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1 | ## @file\r | |
2 | # Routines for generating build report.\r | |
3 | #\r | |
4 | # This module contains the functionality to generate build report after\r | |
5 | # build all target completes successfully.\r | |
6 | #\r | |
7 | # Copyright (c) 2010 - 2018, Intel Corporation. All rights reserved.<BR>\r | |
8 | # This program and the accompanying materials\r | |
9 | # are licensed and made available under the terms and conditions of the BSD License\r | |
10 | # which accompanies this distribution. The full text of the license may be found at\r | |
11 | # http://opensource.org/licenses/bsd-license.php\r | |
12 | #\r | |
13 | # THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,\r | |
14 | # WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.\r | |
15 | #\r | |
16 | \r | |
17 | ## Import Modules\r | |
18 | #\r | |
19 | import Common.LongFilePathOs as os\r | |
20 | import re\r | |
21 | import platform\r | |
22 | import textwrap\r | |
23 | import traceback\r | |
24 | import sys\r | |
25 | import time\r | |
26 | import struct\r | |
27 | import hashlib\r | |
28 | import subprocess\r | |
29 | import threading\r | |
30 | from datetime import datetime\r | |
31 | from StringIO import StringIO\r | |
32 | from Common import EdkLogger\r | |
33 | from Common.Misc import SaveFileOnChange\r | |
34 | from Common.Misc import GuidStructureByteArrayToGuidString\r | |
35 | from Common.Misc import GuidStructureStringToGuidString\r | |
36 | from Common.InfClassObject import gComponentType2ModuleType\r | |
37 | from Common.BuildToolError import FILE_WRITE_FAILURE\r | |
38 | from Common.BuildToolError import CODE_ERROR\r | |
39 | from Common.BuildToolError import COMMAND_FAILURE\r | |
40 | from Common.LongFilePathSupport import OpenLongFilePath as open\r | |
41 | from Common.MultipleWorkspace import MultipleWorkspace as mws\r | |
42 | import Common.GlobalData as GlobalData\r | |
43 | from AutoGen.AutoGen import ModuleAutoGen\r | |
44 | from Common.Misc import PathClass\r | |
45 | from Common.String import NormPath\r | |
46 | from Common.DataType import *\r | |
47 | import collections\r | |
48 | from Common.Expression import ValueExpressionEx\r | |
49 | \r | |
50 | ## Pattern to extract contents in EDK DXS files\r | |
51 | gDxsDependencyPattern = re.compile(r"DEPENDENCY_START(.+)DEPENDENCY_END", re.DOTALL)\r | |
52 | \r | |
53 | ## Pattern to find total FV total size, occupied size in flash report intermediate file\r | |
54 | gFvTotalSizePattern = re.compile(r"EFI_FV_TOTAL_SIZE = (0x[0-9a-fA-F]+)")\r | |
55 | gFvTakenSizePattern = re.compile(r"EFI_FV_TAKEN_SIZE = (0x[0-9a-fA-F]+)")\r | |
56 | \r | |
57 | ## Pattern to find module size and time stamp in module summary report intermediate file\r | |
58 | gModuleSizePattern = re.compile(r"MODULE_SIZE = (\d+)")\r | |
59 | gTimeStampPattern = re.compile(r"TIME_STAMP = (\d+)")\r | |
60 | \r | |
61 | ## Pattern to find GUID value in flash description files\r | |
62 | gPcdGuidPattern = re.compile(r"PCD\((\w+)[.](\w+)\)")\r | |
63 | \r | |
64 | ## Pattern to collect offset, GUID value pair in the flash report intermediate file\r | |
65 | gOffsetGuidPattern = re.compile(r"(0x[0-9A-Fa-f]+) ([-A-Fa-f0-9]+)")\r | |
66 | \r | |
67 | ## Pattern to find module base address and entry point in fixed flash map file\r | |
68 | gModulePattern = r"\n[-\w]+\s*\(([^,]+),\s*BaseAddress=%(Address)s,\s*EntryPoint=%(Address)s\)\s*\(GUID=([-0-9A-Fa-f]+)[^)]*\)"\r | |
69 | gMapFileItemPattern = re.compile(gModulePattern % {"Address" : "(-?0[xX][0-9A-Fa-f]+)"})\r | |
70 | \r | |
71 | ## Pattern to find all module referenced header files in source files\r | |
72 | gIncludePattern = re.compile(r'#include\s*["<]([^">]+)[">]')\r | |
73 | gIncludePattern2 = re.compile(r"#include\s+EFI_([A-Z_]+)\s*[(]\s*(\w+)\s*[)]")\r | |
74 | \r | |
75 | ## Pattern to find the entry point for EDK module using EDKII Glue library\r | |
76 | gGlueLibEntryPoint = re.compile(r"__EDKII_GLUE_MODULE_ENTRY_POINT__\s*=\s*(\w+)")\r | |
77 | \r | |
78 | ## Tags for MaxLength of line in report\r | |
79 | gLineMaxLength = 120\r | |
80 | \r | |
81 | ## Tags for end of line in report\r | |
82 | gEndOfLine = "\r\n"\r | |
83 | \r | |
84 | ## Tags for section start, end and separator\r | |
85 | gSectionStart = ">" + "=" * (gLineMaxLength - 2) + "<"\r | |
86 | gSectionEnd = "<" + "=" * (gLineMaxLength - 2) + ">" + "\n"\r | |
87 | gSectionSep = "=" * gLineMaxLength\r | |
88 | \r | |
89 | ## Tags for subsection start, end and separator\r | |
90 | gSubSectionStart = ">" + "-" * (gLineMaxLength - 2) + "<"\r | |
91 | gSubSectionEnd = "<" + "-" * (gLineMaxLength - 2) + ">"\r | |
92 | gSubSectionSep = "-" * gLineMaxLength\r | |
93 | \r | |
94 | \r | |
95 | ## The look up table to map PCD type to pair of report display type and DEC type\r | |
96 | gPcdTypeMap = {\r | |
97 | 'FixedAtBuild' : ('FIXED', 'FixedAtBuild'),\r | |
98 | 'PatchableInModule': ('PATCH', 'PatchableInModule'),\r | |
99 | 'FeatureFlag' : ('FLAG', 'FeatureFlag'),\r | |
100 | 'Dynamic' : ('DYN', 'Dynamic'),\r | |
101 | 'DynamicHii' : ('DYNHII', 'Dynamic'),\r | |
102 | 'DynamicVpd' : ('DYNVPD', 'Dynamic'),\r | |
103 | 'DynamicEx' : ('DEX', 'DynamicEx'),\r | |
104 | 'DynamicExHii' : ('DEXHII', 'DynamicEx'),\r | |
105 | 'DynamicExVpd' : ('DEXVPD', 'DynamicEx'),\r | |
106 | }\r | |
107 | \r | |
108 | ## The look up table to map module type to driver type\r | |
109 | gDriverTypeMap = {\r | |
110 | 'SEC' : '0x3 (SECURITY_CORE)',\r | |
111 | 'PEI_CORE' : '0x4 (PEI_CORE)',\r | |
112 | 'PEIM' : '0x6 (PEIM)',\r | |
113 | 'DXE_CORE' : '0x5 (DXE_CORE)',\r | |
114 | 'DXE_DRIVER' : '0x7 (DRIVER)',\r | |
115 | 'DXE_SAL_DRIVER' : '0x7 (DRIVER)',\r | |
116 | 'DXE_SMM_DRIVER' : '0x7 (DRIVER)',\r | |
117 | 'DXE_RUNTIME_DRIVER': '0x7 (DRIVER)',\r | |
118 | 'UEFI_DRIVER' : '0x7 (DRIVER)',\r | |
119 | 'UEFI_APPLICATION' : '0x9 (APPLICATION)',\r | |
120 | 'SMM_CORE' : '0xD (SMM_CORE)',\r | |
121 | 'SMM_DRIVER' : '0xA (SMM)', # Extension of module type to support PI 1.1 SMM drivers\r | |
122 | 'MM_STANDALONE' : '0xE (MM_STANDALONE)',\r | |
123 | 'MM_CORE_STANDALONE' : '0xF (MM_CORE_STANDALONE)'\r | |
124 | }\r | |
125 | \r | |
126 | ## The look up table of the supported opcode in the dependency expression binaries\r | |
127 | gOpCodeList = ["BEFORE", "AFTER", "PUSH", "AND", "OR", "NOT", "TRUE", "FALSE", "END", "SOR"]\r | |
128 | \r | |
129 | ##\r | |
130 | # Writes a string to the file object.\r | |
131 | #\r | |
132 | # This function writes a string to the file object and a new line is appended\r | |
133 | # afterwards. It may optionally wraps the string for better readability.\r | |
134 | #\r | |
135 | # @File The file object to write\r | |
136 | # @String The string to be written to the file\r | |
137 | # @Wrapper Indicates whether to wrap the string\r | |
138 | #\r | |
139 | def FileWrite(File, String, Wrapper=False):\r | |
140 | if Wrapper:\r | |
141 | String = textwrap.fill(String, 120)\r | |
142 | File.write(String + gEndOfLine)\r | |
143 | \r | |
144 | def ByteArrayForamt(Value):\r | |
145 | IsByteArray = False\r | |
146 | SplitNum = 16\r | |
147 | ArrayList = []\r | |
148 | if Value.startswith('{') and Value.endswith('}'):\r | |
149 | Value = Value[1:-1]\r | |
150 | ValueList = Value.split(',')\r | |
151 | if len(ValueList) >= SplitNum:\r | |
152 | IsByteArray = True\r | |
153 | if IsByteArray:\r | |
154 | if ValueList:\r | |
155 | Len = len(ValueList)/SplitNum\r | |
156 | for i, element in enumerate(ValueList):\r | |
157 | ValueList[i] = '0x%02X' % int(element.strip(), 16)\r | |
158 | if Len:\r | |
159 | Id = 0\r | |
160 | while (Id <= Len):\r | |
161 | End = min(SplitNum*(Id+1), len(ValueList))\r | |
162 | Str = ','.join(ValueList[SplitNum*Id : End])\r | |
163 | if End == len(ValueList):\r | |
164 | Str += '}'\r | |
165 | ArrayList.append(Str)\r | |
166 | break\r | |
167 | else:\r | |
168 | Str += ','\r | |
169 | ArrayList.append(Str)\r | |
170 | Id += 1\r | |
171 | else:\r | |
172 | ArrayList = [Value + '}']\r | |
173 | return IsByteArray, ArrayList\r | |
174 | \r | |
175 | ##\r | |
176 | # Find all the header file that the module source directly includes.\r | |
177 | #\r | |
178 | # This function scans source code to find all header files the module may\r | |
179 | # include. This is not accurate but very effective to find all the header\r | |
180 | # file the module might include with #include statement.\r | |
181 | #\r | |
182 | # @Source The source file name\r | |
183 | # @IncludePathList The list of include path to find the source file.\r | |
184 | # @IncludeFiles The dictionary of current found include files.\r | |
185 | #\r | |
186 | def FindIncludeFiles(Source, IncludePathList, IncludeFiles):\r | |
187 | FileContents = open(Source).read()\r | |
188 | #\r | |
189 | # Find header files with pattern #include "XXX.h" or #include <XXX.h>\r | |
190 | #\r | |
191 | for Match in gIncludePattern.finditer(FileContents):\r | |
192 | FileName = Match.group(1).strip()\r | |
193 | for Dir in [os.path.dirname(Source)] + IncludePathList:\r | |
194 | FullFileName = os.path.normpath(os.path.join(Dir, FileName))\r | |
195 | if os.path.exists(FullFileName):\r | |
196 | IncludeFiles[FullFileName.lower().replace("\\", "/")] = FullFileName\r | |
197 | break\r | |
198 | \r | |
199 | #\r | |
200 | # Find header files with pattern like #include EFI_PPI_CONSUMER(XXX)\r | |
201 | #\r | |
202 | for Match in gIncludePattern2.finditer(FileContents):\r | |
203 | Key = Match.group(2)\r | |
204 | Type = Match.group(1)\r | |
205 | if "ARCH_PROTOCOL" in Type:\r | |
206 | FileName = "ArchProtocol/%(Key)s/%(Key)s.h" % {"Key" : Key}\r | |
207 | elif "PROTOCOL" in Type:\r | |
208 | FileName = "Protocol/%(Key)s/%(Key)s.h" % {"Key" : Key}\r | |
209 | elif "PPI" in Type:\r | |
210 | FileName = "Ppi/%(Key)s/%(Key)s.h" % {"Key" : Key}\r | |
211 | elif "GUID" in Type:\r | |
212 | FileName = "Guid/%(Key)s/%(Key)s.h" % {"Key" : Key}\r | |
213 | else:\r | |
214 | continue\r | |
215 | for Dir in IncludePathList:\r | |
216 | FullFileName = os.path.normpath(os.path.join(Dir, FileName))\r | |
217 | if os.path.exists(FullFileName):\r | |
218 | IncludeFiles[FullFileName.lower().replace("\\", "/")] = FullFileName\r | |
219 | break\r | |
220 | \r | |
221 | ## Split each lines in file\r | |
222 | #\r | |
223 | # This method is used to split the lines in file to make the length of each line \r | |
224 | # less than MaxLength.\r | |
225 | #\r | |
226 | # @param Content The content of file\r | |
227 | # @param MaxLength The Max Length of the line\r | |
228 | #\r | |
229 | def FileLinesSplit(Content=None, MaxLength=None):\r | |
230 | ContentList = Content.split(TAB_LINE_BREAK)\r | |
231 | NewContent = ''\r | |
232 | NewContentList = []\r | |
233 | for Line in ContentList:\r | |
234 | while len(Line.rstrip()) > MaxLength:\r | |
235 | LineSpaceIndex = Line.rfind(TAB_SPACE_SPLIT, 0, MaxLength)\r | |
236 | LineSlashIndex = Line.rfind(TAB_SLASH, 0, MaxLength)\r | |
237 | LineBackSlashIndex = Line.rfind(TAB_BACK_SLASH, 0, MaxLength)\r | |
238 | if max(LineSpaceIndex, LineSlashIndex, LineBackSlashIndex) > 0:\r | |
239 | LineBreakIndex = max(LineSpaceIndex, LineSlashIndex, LineBackSlashIndex)\r | |
240 | else:\r | |
241 | LineBreakIndex = MaxLength\r | |
242 | NewContentList.append(Line[:LineBreakIndex])\r | |
243 | Line = Line[LineBreakIndex:]\r | |
244 | if Line:\r | |
245 | NewContentList.append(Line)\r | |
246 | for NewLine in NewContentList:\r | |
247 | NewContent += NewLine + TAB_LINE_BREAK\r | |
248 | \r | |
249 | NewContent = NewContent.replace(TAB_LINE_BREAK, gEndOfLine).replace('\r\r\n', gEndOfLine)\r | |
250 | return NewContent\r | |
251 | \r | |
252 | \r | |
253 | \r | |
254 | ##\r | |
255 | # Parse binary dependency expression section\r | |
256 | #\r | |
257 | # This utility class parses the dependency expression section and translate the readable\r | |
258 | # GUID name and value.\r | |
259 | #\r | |
260 | class DepexParser(object):\r | |
261 | ##\r | |
262 | # Constructor function for class DepexParser\r | |
263 | #\r | |
264 | # This constructor function collect GUID values so that the readable\r | |
265 | # GUID name can be translated.\r | |
266 | #\r | |
267 | # @param self The object pointer\r | |
268 | # @param Wa Workspace context information\r | |
269 | #\r | |
270 | def __init__(self, Wa):\r | |
271 | self._GuidDb = {}\r | |
272 | for Pa in Wa.AutoGenObjectList:\r | |
273 | for Package in Pa.PackageList:\r | |
274 | for Protocol in Package.Protocols:\r | |
275 | GuidValue = GuidStructureStringToGuidString(Package.Protocols[Protocol])\r | |
276 | self._GuidDb[GuidValue.upper()] = Protocol\r | |
277 | for Ppi in Package.Ppis:\r | |
278 | GuidValue = GuidStructureStringToGuidString(Package.Ppis[Ppi])\r | |
279 | self._GuidDb[GuidValue.upper()] = Ppi\r | |
280 | for Guid in Package.Guids:\r | |
281 | GuidValue = GuidStructureStringToGuidString(Package.Guids[Guid])\r | |
282 | self._GuidDb[GuidValue.upper()] = Guid\r | |
283 | \r | |
284 | ##\r | |
285 | # Parse the binary dependency expression files.\r | |
286 | # \r | |
287 | # This function parses the binary dependency expression file and translate it\r | |
288 | # to the instruction list.\r | |
289 | #\r | |
290 | # @param self The object pointer\r | |
291 | # @param DepexFileName The file name of binary dependency expression file.\r | |
292 | #\r | |
293 | def ParseDepexFile(self, DepexFileName):\r | |
294 | DepexFile = open(DepexFileName, "rb")\r | |
295 | DepexStatement = []\r | |
296 | OpCode = DepexFile.read(1)\r | |
297 | while OpCode:\r | |
298 | Statement = gOpCodeList[struct.unpack("B", OpCode)[0]]\r | |
299 | if Statement in ["BEFORE", "AFTER", "PUSH"]:\r | |
300 | GuidValue = "%08X-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X" % \\r | |
301 | struct.unpack("=LHHBBBBBBBB", DepexFile.read(16))\r | |
302 | GuidString = self._GuidDb.get(GuidValue, GuidValue)\r | |
303 | Statement = "%s %s" % (Statement, GuidString)\r | |
304 | DepexStatement.append(Statement)\r | |
305 | OpCode = DepexFile.read(1)\r | |
306 | \r | |
307 | return DepexStatement\r | |
308 | \r | |
309 | ##\r | |
310 | # Reports library information\r | |
311 | #\r | |
312 | # This class reports the module library subsection in the build report file.\r | |
313 | #\r | |
314 | class LibraryReport(object):\r | |
315 | ##\r | |
316 | # Constructor function for class LibraryReport\r | |
317 | #\r | |
318 | # This constructor function generates LibraryReport object for\r | |
319 | # a module.\r | |
320 | #\r | |
321 | # @param self The object pointer\r | |
322 | # @param M Module context information\r | |
323 | #\r | |
324 | def __init__(self, M):\r | |
325 | self.LibraryList = []\r | |
326 | if int(str(M.AutoGenVersion), 0) >= 0x00010005:\r | |
327 | self._EdkIIModule = True\r | |
328 | else:\r | |
329 | self._EdkIIModule = False\r | |
330 | \r | |
331 | for Lib in M.DependentLibraryList:\r | |
332 | LibInfPath = str(Lib)\r | |
333 | LibClassList = Lib.LibraryClass[0].LibraryClass\r | |
334 | LibConstructorList = Lib.ConstructorList\r | |
335 | LibDesstructorList = Lib.DestructorList\r | |
336 | LibDepexList = Lib.DepexExpression[M.Arch, M.ModuleType]\r | |
337 | for LibAutoGen in M.LibraryAutoGenList:\r | |
338 | if LibInfPath == LibAutoGen.MetaFile.Path:\r | |
339 | LibTime = LibAutoGen.BuildTime\r | |
340 | break\r | |
341 | self.LibraryList.append((LibInfPath, LibClassList, LibConstructorList, LibDesstructorList, LibDepexList, LibTime))\r | |
342 | \r | |
343 | ##\r | |
344 | # Generate report for module library information\r | |
345 | #\r | |
346 | # This function generates report for the module library.\r | |
347 | # If the module is EDKII style one, the additional library class, library\r | |
348 | # constructor/destructor and dependency expression may also be reported.\r | |
349 | #\r | |
350 | # @param self The object pointer\r | |
351 | # @param File The file object for report\r | |
352 | #\r | |
353 | def GenerateReport(self, File):\r | |
354 | if len(self.LibraryList) > 0:\r | |
355 | FileWrite(File, gSubSectionStart)\r | |
356 | FileWrite(File, TAB_BRG_LIBRARY)\r | |
357 | FileWrite(File, gSubSectionSep)\r | |
358 | for LibraryItem in self.LibraryList:\r | |
359 | LibInfPath = LibraryItem[0]\r | |
360 | FileWrite(File, LibInfPath)\r | |
361 | \r | |
362 | #\r | |
363 | # Report library class, library constructor and destructor for\r | |
364 | # EDKII style module.\r | |
365 | #\r | |
366 | if self._EdkIIModule:\r | |
367 | LibClass = LibraryItem[1]\r | |
368 | EdkIILibInfo = ""\r | |
369 | LibConstructor = " ".join(LibraryItem[2])\r | |
370 | if LibConstructor:\r | |
371 | EdkIILibInfo += " C = " + LibConstructor\r | |
372 | LibDestructor = " ".join(LibraryItem[3])\r | |
373 | if LibDestructor:\r | |
374 | EdkIILibInfo += " D = " + LibDestructor\r | |
375 | LibDepex = " ".join(LibraryItem[4])\r | |
376 | if LibDepex:\r | |
377 | EdkIILibInfo += " Depex = " + LibDepex\r | |
378 | if LibraryItem[5]:\r | |
379 | EdkIILibInfo += " Time = " + LibraryItem[5]\r | |
380 | if EdkIILibInfo:\r | |
381 | FileWrite(File, "{%s: %s}" % (LibClass, EdkIILibInfo))\r | |
382 | else:\r | |
383 | FileWrite(File, "{%s}" % LibClass)\r | |
384 | \r | |
385 | FileWrite(File, gSubSectionEnd)\r | |
386 | \r | |
387 | ##\r | |
388 | # Reports dependency expression information\r | |
389 | #\r | |
390 | # This class reports the module dependency expression subsection in the build report file.\r | |
391 | #\r | |
392 | class DepexReport(object):\r | |
393 | ##\r | |
394 | # Constructor function for class DepexReport\r | |
395 | #\r | |
396 | # This constructor function generates DepexReport object for\r | |
397 | # a module. If the module source contains the DXS file (usually EDK\r | |
398 | # style module), it uses the dependency in DXS file; otherwise,\r | |
399 | # it uses the dependency expression from its own INF [Depex] section\r | |
400 | # and then merges with the ones from its dependent library INF.\r | |
401 | #\r | |
402 | # @param self The object pointer\r | |
403 | # @param M Module context information\r | |
404 | #\r | |
405 | def __init__(self, M):\r | |
406 | self.Depex = ""\r | |
407 | self._DepexFileName = os.path.join(M.BuildDir, "OUTPUT", M.Module.BaseName + ".depex")\r | |
408 | ModuleType = M.ModuleType\r | |
409 | if not ModuleType:\r | |
410 | ModuleType = gComponentType2ModuleType.get(M.ComponentType, "")\r | |
411 | \r | |
412 | if ModuleType in ["SEC", "PEI_CORE", "DXE_CORE", "SMM_CORE", "MM_CORE_STANDALONE", "UEFI_APPLICATION"]:\r | |
413 | return\r | |
414 | \r | |
415 | for Source in M.SourceFileList:\r | |
416 | if os.path.splitext(Source.Path)[1].lower() == ".dxs":\r | |
417 | Match = gDxsDependencyPattern.search(open(Source.Path).read())\r | |
418 | if Match:\r | |
419 | self.Depex = Match.group(1).strip()\r | |
420 | self.Source = "DXS"\r | |
421 | break\r | |
422 | else:\r | |
423 | self.Depex = M.DepexExpressionList.get(M.ModuleType, "")\r | |
424 | self.ModuleDepex = " ".join(M.Module.DepexExpression[M.Arch, M.ModuleType])\r | |
425 | if not self.ModuleDepex:\r | |
426 | self.ModuleDepex = "(None)"\r | |
427 | \r | |
428 | LibDepexList = []\r | |
429 | for Lib in M.DependentLibraryList:\r | |
430 | LibDepex = " ".join(Lib.DepexExpression[M.Arch, M.ModuleType]).strip()\r | |
431 | if LibDepex != "":\r | |
432 | LibDepexList.append("(" + LibDepex + ")")\r | |
433 | self.LibraryDepex = " AND ".join(LibDepexList)\r | |
434 | if not self.LibraryDepex:\r | |
435 | self.LibraryDepex = "(None)"\r | |
436 | self.Source = "INF"\r | |
437 | \r | |
438 | ##\r | |
439 | # Generate report for module dependency expression information\r | |
440 | #\r | |
441 | # This function generates report for the module dependency expression.\r | |
442 | #\r | |
443 | # @param self The object pointer\r | |
444 | # @param File The file object for report\r | |
445 | # @param GlobalDepexParser The platform global Dependency expression parser object\r | |
446 | #\r | |
447 | def GenerateReport(self, File, GlobalDepexParser):\r | |
448 | if not self.Depex:\r | |
449 | return\r | |
450 | FileWrite(File, gSubSectionStart)\r | |
451 | if os.path.isfile(self._DepexFileName):\r | |
452 | try:\r | |
453 | DepexStatements = GlobalDepexParser.ParseDepexFile(self._DepexFileName)\r | |
454 | FileWrite(File, "Final Dependency Expression (DEPEX) Instructions")\r | |
455 | for DepexStatement in DepexStatements:\r | |
456 | FileWrite(File, " %s" % DepexStatement)\r | |
457 | FileWrite(File, gSubSectionSep)\r | |
458 | except:\r | |
459 | EdkLogger.warn(None, "Dependency expression file is corrupted", self._DepexFileName)\r | |
460 | \r | |
461 | FileWrite(File, "Dependency Expression (DEPEX) from %s" % self.Source)\r | |
462 | \r | |
463 | if self.Source == "INF":\r | |
464 | FileWrite(File, "%s" % self.Depex, True)\r | |
465 | FileWrite(File, gSubSectionSep)\r | |
466 | FileWrite(File, "From Module INF: %s" % self.ModuleDepex, True)\r | |
467 | FileWrite(File, "From Library INF: %s" % self.LibraryDepex, True)\r | |
468 | else:\r | |
469 | FileWrite(File, "%s" % self.Depex)\r | |
470 | FileWrite(File, gSubSectionEnd)\r | |
471 | \r | |
472 | ##\r | |
473 | # Reports dependency expression information\r | |
474 | #\r | |
475 | # This class reports the module build flags subsection in the build report file.\r | |
476 | #\r | |
477 | class BuildFlagsReport(object):\r | |
478 | ##\r | |
479 | # Constructor function for class BuildFlagsReport\r | |
480 | #\r | |
481 | # This constructor function generates BuildFlagsReport object for\r | |
482 | # a module. It reports the build tool chain tag and all relevant\r | |
483 | # build flags to build the module.\r | |
484 | #\r | |
485 | # @param self The object pointer\r | |
486 | # @param M Module context information\r | |
487 | #\r | |
488 | def __init__(self, M):\r | |
489 | BuildOptions = {}\r | |
490 | #\r | |
491 | # Add build flags according to source file extension so that\r | |
492 | # irrelevant ones can be filtered out.\r | |
493 | #\r | |
494 | for Source in M.SourceFileList:\r | |
495 | Ext = os.path.splitext(Source.File)[1].lower()\r | |
496 | if Ext in [".c", ".cc", ".cpp"]:\r | |
497 | BuildOptions["CC"] = 1\r | |
498 | elif Ext in [".s", ".asm"]:\r | |
499 | BuildOptions["PP"] = 1\r | |
500 | BuildOptions["ASM"] = 1\r | |
501 | elif Ext in [".vfr"]:\r | |
502 | BuildOptions["VFRPP"] = 1\r | |
503 | BuildOptions["VFR"] = 1\r | |
504 | elif Ext in [".dxs"]:\r | |
505 | BuildOptions["APP"] = 1\r | |
506 | BuildOptions["CC"] = 1\r | |
507 | elif Ext in [".asl"]:\r | |
508 | BuildOptions["ASLPP"] = 1\r | |
509 | BuildOptions["ASL"] = 1\r | |
510 | elif Ext in [".aslc"]:\r | |
511 | BuildOptions["ASLCC"] = 1\r | |
512 | BuildOptions["ASLDLINK"] = 1\r | |
513 | BuildOptions["CC"] = 1\r | |
514 | elif Ext in [".asm16"]:\r | |
515 | BuildOptions["ASMLINK"] = 1\r | |
516 | BuildOptions["SLINK"] = 1\r | |
517 | BuildOptions["DLINK"] = 1\r | |
518 | \r | |
519 | #\r | |
520 | # Save module build flags.\r | |
521 | #\r | |
522 | self.ToolChainTag = M.ToolChain\r | |
523 | self.BuildFlags = {}\r | |
524 | for Tool in BuildOptions:\r | |
525 | self.BuildFlags[Tool + "_FLAGS"] = M.BuildOption.get(Tool, {}).get("FLAGS", "")\r | |
526 | \r | |
527 | ##\r | |
528 | # Generate report for module build flags information\r | |
529 | #\r | |
530 | # This function generates report for the module build flags expression.\r | |
531 | #\r | |
532 | # @param self The object pointer\r | |
533 | # @param File The file object for report\r | |
534 | #\r | |
535 | def GenerateReport(self, File):\r | |
536 | FileWrite(File, gSubSectionStart)\r | |
537 | FileWrite(File, "Build Flags")\r | |
538 | FileWrite(File, "Tool Chain Tag: %s" % self.ToolChainTag)\r | |
539 | for Tool in self.BuildFlags:\r | |
540 | FileWrite(File, gSubSectionSep)\r | |
541 | FileWrite(File, "%s = %s" % (Tool, self.BuildFlags[Tool]), True)\r | |
542 | \r | |
543 | FileWrite(File, gSubSectionEnd)\r | |
544 | \r | |
545 | \r | |
546 | ##\r | |
547 | # Reports individual module information\r | |
548 | #\r | |
549 | # This class reports the module section in the build report file.\r | |
550 | # It comprises of module summary, module PCD, library, dependency expression,\r | |
551 | # build flags sections.\r | |
552 | #\r | |
553 | class ModuleReport(object):\r | |
554 | ##\r | |
555 | # Constructor function for class ModuleReport\r | |
556 | #\r | |
557 | # This constructor function generates ModuleReport object for\r | |
558 | # a separate module in a platform build.\r | |
559 | #\r | |
560 | # @param self The object pointer\r | |
561 | # @param M Module context information\r | |
562 | # @param ReportType The kind of report items in the final report file\r | |
563 | #\r | |
564 | def __init__(self, M, ReportType):\r | |
565 | self.ModuleName = M.Module.BaseName\r | |
566 | self.ModuleInfPath = M.MetaFile.File\r | |
567 | self.FileGuid = M.Guid\r | |
568 | self.Size = 0\r | |
569 | self.BuildTimeStamp = None\r | |
570 | self.Hash = 0\r | |
571 | self.DriverType = ""\r | |
572 | if not M.IsLibrary:\r | |
573 | ModuleType = M.ModuleType\r | |
574 | if not ModuleType:\r | |
575 | ModuleType = gComponentType2ModuleType.get(M.ComponentType, "")\r | |
576 | #\r | |
577 | # If a module complies to PI 1.1, promote Module type to "SMM_DRIVER"\r | |
578 | #\r | |
579 | if ModuleType == "DXE_SMM_DRIVER":\r | |
580 | PiSpec = M.Module.Specification.get("PI_SPECIFICATION_VERSION", "0x00010000")\r | |
581 | if int(PiSpec, 0) >= 0x0001000A:\r | |
582 | ModuleType = "SMM_DRIVER"\r | |
583 | self.DriverType = gDriverTypeMap.get(ModuleType, "0x2 (FREE_FORM)")\r | |
584 | self.UefiSpecVersion = M.Module.Specification.get("UEFI_SPECIFICATION_VERSION", "")\r | |
585 | self.PiSpecVersion = M.Module.Specification.get("PI_SPECIFICATION_VERSION", "")\r | |
586 | self.PciDeviceId = M.Module.Defines.get("PCI_DEVICE_ID", "")\r | |
587 | self.PciVendorId = M.Module.Defines.get("PCI_VENDOR_ID", "")\r | |
588 | self.PciClassCode = M.Module.Defines.get("PCI_CLASS_CODE", "")\r | |
589 | self.BuildTime = M.BuildTime\r | |
590 | \r | |
591 | self._BuildDir = M.BuildDir\r | |
592 | self.ModulePcdSet = {}\r | |
593 | if "PCD" in ReportType:\r | |
594 | #\r | |
595 | # Collect all module used PCD set: module INF referenced directly or indirectly.\r | |
596 | # It also saves module INF default values of them in case they exist.\r | |
597 | #\r | |
598 | for Pcd in M.ModulePcdList + M.LibraryPcdList:\r | |
599 | self.ModulePcdSet.setdefault((Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Pcd.Type), (Pcd.InfDefaultValue, Pcd.DefaultValue))\r | |
600 | \r | |
601 | self.LibraryReport = None\r | |
602 | if "LIBRARY" in ReportType:\r | |
603 | self.LibraryReport = LibraryReport(M)\r | |
604 | \r | |
605 | self.DepexReport = None\r | |
606 | if "DEPEX" in ReportType:\r | |
607 | self.DepexReport = DepexReport(M)\r | |
608 | \r | |
609 | if "BUILD_FLAGS" in ReportType:\r | |
610 | self.BuildFlagsReport = BuildFlagsReport(M)\r | |
611 | \r | |
612 | \r | |
613 | ##\r | |
614 | # Generate report for module information\r | |
615 | #\r | |
616 | # This function generates report for separate module expression\r | |
617 | # in a platform build.\r | |
618 | #\r | |
619 | # @param self The object pointer\r | |
620 | # @param File The file object for report\r | |
621 | # @param GlobalPcdReport The platform global PCD report object\r | |
622 | # @param GlobalPredictionReport The platform global Prediction report object\r | |
623 | # @param GlobalDepexParser The platform global Dependency expression parser object\r | |
624 | # @param ReportType The kind of report items in the final report file\r | |
625 | #\r | |
626 | def GenerateReport(self, File, GlobalPcdReport, GlobalPredictionReport, GlobalDepexParser, ReportType):\r | |
627 | FileWrite(File, gSectionStart)\r | |
628 | \r | |
629 | FwReportFileName = os.path.join(self._BuildDir, "DEBUG", self.ModuleName + ".txt")\r | |
630 | if os.path.isfile(FwReportFileName):\r | |
631 | try:\r | |
632 | FileContents = open(FwReportFileName).read()\r | |
633 | Match = gModuleSizePattern.search(FileContents)\r | |
634 | if Match:\r | |
635 | self.Size = int(Match.group(1))\r | |
636 | \r | |
637 | Match = gTimeStampPattern.search(FileContents)\r | |
638 | if Match:\r | |
639 | self.BuildTimeStamp = datetime.fromtimestamp(int(Match.group(1)))\r | |
640 | except IOError:\r | |
641 | EdkLogger.warn(None, "Fail to read report file", FwReportFileName)\r | |
642 | \r | |
643 | if "HASH" in ReportType:\r | |
644 | OutputDir = os.path.join(self._BuildDir, "OUTPUT")\r | |
645 | DefaultEFIfile = os.path.join(OutputDir, self.ModuleName + ".efi")\r | |
646 | if os.path.isfile(DefaultEFIfile):\r | |
647 | Tempfile = os.path.join(OutputDir, self.ModuleName + "_hash.tmp")\r | |
648 | # rebase the efi image since its base address may not zero\r | |
649 | cmd = ["GenFw", "--rebase", str(0), "-o", Tempfile, DefaultEFIfile]\r | |
650 | try:\r | |
651 | PopenObject = subprocess.Popen(' '.join(cmd), stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=True)\r | |
652 | except Exception, X:\r | |
653 | EdkLogger.error("GenFw", COMMAND_FAILURE, ExtraData="%s: %s" % (str(X), cmd[0]))\r | |
654 | EndOfProcedure = threading.Event()\r | |
655 | EndOfProcedure.clear()\r | |
656 | if PopenObject.stderr:\r | |
657 | StdErrThread = threading.Thread(target=ReadMessage, args=(PopenObject.stderr, EdkLogger.quiet, EndOfProcedure))\r | |
658 | StdErrThread.setName("STDERR-Redirector")\r | |
659 | StdErrThread.setDaemon(False)\r | |
660 | StdErrThread.start()\r | |
661 | # waiting for program exit\r | |
662 | PopenObject.wait()\r | |
663 | if PopenObject.stderr:\r | |
664 | StdErrThread.join()\r | |
665 | if PopenObject.returncode != 0:\r | |
666 | EdkLogger.error("GenFw", COMMAND_FAILURE, "Failed to generate firmware hash image for %s" % (DefaultEFIfile))\r | |
667 | if os.path.isfile(Tempfile):\r | |
668 | self.Hash = hashlib.sha1()\r | |
669 | buf = open(Tempfile, 'rb').read()\r | |
670 | if self.Hash.update(buf):\r | |
671 | self.Hash = self.Hash.update(buf)\r | |
672 | self.Hash = self.Hash.hexdigest()\r | |
673 | os.remove(Tempfile)\r | |
674 | \r | |
675 | FileWrite(File, "Module Summary")\r | |
676 | FileWrite(File, "Module Name: %s" % self.ModuleName)\r | |
677 | FileWrite(File, "Module INF Path: %s" % self.ModuleInfPath)\r | |
678 | FileWrite(File, "File GUID: %s" % self.FileGuid)\r | |
679 | if self.Size:\r | |
680 | FileWrite(File, "Size: 0x%X (%.2fK)" % (self.Size, self.Size / 1024.0))\r | |
681 | if self.Hash:\r | |
682 | FileWrite(File, "SHA1 HASH: %s *%s" % (self.Hash, self.ModuleName + ".efi"))\r | |
683 | if self.BuildTimeStamp:\r | |
684 | FileWrite(File, "Build Time Stamp: %s" % self.BuildTimeStamp)\r | |
685 | if self.BuildTime:\r | |
686 | FileWrite(File, "Module Build Time: %s" % self.BuildTime)\r | |
687 | if self.DriverType:\r | |
688 | FileWrite(File, "Driver Type: %s" % self.DriverType)\r | |
689 | if self.UefiSpecVersion:\r | |
690 | FileWrite(File, "UEFI Spec Version: %s" % self.UefiSpecVersion)\r | |
691 | if self.PiSpecVersion:\r | |
692 | FileWrite(File, "PI Spec Version: %s" % self.PiSpecVersion)\r | |
693 | if self.PciDeviceId:\r | |
694 | FileWrite(File, "PCI Device ID: %s" % self.PciDeviceId)\r | |
695 | if self.PciVendorId:\r | |
696 | FileWrite(File, "PCI Vendor ID: %s" % self.PciVendorId)\r | |
697 | if self.PciClassCode:\r | |
698 | FileWrite(File, "PCI Class Code: %s" % self.PciClassCode)\r | |
699 | \r | |
700 | FileWrite(File, gSectionSep)\r | |
701 | \r | |
702 | if "PCD" in ReportType:\r | |
703 | GlobalPcdReport.GenerateReport(File, self.ModulePcdSet)\r | |
704 | \r | |
705 | if "LIBRARY" in ReportType:\r | |
706 | self.LibraryReport.GenerateReport(File)\r | |
707 | \r | |
708 | if "DEPEX" in ReportType:\r | |
709 | self.DepexReport.GenerateReport(File, GlobalDepexParser)\r | |
710 | \r | |
711 | if "BUILD_FLAGS" in ReportType:\r | |
712 | self.BuildFlagsReport.GenerateReport(File)\r | |
713 | \r | |
714 | if "FIXED_ADDRESS" in ReportType and self.FileGuid:\r | |
715 | GlobalPredictionReport.GenerateReport(File, self.FileGuid)\r | |
716 | \r | |
717 | FileWrite(File, gSectionEnd)\r | |
718 | \r | |
719 | def ReadMessage(From, To, ExitFlag):\r | |
720 | while True:\r | |
721 | # read one line a time\r | |
722 | Line = From.readline()\r | |
723 | # empty string means "end"\r | |
724 | if Line != None and Line != "":\r | |
725 | To(Line.rstrip())\r | |
726 | else:\r | |
727 | break\r | |
728 | if ExitFlag.isSet():\r | |
729 | break\r | |
730 | \r | |
731 | ##\r | |
732 | # Reports platform and module PCD information\r | |
733 | #\r | |
734 | # This class reports the platform PCD section and module PCD subsection\r | |
735 | # in the build report file.\r | |
736 | #\r | |
737 | class PcdReport(object):\r | |
738 | ##\r | |
739 | # Constructor function for class PcdReport\r | |
740 | #\r | |
741 | # This constructor function generates PcdReport object a platform build.\r | |
742 | # It collects the whole PCD database from platform DSC files, platform\r | |
743 | # flash description file and package DEC files.\r | |
744 | #\r | |
745 | # @param self The object pointer\r | |
746 | # @param Wa Workspace context information\r | |
747 | #\r | |
748 | def __init__(self, Wa):\r | |
749 | self.AllPcds = {}\r | |
750 | self.UnusedPcds = {}\r | |
751 | self.ConditionalPcds = {}\r | |
752 | self.MaxLen = 0\r | |
753 | self.Arch = None\r | |
754 | if Wa.FdfProfile:\r | |
755 | self.FdfPcdSet = Wa.FdfProfile.PcdDict\r | |
756 | else:\r | |
757 | self.FdfPcdSet = {}\r | |
758 | \r | |
759 | self.DefaultStoreSingle = True\r | |
760 | self.SkuSingle = True\r | |
761 | if GlobalData.gDefaultStores and len(GlobalData.gDefaultStores) > 1:\r | |
762 | self.DefaultStoreSingle = False\r | |
763 | if GlobalData.gSkuids and len(GlobalData.gSkuids) > 1:\r | |
764 | self.SkuSingle = False\r | |
765 | \r | |
766 | self.ModulePcdOverride = {}\r | |
767 | for Pa in Wa.AutoGenObjectList:\r | |
768 | self.Arch = Pa.Arch\r | |
769 | #\r | |
770 | # Collect all platform referenced PCDs and grouped them by PCD token space\r | |
771 | # GUID C Names\r | |
772 | #\r | |
773 | for Pcd in Pa.AllPcdList:\r | |
774 | PcdList = self.AllPcds.setdefault(Pcd.TokenSpaceGuidCName, {}).setdefault(Pcd.Type, [])\r | |
775 | if Pcd not in PcdList:\r | |
776 | PcdList.append(Pcd)\r | |
777 | if len(Pcd.TokenCName) > self.MaxLen:\r | |
778 | self.MaxLen = len(Pcd.TokenCName)\r | |
779 | #\r | |
780 | # Collect the PCD defined in DSC/FDF file, but not used in module\r | |
781 | #\r | |
782 | UnusedPcdFullList = []\r | |
783 | for item in Pa.Platform.Pcds:\r | |
784 | Pcd = Pa.Platform.Pcds[item]\r | |
785 | if not Pcd.Type:\r | |
786 | # check the Pcd in FDF file, whether it is used in module first\r | |
787 | for T in ["FixedAtBuild", "PatchableInModule", "FeatureFlag", "Dynamic", "DynamicEx"]:\r | |
788 | PcdList = self.AllPcds.setdefault(Pcd.TokenSpaceGuidCName, {}).setdefault(T, [])\r | |
789 | if Pcd in PcdList:\r | |
790 | Pcd.Type = T\r | |
791 | break\r | |
792 | if not Pcd.Type:\r | |
793 | PcdTypeFlag = False\r | |
794 | for package in Pa.PackageList:\r | |
795 | for T in ["FixedAtBuild", "PatchableInModule", "FeatureFlag", "Dynamic", "DynamicEx"]:\r | |
796 | if (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, T) in package.Pcds:\r | |
797 | Pcd.Type = T\r | |
798 | PcdTypeFlag = True\r | |
799 | if not Pcd.DatumType:\r | |
800 | Pcd.DatumType = package.Pcds[(Pcd.TokenCName, Pcd.TokenSpaceGuidCName, T)].DatumType\r | |
801 | break\r | |
802 | if PcdTypeFlag:\r | |
803 | break\r | |
804 | if not Pcd.DatumType:\r | |
805 | PcdType = Pcd.Type\r | |
806 | # Try to remove Hii and Vpd suffix\r | |
807 | if PcdType.startswith("DynamicEx"):\r | |
808 | PcdType = "DynamicEx"\r | |
809 | elif PcdType.startswith("Dynamic"):\r | |
810 | PcdType = "Dynamic"\r | |
811 | for package in Pa.PackageList:\r | |
812 | if (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, PcdType) in package.Pcds:\r | |
813 | Pcd.DatumType = package.Pcds[(Pcd.TokenCName, Pcd.TokenSpaceGuidCName, PcdType)].DatumType\r | |
814 | break\r | |
815 | \r | |
816 | PcdList = self.AllPcds.setdefault(Pcd.TokenSpaceGuidCName, {}).setdefault(Pcd.Type, [])\r | |
817 | if Pcd not in PcdList and Pcd not in UnusedPcdFullList:\r | |
818 | UnusedPcdFullList.append(Pcd)\r | |
819 | if len(Pcd.TokenCName) > self.MaxLen:\r | |
820 | self.MaxLen = len(Pcd.TokenCName)\r | |
821 | \r | |
822 | if GlobalData.gConditionalPcds:\r | |
823 | for PcdItem in GlobalData.gConditionalPcds:\r | |
824 | if '.' in PcdItem:\r | |
825 | (TokenSpaceGuidCName, TokenCName) = PcdItem.split('.')\r | |
826 | if (TokenCName, TokenSpaceGuidCName) in Pa.Platform.Pcds.keys():\r | |
827 | Pcd = Pa.Platform.Pcds[(TokenCName, TokenSpaceGuidCName)]\r | |
828 | PcdList = self.ConditionalPcds.setdefault(Pcd.TokenSpaceGuidCName, {}).setdefault(Pcd.Type, [])\r | |
829 | if Pcd not in PcdList:\r | |
830 | PcdList.append(Pcd)\r | |
831 | \r | |
832 | UnusedPcdList = []\r | |
833 | if UnusedPcdFullList:\r | |
834 | for Pcd in UnusedPcdFullList:\r | |
835 | if Pcd.TokenSpaceGuidCName + '.' + Pcd.TokenCName in GlobalData.gConditionalPcds:\r | |
836 | continue\r | |
837 | UnusedPcdList.append(Pcd)\r | |
838 | \r | |
839 | for Pcd in UnusedPcdList:\r | |
840 | PcdList = self.UnusedPcds.setdefault(Pcd.TokenSpaceGuidCName, {}).setdefault(Pcd.Type, [])\r | |
841 | if Pcd not in PcdList:\r | |
842 | PcdList.append(Pcd)\r | |
843 | \r | |
844 | for Module in Pa.Platform.Modules.values():\r | |
845 | #\r | |
846 | # Collect module override PCDs\r | |
847 | #\r | |
848 | for ModulePcd in Module.M.ModulePcdList + Module.M.LibraryPcdList:\r | |
849 | TokenCName = ModulePcd.TokenCName\r | |
850 | TokenSpaceGuid = ModulePcd.TokenSpaceGuidCName\r | |
851 | ModuleDefault = ModulePcd.DefaultValue\r | |
852 | ModulePath = os.path.basename(Module.M.MetaFile.File)\r | |
853 | self.ModulePcdOverride.setdefault((TokenCName, TokenSpaceGuid), {})[ModulePath] = ModuleDefault\r | |
854 | \r | |
855 | \r | |
856 | #\r | |
857 | # Collect PCD DEC default value.\r | |
858 | #\r | |
859 | self.DecPcdDefault = {}\r | |
860 | self._GuidDict = {}\r | |
861 | for Pa in Wa.AutoGenObjectList:\r | |
862 | for Package in Pa.PackageList:\r | |
863 | Guids = Package.Guids\r | |
864 | self._GuidDict.update(Guids)\r | |
865 | for (TokenCName, TokenSpaceGuidCName, DecType) in Package.Pcds:\r | |
866 | DecDefaultValue = Package.Pcds[TokenCName, TokenSpaceGuidCName, DecType].DefaultValue\r | |
867 | self.DecPcdDefault.setdefault((TokenCName, TokenSpaceGuidCName, DecType), DecDefaultValue)\r | |
868 | #\r | |
869 | # Collect PCDs defined in DSC common section\r | |
870 | #\r | |
871 | self.DscPcdDefault = {}\r | |
872 | for Pa in Wa.AutoGenObjectList:\r | |
873 | for (TokenCName, TokenSpaceGuidCName) in Pa.Platform.Pcds:\r | |
874 | DscDefaultValue = Pa.Platform.Pcds[(TokenCName, TokenSpaceGuidCName)].DefaultValue\r | |
875 | if DscDefaultValue:\r | |
876 | self.DscPcdDefault[(TokenCName, TokenSpaceGuidCName)] = DscDefaultValue\r | |
877 | \r | |
878 | def GenerateReport(self, File, ModulePcdSet):\r | |
879 | if self.ConditionalPcds:\r | |
880 | self.GenerateReportDetail(File, ModulePcdSet, 1)\r | |
881 | if self.UnusedPcds:\r | |
882 | self.GenerateReportDetail(File, ModulePcdSet, 2)\r | |
883 | self.GenerateReportDetail(File, ModulePcdSet)\r | |
884 | \r | |
885 | ##\r | |
886 | # Generate report for PCD information\r | |
887 | #\r | |
888 | # This function generates report for separate module expression\r | |
889 | # in a platform build.\r | |
890 | #\r | |
891 | # @param self The object pointer\r | |
892 | # @param File The file object for report\r | |
893 | # @param ModulePcdSet Set of all PCDs referenced by module or None for\r | |
894 | # platform PCD report\r | |
895 | # @param ReportySubType 0 means platform/module PCD report, 1 means Conditional\r | |
896 | # directives section report, 2 means Unused Pcds section report\r | |
897 | # @param DscOverridePcds Module DSC override PCDs set\r | |
898 | #\r | |
899 | def GenerateReportDetail(self, File, ModulePcdSet, ReportSubType = 0):\r | |
900 | PcdDict = self.AllPcds\r | |
901 | if ReportSubType == 1:\r | |
902 | PcdDict = self.ConditionalPcds\r | |
903 | elif ReportSubType == 2:\r | |
904 | PcdDict = self.UnusedPcds\r | |
905 | \r | |
906 | if ModulePcdSet == None:\r | |
907 | FileWrite(File, gSectionStart)\r | |
908 | if ReportSubType == 1:\r | |
909 | FileWrite(File, "Conditional Directives used by the build system")\r | |
910 | elif ReportSubType == 2:\r | |
911 | FileWrite(File, "PCDs not used by modules or in conditional directives")\r | |
912 | else:\r | |
913 | FileWrite(File, "Platform Configuration Database Report")\r | |
914 | \r | |
915 | FileWrite(File, " *B - PCD override in the build option")\r | |
916 | FileWrite(File, " *P - Platform scoped PCD override in DSC file")\r | |
917 | FileWrite(File, " *F - Platform scoped PCD override in FDF file")\r | |
918 | if not ReportSubType:\r | |
919 | FileWrite(File, " *M - Module scoped PCD override")\r | |
920 | FileWrite(File, gSectionSep)\r | |
921 | else:\r | |
922 | if not ReportSubType and ModulePcdSet:\r | |
923 | #\r | |
924 | # For module PCD sub-section\r | |
925 | #\r | |
926 | FileWrite(File, gSubSectionStart)\r | |
927 | FileWrite(File, TAB_BRG_PCD)\r | |
928 | FileWrite(File, gSubSectionSep)\r | |
929 | \r | |
930 | for Key in PcdDict:\r | |
931 | #\r | |
932 | # Group PCD by their token space GUID C Name\r | |
933 | #\r | |
934 | First = True\r | |
935 | for Type in PcdDict[Key]:\r | |
936 | #\r | |
937 | # Group PCD by their usage type\r | |
938 | #\r | |
939 | TypeName, DecType = gPcdTypeMap.get(Type, ("", Type))\r | |
940 | for Pcd in PcdDict[Key][Type]:\r | |
941 | PcdTokenCName = Pcd.TokenCName\r | |
942 | MixedPcdFlag = False\r | |
943 | if GlobalData.MixedPcd:\r | |
944 | for PcdKey in GlobalData.MixedPcd:\r | |
945 | if (Pcd.TokenCName, Pcd.TokenSpaceGuidCName) in GlobalData.MixedPcd[PcdKey]:\r | |
946 | PcdTokenCName = PcdKey[0]\r | |
947 | MixedPcdFlag = True\r | |
948 | if MixedPcdFlag and not ModulePcdSet:\r | |
949 | continue\r | |
950 | #\r | |
951 | # Get PCD default value and their override relationship\r | |
952 | #\r | |
953 | DecDefaultValue = self.DecPcdDefault.get((Pcd.TokenCName, Pcd.TokenSpaceGuidCName, DecType))\r | |
954 | DscDefaultValue = self.DscPcdDefault.get((Pcd.TokenCName, Pcd.TokenSpaceGuidCName))\r | |
955 | DscDefaultValBak= DscDefaultValue\r | |
956 | DscDefaultValue = self.FdfPcdSet.get((Pcd.TokenCName, Key), DscDefaultValue)\r | |
957 | if DscDefaultValue:\r | |
958 | DscDefaultValue = ValueExpressionEx(DscDefaultValue, Pcd.DatumType, self._GuidDict)(True)\r | |
959 | InfDefaultValue = None\r | |
960 | \r | |
961 | PcdValue = DecDefaultValue\r | |
962 | if DscDefaultValue:\r | |
963 | PcdValue = DscDefaultValue\r | |
964 | if ModulePcdSet != None:\r | |
965 | if (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Type) not in ModulePcdSet:\r | |
966 | continue\r | |
967 | InfDefault, PcdValue = ModulePcdSet[Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Type]\r | |
968 | if InfDefault == "":\r | |
969 | InfDefault = None\r | |
970 | \r | |
971 | BuildOptionMatch = False\r | |
972 | if GlobalData.BuildOptionPcd:\r | |
973 | for pcd in GlobalData.BuildOptionPcd:\r | |
974 | if (Pcd.TokenSpaceGuidCName, Pcd.TokenCName) == (pcd[0], pcd[1]):\r | |
975 | PcdValue = pcd[2]\r | |
976 | BuildOptionMatch = True\r | |
977 | break\r | |
978 | \r | |
979 | if First:\r | |
980 | if ModulePcdSet == None:\r | |
981 | FileWrite(File, "")\r | |
982 | FileWrite(File, Key)\r | |
983 | First = False\r | |
984 | \r | |
985 | \r | |
986 | if Pcd.DatumType in ('UINT8', 'UINT16', 'UINT32', 'UINT64'):\r | |
987 | PcdValueNumber = int(PcdValue.strip(), 0)\r | |
988 | if DecDefaultValue == None:\r | |
989 | DecMatch = True\r | |
990 | else:\r | |
991 | DecDefaultValueNumber = int(DecDefaultValue.strip(), 0)\r | |
992 | DecMatch = (DecDefaultValueNumber == PcdValueNumber)\r | |
993 | \r | |
994 | if InfDefaultValue == None:\r | |
995 | InfMatch = True\r | |
996 | else:\r | |
997 | InfDefaultValueNumber = int(InfDefaultValue.strip(), 0)\r | |
998 | InfMatch = (InfDefaultValueNumber == PcdValueNumber)\r | |
999 | \r | |
1000 | if DscDefaultValue == None:\r | |
1001 | DscMatch = True\r | |
1002 | else:\r | |
1003 | DscDefaultValueNumber = int(DscDefaultValue.strip(), 0)\r | |
1004 | DscMatch = (DscDefaultValueNumber == PcdValueNumber)\r | |
1005 | else:\r | |
1006 | if DecDefaultValue == None:\r | |
1007 | DecMatch = True\r | |
1008 | else:\r | |
1009 | DecMatch = (DecDefaultValue.strip() == PcdValue.strip())\r | |
1010 | \r | |
1011 | if InfDefaultValue == None:\r | |
1012 | InfMatch = True\r | |
1013 | else:\r | |
1014 | InfMatch = (InfDefaultValue.strip() == PcdValue.strip())\r | |
1015 | \r | |
1016 | if DscDefaultValue == None:\r | |
1017 | DscMatch = True\r | |
1018 | else:\r | |
1019 | DscMatch = (DscDefaultValue.strip() == PcdValue.strip())\r | |
1020 | \r | |
1021 | IsStructure = False\r | |
1022 | if GlobalData.gStructurePcd and (self.Arch in GlobalData.gStructurePcd.keys()) and ((Pcd.TokenCName, Pcd.TokenSpaceGuidCName) in GlobalData.gStructurePcd[self.Arch]):\r | |
1023 | IsStructure = True\r | |
1024 | if TypeName in ('DYNVPD', 'DEXVPD'):\r | |
1025 | SkuInfoList = Pcd.SkuInfoList\r | |
1026 | Pcd = GlobalData.gStructurePcd[self.Arch][(Pcd.TokenCName, Pcd.TokenSpaceGuidCName)]\r | |
1027 | Pcd.DatumType = Pcd.StructName\r | |
1028 | if TypeName in ('DYNVPD', 'DEXVPD'):\r | |
1029 | Pcd.SkuInfoList = SkuInfoList\r | |
1030 | if Pcd.SkuOverrideValues:\r | |
1031 | DscMatch = True\r | |
1032 | DecMatch = False\r | |
1033 | #\r | |
1034 | # Report PCD item according to their override relationship\r | |
1035 | #\r | |
1036 | if DecMatch and InfMatch:\r | |
1037 | self.PrintPcdValue(File, Pcd, PcdTokenCName, TypeName, IsStructure, DscMatch, DscDefaultValue, InfMatch, InfDefaultValue, DecMatch, DecDefaultValue, ' ')\r | |
1038 | elif BuildOptionMatch:\r | |
1039 | self.PrintPcdValue(File, Pcd, PcdTokenCName, TypeName, IsStructure, DscMatch, DscDefaultValue, InfMatch, InfDefaultValue, DecMatch, DecDefaultValue, '*B')\r | |
1040 | else:\r | |
1041 | if DscMatch:\r | |
1042 | if (Pcd.TokenCName, Key) in self.FdfPcdSet:\r | |
1043 | self.PrintPcdValue(File, Pcd, PcdTokenCName, TypeName, IsStructure, DscMatch, DscDefaultValue, InfMatch, InfDefaultValue, DecMatch, DecDefaultValue, '*F')\r | |
1044 | else:\r | |
1045 | self.PrintPcdValue(File, Pcd, PcdTokenCName, TypeName, IsStructure, DscMatch, DscDefaultValue, InfMatch, InfDefaultValue, DecMatch, DecDefaultValue, '*P')\r | |
1046 | else:\r | |
1047 | self.PrintPcdValue(File, Pcd, PcdTokenCName, TypeName, IsStructure, DscMatch, DscDefaultValue, InfMatch, InfDefaultValue, DecMatch, DecDefaultValue, '*M')\r | |
1048 | \r | |
1049 | if ModulePcdSet == None:\r | |
1050 | if IsStructure:\r | |
1051 | continue\r | |
1052 | if not TypeName in ('PATCH', 'FLAG', 'FIXED'):\r | |
1053 | continue\r | |
1054 | if not BuildOptionMatch:\r | |
1055 | ModuleOverride = self.ModulePcdOverride.get((Pcd.TokenCName, Pcd.TokenSpaceGuidCName), {})\r | |
1056 | for ModulePath in ModuleOverride:\r | |
1057 | ModuleDefault = ModuleOverride[ModulePath]\r | |
1058 | if Pcd.DatumType in ('UINT8', 'UINT16', 'UINT32', 'UINT64'):\r | |
1059 | ModulePcdDefaultValueNumber = int(ModuleDefault.strip(), 0)\r | |
1060 | Match = (ModulePcdDefaultValueNumber == PcdValueNumber)\r | |
1061 | else:\r | |
1062 | Match = (ModuleDefault.strip() == PcdValue.strip())\r | |
1063 | if Match:\r | |
1064 | continue\r | |
1065 | IsByteArray, ArrayList = ByteArrayForamt(ModuleDefault.strip())\r | |
1066 | if IsByteArray:\r | |
1067 | FileWrite(File, ' *M %-*s = %s' % (self.MaxLen + 19, ModulePath, '{'))\r | |
1068 | for Array in ArrayList:\r | |
1069 | FileWrite(File, '%s' % (Array))\r | |
1070 | else:\r | |
1071 | FileWrite(File, ' *M %-*s = %s' % (self.MaxLen + 19, ModulePath, ModuleDefault.strip()))\r | |
1072 | \r | |
1073 | if ModulePcdSet == None:\r | |
1074 | FileWrite(File, gSectionEnd)\r | |
1075 | else:\r | |
1076 | if not ReportSubType and ModulePcdSet:\r | |
1077 | FileWrite(File, gSubSectionEnd)\r | |
1078 | \r | |
1079 | \r | |
1080 | def PrintPcdDefault(self, File, Pcd, IsStructure, DscMatch, DscDefaultValue, InfMatch, InfDefaultValue, DecMatch, DecDefaultValue):\r | |
1081 | if not DscMatch and DscDefaultValue != None:\r | |
1082 | Value = DscDefaultValue.strip()\r | |
1083 | IsByteArray, ArrayList = ByteArrayForamt(Value)\r | |
1084 | if IsByteArray:\r | |
1085 | FileWrite(File, ' %*s = %s' % (self.MaxLen + 19, 'DSC DEFAULT', "{"))\r | |
1086 | for Array in ArrayList:\r | |
1087 | FileWrite(File, '%s' % (Array))\r | |
1088 | else:\r | |
1089 | FileWrite(File, ' %*s = %s' % (self.MaxLen + 19, 'DSC DEFAULT', Value))\r | |
1090 | if not InfMatch and InfDefaultValue != None:\r | |
1091 | Value = InfDefaultValue.strip()\r | |
1092 | IsByteArray, ArrayList = ByteArrayForamt(Value)\r | |
1093 | if IsByteArray:\r | |
1094 | FileWrite(File, ' %*s = %s' % (self.MaxLen + 19, 'INF DEFAULT', "{"))\r | |
1095 | for Array in ArrayList:\r | |
1096 | FileWrite(File, '%s' % (Array))\r | |
1097 | else:\r | |
1098 | FileWrite(File, ' %*s = %s' % (self.MaxLen + 19, 'INF DEFAULT', Value))\r | |
1099 | \r | |
1100 | if not DecMatch and DecDefaultValue != None:\r | |
1101 | Value = DecDefaultValue.strip()\r | |
1102 | IsByteArray, ArrayList = ByteArrayForamt(Value)\r | |
1103 | if IsByteArray:\r | |
1104 | FileWrite(File, ' %*s = %s' % (self.MaxLen + 19, 'DEC DEFAULT', "{"))\r | |
1105 | for Array in ArrayList:\r | |
1106 | FileWrite(File, '%s' % (Array))\r | |
1107 | else:\r | |
1108 | FileWrite(File, ' %*s = %s' % (self.MaxLen + 19, 'DEC DEFAULT', Value))\r | |
1109 | if IsStructure:\r | |
1110 | self.PrintStructureInfo(File, Pcd.DefaultValues)\r | |
1111 | \r | |
1112 | def PrintPcdValue(self, File, Pcd, PcdTokenCName, TypeName, IsStructure, DscMatch, DscDefaultValue, InfMatch, InfDefaultValue, DecMatch, DecDefaultValue, Flag = ' '):\r | |
1113 | if not Pcd.SkuInfoList:\r | |
1114 | Value = Pcd.DefaultValue\r | |
1115 | IsByteArray, ArrayList = ByteArrayForamt(Value)\r | |
1116 | if IsByteArray:\r | |
1117 | FileWrite(File, ' %-*s : %6s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', '{'))\r | |
1118 | for Array in ArrayList:\r | |
1119 | FileWrite(File, '%s' % (Array))\r | |
1120 | else:\r | |
1121 | FileWrite(File, ' %-*s : %6s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', Value))\r | |
1122 | if IsStructure:\r | |
1123 | OverrideValues = Pcd.SkuOverrideValues\r | |
1124 | if OverrideValues:\r | |
1125 | Keys = OverrideValues.keys()\r | |
1126 | Data = OverrideValues[Keys[0]]\r | |
1127 | Struct = Data.values()[0]\r | |
1128 | self.PrintStructureInfo(File, Struct)\r | |
1129 | self.PrintPcdDefault(File, Pcd, IsStructure, DscMatch, DscDefaultValue, InfMatch, InfDefaultValue, DecMatch, DecDefaultValue)\r | |
1130 | else:\r | |
1131 | FirstPrint = True\r | |
1132 | SkuList = sorted(Pcd.SkuInfoList.keys())\r | |
1133 | for Sku in SkuList:\r | |
1134 | SkuInfo = Pcd.SkuInfoList[Sku]\r | |
1135 | SkuIdName = SkuInfo.SkuIdName\r | |
1136 | if TypeName in ('DYNHII', 'DEXHII'):\r | |
1137 | if SkuInfo.DefaultStoreDict:\r | |
1138 | DefaultStoreList = sorted(SkuInfo.DefaultStoreDict.keys())\r | |
1139 | for DefaultStore in DefaultStoreList:\r | |
1140 | Value = SkuInfo.DefaultStoreDict[DefaultStore]\r | |
1141 | IsByteArray, ArrayList = ByteArrayForamt(Value)\r | |
1142 | if FirstPrint:\r | |
1143 | FirstPrint = False\r | |
1144 | if IsByteArray:\r | |
1145 | if self.DefaultStoreSingle and self.SkuSingle:\r | |
1146 | FileWrite(File, ' %-*s : %6s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', '{'))\r | |
1147 | elif self.DefaultStoreSingle and not self.SkuSingle:\r | |
1148 | FileWrite(File, ' %-*s : %6s %10s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', '(' + SkuIdName + ')', '{'))\r | |
1149 | elif not self.DefaultStoreSingle and self.SkuSingle:\r | |
1150 | FileWrite(File, ' %-*s : %6s %10s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', '(' + DefaultStore + ')', '{'))\r | |
1151 | else:\r | |
1152 | FileWrite(File, ' %-*s : %6s %10s %10s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', '(' + SkuIdName + ')', '(' + DefaultStore + ')', '{'))\r | |
1153 | for Array in ArrayList:\r | |
1154 | FileWrite(File, '%s' % (Array))\r | |
1155 | else:\r | |
1156 | if self.DefaultStoreSingle and self.SkuSingle:\r | |
1157 | FileWrite(File, ' %-*s : %6s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', Value))\r | |
1158 | elif self.DefaultStoreSingle and not self.SkuSingle:\r | |
1159 | FileWrite(File, ' %-*s : %6s %10s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', '(' + SkuIdName + ')', Value))\r | |
1160 | elif not self.DefaultStoreSingle and self.SkuSingle:\r | |
1161 | FileWrite(File, ' %-*s : %6s %10s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', '(' + DefaultStore + ')', Value))\r | |
1162 | else:\r | |
1163 | FileWrite(File, ' %-*s : %6s %10s %10s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', '(' + SkuIdName + ')', '(' + DefaultStore + ')', Value))\r | |
1164 | else:\r | |
1165 | if IsByteArray:\r | |
1166 | if self.DefaultStoreSingle and self.SkuSingle:\r | |
1167 | FileWrite(File, ' %-*s : %6s %10s = %s' % (self.MaxLen, ' ', TypeName, '(' + Pcd.DatumType + ')', '{'))\r | |
1168 | elif self.DefaultStoreSingle and not self.SkuSingle:\r | |
1169 | FileWrite(File, ' %-*s : %6s %10s %10s = %s' % (self.MaxLen, ' ', TypeName, '(' + Pcd.DatumType + ')', '(' + SkuIdName + ')', '{'))\r | |
1170 | elif not self.DefaultStoreSingle and self.SkuSingle:\r | |
1171 | FileWrite(File, ' %-*s : %6s %10s %10s = %s' % (self.MaxLen, ' ', TypeName, '(' + Pcd.DatumType + ')', '(' + DefaultStore + ')', '{'))\r | |
1172 | else:\r | |
1173 | FileWrite(File, ' %-*s : %6s %10s %10s %10s = %s' % (self.MaxLen, ' ', TypeName, '(' + Pcd.DatumType + ')', '(' + SkuIdName + ')', '(' + DefaultStore + ')', '{'))\r | |
1174 | for Array in ArrayList:\r | |
1175 | FileWrite(File, '%s' % (Array))\r | |
1176 | else:\r | |
1177 | if self.DefaultStoreSingle and self.SkuSingle:\r | |
1178 | FileWrite(File, ' %-*s : %6s %10s = %s' % (self.MaxLen, ' ', TypeName, '(' + Pcd.DatumType + ')', Value))\r | |
1179 | elif self.DefaultStoreSingle and not self.SkuSingle:\r | |
1180 | FileWrite(File, ' %-*s : %6s %10s %10s = %s' % (self.MaxLen, ' ', TypeName, '(' + Pcd.DatumType + ')', '(' + SkuIdName + ')', Value))\r | |
1181 | elif not self.DefaultStoreSingle and self.SkuSingle:\r | |
1182 | FileWrite(File, ' %-*s : %6s %10s %10s = %s' % (self.MaxLen, ' ', TypeName, '(' + Pcd.DatumType + ')', '(' + DefaultStore + ')', Value))\r | |
1183 | else:\r | |
1184 | FileWrite(File, ' %-*s : %6s %10s %10s %10s = %s' % (self.MaxLen, ' ', TypeName, '(' + Pcd.DatumType + ')', '(' + SkuIdName + ')', '(' + DefaultStore + ')', Value))\r | |
1185 | FileWrite(File, '%*s: %s: %s' % (self.MaxLen + 4, SkuInfo.VariableGuid, SkuInfo.VariableName, SkuInfo.VariableOffset))\r | |
1186 | if IsStructure:\r | |
1187 | OverrideValues = Pcd.SkuOverrideValues[Sku]\r | |
1188 | Struct = OverrideValues[DefaultStore]\r | |
1189 | self.PrintStructureInfo(File, Struct)\r | |
1190 | self.PrintPcdDefault(File, Pcd, IsStructure, DscMatch, DscDefaultValue, InfMatch, InfDefaultValue, DecMatch, DecDefaultValue)\r | |
1191 | else:\r | |
1192 | Value = SkuInfo.DefaultValue\r | |
1193 | IsByteArray, ArrayList = ByteArrayForamt(Value)\r | |
1194 | if FirstPrint:\r | |
1195 | FirstPrint = False\r | |
1196 | if IsByteArray:\r | |
1197 | if self.SkuSingle:\r | |
1198 | FileWrite(File, ' %-*s : %6s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', "{"))\r | |
1199 | else:\r | |
1200 | FileWrite(File, ' %-*s : %6s %10s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', '(' + SkuIdName + ')', "{"))\r | |
1201 | for Array in ArrayList:\r | |
1202 | FileWrite(File, '%s' % (Array))\r | |
1203 | else:\r | |
1204 | if self.SkuSingle:\r | |
1205 | FileWrite(File, ' %-*s : %6s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', Value))\r | |
1206 | else:\r | |
1207 | FileWrite(File, ' %-*s : %6s %10s %10s = %s' % (self.MaxLen, Flag + ' ' + PcdTokenCName, TypeName, '(' + Pcd.DatumType + ')', '(' + SkuIdName + ')', Value))\r | |
1208 | else:\r | |
1209 | if IsByteArray:\r | |
1210 | if self.SkuSingle:\r | |
1211 | FileWrite(File, ' %-*s : %6s %10s = %s' % (self.MaxLen, ' ' , TypeName, '(' + Pcd.DatumType + ')', "{"))\r | |
1212 | else:\r | |
1213 | FileWrite(File, ' %-*s : %6s %10s %10s = %s' % (self.MaxLen, ' ' , TypeName, '(' + Pcd.DatumType + ')', '(' + SkuIdName + ')', "{"))\r | |
1214 | for Array in ArrayList:\r | |
1215 | FileWrite(File, '%s' % (Array))\r | |
1216 | else:\r | |
1217 | if self.SkuSingle:\r | |
1218 | FileWrite(File, ' %-*s : %6s %10s = %s' % (self.MaxLen, ' ' , TypeName, '(' + Pcd.DatumType + ')', Value))\r | |
1219 | else:\r | |
1220 | FileWrite(File, ' %-*s : %6s %10s %10s = %s' % (self.MaxLen, ' ' , TypeName, '(' + Pcd.DatumType + ')', '(' + SkuIdName + ')', Value))\r | |
1221 | if TypeName in ('DYNVPD', 'DEXVPD'):\r | |
1222 | FileWrite(File, '%*s' % (self.MaxLen + 4, SkuInfo.VpdOffset))\r | |
1223 | if IsStructure:\r | |
1224 | OverrideValues = Pcd.SkuOverrideValues[Sku]\r | |
1225 | if OverrideValues:\r | |
1226 | Keys = OverrideValues.keys()\r | |
1227 | Struct = OverrideValues[Keys[0]]\r | |
1228 | self.PrintStructureInfo(File, Struct)\r | |
1229 | self.PrintPcdDefault(File, Pcd, IsStructure, DscMatch, DscDefaultValue, InfMatch, InfDefaultValue, DecMatch, DecDefaultValue)\r | |
1230 | \r | |
1231 | def PrintStructureInfo(self, File, Struct):\r | |
1232 | NewInfo = collections.OrderedDict()\r | |
1233 | for Key, Value in Struct.items():\r | |
1234 | if Key not in NewInfo:\r | |
1235 | NewInfo[Key] = Value[0]\r | |
1236 | else:\r | |
1237 | del NewInfo[Key]\r | |
1238 | NewInfo[Key] = Value[0]\r | |
1239 | if NewInfo:\r | |
1240 | for item in NewInfo:\r | |
1241 | FileWrite(File, ' %-*s = %s' % (self.MaxLen + 4, '.' + item, NewInfo[item]))\r | |
1242 | \r | |
1243 | def StrtoHex(self, value):\r | |
1244 | try:\r | |
1245 | value = hex(int(value))\r | |
1246 | return value\r | |
1247 | except:\r | |
1248 | if value.startswith("L\"") and value.endswith("\""):\r | |
1249 | valuelist = []\r | |
1250 | for ch in value[2:-1]:\r | |
1251 | valuelist.append(hex(ord(ch)))\r | |
1252 | valuelist.append('0x00')\r | |
1253 | return valuelist\r | |
1254 | elif value.startswith("\"") and value.endswith("\""):\r | |
1255 | return hex(ord(value[1:-1]))\r | |
1256 | elif value.startswith("{") and value.endswith("}"):\r | |
1257 | valuelist = []\r | |
1258 | if ',' not in value:\r | |
1259 | return value[1:-1]\r | |
1260 | for ch in value[1:-1].split(','):\r | |
1261 | ch = ch.strip()\r | |
1262 | if ch.startswith('0x') or ch.startswith('0X'):\r | |
1263 | valuelist.append(ch)\r | |
1264 | continue\r | |
1265 | try:\r | |
1266 | valuelist.append(hex(int(ch.strip())))\r | |
1267 | except:\r | |
1268 | pass\r | |
1269 | return valuelist\r | |
1270 | else:\r | |
1271 | return value\r | |
1272 | \r | |
1273 | ##\r | |
1274 | # Reports platform and module Prediction information\r | |
1275 | #\r | |
1276 | # This class reports the platform execution order prediction section and\r | |
1277 | # module load fixed address prediction subsection in the build report file.\r | |
1278 | #\r | |
1279 | class PredictionReport(object):\r | |
1280 | ##\r | |
1281 | # Constructor function for class PredictionReport\r | |
1282 | #\r | |
1283 | # This constructor function generates PredictionReport object for the platform.\r | |
1284 | #\r | |
1285 | # @param self: The object pointer\r | |
1286 | # @param Wa Workspace context information\r | |
1287 | #\r | |
1288 | def __init__(self, Wa):\r | |
1289 | self._MapFileName = os.path.join(Wa.BuildDir, Wa.Name + ".map")\r | |
1290 | self._MapFileParsed = False\r | |
1291 | self._EotToolInvoked = False\r | |
1292 | self._FvDir = Wa.FvDir\r | |
1293 | self._EotDir = Wa.BuildDir\r | |
1294 | self._FfsEntryPoint = {}\r | |
1295 | self._GuidMap = {}\r | |
1296 | self._SourceList = []\r | |
1297 | self.FixedMapDict = {}\r | |
1298 | self.ItemList = []\r | |
1299 | self.MaxLen = 0\r | |
1300 | \r | |
1301 | #\r | |
1302 | # Collect all platform reference source files and GUID C Name\r | |
1303 | #\r | |
1304 | for Pa in Wa.AutoGenObjectList:\r | |
1305 | for Module in Pa.LibraryAutoGenList + Pa.ModuleAutoGenList:\r | |
1306 | #\r | |
1307 | # BASE typed modules are EFI agnostic, so we need not scan\r | |
1308 | # their source code to find PPI/Protocol produce or consume\r | |
1309 | # information.\r | |
1310 | #\r | |
1311 | if Module.ModuleType == "BASE":\r | |
1312 | continue\r | |
1313 | #\r | |
1314 | # Add module referenced source files\r | |
1315 | #\r | |
1316 | self._SourceList.append(str(Module))\r | |
1317 | IncludeList = {}\r | |
1318 | for Source in Module.SourceFileList:\r | |
1319 | if os.path.splitext(str(Source))[1].lower() == ".c":\r | |
1320 | self._SourceList.append(" " + str(Source))\r | |
1321 | FindIncludeFiles(Source.Path, Module.IncludePathList, IncludeList)\r | |
1322 | for IncludeFile in IncludeList.values():\r | |
1323 | self._SourceList.append(" " + IncludeFile)\r | |
1324 | \r | |
1325 | for Guid in Module.PpiList:\r | |
1326 | self._GuidMap[Guid] = GuidStructureStringToGuidString(Module.PpiList[Guid])\r | |
1327 | for Guid in Module.ProtocolList:\r | |
1328 | self._GuidMap[Guid] = GuidStructureStringToGuidString(Module.ProtocolList[Guid])\r | |
1329 | for Guid in Module.GuidList:\r | |
1330 | self._GuidMap[Guid] = GuidStructureStringToGuidString(Module.GuidList[Guid])\r | |
1331 | \r | |
1332 | if Module.Guid and not Module.IsLibrary:\r | |
1333 | EntryPoint = " ".join(Module.Module.ModuleEntryPointList)\r | |
1334 | if int(str(Module.AutoGenVersion), 0) >= 0x00010005:\r | |
1335 | RealEntryPoint = "_ModuleEntryPoint"\r | |
1336 | else:\r | |
1337 | RealEntryPoint = EntryPoint\r | |
1338 | if EntryPoint == "_ModuleEntryPoint":\r | |
1339 | CCFlags = Module.BuildOption.get("CC", {}).get("FLAGS", "")\r | |
1340 | Match = gGlueLibEntryPoint.search(CCFlags)\r | |
1341 | if Match:\r | |
1342 | EntryPoint = Match.group(1)\r | |
1343 | \r | |
1344 | self._FfsEntryPoint[Module.Guid.upper()] = (EntryPoint, RealEntryPoint)\r | |
1345 | \r | |
1346 | \r | |
1347 | #\r | |
1348 | # Collect platform firmware volume list as the input of EOT.\r | |
1349 | #\r | |
1350 | self._FvList = []\r | |
1351 | if Wa.FdfProfile:\r | |
1352 | for Fd in Wa.FdfProfile.FdDict:\r | |
1353 | for FdRegion in Wa.FdfProfile.FdDict[Fd].RegionList:\r | |
1354 | if FdRegion.RegionType != "FV":\r | |
1355 | continue\r | |
1356 | for FvName in FdRegion.RegionDataList:\r | |
1357 | if FvName in self._FvList:\r | |
1358 | continue\r | |
1359 | self._FvList.append(FvName)\r | |
1360 | for Ffs in Wa.FdfProfile.FvDict[FvName.upper()].FfsList:\r | |
1361 | for Section in Ffs.SectionList:\r | |
1362 | try:\r | |
1363 | for FvSection in Section.SectionList:\r | |
1364 | if FvSection.FvName in self._FvList:\r | |
1365 | continue\r | |
1366 | self._FvList.append(FvSection.FvName)\r | |
1367 | except AttributeError:\r | |
1368 | pass\r | |
1369 | \r | |
1370 | \r | |
1371 | ##\r | |
1372 | # Parse platform fixed address map files\r | |
1373 | #\r | |
1374 | # This function parses the platform final fixed address map file to get\r | |
1375 | # the database of predicted fixed address for module image base, entry point\r | |
1376 | # etc.\r | |
1377 | #\r | |
1378 | # @param self: The object pointer\r | |
1379 | #\r | |
1380 | def _ParseMapFile(self):\r | |
1381 | if self._MapFileParsed:\r | |
1382 | return\r | |
1383 | self._MapFileParsed = True\r | |
1384 | if os.path.isfile(self._MapFileName):\r | |
1385 | try:\r | |
1386 | FileContents = open(self._MapFileName).read()\r | |
1387 | for Match in gMapFileItemPattern.finditer(FileContents):\r | |
1388 | AddressType = Match.group(1)\r | |
1389 | BaseAddress = Match.group(2)\r | |
1390 | EntryPoint = Match.group(3)\r | |
1391 | Guid = Match.group(4).upper()\r | |
1392 | List = self.FixedMapDict.setdefault(Guid, [])\r | |
1393 | List.append((AddressType, BaseAddress, "*I"))\r | |
1394 | List.append((AddressType, EntryPoint, "*E"))\r | |
1395 | except:\r | |
1396 | EdkLogger.warn(None, "Cannot open file to read", self._MapFileName)\r | |
1397 | \r | |
1398 | ##\r | |
1399 | # Invokes EOT tool to get the predicted the execution order.\r | |
1400 | #\r | |
1401 | # This function invokes EOT tool to calculate the predicted dispatch order\r | |
1402 | #\r | |
1403 | # @param self: The object pointer\r | |
1404 | #\r | |
1405 | def _InvokeEotTool(self):\r | |
1406 | if self._EotToolInvoked:\r | |
1407 | return\r | |
1408 | \r | |
1409 | self._EotToolInvoked = True\r | |
1410 | FvFileList = []\r | |
1411 | for FvName in self._FvList:\r | |
1412 | FvFile = os.path.join(self._FvDir, FvName + ".Fv")\r | |
1413 | if os.path.isfile(FvFile):\r | |
1414 | FvFileList.append(FvFile)\r | |
1415 | \r | |
1416 | if len(FvFileList) == 0:\r | |
1417 | return\r | |
1418 | #\r | |
1419 | # Write source file list and GUID file list to an intermediate file\r | |
1420 | # as the input for EOT tool and dispatch List as the output file\r | |
1421 | # from EOT tool.\r | |
1422 | #\r | |
1423 | SourceList = os.path.join(self._EotDir, "SourceFile.txt")\r | |
1424 | GuidList = os.path.join(self._EotDir, "GuidList.txt")\r | |
1425 | DispatchList = os.path.join(self._EotDir, "Dispatch.txt")\r | |
1426 | \r | |
1427 | TempFile = open(SourceList, "w+")\r | |
1428 | for Item in self._SourceList:\r | |
1429 | FileWrite(TempFile, Item)\r | |
1430 | TempFile.close()\r | |
1431 | TempFile = open(GuidList, "w+")\r | |
1432 | for Key in self._GuidMap:\r | |
1433 | FileWrite(TempFile, "%s %s" % (Key, self._GuidMap[Key]))\r | |
1434 | TempFile.close()\r | |
1435 | \r | |
1436 | try:\r | |
1437 | from Eot.Eot import Eot\r | |
1438 | \r | |
1439 | #\r | |
1440 | # Invoke EOT tool and echo its runtime performance\r | |
1441 | #\r | |
1442 | EotStartTime = time.time()\r | |
1443 | Eot(CommandLineOption=False, SourceFileList=SourceList, GuidList=GuidList,\r | |
1444 | FvFileList=' '.join(FvFileList), Dispatch=DispatchList, IsInit=True)\r | |
1445 | EotEndTime = time.time()\r | |
1446 | EotDuration = time.strftime("%H:%M:%S", time.gmtime(int(round(EotEndTime - EotStartTime))))\r | |
1447 | EdkLogger.quiet("EOT run time: %s\n" % EotDuration)\r | |
1448 | \r | |
1449 | #\r | |
1450 | # Parse the output of EOT tool\r | |
1451 | #\r | |
1452 | for Line in open(DispatchList):\r | |
1453 | if len(Line.split()) < 4:\r | |
1454 | continue\r | |
1455 | (Guid, Phase, FfsName, FilePath) = Line.split()\r | |
1456 | Symbol = self._FfsEntryPoint.get(Guid, [FfsName, ""])[0]\r | |
1457 | if len(Symbol) > self.MaxLen:\r | |
1458 | self.MaxLen = len(Symbol)\r | |
1459 | self.ItemList.append((Phase, Symbol, FilePath))\r | |
1460 | except:\r | |
1461 | EdkLogger.quiet("(Python %s on %s\n%s)" % (platform.python_version(), sys.platform, traceback.format_exc()))\r | |
1462 | EdkLogger.warn(None, "Failed to generate execution order prediction report, for some error occurred in executing EOT.")\r | |
1463 | \r | |
1464 | \r | |
1465 | ##\r | |
1466 | # Generate platform execution order report\r | |
1467 | #\r | |
1468 | # This function generates the predicted module execution order.\r | |
1469 | #\r | |
1470 | # @param self The object pointer\r | |
1471 | # @param File The file object for report\r | |
1472 | #\r | |
1473 | def _GenerateExecutionOrderReport(self, File):\r | |
1474 | self._InvokeEotTool()\r | |
1475 | if len(self.ItemList) == 0:\r | |
1476 | return\r | |
1477 | FileWrite(File, gSectionStart)\r | |
1478 | FileWrite(File, "Execution Order Prediction")\r | |
1479 | FileWrite(File, "*P PEI phase")\r | |
1480 | FileWrite(File, "*D DXE phase")\r | |
1481 | FileWrite(File, "*E Module INF entry point name")\r | |
1482 | FileWrite(File, "*N Module notification function name")\r | |
1483 | \r | |
1484 | FileWrite(File, "Type %-*s %s" % (self.MaxLen, "Symbol", "Module INF Path"))\r | |
1485 | FileWrite(File, gSectionSep)\r | |
1486 | for Item in self.ItemList:\r | |
1487 | FileWrite(File, "*%sE %-*s %s" % (Item[0], self.MaxLen, Item[1], Item[2]))\r | |
1488 | \r | |
1489 | FileWrite(File, gSectionStart)\r | |
1490 | \r | |
1491 | ##\r | |
1492 | # Generate Fixed Address report.\r | |
1493 | #\r | |
1494 | # This function generate the predicted fixed address report for a module\r | |
1495 | # specified by Guid.\r | |
1496 | #\r | |
1497 | # @param self The object pointer\r | |
1498 | # @param File The file object for report\r | |
1499 | # @param Guid The module Guid value.\r | |
1500 | # @param NotifyList The list of all notify function in a module\r | |
1501 | #\r | |
1502 | def _GenerateFixedAddressReport(self, File, Guid, NotifyList):\r | |
1503 | self._ParseMapFile()\r | |
1504 | FixedAddressList = self.FixedMapDict.get(Guid)\r | |
1505 | if not FixedAddressList:\r | |
1506 | return\r | |
1507 | \r | |
1508 | FileWrite(File, gSubSectionStart)\r | |
1509 | FileWrite(File, "Fixed Address Prediction")\r | |
1510 | FileWrite(File, "*I Image Loading Address")\r | |
1511 | FileWrite(File, "*E Entry Point Address")\r | |
1512 | FileWrite(File, "*N Notification Function Address")\r | |
1513 | FileWrite(File, "*F Flash Address")\r | |
1514 | FileWrite(File, "*M Memory Address")\r | |
1515 | FileWrite(File, "*S SMM RAM Offset")\r | |
1516 | FileWrite(File, "TOM Top of Memory")\r | |
1517 | \r | |
1518 | FileWrite(File, "Type Address Name")\r | |
1519 | FileWrite(File, gSubSectionSep)\r | |
1520 | for Item in FixedAddressList:\r | |
1521 | Type = Item[0]\r | |
1522 | Value = Item[1]\r | |
1523 | Symbol = Item[2]\r | |
1524 | if Symbol == "*I":\r | |
1525 | Name = "(Image Base)"\r | |
1526 | elif Symbol == "*E":\r | |
1527 | Name = self._FfsEntryPoint.get(Guid, ["", "_ModuleEntryPoint"])[1]\r | |
1528 | elif Symbol in NotifyList:\r | |
1529 | Name = Symbol\r | |
1530 | Symbol = "*N"\r | |
1531 | else:\r | |
1532 | continue\r | |
1533 | \r | |
1534 | if "Flash" in Type:\r | |
1535 | Symbol += "F"\r | |
1536 | elif "Memory" in Type:\r | |
1537 | Symbol += "M"\r | |
1538 | else:\r | |
1539 | Symbol += "S"\r | |
1540 | \r | |
1541 | if Value[0] == "-":\r | |
1542 | Value = "TOM" + Value\r | |
1543 | \r | |
1544 | FileWrite(File, "%s %-16s %s" % (Symbol, Value, Name))\r | |
1545 | \r | |
1546 | ##\r | |
1547 | # Generate report for the prediction part\r | |
1548 | #\r | |
1549 | # This function generate the predicted fixed address report for a module or\r | |
1550 | # predicted module execution order for a platform.\r | |
1551 | # If the input Guid is None, then, it generates the predicted module execution order;\r | |
1552 | # otherwise it generated the module fixed loading address for the module specified by\r | |
1553 | # Guid.\r | |
1554 | #\r | |
1555 | # @param self The object pointer\r | |
1556 | # @param File The file object for report\r | |
1557 | # @param Guid The module Guid value.\r | |
1558 | #\r | |
1559 | def GenerateReport(self, File, Guid):\r | |
1560 | if Guid:\r | |
1561 | self._GenerateFixedAddressReport(File, Guid.upper(), [])\r | |
1562 | else:\r | |
1563 | self._GenerateExecutionOrderReport(File)\r | |
1564 | \r | |
1565 | ##\r | |
1566 | # Reports FD region information\r | |
1567 | #\r | |
1568 | # This class reports the FD subsection in the build report file.\r | |
1569 | # It collects region information of platform flash device.\r | |
1570 | # If the region is a firmware volume, it lists the set of modules\r | |
1571 | # and its space information; otherwise, it only lists its region name,\r | |
1572 | # base address and size in its sub-section header.\r | |
1573 | # If there are nesting FVs, the nested FVs will list immediate after\r | |
1574 | # this FD region subsection\r | |
1575 | #\r | |
1576 | class FdRegionReport(object):\r | |
1577 | ##\r | |
1578 | # Discover all the nested FV name list.\r | |
1579 | #\r | |
1580 | # This is an internal worker function to discover the all the nested FV information\r | |
1581 | # in the parent firmware volume. It uses deep first search algorithm recursively to\r | |
1582 | # find all the FV list name and append them to the list.\r | |
1583 | #\r | |
1584 | # @param self The object pointer\r | |
1585 | # @param FvName The name of current firmware file system\r | |
1586 | # @param Wa Workspace context information\r | |
1587 | #\r | |
1588 | def _DiscoverNestedFvList(self, FvName, Wa):\r | |
1589 | FvDictKey=FvName.upper()\r | |
1590 | if FvDictKey in Wa.FdfProfile.FvDict:\r | |
1591 | for Ffs in Wa.FdfProfile.FvDict[FvName.upper()].FfsList:\r | |
1592 | for Section in Ffs.SectionList:\r | |
1593 | try:\r | |
1594 | for FvSection in Section.SectionList:\r | |
1595 | if FvSection.FvName in self.FvList:\r | |
1596 | continue\r | |
1597 | self._GuidsDb[Ffs.NameGuid.upper()] = FvSection.FvName\r | |
1598 | self.FvList.append(FvSection.FvName)\r | |
1599 | self.FvInfo[FvSection.FvName] = ("Nested FV", 0, 0)\r | |
1600 | self._DiscoverNestedFvList(FvSection.FvName, Wa)\r | |
1601 | except AttributeError:\r | |
1602 | pass\r | |
1603 | \r | |
1604 | ##\r | |
1605 | # Constructor function for class FdRegionReport\r | |
1606 | #\r | |
1607 | # This constructor function generates FdRegionReport object for a specified FdRegion.\r | |
1608 | # If the FdRegion is a firmware volume, it will recursively find all its nested Firmware\r | |
1609 | # volume list. This function also collects GUID map in order to dump module identification\r | |
1610 | # in the final report.\r | |
1611 | #\r | |
1612 | # @param self: The object pointer\r | |
1613 | # @param FdRegion The current FdRegion object\r | |
1614 | # @param Wa Workspace context information\r | |
1615 | #\r | |
1616 | def __init__(self, FdRegion, Wa):\r | |
1617 | self.Type = FdRegion.RegionType\r | |
1618 | self.BaseAddress = FdRegion.Offset\r | |
1619 | self.Size = FdRegion.Size\r | |
1620 | self.FvList = []\r | |
1621 | self.FvInfo = {}\r | |
1622 | self._GuidsDb = {}\r | |
1623 | self._FvDir = Wa.FvDir\r | |
1624 | \r | |
1625 | #\r | |
1626 | # If the input FdRegion is not a firmware volume,\r | |
1627 | # we are done.\r | |
1628 | #\r | |
1629 | if self.Type != "FV":\r | |
1630 | return\r | |
1631 | \r | |
1632 | #\r | |
1633 | # Find all nested FVs in the FdRegion\r | |
1634 | #\r | |
1635 | for FvName in FdRegion.RegionDataList:\r | |
1636 | if FvName in self.FvList:\r | |
1637 | continue\r | |
1638 | self.FvList.append(FvName)\r | |
1639 | self.FvInfo[FvName] = ("Fd Region", self.BaseAddress, self.Size)\r | |
1640 | self._DiscoverNestedFvList(FvName, Wa)\r | |
1641 | \r | |
1642 | PlatformPcds = {}\r | |
1643 | #\r | |
1644 | # Collect PCDs declared in DEC files.\r | |
1645 | # \r | |
1646 | for Pa in Wa.AutoGenObjectList:\r | |
1647 | for Package in Pa.PackageList:\r | |
1648 | for (TokenCName, TokenSpaceGuidCName, DecType) in Package.Pcds:\r | |
1649 | DecDefaultValue = Package.Pcds[TokenCName, TokenSpaceGuidCName, DecType].DefaultValue\r | |
1650 | PlatformPcds[(TokenCName, TokenSpaceGuidCName)] = DecDefaultValue\r | |
1651 | #\r | |
1652 | # Collect PCDs defined in DSC file\r | |
1653 | #\r | |
1654 | for Pa in Wa.AutoGenObjectList:\r | |
1655 | for (TokenCName, TokenSpaceGuidCName) in Pa.Platform.Pcds:\r | |
1656 | DscDefaultValue = Pa.Platform.Pcds[(TokenCName, TokenSpaceGuidCName)].DefaultValue\r | |
1657 | PlatformPcds[(TokenCName, TokenSpaceGuidCName)] = DscDefaultValue\r | |
1658 | \r | |
1659 | #\r | |
1660 | # Add PEI and DXE a priori files GUIDs defined in PI specification.\r | |
1661 | #\r | |
1662 | self._GuidsDb["1B45CC0A-156A-428A-AF62-49864DA0E6E6"] = "PEI Apriori"\r | |
1663 | self._GuidsDb["FC510EE7-FFDC-11D4-BD41-0080C73C8881"] = "DXE Apriori"\r | |
1664 | #\r | |
1665 | # Add ACPI table storage file\r | |
1666 | #\r | |
1667 | self._GuidsDb["7E374E25-8E01-4FEE-87F2-390C23C606CD"] = "ACPI table storage"\r | |
1668 | \r | |
1669 | for Pa in Wa.AutoGenObjectList:\r | |
1670 | for ModuleKey in Pa.Platform.Modules:\r | |
1671 | M = Pa.Platform.Modules[ModuleKey].M\r | |
1672 | InfPath = mws.join(Wa.WorkspaceDir, M.MetaFile.File)\r | |
1673 | self._GuidsDb[M.Guid.upper()] = "%s (%s)" % (M.Module.BaseName, InfPath)\r | |
1674 | \r | |
1675 | #\r | |
1676 | # Collect the GUID map in the FV firmware volume\r | |
1677 | #\r | |
1678 | for FvName in self.FvList:\r | |
1679 | FvDictKey=FvName.upper()\r | |
1680 | if FvDictKey in Wa.FdfProfile.FvDict:\r | |
1681 | for Ffs in Wa.FdfProfile.FvDict[FvName.upper()].FfsList:\r | |
1682 | try:\r | |
1683 | #\r | |
1684 | # collect GUID map for binary EFI file in FDF file.\r | |
1685 | #\r | |
1686 | Guid = Ffs.NameGuid.upper()\r | |
1687 | Match = gPcdGuidPattern.match(Ffs.NameGuid)\r | |
1688 | if Match:\r | |
1689 | PcdTokenspace = Match.group(1)\r | |
1690 | PcdToken = Match.group(2)\r | |
1691 | if (PcdToken, PcdTokenspace) in PlatformPcds:\r | |
1692 | GuidValue = PlatformPcds[(PcdToken, PcdTokenspace)]\r | |
1693 | Guid = GuidStructureByteArrayToGuidString(GuidValue).upper()\r | |
1694 | for Section in Ffs.SectionList:\r | |
1695 | try:\r | |
1696 | ModuleSectFile = mws.join(Wa.WorkspaceDir, Section.SectFileName)\r | |
1697 | self._GuidsDb[Guid] = ModuleSectFile\r | |
1698 | except AttributeError:\r | |
1699 | pass\r | |
1700 | except AttributeError:\r | |
1701 | pass\r | |
1702 | \r | |
1703 | \r | |
1704 | ##\r | |
1705 | # Internal worker function to generate report for the FD region\r | |
1706 | #\r | |
1707 | # This internal worker function to generate report for the FD region.\r | |
1708 | # It the type is firmware volume, it lists offset and module identification.\r | |
1709 | #\r | |
1710 | # @param self The object pointer\r | |
1711 | # @param File The file object for report\r | |
1712 | # @param Title The title for the FD subsection\r | |
1713 | # @param BaseAddress The base address for the FD region\r | |
1714 | # @param Size The size of the FD region\r | |
1715 | # @param FvName The FV name if the FD region is a firmware volume\r | |
1716 | #\r | |
1717 | def _GenerateReport(self, File, Title, Type, BaseAddress, Size=0, FvName=None):\r | |
1718 | FileWrite(File, gSubSectionStart)\r | |
1719 | FileWrite(File, Title)\r | |
1720 | FileWrite(File, "Type: %s" % Type)\r | |
1721 | FileWrite(File, "Base Address: 0x%X" % BaseAddress)\r | |
1722 | \r | |
1723 | if self.Type == "FV":\r | |
1724 | FvTotalSize = 0\r | |
1725 | FvTakenSize = 0\r | |
1726 | FvFreeSize = 0\r | |
1727 | FvReportFileName = os.path.join(self._FvDir, FvName + ".Fv.txt")\r | |
1728 | try:\r | |
1729 | #\r | |
1730 | # Collect size info in the firmware volume.\r | |
1731 | #\r | |
1732 | FvReport = open(FvReportFileName).read()\r | |
1733 | Match = gFvTotalSizePattern.search(FvReport)\r | |
1734 | if Match:\r | |
1735 | FvTotalSize = int(Match.group(1), 16)\r | |
1736 | Match = gFvTakenSizePattern.search(FvReport)\r | |
1737 | if Match:\r | |
1738 | FvTakenSize = int(Match.group(1), 16)\r | |
1739 | FvFreeSize = FvTotalSize - FvTakenSize\r | |
1740 | #\r | |
1741 | # Write size information to the report file.\r | |
1742 | #\r | |
1743 | FileWrite(File, "Size: 0x%X (%.0fK)" % (FvTotalSize, FvTotalSize / 1024.0))\r | |
1744 | FileWrite(File, "Fv Name: %s (%.1f%% Full)" % (FvName, FvTakenSize * 100.0 / FvTotalSize))\r | |
1745 | FileWrite(File, "Occupied Size: 0x%X (%.0fK)" % (FvTakenSize, FvTakenSize / 1024.0))\r | |
1746 | FileWrite(File, "Free Size: 0x%X (%.0fK)" % (FvFreeSize, FvFreeSize / 1024.0))\r | |
1747 | FileWrite(File, "Offset Module")\r | |
1748 | FileWrite(File, gSubSectionSep)\r | |
1749 | #\r | |
1750 | # Write module offset and module identification to the report file.\r | |
1751 | #\r | |
1752 | OffsetInfo = {}\r | |
1753 | for Match in gOffsetGuidPattern.finditer(FvReport):\r | |
1754 | Guid = Match.group(2).upper()\r | |
1755 | OffsetInfo[Match.group(1)] = self._GuidsDb.get(Guid, Guid)\r | |
1756 | OffsetList = OffsetInfo.keys()\r | |
1757 | OffsetList.sort()\r | |
1758 | for Offset in OffsetList:\r | |
1759 | FileWrite (File, "%s %s" % (Offset, OffsetInfo[Offset]))\r | |
1760 | except IOError:\r | |
1761 | EdkLogger.warn(None, "Fail to read report file", FvReportFileName)\r | |
1762 | else:\r | |
1763 | FileWrite(File, "Size: 0x%X (%.0fK)" % (Size, Size / 1024.0))\r | |
1764 | FileWrite(File, gSubSectionEnd)\r | |
1765 | \r | |
1766 | ##\r | |
1767 | # Generate report for the FD region\r | |
1768 | #\r | |
1769 | # This function generates report for the FD region.\r | |
1770 | #\r | |
1771 | # @param self The object pointer\r | |
1772 | # @param File The file object for report\r | |
1773 | #\r | |
1774 | def GenerateReport(self, File):\r | |
1775 | if (len(self.FvList) > 0):\r | |
1776 | for FvItem in self.FvList:\r | |
1777 | Info = self.FvInfo[FvItem]\r | |
1778 | self._GenerateReport(File, Info[0], "FV", Info[1], Info[2], FvItem)\r | |
1779 | else:\r | |
1780 | self._GenerateReport(File, "FD Region", self.Type, self.BaseAddress, self.Size)\r | |
1781 | \r | |
1782 | ##\r | |
1783 | # Reports FD information\r | |
1784 | #\r | |
1785 | # This class reports the FD section in the build report file.\r | |
1786 | # It collects flash device information for a platform.\r | |
1787 | #\r | |
1788 | class FdReport(object):\r | |
1789 | ##\r | |
1790 | # Constructor function for class FdReport\r | |
1791 | #\r | |
1792 | # This constructor function generates FdReport object for a specified\r | |
1793 | # firmware device.\r | |
1794 | #\r | |
1795 | # @param self The object pointer\r | |
1796 | # @param Fd The current Firmware device object\r | |
1797 | # @param Wa Workspace context information\r | |
1798 | #\r | |
1799 | def __init__(self, Fd, Wa):\r | |
1800 | self.FdName = Fd.FdUiName\r | |
1801 | self.BaseAddress = Fd.BaseAddress\r | |
1802 | self.Size = Fd.Size\r | |
1803 | self.FdRegionList = [FdRegionReport(FdRegion, Wa) for FdRegion in Fd.RegionList]\r | |
1804 | self.FvPath = os.path.join(Wa.BuildDir, "FV")\r | |
1805 | self.VpdFilePath = os.path.join(self.FvPath, "%s.map" % Wa.Platform.VpdToolGuid)\r | |
1806 | self.VPDBaseAddress = 0\r | |
1807 | self.VPDSize = 0\r | |
1808 | self.VPDInfoList = []\r | |
1809 | for index, FdRegion in enumerate(Fd.RegionList):\r | |
1810 | if str(FdRegion.RegionType) is 'FILE' and Wa.Platform.VpdToolGuid in str(FdRegion.RegionDataList):\r | |
1811 | self.VPDBaseAddress = self.FdRegionList[index].BaseAddress\r | |
1812 | self.VPDSize = self.FdRegionList[index].Size\r | |
1813 | break\r | |
1814 | \r | |
1815 | if os.path.isfile(self.VpdFilePath):\r | |
1816 | fd = open(self.VpdFilePath, "r")\r | |
1817 | Lines = fd.readlines()\r | |
1818 | for Line in Lines:\r | |
1819 | Line = Line.strip()\r | |
1820 | if len(Line) == 0 or Line.startswith("#"):\r | |
1821 | continue\r | |
1822 | try:\r | |
1823 | PcdName, SkuId, Offset, Size, Value = Line.split("#")[0].split("|")\r | |
1824 | PcdName, SkuId, Offset, Size, Value = PcdName.strip(), SkuId.strip(), Offset.strip(), Size.strip(), Value.strip()\r | |
1825 | if Offset.lower().startswith('0x'):\r | |
1826 | Offset = '0x%08X' % (int(Offset, 16) + self.VPDBaseAddress)\r | |
1827 | else:\r | |
1828 | Offset = '0x%08X' % (int(Offset, 10) + self.VPDBaseAddress)\r | |
1829 | self.VPDInfoList.append("%s | %s | %s | %s | %s" % (PcdName, SkuId, Offset, Size, Value))\r | |
1830 | except:\r | |
1831 | EdkLogger.error("BuildReport", CODE_ERROR, "Fail to parse VPD information file %s" % self.VpdFilePath)\r | |
1832 | fd.close()\r | |
1833 | \r | |
1834 | ##\r | |
1835 | # Generate report for the firmware device.\r | |
1836 | #\r | |
1837 | # This function generates report for the firmware device.\r | |
1838 | #\r | |
1839 | # @param self The object pointer\r | |
1840 | # @param File The file object for report\r | |
1841 | #\r | |
1842 | def GenerateReport(self, File):\r | |
1843 | FileWrite(File, gSectionStart)\r | |
1844 | FileWrite(File, "Firmware Device (FD)")\r | |
1845 | FileWrite(File, "FD Name: %s" % self.FdName)\r | |
1846 | FileWrite(File, "Base Address: %s" % self.BaseAddress)\r | |
1847 | FileWrite(File, "Size: 0x%X (%.0fK)" % (self.Size, self.Size / 1024.0))\r | |
1848 | if len(self.FdRegionList) > 0:\r | |
1849 | FileWrite(File, gSectionSep)\r | |
1850 | for FdRegionItem in self.FdRegionList:\r | |
1851 | FdRegionItem.GenerateReport(File)\r | |
1852 | \r | |
1853 | if len(self.VPDInfoList) > 0:\r | |
1854 | FileWrite(File, gSubSectionStart)\r | |
1855 | FileWrite(File, "FD VPD Region")\r | |
1856 | FileWrite(File, "Base Address: 0x%X" % self.VPDBaseAddress)\r | |
1857 | FileWrite(File, "Size: 0x%X (%.0fK)" % (self.VPDSize, self.VPDSize / 1024.0))\r | |
1858 | FileWrite(File, gSubSectionSep)\r | |
1859 | for item in self.VPDInfoList:\r | |
1860 | ValueList = item.split('|')\r | |
1861 | Value = ValueList[-1].strip()\r | |
1862 | IsByteArray, ArrayList = ByteArrayForamt(Value)\r | |
1863 | if IsByteArray:\r | |
1864 | ValueList[-1] = ' {'\r | |
1865 | FileWrite(File, '|'.join(ValueList))\r | |
1866 | for Array in ArrayList:\r | |
1867 | FileWrite(File, '%s' % (Array))\r | |
1868 | else:\r | |
1869 | FileWrite(File, item)\r | |
1870 | FileWrite(File, gSubSectionEnd)\r | |
1871 | FileWrite(File, gSectionEnd)\r | |
1872 | \r | |
1873 | \r | |
1874 | \r | |
1875 | ##\r | |
1876 | # Reports platform information\r | |
1877 | #\r | |
1878 | # This class reports the whole platform information\r | |
1879 | #\r | |
1880 | class PlatformReport(object):\r | |
1881 | ##\r | |
1882 | # Constructor function for class PlatformReport\r | |
1883 | #\r | |
1884 | # This constructor function generates PlatformReport object a platform build.\r | |
1885 | # It generates report for platform summary, flash, global PCDs and detailed\r | |
1886 | # module information for modules involved in platform build.\r | |
1887 | #\r | |
1888 | # @param self The object pointer\r | |
1889 | # @param Wa Workspace context information\r | |
1890 | # @param MaList The list of modules in the platform build\r | |
1891 | #\r | |
1892 | def __init__(self, Wa, MaList, ReportType):\r | |
1893 | self._WorkspaceDir = Wa.WorkspaceDir\r | |
1894 | self.PlatformName = Wa.Name\r | |
1895 | self.PlatformDscPath = Wa.Platform\r | |
1896 | self.Architectures = " ".join(Wa.ArchList)\r | |
1897 | self.ToolChain = Wa.ToolChain\r | |
1898 | self.Target = Wa.BuildTarget\r | |
1899 | self.OutputPath = os.path.join(Wa.WorkspaceDir, Wa.OutputDir)\r | |
1900 | self.BuildEnvironment = platform.platform()\r | |
1901 | \r | |
1902 | self.PcdReport = None\r | |
1903 | if "PCD" in ReportType:\r | |
1904 | self.PcdReport = PcdReport(Wa)\r | |
1905 | \r | |
1906 | self.FdReportList = []\r | |
1907 | if "FLASH" in ReportType and Wa.FdfProfile and MaList == None:\r | |
1908 | for Fd in Wa.FdfProfile.FdDict:\r | |
1909 | self.FdReportList.append(FdReport(Wa.FdfProfile.FdDict[Fd], Wa))\r | |
1910 | \r | |
1911 | self.PredictionReport = None\r | |
1912 | if "FIXED_ADDRESS" in ReportType or "EXECUTION_ORDER" in ReportType:\r | |
1913 | self.PredictionReport = PredictionReport(Wa)\r | |
1914 | \r | |
1915 | self.DepexParser = None\r | |
1916 | if "DEPEX" in ReportType:\r | |
1917 | self.DepexParser = DepexParser(Wa)\r | |
1918 | \r | |
1919 | self.ModuleReportList = []\r | |
1920 | if MaList != None:\r | |
1921 | self._IsModuleBuild = True\r | |
1922 | for Ma in MaList:\r | |
1923 | self.ModuleReportList.append(ModuleReport(Ma, ReportType))\r | |
1924 | else:\r | |
1925 | self._IsModuleBuild = False\r | |
1926 | for Pa in Wa.AutoGenObjectList:\r | |
1927 | ModuleAutoGenList = []\r | |
1928 | for ModuleKey in Pa.Platform.Modules:\r | |
1929 | ModuleAutoGenList.append(Pa.Platform.Modules[ModuleKey].M)\r | |
1930 | if GlobalData.gFdfParser != None:\r | |
1931 | if Pa.Arch in GlobalData.gFdfParser.Profile.InfDict:\r | |
1932 | INFList = GlobalData.gFdfParser.Profile.InfDict[Pa.Arch]\r | |
1933 | for InfName in INFList:\r | |
1934 | InfClass = PathClass(NormPath(InfName), Wa.WorkspaceDir, Pa.Arch)\r | |
1935 | Ma = ModuleAutoGen(Wa, InfClass, Pa.BuildTarget, Pa.ToolChain, Pa.Arch, Wa.MetaFile)\r | |
1936 | if Ma == None:\r | |
1937 | continue\r | |
1938 | if Ma not in ModuleAutoGenList:\r | |
1939 | ModuleAutoGenList.append(Ma)\r | |
1940 | for MGen in ModuleAutoGenList:\r | |
1941 | self.ModuleReportList.append(ModuleReport(MGen, ReportType))\r | |
1942 | \r | |
1943 | \r | |
1944 | \r | |
1945 | ##\r | |
1946 | # Generate report for the whole platform.\r | |
1947 | #\r | |
1948 | # This function generates report for platform information.\r | |
1949 | # It comprises of platform summary, global PCD, flash and\r | |
1950 | # module list sections.\r | |
1951 | #\r | |
1952 | # @param self The object pointer\r | |
1953 | # @param File The file object for report\r | |
1954 | # @param BuildDuration The total time to build the modules\r | |
1955 | # @param AutoGenTime The total time of AutoGen Phase\r | |
1956 | # @param MakeTime The total time of Make Phase\r | |
1957 | # @param GenFdsTime The total time of GenFds Phase\r | |
1958 | # @param ReportType The kind of report items in the final report file\r | |
1959 | #\r | |
1960 | def GenerateReport(self, File, BuildDuration, AutoGenTime, MakeTime, GenFdsTime, ReportType):\r | |
1961 | FileWrite(File, "Platform Summary")\r | |
1962 | FileWrite(File, "Platform Name: %s" % self.PlatformName)\r | |
1963 | FileWrite(File, "Platform DSC Path: %s" % self.PlatformDscPath)\r | |
1964 | FileWrite(File, "Architectures: %s" % self.Architectures)\r | |
1965 | FileWrite(File, "Tool Chain: %s" % self.ToolChain)\r | |
1966 | FileWrite(File, "Target: %s" % self.Target)\r | |
1967 | if GlobalData.gSkuids:\r | |
1968 | FileWrite(File, "SKUID: %s" % " ".join(GlobalData.gSkuids))\r | |
1969 | if GlobalData.gDefaultStores:\r | |
1970 | FileWrite(File, "DefaultStore: %s" % " ".join(GlobalData.gDefaultStores))\r | |
1971 | FileWrite(File, "Output Path: %s" % self.OutputPath)\r | |
1972 | FileWrite(File, "Build Environment: %s" % self.BuildEnvironment)\r | |
1973 | FileWrite(File, "Build Duration: %s" % BuildDuration)\r | |
1974 | if AutoGenTime:\r | |
1975 | FileWrite(File, "AutoGen Duration: %s" % AutoGenTime)\r | |
1976 | if MakeTime:\r | |
1977 | FileWrite(File, "Make Duration: %s" % MakeTime)\r | |
1978 | if GenFdsTime:\r | |
1979 | FileWrite(File, "GenFds Duration: %s" % GenFdsTime)\r | |
1980 | FileWrite(File, "Report Content: %s" % ", ".join(ReportType))\r | |
1981 | \r | |
1982 | if GlobalData.MixedPcd:\r | |
1983 | FileWrite(File, gSectionStart)\r | |
1984 | FileWrite(File, "The following PCDs use different access methods:")\r | |
1985 | FileWrite(File, gSectionSep)\r | |
1986 | for PcdItem in GlobalData.MixedPcd:\r | |
1987 | FileWrite(File, "%s.%s" % (str(PcdItem[1]), str(PcdItem[0])))\r | |
1988 | FileWrite(File, gSectionEnd)\r | |
1989 | \r | |
1990 | if not self._IsModuleBuild:\r | |
1991 | if "PCD" in ReportType:\r | |
1992 | self.PcdReport.GenerateReport(File, None)\r | |
1993 | \r | |
1994 | if "FLASH" in ReportType:\r | |
1995 | for FdReportListItem in self.FdReportList:\r | |
1996 | FdReportListItem.GenerateReport(File)\r | |
1997 | \r | |
1998 | for ModuleReportItem in self.ModuleReportList:\r | |
1999 | ModuleReportItem.GenerateReport(File, self.PcdReport, self.PredictionReport, self.DepexParser, ReportType)\r | |
2000 | \r | |
2001 | if not self._IsModuleBuild:\r | |
2002 | if "EXECUTION_ORDER" in ReportType:\r | |
2003 | self.PredictionReport.GenerateReport(File, None)\r | |
2004 | \r | |
2005 | ## BuildReport class\r | |
2006 | #\r | |
2007 | # This base class contain the routines to collect data and then\r | |
2008 | # applies certain format to the output report\r | |
2009 | #\r | |
2010 | class BuildReport(object):\r | |
2011 | ##\r | |
2012 | # Constructor function for class BuildReport\r | |
2013 | #\r | |
2014 | # This constructor function generates BuildReport object a platform build.\r | |
2015 | # It generates report for platform summary, flash, global PCDs and detailed\r | |
2016 | # module information for modules involved in platform build.\r | |
2017 | #\r | |
2018 | # @param self The object pointer\r | |
2019 | # @param ReportFile The file name to save report file\r | |
2020 | # @param ReportType The kind of report items in the final report file\r | |
2021 | #\r | |
2022 | def __init__(self, ReportFile, ReportType):\r | |
2023 | self.ReportFile = ReportFile\r | |
2024 | if ReportFile:\r | |
2025 | self.ReportList = []\r | |
2026 | self.ReportType = []\r | |
2027 | if ReportType: \r | |
2028 | for ReportTypeItem in ReportType:\r | |
2029 | if ReportTypeItem not in self.ReportType:\r | |
2030 | self.ReportType.append(ReportTypeItem)\r | |
2031 | else:\r | |
2032 | self.ReportType = ["PCD", "LIBRARY", "BUILD_FLAGS", "DEPEX", "HASH", "FLASH", "FIXED_ADDRESS"]\r | |
2033 | ##\r | |
2034 | # Adds platform report to the list\r | |
2035 | #\r | |
2036 | # This function adds a platform report to the final report list.\r | |
2037 | #\r | |
2038 | # @param self The object pointer\r | |
2039 | # @param Wa Workspace context information\r | |
2040 | # @param MaList The list of modules in the platform build\r | |
2041 | #\r | |
2042 | def AddPlatformReport(self, Wa, MaList=None):\r | |
2043 | if self.ReportFile:\r | |
2044 | self.ReportList.append((Wa, MaList))\r | |
2045 | \r | |
2046 | ##\r | |
2047 | # Generates the final report.\r | |
2048 | #\r | |
2049 | # This function generates platform build report. It invokes GenerateReport()\r | |
2050 | # method for every platform report in the list.\r | |
2051 | #\r | |
2052 | # @param self The object pointer\r | |
2053 | # @param BuildDuration The total time to build the modules\r | |
2054 | # @param AutoGenTime The total time of AutoGen phase\r | |
2055 | # @param MakeTime The total time of Make phase\r | |
2056 | # @param GenFdsTime The total time of GenFds phase\r | |
2057 | #\r | |
2058 | def GenerateReport(self, BuildDuration, AutoGenTime, MakeTime, GenFdsTime):\r | |
2059 | if self.ReportFile:\r | |
2060 | try:\r | |
2061 | File = StringIO('')\r | |
2062 | for (Wa, MaList) in self.ReportList:\r | |
2063 | PlatformReport(Wa, MaList, self.ReportType).GenerateReport(File, BuildDuration, AutoGenTime, MakeTime, GenFdsTime, self.ReportType)\r | |
2064 | Content = FileLinesSplit(File.getvalue(), gLineMaxLength)\r | |
2065 | SaveFileOnChange(self.ReportFile, Content, True)\r | |
2066 | EdkLogger.quiet("Build report can be found at %s" % os.path.abspath(self.ReportFile))\r | |
2067 | except IOError:\r | |
2068 | EdkLogger.error(None, FILE_WRITE_FAILURE, ExtraData=self.ReportFile)\r | |
2069 | except:\r | |
2070 | EdkLogger.error("BuildReport", CODE_ERROR, "Unknown fatal error when generating build report", ExtraData=self.ReportFile, RaiseError=False)\r | |
2071 | EdkLogger.quiet("(Python %s on %s\n%s)" % (platform.python_version(), sys.platform, traceback.format_exc()))\r | |
2072 | File.close()\r | |
2073 | \r | |
2074 | # This acts like the main() function for the script, unless it is 'import'ed into another script.\r | |
2075 | if __name__ == '__main__':\r | |
2076 | pass\r | |
2077 | \r |