audk/IntelFspPkg/Tools/GenCfgOpt.py

1299 lines
52 KiB
Python

## @ GenCfgOpt.py
#
# Copyright (c) 2014 - 2015, Intel Corporation. All rights reserved.<BR>
# SPDX-License-Identifier: BSD-2-Clause-Patent
#
##
import os
import re
import sys
import struct
from datetime import date
# Generated file copyright header
__copyright_txt__ = """## @file
#
# THIS IS AUTO-GENERATED FILE BY BUILD TOOLS AND PLEASE DO NOT MAKE MODIFICATION.
#
# This file lists all VPD informations for a platform collected by build.exe.
#
# Copyright (c) %4d, Intel Corporation. All rights reserved.<BR>
# This program and the accompanying materials
# are licensed and made available under the terms and conditions of the BSD License
# which accompanies this distribution. The full text of the license may be found at
# http://opensource.org/licenses/bsd-license.php
#
# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
# WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
#
"""
__copyright_bsf__ = """/** @file
Boot Setting File for Platform Configuration.
Copyright (c) %4d, Intel Corporation. All rights reserved.<BR>
This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
This file is automatically generated. Please do NOT modify !!!
**/
"""
__copyright_h__ = """/** @file
Copyright (c) %4d, Intel Corporation. All rights reserved.<BR>
Redistribution and use in source and binary forms, with or without modification,
are permitted provided that the following conditions are met:
* Redistributions of source code must retain the above copyright notice, this
list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright notice, this
list of conditions and the following disclaimer in the documentation and/or
other materials provided with the distribution.
* Neither the name of Intel Corporation nor the names of its contributors may
be used to endorse or promote products derived from this software without
specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
THE POSSIBILITY OF SUCH DAMAGE.
This file is automatically generated. Please do NOT modify !!!
**/
"""
def UpdateMemSiUpdInitOffsetValue (DscFile):
DscFd = open(DscFile, "r")
DscLines = DscFd.readlines()
DscFd.close()
DscContent = []
MemUpdInitOffset = 0
SiUpdInitOffset = 0
MemUpdInitOffsetValue = 0
SiUpdInitOffsetValue = 0
while len(DscLines):
DscLine = DscLines.pop(0)
DscContent.append(DscLine)
DscLine = DscLine.strip()
Match = re.match("^([_a-zA-Z0-9]+).(MemoryInitUpdOffset)\s*\|\s*(0x[0-9A-F]+)\s*\|\s*(\d+|0x[0-9a-fA-F]+)\s*\|\s*(.+)",DscLine)
if Match:
MemUpdInitOffsetValue = int(Match.group(5), 0)
Match = re.match("^\s*([_a-zA-Z0-9]+).(SiliconInitUpdOffset)\s*\|\s*(0x[0-9A-F]+)\s*\|\s*(\d+|0x[0-9a-fA-F]+)\s*\|\s*(.+)",DscLine)
if Match:
SiUpdInitOffsetValue = int(Match.group(5), 0)
Match = re.match("^([_a-zA-Z0-9]+).([_a-zA-Z0-9]+)\s*\|\s*(0x[0-9A-F]+)\s*\|\s*(\d+|0x[0-9a-fA-F]+)\s*\|\s*(0x244450554D454D24)",DscLine)
if Match:
MemUpdInitOffset = int(Match.group(3), 0)
Match = re.match("^([_a-zA-Z0-9]+).([_a-zA-Z0-9]+)\s*\|\s*(0x[0-9A-F]+)\s*\|\s*(\d+|0x[0-9a-fA-F]+)\s*\|\s*(0x244450555F495324)",DscLine)
if Match:
SiUpdInitOffset = int(Match.group(3), 0)
if MemUpdInitOffsetValue != MemUpdInitOffset or SiUpdInitOffsetValue != SiUpdInitOffset:
MemUpdInitOffsetStr = "0x%08X" % MemUpdInitOffset
SiUpdInitOffsetStr = "0x%08X" % SiUpdInitOffset
DscFd = open(DscFile,"w")
for DscLine in DscContent:
Match = re.match("^\s*([_a-zA-Z0-9]+).(MemoryInitUpdOffset)\s*\|\s*(0x[0-9A-F]+)\s*\|\s*(\d+|0x[0-9a-fA-F]+)\s*\|\s*(.+)",DscLine)
if Match:
DscLine = re.sub(r'(?:[^\s]+\s*$)', MemUpdInitOffsetStr + '\n', DscLine)
Match = re.match("^\s*([_a-zA-Z0-9]+).(SiliconInitUpdOffset)\s*\|\s*(0x[0-9A-F]+)\s*\|\s*(\d+|0x[0-9a-fA-F]+)\s*\|\s*(.+)",DscLine)
if Match:
DscLine = re.sub(r'(?:[^\s]+\s*$)', SiUpdInitOffsetStr + '\n', line)
DscFd.writelines(DscLine)
DscFd.close()
class CLogicalExpression:
def __init__(self):
self.index = 0
self.string = ''
def errExit(self, err = ''):
print "ERROR: Express parsing for:"
print " %s" % self.string
print " %s^" % (' ' * self.index)
if err:
print "INFO : %s" % err
raise SystemExit
def getNonNumber (self, n1, n2):
if not n1.isdigit():
return n1
if not n2.isdigit():
return n2
return None
def getCurr(self, lens = 1):
try:
if lens == -1:
return self.string[self.index :]
else:
if self.index + lens > len(self.string):
lens = len(self.string) - self.index
return self.string[self.index : self.index + lens]
except Exception:
return ''
def isLast(self):
return self.index == len(self.string)
def moveNext(self, len = 1):
self.index += len
def skipSpace(self):
while not self.isLast():
if self.getCurr() in ' \t':
self.moveNext()
else:
return
def normNumber (self, val):
return True if val else False
def getNumber(self, var):
var = var.strip()
if re.match('^0x[a-fA-F0-9]+$', var):
value = int(var, 16)
elif re.match('^[+-]?\d+$', var):
value = int(var, 10)
else:
value = None
return value
def parseValue(self):
self.skipSpace()
var = ''
while not self.isLast():
char = self.getCurr()
if re.match('^[\w.]', char):
var += char
self.moveNext()
else:
break
val = self.getNumber(var)
if val is None:
value = var
else:
value = "%d" % val
return value
def parseSingleOp(self):
self.skipSpace()
if re.match('^NOT\W', self.getCurr(-1)):
self.moveNext(3)
op = self.parseBrace()
val = self.getNumber (op)
if val is None:
self.errExit ("'%s' is not a number" % op)
return "%d" % (not self.normNumber(int(op)))
else:
return self.parseValue()
def parseBrace(self):
self.skipSpace()
char = self.getCurr()
if char == '(':
self.moveNext()
value = self.parseExpr()
self.skipSpace()
if self.getCurr() != ')':
self.errExit ("Expecting closing brace or operator")
self.moveNext()
return value
else:
value = self.parseSingleOp()
return value
def parseCompare(self):
value = self.parseBrace()
while True:
self.skipSpace()
char = self.getCurr()
if char in ['<', '>']:
self.moveNext()
next = self.getCurr()
if next == '=':
op = char + next
self.moveNext()
else:
op = char
result = self.parseBrace()
test = self.getNonNumber(result, value)
if test is None:
value = "%d" % self.normNumber(eval (value + op + result))
else:
self.errExit ("'%s' is not a valid number for comparision" % test)
elif char in ['=', '!']:
op = self.getCurr(2)
if op in ['==', '!=']:
self.moveNext(2)
result = self.parseBrace()
test = self.getNonNumber(result, value)
if test is None:
value = "%d" % self.normNumber((eval (value + op + result)))
else:
value = "%d" % self.normNumber(eval ("'" + value + "'" + op + "'" + result + "'"))
else:
break
else:
break
return value
def parseAnd(self):
value = self.parseCompare()
while True:
self.skipSpace()
if re.match('^AND\W', self.getCurr(-1)):
self.moveNext(3)
result = self.parseCompare()
test = self.getNonNumber(result, value)
if test is None:
value = "%d" % self.normNumber(int(value) & int(result))
else:
self.errExit ("'%s' is not a valid op number for AND" % test)
else:
break
return value
def parseOrXor(self):
value = self.parseAnd()
op = None
while True:
self.skipSpace()
op = None
if re.match('^XOR\W', self.getCurr(-1)):
self.moveNext(3)
op = '^'
elif re.match('^OR\W', self.getCurr(-1)):
self.moveNext(2)
op = '|'
else:
break
if op:
result = self.parseAnd()
test = self.getNonNumber(result, value)
if test is None:
value = "%d" % self.normNumber(eval (value + op + result))
else:
self.errExit ("'%s' is not a valid op number for XOR/OR" % test)
return value
def parseExpr(self):
return self.parseOrXor()
def getResult(self):
value = self.parseExpr()
self.skipSpace()
if not self.isLast():
self.errExit ("Unexpected character found '%s'" % self.getCurr())
test = self.getNumber(value)
if test is None:
self.errExit ("Result '%s' is not a number" % value)
return int(value)
def evaluateExpress (self, Expr):
self.index = 0
self.string = Expr
if self.getResult():
Result = True
else:
Result = False
return Result
class CGenCfgOpt:
def __init__(self):
self.Debug = False
self.Error = ''
self._GlobalDataDef = """
GlobalDataDef
SKUID = 0, "DEFAULT"
EndGlobalData
"""
self._BuidinOptionTxt = """
List &EN_DIS
Selection 0x1 , "Enabled"
Selection 0x0 , "Disabled"
EndList
"""
self._BsfKeyList = ['FIND','NAME','HELP','TYPE','PAGE','OPTION','ORDER']
self._HdrKeyList = ['HEADER','STRUCT', 'EMBED']
self._BuidinOption = {'$EN_DIS' : 'EN_DIS'}
self._MacroDict = {}
self._CfgBlkDict = {}
self._CfgPageDict = {}
self._CfgItemList = []
self._DscFile = ''
self._FvDir = ''
self._MapVer = 0
def ParseMacros (self, MacroDefStr):
# ['-DABC=1', '-D', 'CFG_DEBUG=1', '-D', 'CFG_OUTDIR=Build']
self._MacroDict = {}
IsExpression = False
for Macro in MacroDefStr:
if Macro.startswith('-D'):
IsExpression = True
if len(Macro) > 2:
Macro = Macro[2:]
else :
continue
if IsExpression:
IsExpression = False
Match = re.match("(\w+)=(.+)", Macro)
if Match:
self._MacroDict[Match.group(1)] = Match.group(2)
else:
Match = re.match("(\w+)", Macro)
if Match:
self._MacroDict[Match.group(1)] = ''
if len(self._MacroDict) == 0:
Error = 1
else:
Error = 0
if self.Debug:
print "INFO : Macro dictionary:"
for Each in self._MacroDict:
print " $(%s) = [ %s ]" % (Each , self._MacroDict[Each])
return Error
def EvaulateIfdef (self, Macro):
Result = Macro in self._MacroDict
if self.Debug:
print "INFO : Eval Ifdef [%s] : %s" % (Macro, Result)
return Result
def ExpandMacros (self, Input):
Line = Input
Match = re.findall("\$\(\w+\)", Input)
if Match:
for Each in Match:
Variable = Each[2:-1]
if Variable in self._MacroDict:
Line = Line.replace(Each, self._MacroDict[Variable])
else:
if self.Debug:
print "WARN : %s is not defined" % Each
Line = Line.replace(Each, Each[2:-1])
return Line
def EvaluateExpress (self, Expr):
ExpExpr = self.ExpandMacros(Expr)
LogExpr = CLogicalExpression()
Result = LogExpr.evaluateExpress (ExpExpr)
if self.Debug:
print "INFO : Eval Express [%s] : %s" % (Expr, Result)
return Result
def FormatListValue(self, ConfigDict):
Struct = ConfigDict['struct']
if Struct not in ['UINT8','UINT16','UINT32','UINT64']:
return
dataarray = []
binlist = ConfigDict['value'][1:-1].split(',')
for each in binlist:
each = each.strip()
if each.startswith('0x'):
value = int(each, 16)
else:
value = int(each)
dataarray.append(value)
unit = int(Struct[4:]) / 8
if int(ConfigDict['length']) != unit * len(dataarray):
raise Exception("Array size is not proper for '%s' !" % ConfigDict['cname'])
bytearray = []
for each in dataarray:
value = each
for loop in xrange(unit):
bytearray.append("0x%02X" % (value & 0xFF))
value = value >> 8
newvalue = '{' + ','.join(bytearray) + '}'
ConfigDict['value'] = newvalue
return ""
def ParseDscFile (self, DscFile, FvDir):
self._CfgItemList = []
self._CfgPageDict = {}
self._CfgBlkDict = {}
self._DscFile = DscFile
self._FvDir = FvDir
IsDefSect = False
IsUpdSect = False
IsVpdSect = False
Found = False
IfStack = []
ElifStack = []
Error = 0
ConfigDict = {}
DscFd = open(DscFile, "r")
DscLines = DscFd.readlines()
DscFd.close()
while len(DscLines):
DscLine = DscLines.pop(0).strip()
Handle = False
Match = re.match("^\[(.+)\]", DscLine)
if Match is not None:
if Match.group(1).lower() == "Defines".lower():
IsDefSect = True
IsVpdSect = False
IsUpdSect = False
elif Match.group(1).lower() == "PcdsDynamicVpd".lower():
ConfigDict = {}
ConfigDict['header'] = 'ON'
ConfigDict['region'] = 'VPD'
ConfigDict['order'] = -1
ConfigDict['page'] = ''
ConfigDict['name'] = ''
ConfigDict['find'] = ''
ConfigDict['struct'] = ''
ConfigDict['embed'] = ''
ConfigDict['subreg'] = []
IsDefSect = False
IsVpdSect = True
IsUpdSect = False
elif Match.group(1).lower() == "PcdsDynamicVpd.Upd".lower():
ConfigDict = {}
ConfigDict['header'] = 'ON'
ConfigDict['region'] = 'UPD'
ConfigDict['order'] = -1
ConfigDict['page'] = ''
ConfigDict['name'] = ''
ConfigDict['find'] = ''
ConfigDict['struct'] = ''
ConfigDict['embed'] = ''
ConfigDict['subreg'] = []
IsDefSect = False
IsUpdSect = True
IsVpdSect = False
Found = True
else:
IsDefSect = False
IsUpdSect = False
IsVpdSect = False
else:
if IsDefSect or IsUpdSect or IsVpdSect:
if re.match("^!else($|\s+#.+)", DscLine):
if IfStack:
IfStack[-1] = not IfStack[-1]
else:
print("ERROR: No paired '!if' found for '!else' for line '%s'" % DscLine)
raise SystemExit
elif re.match("^!endif($|\s+#.+)", DscLine):
if IfStack:
IfStack.pop()
Level = ElifStack.pop()
if Level > 0:
del IfStack[-Level:]
else:
print("ERROR: No paired '!if' found for '!endif' for line '%s'" % DscLine)
raise SystemExit
else:
Result = False
Match = re.match("!(ifdef|ifndef)\s+(.+)", DscLine)
if Match:
Result = self.EvaulateIfdef (Match.group(2))
if Match.group(1) == 'ifndef':
Result = not Result
IfStack.append(Result)
ElifStack.append(0)
else:
Match = re.match("!(if|elseif)\s+(.+)", DscLine)
if Match:
Result = self.EvaluateExpress(Match.group(2))
if Match.group(1) == "if":
ElifStack.append(0)
IfStack.append(Result)
else: #elseif
if IfStack:
IfStack[-1] = not IfStack[-1]
IfStack.append(Result)
ElifStack[-1] = ElifStack[-1] + 1
else:
print("ERROR: No paired '!if' found for '!elif' for line '%s'" % DscLine)
raise SystemExit
else:
if IfStack:
Handle = reduce(lambda x,y: x and y, IfStack)
else:
Handle = True
if Handle:
Match = re.match("!include\s+(.+)", DscLine)
if Match:
IncludeFilePath = Match.group(1)
IncludeFilePath = self.ExpandMacros(IncludeFilePath)
try:
IncludeDsc = open(IncludeFilePath, "r")
except:
print("ERROR: Cannot open file '%s'" % IncludeFilePath)
raise SystemExit
NewDscLines = IncludeDsc.readlines()
IncludeDsc.close()
DscLines = NewDscLines + DscLines
else:
if DscLine.startswith('!'):
print("ERROR: Unrecoginized directive for line '%s'" % DscLine)
raise SystemExit
if not Handle:
continue
if IsDefSect:
#DEFINE UPD_TOOL_GUID = 8C3D856A-9BE6-468E-850A-24F7A8D38E09
Match = re.match("^\s*(?:DEFINE\s+)*(\w+)\s*=\s*([-.\w]+)", DscLine)
if Match:
self._MacroDict[Match.group(1)] = Match.group(2)
if self.Debug:
print "INFO : DEFINE %s = [ %s ]" % (Match.group(1), Match.group(2))
else:
Match = re.match("^\s*#\s+!(BSF|HDR)\s+(.+)", DscLine)
if Match:
Remaining = Match.group(2)
if Match.group(1) == 'BSF':
Match = re.match("(?:^|.+\s+)PAGES:{(.+?)}", Remaining)
if Match:
# !BSF PAGES:{HSW:"Haswell System Agent", LPT:"Lynx Point PCH"}
PageList = Match.group(1).split(',')
for Page in PageList:
Page = Page.strip()
Match = re.match("(\w+):\"(.+)\"", Page)
self._CfgPageDict[Match.group(1)] = Match.group(2)
Match = re.match("(?:^|.+\s+)BLOCK:{NAME:\"(.+)\"\s*,\s*VER:\"(.+)\"\s*}", Remaining)
if Match:
self._CfgBlkDict['name'] = Match.group(1)
self._CfgBlkDict['ver'] = Match.group(2)
for Key in self._BsfKeyList:
Match = re.match("(?:^|.+\s+)%s:{(.+?)}" % Key, Remaining)
if Match:
if Key in ['NAME', 'HELP', 'OPTION'] and Match.group(1).startswith('+'):
ConfigDict[Key.lower()] += Match.group(1)[1:]
else:
ConfigDict[Key.lower()] = Match.group(1)
else:
for Key in self._HdrKeyList:
Match = re.match("(?:^|.+\s+)%s:{(.+?)}" % Key, Remaining)
if Match:
ConfigDict[Key.lower()] = Match.group(1)
# Check VPD/UPD
if IsUpdSect:
Match = re.match("^([_a-zA-Z0-9]+).([_a-zA-Z0-9]+)\s*\|\s*(0x[0-9A-F]+)\s*\|\s*(\d+|0x[0-9a-fA-F]+)\s*\|\s*(.+)",DscLine)
else:
Match = re.match("^([_a-zA-Z0-9]+).([_a-zA-Z0-9]+)\s*\|\s*(0x[0-9A-F]+)(?:\s*\|\s*(.+))?", DscLine)
if Match:
ConfigDict['space'] = Match.group(1)
ConfigDict['cname'] = Match.group(2)
ConfigDict['offset'] = int (Match.group(3), 16)
if ConfigDict['order'] == -1:
ConfigDict['order'] = ConfigDict['offset'] << 8
else:
(Major, Minor) = ConfigDict['order'].split('.')
ConfigDict['order'] = (int (Major, 16) << 8 ) + int (Minor, 16)
if IsUpdSect:
Value = Match.group(5).strip()
if Match.group(4).startswith("0x"):
Length = int (Match.group(4), 16)
else :
Length = int (Match.group(4))
else:
Value = Match.group(4)
if Value is None:
Value = ''
Value = Value.strip()
if '|' in Value:
Match = re.match("^.+\s*\|\s*(.+)", Value)
if Match:
Value = Match.group(1)
Length = -1
ConfigDict['length'] = Length
Match = re.match("\$\((\w+)\)", Value)
if Match:
if Match.group(1) in self._MacroDict:
Value = self._MacroDict[Match.group(1)]
ConfigDict['value'] = Value
if (len(Value) > 0) and (Value[0] == '{'):
Value = self.FormatListValue(ConfigDict)
if ConfigDict['name'] == '':
# Clear BSF specific items
ConfigDict['bsfname'] = ''
ConfigDict['help'] = ''
ConfigDict['type'] = ''
ConfigDict['option'] = ''
self._CfgItemList.append(ConfigDict.copy())
ConfigDict['name'] = ''
ConfigDict['find'] = ''
ConfigDict['struct'] = ''
ConfigDict['embed'] = ''
ConfigDict['order'] = -1
ConfigDict['subreg'] = []
else:
# It could be a virtual item as below
# !BSF FIELD:{1:SerialDebugPortAddress0}
Match = re.match("^\s*#\s+!BSF\s+FIELD:{(.+):(\d+)}", DscLine)
if Match:
SubCfgDict = ConfigDict
SubCfgDict['cname'] = Match.group(1)
SubCfgDict['length'] = int (Match.group(2))
if SubCfgDict['length'] > 0:
LastItem = self._CfgItemList[-1]
if len(LastItem['subreg']) == 0:
SubOffset = 0
else:
SubOffset += LastItem['subreg'][-1]['length']
SubCfgDict['offset'] = SubOffset
LastItem['subreg'].append (SubCfgDict.copy())
ConfigDict['name'] = ''
return Error
def UpdateSubRegionDefaultValue (self):
Error = 0
for Item in self._CfgItemList:
if len(Item['subreg']) == 0:
continue
bytearray = []
if Item['value'][0] == '{':
binlist = Item['value'][1:-1].split(',')
for each in binlist:
each = each.strip()
if each.startswith('0x'):
value = int(each, 16)
else:
value = int(each)
bytearray.append(value)
else:
if Item['value'].startswith('0x'):
value = int(Item['value'], 16)
else:
value = int(Item['value'])
idx = 0;
while idx < Item['length']:
bytearray.append(value & 0xFF)
value = value >> 8
idx = idx + 1
for SubItem in Item['subreg']:
if SubItem['length'] in (1,2,4,8):
valuelist = [b for b in bytearray[SubItem['offset']:SubItem['offset']+SubItem['length']]]
valuelist.reverse()
valuestr = "".join('%02X' % b for b in valuelist)
SubItem['value'] = '0x%s' % valuestr
else:
valuestr = ",".join('0x%02X' % b for b in bytearray[SubItem['offset']:SubItem['offset']+SubItem['length']])
SubItem['value'] = '{%s}' % valuestr
return Error
def UpdateVpdSizeField (self):
FvDir = self._FvDir;
if 'VPD_TOOL_GUID' not in self._MacroDict:
self.Error = "VPD_TOOL_GUID definition is missing in DSC file"
return 1
VpdMapFile = os.path.join(FvDir, self._MacroDict['VPD_TOOL_GUID'] + '.map')
if not os.path.exists(VpdMapFile):
self.Error = "VPD MAP file '%s' does not exist" % VpdMapFile
return 2
MapFd = open(VpdMapFile, "r")
MapLines = MapFd.readlines()
MapFd.close()
VpdDict = {}
PcdDict = {}
for MapLine in MapLines:
#gPlatformFspPkgTokenSpaceGuid.PcdVpdRegionSign | DEFAULT | 0x0000 | 8 | 0x534450565F425346
#gPlatformFspPkgTokenSpaceGuid.PcdVpdRegionSign | 0x0000 | 8 | 0x534450565F425346
#gPlatformFspPkgTokenSpaceGuid.PcdTest | 0x0008 | 5 | {0x01,0x02,0x03,0x04,0x05}
Match = re.match("([_a-zA-Z0-9]+).([_a-zA-Z0-9]+)(\s\|\sDEFAULT)?\s\|\s(0x[0-9A-F]{4})\s\|\s(\d+|0x[0-9a-fA-F]+)\s\|\s(\{?[x0-9a-fA-F,\s]+\}?)", MapLine)
if Match:
Space = Match.group(1)
Name = Match.group(2)
if (self._MapVer == 0) and (Match.group(3) != None):
self._MapVer = 1
Offset = int (Match.group(4), 16)
if Match.group(5).startswith("0x"):
Length = int (Match.group(5), 16)
else :
Length = int (Match.group(5))
PcdDict["len"] = Length
PcdDict["value"] = Match.group(6)
VpdDict[Space+'.'+Name] = dict(PcdDict)
for Item in self._CfgItemList:
if Item['value'] == '':
Item['value'] = VpdDict[Item['space']+'.'+Item['cname']]['value']
if Item['length'] == -1:
Item['length'] = VpdDict[Item['space']+'.'+Item['cname']]['len']
if Item['struct'] != '':
Type = Item['struct'].strip()
if Type.endswith('*') and (Item['length'] != 4):
self.Error = "Struct pointer '%s' has invalid size" % Type
return 3
return 0
def CreateUpdTxtFile (self, UpdTxtFile):
FvDir = self._FvDir
if 'UPD_TOOL_GUID' not in self._MacroDict:
self.Error = "UPD_TOOL_GUID definition is missing in DSC file"
return 1
if UpdTxtFile == '':
UpdTxtFile = os.path.join(FvDir, self._MacroDict['UPD_TOOL_GUID'] + '.txt')
ReCreate = False
if not os.path.exists(UpdTxtFile):
ReCreate = True
else:
DscTime = os.path.getmtime(self._DscFile)
TxtTime = os.path.getmtime(UpdTxtFile)
if DscTime > TxtTime:
ReCreate = True
if not ReCreate:
# DSC has not been modified yet
# So don't have to re-generate other files
self.Error = 'No DSC file change, skip to create UPD TXT file'
return 256
TxtFd = open(UpdTxtFile, "w")
TxtFd.write("%s\n" % (__copyright_txt__ % date.today().year))
NextOffset = 0
SpaceIdx = 0
if self._MapVer == 1:
Default = 'DEFAULT|'
else:
Default = ''
for Item in self._CfgItemList:
if Item['region'] != 'UPD':
continue
Offset = Item['offset']
if NextOffset < Offset:
# insert one line
TxtFd.write("%s.UnusedUpdSpace%d|%s0x%04X|0x%04X|{0}\n" % (Item['space'], SpaceIdx, Default, NextOffset, Offset - NextOffset))
SpaceIdx = SpaceIdx + 1
NextOffset = Offset + Item['length']
TxtFd.write("%s.%s|%s0x%04X|%s|%s\n" % (Item['space'],Item['cname'],Default,Item['offset'],Item['length'],Item['value']))
TxtFd.close()
return 0
def CreateField (self, Item, Name, Length, Offset, Struct, BsfName, Help):
PosName = 28
PosComment = 30
NameLine=''
HelpLine=''
IsArray = False
if Length in [1,2,4,8]:
Type = "UINT%d" % (Length * 8)
else:
IsArray = True
Type = "UINT8"
if Item and Item['value'].startswith('{'):
Type = "UINT8"
IsArray = True
if Struct != '':
Type = Struct
if Struct in ['UINT8','UINT16','UINT32','UINT64']:
IsArray = True
Unit = int(Type[4:]) / 8
Length = Length / Unit
else:
IsArray = False
if IsArray:
Name = Name + '[%d]' % Length
if len(Type) < PosName:
Space1 = PosName - len(Type)
else:
Space1 = 1
if BsfName != '':
NameLine=" %s\n" % BsfName
if Help != '':
HelpLine=" %s\n" % Help
if Offset is None:
OffsetStr = '????'
else:
OffsetStr = '0x%04X' % Offset
return "/** Offset %s\n%s%s**/\n %s%s%s;\n" % (OffsetStr, NameLine, HelpLine, Type, ' ' * Space1, Name,)
def PostProcessBody (self, TextBody):
NewTextBody = []
OldTextBody = []
IncludeLine = False
StructName = ''
VariableName = ''
for Line in TextBody:
Match = re.match("^/\*\sEMBED_STRUCT:(\w+):(\w+):(START|END)\s\*/\s([\s\S]*)", Line)
if Match:
Line = Match.group(4)
if Match and Match.group(3) == 'START':
NewTextBody.append ('typedef struct {\n')
StructName = Match.group(1)
VariableName = Match.group(2)
MatchOffset = re.search('/\*\*\sOffset\s0x([a-fA-F0-9]+)', Line)
if MatchOffset:
Offset = int(MatchOffset.group(1), 16)
else:
Offset = None
Line
IncludeLine = True
OldTextBody.append (self.CreateField (None, VariableName, 0, Offset, StructName, '', ''))
if IncludeLine:
NewTextBody.append (Line)
else:
OldTextBody.append (Line)
if Match and Match.group(3) == 'END':
if (StructName != Match.group(1)) or (VariableName != Match.group(2)):
print "Unmatched struct name '%s' and '%s' !" % (StructName, Match.group(1))
else:
NewTextBody.append ('} %s;\n\n' % StructName)
IncludeLine = False
NewTextBody.extend(OldTextBody)
return NewTextBody
def CreateHeaderFile (self, InputHeaderFile, IsInternal):
FvDir = self._FvDir
if IsInternal:
HeaderFile = os.path.join(FvDir, 'FspUpdVpdInternal.h')
else:
HeaderFile = os.path.join(FvDir, 'FspUpdVpd.h')
# Check if header needs to be recreated
ReCreate = False
if IsInternal:
if not os.path.exists(HeaderFile):
ReCreate = True
else:
DscTime = os.path.getmtime(self._DscFile)
HeadTime = os.path.getmtime(HeaderFile)
if not os.path.exists(InputHeaderFile):
InpTime = HeadTime
else:
InpTime = os.path.getmtime(InputHeaderFile)
if DscTime > HeadTime or InpTime > HeadTime:
ReCreate = True
if not ReCreate:
self.Error = "No DSC or input header file is changed, skip the header file generating"
return 256
TxtBody = []
for Item in self._CfgItemList:
if str(Item['cname']) == 'Signature' and Item['length'] == 8:
Value = int(Item['value'], 16)
Chars = []
while Value != 0x0:
Chars.append(chr(Value & 0xFF))
Value = Value >> 8
SignatureStr = ''.join(Chars)
if int(Item['offset']) == 0:
TxtBody.append("#define FSP_UPD_SIGNATURE %s /* '%s' */\n" % (Item['value'], SignatureStr))
elif 'MEM' in SignatureStr:
TxtBody.append("#define FSP_MEMORY_INIT_UPD_SIGNATURE %s /* '%s' */\n" % (Item['value'], SignatureStr))
else:
TxtBody.append("#define FSP_SILICON_INIT_UPD_SIGNATURE %s /* '%s' */\n" % (Item['value'], SignatureStr))
TxtBody.append("\n")
for Region in ['UPD', 'VPD']:
# Write PcdVpdRegionSign and PcdImageRevision
if Region[0] == 'V':
if 'VPD_TOOL_GUID' not in self._MacroDict:
self.Error = "VPD_TOOL_GUID definition is missing in DSC file"
return 1
BinFile = os.path.join(FvDir, self._MacroDict['VPD_TOOL_GUID'] + ".bin")
if not os.path.exists(BinFile):
self.Error = "VPD binary file '%s' does not exist" % BinFile
return 2
BinFd = open(BinFile, "rb")
IdStr = BinFd.read(0x08)
ImageId = struct.unpack('<Q', IdStr)
ImageRev = struct.unpack('<I', BinFd.read(0x04))
BinFd.close()
TxtBody.append("#define FSP_IMAGE_ID 0x%016X /* '%s' */\n" % (ImageId[0], IdStr))
TxtBody.append("#define FSP_IMAGE_REV 0x%08X \n\n" % ImageRev[0])
TxtBody.append("typedef struct _" + Region[0] + "PD_DATA_REGION {\n")
NextOffset = 0
SpaceIdx = 0
Offset = 0
LastVisible = True
ResvOffset = 0
ResvIdx = 0
LineBuffer = []
for Item in self._CfgItemList:
if Item['region'] != Region:
continue
NextVisible = LastVisible
if not IsInternal:
if LastVisible and (Item['header'] == 'OFF'):
NextVisible = False
ResvOffset = Item['offset']
elif (not LastVisible) and Item['header'] == 'ON':
NextVisible = True
Name = "Reserved" + Region[0] + "pdSpace%d" % ResvIdx
ResvIdx = ResvIdx + 1
TxtBody.append(self.CreateField (Item, Name, Item["offset"] - ResvOffset, ResvOffset, '', '', ''))
if Offset < Item["offset"]:
if IsInternal or LastVisible:
Name = "Unused" + Region[0] + "pdSpace%d" % SpaceIdx
LineBuffer.append(self.CreateField (Item, Name, Item["offset"] - Offset, Offset, '', '', ''))
SpaceIdx = SpaceIdx + 1
Offset = Item["offset"]
if Offset != Item["offset"]:
self.Error = "Unsorted offset 0x%04X\n" % Item["offset"]
return 3
LastVisible = NextVisible
Offset = Offset + Item["length"]
if IsInternal or LastVisible:
for Each in LineBuffer:
TxtBody.append (Each)
LineBuffer = []
Embed = Item["embed"].upper()
if Embed.endswith(':START') or Embed.endswith(':END'):
Marker = '/* EMBED_STRUCT:%s */ ' % Item["embed"]
else:
if Embed == '':
Marker = '';
else:
self.Error = "Invalid embedded structure format '%s'!\n" % Item["embed"]
return 4
Line = Marker + self.CreateField (Item, Item["cname"], Item["length"], Item["offset"], Item['struct'], Item['name'], Item['help'])
TxtBody.append(Line)
TxtBody.append("} " + Region[0] + "PD_DATA_REGION;\n\n")
# Handle the embedded data structure
TxtBody = self.PostProcessBody (TxtBody)
HeaderFd = open(HeaderFile, "w")
FileBase = os.path.basename(HeaderFile)
FileName = FileBase.replace(".", "_").upper()
HeaderFd.write("%s\n" % (__copyright_h__ % date.today().year))
HeaderFd.write("#ifndef __%s__\n" % FileName)
HeaderFd.write("#define __%s__\n\n" % FileName)
HeaderFd.write("#pragma pack(1)\n\n")
if InputHeaderFile != '':
if not os.path.exists(InputHeaderFile):
self.Error = "Input header file '%s' does not exist" % InputHeaderFile
return 6
InFd = open(InputHeaderFile, "r")
IncLines = InFd.readlines()
InFd.close()
Export = False
for Line in IncLines:
Match = re.search ("!EXPORT\s+EXTERNAL_BOOTLOADER_STRUCT_(BEGIN|END)\s+", Line)
if Match:
if Match.group(1) == "BEGIN":
Export = True
continue
else:
Export = False
continue
if Export:
HeaderFd.write(Line)
HeaderFd.write("\n\n")
for Line in TxtBody:
HeaderFd.write (Line)
HeaderFd.write("#pragma pack()\n\n")
HeaderFd.write("#endif\n")
HeaderFd.close()
return 0
def WriteBsfStruct (self, BsfFd, Item):
if Item['type'] == "None":
Space = "gPlatformFspPkgTokenSpaceGuid"
else:
Space = Item['space']
Line = " $%s_%s" % (Space, Item['cname'])
Match = re.match("\s*\{([x0-9a-fA-F,\s]+)\}\s*", Item['value'])
if Match:
DefaultValue = Match.group(1).strip()
else:
DefaultValue = Item['value'].strip()
BsfFd.write(" %s%s%4d bytes $_DEFAULT_ = %s\n" % (Line, ' ' * (64 - len(Line)), Item['length'], DefaultValue))
TmpList = []
if Item['type'] == "Combo":
if not Item['option'] in self._BuidinOption:
OptList = Item['option'].split(',')
for Option in OptList:
Option = Option.strip()
(OpVal, OpStr) = Option.split(':')
TmpList.append((OpVal, OpStr))
return TmpList
def WriteBsfOption (self, BsfFd, Item):
PcdName = Item['space'] + '_' + Item['cname']
WriteHelp = 0
if Item['type'] == "Combo":
if Item['option'] in self._BuidinOption:
Options = self._BuidinOption[Item['option']]
else:
Options = PcdName
BsfFd.write(' %s $%s, "%s", &%s,\n' % (Item['type'], PcdName, Item['name'], Options));
WriteHelp = 1
elif Item['type'].startswith("EditNum"):
Match = re.match("EditNum\s*,\s*(HEX|DEC)\s*,\s*\((\d+|0x[0-9A-Fa-f]+)\s*,\s*(\d+|0x[0-9A-Fa-f]+)\)", Item['type'])
if Match:
BsfFd.write(' EditNum $%s, "%s", %s,\n' % (PcdName, Item['name'], Match.group(1)));
WriteHelp = 2
elif Item['type'].startswith("EditText"):
BsfFd.write(' %s $%s, "%s",\n' % (Item['type'], PcdName, Item['name']));
WriteHelp = 1
elif Item['type'] == "Table":
Columns = Item['option'].split(',')
if len(Columns) != 0:
BsfFd.write(' %s $%s "%s",' % (Item['type'], PcdName, Item['name']));
for Col in Columns:
Fmt = Col.split(':')
if len(Fmt) != 3:
raise Exception("Column format '%s' is invalid !" % Fmt)
try:
Dtype = int(Fmt[1].strip())
except:
raise Exception("Column size '%s' is invalid !" % Fmt[1])
BsfFd.write('\n Column "%s", %d bytes, %s' % (Fmt[0].strip(), Dtype, Fmt[2].strip()))
BsfFd.write(',\n')
WriteHelp = 1
if WriteHelp > 0:
HelpLines = Item['help'].split('\\n\\r')
FirstLine = True
for HelpLine in HelpLines:
if FirstLine:
FirstLine = False
BsfFd.write(' Help "%s"\n' % (HelpLine));
else:
BsfFd.write(' "%s"\n' % (HelpLine));
if WriteHelp == 2:
BsfFd.write(' "Valid range: %s ~ %s"\n' % (Match.group(2), Match.group(3)));
def GenerateBsfFile (self, BsfFile):
if BsfFile == '':
self.Error = "BSF output file '%s' is invalid" % BsfFile
return 1
Error = 0
OptionDict = {}
BsfFd = open(BsfFile, "w")
BsfFd.write("%s\n" % (__copyright_bsf__ % date.today().year))
BsfFd.write("%s\n" % self._GlobalDataDef);
BsfFd.write("StructDef\n")
NextOffset = -1
for Item in self._CfgItemList:
if Item['find'] != '':
BsfFd.write('\n Find "%s"\n' % Item['find'])
NextOffset = Item['offset'] + Item['length']
if Item['name'] != '':
if NextOffset != Item['offset']:
BsfFd.write(" Skip %d bytes\n" % (Item['offset'] - NextOffset))
if len(Item['subreg']) > 0:
NextOffset = Item['offset']
for SubItem in Item['subreg']:
NextOffset += SubItem['length']
if SubItem['name'] == '':
BsfFd.write(" Skip %d bytes\n" % (SubItem['length']))
else:
Options = self.WriteBsfStruct(BsfFd, SubItem)
if len(Options) > 0:
OptionDict[SubItem['space']+'_'+SubItem['cname']] = Options
if (Item['offset'] + Item['length']) < NextOffset:
self.Error = "BSF sub region '%s' length does not match" % (Item['space']+'.'+Item['cname'])
return 2
else:
NextOffset = Item['offset'] + Item['length']
Options = self.WriteBsfStruct(BsfFd, Item)
if len(Options) > 0:
OptionDict[Item['space']+'_'+Item['cname']] = Options
BsfFd.write("\nEndStruct\n\n")
BsfFd.write("%s" % self._BuidinOptionTxt);
for Each in OptionDict:
BsfFd.write("List &%s\n" % Each);
for Item in OptionDict[Each]:
BsfFd.write(' Selection %s , "%s"\n' % (Item[0], Item[1]));
BsfFd.write("EndList\n\n");
BsfFd.write("BeginInfoBlock\n");
BsfFd.write(' PPVer "%s"\n' % (self._CfgBlkDict['ver']));
BsfFd.write(' Description "%s"\n' % (self._CfgBlkDict['name']));
BsfFd.write("EndInfoBlock\n\n");
for Each in self._CfgPageDict:
BsfFd.write('Page "%s"\n' % self._CfgPageDict[Each]);
BsfItems = []
for Item in self._CfgItemList:
if Item['name'] != '':
if Item['page'] != Each:
continue
if len(Item['subreg']) > 0:
for SubItem in Item['subreg']:
if SubItem['name'] != '':
BsfItems.append(SubItem)
else:
BsfItems.append(Item)
BsfItems.sort(key=lambda x: x['order'])
for Item in BsfItems:
self.WriteBsfOption (BsfFd, Item)
BsfFd.write("EndPage\n\n");
BsfFd.close()
return Error
def Usage():
print "GenCfgOpt Version 0.50"
print "Usage:"
print " GenCfgOpt UPDTXT PlatformDscFile BuildFvDir [TxtOutFile] [-D Macros]"
print " GenCfgOpt HEADER PlatformDscFile BuildFvDir [InputHFile] [-D Macros]"
print " GenCfgOpt GENBSF PlatformDscFile BuildFvDir BsfOutFile [-D Macros]"
def Main():
#
# Parse the options and args
#
GenCfgOpt = CGenCfgOpt()
argc = len(sys.argv)
if argc < 4:
Usage()
return 1
else:
DscFile = sys.argv[2]
if not os.path.exists(DscFile):
print "ERROR: Cannot open DSC file '%s' !" % DscFile
return 2
UpdateMemSiUpdInitOffsetValue(DscFile)
OutFile = ''
if argc > 4:
if sys.argv[4][0] == '-':
Start = 4
else:
OutFile = sys.argv[4]
Start = 5
if GenCfgOpt.ParseMacros(sys.argv[Start:]) != 0:
print "ERROR: Macro parsing failed !"
return 3
FvDir = sys.argv[3]
if not os.path.isdir(FvDir):
print "ERROR: FV folder '%s' is invalid !" % FvDir
return 4
if GenCfgOpt.ParseDscFile(DscFile, FvDir) != 0:
print "ERROR: %s !" % GenCfgOpt.Error
return 5
if GenCfgOpt.UpdateVpdSizeField() != 0:
print "ERROR: %s !" % GenCfgOpt.Error
return 6
if GenCfgOpt.UpdateSubRegionDefaultValue() != 0:
print "ERROR: %s !" % GenCfgOpt.Error
return 7
if sys.argv[1] == "UPDTXT":
Ret = GenCfgOpt.CreateUpdTxtFile(OutFile)
if Ret != 0:
# No change is detected
if Ret == 256:
print "INFO: %s !" % (GenCfgOpt.Error)
else :
print "ERROR: %s !" % (GenCfgOpt.Error)
return Ret
elif sys.argv[1] == "HEADER":
Ret = GenCfgOpt.CreateHeaderFile(OutFile, True)
if Ret != 0:
# No change is detected
if Ret == 256:
print "INFO: %s !" % (GenCfgOpt.Error)
else :
print "ERROR: %s !" % (GenCfgOpt.Error)
return Ret
if GenCfgOpt.CreateHeaderFile(OutFile, False) != 0:
print "ERROR: %s !" % GenCfgOpt.Error
return 8
elif sys.argv[1] == "GENBSF":
if GenCfgOpt.GenerateBsfFile(OutFile) != 0:
print "ERROR: %s !" % GenCfgOpt.Error
return 9
else:
if argc < 5:
Usage()
return 1
print "ERROR: Unknown command '%s' !" % sys.argv[1]
Usage()
return 1
return 0
return 0
if __name__ == '__main__':
sys.exit(Main())