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slimbootloader/BaseTools/Source/Python/GenPatchPcdTable/GenPatchPcdTable.py
Mike Crowe 990e3e81e6 Use LF line endings in the repository 
Convert the line endings stored for all text files in the repository to
LF. The majority previously used DOS-style CRLF line endings. Add a
.gitattributes file to enforce this and treat certain extensions as
never being text files.

Update PatchCheck.py to insist on LF line endings rather than CRLF.
However, its other checks fail on this commit due to lots of
pre-existing complaints that it only notices because the line endings
have changed.

Silicon/QemuSocPkg/FspBin/Patches/0001-Build-QEMU-FSP-2.0-binaries.patch
needs to be treated as binary since it contains a mixture of line
endings.

This change has implications depending on the client platform you are
using the repository from:

* Windows

The usual configuration for Git on Windows means that text files will
be checked out to the work tree with DOS-style CRLF line endings. If
that's not the case then you can configure Git to do so for the entire
machine with:

 git config --global core.autocrlf true

or for just the repository with:

 git config core.autocrlf true

Line endings will be normalised to LF when they are committed to the
repository. If you commit a text file with only LF line endings then it
will be converted to CRLF line endings in your work tree.

* Linux, MacOS and other Unices

The usual configuration for Git on such platforms is to check files out
of the repository with LF line endings. This is probably the right thing
for you. In the unlikely even that you are using Git on Unix but editing
or compiling on Windows for some reason then you may need to tweak your
configuration to force the use of CRLF line endings as described above.

* General

For more information see
https://docs.github.com/en/get-started/getting-started-with-git/configuring-git-to-handle-line-endings .

Fixes: https://github.com/slimbootloader/slimbootloader/issues/1400
Signed-off-by: Mike Crowe <mac@mcrowe.com>
2021-11-10 12:46:42 -08:00

229 lines
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Python
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## @file
# Generate PCD table for 'Patchable In Module' type PCD with given .map file.
# The Patch PCD table like:
#
# PCD Name Offset in binary
# ======== ================
#
# Copyright (c) 2008 - 2018, Intel Corporation. All rights reserved.<BR>
# SPDX-License-Identifier: BSD-2-Clause-Patent
#
#
#====================================== External Libraries ========================================
from __future__ import print_function
import optparse
import Common.LongFilePathOs as os
import re
import array
from Common.BuildToolError import *
import Common.EdkLogger as EdkLogger
from Common.Misc import PeImageClass, startPatternGeneral, addressPatternGeneral, valuePatternGcc, pcdPatternGcc, secReGeneral
from Common.BuildVersion import gBUILD_VERSION
from Common.LongFilePathSupport import OpenLongFilePath as open
# Version and Copyright
__version_number__ = ("0.10" + " " + gBUILD_VERSION)
__version__ = "%prog Version " + __version_number__
__copyright__ = "Copyright (c) 2008 - 2018, Intel Corporation. All rights reserved."
#====================================== Internal Libraries ========================================
#============================================== Code ===============================================
symRe = re.compile('^([\da-fA-F]+):([\da-fA-F]+) +([\.\-:\\\\\w\?@\$<>]+) +([\da-fA-F]+)', re.UNICODE)
def parsePcdInfoFromMapFile(mapfilepath, efifilepath):
""" Parse map file to get binary patch pcd information
@param path Map file absolution path
@return a list which element hold (PcdName, Offset, SectionName)
"""
lines = []
try:
f = open(mapfilepath, 'r')
lines = f.readlines()
f.close()
except:
return None
if len(lines) == 0: return None
firstline = lines[0].strip()
if re.match('^\s*Address\s*Size\s*Align\s*Out\s*In\s*Symbol\s*$', firstline):
return _parseForXcodeAndClang9(lines, efifilepath)
if (firstline.startswith("Archive member included ") and
firstline.endswith(" file (symbol)")):
return _parseForGCC(lines, efifilepath)
if firstline.startswith("# Path:"):
return _parseForXcodeAndClang9(lines, efifilepath)
return _parseGeneral(lines, efifilepath)
def _parseForXcodeAndClang9(lines, efifilepath):
valuePattern = re.compile('^([\da-fA-FxX]+)([\s\S]*)([_]*_gPcd_BinaryPatch_([\w]+))')
status = 0
pcds = []
for line in lines:
line = line.strip()
if status == 0 and (re.match('^\s*Address\s*Size\s*Align\s*Out\s*In\s*Symbol\s*$', line) \
or line == "# Symbols:"):
status = 1
continue
if status == 1 and len(line) != 0:
if '_gPcd_BinaryPatch_' in line:
m = valuePattern.match(line)
if m is not None:
pcds.append((m.groups(0)[3], int(m.groups(0)[0], 16)))
return pcds
def _parseForGCC(lines, efifilepath):
""" Parse map file generated by GCC linker """
dataPattern = re.compile('^.data._gPcd_BinaryPatch_([\w_\d]+)$')
status = 0
imageBase = -1
sections = []
bpcds = []
for index, line in enumerate(lines):
line = line.strip()
# status machine transection
if status == 0 and line == "Memory Configuration":
status = 1
continue
elif status == 1 and line == 'Linker script and memory map':
status = 2
continue
elif status ==2 and line == 'START GROUP':
status = 3
continue
# status handler
if status == 3:
m = valuePatternGcc.match(line)
if m is not None:
sections.append(m.groups(0))
if status == 3:
m = dataPattern.match(line)
if m is not None:
if lines[index + 1]:
PcdName = m.groups(0)[0]
m = pcdPatternGcc.match(lines[index + 1].strip())
if m is not None:
bpcds.append((PcdName, int(m.groups(0)[0], 16), int(sections[-1][1], 16), sections[-1][0]))
# get section information from efi file
efisecs = PeImageClass(efifilepath).SectionHeaderList
if efisecs is None or len(efisecs) == 0:
return None
#redirection
redirection = 0
for efisec in efisecs:
for section in sections:
if section[0].strip() == efisec[0].strip() and section[0].strip() == '.text':
redirection = int(section[1], 16) - efisec[1]
pcds = []
for pcd in bpcds:
for efisec in efisecs:
if pcd[1] >= efisec[1] and pcd[1] < efisec[1]+efisec[3]:
#assert efisec[0].strip() == pcd[3].strip() and efisec[1] + redirection == pcd[2], "There are some differences between map file and efi file"
pcds.append([pcd[0], efisec[2] + pcd[1] - efisec[1] - redirection, efisec[0]])
return pcds
def _parseGeneral(lines, efifilepath):
""" For MSFT, ICC, EBC
@param lines line array for map file
@return a list which element hold (PcdName, Offset, SectionName)
"""
status = 0 #0 - beginning of file; 1 - PE section definition; 2 - symbol table
secs = [] # key = section name
bPcds = []
symPattern = re.compile('^[_]+gPcd_BinaryPatch_([\w]+)')
for line in lines:
line = line.strip()
if startPatternGeneral.match(line):
status = 1
continue
if addressPatternGeneral.match(line):
status = 2
continue
if line.startswith("entry point at"):
status = 3
continue
if status == 1 and len(line) != 0:
m = secReGeneral.match(line)
assert m is not None, "Fail to parse the section in map file , line is %s" % line
sec_no, sec_start, sec_length, sec_name, sec_class = m.groups(0)
secs.append([int(sec_no, 16), int(sec_start, 16), int(sec_length, 16), sec_name, sec_class])
if status == 2 and len(line) != 0:
m = symRe.match(line)
assert m is not None, "Fail to parse the symbol in map file, line is %s" % line
sec_no, sym_offset, sym_name, vir_addr = m.groups(0)
sec_no = int(sec_no, 16)
sym_offset = int(sym_offset, 16)
vir_addr = int(vir_addr, 16)
m2 = symPattern.match(sym_name)
if m2 is not None:
# fond a binary pcd entry in map file
for sec in secs:
if sec[0] == sec_no and (sym_offset >= sec[1] and sym_offset < sec[1] + sec[2]):
bPcds.append([m2.groups(0)[0], sec[3], sym_offset, vir_addr, sec_no])
if len(bPcds) == 0: return None
# get section information from efi file
efisecs = PeImageClass(efifilepath).SectionHeaderList
if efisecs is None or len(efisecs) == 0:
return None
pcds = []
for pcd in bPcds:
index = 0
for efisec in efisecs:
index = index + 1
if pcd[1].strip() == efisec[0].strip():
pcds.append([pcd[0], efisec[2] + pcd[2], efisec[0]])
elif pcd[4] == index:
pcds.append([pcd[0], efisec[2] + pcd[2], efisec[0]])
return pcds
def generatePcdTable(list, pcdpath):
try:
f = open(pcdpath, 'w')
except:
pass
f.write('PCD Name Offset Section Name\r\n')
for pcditem in list:
f.write('%-30s 0x%-08X %-6s\r\n' % (pcditem[0], pcditem[1], pcditem[2]))
f.close()
#print 'Success to generate Binary Patch PCD table at %s!' % pcdpath
if __name__ == '__main__':
UsageString = "%prog -m <MapFile> -e <EfiFile> -o <OutFile>"
AdditionalNotes = "\nPCD table is generated in file name with .BinaryPcdTable.txt postfix"
parser = optparse.OptionParser(description=__copyright__, version=__version__, usage=UsageString)
parser.add_option('-m', '--mapfile', action='store', dest='mapfile',
help='Absolute path of module map file.')
parser.add_option('-e', '--efifile', action='store', dest='efifile',
help='Absolute path of EFI binary file.')
parser.add_option('-o', '--outputfile', action='store', dest='outfile',
help='Absolute path of output file to store the got patchable PCD table.')
(options, args) = parser.parse_args()
if options.mapfile is None or options.efifile is None:
print(parser.get_usage())
elif os.path.exists(options.mapfile) and os.path.exists(options.efifile):
list = parsePcdInfoFromMapFile(options.mapfile, options.efifile)
if list is not None:
if options.outfile is not None:
generatePcdTable(list, options.outfile)
else:
generatePcdTable(list, options.mapfile.replace('.map', '.BinaryPcdTable.txt'))
else:
print('Fail to generate Patch PCD Table based on map file and efi file')
else:
print('Fail to generate Patch PCD Table for fail to find map file or efi file!')
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