/* $Id: kRdrFile-iprt.cpp 62593 2016-07-27 14:25:30Z vboxsync $ */ /** @file * IPRT - kRdr Backend. */ /* * Copyright (C) 2007-2010 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. */ /******************************************************************************* * Header Files * *******************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include /******************************************************************************* * Structures and Typedefs * *******************************************************************************/ /** * Prepared stuff. */ typedef struct KRDRFILEPREP { /** The address of the prepared region. */ void *pv; /** The size of the prepared region. */ KSIZE cb; } KRDRFILEPREP, *PKRDRFILEPREP; /** * The file provier instance for native files. */ typedef struct KRDRFILE { /** The file reader vtable. */ KRDR Core; /** The file handle. */ RTFILE File; /** The current file offset. */ KFOFF off; /** The file size. */ KFOFF cb; /** Array where we stuff the mapping area data. */ KRDRFILEPREP aPreps[4]; /** The number of current preps. */ KU32 cPreps; /** Number of mapping references. */ KI32 cMappings; /** The memory mapping. */ void *pvMapping; /** The filename. */ char szFilename[1]; } KRDRFILE, *PKRDRFILE; /******************************************************************************* * Internal Functions * *******************************************************************************/ static void krdrRTFileDone(PKRDR pRdr); static int krdrRTFileUnmap(PKRDR pRdr, void *pvBase, KU32 cSegments, PCKLDRSEG paSegments); static int krdrRTFileGenericUnmap(PKRDR pRdr, PKRDRFILEPREP pPrep, KU32 cSegments, PCKLDRSEG paSegments); static int krdrRTFileProtect(PKRDR pRdr, void *pvBase, KU32 cSegments, PCKLDRSEG paSegments, KBOOL fUnprotectOrProtect); static int krdrRTFileGenericProtect(PKRDR pRdr, PKRDRFILEPREP pPrep, KU32 cSegments, PCKLDRSEG paSegments, KBOOL fUnprotectOrProtect); static int krdrRTFileRefresh(PKRDR pRdr, void *pvBase, KU32 cSegments, PCKLDRSEG paSegments); static int krdrRTFileGenericRefresh(PKRDR pRdr, PKRDRFILEPREP pPrep, KU32 cSegments, PCKLDRSEG paSegments); static int krdrRTFileMap(PKRDR pRdr, void **ppvBase, KU32 cSegments, PCKLDRSEG paSegments, KBOOL fFixed); static int krdrRTFileGenericMap(PKRDR pRdr, PKRDRFILEPREP pPrep, KU32 cSegments, PCKLDRSEG paSegments, KBOOL fFixed); static KSIZE krdrRTFilePageSize(PKRDR pRdr); static const char *krdrRTFileName(PKRDR pRdr); static KIPTR krdrRTFileNativeFH(PKRDR pRdr); static KFOFF krdrRTFileTell(PKRDR pRdr); static KFOFF krdrRTFileSize(PKRDR pRdr); static int krdrRTFileAllUnmap(PKRDR pRdr, const void *pvBits); static int krdrRTFileAllMap(PKRDR pRdr, const void **ppvBits); static int krdrRTFileRead(PKRDR pRdr, void *pvBuf, KSIZE cb, KFOFF off); static int krdrRTFileDestroy(PKRDR pRdr); static int krdrRTFileCreate(PPKRDR ppRdr, const char *pszFilename); /******************************************************************************* * Global Variables * *******************************************************************************/ extern "C" const KRDROPS g_kRdrFileOps; /** Native file provider operations. */ const KRDROPS g_kRdrFileOps = { "IPRT file", NULL, krdrRTFileCreate, krdrRTFileDestroy, krdrRTFileRead, krdrRTFileAllMap, krdrRTFileAllUnmap, krdrRTFileSize, krdrRTFileTell, krdrRTFileName, krdrRTFileNativeFH, krdrRTFilePageSize, krdrRTFileMap, krdrRTFileRefresh, krdrRTFileProtect, krdrRTFileUnmap, krdrRTFileDone, 42 }; /** @copydoc KRDROPS::pfnDone */ static void krdrRTFileDone(PKRDR pRdr) { K_NOREF(pRdr); } /** * Finds a prepared mapping region. * * @returns Pointer to the aPrep entry. * @param pFile The instance data. * @param pv The base of the region. */ static PKRDRFILEPREP krdrRTFileFindPrepExact(PKRDRFILE pFile, void *pv) { KI32 i = pFile->cPreps; while (i-- > 0) if (pFile->aPreps[i].pv == pv) return &pFile->aPreps[i]; return NULL; } /** @copydoc KRDROPS::pfnUnmap */ static int krdrRTFileUnmap(PKRDR pRdr, void *pvBase, KU32 cSegments, PCKLDRSEG paSegments) { PKRDRFILE pRdrFile = (PKRDRFILE)pRdr; PKRDRFILEPREP pPrep = krdrRTFileFindPrepExact(pRdrFile, pvBase); int rc; if (!pPrep) return KERR_INVALID_PARAMETER; rc = krdrRTFileGenericUnmap(pRdr, pPrep, cSegments, paSegments); /* remove the mapping data on success. */ if (!rc) { pRdrFile->cPreps--; if (pPrep != &pRdrFile->aPreps[pRdrFile->cPreps]) *pPrep = pRdrFile->aPreps[pRdrFile->cPreps]; } return rc; } /** Generic implementation of krdrRTFileUnmap. */ static int krdrRTFileGenericUnmap(PKRDR pRdr, PKRDRFILEPREP pPrep, KU32 cSegments, PCKLDRSEG paSegments) { krdrRTFileGenericProtect(pRdr, pPrep, cSegments, paSegments, 1 /* unprotect */); RTMemPageFree(pPrep->pv, pPrep->cb); return 0; } /** @copydoc KRDROPS::pfnProtect */ static int krdrRTFileProtect(PKRDR pRdr, void *pvBase, KU32 cSegments, PCKLDRSEG paSegments, KBOOL fUnprotectOrProtect) { PKRDRFILE pRdrFile = (PKRDRFILE)pRdr; PKRDRFILEPREP pPrep = krdrRTFileFindPrepExact(pRdrFile, pvBase); if (!pPrep) return KERR_INVALID_PARAMETER; return krdrRTFileGenericProtect(pRdr, pPrep, cSegments, paSegments, fUnprotectOrProtect); } static unsigned krdrRTFileConvertProt(KPROT enmProt) { switch (enmProt) { case KPROT_NOACCESS: return RTMEM_PROT_NONE; case KPROT_READONLY: return RTMEM_PROT_READ; case KPROT_READWRITE: return RTMEM_PROT_READ | RTMEM_PROT_WRITE; case KPROT_WRITECOPY: return RTMEM_PROT_READ | RTMEM_PROT_WRITE; case KPROT_EXECUTE: return RTMEM_PROT_EXEC; case KPROT_EXECUTE_READ: return RTMEM_PROT_EXEC | RTMEM_PROT_READ; case KPROT_EXECUTE_READWRITE: return RTMEM_PROT_EXEC | RTMEM_PROT_READ | RTMEM_PROT_WRITE; case KPROT_EXECUTE_WRITECOPY: return RTMEM_PROT_EXEC | RTMEM_PROT_READ | RTMEM_PROT_WRITE; default: AssertFailed(); return ~0U; } } /** Generic implementation of krdrRTFileProtect. */ static int krdrRTFileGenericProtect(PKRDR pRdr, PKRDRFILEPREP pPrep, KU32 cSegments, PCKLDRSEG paSegments, KBOOL fUnprotectOrProtect) { KU32 i; K_NOREF(pRdr); /* * Iterate the segments and apply memory protection changes. */ for (i = 0; i < cSegments; i++) { int rc; void *pv; KPROT enmProt; if (paSegments[i].RVA == NIL_KLDRADDR) continue; /* calc new protection. */ enmProt = (KPROT)paSegments[i].enmProt; /** @todo drop cast */ if (fUnprotectOrProtect) { switch (enmProt) { case KPROT_NOACCESS: case KPROT_READONLY: case KPROT_READWRITE: case KPROT_WRITECOPY: enmProt = KPROT_READWRITE; break; case KPROT_EXECUTE: case KPROT_EXECUTE_READ: case KPROT_EXECUTE_READWRITE: case KPROT_EXECUTE_WRITECOPY: enmProt = KPROT_EXECUTE_READWRITE; break; default: AssertFailed(); return -1; } } else { /* copy on write -> normal write. */ if (enmProt == KPROT_EXECUTE_WRITECOPY) enmProt = KPROT_EXECUTE_READWRITE; else if (enmProt == KPROT_WRITECOPY) enmProt = KPROT_READWRITE; } pv = (KU8 *)pPrep->pv + paSegments[i].RVA; rc = RTMemProtect(pv, paSegments[i].cbMapped, krdrRTFileConvertProt(enmProt)); if (rc) break; } return 0; } /** @copydoc KRDROPS::pfnRefresh */ static int krdrRTFileRefresh(PKRDR pRdr, void *pvBase, KU32 cSegments, PCKLDRSEG paSegments) { PKRDRFILE pRdrFile = (PKRDRFILE)pRdr; PKRDRFILEPREP pPrep = krdrRTFileFindPrepExact(pRdrFile, pvBase); if (!pPrep) return KERR_INVALID_PARAMETER; return krdrRTFileGenericRefresh(pRdr, pPrep, cSegments, paSegments); } /** Generic implementation of krdrRTFileRefresh. */ static int krdrRTFileGenericRefresh(PKRDR pRdr, PKRDRFILEPREP pPrep, KU32 cSegments, PCKLDRSEG paSegments) { int rc; int rc2; KU32 i; /* * Make everything writable again. */ rc = krdrRTFileGenericProtect(pRdr, pPrep, cSegments, paSegments, 1 /* unprotect */); if (rc) { krdrRTFileGenericProtect(pRdr, pPrep, cSegments, paSegments, 0 /* protect */); return rc; } /* * Clear everything. */ /** @todo only zero the areas not covered by raw file bits. */ memset(pPrep->pv, 0, pPrep->cb); /* * Reload all the segments. * We could possibly skip some segments, but we currently have * no generic way of figuring out which at the moment. */ for (i = 0; i < cSegments; i++) { void *pv; if ( paSegments[i].RVA == NIL_KLDRADDR || paSegments[i].cbFile <= 0) continue; pv = (KU8 *)pPrep->pv + paSegments[i].RVA; rc = pRdr->pOps->pfnRead(pRdr, pv, paSegments[i].cbFile, paSegments[i].offFile); if (rc) break; } /* * Protect the bits again. */ rc2 = krdrRTFileGenericProtect(pRdr, pPrep, cSegments, paSegments, 0 /* protect */); if (rc2 && rc) rc = rc2; return rc; } /** @copydoc KRDROPS::pfnMap */ static int krdrRTFileMap(PKRDR pRdr, void **ppvBase, KU32 cSegments, PCKLDRSEG paSegments, KBOOL fFixed) { PKRDRFILE pRdrFile = (PKRDRFILE)pRdr; PKRDRFILEPREP pPrep = &pRdrFile->aPreps[pRdrFile->cPreps]; KLDRSIZE cbTotal; const KSIZE cbPage = pRdr->pOps->pfnPageSize(pRdr); int rc; KU32 i; if (pRdrFile->cPreps >= K_ELEMENTS(pRdrFile->aPreps)) return KRDR_ERR_TOO_MANY_MAPPINGS; /* * Calc the total mapping space needed. */ cbTotal = 0; for (i = 0; i < cSegments; i++) { KLDRSIZE uRVASegmentEnd; if (paSegments[i].RVA == NIL_KLDRADDR) continue; uRVASegmentEnd = paSegments[i].RVA + paSegments[i].cbMapped; if (cbTotal < uRVASegmentEnd) cbTotal = uRVASegmentEnd; } pPrep->cb = (KSIZE)cbTotal; if (pPrep->cb != cbTotal) return KLDR_ERR_ADDRESS_OVERFLOW; pPrep->cb = (pPrep->cb + (cbPage - 1)) & ~(cbPage- 1); /* * Use the generic map emulation. */ pPrep->pv = fFixed ? *ppvBase : NULL; rc = krdrRTFileGenericMap(pRdr, pPrep, cSegments, paSegments, fFixed); if (!rc) { *ppvBase = pPrep->pv; pRdrFile->cPreps++; } return rc; } /** Generic implementation of krdrRTFileMap. */ static int krdrRTFileGenericMap(PKRDR pRdr, PKRDRFILEPREP pPrep, KU32 cSegments, PCKLDRSEG paSegments, KBOOL fFixed) { int rc = 0; KU32 i; K_NOREF(fFixed); /* * Generic mapping code using kHlpPageAlloc(), kHlpPageFree() and kHlpPageProtect(). */ pPrep->pv = RTMemPageAlloc(pPrep->cb); if (!pPrep->pv) return KERR_NO_MEMORY; /* * Load the data. */ for (i = 0; i < cSegments; i++) { void *pv; if ( paSegments[i].RVA == NIL_KLDRADDR || paSegments[i].cbFile <= 0) continue; pv = (KU8 *)pPrep->pv + paSegments[i].RVA; rc = pRdr->pOps->pfnRead(pRdr, pv, paSegments[i].cbFile, paSegments[i].offFile); if (rc) break; } /* * Set segment protection. */ if (!rc) { rc = krdrRTFileGenericProtect(pRdr, pPrep, cSegments, paSegments, 0 /* protect */); if (!rc) return 0; krdrRTFileGenericProtect(pRdr, pPrep, cSegments, paSegments, 1 /* unprotect */); } /* bailout */ RTMemPageFree(pPrep->pv, pPrep->cb); return rc; } /** @copydoc KRDROPS::pfnPageSize */ static KSIZE krdrRTFilePageSize(PKRDR pRdr) { K_NOREF(pRdr); return PAGE_SIZE; } /** @copydoc KRDROPS::pfnName */ static const char *krdrRTFileName(PKRDR pRdr) { PKRDRFILE pRdrFile = (PKRDRFILE)pRdr; return &pRdrFile->szFilename[0]; } static KIPTR krdrRTFileNativeFH(PKRDR pRdr) { PKRDRFILE pRdrFile = (PKRDRFILE)pRdr; return (KIPTR)pRdrFile->File; } /** @copydoc KRDROPS::pfnTell */ static KFOFF krdrRTFileTell(PKRDR pRdr) { PKRDRFILE pRdrFile = (PKRDRFILE)pRdr; /* * If the offset is undefined, try figure out what it is. */ if (pRdrFile->off == -1) { pRdrFile->off = RTFileTell(pRdrFile->File); if (pRdrFile->off < 0) pRdrFile->off = -1; } return pRdrFile->off; } /** @copydoc KRDROPS::pfnSize */ static KFOFF krdrRTFileSize(PKRDR pRdr) { PKRDRFILE pRdrFile = (PKRDRFILE)pRdr; return pRdrFile->cb; } /** @copydoc KRDROPS::pfnAllUnmap */ static int krdrRTFileAllUnmap(PKRDR pRdr, const void *pvBits) { PKRDRFILE pRdrFile = (PKRDRFILE)pRdr; K_NOREF(pvBits); /* check for underflow */ if (pRdrFile->cMappings <= 0) return KERR_INVALID_PARAMETER; /* decrement usage counter, free mapping if no longer in use. */ if (!--pRdrFile->cMappings) { RTMemFree(pRdrFile->pvMapping); pRdrFile->pvMapping = NULL; } return 0; } /** @copydoc KRDROPS::pfnAllMap */ static int krdrRTFileAllMap(PKRDR pRdr, const void **ppvBits) { PKRDRFILE pRdrFile = (PKRDRFILE)pRdr; /* * Do we need to map it? */ if (!pRdrFile->pvMapping) { int rc; KFOFF cbFile = pRdrFile->Core.pOps->pfnSize(pRdr); KSIZE cb = (KSIZE)cbFile; if ((KFOFF)cb != cbFile) return KERR_NO_MEMORY; pRdrFile->pvMapping = RTMemAlloc(cb); if (!pRdrFile->pvMapping) return KERR_NO_MEMORY; rc = pRdrFile->Core.pOps->pfnRead(pRdr, pRdrFile->pvMapping, cb, 0); if (rc) { RTMemFree(pRdrFile->pvMapping); pRdrFile->pvMapping = NULL; return rc; } pRdrFile->cMappings = 0; } *ppvBits = pRdrFile->pvMapping; pRdrFile->cMappings++; return 0; } /** @copydoc KRDROPS::pfnRead */ static int krdrRTFileRead(PKRDR pRdr, void *pvBuf, KSIZE cb, KFOFF off) { PKRDRFILE pRdrFile = (PKRDRFILE)pRdr; int rc; /* * Do a seek if needed. */ if (pRdrFile->off != off) { rc = RTFileSeek(pRdrFile->File, off, RTFILE_SEEK_BEGIN, NULL); if (RT_FAILURE(rc)) { pRdrFile->off = -1; return rc; } } /* * Do the read. */ rc = RTFileRead(pRdrFile->File, pvBuf, cb, NULL); if (RT_FAILURE(rc)) { pRdrFile->off = -1; return rc; } pRdrFile->off = off + cb; return 0; } /** @copydoc KRDROPS::pfnDestroy */ static int krdrRTFileDestroy(PKRDR pRdr) { PKRDRFILE pRdrFile = (PKRDRFILE)pRdr; int rc; rc = RTFileClose(pRdrFile->File); if (pRdrFile->pvMapping) { RTMemFree(pRdrFile->pvMapping); pRdrFile->pvMapping = NULL; } RTMemFree(pRdr); return rc; } /** @copydoc KRDROPS::pfnCreate */ static int krdrRTFileCreate(PPKRDR ppRdr, const char *pszFilename) { KSIZE cchFilename; PKRDRFILE pRdrFile; RTFILE File; uint64_t cb; int rc; char szFilename[RTPATH_MAX]; /* * Open the file, determin its size and correct filename. */ rc = RTFileOpen(&File, pszFilename, RTFILE_O_OPEN | RTFILE_O_READ | RTFILE_O_DENY_WRITE); if (RT_FAILURE(rc)) return rc; rc = RTFileGetSize(File, &cb); if (RT_SUCCESS(rc)) { rc = RTPathReal(pszFilename, szFilename, sizeof(szFilename)); if (RT_SUCCESS(rc)) { /* * Allocate the reader instance. */ cchFilename = strlen(szFilename); pRdrFile = (PKRDRFILE)RTMemAlloc(sizeof(*pRdrFile) + cchFilename); if (pRdrFile) { /* * Initialize it and return successfully. */ pRdrFile->Core.u32Magic = KRDR_MAGIC; pRdrFile->Core.pOps = &g_kRdrFileOps; pRdrFile->File = File; pRdrFile->cb = cb; pRdrFile->off = 0; pRdrFile->cMappings = 0; pRdrFile->cPreps = 0; memcpy(&pRdrFile->szFilename[0], szFilename, cchFilename + 1); *ppRdr = &pRdrFile->Core; return 0; } rc = KERR_NO_MEMORY; } } RTFileClose(File); return rc; }