/* * Copyright (C) 2008 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 deal with class definition structures in DEX files */ #include #include #include "DexClass.h" #include "Leb128.h" /* Helper for verification which reads and verifies a given number * of uleb128 values. */ static bool verifyUlebs(const u1* pData, const u1* pLimit, u4 count) { bool okay = true; u4 i; while (okay && (count-- != 0)) { readAndVerifyUnsignedLeb128(&pData, pLimit, &okay); } return okay; } /* Read and verify the header of a class_data_item. This updates the * given data pointer to point past the end of the read data and * returns an "okay" flag (that is, false == failure). */ bool dexReadAndVerifyClassDataHeader(const u1** pData, const u1* pLimit, DexClassDataHeader *pHeader) { if (! verifyUlebs(*pData, pLimit, 4)) { return false; } dexReadClassDataHeader(pData, pHeader); return true; } /* Read and verify an encoded_field. This updates the * given data pointer to point past the end of the read data and * returns an "okay" flag (that is, false == failure). * * The lastIndex value should be set to 0 before the first field in * a list is read. It is updated as fields are read and used in the * decode process. * * The verification done by this function is of the raw data format * only; it does not verify that access flags or indices * are valid. */ bool dexReadAndVerifyClassDataField(const u1** pData, const u1* pLimit, DexField* pField, u4* lastIndex) { if (! verifyUlebs(*pData, pLimit, 2)) { return false; } dexReadClassDataField(pData, pField, lastIndex); return true; } /* Read and verify an encoded_method. This updates the * given data pointer to point past the end of the read data and * returns an "okay" flag (that is, false == failure). * * The lastIndex value should be set to 0 before the first method in * a list is read. It is updated as fields are read and used in the * decode process. * * The verification done by this function is of the raw data format * only; it does not verify that access flags, indices, or offsets * are valid. */ bool dexReadAndVerifyClassDataMethod(const u1** pData, const u1* pLimit, DexMethod* pMethod, u4* lastIndex) { if (! verifyUlebs(*pData, pLimit, 3)) { return false; } dexReadClassDataMethod(pData, pMethod, lastIndex); return true; } /* Read, verify, and return an entire class_data_item. This updates * the given data pointer to point past the end of the read data. This * function allocates a single chunk of memory for the result, which * must subsequently be free()d. This function returns NULL if there * was trouble parsing the data. If this function is passed NULL, it * returns an initialized empty DexClassData structure. * * The verification done by this function is of the raw data format * only; it does not verify that access flags, indices, or offsets * are valid. */ DexClassData* dexReadAndVerifyClassData(const u1** pData, const u1* pLimit) { DexClassDataHeader header; u4 lastIndex; if (*pData == NULL) { DexClassData* result = (DexClassData*) malloc(sizeof(DexClassData)); memset(result, 0, sizeof(*result)); return result; } if (! dexReadAndVerifyClassDataHeader(pData, pLimit, &header)) { return NULL; } size_t resultSize = sizeof(DexClassData) + (header.staticFieldsSize * sizeof(DexField)) + (header.instanceFieldsSize * sizeof(DexField)) + (header.directMethodsSize * sizeof(DexMethod)) + (header.virtualMethodsSize * sizeof(DexMethod)); DexClassData* result = (DexClassData*) malloc(resultSize); u1* ptr = ((u1*) result) + sizeof(DexClassData); bool okay = true; u4 i; if (result == NULL) { return NULL; } result->header = header; if (header.staticFieldsSize != 0) { result->staticFields = (DexField*) ptr; ptr += header.staticFieldsSize * sizeof(DexField); } else { result->staticFields = NULL; } if (header.instanceFieldsSize != 0) { result->instanceFields = (DexField*) ptr; ptr += header.instanceFieldsSize * sizeof(DexField); } else { result->instanceFields = NULL; } if (header.directMethodsSize != 0) { result->directMethods = (DexMethod*) ptr; ptr += header.directMethodsSize * sizeof(DexMethod); } else { result->directMethods = NULL; } if (header.virtualMethodsSize != 0) { result->virtualMethods = (DexMethod*) ptr; } else { result->virtualMethods = NULL; } lastIndex = 0; for (i = 0; okay && (i < header.staticFieldsSize); i++) { okay = dexReadAndVerifyClassDataField(pData, pLimit, &result->staticFields[i], &lastIndex); } lastIndex = 0; for (i = 0; okay && (i < header.instanceFieldsSize); i++) { okay = dexReadAndVerifyClassDataField(pData, pLimit, &result->instanceFields[i], &lastIndex); } lastIndex = 0; for (i = 0; okay && (i < header.directMethodsSize); i++) { okay = dexReadAndVerifyClassDataMethod(pData, pLimit, &result->directMethods[i], &lastIndex); } lastIndex = 0; for (i = 0; okay && (i < header.virtualMethodsSize); i++) { okay = dexReadAndVerifyClassDataMethod(pData, pLimit, &result->virtualMethods[i], &lastIndex); } if (! okay) { free(result); return NULL; } return result; }