## @file\r
# Common routines used by all tools\r
#\r
-# Copyright (c) 2007 - 2014, Intel Corporation. All rights reserved.<BR>\r
+# Copyright (c) 2007 - 2015, Intel Corporation. All rights reserved.<BR>\r
# This program and the accompanying materials\r
# are licensed and made available under the terms and conditions of the BSD License\r
# which accompanies this distribution. The full text of the license may be found at\r
## Dictionary used to store dependencies of files\r
gDependencyDatabase = {} # arch : {file path : [dependent files list]}\r
\r
+def GetVariableOffset(mapfilepath, efifilepath, varnames):\r
+ """ Parse map file to get variable offset in current EFI file \r
+ @param mapfilepath Map file absolution path\r
+ @param efifilepath: EFI binary file full path\r
+ @param varnames iteratable container whose elements are variable names to be searched\r
+ \r
+ @return List whos elements are tuple with variable name and raw offset\r
+ """\r
+ lines = []\r
+ try:\r
+ f = open(mapfilepath, 'r')\r
+ lines = f.readlines()\r
+ f.close()\r
+ except:\r
+ return None\r
+ \r
+ if len(lines) == 0: return None\r
+ firstline = lines[0].strip()\r
+ if (firstline.startswith("Archive member included ") and\r
+ firstline.endswith(" file (symbol)")):\r
+ return _parseForGCC(lines, efifilepath, varnames)\r
+ return _parseGeneral(lines, efifilepath, varnames)\r
+\r
+def _parseForGCC(lines, efifilepath, varnames):\r
+ """ Parse map file generated by GCC linker """\r
+ status = 0\r
+ sections = []\r
+ varoffset = []\r
+ for line in lines:\r
+ line = line.strip()\r
+ # status machine transection\r
+ if status == 0 and line == "Memory Configuration":\r
+ status = 1\r
+ continue\r
+ elif status == 1 and line == 'Linker script and memory map':\r
+ status = 2\r
+ continue\r
+ elif status ==2 and line == 'START GROUP':\r
+ status = 3\r
+ continue\r
+\r
+ # status handler\r
+ if status == 2:\r
+ m = re.match('^([\w_\.]+) +([\da-fA-Fx]+) +([\da-fA-Fx]+)$', line)\r
+ if m != None:\r
+ sections.append(m.groups(0))\r
+ for varname in varnames:\r
+ m = re.match("^([\da-fA-Fx]+) +[_]*(%s)$" % varname, line)\r
+ if m != None:\r
+ varoffset.append((varname, int(m.groups(0)[0], 16) , int(sections[-1][1], 16), sections[-1][0]))\r
+\r
+ if not varoffset:\r
+ return []\r
+ # get section information from efi file\r
+ efisecs = PeImageClass(efifilepath).SectionHeaderList\r
+ if efisecs == None or len(efisecs) == 0:\r
+ return []\r
+ #redirection\r
+ redirection = 0\r
+ for efisec in efisecs:\r
+ for section in sections:\r
+ if section[0].strip() == efisec[0].strip() and section[0].strip() == '.text':\r
+ redirection = int(section[1], 16) - efisec[1]\r
+\r
+ ret = []\r
+ for var in varoffset:\r
+ for efisec in efisecs:\r
+ if var[1] >= efisec[1] and var[1] < efisec[1]+efisec[3]:\r
+ ret.append((var[0], hex(efisec[2] + var[1] - efisec[1] - redirection)))\r
+ return ret\r
+\r
+def _parseGeneral(lines, efifilepath, varnames):\r
+ status = 0 #0 - beginning of file; 1 - PE section definition; 2 - symbol table\r
+ secs = [] # key = section name\r
+ varoffset = []\r
+ secRe = re.compile('^([\da-fA-F]+):([\da-fA-F]+) +([\da-fA-F]+)[Hh]? +([.\w\$]+) +(\w+)', re.UNICODE)\r
+ symRe = re.compile('^([\da-fA-F]+):([\da-fA-F]+) +([\.:\\\\\w\?@\$]+) +([\da-fA-F]+)', re.UNICODE)\r
+\r
+ for line in lines:\r
+ line = line.strip()\r
+ if re.match("^Start[' ']+Length[' ']+Name[' ']+Class", line):\r
+ status = 1\r
+ continue\r
+ if re.match("^Address[' ']+Publics by Value[' ']+Rva\+Base", line):\r
+ status = 2\r
+ continue\r
+ if re.match("^entry point at", line):\r
+ status = 3\r
+ continue \r
+ if status == 1 and len(line) != 0:\r
+ m = secRe.match(line)\r
+ assert m != None, "Fail to parse the section in map file , line is %s" % line\r
+ sec_no, sec_start, sec_length, sec_name, sec_class = m.groups(0)\r
+ secs.append([int(sec_no, 16), int(sec_start, 16), int(sec_length, 16), sec_name, sec_class])\r
+ if status == 2 and len(line) != 0:\r
+ for varname in varnames:\r
+ m = symRe.match(line)\r
+ assert m != None, "Fail to parse the symbol in map file, line is %s" % line\r
+ sec_no, sym_offset, sym_name, vir_addr = m.groups(0)\r
+ sec_no = int(sec_no, 16)\r
+ sym_offset = int(sym_offset, 16)\r
+ vir_addr = int(vir_addr, 16)\r
+ m2 = re.match('^[_]*(%s)' % varname, sym_name)\r
+ if m2 != None:\r
+ # fond a binary pcd entry in map file\r
+ for sec in secs:\r
+ if sec[0] == sec_no and (sym_offset >= sec[1] and sym_offset < sec[1] + sec[2]):\r
+ varoffset.append([varname, sec[3], sym_offset, vir_addr, sec_no])\r
+\r
+ if not varoffset: return []\r
+\r
+ # get section information from efi file\r
+ efisecs = PeImageClass(efifilepath).SectionHeaderList\r
+ if efisecs == None or len(efisecs) == 0:\r
+ return []\r
+\r
+ ret = []\r
+ for var in varoffset:\r
+ index = 0\r
+ for efisec in efisecs:\r
+ index = index + 1\r
+ if var[1].strip() == efisec[0].strip():\r
+ ret.append((var[0], hex(efisec[2] + var[2])))\r
+ elif var[4] == index:\r
+ ret.append((var[0], hex(efisec[2] + var[2])))\r
+\r
+ return ret\r
+\r
## Routine to process duplicated INF\r
#\r
# This function is called by following two cases:\r
return NewFile\r
\r
def RealPath2(File, Dir='', OverrideDir=''):\r
+ NewFile = None\r
if OverrideDir:\r
NewFile = GlobalData.gAllFiles[os.path.normpath(os.path.join(OverrideDir, File))]\r
if NewFile:\r
return NewFile[len(OverrideDir)+1:], NewFile[0:len(OverrideDir)]\r
if GlobalData.gAllFiles:\r
NewFile = GlobalData.gAllFiles[os.path.normpath(os.path.join(Dir, File))]\r
- else:\r
+ if not NewFile:\r
NewFile = os.path.normpath(os.path.join(Dir, File))\r
+ if not os.path.exists(NewFile):\r
+ return None, None\r
if NewFile:\r
if Dir:\r
if Dir[-1] == os.path.sep:\r
return [VpdOffset, Size, Value], IsValid, 2\r
elif PcdType in (MODEL_PCD_DYNAMIC_HII, MODEL_PCD_DYNAMIC_EX_HII):\r
HiiString = FieldList[0]\r
- Guid = Offset = Value = ''\r
+ Guid = Offset = Value = Attribute = ''\r
if len(FieldList) > 1:\r
Guid = FieldList[1]\r
if len(FieldList) > 2:\r
Offset = FieldList[2]\r
if len(FieldList) > 3:\r
Value = FieldList[3]\r
- IsValid = (3 <= len(FieldList) <= 4)\r
- return [HiiString, Guid, Offset, Value], IsValid, 3\r
+ if len(FieldList) > 4:\r
+ Attribute = FieldList[4]\r
+ IsValid = (3 <= len(FieldList) <= 5)\r
+ return [HiiString, Guid, Offset, Value, Attribute], IsValid, 3\r
return [], False, 0\r
\r
## AnalyzePcdData\r