VirtualBox

source: vbox/trunk/src/VBox/Runtime/r0drv/nt/ntBldSymDb.cpp@ 45443

Last change on this file since 45443 was 45443, checked in by vboxsync, 12 years ago

IPRT: Better way of finding QuantumEnd and DpcQueueDepth.
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File size: 43.2 KB
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1/* $Id: ntBldSymDb.cpp 45443 2013-04-09 18:30:45Z vboxsync $ */
2/** @file
3 * IPRT - RTDirCreateUniqueNumbered, generic implementation.
4 */
5
6/*
7 * Copyright (C) 2013 Oracle Corporation
8 *
9 * This file is part of VirtualBox Open Source Edition (OSE), as
10 * available from http://www.virtualbox.org. This file is free software;
11 * you can redistribute it and/or modify it under the terms of the GNU
12 * General Public License (GPL) as published by the Free Software
13 * Foundation, in version 2 as it comes in the "COPYING" file of the
14 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
15 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
16 *
17 * The contents of this file may alternatively be used under the terms
18 * of the Common Development and Distribution License Version 1.0
19 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the
20 * VirtualBox OSE distribution, in which case the provisions of the
21 * CDDL are applicable instead of those of the GPL.
22 *
23 * You may elect to license modified versions of this file under the
24 * terms and conditions of either the GPL or the CDDL or both.
25 */
26
27
28/*******************************************************************************
29* Header Files *
30*******************************************************************************/
31#include <Windows.h>
32#include <Dbghelp.h>
33
34#include <iprt/alloca.h>
35#include <iprt/dir.h>
36#include <iprt/file.h>
37#include <iprt/getopt.h>
38#include <iprt/initterm.h>
39#include <iprt/list.h>
40#include <iprt/mem.h>
41#include <iprt/message.h>
42#include <iprt/path.h>
43#include <iprt/stream.h>
44#include <iprt/string.h>
45#include <iprt/err.h>
46
47#include "r0drv/nt/symdb.h"
48
49
50/*******************************************************************************
51* Structures and Typedefs *
52*******************************************************************************/
53/** A structure member we're interested in. */
54typedef struct MYMEMBER
55{
56 /** The member name. */
57 const char * const pszName;
58 /** Reserved. */
59 uint32_t const fFlags;
60 /** The offset of the member. UINT32_MAX if not found. */
61 uint32_t off;
62 /** The size of the member. */
63 uint32_t cb;
64 /** Alternative names, optional.
65 * This is a string of zero terminated strings, ending with an zero length
66 * string (or double '\\0' if you like). */
67 const char * const pszzAltNames;
68} MYMEMBER;
69/** Pointer to a member we're interested. */
70typedef MYMEMBER *PMYMEMBER;
71
72/** Members we're interested in. */
73typedef struct MYSTRUCT
74{
75 /** The structure name. */
76 const char * const pszName;
77 /** Array of members we're interested in. */
78 MYMEMBER *paMembers;
79 /** The number of members we're interested in. */
80 uint32_t const cMembers;
81 /** Reserved. */
82 uint32_t const fFlags;
83} MYSTRUCT;
84
85/** Architecture. */
86typedef enum MYARCH
87{
88 MYARCH_X86,
89 MYARCH_AMD64,
90 MYARCH_DETECT
91} MYARCH;
92
93/** Set of structures for one kernel. */
94typedef struct MYSET
95{
96 /** The list entry. */
97 RTLISTNODE ListEntry;
98 /** The source PDB. */
99 char *pszPdb;
100 /** The OS version we've harvested structs for */
101 RTNTSDBOSVER OsVerInfo;
102 /** The architecture. */
103 MYARCH enmArch;
104 /** The structures and their member. */
105 MYSTRUCT aStructs[1];
106} MYSET;
107/** Pointer a set of structures for one kernel. */
108typedef MYSET *PMYSET;
109
110
111/*******************************************************************************
112* Global Variables *
113*******************************************************************************/
114/** Set if verbose operation (-v, --verbose). */
115static bool g_fOptVerbose = false;
116/** Set if we should force ahead despite errors. */
117static bool g_fOptForce = false;
118
119/** The members of the KPRCB structure that we're interested in. */
120static MYMEMBER g_aKprcbMembers[] =
121{
122 { "QuantumEnd", 0, UINT32_MAX, UINT32_MAX, NULL },
123 { "DpcQueueDepth", 0, UINT32_MAX, UINT32_MAX, "DpcData[0].DpcQueueDepth\0" },
124 { "VendorString", 0, UINT32_MAX, UINT32_MAX, NULL },
125};
126
127/** The structures we're interested in. */
128static MYSTRUCT g_aStructs[] =
129{
130 { "_KPRCB", &g_aKprcbMembers[0], RT_ELEMENTS(g_aKprcbMembers), 0 },
131};
132
133/** List of data we've found. This is sorted by version info. */
134static RTLISTANCHOR g_SetList;
135
136
137
138
139
140/**
141 * For debug/verbose output.
142 *
143 * @param pszFormat The format string.
144 * @param ... The arguments referenced in the format string.
145 */
146static void MyDbgPrintf(const char *pszFormat, ...)
147{
148 if (g_fOptVerbose)
149 {
150 va_list va;
151 va_start(va, pszFormat);
152 RTPrintf("debug: ");
153 RTPrintfV(pszFormat, va);
154 va_end(va);
155 }
156}
157
158
159/**
160 * Returns the name we wish to use in the C code.
161 * @returns Structure name.
162 * @param pStruct The structure descriptor.
163 */
164static const char *figureCStructName(MYSTRUCT const *pStruct)
165{
166 const char *psz = pStruct->pszName;
167 while (*psz == '_')
168 psz++;
169 return psz;
170}
171
172
173/**
174 * Returns the name we wish to use in the C code.
175 * @returns Member name.
176 * @param pStruct The member descriptor.
177 */
178static const char *figureCMemberName(MYMEMBER const *pMember)
179{
180 return pMember->pszName;
181}
182
183
184/**
185 * Creates a MYSET with copies of all the data and inserts it into the
186 * g_SetList in a orderly fashion.
187 *
188 * @param pOut The output stream.
189 */
190static void generateHeader(PRTSTREAM pOut)
191{
192 RTStrmPrintf(pOut,
193 "/* $" "I" "d" ": $ */\n" /* avoid it being expanded */
194 "/** @file\n"
195 " * IPRT - NT kernel type helpers - Autogenerated, do NOT edit.\n"
196 " */\n"
197 "\n"
198 "/*\n"
199 " * Copyright (C) 2013 Oracle Corporation\n"
200 " *\n"
201 " * This file is part of VirtualBox Open Source Edition (OSE), as\n"
202 " * available from http://www.virtualbox.org. This file is free software;\n"
203 " * you can redistribute it and/or modify it under the terms of the GNU\n"
204 " * General Public License (GPL) as published by the Free Software\n"
205 " * Foundation, in version 2 as it comes in the \"COPYING\" file of the\n"
206 " * VirtualBox OSE distribution. VirtualBox OSE is distributed in the\n"
207 " * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.\n"
208 " *\n"
209 " * The contents of this file may alternatively be used under the terms\n"
210 " * of the Common Development and Distribution License Version 1.0\n"
211 " * (CDDL) only, as it comes in the \"COPYING.CDDL\" file of the\n"
212 " * VirtualBox OSE distribution, in which case the provisions of the\n"
213 " * CDDL are applicable instead of those of the GPL.\n"
214 " *\n"
215 " * You may elect to license modified versions of this file under the\n"
216 " * terms and conditions of either the GPL or the CDDL or both.\n"
217 " */\n"
218 "\n"
219 "\n"
220 "#ifndef ___r0drv_nt_symdbdata_h\n"
221 "#define ___r0drv_nt_symdbdata_h\n"
222 "\n"
223 "#include \"r0drv/nt/symdb.h\"\n"
224 "\n"
225 );
226
227 /*
228 * Generate types.
229 */
230 for (uint32_t i = 0; i < RT_ELEMENTS(g_aStructs); i++)
231 {
232 const char *pszStructName = figureCStructName(&g_aStructs[i]);
233
234 RTStrmPrintf(pOut,
235 "typedef struct RTNTSDBTYPE_%s\n"
236 "{\n",
237 pszStructName);
238 PMYMEMBER paMembers = g_aStructs[i].paMembers;
239 for (uint32_t j = 0; j < g_aStructs->cMembers; j++)
240 {
241 const char *pszMemName = figureCMemberName(&paMembers[j]);
242 RTStrmPrintf(pOut,
243 " uint32_t off%s;\n"
244 " uint32_t cb%s;\n",
245 pszMemName, pszMemName);
246 }
247
248 RTStrmPrintf(pOut,
249 "} RTNTSDBTYPE_%s;\n"
250 "\n",
251 pszStructName);
252 }
253
254 RTStrmPrintf(pOut,
255 "\n"
256 "typedef struct RTNTSDBSET\n"
257 "{\n"
258 " RTNTSDBOSVER%-20s OsVerInfo;\n", "");
259 for (uint32_t i = 0; i < RT_ELEMENTS(g_aStructs); i++)
260 {
261 const char *pszStructName = figureCStructName(&g_aStructs[i]);
262 RTStrmPrintf(pOut, " RTNTSDBTYPE_%-20s %s;\n", pszStructName, pszStructName);
263 }
264 RTStrmPrintf(pOut,
265 "} RTNTSDBSET;\n"
266 "typedef RTNTSDBSET const *PCRTNTSDBSET;\n"
267 "\n");
268
269 /*
270 * Output the data.
271 */
272 RTStrmPrintf(pOut,
273 "\n"
274 "#ifndef RTNTSDB_NO_DATA\n"
275 "const RTNTSDBSET g_artNtSdbSets[] = \n"
276 "{\n");
277 PMYSET pSet;
278 RTListForEach(&g_SetList, pSet, MYSET, ListEntry)
279 {
280 const char *pszArch = pSet->enmArch == MYARCH_AMD64 ? "AMD64" : "X86";
281 RTStrmPrintf(pOut,
282 "# ifdef RT_ARCH_%s\n"
283 " { /* Source: %s */\n"
284 " /*.OsVerInfo = */\n"
285 " {\n"
286 " /* .uMajorVer = */ %u,\n"
287 " /* .uMinorVer = */ %u,\n"
288 " /* .fChecked = */ %s,\n"
289 " /* .fSmp = */ %s,\n"
290 " /* .uCsdNo = */ %u,\n"
291 " /* .uBuildNo = */ %u,\n"
292 " },\n",
293 pszArch,
294 pSet->pszPdb,
295 pSet->OsVerInfo.uMajorVer,
296 pSet->OsVerInfo.uMinorVer,
297 pSet->OsVerInfo.fChecked ? "true" : "false",
298 pSet->OsVerInfo.fSmp ? "true" : "false",
299 pSet->OsVerInfo.uCsdNo,
300 pSet->OsVerInfo.uBuildNo);
301 for (uint32_t i = 0; i < RT_ELEMENTS(pSet->aStructs); i++)
302 {
303 const char *pszStructName = figureCStructName(&pSet->aStructs[i]);
304 RTStrmPrintf(pOut,
305 " /* .%s = */\n"
306 " {\n", pszStructName);
307 PMYMEMBER paMembers = pSet->aStructs[i].paMembers;
308 for (uint32_t j = 0; j < pSet->aStructs[i].cMembers; j++)
309 {
310 const char *pszMemName = figureCMemberName(&paMembers[j]);
311 RTStrmPrintf(pOut,
312 " /* .off%-25s = */ %#06x,\n"
313 " /* .cb%-26s = */ %#06x,\n",
314 pszMemName, paMembers[j].off,
315 pszMemName, paMembers[j].cb);
316 }
317 RTStrmPrintf(pOut,
318 " },\n");
319 }
320 RTStrmPrintf(pOut,
321 " },\n"
322 "# endif\n"
323 );
324 }
325
326 RTStrmPrintf(pOut,
327 "};\n"
328 "#endif /* !RTNTSDB_NO_DATA */\n"
329 "\n");
330
331 RTStrmPrintf(pOut, "\n#endif\n\n");
332}
333
334
335/**
336 * Creates a MYSET with copies of all the data and inserts it into the
337 * g_SetList in a orderly fashion.
338 *
339 * @returns Fully complained exit code.
340 * @param pOsVerInfo The OS version info.
341 */
342static RTEXITCODE saveStructures(PRTNTSDBOSVER pOsVerInfo, MYARCH enmArch, const char *pszPdb)
343{
344 /*
345 * Allocate one big chunk, figure it's size once.
346 */
347 static size_t s_cbNeeded = 0;
348 if (s_cbNeeded == 0)
349 {
350 s_cbNeeded = RT_OFFSETOF(MYSET, aStructs[RT_ELEMENTS(g_aStructs)]);
351 for (uint32_t i = 0; i < RT_ELEMENTS(g_aStructs); i++)
352 s_cbNeeded += sizeof(MYMEMBER) * g_aStructs[i].cMembers;
353 }
354
355 size_t cbPdb = strlen(pszPdb) + 1;
356 PMYSET pSet = (PMYSET)RTMemAlloc(s_cbNeeded + cbPdb);
357 if (!pSet)
358 return RTMsgErrorExit(RTEXITCODE_FAILURE, "Out of memory!\n");
359
360 /*
361 * Copy over the data.
362 */
363 pSet->enmArch = enmArch;
364 memcpy(&pSet->OsVerInfo, pOsVerInfo, sizeof(pSet->OsVerInfo));
365 memcpy(&pSet->aStructs[0], g_aStructs, sizeof(g_aStructs));
366
367 PMYMEMBER pDst = (PMYMEMBER)&pSet->aStructs[RT_ELEMENTS(g_aStructs)];
368 for (uint32_t i = 0; i < RT_ELEMENTS(g_aStructs); i++)
369 {
370 pSet->aStructs[i].paMembers = pDst;
371 memcpy(pDst, g_aStructs[i].paMembers, g_aStructs[i].cMembers * sizeof(*pDst));
372 pDst += g_aStructs[i].cMembers;
373 }
374
375 pSet->pszPdb = (char *)pDst;
376 memcpy(pDst, pszPdb, cbPdb);
377
378 /*
379 * Link it.
380 */
381 PMYSET pInsertBefore;
382 RTListForEach(&g_SetList, pInsertBefore, MYSET, ListEntry)
383 {
384 int iDiff = rtNtOsVerInfoCompare(&pInsertBefore->OsVerInfo, &pSet->OsVerInfo);
385 if (iDiff >= 0)
386 {
387 if (iDiff > 0 || pInsertBefore->enmArch > pSet->enmArch)
388 {
389 RTListNodeInsertBefore(&pInsertBefore->ListEntry, &pSet->ListEntry);
390 return RTEXITCODE_SUCCESS;
391 }
392 }
393 }
394
395 RTListAppend(&g_SetList, &pSet->ListEntry);
396 return RTEXITCODE_SUCCESS;
397}
398
399
400/**
401 * Checks that we found everything.
402 *
403 * @returns Fully complained exit code.
404 */
405static RTEXITCODE checkThatWeFoundEverything(void)
406{
407 RTEXITCODE rcExit = RTEXITCODE_SUCCESS;
408 for (uint32_t i = 0; i < RT_ELEMENTS(g_aStructs); i++)
409 {
410 PMYMEMBER paMembers = g_aStructs[i].paMembers;
411 uint32_t j = g_aStructs[i].cMembers;
412 while (j-- > 0)
413 {
414 if (paMembers[j].off == UINT32_MAX)
415 rcExit = RTMsgErrorExit(RTEXITCODE_FAILURE, " Missing %s::%s\n", g_aStructs[i].pszName, paMembers[j].pszName);
416 }
417 }
418 return rcExit;
419}
420
421
422/**
423 * Matches the member against what we're looking for.
424 *
425 * @returns Number of hits.
426 * @param cWantedMembers The number members in paWantedMembers.
427 * @param paWantedMembers The members we're looking for.
428 * @param pszPrefix The member name prefix.
429 * @param pszMember The member name.
430 * @param offMember The member offset.
431 * @param cbMember The member size.
432 */
433static uint32_t matchUpStructMembers(unsigned cWantedMembers, PMYMEMBER paWantedMembers,
434 const char *pszPrefix, const char *pszMember,
435 uint32_t offMember, uint32_t cbMember)
436{
437 size_t cchPrefix = strlen(pszPrefix);
438 uint32_t cHits = 0;
439 uint32_t iMember = cWantedMembers;
440 while (iMember-- > 0)
441 {
442 if ( !strncmp(pszPrefix, paWantedMembers[iMember].pszName, cchPrefix)
443 && !strcmp(pszMember, paWantedMembers[iMember].pszName + cchPrefix))
444 {
445 paWantedMembers[iMember].off = offMember;
446 paWantedMembers[iMember].cb = cbMember;
447 cHits++;
448 }
449 else if (paWantedMembers[iMember].pszzAltNames)
450 {
451 char const *pszCur = paWantedMembers[iMember].pszzAltNames;
452 while (*pszCur)
453 {
454 size_t cchCur = strlen(pszCur);
455 if ( !strncmp(pszPrefix, pszCur, cchPrefix)
456 && !strcmp(pszMember, pszCur + cchPrefix))
457 {
458 paWantedMembers[iMember].off = offMember;
459 paWantedMembers[iMember].cb = cbMember;
460 cHits++;
461 break;
462 }
463 pszCur += cchCur + 1;
464 }
465 }
466 }
467 return cHits;
468}
469
470
471/**
472 * Resets the writable structure members prior to processing a PDB.
473 *
474 * While processing the PDB, will fill in the sizes and offsets of what we find.
475 * Afterwards we'll use look for reset values to see that every structure and
476 * member was located successfully.
477 */
478static void resetMyStructs(void)
479{
480 for (uint32_t i = 0; i < RT_ELEMENTS(g_aStructs); i++)
481 {
482 PMYMEMBER paMembers = g_aStructs[i].paMembers;
483 uint32_t j = g_aStructs[i].cMembers;
484 while (j-- > 0)
485 {
486 paMembers[j].off = UINT32_MAX;
487 paMembers[j].cb = UINT32_MAX;
488 }
489 }
490}
491
492
493/**
494 * Find members in the specified structure type (@a idxType).
495 *
496 * @returns Fully bitched exit code.
497 * @param hFake Fake process handle.
498 * @param uModAddr The module address.
499 * @param idxType The type index of the structure which members we're
500 * going to process.
501 * @param cWantedMembers The number of wanted members.
502 * @param paWantedMembers The wanted members. This will be modified.
503 * @param offDisp Displacement when calculating member offsets.
504 * @param pszStructNm The top level structure name.
505 * @param pszPrefix The member name prefix.
506 * @param pszLogTag The log tag.
507 */
508static RTEXITCODE findMembers(HANDLE hFake, uint64_t uModAddr, uint32_t idxType,
509 uint32_t cWantedMembers, PMYMEMBER paWantedMembers,
510 uint32_t offDisp, const char *pszStructNm, const char *pszPrefix, const char *pszLogTag)
511{
512 RTEXITCODE rcExit = RTEXITCODE_SUCCESS;
513
514 DWORD cChildren = 0;
515 if (!SymGetTypeInfo(hFake, uModAddr, idxType, TI_GET_CHILDRENCOUNT, &cChildren))
516 return RTMsgErrorExit(RTEXITCODE_FAILURE, "%s: TI_GET_CHILDRENCOUNT failed on _KPRCB: %u\n", pszLogTag, GetLastError());
517
518 MyDbgPrintf(" %s: cChildren=%u (%#x)\n", pszStructNm, cChildren);
519 TI_FINDCHILDREN_PARAMS *pChildren;
520 pChildren = (TI_FINDCHILDREN_PARAMS *)alloca(RT_OFFSETOF(TI_FINDCHILDREN_PARAMS, ChildId[cChildren]));
521 pChildren->Start = 0;
522 pChildren->Count = cChildren;
523 if (!SymGetTypeInfo(hFake, uModAddr, idxType, TI_FINDCHILDREN, pChildren))
524 return RTMsgErrorExit(RTEXITCODE_FAILURE, "%s: TI_FINDCHILDREN failed on _KPRCB: %u\n", pszLogTag, GetLastError());
525
526 for (uint32_t i = 0; i < cChildren; i++)
527 {
528 //MyDbgPrintf(" %s: child#%u: TypeIndex=%u\n", pszStructNm, i, pChildren->ChildId[i]);
529 IMAGEHLP_SYMBOL_TYPE_INFO enmErr;
530 PWCHAR pwszMember = NULL;
531 uint32_t idxRefType = 0;
532 uint32_t offMember = 0;
533 uint64_t cbMember = 0;
534 uint32_t cMemberChildren = 0;
535 if ( SymGetTypeInfo(hFake, uModAddr, pChildren->ChildId[i], enmErr = TI_GET_SYMNAME, &pwszMember)
536 && SymGetTypeInfo(hFake, uModAddr, pChildren->ChildId[i], enmErr = TI_GET_OFFSET, &offMember)
537 && SymGetTypeInfo(hFake, uModAddr, pChildren->ChildId[i], enmErr = TI_GET_TYPE, &idxRefType)
538 && SymGetTypeInfo(hFake, uModAddr, idxRefType, enmErr = TI_GET_LENGTH, &cbMember)
539 && SymGetTypeInfo(hFake, uModAddr, idxRefType, enmErr = TI_GET_CHILDRENCOUNT, &cMemberChildren)
540 )
541 {
542 offMember += offDisp;
543
544 char *pszMember;
545 int rc = RTUtf16ToUtf8(pwszMember, &pszMember);
546 if (RT_SUCCESS(rc))
547 {
548 matchUpStructMembers(cWantedMembers, paWantedMembers, pszPrefix, pszMember, offMember, cbMember);
549
550 /*
551 * Gather more info and do some debug printing. We'll use some
552 * of this info below when recursing into sub-structures
553 * and arrays.
554 */
555 uint32_t fNested = 0; SymGetTypeInfo(hFake, uModAddr, idxRefType, TI_GET_NESTED, &fNested);
556 uint32_t uDataKind = 0; SymGetTypeInfo(hFake, uModAddr, idxRefType, TI_GET_DATAKIND, &uDataKind);
557 uint32_t uBaseType = 0; SymGetTypeInfo(hFake, uModAddr, idxRefType, TI_GET_BASETYPE, &uBaseType);
558 uint32_t uMembTag = 0; SymGetTypeInfo(hFake, uModAddr, pChildren->ChildId[i], TI_GET_SYMTAG, &uMembTag);
559 uint32_t uBaseTag = 0; SymGetTypeInfo(hFake, uModAddr, idxRefType, TI_GET_SYMTAG, &uBaseTag);
560 uint32_t cElements = 0; SymGetTypeInfo(hFake, uModAddr, idxRefType, TI_GET_COUNT, &cElements);
561 uint32_t idxArrayType = 0; SymGetTypeInfo(hFake, uModAddr, idxRefType, TI_GET_ARRAYINDEXTYPEID, &idxArrayType);
562 MyDbgPrintf(" %#06x LB %#06llx %c%c %2d %2d %2d %2d %2d %4d %s::%s%s\n",
563 offMember, cbMember,
564 cMemberChildren > 0 ? 'c' : '-',
565 fNested != 0 ? 'n' : '-',
566 uDataKind,
567 uBaseType,
568 uMembTag,
569 uBaseTag,
570 cElements,
571 idxArrayType,
572 pszStructNm,
573 pszPrefix,
574 pszMember);
575
576 /*
577 * Recurse into children.
578 */
579 if (cMemberChildren > 0)
580 {
581 size_t cbNeeded = strlen(pszMember) + strlen(pszPrefix) + sizeof(".");
582 char *pszSubPrefix = (char *)RTMemTmpAlloc(cbNeeded);
583 if (pszSubPrefix)
584 {
585 strcat(strcat(strcpy(pszSubPrefix, pszPrefix), pszMember), ".");
586 RTEXITCODE rcExit2 = findMembers(hFake, uModAddr, idxRefType, cWantedMembers,
587 paWantedMembers, offMember,
588 pszStructNm,
589 pszSubPrefix,
590 pszLogTag);
591 if (rcExit2 != RTEXITCODE_SUCCESS)
592 rcExit = rcExit2;
593 RTMemTmpFree(pszSubPrefix);
594 }
595 else
596 rcExit = RTMsgErrorExit(RTEXITCODE_FAILURE, "out of memory\n");
597 }
598 /*
599 * Recurse into arrays too.
600 */
601 else if (cElements > 0 && idxArrayType > 0)
602 {
603 BOOL fRc;
604 uint32_t idxElementRefType = 0;
605 fRc = SymGetTypeInfo(hFake, uModAddr, idxRefType, TI_GET_TYPE, &idxElementRefType); Assert(fRc);
606 uint64_t cbElement = cbMember / cElements;
607 fRc = SymGetTypeInfo(hFake, uModAddr, idxElementRefType, TI_GET_LENGTH, &cbElement); Assert(fRc);
608 MyDbgPrintf("idxArrayType=%u idxElementRefType=%u cbElement=%u\n", idxArrayType, idxElementRefType, cbElement);
609
610 size_t cbNeeded = strlen(pszMember) + strlen(pszPrefix) + sizeof("[xxxxxxxxxxxxxxxx].");
611 char *pszSubPrefix = (char *)RTMemTmpAlloc(cbNeeded);
612 if (pszSubPrefix)
613 {
614 for (uint32_t iElement = 0; iElement < cElements; iElement++)
615 {
616 RTStrPrintf(pszSubPrefix, cbNeeded, "%s%s[%u].", pszPrefix, pszMember, iElement);
617 RTEXITCODE rcExit2 = findMembers(hFake, uModAddr, idxElementRefType, cWantedMembers,
618 paWantedMembers,
619 offMember + iElement * cbElement,
620 pszStructNm,
621 pszSubPrefix,
622 pszLogTag);
623 if (rcExit2 != RTEXITCODE_SUCCESS)
624 rcExit = rcExit2;
625 }
626 RTMemTmpFree(pszSubPrefix);
627 }
628 else
629 rcExit = RTMsgErrorExit(RTEXITCODE_FAILURE, "out of memory\n");
630 }
631
632 RTStrFree(pszMember);
633 }
634 else
635 rcExit = RTMsgErrorExit(RTEXITCODE_FAILURE, "%s: RTUtf16ToUtf8 failed on %s child#%u: %Rrc\n",
636 pszLogTag, pszStructNm, i, rc);
637 }
638 /* TI_GET_OFFSET fails on bitfields, so just ignore+skip those. */
639 else if (enmErr != TI_GET_OFFSET || GetLastError() != ERROR_INVALID_FUNCTION)
640 rcExit = RTMsgErrorExit(RTEXITCODE_FAILURE, "%s: SymGetTypeInfo(,,,%d,) failed on %s child#%u: %u\n",
641 pszLogTag, enmErr, pszStructNm, i, GetLastError());
642 LocalFree(pwszMember);
643 } /* For each child. */
644
645 return rcExit;
646}
647
648
649/**
650 * Lookup up structures and members in the given module.
651 *
652 * @returns Fully bitched exit code.
653 * @param hFake Fake process handle.
654 * @param uModAddr The module address.
655 * @param pszLogTag The log tag.
656 */
657static RTEXITCODE findStructures(HANDLE hFake, uint64_t uModAddr, const char *pszLogTag)
658{
659 RTEXITCODE rcExit = RTEXITCODE_SUCCESS;
660 PSYMBOL_INFO pSymInfo = (PSYMBOL_INFO)alloca(sizeof(*pSymInfo));
661 for (uint32_t iStruct = 0; iStruct < RT_ELEMENTS(g_aStructs); iStruct++)
662 {
663 pSymInfo->SizeOfStruct = sizeof(*pSymInfo);
664 pSymInfo->MaxNameLen = 0;
665 if (!SymGetTypeFromName(hFake, uModAddr, g_aStructs[iStruct].pszName, pSymInfo))
666 return RTMsgErrorExit(RTEXITCODE_FAILURE, "%s: Failed to find _KPRCB: %u\n", pszLogTag, GetLastError());
667
668 MyDbgPrintf(" %s: TypeIndex=%u\n", g_aStructs[iStruct].pszName, pSymInfo->TypeIndex);
669 MyDbgPrintf(" %s: Size=%u (%#x)\n", g_aStructs[iStruct].pszName, pSymInfo->Size, pSymInfo->Size);
670
671 rcExit = findMembers(hFake, uModAddr, pSymInfo->TypeIndex,
672 g_aStructs[iStruct].cMembers, g_aStructs[iStruct].paMembers, 0 /* offDisp */,
673 g_aStructs[iStruct].pszName, "", pszLogTag);
674 if (rcExit != RTEXITCODE_SUCCESS)
675 return rcExit;
676 } /* for each struct we want */
677 return rcExit;
678}
679
680
681static bool strIEndsWith(const char *pszString, const char *pszSuffix)
682{
683 size_t cchString = strlen(pszString);
684 size_t cchSuffix = strlen(pszSuffix);
685 if (cchString < cchSuffix)
686 return false;
687 return RTStrICmp(pszString + cchString - cchSuffix, pszSuffix) == 0;
688}
689
690
691/**
692 * Use various hysterics to figure out the OS version details from the PDB path.
693 *
694 * This ASSUMES quite a bunch of things:
695 * -# Working on unpacked symbol packages. This does not work for
696 * windbg symbol stores/caches.
697 * -# The symbol package has been unpacked into a directory with the same
698 * name as the symbol package (sans suffixes).
699 *
700 * @returns Fully complained exit code.
701 * @param pszPdb The path to the PDB.
702 * @param pVerInfo Where to return the version info.
703 * @param penmArch Where to return the architecture.
704 */
705static RTEXITCODE FigurePdbVersionInfo(const char *pszPdb, PRTNTSDBOSVER pVerInfo, MYARCH *penmArch)
706{
707 /*
708 * Split the path.
709 */
710 union
711 {
712 RTPATHSPLIT Split;
713 uint8_t abPad[RTPATH_MAX + 1024];
714 } u;
715 int rc = RTPathSplit(pszPdb, &u.Split, sizeof(u), 0);
716 if (RT_FAILURE(rc))
717 return RTMsgErrorExit(RTEXITCODE_FAILURE, "RTPathSplit failed on '%s': %Rrc", pszPdb, rc);
718 if (!(u.Split.fProps & RTPATH_PROP_FILENAME))
719 return RTMsgErrorExit(RTEXITCODE_FAILURE, "RTPATH_PROP_FILENAME not set for: '%s'", pszPdb);
720 const char *pszFilename = u.Split.apszComps[u.Split.cComps - 1];
721
722 /*
723 * SMP or UNI kernel?
724 */
725 if ( !RTStrICmp(pszFilename, "ntkrnlmp.pdb")
726 || !RTStrICmp(pszFilename, "ntkrpamp.pdb")
727 )
728 pVerInfo->fSmp = true;
729 else if ( !RTStrICmp(pszFilename, "ntoskrnl.pdb")
730 || !RTStrICmp(pszFilename, "ntkrnlpa.pdb")
731 )
732 pVerInfo->fSmp = false;
733 else
734 return RTMsgErrorExit(RTEXITCODE_FAILURE, "Doesn't recognize the filename '%s'...", pszFilename);
735
736 /*
737 * Look for symbol pack names in the path. This is stuff like:
738 * - WindowsVista.6002.090410-1830.x86fre
739 * - WindowsVista.6002.090410-1830.amd64chk
740 * - Windows_Win7.7600.16385.090713-1255.X64CHK
741 * - Windows_Win7SP1.7601.17514.101119-1850.AMD64FRE
742 * - Windows_Win8.9200.16384.120725-1247.X86CHK
743 */
744 bool fFound = false;
745 uint32_t i = u.Split.cComps - 1;
746 while (i-- > 0)
747 {
748 static struct
749 {
750 const char *pszPrefix;
751 size_t cchPrefix;
752 uint8_t uMajorVer;
753 uint8_t uMinorVer;
754 uint8_t uCsdNo;
755 uint32_t uBuildNo; /**< UINT32_MAX means the number immediately after the prefix. */
756 } const s_aSymPacks[] =
757 {
758 { RT_STR_TUPLE("windowsxp"), 5, 1, 0, 2600 },
759 { RT_STR_TUPLE("xpsp1sym"), 5, 1, 1, 2600 },
760 { RT_STR_TUPLE("WindowsXP-KB835935-SP2-"), 5, 1, 2, 2600 },
761 { RT_STR_TUPLE("WindowsXP-KB936929-SP3-"), 5, 1, 3, 2600 },
762 { RT_STR_TUPLE("Windows2003."), 5, 2, 0, 3790 },
763 { RT_STR_TUPLE("Windows2003_sp1."), 5, 2, 1, 3790 },
764 { RT_STR_TUPLE("WindowsServer2003-KB933548-v1"), 5, 2, 1, 3790 },
765 { RT_STR_TUPLE("WindowsVista.6000."), 6, 0, 0, 6000 },
766 { RT_STR_TUPLE("Windows_Longhorn.6001."), 6, 0, 1, 6001 }, /* incl w2k8 */
767 { RT_STR_TUPLE("WindowsVista.6002."), 6, 0, 2, 6002 }, /* incl w2k8 */
768 { RT_STR_TUPLE("Windows_Winmain.7000"), 6, 1, 0, 7000 }, /* Beta */
769 { RT_STR_TUPLE("Windows_Winmain.7100"), 6, 1, 0, 7100 }, /* RC */
770 { RT_STR_TUPLE("Windows_Win7.7600"), 6, 1, 0, 7600 }, /* RC */
771 { RT_STR_TUPLE("Windows_Win7SP1.7601"), 6, 1, 1, 7601 }, /* RC */
772 { RT_STR_TUPLE("Windows_Winmain.8102"), 6, 1, 0, 8102 }, /* preview */
773 { RT_STR_TUPLE("Windows_Winmain.8250"), 6, 1, 0, 8250 }, /* beta */
774 { RT_STR_TUPLE("Windows_Winmain.8400"), 6, 1, 0, 8400 }, /* RC */
775 { RT_STR_TUPLE("Windows_Win8.9200"), 6, 1, 0, 9200 }, /* RTM */
776 };
777
778 const char *pszComp = u.Split.apszComps[i];
779 uint32_t iSymPack = RT_ELEMENTS(s_aSymPacks);
780 while (iSymPack-- > 0)
781 if (!RTStrNICmp(pszComp, s_aSymPacks[iSymPack].pszPrefix, s_aSymPacks[iSymPack].cchPrefix))
782 break;
783 if (iSymPack >= RT_ELEMENTS(s_aSymPacks))
784 continue;
785
786 pVerInfo->uMajorVer = s_aSymPacks[iSymPack].uMajorVer;
787 pVerInfo->uMinorVer = s_aSymPacks[iSymPack].uMinorVer;
788 pVerInfo->uCsdNo = s_aSymPacks[iSymPack].uCsdNo;
789 pVerInfo->fChecked = false;
790 pVerInfo->uBuildNo = s_aSymPacks[iSymPack].uBuildNo;
791
792 /* Parse build number if necessary. */
793 if (s_aSymPacks[iSymPack].uBuildNo == UINT32_MAX)
794 {
795 char *pszNext;
796 rc = RTStrToUInt32Ex(pszComp + s_aSymPacks[iSymPack].cchPrefix, &pszNext, 10, &pVerInfo->uBuildNo);
797 if (RT_FAILURE(rc))
798 return RTMsgErrorExit(RTEXITCODE_FAILURE, "Failed to decode build number in '%s': %Rrc", pszComp, rc);
799 if (*pszNext != '.' && *pszNext != '_' && *pszNext != '-')
800 return RTMsgErrorExit(RTEXITCODE_FAILURE, "Failed to decode build number in '%s': '%c'", pszComp, *pszNext);
801 }
802
803 /* Look for build arch and checked/free. */
804 if ( RTStrIStr(pszComp, ".x86.chk.")
805 || RTStrIStr(pszComp, ".x86chk.")
806 || RTStrIStr(pszComp, "_x86_chk_")
807 || RTStrIStr(pszComp, "_x86chk_")
808 || RTStrIStr(pszComp, "-x86-DEBUG")
809 || (RTStrIStr(pszComp, "-x86-") && RTStrIStr(pszComp, "-DEBUG"))
810 )
811 {
812 pVerInfo->fChecked = true;
813 *penmArch = MYARCH_X86;
814 }
815 else if ( RTStrIStr(pszComp, ".amd64.chk.")
816 || RTStrIStr(pszComp, ".amd64chk.")
817 || RTStrIStr(pszComp, ".x64.chk.")
818 || RTStrIStr(pszComp, ".x64chk.")
819 )
820 {
821 pVerInfo->fChecked = true;
822 *penmArch = MYARCH_AMD64;
823 }
824 else if ( RTStrIStr(pszComp, ".amd64.fre.")
825 || RTStrIStr(pszComp, ".amd64fre.")
826 || RTStrIStr(pszComp, ".x64.fre.")
827 || RTStrIStr(pszComp, ".x64fre.")
828 )
829 {
830 pVerInfo->fChecked = false;
831 *penmArch = MYARCH_AMD64;
832 }
833 else if (RTStrIStr(pszComp, "DEBUG"))
834 {
835 pVerInfo->fChecked = true;
836 *penmArch = MYARCH_X86;
837 }
838 else
839 {
840 pVerInfo->fChecked = false;
841 *penmArch = MYARCH_X86;
842 }
843 return RTEXITCODE_SUCCESS;
844 }
845
846
847 /*
848 * testing only
849 */
850 if (strIEndsWith(pszPdb, "ntkrnlmp.pdb\\B2DA40502FA744C18B9022FD187ADB592\\ntkrnlmp.pdb"))
851 {
852 pVerInfo->uMajorVer = 6;
853 pVerInfo->uMinorVer = 1;
854 pVerInfo->fChecked = false;
855 pVerInfo->uCsdNo = 1;
856 pVerInfo->uBuildNo = 7601;
857 }
858 else
859 return RTMsgErrorExit(RTEXITCODE_FAILURE, "Giving up on '%s'...\n", pszPdb);
860
861
862 return RTEXITCODE_SUCCESS;
863}
864
865
866/**
867 * Process one PDB.
868 *
869 * @returns Fully bitched exit code.
870 * @param pszPdb The path to the PDB.
871 */
872static RTEXITCODE processPdb(const char *pszPdb)
873{
874 /*
875 * We need the size later on, so get that now and present proper IPRT error
876 * info if the file is missing or inaccessible.
877 */
878 RTFSOBJINFO ObjInfo;
879 int rc = RTPathQueryInfoEx(pszPdb, &ObjInfo, RTFSOBJATTRADD_NOTHING, RTPATH_F_FOLLOW_LINK);
880 if (RT_FAILURE(rc))
881 return RTMsgErrorExit(RTEXITCODE_FAILURE, "RTPathQueryInfo fail on '%s': %Rrc\n", pszPdb, rc);
882
883 /*
884 * Figure the windows version details for the given PDB.
885 */
886 MYARCH enmArch;
887 RTNTSDBOSVER OsVerInfo;
888 RTEXITCODE rcExit = FigurePdbVersionInfo(pszPdb, &OsVerInfo, &enmArch);
889 if (rcExit != RTEXITCODE_SUCCESS)
890 return RTMsgErrorExit(RTEXITCODE_FAILURE, "Failed to figure the OS version info for '%s'.\n'", pszPdb);
891
892 /*
893 * Create a fake handle and open the PDB.
894 */
895 static uintptr_t s_iHandle = 0;
896 HANDLE hFake = (HANDLE)++s_iHandle;
897 if (!SymInitialize(hFake, NULL, FALSE))
898 return RTMsgErrorExit(RTEXITCODE_FAILURE, "SymInitialied failed: %u\n", GetLastError());
899
900 uint64_t uModAddr = UINT64_C(0x1000000);
901 uModAddr = SymLoadModuleEx(hFake, NULL /*hFile*/, pszPdb, NULL /*pszModuleName*/,
902 uModAddr, ObjInfo.cbObject, NULL /*pData*/, 0 /*fFlags*/);
903 if (uModAddr != 0)
904 {
905 MyDbgPrintf("*** uModAddr=%#llx \"%s\" ***\n", uModAddr, pszPdb);
906
907 char szLogTag[32];
908 RTStrCopy(szLogTag, sizeof(szLogTag), RTPathFilename(pszPdb));
909
910 /*
911 * Find the structures.
912 */
913 rcExit = findStructures(hFake, uModAddr, szLogTag);
914 if (rcExit == RTEXITCODE_SUCCESS)
915 rcExit = checkThatWeFoundEverything();
916 if (rcExit == RTEXITCODE_SUCCESS)
917 {
918 /*
919 * Save the details for later when we produce the header.
920 */
921 rcExit = saveStructures(&OsVerInfo, enmArch, pszPdb);
922 }
923 }
924 else
925 rcExit = RTMsgErrorExit(RTEXITCODE_FAILURE, "SymLoadModuleEx failed: %u\n", GetLastError());
926
927 if (!SymCleanup(hFake))
928 rcExit = RTMsgErrorExit(RTEXITCODE_FAILURE, "SymCleanup failed: %u\n", GetLastError());
929 return rcExit;
930}
931
932
933/** The size of the directory entry buffer we're using. */
934#define MY_DIRENTRY_BUF_SIZE (sizeof(RTDIRENTRYEX) + RTPATH_MAX)
935
936
937/**
938 * Recursively processes relevant files in the specified directory.
939 *
940 * @returns Fully complained exit code.
941 * @param pszDir Pointer to the directory buffer.
942 * @param cchDir The length of pszDir in pszDir.
943 * @param pDirEntry Pointer to the directory buffer.
944 */
945static RTEXITCODE processDirSub(char *pszDir, size_t cchDir, PRTDIRENTRYEX pDirEntry)
946{
947 Assert(cchDir > 0); Assert(pszDir[cchDir] == '\0');
948
949 /* Make sure we've got some room in the path, to save us extra work further down. */
950 if (cchDir + 3 >= RTPATH_MAX)
951 return RTMsgErrorExit(RTEXITCODE_FAILURE, "Path too long: '%s'\n", pszDir);
952
953 /* Open directory. */
954 PRTDIR pDir;
955 int rc = RTDirOpen(&pDir, pszDir);
956 if (RT_FAILURE(rc))
957 return RTMsgErrorExit(RTEXITCODE_FAILURE, "RTDirOpen failed on '%s': %Rrc\n", pszDir, rc);
958
959 /* Ensure we've got a trailing slash (there is space for it see above). */
960 if (!RTPATH_IS_SEP(pszDir[cchDir - 1]))
961 {
962 pszDir[cchDir++] = RTPATH_SLASH;
963 pszDir[cchDir] = '\0';
964 }
965
966 /*
967 * Process the files and subdirs.
968 */
969 RTEXITCODE rcExit = RTEXITCODE_SUCCESS;
970 for (;;)
971 {
972 /* Get the next directory. */
973 size_t cbDirEntry = MY_DIRENTRY_BUF_SIZE;
974 rc = RTDirReadEx(pDir, pDirEntry, &cbDirEntry, RTFSOBJATTRADD_UNIX, RTPATH_F_ON_LINK);
975 if (RT_FAILURE(rc))
976 break;
977
978 /* Skip the dot and dot-dot links. */
979 if ( (pDirEntry->cbName == 1 && pDirEntry->szName[0] == '.')
980 || (pDirEntry->cbName == 2 && pDirEntry->szName[0] == '.' && pDirEntry->szName[1] == '.'))
981 continue;
982
983 /* Check length. */
984 if (pDirEntry->cbName + cchDir + 3 >= RTPATH_MAX)
985 {
986 rcExit = RTMsgErrorExit(RTEXITCODE_FAILURE, "Path too long: '%s' in '%.*s'\n", pDirEntry->szName, cchDir, pszDir);
987 break;
988 }
989
990 if (RTFS_IS_FILE(pDirEntry->Info.Attr.fMode))
991 {
992 /* Is this a file which might interest us? */
993 static struct { const char *psz; size_t cch; } const s_aNames[] =
994 {
995 RT_STR_TUPLE("ntoskrnl.dbg"),
996 RT_STR_TUPLE("ntoskrnl.pdb"),
997 RT_STR_TUPLE("ntkrnlmp.dbg"),
998 RT_STR_TUPLE("ntkrnlmp.pdb"),
999 RT_STR_TUPLE("ntkrnlpa.pdb"),
1000 RT_STR_TUPLE("ntkrnlpa.dbg"),
1001 RT_STR_TUPLE("ntkrpamp.pdb"),
1002 RT_STR_TUPLE("ntkrpamp.dbg"),
1003 };
1004 if ( pDirEntry->cbName == sizeof("ntkrpamp.dbg") - 1
1005 && (pDirEntry->szName[0] == 'n' || pDirEntry->szName[0] == 'N')
1006 && (pDirEntry->szName[1] == 't' || pDirEntry->szName[1] == 'T')
1007 )
1008 {
1009 int i = RT_ELEMENTS(s_aNames);
1010 while (i-- > 0)
1011 if ( s_aNames[i].cch == pDirEntry->cbName
1012 && !RTStrICmp(s_aNames[i].psz, pDirEntry->szName))
1013 {
1014 /*
1015 * Found debug info file of interest, process it.
1016 */
1017 memcpy(&pszDir[cchDir], pDirEntry->szName, pDirEntry->cbName + 1);
1018 RTEXITCODE rcExit2 = processPdb(pszDir);
1019 if (rcExit2 != RTEXITCODE_SUCCESS)
1020 rcExit = rcExit2;
1021 break;
1022 }
1023 }
1024 }
1025 else if (RTFS_IS_DIRECTORY(pDirEntry->Info.Attr.fMode))
1026 {
1027 /*
1028 * Recurse into the subdirectory.
1029 * Note! When we get back pDirEntry will be invalid.
1030 */
1031 memcpy(&pszDir[cchDir], pDirEntry->szName, pDirEntry->cbName + 1);
1032 RTEXITCODE rcExit2 = processDirSub(pszDir, cchDir + pDirEntry->cbName, pDirEntry);
1033 if (rcExit2 != RTEXITCODE_SUCCESS)
1034 rcExit = rcExit2;
1035 }
1036 }
1037 if (rc != VERR_NO_MORE_FILES)
1038 rcExit = RTMsgErrorExit(RTEXITCODE_FAILURE, "RTDirReadEx failed: %Rrc\npszDir=%.*s", rc, cchDir, pszDir);
1039
1040 rc = RTDirClose(pDir);
1041 if (RT_FAILURE(rc))
1042 rcExit = RTMsgErrorExit(RTEXITCODE_FAILURE, "RTDirClose failed: %Rrc\npszDir=%.*s", rc, cchDir, pszDir);
1043 return rcExit;
1044}
1045
1046
1047/**
1048 * Recursively processes relevant files in the specified directory.
1049 *
1050 * @returns Fully complained exit code.
1051 * @param pszDir The directory to search.
1052 */
1053static RTEXITCODE processDir(const char *pszDir)
1054{
1055 char szPath[RTPATH_MAX];
1056 int rc = RTPathAbs(pszDir, szPath, sizeof(szPath));
1057 if (RT_FAILURE(rc))
1058 return RTMsgErrorExit(RTEXITCODE_FAILURE, "RTPathAbs failed on '%s': %Rrc\n", pszDir, rc);
1059
1060 union
1061 {
1062 uint8_t abPadding[MY_DIRENTRY_BUF_SIZE];
1063 RTDIRENTRYEX DirEntry;
1064 } uBuf;
1065 return processDirSub(szPath, strlen(szPath), &uBuf.DirEntry);
1066}
1067
1068
1069int main(int argc, char **argv)
1070{
1071 int rc = RTR3InitExe(argc, &argv, 0 /*fFlags*/);
1072 if (RT_FAILURE(rc))
1073 return RTMsgInitFailure(rc);
1074
1075 RTListInit(&g_SetList);
1076
1077 /*
1078 * Parse options.
1079 */
1080 static const RTGETOPTDEF s_aOptions[] =
1081 {
1082 { "--force", 'f', RTGETOPT_REQ_NOTHING },
1083 { "--output", 'o', RTGETOPT_REQ_STRING },
1084 { "--verbose", 'v', RTGETOPT_REQ_NOTHING },
1085 };
1086
1087 RTEXITCODE rcExit = RTEXITCODE_SUCCESS;
1088 const char *pszOutput = "-";
1089
1090 int ch;
1091 RTGETOPTUNION ValueUnion;
1092 RTGETOPTSTATE GetState;
1093 RTGetOptInit(&GetState, argc, argv, s_aOptions, RT_ELEMENTS(s_aOptions), 1,
1094 RTGETOPTINIT_FLAGS_OPTS_FIRST);
1095 while ((ch = RTGetOpt(&GetState, &ValueUnion)) != 0)
1096 {
1097 switch (ch)
1098 {
1099 case 'f':
1100 g_fOptForce = true;
1101 break;
1102
1103 case 'v':
1104 g_fOptVerbose = true;
1105 break;
1106
1107 case 'o':
1108 pszOutput = ValueUnion.psz;
1109 break;
1110
1111 case 'V':
1112 RTPrintf("$Revision: 45443 $");
1113 break;
1114
1115 case 'h':
1116 RTPrintf("usage: %s [-v|--verbose] [-f|--force] [-o|--output <file.h>] <dir1|pdb1> [...]\n"
1117 " or: %s [-V|--version]\n"
1118 " or: %s [-h|--help]\n",
1119 argv[0], argv[0], argv[0]);
1120 return RTEXITCODE_SUCCESS;
1121
1122 case VINF_GETOPT_NOT_OPTION:
1123 {
1124 RTEXITCODE rcExit2;
1125 if (RTFileExists(ValueUnion.psz))
1126 rcExit2 = processPdb(ValueUnion.psz);
1127 else
1128 rcExit2 = processDir(ValueUnion.psz);
1129 if (rcExit2 != RTEXITCODE_SUCCESS)
1130 {
1131 if (!g_fOptForce)
1132 return rcExit2;
1133 rcExit = rcExit2;
1134 }
1135 break;
1136 }
1137
1138 default:
1139 return RTGetOptPrintError(ch, &ValueUnion);
1140 }
1141 }
1142 if (RTListIsEmpty(&g_SetList))
1143 return RTMsgErrorExit(RTEXITCODE_FAILURE, "No usable debug files found.\n");
1144
1145 /*
1146 * Generate the output.
1147 */
1148 PRTSTREAM pOut = g_pStdOut;
1149 if (strcmp(pszOutput, "-"))
1150 {
1151 rc = RTStrmOpen(pszOutput, "w", &pOut);
1152 if (RT_FAILURE(rc))
1153 return RTMsgErrorExit(RTEXITCODE_FAILURE, "Error opening '%s' for writing: %Rrc\n", pszOutput, rc);
1154 }
1155
1156 generateHeader(pOut);
1157
1158 if (pOut != g_pStdOut)
1159 rc = RTStrmClose(pOut);
1160 else
1161 rc = RTStrmFlush(pOut);
1162 if (RT_FAILURE(rc))
1163 return RTMsgErrorExit(RTEXITCODE_FAILURE, "Error %s '%s': %Rrc\n", pszOutput,
1164 pOut != g_pStdOut ? "closing" : "flushing", rc);
1165 return rcExit;
1166}
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