/* * 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. */ /* * Access .dex (Dalvik Executable Format) files. The code here assumes that * the DEX file has been rewritten (byte-swapped, word-aligned) and that * the contents can be directly accessed as a collection of C arrays. Please * see docs/dalvik/dex-format.html for a detailed description. * * The structure and field names were chosen to match those in the DEX spec. * * It's generally assumed that the DEX file will be stored in shared memory, * obviating the need to copy code and constant pool entries into newly * allocated storage. Maintaining local pointers to items in the shared area * is valid and encouraged. * * All memory-mapped structures are 32-bit aligned unless otherwise noted. */ #ifndef _LIBDEX_DEXFILE #define _LIBDEX_DEXFILE #include "vm/Common.h" // basic type defs, e.g. u1/u2/u4/u8, and LOG #include "libdex/SysUtil.h" /* * gcc-style inline management -- ensures we have a copy of all functions * in the library, so code that links against us will work whether or not * it was built with optimizations enabled. */ #ifndef _DEX_GEN_INLINES /* only defined by DexInlines.c */ # define DEX_INLINE extern __inline__ #else # define DEX_INLINE #endif /* DEX file magic number */ #define DEX_MAGIC "dex\n" /* version, encoded in 4 bytes of ASCII */ #define DEX_MAGIC_VERS "035\0" /* same, but for optimized DEX header */ #define DEX_OPT_MAGIC "dey\n" #define DEX_OPT_MAGIC_VERS "036\0" #define DEX_DEP_MAGIC "deps" /* * 160-bit SHA-1 digest. */ enum { kSHA1DigestLen = 20, kSHA1DigestOutputLen = kSHA1DigestLen*2 +1 }; /* general constants */ enum { kDexEndianConstant = 0x12345678, /* the endianness indicator */ kDexNoIndex = 0xffffffff, /* not a valid index value */ }; /* * access flags and masks; the "standard" ones are all <= 0x4000 * * Note: There are related declarations in vm/oo/Object.h in the ClassFlags * enum. */ enum { ACC_PUBLIC = 0x00000001, // class, field, method, ic ACC_PRIVATE = 0x00000002, // field, method, ic ACC_PROTECTED = 0x00000004, // field, method, ic ACC_STATIC = 0x00000008, // field, method, ic ACC_FINAL = 0x00000010, // class, field, method, ic ACC_SYNCHRONIZED = 0x00000020, // method (only allowed on natives) ACC_SUPER = 0x00000020, // class (not used in Dalvik) ACC_VOLATILE = 0x00000040, // field ACC_BRIDGE = 0x00000040, // method (1.5) ACC_TRANSIENT = 0x00000080, // field ACC_VARARGS = 0x00000080, // method (1.5) ACC_NATIVE = 0x00000100, // method ACC_INTERFACE = 0x00000200, // class, ic ACC_ABSTRACT = 0x00000400, // class, method, ic ACC_STRICT = 0x00000800, // method ACC_SYNTHETIC = 0x00001000, // field, method, ic ACC_ANNOTATION = 0x00002000, // class, ic (1.5) ACC_ENUM = 0x00004000, // class, field, ic (1.5) ACC_CONSTRUCTOR = 0x00010000, // method (Dalvik only) ACC_DECLARED_SYNCHRONIZED = 0x00020000, // method (Dalvik only) ACC_CLASS_MASK = (ACC_PUBLIC | ACC_FINAL | ACC_INTERFACE | ACC_ABSTRACT | ACC_SYNTHETIC | ACC_ANNOTATION | ACC_ENUM), ACC_INNER_CLASS_MASK = (ACC_CLASS_MASK | ACC_PRIVATE | ACC_PROTECTED | ACC_STATIC), ACC_FIELD_MASK = (ACC_PUBLIC | ACC_PRIVATE | ACC_PROTECTED | ACC_STATIC | ACC_FINAL | ACC_VOLATILE | ACC_TRANSIENT | ACC_SYNTHETIC | ACC_ENUM), ACC_METHOD_MASK = (ACC_PUBLIC | ACC_PRIVATE | ACC_PROTECTED | ACC_STATIC | ACC_FINAL | ACC_SYNCHRONIZED | ACC_BRIDGE | ACC_VARARGS | ACC_NATIVE | ACC_ABSTRACT | ACC_STRICT | ACC_SYNTHETIC | ACC_CONSTRUCTOR | ACC_DECLARED_SYNCHRONIZED), }; /* annotation constants */ enum { kDexVisibilityBuild = 0x00, /* annotation visibility */ kDexVisibilityRuntime = 0x01, kDexVisibilitySystem = 0x02, kDexAnnotationByte = 0x00, kDexAnnotationShort = 0x02, kDexAnnotationChar = 0x03, kDexAnnotationInt = 0x04, kDexAnnotationLong = 0x06, kDexAnnotationFloat = 0x10, kDexAnnotationDouble = 0x11, kDexAnnotationString = 0x17, kDexAnnotationType = 0x18, kDexAnnotationField = 0x19, kDexAnnotationMethod = 0x1a, kDexAnnotationEnum = 0x1b, kDexAnnotationArray = 0x1c, kDexAnnotationAnnotation = 0x1d, kDexAnnotationNull = 0x1e, kDexAnnotationBoolean = 0x1f, kDexAnnotationValueTypeMask = 0x1f, /* low 5 bits */ kDexAnnotationValueArgShift = 5, }; /* map item type codes */ enum { kDexTypeHeaderItem = 0x0000, kDexTypeStringIdItem = 0x0001, kDexTypeTypeIdItem = 0x0002, kDexTypeProtoIdItem = 0x0003, kDexTypeFieldIdItem = 0x0004, kDexTypeMethodIdItem = 0x0005, kDexTypeClassDefItem = 0x0006, kDexTypeMapList = 0x1000, kDexTypeTypeList = 0x1001, kDexTypeAnnotationSetRefList = 0x1002, kDexTypeAnnotationSetItem = 0x1003, kDexTypeClassDataItem = 0x2000, kDexTypeCodeItem = 0x2001, kDexTypeStringDataItem = 0x2002, kDexTypeDebugInfoItem = 0x2003, kDexTypeAnnotationItem = 0x2004, kDexTypeEncodedArrayItem = 0x2005, kDexTypeAnnotationsDirectoryItem = 0x2006, }; /* auxillary data section chunk codes */ enum { kDexChunkClassLookup = 0x434c4b50, /* CLKP */ kDexChunkRegisterMaps = 0x524d4150, /* RMAP */ kDexChunkEnd = 0x41454e44, /* AEND */ }; /* debug info opcodes and constants */ enum { DBG_END_SEQUENCE = 0x00, DBG_ADVANCE_PC = 0x01, DBG_ADVANCE_LINE = 0x02, DBG_START_LOCAL = 0x03, DBG_START_LOCAL_EXTENDED = 0x04, DBG_END_LOCAL = 0x05, DBG_RESTART_LOCAL = 0x06, DBG_SET_PROLOGUE_END = 0x07, DBG_SET_EPILOGUE_BEGIN = 0x08, DBG_SET_FILE = 0x09, DBG_FIRST_SPECIAL = 0x0a, DBG_LINE_BASE = -4, DBG_LINE_RANGE = 15, }; /* * Direct-mapped "header_item" struct. */ typedef struct DexHeader { u1 magic[8]; /* includes version number */ u4 checksum; /* adler32 checksum */ u1 signature[kSHA1DigestLen]; /* SHA-1 hash */ u4 fileSize; /* length of entire file */ u4 headerSize; /* offset to start of next section */ u4 endianTag; u4 linkSize; u4 linkOff; u4 mapOff; u4 stringIdsSize; u4 stringIdsOff; u4 typeIdsSize; u4 typeIdsOff; u4 protoIdsSize; u4 protoIdsOff; u4 fieldIdsSize; u4 fieldIdsOff; u4 methodIdsSize; u4 methodIdsOff; u4 classDefsSize; u4 classDefsOff; u4 dataSize; u4 dataOff; } DexHeader; /* * Direct-mapped "map_item". */ typedef struct DexMapItem { u2 type; /* type code (see kDexType* above) */ u2 unused; u4 size; /* count of items of the indicated type */ u4 offset; /* file offset to the start of data */ } DexMapItem; /* * Direct-mapped "map_list". */ typedef struct DexMapList { u4 size; /* #of entries in list */ DexMapItem list[1]; /* entries */ } DexMapList; /* * Direct-mapped "string_id_item". */ typedef struct DexStringId { u4 stringDataOff; /* file offset to string_data_item */ } DexStringId; /* * Direct-mapped "type_id_item". */ typedef struct DexTypeId { u4 descriptorIdx; /* index into stringIds list for type descriptor */ } DexTypeId; /* * Direct-mapped "field_id_item". */ typedef struct DexFieldId { u2 classIdx; /* index into typeIds list for defining class */ u2 typeIdx; /* index into typeIds for field type */ u4 nameIdx; /* index into stringIds for field name */ } DexFieldId; /* * Direct-mapped "method_id_item". */ typedef struct DexMethodId { u2 classIdx; /* index into typeIds list for defining class */ u2 protoIdx; /* index into protoIds for method prototype */ u4 nameIdx; /* index into stringIds for method name */ } DexMethodId; /* * Direct-mapped "proto_id_item". */ typedef struct DexProtoId { u4 shortyIdx; /* index into stringIds for shorty descriptor */ u4 returnTypeIdx; /* index into typeIds list for return type */ u4 parametersOff; /* file offset to type_list for parameter types */ } DexProtoId; /* * Direct-mapped "class_def_item". */ typedef struct DexClassDef { u4 classIdx; /* index into typeIds for this class */ u4 accessFlags; u4 superclassIdx; /* index into typeIds for superclass */ u4 interfacesOff; /* file offset to DexTypeList */ u4 sourceFileIdx; /* index into stringIds for source file name */ u4 annotationsOff; /* file offset to annotations_directory_item */ u4 classDataOff; /* file offset to class_data_item */ u4 staticValuesOff; /* file offset to DexEncodedArray */ } DexClassDef; /* * Direct-mapped "type_item". */ typedef struct DexTypeItem { u2 typeIdx; /* index into typeIds */ } DexTypeItem; /* * Direct-mapped "type_list". */ typedef struct DexTypeList { u4 size; /* #of entries in list */ DexTypeItem list[1]; /* entries */ } DexTypeList; /* * Direct-mapped "code_item". * * The "catches" table is used when throwing an exception, * "debugInfo" is used when displaying an exception stack trace or * debugging. An offset of zero indicates that there are no entries. */ typedef struct DexCode { u2 registersSize; u2 insSize; u2 outsSize; u2 triesSize; u4 debugInfoOff; /* file offset to debug info stream */ u4 insnsSize; /* size of the insns array, in u2 units */ u2 insns[1]; /* followed by optional u2 padding */ /* followed by try_item[triesSize] */ /* followed by uleb128 handlersSize */ /* followed by catch_handler_item[handlersSize] */ } DexCode; /* * Direct-mapped "try_item". */ typedef struct DexTry { u4 startAddr; /* start address, in 16-bit code units */ u2 insnCount; /* instruction count, in 16-bit code units */ u2 handlerOff; /* offset in encoded handler data to handlers */ } DexTry; /* * Link table. Currently undefined. */ typedef struct DexLink { u1 bleargh; } DexLink; /* * Direct-mapped "annotations_directory_item". */ typedef struct DexAnnotationsDirectoryItem { u4 classAnnotationsOff; /* offset to DexAnnotationSetItem */ u4 fieldsSize; /* count of DexFieldAnnotationsItem */ u4 methodsSize; /* count of DexMethodAnnotationsItem */ u4 parametersSize; /* count of DexParameterAnnotationsItem */ /* followed by DexFieldAnnotationsItem[fieldsSize] */ /* followed by DexMethodAnnotationsItem[methodsSize] */ /* followed by DexParameterAnnotationsItem[parametersSize] */ } DexAnnotationsDirectoryItem; /* * Direct-mapped "field_annotations_item". */ typedef struct DexFieldAnnotationsItem { u4 fieldIdx; u4 annotationsOff; /* offset to DexAnnotationSetItem */ } DexFieldAnnotationsItem; /* * Direct-mapped "method_annotations_item". */ typedef struct DexMethodAnnotationsItem { u4 methodIdx; u4 annotationsOff; /* offset to DexAnnotationSetItem */ } DexMethodAnnotationsItem; /* * Direct-mapped "parameter_annotations_item". */ typedef struct DexParameterAnnotationsItem { u4 methodIdx; u4 annotationsOff; /* offset to DexAnotationSetRefList */ } DexParameterAnnotationsItem; /* * Direct-mapped "annotation_set_ref_item". */ typedef struct DexAnnotationSetRefItem { u4 annotationsOff; /* offset to DexAnnotationSetItem */ } DexAnnotationSetRefItem; /* * Direct-mapped "annotation_set_ref_list". */ typedef struct DexAnnotationSetRefList { u4 size; DexAnnotationSetRefItem list[1]; } DexAnnotationSetRefList; /* * Direct-mapped "anotation_set_item". */ typedef struct DexAnnotationSetItem { u4 size; u4 entries[1]; /* offset to DexAnnotationItem */ } DexAnnotationSetItem; /* * Direct-mapped "annotation_item". * * NOTE: this structure is byte-aligned. */ typedef struct DexAnnotationItem { u1 visibility; u1 annotation[1]; /* data in encoded_annotation format */ } DexAnnotationItem; /* * Direct-mapped "encoded_array". * * NOTE: this structure is byte-aligned. */ typedef struct DexEncodedArray { u1 array[1]; /* data in encoded_array format */ } DexEncodedArray; /* * Lookup table for classes. It provides a mapping from class name to * class definition. Used by dexFindClass(). * * We calculate this at DEX optimization time and embed it in the file so we * don't need the same hash table in every VM. This is slightly slower than * a hash table with direct pointers to the items, but because it's shared * there's less of a penalty for using a fairly sparse table. */ typedef struct DexClassLookup { int size; // total size, including "size" int numEntries; // size of table[]; always power of 2 struct { u4 classDescriptorHash; // class descriptor hash code int classDescriptorOffset; // in bytes, from start of DEX int classDefOffset; // in bytes, from start of DEX } table[1]; } DexClassLookup; /* * Header added by DEX optimization pass. Values are always written in * local byte and structure padding. The first field (magic + version) * is guaranteed to be present and directly readable for all expected * compiler configurations; the rest is version-dependent. * * Try to keep this simple and fixed-size. */ typedef struct DexOptHeader { u1 magic[8]; /* includes version number */ u4 dexOffset; /* file offset of DEX header */ u4 dexLength; u4 depsOffset; /* offset of optimized DEX dependency table */ u4 depsLength; u4 optOffset; /* file offset of optimized data tables */ u4 optLength; u4 flags; /* some info flags */ u4 checksum; /* adler32 checksum covering deps/opt */ /* pad for 64-bit alignment if necessary */ } DexOptHeader; #define DEX_FLAG_VERIFIED (1) /* tried to verify all classes */ #define DEX_OPT_FLAG_BIG (1<<1) /* swapped to big-endian */ #define DEX_OPT_FLAG_FIELDS (1<<2) /* field access optimized */ #define DEX_OPT_FLAG_INVOCATIONS (1<<3) /* method calls optimized */ #define DEX_INTERFACE_CACHE_SIZE 128 /* must be power of 2 */ /* * Structure representing a DEX file. * * Code should regard DexFile as opaque, using the API calls provided here * to access specific structures. */ typedef struct DexFile { /* directly-mapped "opt" header */ const DexOptHeader* pOptHeader; /* pointers to directly-mapped structs and arrays in base DEX */ const DexHeader* pHeader; const DexStringId* pStringIds; const DexTypeId* pTypeIds; const DexFieldId* pFieldIds; const DexMethodId* pMethodIds; const DexProtoId* pProtoIds; const DexClassDef* pClassDefs; const DexLink* pLinkData; /* * These are mapped out of the "auxillary" section, and may not be * included in the file. */ const DexClassLookup* pClassLookup; const void* pRegisterMapPool; // RegisterMapClassPool /* points to start of DEX file data */ const u1* baseAddr; /* track memory overhead for auxillary structures */ int overhead; /* additional app-specific data structures associated with the DEX */ //void* auxData; } DexFile; /* * Utility function -- rounds up to the nearest power of 2. */ u4 dexRoundUpPower2(u4 val); /* * Parse an optimized or unoptimized .dex file sitting in memory. * * On success, return a newly-allocated DexFile. */ DexFile* dexFileParse(const u1* data, size_t length, int flags); /* bit values for "flags" argument to dexFileParse */ enum { kDexParseDefault = 0, kDexParseVerifyChecksum = 1, kDexParseContinueOnError = (1 << 1), }; /* * Fix the byte ordering of all fields in the DEX file, and do * structural verification. This is only required for code that opens * "raw" DEX files, such as the DEX optimizer. * * Return 0 on success. */ int dexSwapAndVerify(u1* addr, int len); /* * Detect the file type of the given memory buffer via magic number. * Call dexSwapAndVerify() on an unoptimized DEX file, do nothing * but return successfully on an optimized DEX file, and report an * error for all other cases. * * Return 0 on success. */ int dexSwapAndVerifyIfNecessary(u1* addr, int len); /* * Compute DEX checksum. */ u4 dexComputeChecksum(const DexHeader* pHeader); /* * Free a DexFile structure, along with any associated structures. */ void dexFileFree(DexFile* pDexFile); /* * Create class lookup table. */ DexClassLookup* dexCreateClassLookup(DexFile* pDexFile); /* * Find a class definition by descriptor. */ const DexClassDef* dexFindClass(const DexFile* pFile, const char* descriptor); /* * Set up the basic raw data pointers of a DexFile. This function isn't * meant for general use. */ void dexFileSetupBasicPointers(DexFile* pDexFile, const u1* data); /* return the DexMapList of the file, if any */ DEX_INLINE const DexMapList* dexGetMap(const DexFile* pDexFile) { u4 mapOff = pDexFile->pHeader->mapOff; if (mapOff == 0) { return NULL; } else { return (const DexMapList*) (pDexFile->baseAddr + mapOff); } } /* return the const char* string data referred to by the given string_id */ DEX_INLINE const char* dexGetStringData(const DexFile* pDexFile, const DexStringId* pStringId) { const u1* ptr = pDexFile->baseAddr + pStringId->stringDataOff; // Skip the uleb128 length. while (*(ptr++) > 0x7f) /* empty */ ; return (const char*) ptr; } /* return the StringId with the specified index */ DEX_INLINE const DexStringId* dexGetStringId(const DexFile* pDexFile, u4 idx) { assert(idx < pDexFile->pHeader->stringIdsSize); return &pDexFile->pStringIds[idx]; } /* return the UTF-8 encoded string with the specified string_id index */ DEX_INLINE const char* dexStringById(const DexFile* pDexFile, u4 idx) { const DexStringId* pStringId = dexGetStringId(pDexFile, idx); return dexGetStringData(pDexFile, pStringId); } /* Return the UTF-8 encoded string with the specified string_id index, * also filling in the UTF-16 size (number of 16-bit code points).*/ const char* dexStringAndSizeById(const DexFile* pDexFile, u4 idx, u4* utf16Size); /* return the TypeId with the specified index */ DEX_INLINE const DexTypeId* dexGetTypeId(const DexFile* pDexFile, u4 idx) { assert(idx < pDexFile->pHeader->typeIdsSize); return &pDexFile->pTypeIds[idx]; } /* * Get the descriptor string associated with a given type index. * The caller should not free() the returned string. */ DEX_INLINE const char* dexStringByTypeIdx(const DexFile* pDexFile, u4 idx) { const DexTypeId* typeId = dexGetTypeId(pDexFile, idx); return dexStringById(pDexFile, typeId->descriptorIdx); } /* return the MethodId with the specified index */ DEX_INLINE const DexMethodId* dexGetMethodId(const DexFile* pDexFile, u4 idx) { assert(idx < pDexFile->pHeader->methodIdsSize); return &pDexFile->pMethodIds[idx]; } /* return the FieldId with the specified index */ DEX_INLINE const DexFieldId* dexGetFieldId(const DexFile* pDexFile, u4 idx) { assert(idx < pDexFile->pHeader->fieldIdsSize); return &pDexFile->pFieldIds[idx]; } /* return the ProtoId with the specified index */ DEX_INLINE const DexProtoId* dexGetProtoId(const DexFile* pDexFile, u4 idx) { assert(idx < pDexFile->pHeader->protoIdsSize); return &pDexFile->pProtoIds[idx]; } /* * Get the parameter list from a ProtoId. The returns NULL if the ProtoId * does not have a parameter list. */ DEX_INLINE const DexTypeList* dexGetProtoParameters( const DexFile *pDexFile, const DexProtoId* pProtoId) { if (pProtoId->parametersOff == 0) { return NULL; } return (const DexTypeList*) (pDexFile->baseAddr + pProtoId->parametersOff); } /* return the ClassDef with the specified index */ DEX_INLINE const DexClassDef* dexGetClassDef(const DexFile* pDexFile, u4 idx) { assert(idx < pDexFile->pHeader->classDefsSize); return &pDexFile->pClassDefs[idx]; } /* given a ClassDef pointer, recover its index */ DEX_INLINE u4 dexGetIndexForClassDef(const DexFile* pDexFile, const DexClassDef* pClassDef) { assert(pClassDef >= pDexFile->pClassDefs && pClassDef < pDexFile->pClassDefs + pDexFile->pHeader->classDefsSize); return pClassDef - pDexFile->pClassDefs; } /* get the interface list for a DexClass */ DEX_INLINE const DexTypeList* dexGetInterfacesList(const DexFile* pDexFile, const DexClassDef* pClassDef) { if (pClassDef->interfacesOff == 0) return NULL; return (const DexTypeList*) (pDexFile->baseAddr + pClassDef->interfacesOff); } /* return the Nth entry in a DexTypeList. */ DEX_INLINE const DexTypeItem* dexGetTypeItem(const DexTypeList* pList, u4 idx) { assert(idx < pList->size); return &pList->list[idx]; } /* return the type_idx for the Nth entry in a TypeList */ DEX_INLINE u4 dexTypeListGetIdx(const DexTypeList* pList, u4 idx) { const DexTypeItem* pItem = dexGetTypeItem(pList, idx); return pItem->typeIdx; } /* get the static values list for a DexClass */ DEX_INLINE const DexEncodedArray* dexGetStaticValuesList( const DexFile* pDexFile, const DexClassDef* pClassDef) { if (pClassDef->staticValuesOff == 0) return NULL; return (const DexEncodedArray*) (pDexFile->baseAddr + pClassDef->staticValuesOff); } /* get the annotations directory item for a DexClass */ DEX_INLINE const DexAnnotationsDirectoryItem* dexGetAnnotationsDirectoryItem( const DexFile* pDexFile, const DexClassDef* pClassDef) { if (pClassDef->annotationsOff == 0) return NULL; return (const DexAnnotationsDirectoryItem*) (pDexFile->baseAddr + pClassDef->annotationsOff); } /* get the source file string */ DEX_INLINE const char* dexGetSourceFile( const DexFile* pDexFile, const DexClassDef* pClassDef) { if (pClassDef->sourceFileIdx == 0xffffffff) return NULL; return dexStringById(pDexFile, pClassDef->sourceFileIdx); } /* get the size, in bytes, of a DexCode */ size_t dexGetDexCodeSize(const DexCode* pCode); /* Get the list of "tries" for the given DexCode. */ DEX_INLINE const DexTry* dexGetTries(const DexCode* pCode) { const u2* insnsEnd = &pCode->insns[pCode->insnsSize]; // Round to four bytes. if ((((u4) insnsEnd) & 3) != 0) { insnsEnd++; } return (const DexTry*) insnsEnd; } /* Get the base of the encoded data for the given DexCode. */ DEX_INLINE const u1* dexGetCatchHandlerData(const DexCode* pCode) { const DexTry* pTries = dexGetTries(pCode); return (const u1*) &pTries[pCode->triesSize]; } /* get a pointer to the start of the debugging data */ DEX_INLINE const u1* dexGetDebugInfoStream(const DexFile* pDexFile, const DexCode* pCode) { if (pCode->debugInfoOff == 0) { return NULL; } else { return pDexFile->baseAddr + pCode->debugInfoOff; } } /* * Callback for "new position table entry". * Returning non-0 causes the decoder to stop early. */ typedef int (*DexDebugNewPositionCb)(void *cnxt, u4 address, u4 lineNum); /* * Callback for "new locals table entry". "signature" is an empty string * if no signature is available for an entry. */ typedef void (*DexDebugNewLocalCb)(void *cnxt, u2 reg, u4 startAddress, u4 endAddress, const char *name, const char *descriptor, const char *signature); /* * Decode debug info for method. * * posCb is called in ascending address order. * localCb is called in order of ascending end address. */ void dexDecodeDebugInfo( const DexFile* pDexFile, const DexCode* pDexCode, const char* classDescriptor, u4 protoIdx, u4 accessFlags, DexDebugNewPositionCb posCb, DexDebugNewLocalCb localCb, void* cnxt); /* DexClassDef convenience - get class descriptor */ DEX_INLINE const char* dexGetClassDescriptor(const DexFile* pDexFile, const DexClassDef* pClassDef) { return dexStringByTypeIdx(pDexFile, pClassDef->classIdx); } /* DexClassDef convenience - get superclass descriptor */ DEX_INLINE const char* dexGetSuperClassDescriptor(const DexFile* pDexFile, const DexClassDef* pClassDef) { if (pClassDef->superclassIdx == 0) return NULL; return dexStringByTypeIdx(pDexFile, pClassDef->superclassIdx); } /* DexClassDef convenience - get class_data_item pointer */ DEX_INLINE const u1* dexGetClassData(const DexFile* pDexFile, const DexClassDef* pClassDef) { if (pClassDef->classDataOff == 0) return NULL; return (const u1*) (pDexFile->baseAddr + pClassDef->classDataOff); } /* Get an annotation set at a particular offset. */ DEX_INLINE const DexAnnotationSetItem* dexGetAnnotationSetItem( const DexFile* pDexFile, u4 offset) { return (const DexAnnotationSetItem*) (pDexFile->baseAddr + offset); } /* get the class' annotation set */ DEX_INLINE const DexAnnotationSetItem* dexGetClassAnnotationSet( const DexFile* pDexFile, const DexAnnotationsDirectoryItem* pAnnoDir) { if (pAnnoDir->classAnnotationsOff == 0) return NULL; return dexGetAnnotationSetItem(pDexFile, pAnnoDir->classAnnotationsOff); } /* get the class' field annotation list */ DEX_INLINE const DexFieldAnnotationsItem* dexGetFieldAnnotations( const DexFile* pDexFile, const DexAnnotationsDirectoryItem* pAnnoDir) { if (pAnnoDir->fieldsSize == 0) return NULL; // Skip past the header to the start of the field annotations. return (const DexFieldAnnotationsItem*) &pAnnoDir[1]; } /* get field annotation list size */ DEX_INLINE int dexGetFieldAnnotationsSize(const DexFile* pDexFile, const DexAnnotationsDirectoryItem* pAnnoDir) { return pAnnoDir->fieldsSize; } /* return a pointer to the field's annotation set */ DEX_INLINE const DexAnnotationSetItem* dexGetFieldAnnotationSetItem( const DexFile* pDexFile, const DexFieldAnnotationsItem* pItem) { return dexGetAnnotationSetItem(pDexFile, pItem->annotationsOff); } /* get the class' method annotation list */ DEX_INLINE const DexMethodAnnotationsItem* dexGetMethodAnnotations( const DexFile* pDexFile, const DexAnnotationsDirectoryItem* pAnnoDir) { if (pAnnoDir->methodsSize == 0) return NULL; /* * Skip past the header and field annotations to the start of the * method annotations. */ const u1* addr = (const u1*) &pAnnoDir[1]; addr += pAnnoDir->fieldsSize * sizeof (DexFieldAnnotationsItem); return (const DexMethodAnnotationsItem*) addr; } /* get method annotation list size */ DEX_INLINE int dexGetMethodAnnotationsSize(const DexFile* pDexFile, const DexAnnotationsDirectoryItem* pAnnoDir) { return pAnnoDir->methodsSize; } /* return a pointer to the method's annotation set */ DEX_INLINE const DexAnnotationSetItem* dexGetMethodAnnotationSetItem( const DexFile* pDexFile, const DexMethodAnnotationsItem* pItem) { return dexGetAnnotationSetItem(pDexFile, pItem->annotationsOff); } /* get the class' parameter annotation list */ DEX_INLINE const DexParameterAnnotationsItem* dexGetParameterAnnotations( const DexFile* pDexFile, const DexAnnotationsDirectoryItem* pAnnoDir) { if (pAnnoDir->parametersSize == 0) return NULL; /* * Skip past the header, field annotations, and method annotations * to the start of the parameter annotations. */ const u1* addr = (const u1*) &pAnnoDir[1]; addr += pAnnoDir->fieldsSize * sizeof (DexFieldAnnotationsItem); addr += pAnnoDir->methodsSize * sizeof (DexMethodAnnotationsItem); return (const DexParameterAnnotationsItem*) addr; } /* get method annotation list size */ DEX_INLINE int dexGetParameterAnnotationsSize(const DexFile* pDexFile, const DexAnnotationsDirectoryItem* pAnnoDir) { return pAnnoDir->parametersSize; } /* return the parameter annotation ref list */ DEX_INLINE const DexAnnotationSetRefList* dexGetParameterAnnotationSetRefList( const DexFile* pDexFile, const DexParameterAnnotationsItem* pItem) { return (const DexAnnotationSetRefList*) (pDexFile->baseAddr + pItem->annotationsOff); } /* get method annotation list size */ DEX_INLINE int dexGetParameterAnnotationSetRefSize(const DexFile* pDexFile, const DexParameterAnnotationsItem* pItem) { if (pItem->annotationsOff == 0) return 0; return dexGetParameterAnnotationSetRefList(pDexFile, pItem)->size; } /* return the Nth entry from an annotation set ref list */ DEX_INLINE const DexAnnotationSetRefItem* dexGetParameterAnnotationSetRef( const DexAnnotationSetRefList* pList, u4 idx) { assert(idx < pList->size); return &pList->list[idx]; } /* given a DexAnnotationSetRefItem, return the DexAnnotationSetItem */ DEX_INLINE const DexAnnotationSetItem* dexGetSetRefItemItem( const DexFile* pDexFile, const DexAnnotationSetRefItem* pItem) { return dexGetAnnotationSetItem(pDexFile, pItem->annotationsOff); } /* return the Nth annotation offset from a DexAnnotationSetItem */ DEX_INLINE u4 dexGetAnnotationOff( const DexAnnotationSetItem* pAnnoSet, u4 idx) { assert(idx < pAnnoSet->size); return pAnnoSet->entries[idx]; } /* return the Nth annotation item from a DexAnnotationSetItem */ DEX_INLINE const DexAnnotationItem* dexGetAnnotationItem( const DexFile* pDexFile, const DexAnnotationSetItem* pAnnoSet, u4 idx) { return (const DexAnnotationItem*) (pDexFile->baseAddr + dexGetAnnotationOff(pAnnoSet, idx)); } /* * =========================================================================== * Utility Functions * =========================================================================== */ /* * Retrieve the next UTF-16 character from a UTF-8 string. * * Advances "*pUtf8Ptr" to the start of the next character. * * WARNING: If a string is corrupted by dropping a '\0' in the middle * of a 3-byte sequence, you can end up overrunning the buffer with * reads (and possibly with the writes if the length was computed and * cached before the damage). For performance reasons, this function * assumes that the string being parsed is known to be valid (e.g., by * already being verified). Most strings we process here are coming * out of dex files or other internal translations, so the only real * risk comes from the JNI NewStringUTF call. */ DEX_INLINE u2 dexGetUtf16FromUtf8(const char** pUtf8Ptr) { unsigned int one, two, three; one = *(*pUtf8Ptr)++; if ((one & 0x80) != 0) { /* two- or three-byte encoding */ two = *(*pUtf8Ptr)++; if ((one & 0x20) != 0) { /* three-byte encoding */ three = *(*pUtf8Ptr)++; return ((one & 0x0f) << 12) | ((two & 0x3f) << 6) | (three & 0x3f); } else { /* two-byte encoding */ return ((one & 0x1f) << 6) | (two & 0x3f); } } else { /* one-byte encoding */ return one; } } /* Compare two '\0'-terminated modified UTF-8 strings, using Unicode * code point values for comparison. This treats different encodings * for the same code point as equivalent, except that only a real '\0' * byte is considered the string terminator. The return value is as * for strcmp(). */ int dexUtf8Cmp(const char* s1, const char* s2); /* for dexIsValidMemberNameUtf8(), a bit vector indicating valid low ascii */ extern u4 DEX_MEMBER_VALID_LOW_ASCII[4]; /* Helper for dexIsValidMemberUtf8(); do not call directly. */ bool dexIsValidMemberNameUtf8_0(const char** pUtf8Ptr); /* Return whether the pointed-at modified-UTF-8 encoded character is * valid as part of a member name, updating the pointer to point past * the consumed character. This will consume two encoded UTF-16 code * points if the character is encoded as a surrogate pair. Also, if * this function returns false, then the given pointer may only have * been partially advanced. */ DEX_INLINE bool dexIsValidMemberNameUtf8(const char** pUtf8Ptr) { u1 c = (u1) **pUtf8Ptr; if (c <= 0x7f) { // It's low-ascii, so check the table. u4 wordIdx = c >> 5; u4 bitIdx = c & 0x1f; (*pUtf8Ptr)++; return (DEX_MEMBER_VALID_LOW_ASCII[wordIdx] & (1 << bitIdx)) != 0; } /* * It's a multibyte encoded character. Call a non-inline function * for the heavy lifting. */ return dexIsValidMemberNameUtf8_0(pUtf8Ptr); } /* Return whether the given string is a valid field or method name. */ bool dexIsValidMemberName(const char* s); /* Return whether the given string is a valid type descriptor. */ bool dexIsValidTypeDescriptor(const char* s); /* Return whether the given string is a valid reference descriptor. This * is true if dexIsValidTypeDescriptor() returns true and the descriptor * is for a class or array and not a primitive type. */ bool dexIsReferenceDescriptor(const char* s); /* Return whether the given string is a valid class descriptor. This * is true if dexIsValidTypeDescriptor() returns true and the descriptor * is for a class and not an array or primitive type. */ bool dexIsClassDescriptor(const char* s); /* Return whether the given string is a valid field type descriptor. This * is true if dexIsValidTypeDescriptor() returns true and the descriptor * is for anything but "void". */ bool dexIsFieldDescriptor(const char* s); #endif /*_LIBDEX_DEXFILE*/