/* $Id: dbgas.cpp 69111 2017-10-17 14:26:02Z vboxsync $ */ /** @file * IPRT - Debug Address Space. */ /* * Copyright (C) 2009-2017 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 * *********************************************************************************************************************************/ #include #include "internal/iprt.h" #include #include #include #include #include #include #include #include #include "internal/magics.h" /********************************************************************************************************************************* * Structures and Typedefs * *********************************************************************************************************************************/ /** Pointer to a module table entry. */ typedef struct RTDBGASMOD *PRTDBGASMOD; /** Pointer to an address space mapping node. */ typedef struct RTDBGASMAP *PRTDBGASMAP; /** Pointer to a name head. */ typedef struct RTDBGASNAME *PRTDBGASNAME; /** * Module entry. */ typedef struct RTDBGASMOD { /** Node core, the module handle is the key. */ AVLPVNODECORE Core; /** Pointer to the first mapping of the module or a segment within it. */ PRTDBGASMAP pMapHead; /** Pointer to the next module with an identical name. */ PRTDBGASMOD pNextName; /** The index into RTDBGASINT::papModules. */ uint32_t iOrdinal; } RTDBGASMOD; /** * An address space mapping, either of a full module or a segment. */ typedef struct RTDBGASMAP { /** The AVL node core. Contains the address range. */ AVLRUINTPTRNODECORE Core; /** Pointer to the next mapping of the module. */ PRTDBGASMAP pNext; /** Pointer to the module. */ PRTDBGASMOD pMod; /** Which segment in the module. * This is NIL_RTDBGSEGIDX when the entire module is mapped. */ RTDBGSEGIDX iSeg; } RTDBGASMAP; /** * Name in the address space. */ typedef struct RTDBGASNAME { /** The string space node core.*/ RTSTRSPACECORE StrCore; /** The list of nodes */ PRTDBGASMOD pHead; } RTDBGASNAME; /** * Debug address space instance. */ typedef struct RTDBGASINT { /** Magic value (RTDBGAS_MAGIC). */ uint32_t u32Magic; /** The number of reference to this address space. */ uint32_t volatile cRefs; /** Handle of the read-write lock. */ RTSEMRW hLock; /** Number of modules in the module address space. */ uint32_t cModules; /** Pointer to the module table. * The valid array length is given by cModules. */ PRTDBGASMOD *papModules; /** AVL tree translating module handles to module entries. */ AVLPVTREE ModTree; /** AVL tree mapping addresses to modules. */ AVLRUINTPTRTREE MapTree; /** Names of the modules in the name space. */ RTSTRSPACE NameSpace; /** The first address the AS. */ RTUINTPTR FirstAddr; /** The last address in the AS. */ RTUINTPTR LastAddr; /** The name of the address space. (variable length) */ char szName[1]; } RTDBGASINT; /** Pointer to an a debug address space instance. */ typedef RTDBGASINT *PRTDBGASINT; /********************************************************************************************************************************* * Defined Constants And Macros * *********************************************************************************************************************************/ /** Validates an address space handle and returns rc if not valid. */ #define RTDBGAS_VALID_RETURN_RC(pDbgAs, rc) \ do { \ AssertPtrReturn((pDbgAs), (rc)); \ AssertReturn((pDbgAs)->u32Magic == RTDBGAS_MAGIC, (rc)); \ AssertReturn((pDbgAs)->cRefs > 0, (rc)); \ } while (0) /** Locks the address space for reading. */ #define RTDBGAS_LOCK_READ(pDbgAs) \ do { \ int rcLock = RTSemRWRequestRead((pDbgAs)->hLock, RT_INDEFINITE_WAIT); \ AssertRC(rcLock); \ } while (0) /** Unlocks the address space after reading. */ #define RTDBGAS_UNLOCK_READ(pDbgAs) \ do { \ int rcLock = RTSemRWReleaseRead((pDbgAs)->hLock); \ AssertRC(rcLock); \ } while (0) /** Locks the address space for writing. */ #define RTDBGAS_LOCK_WRITE(pDbgAs) \ do { \ int rcLock = RTSemRWRequestWrite((pDbgAs)->hLock, RT_INDEFINITE_WAIT); \ AssertRC(rcLock); \ } while (0) /** Unlocks the address space after writing. */ #define RTDBGAS_UNLOCK_WRITE(pDbgAs) \ do { \ int rcLock = RTSemRWReleaseWrite((pDbgAs)->hLock); \ AssertRC(rcLock); \ } while (0) /********************************************************************************************************************************* * Internal Functions * *********************************************************************************************************************************/ static void rtDbgAsModuleUnlinkMod(PRTDBGASINT pDbgAs, PRTDBGASMOD pMod); static void rtDbgAsModuleUnlinkByMap(PRTDBGASINT pDbgAs, PRTDBGASMAP pMap); /** * Creates an empty address space. * * @returns IPRT status code. * * @param phDbgAs Where to store the address space handle on success. * @param FirstAddr The first address in the address space. * @param LastAddr The last address in the address space. * @param pszName The name of the address space. */ RTDECL(int) RTDbgAsCreate(PRTDBGAS phDbgAs, RTUINTPTR FirstAddr, RTUINTPTR LastAddr, const char *pszName) { /* * Input validation. */ AssertPtrReturn(phDbgAs, VERR_INVALID_POINTER); AssertPtrReturn(pszName, VERR_INVALID_POINTER); AssertReturn(FirstAddr < LastAddr, VERR_INVALID_PARAMETER); /* * Allocate memory for the instance data. */ size_t cchName = strlen(pszName); PRTDBGASINT pDbgAs = (PRTDBGASINT)RTMemAllocVar(RT_OFFSETOF(RTDBGASINT, szName[cchName + 1])); if (!pDbgAs) return VERR_NO_MEMORY; /* initialize it. */ pDbgAs->u32Magic = RTDBGAS_MAGIC; pDbgAs->cRefs = 1; pDbgAs->hLock = NIL_RTSEMRW; pDbgAs->cModules = 0; pDbgAs->papModules = NULL; pDbgAs->ModTree = NULL; pDbgAs->MapTree = NULL; pDbgAs->NameSpace = NULL; pDbgAs->FirstAddr = FirstAddr; pDbgAs->LastAddr = LastAddr; memcpy(pDbgAs->szName, pszName, cchName + 1); int rc = RTSemRWCreate(&pDbgAs->hLock); if (RT_SUCCESS(rc)) { *phDbgAs = pDbgAs; return VINF_SUCCESS; } pDbgAs->u32Magic = 0; RTMemFree(pDbgAs); return rc; } RT_EXPORT_SYMBOL(RTDbgAsCreate); /** * Variant of RTDbgAsCreate that takes a name format string. * * @returns IPRT status code. * * @param phDbgAs Where to store the address space handle on success. * @param FirstAddr The first address in the address space. * @param LastAddr The last address in the address space. * @param pszNameFmt The name format of the address space. * @param va Format arguments. */ RTDECL(int) RTDbgAsCreateV(PRTDBGAS phDbgAs, RTUINTPTR FirstAddr, RTUINTPTR LastAddr, const char *pszNameFmt, va_list va) { AssertPtrReturn(pszNameFmt, VERR_INVALID_POINTER); char *pszName; RTStrAPrintfV(&pszName, pszNameFmt, va); if (!pszName) return VERR_NO_MEMORY; int rc = RTDbgAsCreate(phDbgAs, FirstAddr, LastAddr, pszName); RTStrFree(pszName); return rc; } RT_EXPORT_SYMBOL(RTDbgAsCreateV); /** * Variant of RTDbgAsCreate that takes a name format string. * * @returns IPRT status code. * * @param phDbgAs Where to store the address space handle on success. * @param FirstAddr The first address in the address space. * @param LastAddr The last address in the address space. * @param pszNameFmt The name format of the address space. * @param ... Format arguments. */ RTDECL(int) RTDbgAsCreateF(PRTDBGAS phDbgAs, RTUINTPTR FirstAddr, RTUINTPTR LastAddr, const char *pszNameFmt, ...) { va_list va; va_start(va, pszNameFmt); int rc = RTDbgAsCreateV(phDbgAs, FirstAddr, LastAddr, pszNameFmt, va); va_end(va); return rc; } RT_EXPORT_SYMBOL(RTDbgAsCreateF); /** * Callback used by RTDbgAsDestroy to free all mapping nodes. * * @returns 0 * @param pNode The map node. * @param pvUser NULL. */ static DECLCALLBACK(int) rtDbgAsDestroyMapCallback(PAVLRUINTPTRNODECORE pNode, void *pvUser) { RTMemFree(pNode); NOREF(pvUser); return 0; } /** * Callback used by RTDbgAsDestroy to free all name space nodes. * * @returns 0 * @param pStr The name node. * @param pvUser NULL. */ static DECLCALLBACK(int) rtDbgAsDestroyNameCallback(PRTSTRSPACECORE pStr, void *pvUser) { RTMemFree(pStr); NOREF(pvUser); return 0; } /** * Destroys the address space. * * This means unlinking all the modules it currently contains, potentially * causing some or all of them to be destroyed as they are managed by * reference counting. * * @param pDbgAs The address space instance to be destroyed. */ static void rtDbgAsDestroy(PRTDBGASINT pDbgAs) { /* * Mark the address space invalid and release all the modules. */ ASMAtomicWriteU32(&pDbgAs->u32Magic, ~RTDBGAS_MAGIC); RTAvlrUIntPtrDestroy(&pDbgAs->MapTree, rtDbgAsDestroyMapCallback, NULL); RTStrSpaceDestroy(&pDbgAs->NameSpace, rtDbgAsDestroyNameCallback, NULL); uint32_t i = pDbgAs->cModules; while (i-- > 0) { PRTDBGASMOD pMod = pDbgAs->papModules[i]; AssertPtr(pMod); if (VALID_PTR(pMod)) { Assert(pMod->iOrdinal == i); RTDbgModRelease((RTDBGMOD)pMod->Core.Key); pMod->Core.Key = NIL_RTDBGMOD; pMod->iOrdinal = UINT32_MAX; RTMemFree(pMod); } pDbgAs->papModules[i] = NULL; } RTSemRWDestroy(pDbgAs->hLock); pDbgAs->hLock = NIL_RTSEMRW; RTMemFree(pDbgAs->papModules); pDbgAs->papModules = NULL; RTMemFree(pDbgAs); } /** * Retains another reference to the address space. * * @returns New reference count, UINT32_MAX on invalid handle (asserted). * * @param hDbgAs The address space handle. * * @remarks Will not take any locks. */ RTDECL(uint32_t) RTDbgAsRetain(RTDBGAS hDbgAs) { PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, UINT32_MAX); return ASMAtomicIncU32(&pDbgAs->cRefs); } RT_EXPORT_SYMBOL(RTDbgAsRetain); /** * Release a reference to the address space. * * When the reference count reaches zero, the address space is destroyed. * That means unlinking all the modules it currently contains, potentially * causing some or all of them to be destroyed as they are managed by * reference counting. * * @returns New reference count, UINT32_MAX on invalid handle (asserted). * * @param hDbgAs The address space handle. The NIL handle is quietly * ignored and 0 is returned. * * @remarks Will not take any locks. */ RTDECL(uint32_t) RTDbgAsRelease(RTDBGAS hDbgAs) { if (hDbgAs == NIL_RTDBGAS) return 0; PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, UINT32_MAX); uint32_t cRefs = ASMAtomicDecU32(&pDbgAs->cRefs); if (!cRefs) rtDbgAsDestroy(pDbgAs); return cRefs; } RT_EXPORT_SYMBOL(RTDbgAsRelease); RTDECL(int) RTDbgAsLockExcl(RTDBGAS hDbgAs) { PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); RTDBGAS_LOCK_WRITE(pDbgAs); return VINF_SUCCESS; } RT_EXPORT_SYMBOL(RTDbgAsLockExcl); RTDECL(int) RTDbgAsUnlockExcl(RTDBGAS hDbgAs) { PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); RTDBGAS_UNLOCK_WRITE(pDbgAs); return VINF_SUCCESS; } RT_EXPORT_SYMBOL(RTDbgAsUnlockExcl); /** * Gets the name of an address space. * * @returns read only address space name. * NULL if hDbgAs is invalid. * * @param hDbgAs The address space handle. * * @remarks Will not take any locks. */ RTDECL(const char *) RTDbgAsName(RTDBGAS hDbgAs) { PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, NULL); return pDbgAs->szName; } RT_EXPORT_SYMBOL(RTDbgAsName); /** * Gets the first address in an address space. * * @returns The address. * 0 if hDbgAs is invalid. * * @param hDbgAs The address space handle. * * @remarks Will not take any locks. */ RTDECL(RTUINTPTR) RTDbgAsFirstAddr(RTDBGAS hDbgAs) { PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, 0); return pDbgAs->FirstAddr; } RT_EXPORT_SYMBOL(RTDbgAsFirstAddr); /** * Gets the last address in an address space. * * @returns The address. * 0 if hDbgAs is invalid. * * @param hDbgAs The address space handle. * * @remarks Will not take any locks. */ RTDECL(RTUINTPTR) RTDbgAsLastAddr(RTDBGAS hDbgAs) { PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, 0); return pDbgAs->LastAddr; } RT_EXPORT_SYMBOL(RTDbgAsLastAddr); /** * Gets the number of modules in the address space. * * This can be used together with RTDbgAsModuleByIndex * to enumerate the modules. * * @returns The number of modules. * * @param hDbgAs The address space handle. * * @remarks Will not take any locks. */ RTDECL(uint32_t) RTDbgAsModuleCount(RTDBGAS hDbgAs) { PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, 0); return pDbgAs->cModules; } RT_EXPORT_SYMBOL(RTDbgAsModuleCount); /** * Common worker for RTDbgAsModuleLink and RTDbgAsModuleLinkSeg. * * @returns IPRT status code. * @param pDbgAs Pointer to the address space instance data. * @param hDbgMod The module to link. * @param iSeg The segment to link or NIL if all. * @param Addr The address we're linking it at. * @param cb The size of what we're linking. * @param pszName The name of the module. * @param fFlags See RTDBGASLINK_FLAGS_*. * * @remarks The caller must have locked the address space for writing. */ int rtDbgAsModuleLinkCommon(PRTDBGASINT pDbgAs, RTDBGMOD hDbgMod, RTDBGSEGIDX iSeg, RTUINTPTR Addr, RTUINTPTR cb, const char *pszName, uint32_t fFlags) { /* * Check that the requested space is undisputed. */ for (;;) { PRTDBGASMAP pAdjMod = (PRTDBGASMAP)RTAvlrUIntPtrGetBestFit(&pDbgAs->MapTree, Addr, false /* fAbove */); if ( pAdjMod && pAdjMod->Core.KeyLast >= Addr) { if (!(fFlags & RTDBGASLINK_FLAGS_REPLACE)) return VERR_ADDRESS_CONFLICT; rtDbgAsModuleUnlinkByMap(pDbgAs, pAdjMod); continue; } pAdjMod = (PRTDBGASMAP)RTAvlrUIntPtrGetBestFit(&pDbgAs->MapTree, Addr, true /* fAbove */); if ( pAdjMod && pAdjMod->Core.Key <= Addr + cb - 1) { if (!(fFlags & RTDBGASLINK_FLAGS_REPLACE)) return VERR_ADDRESS_CONFLICT; rtDbgAsModuleUnlinkByMap(pDbgAs, pAdjMod); continue; } break; } /* * First, create or find the module table entry. */ PRTDBGASMOD pMod = (PRTDBGASMOD)RTAvlPVGet(&pDbgAs->ModTree, hDbgMod); if (!pMod) { /* * Ok, we need a new entry. Grow the table if necessary. */ if (!(pDbgAs->cModules % 32)) { void *pvNew = RTMemRealloc(pDbgAs->papModules, sizeof(pDbgAs->papModules[0]) * (pDbgAs->cModules + 32)); if (!pvNew) return VERR_NO_MEMORY; pDbgAs->papModules = (PRTDBGASMOD *)pvNew; } pMod = (PRTDBGASMOD)RTMemAlloc(sizeof(*pMod)); if (!pMod) return VERR_NO_MEMORY; pMod->Core.Key = hDbgMod; pMod->pMapHead = NULL; pMod->pNextName = NULL; if (RT_UNLIKELY(!RTAvlPVInsert(&pDbgAs->ModTree, &pMod->Core))) { AssertFailed(); pDbgAs->cModules--; RTMemFree(pMod); return VERR_INTERNAL_ERROR; } pMod->iOrdinal = pDbgAs->cModules; pDbgAs->papModules[pDbgAs->cModules] = pMod; pDbgAs->cModules++; RTDbgModRetain(hDbgMod); /* * Add it to the name space. */ PRTDBGASNAME pName = (PRTDBGASNAME)RTStrSpaceGet(&pDbgAs->NameSpace, pszName); if (!pName) { size_t cchName = strlen(pszName); pName = (PRTDBGASNAME)RTMemAlloc(sizeof(*pName) + cchName + 1); if (!pName) { RTDbgModRelease(hDbgMod); pDbgAs->cModules--; RTAvlPVRemove(&pDbgAs->ModTree, hDbgMod); RTMemFree(pMod); return VERR_NO_MEMORY; } pName->StrCore.cchString = cchName; pName->StrCore.pszString = (char *)memcpy(pName + 1, pszName, cchName + 1); pName->pHead = pMod; if (!RTStrSpaceInsert(&pDbgAs->NameSpace, &pName->StrCore)) AssertFailed(); } else { /* quick, but unfair. */ pMod->pNextName = pName->pHead; pName->pHead = pMod; } } /* * Create a mapping node. */ int rc; PRTDBGASMAP pMap = (PRTDBGASMAP)RTMemAlloc(sizeof(*pMap)); if (pMap) { pMap->Core.Key = Addr; pMap->Core.KeyLast = Addr + cb - 1; pMap->pMod = pMod; pMap->iSeg = iSeg; if (RTAvlrUIntPtrInsert(&pDbgAs->MapTree, &pMap->Core)) { PRTDBGASMAP *pp = &pMod->pMapHead; while (*pp && (*pp)->Core.Key < Addr) pp = &(*pp)->pNext; pMap->pNext = *pp; *pp = pMap; return VINF_SUCCESS; } AssertFailed(); RTMemFree(pMap); rc = VERR_ADDRESS_CONFLICT; } else rc = VERR_NO_MEMORY; /* * Unlink the module if this was the only mapping. */ if (!pMod->pMapHead) rtDbgAsModuleUnlinkMod(pDbgAs, pMod); return rc; } /** * Links a module into the address space at the give address. * * The size of the mapping is determined using RTDbgModImageSize(). * * @returns IPRT status code. * @retval VERR_OUT_OF_RANGE if the specified address will put the module * outside the address space. * @retval VERR_ADDRESS_CONFLICT if the mapping clashes with existing mappings. * * @param hDbgAs The address space handle. * @param hDbgMod The module handle of the module to be linked in. * @param ImageAddr The address to link the module at. * @param fFlags See RTDBGASLINK_FLAGS_*. */ RTDECL(int) RTDbgAsModuleLink(RTDBGAS hDbgAs, RTDBGMOD hDbgMod, RTUINTPTR ImageAddr, uint32_t fFlags) { /* * Validate input. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); const char *pszName = RTDbgModName(hDbgMod); if (!pszName) return VERR_INVALID_HANDLE; RTUINTPTR cb = RTDbgModImageSize(hDbgMod); if (!cb) return VERR_OUT_OF_RANGE; if ( ImageAddr < pDbgAs->FirstAddr || ImageAddr > pDbgAs->LastAddr || ImageAddr + cb - 1 < pDbgAs->FirstAddr || ImageAddr + cb - 1 > pDbgAs->LastAddr || ImageAddr + cb - 1 < ImageAddr) return VERR_OUT_OF_RANGE; AssertReturn(!(fFlags & ~RTDBGASLINK_FLAGS_VALID_MASK), VERR_INVALID_PARAMETER); /* * Invoke worker common with RTDbgAsModuleLinkSeg. */ RTDBGAS_LOCK_WRITE(pDbgAs); int rc = rtDbgAsModuleLinkCommon(pDbgAs, hDbgMod, NIL_RTDBGSEGIDX, ImageAddr, cb, pszName, fFlags); RTDBGAS_UNLOCK_WRITE(pDbgAs); return rc; } RT_EXPORT_SYMBOL(RTDbgAsModuleLink); /** * Links a segment into the address space at the give address. * * The size of the mapping is determined using RTDbgModSegmentSize(). * * @returns IPRT status code. * @retval VERR_OUT_OF_RANGE if the specified address will put the module * outside the address space. * @retval VERR_ADDRESS_CONFLICT if the mapping clashes with existing mappings. * * @param hDbgAs The address space handle. * @param hDbgMod The module handle. * @param iSeg The segment number (0-based) of the segment to be * linked in. * @param SegAddr The address to link the segment at. * @param fFlags See RTDBGASLINK_FLAGS_*. */ RTDECL(int) RTDbgAsModuleLinkSeg(RTDBGAS hDbgAs, RTDBGMOD hDbgMod, RTDBGSEGIDX iSeg, RTUINTPTR SegAddr, uint32_t fFlags) { /* * Validate input. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); const char *pszName = RTDbgModName(hDbgMod); if (!pszName) return VERR_INVALID_HANDLE; RTUINTPTR cb = RTDbgModSegmentSize(hDbgMod, iSeg); if (!cb) return VERR_OUT_OF_RANGE; if ( SegAddr < pDbgAs->FirstAddr || SegAddr > pDbgAs->LastAddr || SegAddr + cb - 1 < pDbgAs->FirstAddr || SegAddr + cb - 1 > pDbgAs->LastAddr || SegAddr + cb - 1 < SegAddr) return VERR_OUT_OF_RANGE; AssertReturn(!(fFlags & ~RTDBGASLINK_FLAGS_VALID_MASK), VERR_INVALID_PARAMETER); /* * Invoke worker common with RTDbgAsModuleLinkSeg. */ RTDBGAS_LOCK_WRITE(pDbgAs); int rc = rtDbgAsModuleLinkCommon(pDbgAs, hDbgMod, iSeg, SegAddr, cb, pszName, fFlags); RTDBGAS_UNLOCK_WRITE(pDbgAs); return rc; } RT_EXPORT_SYMBOL(RTDbgAsModuleLinkSeg); /** * Worker for RTDbgAsModuleUnlink, RTDbgAsModuleUnlinkByAddr and rtDbgAsModuleLinkCommon. * * @param pDbgAs Pointer to the address space instance data. * @param pMod The module to unlink. * * @remarks The caller must have locked the address space for writing. */ static void rtDbgAsModuleUnlinkMod(PRTDBGASINT pDbgAs, PRTDBGASMOD pMod) { Assert(!pMod->pMapHead); /* * Unlink it from the name. */ const char *pszName = RTDbgModName((RTDBGMOD)pMod->Core.Key); PRTDBGASNAME pName = (PRTDBGASNAME)RTStrSpaceGet(&pDbgAs->NameSpace, pszName); AssertReturnVoid(pName); if (pName->pHead == pMod) pName->pHead = pMod->pNextName; else for (PRTDBGASMOD pCur = pName->pHead; pCur; pCur = pCur->pNextName) if (pCur->pNextName == pMod) { pCur->pNextName = pMod->pNextName; break; } pMod->pNextName = NULL; /* * Free the name if this was the last reference to it. */ if (!pName->pHead) { pName = (PRTDBGASNAME)RTStrSpaceRemove(&pDbgAs->NameSpace, pName->StrCore.pszString); Assert(pName); RTMemFree(pName); } /* * Remove it from the module handle tree. */ PAVLPVNODECORE pNode = RTAvlPVRemove(&pDbgAs->ModTree, pMod->Core.Key); Assert(pNode == &pMod->Core); NOREF(pNode); /* * Remove it from the module table by replacing it by the last entry. */ pDbgAs->cModules--; uint32_t iMod = pMod->iOrdinal; Assert(iMod <= pDbgAs->cModules); if (iMod != pDbgAs->cModules) { PRTDBGASMOD pTailMod = pDbgAs->papModules[pDbgAs->cModules]; pTailMod->iOrdinal = iMod; pDbgAs->papModules[iMod] = pTailMod; } pMod->iOrdinal = UINT32_MAX; /* * Free it. */ RTMemFree(pMod); } /** * Worker for RTDbgAsModuleUnlink and RTDbgAsModuleUnlinkByAddr. * * @param pDbgAs Pointer to the address space instance data. * @param pMap The map to unlink and free. * * @remarks The caller must have locked the address space for writing. */ static void rtDbgAsModuleUnlinkMap(PRTDBGASINT pDbgAs, PRTDBGASMAP pMap) { /* remove from the tree */ PAVLRUINTPTRNODECORE pNode = RTAvlrUIntPtrRemove(&pDbgAs->MapTree, pMap->Core.Key); Assert(pNode == &pMap->Core); NOREF(pNode); /* unlink */ PRTDBGASMOD pMod = pMap->pMod; if (pMod->pMapHead == pMap) pMod->pMapHead = pMap->pNext; else { bool fFound = false; for (PRTDBGASMAP pCur = pMod->pMapHead; pCur; pCur = pCur->pNext) if (pCur->pNext == pMap) { pCur->pNext = pMap->pNext; fFound = true; break; } Assert(fFound); } /* free it */ pMap->Core.Key = pMap->Core.KeyLast = 0; pMap->pNext = NULL; pMap->pMod = NULL; RTMemFree(pMap); } /** * Worker for RTDbgAsModuleUnlinkByAddr and rtDbgAsModuleLinkCommon that * unlinks a single mapping and releases the module if it's the last one. * * @param pDbgAs The address space instance. * @param pMap The mapping to unlink. * * @remarks The caller must have locked the address space for writing. */ static void rtDbgAsModuleUnlinkByMap(PRTDBGASINT pDbgAs, PRTDBGASMAP pMap) { /* * Unlink it from the address space. * Unlink the module as well if it's the last mapping it has. */ PRTDBGASMOD pMod = pMap->pMod; rtDbgAsModuleUnlinkMap(pDbgAs, pMap); if (!pMod->pMapHead) rtDbgAsModuleUnlinkMod(pDbgAs, pMod); } /** * Unlinks all the mappings of a module from the address space. * * @returns IPRT status code. * @retval VERR_NOT_FOUND if the module wasn't found. * * @param hDbgAs The address space handle. * @param hDbgMod The module handle of the module to be unlinked. */ RTDECL(int) RTDbgAsModuleUnlink(RTDBGAS hDbgAs, RTDBGMOD hDbgMod) { /* * Validate input. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); if (hDbgMod == NIL_RTDBGMOD) return VINF_SUCCESS; RTDBGAS_LOCK_WRITE(pDbgAs); PRTDBGASMOD pMod = (PRTDBGASMOD)RTAvlPVGet(&pDbgAs->ModTree, hDbgMod); if (!pMod) { RTDBGAS_UNLOCK_WRITE(pDbgAs); return VERR_NOT_FOUND; } /* * Unmap all everything and release the module. */ while (pMod->pMapHead) rtDbgAsModuleUnlinkMap(pDbgAs, pMod->pMapHead); rtDbgAsModuleUnlinkMod(pDbgAs, pMod); RTDBGAS_UNLOCK_WRITE(pDbgAs); return VINF_SUCCESS; } RT_EXPORT_SYMBOL(RTDbgAsModuleUnlink); /** * Unlinks the mapping at the specified address. * * @returns IPRT status code. * @retval VERR_NOT_FOUND if no module or segment is mapped at that address. * * @param hDbgAs The address space handle. * @param Addr The address within the mapping to be unlinked. */ RTDECL(int) RTDbgAsModuleUnlinkByAddr(RTDBGAS hDbgAs, RTUINTPTR Addr) { /* * Validate input. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); RTDBGAS_LOCK_WRITE(pDbgAs); PRTDBGASMAP pMap = (PRTDBGASMAP)RTAvlrUIntPtrRangeGet(&pDbgAs->MapTree, Addr); if (!pMap) { RTDBGAS_UNLOCK_WRITE(pDbgAs); return VERR_NOT_FOUND; } /* * Hand it to */ rtDbgAsModuleUnlinkByMap(pDbgAs, pMap); RTDBGAS_UNLOCK_WRITE(pDbgAs); return VINF_SUCCESS; } RT_EXPORT_SYMBOL(RTDbgAsModuleUnlinkByAddr); /** * Get a the handle of a module in the address space by is index. * * @returns A retained handle to the specified module. The caller must release * the returned reference. * NIL_RTDBGMOD if invalid index or handle. * * @param hDbgAs The address space handle. * @param iModule The index of the module to get. * * @remarks The module indexes may change after calls to RTDbgAsModuleLink, * RTDbgAsModuleLinkSeg, RTDbgAsModuleUnlink and * RTDbgAsModuleUnlinkByAddr. */ RTDECL(RTDBGMOD) RTDbgAsModuleByIndex(RTDBGAS hDbgAs, uint32_t iModule) { /* * Validate input. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, NIL_RTDBGMOD); RTDBGAS_LOCK_READ(pDbgAs); if (iModule >= pDbgAs->cModules) { RTDBGAS_UNLOCK_READ(pDbgAs); return NIL_RTDBGMOD; } /* * Get, retain and return it. */ RTDBGMOD hMod = (RTDBGMOD)pDbgAs->papModules[iModule]->Core.Key; RTDbgModRetain(hMod); RTDBGAS_UNLOCK_READ(pDbgAs); return hMod; } RT_EXPORT_SYMBOL(RTDbgAsModuleByIndex); /** * Queries mapping module information by handle. * * @returns IPRT status code. * @retval VERR_NOT_FOUND if no mapping was found at the specified address. * * @param hDbgAs The address space handle. * @param Addr Address within the mapping of the module or segment. * @param phMod Where to the return the retained module handle. * Optional. * @param pAddr Where to return the base address of the mapping. * Optional. * @param piSeg Where to return the segment index. This is set to * NIL if the entire module is mapped as a single * mapping. Optional. */ RTDECL(int) RTDbgAsModuleByAddr(RTDBGAS hDbgAs, RTUINTPTR Addr, PRTDBGMOD phMod, PRTUINTPTR pAddr, PRTDBGSEGIDX piSeg) { /* * Validate input. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); RTDBGAS_LOCK_READ(pDbgAs); PRTDBGASMAP pMap = (PRTDBGASMAP)RTAvlrUIntPtrRangeGet(&pDbgAs->MapTree, Addr); if (!pMap) { RTDBGAS_UNLOCK_READ(pDbgAs); return VERR_NOT_FOUND; } /* * Set up the return values. */ if (phMod) { RTDBGMOD hMod = (RTDBGMOD)pMap->pMod->Core.Key; RTDbgModRetain(hMod); *phMod = hMod; } if (pAddr) *pAddr = pMap->Core.Key; if (piSeg) *piSeg = pMap->iSeg; RTDBGAS_UNLOCK_READ(pDbgAs); return VINF_SUCCESS; } RT_EXPORT_SYMBOL(RTDbgAsModuleByAddr); /** * Queries mapping module information by name. * * @returns IPRT status code. * @retval VERR_NOT_FOUND if no mapping was found at the specified address. * @retval VERR_OUT_OF_RANGE if the name index was out of range. * * @param hDbgAs The address space handle. * @param pszName The module name. * @param iName There can be more than one module by the same name * in an address space. This argument indicates which * is meant. (0 based) * @param phMod Where to the return the retained module handle. */ RTDECL(int) RTDbgAsModuleByName(RTDBGAS hDbgAs, const char *pszName, uint32_t iName, PRTDBGMOD phMod) { /* * Validate input. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); AssertPtrReturn(phMod, VERR_INVALID_POINTER); RTDBGAS_LOCK_READ(pDbgAs); PRTDBGASNAME pName = (PRTDBGASNAME)RTStrSpaceGet(&pDbgAs->NameSpace, pszName); if (!pName) { RTDBGAS_UNLOCK_READ(pDbgAs); return VERR_NOT_FOUND; } PRTDBGASMOD pMod = pName->pHead; while (iName-- > 0) { pMod = pMod->pNextName; if (!pMod) { RTDBGAS_UNLOCK_READ(pDbgAs); return VERR_OUT_OF_RANGE; } } /* * Get, retain and return it. */ RTDBGMOD hMod = (RTDBGMOD)pMod->Core.Key; RTDbgModRetain(hMod); *phMod = hMod; RTDBGAS_UNLOCK_READ(pDbgAs); return VINF_SUCCESS; } RT_EXPORT_SYMBOL(RTDbgAsModuleByName); /** * Queries mapping information for a module given by index. * * @returns IRPT status code. * @retval VERR_INVALID_HANDLE if hDbgAs is invalid. * @retval VERR_OUT_OF_RANGE if the name index was out of range. * @retval VINF_BUFFER_OVERFLOW if the array is too small and the returned * information is incomplete. * * @param hDbgAs The address space handle. * @param iModule The index of the module to get. * @param paMappings Where to return the mapping information. The buffer * size is given by *pcMappings. * @param pcMappings IN: Size of the paMappings array. OUT: The number of * entries returned. * @param fFlags Flags for reserved for future use. MBZ. * * @remarks See remarks for RTDbgAsModuleByIndex regarding the volatility of the * iModule parameter. */ RTDECL(int) RTDbgAsModuleQueryMapByIndex(RTDBGAS hDbgAs, uint32_t iModule, PRTDBGASMAPINFO paMappings, uint32_t *pcMappings, uint32_t fFlags) { /* * Validate input. */ uint32_t const cMappings = *pcMappings; PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); AssertReturn(!fFlags, VERR_INVALID_PARAMETER); RTDBGAS_LOCK_READ(pDbgAs); if (iModule >= pDbgAs->cModules) { RTDBGAS_UNLOCK_READ(pDbgAs); return VERR_OUT_OF_RANGE; } /* * Copy the mapping information about the module. */ int rc = VINF_SUCCESS; PRTDBGASMAP pMap = pDbgAs->papModules[iModule]->pMapHead; uint32_t cMaps = 0; while (pMap) { if (cMaps >= cMappings) { rc = VINF_BUFFER_OVERFLOW; break; } paMappings[cMaps].Address = pMap->Core.Key; paMappings[cMaps].iSeg = pMap->iSeg; cMaps++; pMap = pMap->pNext; } RTDBGAS_UNLOCK_READ(pDbgAs); *pcMappings = cMaps; return rc; } RT_EXPORT_SYMBOL(RTDbgAsModuleQueryMapByIndex); /** * Internal worker that looks up and retains a module. * * @returns Module handle, NIL_RTDBGMOD if not found. * @param pDbgAs The address space instance data. * @param Addr Address within the module. * @param piSeg where to return the segment index. * @param poffSeg Where to return the segment offset. * @param pMapAddr The mapping address (RTDBGASMAP::Core.Key). */ DECLINLINE(RTDBGMOD) rtDbgAsModuleByAddr(PRTDBGASINT pDbgAs, RTUINTPTR Addr, PRTDBGSEGIDX piSeg, PRTUINTPTR poffSeg, PRTUINTPTR pMapAddr) { RTDBGMOD hMod = NIL_RTDBGMOD; RTDBGAS_LOCK_READ(pDbgAs); PRTDBGASMAP pMap = (PRTDBGASMAP)RTAvlrUIntPtrRangeGet(&pDbgAs->MapTree, Addr); if (pMap) { hMod = (RTDBGMOD)pMap->pMod->Core.Key; RTDbgModRetain(hMod); *piSeg = pMap->iSeg != NIL_RTDBGSEGIDX ? pMap->iSeg : RTDBGSEGIDX_RVA; *poffSeg = Addr - pMap->Core.Key; if (pMapAddr) *pMapAddr = pMap->Core.Key; } RTDBGAS_UNLOCK_READ(pDbgAs); return hMod; } /** * Adjusts the address to correspond to the mapping of the module/segment. * * @param pAddr The address to adjust (in/out). * @param iSeg The related segment. * @param hDbgMod The module handle. * @param MapAddr The mapping address. * @param iMapSeg The segment that's mapped, NIL_RTDBGSEGIDX or * RTDBGSEGIDX_RVA if the whole module is mapped here. */ DECLINLINE(void) rtDbgAsAdjustAddressByMapping(PRTUINTPTR pAddr, RTDBGSEGIDX iSeg, RTDBGMOD hDbgMod, RTUINTPTR MapAddr, RTDBGSEGIDX iMapSeg) { if (iSeg == RTDBGSEGIDX_ABS) return; if (iSeg == RTDBGSEGIDX_RVA) { if ( iMapSeg == RTDBGSEGIDX_RVA || iMapSeg == NIL_RTDBGSEGIDX) *pAddr += MapAddr; else { RTUINTPTR SegRva = RTDbgModSegmentRva(hDbgMod, iMapSeg); AssertReturnVoid(SegRva != RTUINTPTR_MAX); AssertMsg(SegRva <= *pAddr, ("SegRva=%RTptr *pAddr=%RTptr\n", SegRva, *pAddr)); *pAddr += MapAddr - SegRva; } } else { if ( iMapSeg != RTDBGSEGIDX_RVA && iMapSeg != NIL_RTDBGSEGIDX) { Assert(iMapSeg == iSeg); *pAddr += MapAddr; } else { RTUINTPTR SegRva = RTDbgModSegmentRva(hDbgMod, iSeg); AssertReturnVoid(SegRva != RTUINTPTR_MAX); *pAddr += MapAddr + SegRva; } } } /** * Adjusts the symbol value to correspond to the mapping of the module/segment. * * @param pSymbol The returned symbol info. * @param hDbgMod The module handle. * @param MapAddr The mapping address. * @param iMapSeg The segment that's mapped, NIL_RTDBGSEGIDX if the * whole module is mapped here. */ DECLINLINE(void) rtDbgAsAdjustSymbolValue(PRTDBGSYMBOL pSymbol, RTDBGMOD hDbgMod, RTUINTPTR MapAddr, RTDBGSEGIDX iMapSeg) { Assert(pSymbol->iSeg != NIL_RTDBGSEGIDX); Assert(pSymbol->offSeg == pSymbol->Value); rtDbgAsAdjustAddressByMapping(&pSymbol->Value, pSymbol->iSeg, hDbgMod, MapAddr, iMapSeg); } /** * Adjusts the line number address to correspond to the mapping of the module/segment. * * @param pLine The returned line number info. * @param hDbgMod The module handle. * @param MapAddr The mapping address. * @param iMapSeg The segment that's mapped, NIL_RTDBGSEGIDX if the * whole module is mapped here. */ DECLINLINE(void) rtDbgAsAdjustLineAddress(PRTDBGLINE pLine, RTDBGMOD hDbgMod, RTUINTPTR MapAddr, RTDBGSEGIDX iMapSeg) { Assert(pLine->iSeg != NIL_RTDBGSEGIDX); Assert(pLine->offSeg == pLine->Address); rtDbgAsAdjustAddressByMapping(&pLine->Address, pLine->iSeg, hDbgMod, MapAddr, iMapSeg); } /** * Adds a symbol to a module in the address space. * * @returns IPRT status code. See RTDbgModSymbolAdd for more specific ones. * @retval VERR_INVALID_HANDLE if hDbgAs is invalid. * @retval VERR_NOT_FOUND if no module was found at the specified address. * @retval VERR_NOT_SUPPORTED if the module interpret doesn't support adding * custom symbols. * * @param hDbgAs The address space handle. * @param pszSymbol The symbol name. * @param Addr The address of the symbol. * @param cb The size of the symbol. * @param fFlags Symbol flags. * @param piOrdinal Where to return the symbol ordinal on success. If * the interpreter doesn't do ordinals, this will be set to * UINT32_MAX. Optional */ RTDECL(int) RTDbgAsSymbolAdd(RTDBGAS hDbgAs, const char *pszSymbol, RTUINTPTR Addr, RTUINTPTR cb, uint32_t fFlags, uint32_t *piOrdinal) { /* * Validate input and resolve the address. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); RTDBGSEGIDX iSeg = NIL_RTDBGSEGIDX; /* shut up gcc */ RTUINTPTR offSeg = 0; RTDBGMOD hMod = rtDbgAsModuleByAddr(pDbgAs, Addr, &iSeg, &offSeg, NULL); if (hMod == NIL_RTDBGMOD) return VERR_NOT_FOUND; /* * Forward the call. */ int rc = RTDbgModSymbolAdd(hMod, pszSymbol, iSeg, offSeg, cb, fFlags, piOrdinal); RTDbgModRelease(hMod); return rc; } RT_EXPORT_SYMBOL(RTDbgAsSymbolAdd); /** * Creates a snapshot of the module table on the temporary heap. * * The caller must release all the module handles before freeing the table * using RTMemTmpFree. * * @returns Module table snaphot. * @param pDbgAs The address space instance data. * @param pcModules Where to return the number of modules. */ static PRTDBGMOD rtDbgAsSnapshotModuleTable(PRTDBGASINT pDbgAs, uint32_t *pcModules) { RTDBGAS_LOCK_READ(pDbgAs); uint32_t iMod = *pcModules = pDbgAs->cModules; PRTDBGMOD pahModules = (PRTDBGMOD)RTMemTmpAlloc(sizeof(pahModules[0]) * RT_MAX(iMod, 1)); if (pahModules) { while (iMod-- > 0) { RTDBGMOD hMod = (RTDBGMOD)pDbgAs->papModules[iMod]->Core.Key; pahModules[iMod] = hMod; RTDbgModRetain(hMod); } } RTDBGAS_UNLOCK_READ(pDbgAs); return pahModules; } /** * Query a symbol by address. * * @returns IPRT status code. See RTDbgModSymbolAddr for more specific ones. * @retval VERR_INVALID_HANDLE if hDbgAs is invalid. * @retval VERR_NOT_FOUND if the address couldn't be mapped to a module. * @retval VERR_INVALID_PARAMETER if incorrect flags. * * @param hDbgAs The address space handle. * @param Addr The address which closest symbol is requested. * @param fFlags Symbol search flags, see RTDBGSYMADDR_FLAGS_XXX. * @param poffDisp Where to return the distance between the symbol and * address. Optional. * @param pSymbol Where to return the symbol info. * @param phMod Where to return the module handle. Optional. */ RTDECL(int) RTDbgAsSymbolByAddr(RTDBGAS hDbgAs, RTUINTPTR Addr, uint32_t fFlags, PRTINTPTR poffDisp, PRTDBGSYMBOL pSymbol, PRTDBGMOD phMod) { /* * Validate input and resolve the address. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); if (phMod) *phMod = NIL_RTDBGMOD; RTDBGSEGIDX iSeg = NIL_RTDBGSEGIDX; /* shut up gcc */ RTUINTPTR offSeg = 0; RTUINTPTR MapAddr = 0; RTDBGMOD hMod = rtDbgAsModuleByAddr(pDbgAs, Addr, &iSeg, &offSeg, &MapAddr); if (hMod == NIL_RTDBGMOD) { /* * Check for absolute symbols. Requires iterating all modules. */ uint32_t cModules; PRTDBGMOD pahModules = rtDbgAsSnapshotModuleTable(pDbgAs, &cModules); if (!pahModules) return VERR_NO_TMP_MEMORY; int rc; RTINTPTR offBestDisp = RTINTPTR_MAX; uint32_t iBest = UINT32_MAX; for (uint32_t i = 0; i < cModules; i++) { RTINTPTR offDisp; rc = RTDbgModSymbolByAddr(pahModules[i], RTDBGSEGIDX_ABS, Addr, fFlags, &offDisp, pSymbol); if (RT_SUCCESS(rc) && RT_ABS(offDisp) < offBestDisp) { offBestDisp = RT_ABS(offDisp); iBest = i; } } if (iBest == UINT32_MAX) rc = VERR_NOT_FOUND; else { hMod = pahModules[iBest]; rc = RTDbgModSymbolByAddr(hMod, RTDBGSEGIDX_ABS, Addr, fFlags, poffDisp, pSymbol); if (RT_SUCCESS(rc)) { rtDbgAsAdjustSymbolValue(pSymbol, hMod, MapAddr, iSeg); if (phMod) RTDbgModRetain(*phMod = hMod); } } for (uint32_t i = 0; i < cModules; i++) RTDbgModRelease(pahModules[i]); RTMemTmpFree(pahModules); return rc; } /* * Forward the call. */ int rc = RTDbgModSymbolByAddr(hMod, iSeg, offSeg, fFlags, poffDisp, pSymbol); if (RT_SUCCESS(rc)) rtDbgAsAdjustSymbolValue(pSymbol, hMod, MapAddr, iSeg); if (phMod) *phMod = hMod; else RTDbgModRelease(hMod); return rc; } RT_EXPORT_SYMBOL(RTDbgAsSymbolByAddr); /** * Query a symbol by address. * * @returns IPRT status code. See RTDbgModSymbolAddrA for more specific ones. * @retval VERR_INVALID_HANDLE if hDbgAs is invalid. * @retval VERR_NOT_FOUND if the address couldn't be mapped to a module. * @retval VERR_INVALID_PARAMETER if incorrect flags. * * @param hDbgAs The address space handle. * @param Addr The address which closest symbol is requested. * @param fFlags Symbol search flags, see RTDBGSYMADDR_FLAGS_XXX. * @param poffDisp Where to return the distance between the symbol * and address. Optional. * @param ppSymInfo Where to return the pointer to the allocated symbol * info. Always set. Free with RTDbgSymbolFree. * @param phMod Where to return the module handle. Optional. */ RTDECL(int) RTDbgAsSymbolByAddrA(RTDBGAS hDbgAs, RTUINTPTR Addr, uint32_t fFlags, PRTINTPTR poffDisp, PRTDBGSYMBOL *ppSymInfo, PRTDBGMOD phMod) { /* * Validate input and resolve the address. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); RTDBGSEGIDX iSeg = NIL_RTDBGSEGIDX; RTUINTPTR offSeg = 0; RTUINTPTR MapAddr = 0; RTDBGMOD hMod = rtDbgAsModuleByAddr(pDbgAs, Addr, &iSeg, &offSeg, &MapAddr); if (hMod == NIL_RTDBGMOD) { if (phMod) *phMod = NIL_RTDBGMOD; return VERR_NOT_FOUND; } /* * Forward the call. */ int rc = RTDbgModSymbolByAddrA(hMod, iSeg, offSeg, fFlags, poffDisp, ppSymInfo); if (RT_SUCCESS(rc)) rtDbgAsAdjustSymbolValue(*ppSymInfo, hMod, MapAddr, iSeg); if (phMod) *phMod = hMod; else RTDbgModRelease(hMod); return rc; } RT_EXPORT_SYMBOL(RTDbgAsSymbolByAddrA); /** * Attempts to find a mapping of the specified symbol/module and * adjust it's Value field accordingly. * * @returns true / false success indicator. * @param pDbgAs The address space. * @param hDbgMod The module handle. * @param pSymbol The symbol info. */ static bool rtDbgAsFindMappingAndAdjustSymbolValue(PRTDBGASINT pDbgAs, RTDBGMOD hDbgMod, PRTDBGSYMBOL pSymbol) { /* * Absolute segments needs no fixing. */ RTDBGSEGIDX const iSeg = pSymbol->iSeg; if (iSeg == RTDBGSEGIDX_ABS) return true; RTDBGAS_LOCK_READ(pDbgAs); /* * Lookup up the module by it's handle and iterate the mappings looking for one * that either encompasses the entire module or the segment in question. */ PRTDBGASMOD pMod = (PRTDBGASMOD)RTAvlPVGet(&pDbgAs->ModTree, hDbgMod); if (pMod) { for (PRTDBGASMAP pMap = pMod->pMapHead; pMap; pMap = pMap->pNext) { /* Exact segment match or full-mapping. */ if ( iSeg == pMap->iSeg || pMap->iSeg == NIL_RTDBGSEGIDX) { RTUINTPTR MapAddr = pMap->Core.Key; RTDBGSEGIDX iMapSeg = pMap->iSeg; RTDBGAS_UNLOCK_READ(pDbgAs); rtDbgAsAdjustSymbolValue(pSymbol, hDbgMod, MapAddr, iMapSeg); return true; } /* Symbol uses RVA and the mapping doesn't, see if it's in the mapped segment. */ if (iSeg == RTDBGSEGIDX_RVA) { Assert(pMap->iSeg != NIL_RTDBGSEGIDX); RTUINTPTR SegRva = RTDbgModSegmentRva(hDbgMod, pMap->iSeg); Assert(SegRva != RTUINTPTR_MAX); RTUINTPTR cbSeg = RTDbgModSegmentSize(hDbgMod, pMap->iSeg); if (SegRva - pSymbol->Value < cbSeg) { RTUINTPTR MapAddr = pMap->Core.Key; RTDBGSEGIDX iMapSeg = pMap->iSeg; RTDBGAS_UNLOCK_READ(pDbgAs); rtDbgAsAdjustSymbolValue(pSymbol, hDbgMod, MapAddr, iMapSeg); return true; } } } } /* else: Unmapped while we were searching. */ RTDBGAS_UNLOCK_READ(pDbgAs); return false; } /** * Query a symbol by name. * * @returns IPRT status code. * @retval VERR_SYMBOL_NOT_FOUND if not found. * * @param hDbgAs The address space handle. * @param pszSymbol The symbol name. It is possible to limit the scope * of the search by prefixing the symbol with a module * name pattern followed by a bang (!) character. * RTStrSimplePatternNMatch is used for the matching. * @param pSymbol Where to return the symbol info. * @param phMod Where to return the module handle. Optional. */ RTDECL(int) RTDbgAsSymbolByName(RTDBGAS hDbgAs, const char *pszSymbol, PRTDBGSYMBOL pSymbol, PRTDBGMOD phMod) { /* * Validate input. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); AssertPtrReturn(pszSymbol, VERR_INVALID_POINTER); AssertPtrReturn(pSymbol, VERR_INVALID_POINTER); /* * Look for module pattern. */ const char *pachModPat = NULL; size_t cchModPat = 0; const char *pszBang = strchr(pszSymbol, '!'); if (pszBang) { pachModPat = pszSymbol; cchModPat = pszBang - pszSymbol; pszSymbol = pszBang + 1; if (!*pszSymbol) return VERR_DBG_SYMBOL_NAME_OUT_OF_RANGE; /* Note! Zero length module -> no pattern -> escape for symbol with '!'. */ } /* * Iterate the modules, looking for the symbol. */ uint32_t cModules; PRTDBGMOD pahModules = rtDbgAsSnapshotModuleTable(pDbgAs, &cModules); if (!pahModules) return VERR_NO_TMP_MEMORY; for (uint32_t i = 0; i < cModules; i++) { if ( cchModPat == 0 || RTStrSimplePatternNMatch(pachModPat, cchModPat, RTDbgModName(pahModules[i]), RTSTR_MAX)) { int rc = RTDbgModSymbolByName(pahModules[i], pszSymbol, pSymbol); if (RT_SUCCESS(rc)) { if (rtDbgAsFindMappingAndAdjustSymbolValue(pDbgAs, pahModules[i], pSymbol)) { if (phMod) RTDbgModRetain(*phMod = pahModules[i]); for (; i < cModules; i++) RTDbgModRelease(pahModules[i]); RTMemTmpFree(pahModules); return rc; } } } RTDbgModRelease(pahModules[i]); } RTMemTmpFree(pahModules); return VERR_SYMBOL_NOT_FOUND; } RT_EXPORT_SYMBOL(RTDbgAsSymbolByName); /** * Query a symbol by name, allocating the returned symbol structure. * * @returns IPRT status code. * @retval VERR_SYMBOL_NOT_FOUND if not found. * * @param hDbgAs The address space handle. * @param pszSymbol The symbol name. See RTDbgAsSymbolByName for more. * @param ppSymbol Where to return the pointer to the allocated * symbol info. Always set. Free with RTDbgSymbolFree. * @param phMod Where to return the module handle. Optional. */ RTDECL(int) RTDbgAsSymbolByNameA(RTDBGAS hDbgAs, const char *pszSymbol, PRTDBGSYMBOL *ppSymbol, PRTDBGMOD phMod) { /* * Validate input. */ AssertPtrReturn(ppSymbol, VERR_INVALID_POINTER); *ppSymbol = NULL; PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); AssertPtrReturn(pszSymbol, VERR_INVALID_POINTER); /* * Look for module pattern. */ const char *pachModPat = NULL; size_t cchModPat = 0; const char *pszBang = strchr(pszSymbol, '!'); if (pszBang) { pachModPat = pszSymbol; cchModPat = pszBang - pszSymbol; pszSymbol = pszBang + 1; if (!*pszSymbol) return VERR_DBG_SYMBOL_NAME_OUT_OF_RANGE; /* Note! Zero length module -> no pattern -> escape for symbol with '!'. */ } /* * Iterate the modules, looking for the symbol. */ uint32_t cModules; PRTDBGMOD pahModules = rtDbgAsSnapshotModuleTable(pDbgAs, &cModules); if (!pahModules) return VERR_NO_TMP_MEMORY; for (uint32_t i = 0; i < cModules; i++) { if ( cchModPat == 0 || RTStrSimplePatternNMatch(pachModPat, cchModPat, RTDbgModName(pahModules[i]), RTSTR_MAX)) { int rc = RTDbgModSymbolByNameA(pahModules[i], pszSymbol, ppSymbol); if (RT_SUCCESS(rc)) { if (rtDbgAsFindMappingAndAdjustSymbolValue(pDbgAs, pahModules[i], *ppSymbol)) { if (phMod) RTDbgModRetain(*phMod = pahModules[i]); for (; i < cModules; i++) RTDbgModRelease(pahModules[i]); RTMemTmpFree(pahModules); return rc; } } } RTDbgModRelease(pahModules[i]); } RTMemTmpFree(pahModules); return VERR_SYMBOL_NOT_FOUND; } RT_EXPORT_SYMBOL(RTDbgAsSymbolByNameA); /** * Adds a line number to a module in the address space. * * @returns IPRT status code. See RTDbgModSymbolAdd for more specific ones. * @retval VERR_INVALID_HANDLE if hDbgAs is invalid. * @retval VERR_NOT_FOUND if no module was found at the specified address. * @retval VERR_NOT_SUPPORTED if the module interpret doesn't support adding * custom symbols. * * @param hDbgAs The address space handle. * @param pszFile The file name. * @param uLineNo The line number. * @param Addr The address of the symbol. * @param piOrdinal Where to return the line number ordinal on success. * If the interpreter doesn't do ordinals, this will be * set to UINT32_MAX. Optional. */ RTDECL(int) RTDbgAsLineAdd(RTDBGAS hDbgAs, const char *pszFile, uint32_t uLineNo, RTUINTPTR Addr, uint32_t *piOrdinal) { /* * Validate input and resolve the address. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); RTDBGSEGIDX iSeg = NIL_RTDBGSEGIDX; /* shut up gcc */ RTUINTPTR offSeg = 0; /* ditto */ RTDBGMOD hMod = rtDbgAsModuleByAddr(pDbgAs, Addr, &iSeg, &offSeg, NULL); if (hMod == NIL_RTDBGMOD) return VERR_NOT_FOUND; /* * Forward the call. */ int rc = RTDbgModLineAdd(hMod, pszFile, uLineNo, iSeg, offSeg, piOrdinal); RTDbgModRelease(hMod); return rc; } RT_EXPORT_SYMBOL(RTDbgAsLineAdd); RTDECL(int) RTDbgAsLineByAddr(RTDBGAS hDbgAs, RTUINTPTR Addr, PRTINTPTR poffDisp, PRTDBGLINE pLine, PRTDBGMOD phMod) { /* * Validate input and resolve the address. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); RTDBGSEGIDX iSeg = NIL_RTDBGSEGIDX; /* shut up gcc */ RTUINTPTR offSeg = 0; RTUINTPTR MapAddr = 0; RTDBGMOD hMod = rtDbgAsModuleByAddr(pDbgAs, Addr, &iSeg, &offSeg, &MapAddr); if (hMod == NIL_RTDBGMOD) return VERR_NOT_FOUND; /* * Forward the call. */ int rc = RTDbgModLineByAddr(hMod, iSeg, offSeg, poffDisp, pLine); if (RT_SUCCESS(rc)) { rtDbgAsAdjustLineAddress(pLine, hMod, MapAddr, iSeg); if (phMod) *phMod = hMod; else RTDbgModRelease(hMod); } else RTDbgModRelease(hMod); return rc; } RT_EXPORT_SYMBOL(RTDbgAsLineByAddr); RTDECL(int) RTDbgAsLineByAddrA(RTDBGAS hDbgAs, RTUINTPTR Addr, PRTINTPTR poffDisp, PRTDBGLINE *ppLine, PRTDBGMOD phMod) { /* * Validate input and resolve the address. */ PRTDBGASINT pDbgAs = hDbgAs; RTDBGAS_VALID_RETURN_RC(pDbgAs, VERR_INVALID_HANDLE); RTDBGSEGIDX iSeg = NIL_RTDBGSEGIDX; /* shut up gcc */ RTUINTPTR offSeg = 0; RTUINTPTR MapAddr = 0; RTDBGMOD hMod = rtDbgAsModuleByAddr(pDbgAs, Addr, &iSeg, &offSeg, &MapAddr); if (hMod == NIL_RTDBGMOD) return VERR_NOT_FOUND; /* * Forward the call. */ int rc = RTDbgModLineByAddrA(hMod, iSeg, offSeg, poffDisp, ppLine); if (RT_SUCCESS(rc)) { rtDbgAsAdjustLineAddress(*ppLine, hMod, MapAddr, iSeg); if (phMod) *phMod = hMod; else RTDbgModRelease(hMod); } else RTDbgModRelease(hMod); return rc; } RT_EXPORT_SYMBOL(RTDbgAsLineByAddrA);