(self._node, 'image-pos', image_pos)
for entry in self._entries.values():
entry.SetCalculatedProperties()
def ProcessFdt(self, fdt):
todo = self._entries.values()
for passnum in range(3):
next_todo = []
for entry in todo:
if not entry.ProcessFdt(fdt):
next_todo.append(entry)
todo = next_todo
if not todo:
break
if todo:
self._Raise('Internal error: Could not complete processing of Fdt: '
'remaining %s' % todo)
return True
def CheckSize(self):
"""Check that the section contents does not exceed its size, etc."""
contents_size = 0
for entry in self._entries.values():
contents_size = max(contents_size, entry.offset + 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 section 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))
return size
def _Raise(self, msg):
"""Raises an error for this section
Args:
msg: Error message to use in the raise string
Raises:
ValueError()
"""
raise ValueError("Section '%s': %s" % (self._node.path, msg))
def GetPath(self):
"""Get the path of an image (in the FDT)
Returns:
Full path of the node for this image
"""
return self._node.path
def FindEntryType(self, etype):
"""Find an entry type in the section
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
if todo:
self._Raise('Internal error: Could not complete processing of '
'contents: remaining %s' % todo)
return True
def _SetEntryOffsetSize(self, name, offset, size):
"""Set the offset and size of an entry
Args:
name: Entry name to update
offset: New offset, or None to leave alone
size: New size, or None to leave alone
"""
entry = self._entries.get(name)
if not entry:
self._Raise("Unable to set offset/size for unknown entry '%s'" %
name)
entry.SetOffsetSize(self._skip_at_start + offset if offset else None,
size)
def GetEntryOffsets(self):
"""Handle entries that want to set the offset/size of other entries
This calls each entry's GetOffsets() method. If it returns a list
of entries to update, it updates them.
"""
for entry in self._entries.values():
offset_dict = entry.GetOffsets()
for name, info in offset_dict.items():
self._SetEntryOffsetSize(name, *info)
def PackEntries(self):
"""Pack all entries into the section"""
offset = self._skip_at_start
for entry in self._entries.values():
offset = entry.Pack(offset)
self._size = self.CheckSize()
def _SortEntries(self):
"""Sort entries by offset"""
entries = sorted(self._entries.values(), key=lambda entry: entry.offset)
self._entries.clear()
for entry in entries:
self._entries[entry._node.name] = entry
def _ExpandEntries(self):
"""Expand any entries that are permitted to"""
exp_entry = None
for entry in self._entries.values():
if exp_entry:
exp_entry.ExpandToLimit(entry.offset)
exp_entry = None
if entry.expand_size:
exp_entry = entry
if exp_entry:
exp_entry.ExpandToLimit(self._size)
def CheckEntries(self):
"""Check that entries do not overlap or extend outside the section
This also sorts entries, if needed and expands
"""
if self._sort:
self._SortEntries()
self._ExpandEntries()
offset = 0
prev_name = 'None'
for entry in self._entries.values():
entry.CheckOffset()
if (entry.offset < self._skip_at_start or
entry.offset + entry.size > self._skip_at_start + self._size):
entry.Raise("Offset %#x (%d) is outside the section starting "
"at %#x (%d)" %
(entry.offset, entry.offset, self._skip_at_start,
self._skip_at_start))
if entry.offset < offset:
entry.Raise("Offset %#x (%d) overlaps with previous entry '%s' "
"ending at %#x (%d)" %
(entry.offset, entry.offset, prev_name, offset, offset))
offset = entry.offset + entry.size
prev_name = entry.GetPath()
def SetImagePos(self, image_pos):
self._image_pos = image_pos
for entry in self._entries.values():
entry.SetImagePos(image_pos)
def ProcessEntryContents(self):
"""Call the ProcessContents() method for each entry
This is intended to adjust the contents as needed by the entry type.
Returns:
True if no entries needed to change their size
"""
sizes_ok = True
for entry in self._entries.values():
if not entry.ProcessContents():
sizes_ok = False
return sizes_ok
def WriteSymbols(self):
"""Write symbol values into binary files for access at run time"""
for entry in self._entries.values():
entry.WriteSymbols(self)
def BuildSection(self, fd, base_offset):
"""Write the section to a file"""
fd.seek(base_offset)
fd.write(self.GetData())
def GetData(self):
"""Get the contents of the section"""
section_data = tools.GetBytes(self._pad_byte, self._size)
for entry in self._entries.values():
data = entry.GetData()
base = self._pad_before + entry.offset - self._skip_at_start
section_data = (section_data[:base] + data +
section_data[base + len(data):])
return section_data
def LookupSymbol(self, sym_name, optional, msg):
"""Look up a symbol in an ELF file
Looks up a symbol in an ELF file. Only entry types which come from an
ELF image can be used by this function.
At present the only entry property supported is offset.
Args:
sym_name: Symbol name in the ELF file to look up in the format
_binman_<entry>_prop_<property> where <entry> is the name of
the entry and <property> is the property to find (e.g.
_binman_u_boot_prop_offset). As a special case, you can append
_any to <entry> to have it search for any matching entry. E.g.
_binman_u_boot_any_prop_offset will match entries called u-boot,
u-boot-img and u-boot-nodtb)
optional: True if the symbol is optional. If False this function
will raise if the symbol is not found
msg: Message to display if an error occurs
Returns:
Value that should be assigned to that symbol, or None if it was
optional and not found
Raises:
ValueError if the symbol is invalid or not found, or references a
property which is not supported
"""
m = re.match(r'^_binman_(\w+)_prop_(\w+)$', sym_name)
if not m:
raise ValueError("%s: Symbol '%s' has invalid format" %
(msg, sym_name))
entry_name, prop_name = m.groups()
entry_name = entry_name.replace('_', '-')
entry = self._entries.get(entry_name)
if not entry:
if entry_name.endswith('-any'):
root = entry_name[:-4]
for name in self._entries:
if name.startswith(root):
rest = name[len(root):]
if rest in ['', '-img', '-nodtb']:
entry = self._entries[name]
if not entry:
err = ("%s: Entry '%s' not found in list (%s)" %
(msg, entry_name, ','.join(self._entries.keys())))
if optional:
print('Warning: %s' % err, file=sys.stderr)
return None
raise ValueError(err)
if prop_name == 'offset':
return entry.offset
elif prop_name == 'image_pos':
return entry.image_pos
else:
raise ValueError("%s: No such property '%s'" % (msg, prop_name))
def GetEntries(self):
"""Get the dict of entries in a section
Returns:
OrderedDict of entries in a section
"""
return self._entries
def GetSize(self):
"""Get the size of a section in bytes
This is only meaningful if the section has a pre-defined size, or the
entries within it have been packed, so that the size has been
calculated.
Returns:
Entry size in bytes
"""
return self._size
def WriteMap(self, fd, indent):
"""Write a map of the section to a .map file
Args:
fd: File to write the map to
"""
Entry.WriteMapLine(fd, indent, self._name, self._offset or 0,
self._size, self._image_pos)
for entry in self._entries.values():
entry.WriteMap(fd, indent + 1)
def GetContentsByPhandle(self, phandle, source_entry):
"""Get the data contents of an entry specified by a phandle
This uses a phandle to look up a node and and find the entry
associated with it. Then it returnst he contents of that entry.
Args:
phandle: Phandle to look up (integer)
source_entry: Entry containing that phandle (used for error
reporting)
Returns:
data from associated entry (as a string), or None if not found
"""
node = self._node.GetFdt().LookupPhandle(phandle)
if not node:
source_entry.Raise("Cannot find node for phandle %d" % phandle)
for entry in self._entries.values():
if entry._node == node:
return entry.GetData()
source_entry.Raise("Cannot find entry for node '%s'" % node.name)
def ExpandSize(self, size):
"""Change the size of an entry
Args:
size: New size for entry
"""
if size != self._size:
self._size = size
def GetRootSkipAtStart(self):
"""Get the skip-at-start value for the top-level section
This is used to find out the starting offset for root section that
contains this section. If this is a top-level section then it returns
the skip-at-start offset for this section.
This is used to get the absolute position of section within the image.
Returns:
Integer skip-at-start value for the root section containing this
section
"""
if self._parent_section:
return self._parent_section.GetRootSkipAtStart()
return self._skip_at_start
def GetStartOffset(self):
"""Get the start offset for this section
Returns:
The first available offset in this section (typically 0)
"""
return self._skip_at_start
def GetImageSize(self):
"""Get the size of the image containing this section
Returns:
Image size as an integer number of bytes, which may be None if the
image size is dynamic and its sections have not yet been packed
"""
return self._image._size
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