/* * Copyright (C) 2010 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * Functions to parse and manipulate the additional data tables added * to optimized .dex files. */ #include <zlib.h> #include "DexOptData.h" /* * Check to see if a given data pointer is a valid double-word-aligned * pointer into the given memory range (from start inclusive to end * exclusive). Returns true if valid. */ static bool isValidPointer(const void* ptr, const void* start, const void* end) { return (ptr >= start) && (ptr < end) && (((u4) ptr & 7) == 0); } /* (documented in header file) */ u4 dexComputeOptChecksum(const DexOptHeader* pOptHeader) { const u1* start = (const u1*) pOptHeader + pOptHeader->depsOffset; const u1* end = (const u1*) pOptHeader + pOptHeader->optOffset + pOptHeader->optLength; uLong adler = adler32(0L, Z_NULL, 0); return (u4) adler32(adler, start, end - start); } /* (documented in header file) */ bool dexParseOptData(const u1* data, size_t length, DexFile* pDexFile) { const void* pOptStart = data + pDexFile->pOptHeader->optOffset; const void* pOptEnd = data + length; const u4* pOpt = pOptStart; u4 optLength = (const u1*) pOptEnd - (const u1*) pOptStart; /* * Make sure the opt data start is in range and aligned. This may * seem like a superfluous check, but (a) if the file got * truncated, it might turn out that pOpt >= pOptEnd; and (b) * if the opt data header got corrupted, pOpt might not be * properly aligned. This test will catch both of these cases. */ if (!isValidPointer(pOpt, pOptStart, pOptEnd)) { LOGE("Bogus opt data start pointer\n"); return false; } /* Make sure that the opt data length is a whole number of words. */ if ((optLength & 3) != 0) { LOGE("Unaligned opt data area end\n"); return false; } /* * Make sure that the opt data area is large enough to have at least * one chunk header. */ if (optLength < 8) { LOGE("Undersized opt data area (%u)\n", optLength); return false; } /* Process chunks until we see the end marker. */ while (*pOpt != kDexChunkEnd) { if (!isValidPointer(pOpt + 2, pOptStart, pOptEnd)) { LOGE("Bogus opt data content pointer at offset %u\n", ((const u1*) pOpt) - data); return false; } u4 size = *(pOpt + 1); const u1* pOptData = (const u1*) (pOpt + 2); /* * The rounded size is 64-bit aligned and includes +8 for the * type/size header (which was extracted immediately above). */ u4 roundedSize = (size + 8 + 7) & ~7; const u4* pNextOpt = pOpt + (roundedSize / sizeof(u4)); if (!isValidPointer(pNextOpt, pOptStart, pOptEnd)) { LOGE("Opt data area problem for chunk of size %u at offset %u\n", size, ((const u1*) pOpt) - data); return false; } switch (*pOpt) { case kDexChunkClassLookup: pDexFile->pClassLookup = (const DexClassLookup*) pOptData; break; case kDexChunkRegisterMaps: LOGV("+++ found register maps, size=%u\n", size); pDexFile->pRegisterMapPool = pOptData; break; default: LOGI("Unknown chunk 0x%08x (%c%c%c%c), size=%d in opt data area\n", *pOpt, (char) ((*pOpt) >> 24), (char) ((*pOpt) >> 16), (char) ((*pOpt) >> 8), (char) (*pOpt), size); break; } pOpt = pNextOpt; } return true; }