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|
/* $Id: dbgmodmapsym.cpp $ */
/** @file
* IPRT - Debug Map Reader for MAPSYM files (used by SYMDBG from old MASM).
*
* MAPSYM is was the tool producing these files from linker map files for
* use with SYMDBG (which shipped with MASM 3.0 (possibly earlier)), the OS/2
* kernel debugger, and other tools. The format is very limited and they had
* to strip down the os2krnl.map file in later years to keep MAPSYM happy.
*/
/*
* Copyright (C) 2009-2019 Oracle Corporation
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software
* Foundation, in version 2 as it comes in the "COPYING" file of the
* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
*
* The contents of this file may alternatively be used under the terms
* of the Common Development and Distribution License Version 1.0
* (CDDL) only, as it comes in the "COPYING.CDDL" file of the
* VirtualBox OSE distribution, in which case the provisions of the
* CDDL are applicable instead of those of the GPL.
*
* You may elect to license modified versions of this file under the
* terms and conditions of either the GPL or the CDDL or both.
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#define LOG_GROUP RTLOGGROUP_DBG
#include <iprt/dbg.h>
#include "internal/iprt.h"
#include <iprt/err.h>
#include <iprt/ctype.h>
#include <iprt/file.h>
#include <iprt/log.h>
#include <iprt/mem.h>
#include <iprt/stream.h>
#include <iprt/string.h>
#include "internal/dbgmod.h"
/*********************************************************************************************************************************
* Structures and Typedefs *
*********************************************************************************************************************************/
/** @name MAPSYM structures and constants.
* @{ */
/** MAPSYM: Header structure. */
typedef struct MAPSYMHDR
{
uint16_t off16NextMap; /**< 0x00: Offset of the next map divided by 16. */
uint8_t bFlags; /**< 0x02: Who really knows... */
uint8_t bReserved; /**< 0x03: Reserved / unknown. */
uint16_t uSegEntry; /**< 0x04: Some entrypoint/segment thing we don't care about. */
uint16_t cConsts; /**< 0x06: Constants referenced by offConstDef. */
uint16_t offConstDef; /**< 0x08: Offset to head of constant chain. Not div 16? */
uint16_t cSegs; /**< 0x0a: Number of segments in the map. */
uint16_t off16SegDef; /**< 0x0c: Offset of the segment defintions divided by 16. */
uint8_t cchMaxSym; /**< 0x0e: Maximum symbol-name length. */
uint8_t cchModule; /**< 0x0f: Length of the module name. */
char achModule[RT_FLEXIBLE_ARRAY]; /**< 0x10: Module name, length given by cchModule. */
} MAPSYMHDR;
/** MAPSYM: Tail structure. */
typedef struct MAPSYMTAIL
{
uint16_t offNextMap; /**< 0x00: Always zero (it's the tail, see). */
uint8_t bRelease; /**< 0x02: Minor version number. */
uint8_t bVersion; /**< 0x03: Major version number. */
} MAPSYMTAIL;
/** MAPSYM: Segment defintion. */
typedef struct MAPSYMSEGDEF
{
uint16_t off16NextSeg; /**< 0x00: Offset of the next segment divided by 16. */
uint16_t cSymbols; /**< 0x02: Number of symbol offsets . */
uint16_t offSymbolOffsets; /**< 0x04: Offset of the symbol offset table. Each entry is a 16-bit value giving
* the offset symbol relative to this structure. */
uint16_t au16Reserved0[4]; /**< 0x06: Reserved / unknown.
* First byte/word seems to be 1-based segment number. */
uint8_t bFlags; /**< 0x0e: MAPSYMSEGDEF_F_32BIT or zero. */
uint8_t bReserved1; /**< 0x0f: Reserved / unknown. */
uint16_t offLineDef; /**< 0x10: Offset to the line defintions. */
uint16_t u16Reserved2; /**< 0x12: Reserved / unknown. Often seen holding 0xff00. */
uint8_t cchSegName; /**< 0x14: Segment name length. */
char achSegName[RT_FLEXIBLE_ARRAY]; /**< 0x15: Segment name, length given by cchSegName. */
} MAPSYMSEGDEF;
#define MAPSYMSEGDEF_F_32BIT UINT8_C(0x01) /**< Indicates 32-bit segment rather than 16-bit, relevant for symbols. */
#define MAPSYMSEGDEF_F_UNKNOWN UINT8_C(0x02) /**< Set on all segments in os2krnlr.sym from ACP2. */
/** MAPSYM: 16-bit symbol */
typedef struct MAPSYMSYMDEF16
{
uint16_t uValue; /**< 0x00: The symbol value (address). */
uint8_t cchName; /**< 0x02: Symbol name length. */
char achName[1]; /**< 0x03: The symbol name, length give by cchName. */
} MAPSYMSYMDEF16;
/** MAPSYM: 16-bit symbol */
typedef struct MAPSYMSYMDEF32
{
uint32_t uValue; /**< 0x00: The symbol value (address). */
uint8_t cchName; /**< 0x04: Symbol name length. */
char achName[1]; /**< 0x05: The symbol name, length give by cchName. */
} MAPSYMSYMDEF32;
/** MAPSYM: Line number defintions. */
typedef struct MAPSYMLINEDEF
{
uint16_t off16NextLine; /**< 0x00: Offset to the next line defintion divided by 16. */
uint16_t uSegment; /**< 0x02: Guessing this must be segment number. */
uint16_t offLines; /**< 0x04: Offset to the line number array, relative to this structure. */
uint16_t cLines; /**< 0x08: Number of line numbers in the array. */
uint8_t cchSrcFile; /**< 0x0a: Length of source filename. */
char achSrcFile[RT_FLEXIBLE_ARRAY]; /**< 0x0b: Source filename, length given by cchSrcFile. */
} MAPSYMLINEDEF;
/** MAPSYM: 16-bit line numbers. */
typedef struct MAPSYMLINENO16
{
uint16_t offSeg;
uint16_t uLineNo;
} MAPSYMLINENO16;
/** @} */
/*********************************************************************************************************************************
* Defined Constants And Macros *
*********************************************************************************************************************************/
/** Maximum number of segments we expect in a MAPSYM file. */
#define RTDBGMODMAPSYM_MAX_SEGMENTS 256
/** @interface_method_impl{RTDBGMODVTDBG,pfnUnwindFrame} */
static DECLCALLBACK(int) rtDbgModMapSym_UnwindFrame(PRTDBGMODINT pMod, RTDBGSEGIDX iSeg, RTUINTPTR off, PRTDBGUNWINDSTATE pState)
{
RT_NOREF(pMod, iSeg, off, pState);
return VERR_DBG_NO_UNWIND_INFO;
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnLineByAddr} */
static DECLCALLBACK(int) rtDbgModMapSym_LineByAddr(PRTDBGMODINT pMod, RTDBGSEGIDX iSeg, RTUINTPTR off,
PRTINTPTR poffDisp, PRTDBGLINE pLineInfo)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
return RTDbgModLineByAddr(hCnt, iSeg, off, poffDisp, pLineInfo);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnLineByOrdinal} */
static DECLCALLBACK(int) rtDbgModMapSym_LineByOrdinal(PRTDBGMODINT pMod, uint32_t iOrdinal, PRTDBGLINE pLineInfo)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
return RTDbgModLineByOrdinal(hCnt, iOrdinal, pLineInfo);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnLineCount} */
static DECLCALLBACK(uint32_t) rtDbgModMapSym_LineCount(PRTDBGMODINT pMod)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
return RTDbgModLineCount(hCnt);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnLineAdd} */
static DECLCALLBACK(int) rtDbgModMapSym_LineAdd(PRTDBGMODINT pMod, const char *pszFile, size_t cchFile, uint32_t uLineNo,
uint32_t iSeg, RTUINTPTR off, uint32_t *piOrdinal)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
Assert(!pszFile[cchFile]); NOREF(cchFile);
return RTDbgModLineAdd(hCnt, pszFile, uLineNo, iSeg, off, piOrdinal);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnSymbolByAddr} */
static DECLCALLBACK(int) rtDbgModMapSym_SymbolByAddr(PRTDBGMODINT pMod, RTDBGSEGIDX iSeg, RTUINTPTR off, uint32_t fFlags,
PRTINTPTR poffDisp, PRTDBGSYMBOL pSymInfo)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
return RTDbgModSymbolByAddr(hCnt, iSeg, off, fFlags, poffDisp, pSymInfo);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnSymbolByName} */
static DECLCALLBACK(int) rtDbgModMapSym_SymbolByName(PRTDBGMODINT pMod, const char *pszSymbol, size_t cchSymbol,
PRTDBGSYMBOL pSymInfo)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
Assert(!pszSymbol[cchSymbol]); NOREF(cchSymbol);
return RTDbgModSymbolByName(hCnt, pszSymbol, pSymInfo);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnSymbolByOrdinal} */
static DECLCALLBACK(int) rtDbgModMapSym_SymbolByOrdinal(PRTDBGMODINT pMod, uint32_t iOrdinal, PRTDBGSYMBOL pSymInfo)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
return RTDbgModSymbolByOrdinal(hCnt, iOrdinal, pSymInfo);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnSymbolCount} */
static DECLCALLBACK(uint32_t) rtDbgModMapSym_SymbolCount(PRTDBGMODINT pMod)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
return RTDbgModSymbolCount(hCnt);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnSymbolAdd} */
static DECLCALLBACK(int) rtDbgModMapSym_SymbolAdd(PRTDBGMODINT pMod, const char *pszSymbol, size_t cchSymbol,
RTDBGSEGIDX iSeg, RTUINTPTR off, RTUINTPTR cb, uint32_t fFlags,
uint32_t *piOrdinal)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
Assert(!pszSymbol[cchSymbol]); NOREF(cchSymbol);
return RTDbgModSymbolAdd(hCnt, pszSymbol, iSeg, off, cb, fFlags, piOrdinal);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnSegmentByIndex} */
static DECLCALLBACK(int) rtDbgModMapSym_SegmentByIndex(PRTDBGMODINT pMod, RTDBGSEGIDX iSeg, PRTDBGSEGMENT pSegInfo)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
return RTDbgModSegmentByIndex(hCnt, iSeg, pSegInfo);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnSegmentCount} */
static DECLCALLBACK(RTDBGSEGIDX) rtDbgModMapSym_SegmentCount(PRTDBGMODINT pMod)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
return RTDbgModSegmentCount(hCnt);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnSegmentAdd} */
static DECLCALLBACK(int) rtDbgModMapSym_SegmentAdd(PRTDBGMODINT pMod, RTUINTPTR uRva, RTUINTPTR cb, const char *pszName,
size_t cchName, uint32_t fFlags, PRTDBGSEGIDX piSeg)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
Assert(!pszName[cchName]); NOREF(cchName);
return RTDbgModSegmentAdd(hCnt, uRva, cb, pszName, fFlags, piSeg);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnImageSize} */
static DECLCALLBACK(RTUINTPTR) rtDbgModMapSym_ImageSize(PRTDBGMODINT pMod)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
return RTDbgModImageSize(hCnt);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnRvaToSegOff} */
static DECLCALLBACK(RTDBGSEGIDX) rtDbgModMapSym_RvaToSegOff(PRTDBGMODINT pMod, RTUINTPTR uRva, PRTUINTPTR poffSeg)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
return RTDbgModRvaToSegOff(hCnt, uRva, poffSeg);
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnClose} */
static DECLCALLBACK(int) rtDbgModMapSym_Close(PRTDBGMODINT pMod)
{
RTDBGMOD hCnt = (RTDBGMOD)pMod->pvDbgPriv;
RTDbgModRelease(hCnt);
pMod->pvDbgPriv = NULL;
return VINF_SUCCESS;
}
/**
* Validate the module header.
*
* @returns true if valid, false if not.
* @param pHdr The header.
* @param cbAvail How much we've actually read.
* @param cbFile The file size (relative to module header).
*/
static bool rtDbgModMapSymIsValidHeader(MAPSYMHDR const *pHdr, size_t cbAvail, uint64_t cbFile)
{
if (cbAvail <= RT_UOFFSETOF(MAPSYMHDR, achModule))
return false;
if (pHdr->cSegs == 0)
return false;
if (pHdr->cSegs > RTDBGMODMAPSYM_MAX_SEGMENTS)
return false;
if (pHdr->off16SegDef == 0)
return false;
if (pHdr->off16SegDef * (uint32_t)16 >= cbFile)
return false;
if (pHdr->cchModule == 0)
return false;
if (pHdr->cchModule > 128) /* Note must be smaller than abPadding below in caller */
return false;
size_t cchMaxName = cbAvail - RT_UOFFSETOF(MAPSYMHDR, achModule);
if (pHdr->cchModule > cchMaxName)
return false;
for (uint32_t i = 0; i < pHdr->cchModule; i++)
{
unsigned char const uch = pHdr->achModule[i];
if ( uch < 0x20
|| uch >= 0x7f)
return false;
}
return true;
}
/**
* Validate the given segment definition.
*
* @returns true if valid, false if not.
* @param pSegDef The segment definition structure.
* @param cbMax Host many bytes are available starting with pSegDef.
*/
static bool rtDbgModMapSymIsValidSegDef(MAPSYMSEGDEF const *pSegDef, size_t cbMax)
{
if (RT_UOFFSETOF(MAPSYMSEGDEF, achSegName) > cbMax)
return false;
if (pSegDef->cSymbols)
{
if (pSegDef->cSymbols > _32K)
{
Log(("rtDbgModMapSymIsValidSegDef: Too many symbols: %#x\n", pSegDef->cSymbols));
return false;
}
if (pSegDef->offSymbolOffsets + (uint32_t)2 * pSegDef->cSymbols > cbMax)
{
Log(("rtDbgModMapSymIsValidSegDef: Bad symbol offset/count: %#x/%#x\n", pSegDef->offSymbolOffsets, pSegDef->cSymbols));
return false;
}
}
size_t cchMaxName = cbMax - RT_UOFFSETOF(MAPSYMHDR, achModule);
if (pSegDef->cchSegName > cchMaxName)
{
Log(("rtDbgModMapSymIsValidSegDef: Bad segment name length\n"));
return false;
}
for (uint32_t i = 0; i < pSegDef->cchSegName; i++)
{
unsigned char uch = pSegDef->achSegName[i];
if ( uch < 0x20
|| uch >= 0x7f)
{
Log(("rtDbgModMapSymIsValidSegDef: Bad segment name: %.*Rhxs\n", pSegDef->cchSegName, pSegDef->achSegName));
return false;
}
}
return true;
}
/**
* Fills @a hCnt with segments and symbols from the MAPSYM file.
*
* @note We only support reading the first module, right now.
*/
static int rtDbgModMapSymReadIt(RTDBGMOD hCnt, uint8_t const *pbFile, size_t cbFile)
{
/*
* Revalidate the header.
*/
MAPSYMHDR const *pHdr = (MAPSYMHDR const *)pbFile;
if (!rtDbgModMapSymIsValidHeader(pHdr, cbFile, cbFile))
return VERR_DBG_NO_MATCHING_INTERPRETER;
Log(("rtDbgModMapSymReadIt: szModule='%.*s' cSegs=%u off16NextMap=%#x\n",
pHdr->cchModule, pHdr->achModule, pHdr->cSegs, pHdr->off16NextMap));
/*
* Load each segment.
*/
uint32_t uRva = 0;
uint32_t const cSegs = pHdr->cSegs;
uint32_t offSegment = pHdr->off16SegDef * (uint32_t)16;
for (uint32_t iSeg = 0; iSeg < cSegs; iSeg++)
{
if (offSegment >= cbFile)
return VERR_DBG_NO_MATCHING_INTERPRETER;
size_t const cbMax = cbFile - offSegment;
MAPSYMSEGDEF const *pSegDef = (MAPSYMSEGDEF const *)&pbFile[offSegment];
if (!rtDbgModMapSymIsValidSegDef(pSegDef, cbMax))
return VERR_DBG_NO_MATCHING_INTERPRETER;
Log(("rtDbgModMapSymReadIt: Segment #%u: flags=%#x name='%.*s' symbols=%#x @ %#x next=%#x lines=@%#x (reserved: %#x %#x %#x %#x %#x %#x)\n",
iSeg, pSegDef->bFlags, pSegDef->cchSegName, pSegDef->achSegName, pSegDef->cSymbols, pSegDef->offSymbolOffsets,
pSegDef->off16NextSeg, pSegDef->offLineDef, pSegDef->au16Reserved0[0], pSegDef->au16Reserved0[1],
pSegDef->au16Reserved0[2], pSegDef->au16Reserved0[3], pSegDef->bReserved1, pSegDef->u16Reserved2));
/*
* First symbol pass finds the largest symbol and uses that as the segment size.
*/
uint32_t cbSegmentEst = 0;
uint32_t const cSymbols = pSegDef->cSymbols;
uint16_t const * const paoffSymbols = (uint16_t const *)&pbFile[offSegment + pSegDef->offSymbolOffsets];
bool const fIs32Bit = RT_BOOL(pSegDef->bFlags & MAPSYMSEGDEF_F_32BIT);
uint32_t const cbSymDef = fIs32Bit ? 4 + 1 : 2 + 1;
for (uint32_t iSymbol = 0; iSymbol < cSymbols; iSymbol++)
{
uint32_t off = paoffSymbols[iSymbol] + offSegment;
if (off + cbSymDef <= cbFile)
{
uint32_t uValue = fIs32Bit ? *(uint32_t const *)&pbFile[off] : (uint32_t)*(uint16_t const *)&pbFile[off];
if (uValue > cbSegmentEst)
cbSegmentEst = uValue;
}
else
Log(("rtDbgModMapSymReadIt: Bad symbol offset %#x\n", off));
}
/*
* Add the segment.
*/
char szName[256];
memcpy(szName, pSegDef->achSegName, pSegDef->cchSegName);
szName[pSegDef->cchSegName] = '\0';
if (!pSegDef->cchSegName)
RTStrPrintf(szName, sizeof(szName), "seg%02u", iSeg);
RTDBGSEGIDX idxDbgSeg = iSeg;
int rc = RTDbgModSegmentAdd(hCnt, uRva, cbSegmentEst, szName, 0 /*fFlags*/, &idxDbgSeg);
if (RT_FAILURE(rc))
return rc;
uRva += cbSegmentEst;
/*
* The second symbol pass loads the symbol values and names.
*/
for (uint32_t iSymbol = 0; iSymbol < cSymbols; iSymbol++)
{
uint32_t off = paoffSymbols[iSymbol] + offSegment;
if (off + cbSymDef <= cbFile)
{
/* Get value: */
uint32_t uValue = RT_MAKE_U16(pbFile[off], pbFile[off + 1]);
off += 2;
if (fIs32Bit)
{
uValue |= RT_MAKE_U32_FROM_U8(0, 0, pbFile[off], pbFile[off + 1]);
off += 2;
}
/* Get name: */
uint8_t cchName = pbFile[off++];
if (off + cchName <= cbFile)
{
memcpy(szName, &pbFile[off], cchName);
szName[cchName] = '\0';
RTStrPurgeEncoding(szName);
}
else
cchName = 0;
if (cchName == 0)
RTStrPrintf(szName, sizeof(szName), "unknown_%u_%u", iSeg, iSymbol);
/* Try add it: */
rc = RTDbgModSymbolAdd(hCnt, szName, idxDbgSeg, uValue, 0 /*cb*/, 0 /*fFlags*/, NULL /*piOrdinal*/);
if (RT_SUCCESS(rc))
Log7(("rtDbgModMapSymReadIt: %02x:%06x %s\n", idxDbgSeg, uValue, szName));
else if ( rc == VERR_DBG_DUPLICATE_SYMBOL
|| rc == VERR_DBG_ADDRESS_CONFLICT
|| rc == VERR_DBG_SYMBOL_NAME_OUT_OF_RANGE)
Log(("rtDbgModMapSymReadIt: %02x:%06x %s\n", idxDbgSeg, uValue, szName));
else
{
Log(("rtDbgModMapSymReadIt: Unexpected RTDbgModSymbolAdd failure: %Rrc - %02x:%06x %s\n",
rc, idxDbgSeg, uValue, szName));
return rc;
}
}
}
/* Next segment */
offSegment = pSegDef->off16NextSeg * (uint32_t)16;
}
return VINF_SUCCESS;
}
/** @interface_method_impl{RTDBGMODVTDBG,pfnTryOpen} */
static DECLCALLBACK(int) rtDbgModMapSym_TryOpen(PRTDBGMODINT pMod, RTLDRARCH enmArch)
{
NOREF(enmArch);
/*
* Fend off images.
*/
if ( !pMod->pszDbgFile
|| pMod->pImgVt)
return VERR_DBG_NO_MATCHING_INTERPRETER;
pMod->pvDbgPriv = NULL;
/*
* Try open the file and check out the first header.
*/
RTFILE hFile;
int rc = RTFileOpen(&hFile, pMod->pszDbgFile, RTFILE_O_READ | RTFILE_O_OPEN | RTFILE_O_DENY_WRITE);
if (RT_SUCCESS(rc))
{
uint64_t cbFile = 0;
rc = RTFileGetSize(hFile, &cbFile);
if ( RT_SUCCESS(rc)
&& cbFile < _2M)
{
union
{
MAPSYMHDR Hdr;
char abPadding[sizeof(MAPSYMHDR) + 257]; /* rtDbgModMapSymIsValidHeader makes size assumptions. */
} uBuf;
size_t cbToRead = (size_t)RT_MIN(cbFile, sizeof(uBuf));
rc = RTFileReadAt(hFile, 0, &uBuf, RT_MIN(cbFile, sizeof(uBuf)), NULL);
if (RT_SUCCESS(rc))
{
if (rtDbgModMapSymIsValidHeader(&uBuf.Hdr, cbToRead, cbFile))
{
uBuf.Hdr.achModule[uBuf.Hdr.cchModule] = '\0';
/*
* Read the whole thing into memory, create an
* instance/container and load it with symbols.
*/
void *pvFile = NULL;
size_t cbFile2 = 0;
rc = RTFileReadAllByHandle(hFile, &pvFile, &cbFile2);
if (RT_SUCCESS(rc))
{
RTDBGMOD hCnt;
rc = RTDbgModCreate(&hCnt, uBuf.Hdr.achModule, 0 /*cbSeg*/, 0 /*fFlags*/);
if (RT_SUCCESS(rc))
{
rc = rtDbgModMapSymReadIt(hCnt, (uint8_t const *)pvFile, cbFile2);
if (RT_SUCCESS(rc))
pMod->pvDbgPriv = hCnt;
else
RTDbgModRelease(hCnt);
}
RTFileReadAllFree(pvFile, cbFile2);
}
}
else
rc = VERR_DBG_NO_MATCHING_INTERPRETER;
}
}
RTFileClose(hFile);
}
Log(("rtDbgModMapSym_TryOpen: %s -> %Rrc, %p\n", pMod->pszDbgFile, rc, pMod->pvDbgPriv));
return rc;
}
/** Virtual function table for the MAPSYM file reader. */
DECL_HIDDEN_CONST(RTDBGMODVTDBG) const g_rtDbgModVtDbgMapSym =
{
/*.u32Magic = */ RTDBGMODVTDBG_MAGIC,
/*.fSupports = */ RT_DBGTYPE_SYM,
/*.pszName = */ "mapsym",
/*.pfnTryOpen = */ rtDbgModMapSym_TryOpen,
/*.pfnClose = */ rtDbgModMapSym_Close,
/*.pfnRvaToSegOff = */ rtDbgModMapSym_RvaToSegOff,
/*.pfnImageSize = */ rtDbgModMapSym_ImageSize,
/*.pfnSegmentAdd = */ rtDbgModMapSym_SegmentAdd,
/*.pfnSegmentCount = */ rtDbgModMapSym_SegmentCount,
/*.pfnSegmentByIndex = */ rtDbgModMapSym_SegmentByIndex,
/*.pfnSymbolAdd = */ rtDbgModMapSym_SymbolAdd,
/*.pfnSymbolCount = */ rtDbgModMapSym_SymbolCount,
/*.pfnSymbolByOrdinal = */ rtDbgModMapSym_SymbolByOrdinal,
/*.pfnSymbolByName = */ rtDbgModMapSym_SymbolByName,
/*.pfnSymbolByAddr = */ rtDbgModMapSym_SymbolByAddr,
/*.pfnLineAdd = */ rtDbgModMapSym_LineAdd,
/*.pfnLineCount = */ rtDbgModMapSym_LineCount,
/*.pfnLineByOrdinal = */ rtDbgModMapSym_LineByOrdinal,
/*.pfnLineByAddr = */ rtDbgModMapSym_LineByAddr,
/*.pfnUnwindFrame = */ rtDbgModMapSym_UnwindFrame,
/*.u32EndMagic = */ RTDBGMODVTDBG_MAGIC
};
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