vm/DvmDex.h - platform/dalvik - Git at Google

 /*
  * 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.
  */

 /*
  * The VM wraps some additional data structures around the DexFile.  These
  * are defined here.
  */
 #ifndef _DALVIK_DVMDEX
 #define _DALVIK_DVMDEX

 #include "libdex/DexFile.h"

 /* extern */
 struct ClassObject;
 struct HashTable;
 struct InstField;
 struct Method;
 struct StringObject;


 /*
  * Some additional VM data structures that are associated with the DEX file.
  */
 typedef struct DvmDex {
     /* pointer to the DexFile we're associated with */
     DexFile*            pDexFile;

     /* clone of pDexFile->pHeader (it's used frequently enough) */
     const DexHeader*    pHeader;

     /* interned strings; parallel to "stringIds" */
     struct StringObject** pResStrings;

     /* resolved classes; parallel to "typeIds" */
     struct ClassObject** pResClasses;

     /* resolved methods; parallel to "methodIds" */
     struct Method**     pResMethods;

     /* resolved instance fields; parallel to "fieldIds" */
     /* (this holds both InstField and StaticField) */
     struct Field**      pResFields;

     /* interface method lookup cache */
     struct AtomicCache* pInterfaceCache;

     /* shared memory region with file contents */
     MemMapping          memMap;
 } DvmDex;


 /*
  * Given a file descriptor for an open "optimized" DEX file, map it into
  * memory and parse the contents.
  *
  * On success, returns 0 and sets "*ppDvmDex" to a newly-allocated DvmDex.
  * On failure, returns a meaningful error code [currently just -1].
  */
 int dvmDexFileOpenFromFd(int fd, DvmDex** ppDvmDex);

 /*
  * Open a partial DEX file.  Only useful as part of the optimization process.
  */
 int dvmDexFileOpenPartial(const void* addr, int len, DvmDex** ppDvmDex);

 /*
  * Free a DvmDex structure, along with any associated structures.
  */
 void dvmDexFileFree(DvmDex* pDvmDex);


 /*
  * Change the 1- or 2-byte value at the specified address to a new value.  If
  * the location already has the new value, do nothing.
  *
  * This does not make any synchronization guarantees.  The caller must
  * ensure exclusivity vs. other callers.
  *
  * For the 2-byte call, the pointer should have 16-bit alignment.
  *
  * Returns "true" on success.
  */
 bool dvmDexChangeDex1(DvmDex* pDvmDex, u1* addr, u1 newVal);
 bool dvmDexChangeDex2(DvmDex* pDvmDex, u2* addr, u2 newVal);


 #if DVM_RESOLVER_CACHE == DVM_RC_DISABLED
 /* 1:1 mapping */

 /*
  * Return the requested item if it has been resolved, or NULL if it hasn't.
  */
 INLINE struct StringObject* dvmDexGetResolvedString(const DvmDex* pDvmDex,
     u4 stringIdx)
 {
     assert(stringIdx < pDvmDex->pHeader->stringIdsSize);
     return pDvmDex->pResStrings[stringIdx];
 }
 INLINE struct ClassObject* dvmDexGetResolvedClass(const DvmDex* pDvmDex,
     u4 classIdx)
 {
     assert(classIdx < pDvmDex->pHeader->typeIdsSize);
     return pDvmDex->pResClasses[classIdx];
 }
 INLINE struct Method* dvmDexGetResolvedMethod(const DvmDex* pDvmDex,
     u4 methodIdx)
 {
     assert(methodIdx < pDvmDex->pHeader->methodIdsSize);
     return pDvmDex->pResMethods[methodIdx];
 }
 INLINE struct Field* dvmDexGetResolvedField(const DvmDex* pDvmDex,
     u4 fieldIdx)
 {
     assert(fieldIdx < pDvmDex->pHeader->fieldIdsSize);
     return pDvmDex->pResFields[fieldIdx];
 }

 /*
  * Update the resolved item table.  Resolution always produces the same
  * result, so we're not worried about atomicity here.
  */
 INLINE void dvmDexSetResolvedString(DvmDex* pDvmDex, u4 stringIdx,
     struct StringObject* str)
 {
     assert(stringIdx < pDvmDex->pHeader->stringIdsSize);
     pDvmDex->pResStrings[stringIdx] = str;
 }
 INLINE void dvmDexSetResolvedClass(DvmDex* pDvmDex, u4 classIdx,
     struct ClassObject* clazz)
 {
     assert(classIdx < pDvmDex->pHeader->typeIdsSize);
     pDvmDex->pResClasses[classIdx] = clazz;
 }
 INLINE void dvmDexSetResolvedMethod(DvmDex* pDvmDex, u4 methodIdx,
     struct Method* method)
 {
     assert(methodIdx < pDvmDex->pHeader->methodIdsSize);
     pDvmDex->pResMethods[methodIdx] = method;
 }
 INLINE void dvmDexSetResolvedField(DvmDex* pDvmDex, u4 fieldIdx,
     struct Field* field)
 {
     assert(fieldIdx < pDvmDex->pHeader->fieldIdsSize);
     pDvmDex->pResFields[fieldIdx] = field;
 }

 #elif DVM_RESOLVER_CACHE == DVM_RC_REDUCING
 /* reduce request to fit in a less-than-full-size cache table */

 /*
  * Return the requested item if it has been resolved, or NULL if it hasn't.
  *
  * If we have a mapping table defined for this category, but there's no
  * entry for this index, we always return NULL.  Otherwise, we return the
  * entry.  (To regain some performance we may want to assume that the
  * table exists when compiled in this mode -- avoids a null check but
  * prevents us from switching back and forth without rebuilding the VM.)
  *
  * We could save an integer compare here by ensuring that map[kNoIndexMapping]
  * always evalutes to NULL (e.g. set kNoIndexMapping = 0).
  */
 INLINE struct StringObject* dvmDexGetResolvedString(const DvmDex* pDvmDex,
     u4 stringIdx)
 {
     const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;

     assert(stringIdx < pDvmDex->pHeader->stringIdsSize);
     if (pIndexMap->stringReducedCount > 0) {
         stringIdx = pIndexMap->stringMap[stringIdx];
         if (stringIdx == kNoIndexMapping)
             return NULL;
     }
     return pDvmDex->pResStrings[stringIdx];
 }
 INLINE struct ClassObject* dvmDexGetResolvedClass(const DvmDex* pDvmDex,
     u4 classIdx)
 {
     const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;

     assert(classIdx < pDvmDex->pHeader->typeIdsSize);
     if (pIndexMap->classReducedCount > 0) {
         classIdx = pIndexMap->classMap[classIdx];
         if (classIdx == kNoIndexMapping)
             return NULL;
     }
     return pDvmDex->pResClasses[classIdx];
 }
 INLINE struct Method* dvmDexGetResolvedMethod(const DvmDex* pDvmDex,
     u4 methodIdx)
 {
     const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;

     assert(methodIdx < pDvmDex->pHeader->methodIdsSize);
     if (pIndexMap->methodReducedCount > 0) {
         methodIdx = pIndexMap->methodMap[methodIdx];
         if (methodIdx == kNoIndexMapping)
             return NULL;
     }
     return pDvmDex->pResMethods[methodIdx];
 }
 INLINE struct Field* dvmDexGetResolvedField(const DvmDex* pDvmDex,
     u4 fieldIdx)
 {
     const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;

     assert(fieldIdx < pDvmDex->pHeader->fieldIdsSize);
     if (pIndexMap->fieldReducedCount > 0) {
         fieldIdx = pIndexMap->fieldMap[fieldIdx];
         if (fieldIdx == kNoIndexMapping)
             return NULL;
     }
     return pDvmDex->pResFields[fieldIdx];
 }

 /*
  * Update the resolved item table.  Resolution always produces the same
  * result, so we're not worried about atomicity here.
  */
 INLINE void dvmDexSetResolvedString(DvmDex* pDvmDex, u4 stringIdx,
     struct StringObject* str)
 {
     const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;
     u4 newIdx;

     assert(stringIdx < pDvmDex->pHeader->stringIdsSize);
     if (pIndexMap->stringReducedCount > 0) {
         newIdx = pIndexMap->stringMap[stringIdx];
         if (newIdx != kNoIndexMapping)
             pDvmDex->pResStrings[newIdx] = str;
     }
 }
 INLINE void dvmDexSetResolvedClass(DvmDex* pDvmDex, u4 classIdx,
     struct ClassObject* clazz)
 {
     const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;
     u4 newIdx;

     assert(classIdx < pDvmDex->pHeader->typeIdsSize);
     if (pIndexMap->classReducedCount > 0) {
         newIdx = pIndexMap->classMap[classIdx];
         if (newIdx != kNoIndexMapping)
             pDvmDex->pResClasses[newIdx] = clazz;
     }
 }
 INLINE void dvmDexSetResolvedMethod(DvmDex* pDvmDex, u4 methodIdx,
     struct Method* method)
 {
     const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;
     u4 newIdx;

     assert(methodIdx < pDvmDex->pHeader->methodIdsSize);
     if (pIndexMap->methodReducedCount > 0) {
         newIdx = pIndexMap->methodMap[methodIdx];
         if (newIdx != kNoIndexMapping)
             pDvmDex->pResMethods[newIdx] = method;
     }
 }
 INLINE void dvmDexSetResolvedField(DvmDex* pDvmDex, u4 fieldIdx,
     struct Field* field)
 {
     const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;
     u4 newIdx;

     assert(fieldIdx < pDvmDex->pHeader->fieldIdsSize);
     if (pIndexMap->fieldReducedCount > 0) {
         newIdx = pIndexMap->fieldMap[fieldIdx];
         if (newIdx != kNoIndexMapping)
             pDvmDex->pResFields[newIdx] = field;
     }
 }

 #elif DVM_RESOLVER_CACHE == DVM_RC_EXPANDING

 #error "not implemented"    /* TODO */

 #elif DVM_RESOLVER_CACHE == DVM_RC_NO_CACHE

 /*
  * There's no cache, so we always return NULL.
  */
 INLINE struct StringObject* dvmDexGetResolvedString(const DvmDex* pDvmDex,
     u4 stringIdx)
 {
     return NULL;
 }
 INLINE struct ClassObject* dvmDexGetResolvedClass(const DvmDex* pDvmDex,
     u4 classIdx)
 {
     return NULL;
 }
 INLINE struct Method* dvmDexGetResolvedMethod(const DvmDex* pDvmDex,
     u4 methodIdx)
 {
     return NULL;
 }
 INLINE struct Field* dvmDexGetResolvedField(const DvmDex* pDvmDex,
     u4 fieldIdx)
 {
     return NULL;
 }

 /*
  * Update the resolved item table.  There is no table, so do nothing.
  */
 INLINE void dvmDexSetResolvedString(DvmDex* pDvmDex, u4 stringIdx,
     struct StringObject* str)
 {}
 INLINE void dvmDexSetResolvedClass(DvmDex* pDvmDex, u4 classIdx,
     struct ClassObject* clazz)
 {}
 INLINE void dvmDexSetResolvedMethod(DvmDex* pDvmDex, u4 methodIdx,
     struct Method* method)
 {}
 INLINE void dvmDexSetResolvedField(DvmDex* pDvmDex, u4 fieldIdx,
     struct Field* field)
 {}

 #else
 #error "huh?"
 #endif /*DVM_RESOLVER_CACHE==N*/

 #endif /*_DALVIK_DVMDEX*/
	/*
	* 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.
	*/

	/*
	* The VM wraps some additional data structures around the DexFile. These
	* are defined here.
	*/
	#ifndef _DALVIK_DVMDEX
	#define _DALVIK_DVMDEX

	#include "libdex/DexFile.h"

	/* extern */
	struct ClassObject;
	struct HashTable;
	struct InstField;
	struct Method;
	struct StringObject;


	/*
	* Some additional VM data structures that are associated with the DEX file.
	*/
	typedef struct DvmDex {
	/* pointer to the DexFile we're associated with */
	DexFile* pDexFile;

	/* clone of pDexFile->pHeader (it's used frequently enough) */
	const DexHeader* pHeader;

	/* interned strings; parallel to "stringIds" */
	struct StringObject** pResStrings;

	/* resolved classes; parallel to "typeIds" */
	struct ClassObject** pResClasses;

	/* resolved methods; parallel to "methodIds" */
	struct Method** pResMethods;

	/* resolved instance fields; parallel to "fieldIds" */
	/* (this holds both InstField and StaticField) */
	struct Field** pResFields;

	/* interface method lookup cache */
	struct AtomicCache* pInterfaceCache;

	/* shared memory region with file contents */
	MemMapping memMap;
	} DvmDex;


	/*
	* Given a file descriptor for an open "optimized" DEX file, map it into
	* memory and parse the contents.
	*
	* On success, returns 0 and sets "*ppDvmDex" to a newly-allocated DvmDex.
	* On failure, returns a meaningful error code [currently just -1].
	*/
	int dvmDexFileOpenFromFd(int fd, DvmDex** ppDvmDex);

	/*
	* Open a partial DEX file. Only useful as part of the optimization process.
	*/
	int dvmDexFileOpenPartial(const void* addr, int len, DvmDex** ppDvmDex);

	/*
	* Free a DvmDex structure, along with any associated structures.
	*/
	void dvmDexFileFree(DvmDex* pDvmDex);


	/*
	* Change the 1- or 2-byte value at the specified address to a new value. If
	* the location already has the new value, do nothing.
	*
	* This does not make any synchronization guarantees. The caller must
	* ensure exclusivity vs. other callers.
	*
	* For the 2-byte call, the pointer should have 16-bit alignment.
	*
	* Returns "true" on success.
	*/
	bool dvmDexChangeDex1(DvmDex* pDvmDex, u1* addr, u1 newVal);
	bool dvmDexChangeDex2(DvmDex* pDvmDex, u2* addr, u2 newVal);


	#if DVM_RESOLVER_CACHE == DVM_RC_DISABLED
	/* 1:1 mapping */

	/*
	* Return the requested item if it has been resolved, or NULL if it hasn't.
	*/
	INLINE struct StringObject* dvmDexGetResolvedString(const DvmDex* pDvmDex,
	u4 stringIdx)
	{
	assert(stringIdx < pDvmDex->pHeader->stringIdsSize);
	return pDvmDex->pResStrings[stringIdx];
	}
	INLINE struct ClassObject* dvmDexGetResolvedClass(const DvmDex* pDvmDex,
	u4 classIdx)
	{
	assert(classIdx < pDvmDex->pHeader->typeIdsSize);
	return pDvmDex->pResClasses[classIdx];
	}
	INLINE struct Method* dvmDexGetResolvedMethod(const DvmDex* pDvmDex,
	u4 methodIdx)
	{
	assert(methodIdx < pDvmDex->pHeader->methodIdsSize);
	return pDvmDex->pResMethods[methodIdx];
	}
	INLINE struct Field* dvmDexGetResolvedField(const DvmDex* pDvmDex,
	u4 fieldIdx)
	{
	assert(fieldIdx < pDvmDex->pHeader->fieldIdsSize);
	return pDvmDex->pResFields[fieldIdx];
	}

	/*
	* Update the resolved item table. Resolution always produces the same
	* result, so we're not worried about atomicity here.
	*/
	INLINE void dvmDexSetResolvedString(DvmDex* pDvmDex, u4 stringIdx,
	struct StringObject* str)
	{
	assert(stringIdx < pDvmDex->pHeader->stringIdsSize);
	pDvmDex->pResStrings[stringIdx] = str;
	}
	INLINE void dvmDexSetResolvedClass(DvmDex* pDvmDex, u4 classIdx,
	struct ClassObject* clazz)
	{
	assert(classIdx < pDvmDex->pHeader->typeIdsSize);
	pDvmDex->pResClasses[classIdx] = clazz;
	}
	INLINE void dvmDexSetResolvedMethod(DvmDex* pDvmDex, u4 methodIdx,
	struct Method* method)
	{
	assert(methodIdx < pDvmDex->pHeader->methodIdsSize);
	pDvmDex->pResMethods[methodIdx] = method;
	}
	INLINE void dvmDexSetResolvedField(DvmDex* pDvmDex, u4 fieldIdx,
	struct Field* field)
	{
	assert(fieldIdx < pDvmDex->pHeader->fieldIdsSize);
	pDvmDex->pResFields[fieldIdx] = field;
	}

	#elif DVM_RESOLVER_CACHE == DVM_RC_REDUCING
	/* reduce request to fit in a less-than-full-size cache table */

	/*
	* Return the requested item if it has been resolved, or NULL if it hasn't.
	*
	* If we have a mapping table defined for this category, but there's no
	* entry for this index, we always return NULL. Otherwise, we return the
	* entry. (To regain some performance we may want to assume that the
	* table exists when compiled in this mode -- avoids a null check but
	* prevents us from switching back and forth without rebuilding the VM.)
	*
	* We could save an integer compare here by ensuring that map[kNoIndexMapping]
	* always evalutes to NULL (e.g. set kNoIndexMapping = 0).
	*/
	INLINE struct StringObject* dvmDexGetResolvedString(const DvmDex* pDvmDex,
	u4 stringIdx)
	{
	const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;

	assert(stringIdx < pDvmDex->pHeader->stringIdsSize);
	if (pIndexMap->stringReducedCount > 0) {
	stringIdx = pIndexMap->stringMap[stringIdx];
	if (stringIdx == kNoIndexMapping)
	return NULL;
	}
	return pDvmDex->pResStrings[stringIdx];
	}
	INLINE struct ClassObject* dvmDexGetResolvedClass(const DvmDex* pDvmDex,
	u4 classIdx)
	{
	const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;

	assert(classIdx < pDvmDex->pHeader->typeIdsSize);
	if (pIndexMap->classReducedCount > 0) {
	classIdx = pIndexMap->classMap[classIdx];
	if (classIdx == kNoIndexMapping)
	return NULL;
	}
	return pDvmDex->pResClasses[classIdx];
	}
	INLINE struct Method* dvmDexGetResolvedMethod(const DvmDex* pDvmDex,
	u4 methodIdx)
	{
	const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;

	assert(methodIdx < pDvmDex->pHeader->methodIdsSize);
	if (pIndexMap->methodReducedCount > 0) {
	methodIdx = pIndexMap->methodMap[methodIdx];
	if (methodIdx == kNoIndexMapping)
	return NULL;
	}
	return pDvmDex->pResMethods[methodIdx];
	}
	INLINE struct Field* dvmDexGetResolvedField(const DvmDex* pDvmDex,
	u4 fieldIdx)
	{
	const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;

	assert(fieldIdx < pDvmDex->pHeader->fieldIdsSize);
	if (pIndexMap->fieldReducedCount > 0) {
	fieldIdx = pIndexMap->fieldMap[fieldIdx];
	if (fieldIdx == kNoIndexMapping)
	return NULL;
	}
	return pDvmDex->pResFields[fieldIdx];
	}

	/*
	* Update the resolved item table. Resolution always produces the same
	* result, so we're not worried about atomicity here.
	*/
	INLINE void dvmDexSetResolvedString(DvmDex* pDvmDex, u4 stringIdx,
	struct StringObject* str)
	{
	const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;
	u4 newIdx;

	assert(stringIdx < pDvmDex->pHeader->stringIdsSize);
	if (pIndexMap->stringReducedCount > 0) {
	newIdx = pIndexMap->stringMap[stringIdx];
	if (newIdx != kNoIndexMapping)
	pDvmDex->pResStrings[newIdx] = str;
	}
	}
	INLINE void dvmDexSetResolvedClass(DvmDex* pDvmDex, u4 classIdx,
	struct ClassObject* clazz)
	{
	const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;
	u4 newIdx;

	assert(classIdx < pDvmDex->pHeader->typeIdsSize);
	if (pIndexMap->classReducedCount > 0) {
	newIdx = pIndexMap->classMap[classIdx];
	if (newIdx != kNoIndexMapping)
	pDvmDex->pResClasses[newIdx] = clazz;
	}
	}
	INLINE void dvmDexSetResolvedMethod(DvmDex* pDvmDex, u4 methodIdx,
	struct Method* method)
	{
	const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;
	u4 newIdx;

	assert(methodIdx < pDvmDex->pHeader->methodIdsSize);
	if (pIndexMap->methodReducedCount > 0) {
	newIdx = pIndexMap->methodMap[methodIdx];
	if (newIdx != kNoIndexMapping)
	pDvmDex->pResMethods[newIdx] = method;
	}
	}
	INLINE void dvmDexSetResolvedField(DvmDex* pDvmDex, u4 fieldIdx,
	struct Field* field)
	{
	const DexIndexMap* pIndexMap = &pDvmDex->pDexFile->indexMap;
	u4 newIdx;

	assert(fieldIdx < pDvmDex->pHeader->fieldIdsSize);
	if (pIndexMap->fieldReducedCount > 0) {
	newIdx = pIndexMap->fieldMap[fieldIdx];
	if (newIdx != kNoIndexMapping)
	pDvmDex->pResFields[newIdx] = field;
	}
	}

	#elif DVM_RESOLVER_CACHE == DVM_RC_EXPANDING

	#error "not implemented" /* TODO */

	#elif DVM_RESOLVER_CACHE == DVM_RC_NO_CACHE

	/*
	* There's no cache, so we always return NULL.
	*/
	INLINE struct StringObject* dvmDexGetResolvedString(const DvmDex* pDvmDex,
	u4 stringIdx)
	{
	return NULL;
	}
	INLINE struct ClassObject* dvmDexGetResolvedClass(const DvmDex* pDvmDex,
	u4 classIdx)
	{
	return NULL;
	}
	INLINE struct Method* dvmDexGetResolvedMethod(const DvmDex* pDvmDex,
	u4 methodIdx)
	{
	return NULL;
	}
	INLINE struct Field* dvmDexGetResolvedField(const DvmDex* pDvmDex,
	u4 fieldIdx)
	{
	return NULL;
	}

	/*
	* Update the resolved item table. There is no table, so do nothing.
	*/
	INLINE void dvmDexSetResolvedString(DvmDex* pDvmDex, u4 stringIdx,
	struct StringObject* str)
	{}
	INLINE void dvmDexSetResolvedClass(DvmDex* pDvmDex, u4 classIdx,
	struct ClassObject* clazz)
	{}
	INLINE void dvmDexSetResolvedMethod(DvmDex* pDvmDex, u4 methodIdx,
	struct Method* method)
	{}
	INLINE void dvmDexSetResolvedField(DvmDex* pDvmDex, u4 fieldIdx,
	struct Field* field)
	{}

	#else
	#error "huh?"
	#endif /DVM_RESOLVER_CACHE==N/

	#endif /_DALVIK_DVMDEX/