/* $Id: VBoxCheckImports.cpp $ */ /** @file * IPRT - Checks that a windows image only imports from a given set of DLLs. */ /* * Copyright (C) 2012-2019 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. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #include #include #include #include #include /********************************************************************************************************************************* * Structures and Typedefs * *********************************************************************************************************************************/ typedef struct { const char *pszImage; FILE *pFile; bool f32Bit; union { IMAGE_NT_HEADERS32 Nt32; IMAGE_NT_HEADERS64 Nt64; } Hdrs; uint32_t cSections; PIMAGE_SECTION_HEADER paSections; } MYIMAGE; static bool Failed(MYIMAGE *pThis, const char *pszFmt, ...) { va_list va; fprintf(stderr, "error '%s': ", pThis->pszImage); va_start(va, pszFmt); vfprintf(stderr, pszFmt, va); va_end(va); fprintf(stderr, "\n"); return false; } static bool ReadPeHeaders(MYIMAGE *pThis) { /* * MZ header. */ IMAGE_DOS_HEADER MzHdr; if (fread(&MzHdr, sizeof(MzHdr), 1, pThis->pFile) != 1) return Failed(pThis, "Reading DOS header"); if (MzHdr.e_magic != IMAGE_DOS_SIGNATURE) return Failed(pThis, "No MZ magic (found %#x)", MzHdr.e_magic); if (fseek(pThis->pFile, MzHdr.e_lfanew, SEEK_SET) != 0) return Failed(pThis, "Seeking to %#lx", (unsigned long)MzHdr.e_lfanew); /* * NT signature + file header. */ if (fread(&pThis->Hdrs.Nt32, offsetof(IMAGE_NT_HEADERS32, OptionalHeader), 1, pThis->pFile) != 1) return Failed(pThis, "Reading NT file header"); if (pThis->Hdrs.Nt32.Signature != IMAGE_NT_SIGNATURE) return Failed(pThis, "No PE magic (found %#x)", pThis->Hdrs.Nt32.Signature); if (pThis->Hdrs.Nt32.FileHeader.SizeOfOptionalHeader == sizeof(pThis->Hdrs.Nt32.OptionalHeader)) pThis->f32Bit = true; else if (pThis->Hdrs.Nt32.FileHeader.SizeOfOptionalHeader == sizeof(pThis->Hdrs.Nt64.OptionalHeader)) pThis->f32Bit = false; else return Failed(pThis, "Unsupported SizeOfOptionalHeaders value: %#x", pThis->Hdrs.Nt32.FileHeader.SizeOfOptionalHeader); /* * NT optional header. */ if (fread(&pThis->Hdrs.Nt32.OptionalHeader, pThis->Hdrs.Nt32.FileHeader.SizeOfOptionalHeader, 1, pThis->pFile) != 1) return Failed(pThis, "Reading NT optional header"); if ( pThis->Hdrs.Nt32.OptionalHeader.Magic != (pThis->f32Bit ? IMAGE_NT_OPTIONAL_HDR32_MAGIC : IMAGE_NT_OPTIONAL_HDR64_MAGIC) ) return Failed(pThis, "Bad optional header magic: %#x", pThis->Hdrs.Nt32.OptionalHeader.Magic); uint32_t NumberOfRvaAndSizes = pThis->f32Bit ? pThis->Hdrs.Nt32.OptionalHeader.NumberOfRvaAndSizes : pThis->Hdrs.Nt64.OptionalHeader.NumberOfRvaAndSizes; if (NumberOfRvaAndSizes != IMAGE_NUMBEROF_DIRECTORY_ENTRIES) return Failed(pThis, "Unsupported NumberOfRvaAndSizes value: %#x", NumberOfRvaAndSizes); /* * Read the section table. */ pThis->cSections = pThis->Hdrs.Nt32.FileHeader.NumberOfSections; if (!pThis->cSections) return Failed(pThis, "No sections in image!"); pThis->paSections = (PIMAGE_SECTION_HEADER)calloc(sizeof(pThis->paSections[0]), pThis->cSections); if (!pThis->paSections) return Failed(pThis, "Out of memory!"); if (fread(pThis->paSections, sizeof(pThis->paSections[0]), pThis->cSections, pThis->pFile) != pThis->cSections) return Failed(pThis, "Reading NT section headers"); return true; } static bool ReadAtRva(MYIMAGE *pThis, uint32_t uRva, void *pvBuf, size_t cbToRead) { unsigned const uRvaOrg = uRva; size_t const cbToReadOrg = cbToRead; /* * Header section. */ int iSh = -1; uint32_t uSectRva = 0; uint32_t offSectRaw = 0; uint32_t cbSectRaw = pThis->f32Bit ? pThis->Hdrs.Nt32.OptionalHeader.SizeOfHeaders : pThis->Hdrs.Nt64.OptionalHeader.SizeOfHeaders; uint32_t cbSectMax = pThis->paSections[0].VirtualAddress; for (;;) { /* Read if we've got a match. */ uint32_t off = uRva - uSectRva; if (off < cbSectMax) { uint32_t cbThis = cbSectMax - off; if (cbThis > cbToRead) cbThis = (uint32_t)cbToRead; memset(pvBuf, 0, cbThis); if (off < cbSectRaw) { if (fseek(pThis->pFile, offSectRaw + off, SEEK_SET) != 0) return Failed(pThis, "Seeking to %#x", offSectRaw + off); if (fread(pvBuf, RT_MIN(cbThis, cbSectRaw - off), 1, pThis->pFile) != 1) return Failed(pThis, "Reading %u bytes at %#x", RT_MIN(cbThis, cbSectRaw - off), offSectRaw + off); } cbToRead -= cbThis; if (!cbToRead) return true; pvBuf = (uint8_t *)pvBuf + cbThis; } /* next section */ iSh++; if ((unsigned)iSh >= pThis->cSections) return Failed(pThis, "RVA %#x LB %u is outside the image", uRvaOrg, cbToReadOrg); uSectRva = pThis->paSections[iSh].VirtualAddress; offSectRaw = pThis->paSections[iSh].PointerToRawData; cbSectRaw = pThis->paSections[iSh].SizeOfRawData; if ((unsigned)iSh + 1 < pThis->cSections) cbSectMax = pThis->paSections[iSh + 1].VirtualAddress - uSectRva; else cbSectMax = pThis->paSections[iSh].Misc.VirtualSize; } } static bool ReadStringAtRva(MYIMAGE *pThis, uint32_t uRva, char *pszBuf, size_t cbMax) { uint32_t const uRvaOrg = uRva; /* * Try read the whole string at once. */ uint32_t cbImage = pThis->f32Bit ? pThis->Hdrs.Nt32.OptionalHeader.SizeOfImage : pThis->Hdrs.Nt64.OptionalHeader.SizeOfImage; uint32_t cbThis = uRva < cbImage ? cbImage - uRva : 1; if (cbThis > cbMax) cbThis = (uint32_t)cbMax; if (!ReadAtRva(pThis, uRva, pszBuf, cbThis)) return false; if (memchr(pszBuf, 0, cbThis) != NULL) return true; /* * Read more, byte-by-byte. */ for (;;) { cbMax -= cbThis; if (!cbMax) return Failed(pThis, "String to long at %#x", uRvaOrg); pszBuf += cbThis; uRva += cbThis; cbThis = 1; if (!ReadAtRva(pThis, uRva, pszBuf, cbThis)) return false; if (!*pszBuf) return true; } } static void *ReadAtRvaAlloc(MYIMAGE *pThis, uint32_t uRva, size_t cbToRead) { void *pvBuf = malloc(cbToRead); if (pvBuf) { if (ReadAtRva(pThis, uRva, pvBuf, cbToRead)) return pvBuf; free(pvBuf); } else Failed(pThis, "Out of memory!"); return NULL; } static bool ParseAndCheckImports(MYIMAGE *pThis, const char **papszAllowed, unsigned cAllowed) { /* * Do we have an import directory? If so, read it. */ IMAGE_DATA_DIRECTORY ImpDir = pThis->f32Bit ? pThis->Hdrs.Nt32.OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IMPORT] : pThis->Hdrs.Nt64.OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IMPORT]; if (ImpDir.Size == 0) return true; uint32_t cImps = ImpDir.Size / sizeof(IMAGE_IMPORT_DESCRIPTOR); if (cImps * sizeof(IMAGE_IMPORT_DESCRIPTOR) != ImpDir.Size) return Failed(pThis, "Import directory size is not a multiple of IMAGE_IMPORT_DESCRIPTOR: %#x", ImpDir.Size); PIMAGE_IMPORT_DESCRIPTOR paImps = (PIMAGE_IMPORT_DESCRIPTOR)ReadAtRvaAlloc(pThis, ImpDir.VirtualAddress, ImpDir.Size); if (!paImps) return false; /* There is usually an empty entry at the end. */ if ( paImps[cImps - 1].Name == 0 || paImps[cImps - 1].FirstThunk == 0) cImps--; /* * Do the processing. */ bool fRc = true; for (uint32_t i = 0; i < cImps; i++) { /* Read the import name string. */ char szName[128]; if (!ReadStringAtRva(pThis, paImps[i].Name, szName, sizeof(szName))) { fRc = false; break; } /* Check it against the list of allowed DLLs. */ bool fFound = false; unsigned j = cAllowed; while (j-- > 0) if (stricmp(papszAllowed[j], szName) == 0) { fFound = true; break; } if (!fFound) fRc = Failed(pThis, "Illegal import: '%s'", szName); } free(paImps); return fRc; } static int usage(const char *argv0) { printf("usage: %s --image [allowed-dll [..]]\n", argv0); return RTEXITCODE_SUCCESS; } int main(int argc, char **argv) { /* * Parse arguments. */ const char *pszImage = NULL; const char **papszAllowed = (const char **)calloc(argc, sizeof(const char *)); unsigned cAllowed = 0; for (int i = 1; i < argc; i++) { const char *psz = argv[i]; if (*psz == '-') { if (!strcmp(psz, "--image") || !strcmp(psz, "-i")) { if (++i >= argc) { fprintf(stderr, "syntax error: File name expected after '%s'.\n", psz); return RTEXITCODE_SYNTAX; } pszImage = argv[i]; } else if ( !strcmp(psz, "--help") || !strcmp(psz, "-help") || !strcmp(psz, "-h") || !strcmp(psz, "-?") ) return usage(argv[0]); else if ( !strcmp(psz, "--version") || !strcmp(psz, "-V")) { printf("$Revision: 127855 $\n"); return RTEXITCODE_SUCCESS; } else { fprintf(stderr, "syntax error: Unknown option '%s'.\n", psz); return RTEXITCODE_SYNTAX; } } else papszAllowed[cAllowed++] = argv[i]; } if (!pszImage) { fprintf(stderr, "syntax error: No input file specified.\n"); return RTEXITCODE_SYNTAX; } /* * Open the image and process headers. */ RTEXITCODE rcExit = RTEXITCODE_FAILURE; MYIMAGE MyImage; memset(&MyImage, 0, sizeof(MyImage)); MyImage.pszImage = pszImage; MyImage.pFile = fopen(pszImage, "rb"); if (MyImage.pFile) { if ( ReadPeHeaders(&MyImage) && ParseAndCheckImports(&MyImage, papszAllowed, cAllowed)) rcExit = RTEXITCODE_SUCCESS; fclose(MyImage.pFile); free(MyImage.paSections); } else Failed(&MyImage, "Failed to open image for binary reading."); return rcExit; }