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      1 /*
      2  * Copyright (C) 2008 The Android Open Source Project
      3  *
      4  * Licensed under the Apache License, Version 2.0 (the "License");
      5  * you may not use this file except in compliance with the License.
      6  * You may obtain a copy of the License at
      7  *
      8  *      http://www.apache.org/licenses/LICENSE-2.0
      9  *
     10  * Unless required by applicable law or agreed to in writing, software
     11  * distributed under the License is distributed on an "AS IS" BASIS,
     12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     13  * See the License for the specific language governing permissions and
     14  * limitations under the License.
     15  */
     16 
     17 #define LOG_TAG "ResourceType"
     18 //#define LOG_NDEBUG 0
     19 
     20 #include <androidfw/ResourceTypes.h>
     21 #include <utils/Atomic.h>
     22 #include <utils/ByteOrder.h>
     23 #include <utils/Debug.h>
     24 #include <utils/Log.h>
     25 #include <utils/String16.h>
     26 #include <utils/String8.h>
     27 
     28 #include <stdlib.h>
     29 #include <string.h>
     30 #include <memory.h>
     31 #include <ctype.h>
     32 #include <stdint.h>
     33 
     34 #ifndef INT32_MAX
     35 #define INT32_MAX ((int32_t)(2147483647))
     36 #endif
     37 
     38 #define STRING_POOL_NOISY(x) //x
     39 #define XML_NOISY(x) //x
     40 #define TABLE_NOISY(x) //x
     41 #define TABLE_GETENTRY(x) //x
     42 #define TABLE_SUPER_NOISY(x) //x
     43 #define LOAD_TABLE_NOISY(x) //x
     44 #define TABLE_THEME(x) //x
     45 
     46 namespace android {
     47 
     48 #ifdef HAVE_WINSOCK
     49 #undef  nhtol
     50 #undef  htonl
     51 
     52 #ifdef HAVE_LITTLE_ENDIAN
     53 #define ntohl(x)    ( ((x) << 24) | (((x) >> 24) & 255) | (((x) << 8) & 0xff0000) | (((x) >> 8) & 0xff00) )
     54 #define htonl(x)    ntohl(x)
     55 #define ntohs(x)    ( (((x) << 8) & 0xff00) | (((x) >> 8) & 255) )
     56 #define htons(x)    ntohs(x)
     57 #else
     58 #define ntohl(x)    (x)
     59 #define htonl(x)    (x)
     60 #define ntohs(x)    (x)
     61 #define htons(x)    (x)
     62 #endif
     63 #endif
     64 
     65 #define IDMAP_MAGIC         0x706d6469
     66 // size measured in sizeof(uint32_t)
     67 #define IDMAP_HEADER_SIZE (ResTable::IDMAP_HEADER_SIZE_BYTES / sizeof(uint32_t))
     68 
     69 static void printToLogFunc(void* cookie, const char* txt)
     70 {
     71     ALOGV("%s", txt);
     72 }
     73 
     74 // Standard C isspace() is only required to look at the low byte of its input, so
     75 // produces incorrect results for UTF-16 characters.  For safety's sake, assume that
     76 // any high-byte UTF-16 code point is not whitespace.
     77 inline int isspace16(char16_t c) {
     78     return (c < 0x0080 && isspace(c));
     79 }
     80 
     81 // range checked; guaranteed to NUL-terminate within the stated number of available slots
     82 // NOTE: if this truncates the dst string due to running out of space, no attempt is
     83 // made to avoid splitting surrogate pairs.
     84 static void strcpy16_dtoh(uint16_t* dst, const uint16_t* src, size_t avail)
     85 {
     86     uint16_t* last = dst + avail - 1;
     87     while (*src && (dst < last)) {
     88         char16_t s = dtohs(*src);
     89         *dst++ = s;
     90         src++;
     91     }
     92     *dst = 0;
     93 }
     94 
     95 static status_t validate_chunk(const ResChunk_header* chunk,
     96                                size_t minSize,
     97                                const uint8_t* dataEnd,
     98                                const char* name)
     99 {
    100     const uint16_t headerSize = dtohs(chunk->headerSize);
    101     const uint32_t size = dtohl(chunk->size);
    102 
    103     if (headerSize >= minSize) {
    104         if (headerSize <= size) {
    105             if (((headerSize|size)&0x3) == 0) {
    106                 if ((ssize_t)size <= (dataEnd-((const uint8_t*)chunk))) {
    107                     return NO_ERROR;
    108                 }
    109                 ALOGW("%s data size %p extends beyond resource end %p.",
    110                      name, (void*)size,
    111                      (void*)(dataEnd-((const uint8_t*)chunk)));
    112                 return BAD_TYPE;
    113             }
    114             ALOGW("%s size 0x%x or headerSize 0x%x is not on an integer boundary.",
    115                  name, (int)size, (int)headerSize);
    116             return BAD_TYPE;
    117         }
    118         ALOGW("%s size %p is smaller than header size %p.",
    119              name, (void*)size, (void*)(int)headerSize);
    120         return BAD_TYPE;
    121     }
    122     ALOGW("%s header size %p is too small.",
    123          name, (void*)(int)headerSize);
    124     return BAD_TYPE;
    125 }
    126 
    127 inline void Res_value::copyFrom_dtoh(const Res_value& src)
    128 {
    129     size = dtohs(src.size);
    130     res0 = src.res0;
    131     dataType = src.dataType;
    132     data = dtohl(src.data);
    133 }
    134 
    135 void Res_png_9patch::deviceToFile()
    136 {
    137     for (int i = 0; i < numXDivs; i++) {
    138         xDivs[i] = htonl(xDivs[i]);
    139     }
    140     for (int i = 0; i < numYDivs; i++) {
    141         yDivs[i] = htonl(yDivs[i]);
    142     }
    143     paddingLeft = htonl(paddingLeft);
    144     paddingRight = htonl(paddingRight);
    145     paddingTop = htonl(paddingTop);
    146     paddingBottom = htonl(paddingBottom);
    147     for (int i=0; i<numColors; i++) {
    148         colors[i] = htonl(colors[i]);
    149     }
    150 }
    151 
    152 void Res_png_9patch::fileToDevice()
    153 {
    154     for (int i = 0; i < numXDivs; i++) {
    155         xDivs[i] = ntohl(xDivs[i]);
    156     }
    157     for (int i = 0; i < numYDivs; i++) {
    158         yDivs[i] = ntohl(yDivs[i]);
    159     }
    160     paddingLeft = ntohl(paddingLeft);
    161     paddingRight = ntohl(paddingRight);
    162     paddingTop = ntohl(paddingTop);
    163     paddingBottom = ntohl(paddingBottom);
    164     for (int i=0; i<numColors; i++) {
    165         colors[i] = ntohl(colors[i]);
    166     }
    167 }
    168 
    169 size_t Res_png_9patch::serializedSize()
    170 {
    171     // The size of this struct is 32 bytes on the 32-bit target system
    172     // 4 * int8_t
    173     // 4 * int32_t
    174     // 3 * pointer
    175     return 32
    176             + numXDivs * sizeof(int32_t)
    177             + numYDivs * sizeof(int32_t)
    178             + numColors * sizeof(uint32_t);
    179 }
    180 
    181 void* Res_png_9patch::serialize()
    182 {
    183     // Use calloc since we're going to leave a few holes in the data
    184     // and want this to run cleanly under valgrind
    185     void* newData = calloc(1, serializedSize());
    186     serialize(newData);
    187     return newData;
    188 }
    189 
    190 void Res_png_9patch::serialize(void * outData)
    191 {
    192     char* data = (char*) outData;
    193     memmove(data, &wasDeserialized, 4);     // copy  wasDeserialized, numXDivs, numYDivs, numColors
    194     memmove(data + 12, &paddingLeft, 16);   // copy paddingXXXX
    195     data += 32;
    196 
    197     memmove(data, this->xDivs, numXDivs * sizeof(int32_t));
    198     data +=  numXDivs * sizeof(int32_t);
    199     memmove(data, this->yDivs, numYDivs * sizeof(int32_t));
    200     data +=  numYDivs * sizeof(int32_t);
    201     memmove(data, this->colors, numColors * sizeof(uint32_t));
    202 }
    203 
    204 static void deserializeInternal(const void* inData, Res_png_9patch* outData) {
    205     char* patch = (char*) inData;
    206     if (inData != outData) {
    207         memmove(&outData->wasDeserialized, patch, 4);     // copy  wasDeserialized, numXDivs, numYDivs, numColors
    208         memmove(&outData->paddingLeft, patch + 12, 4);     // copy  wasDeserialized, numXDivs, numYDivs, numColors
    209     }
    210     outData->wasDeserialized = true;
    211     char* data = (char*)outData;
    212     data +=  sizeof(Res_png_9patch);
    213     outData->xDivs = (int32_t*) data;
    214     data +=  outData->numXDivs * sizeof(int32_t);
    215     outData->yDivs = (int32_t*) data;
    216     data +=  outData->numYDivs * sizeof(int32_t);
    217     outData->colors = (uint32_t*) data;
    218 }
    219 
    220 static bool assertIdmapHeader(const uint32_t* map, size_t sizeBytes)
    221 {
    222     if (sizeBytes < ResTable::IDMAP_HEADER_SIZE_BYTES) {
    223         ALOGW("idmap assertion failed: size=%d bytes\n", (int)sizeBytes);
    224         return false;
    225     }
    226     if (*map != htodl(IDMAP_MAGIC)) { // htodl: map data expected to be in correct endianess
    227         ALOGW("idmap assertion failed: invalid magic found (is 0x%08x, expected 0x%08x)\n",
    228              *map, htodl(IDMAP_MAGIC));
    229         return false;
    230     }
    231     return true;
    232 }
    233 
    234 static status_t idmapLookup(const uint32_t* map, size_t sizeBytes, uint32_t key, uint32_t* outValue)
    235 {
    236     // see README for details on the format of map
    237     if (!assertIdmapHeader(map, sizeBytes)) {
    238         return UNKNOWN_ERROR;
    239     }
    240     map = map + IDMAP_HEADER_SIZE; // skip ahead to data segment
    241     // size of data block, in uint32_t
    242     const size_t size = (sizeBytes - ResTable::IDMAP_HEADER_SIZE_BYTES) / sizeof(uint32_t);
    243     const uint32_t type = Res_GETTYPE(key) + 1; // add one, idmap stores "public" type id
    244     const uint32_t entry = Res_GETENTRY(key);
    245     const uint32_t typeCount = *map;
    246 
    247     if (type > typeCount) {
    248         ALOGW("Resource ID map: type=%d exceeds number of types=%d\n", type, typeCount);
    249         return UNKNOWN_ERROR;
    250     }
    251     if (typeCount > size) {
    252         ALOGW("Resource ID map: number of types=%d exceeds size of map=%d\n", typeCount, (int)size);
    253         return UNKNOWN_ERROR;
    254     }
    255     const uint32_t typeOffset = map[type];
    256     if (typeOffset == 0) {
    257         *outValue = 0;
    258         return NO_ERROR;
    259     }
    260     if (typeOffset + 1 > size) {
    261         ALOGW("Resource ID map: type offset=%d exceeds reasonable value, size of map=%d\n",
    262              typeOffset, (int)size);
    263         return UNKNOWN_ERROR;
    264     }
    265     const uint32_t entryCount = map[typeOffset];
    266     const uint32_t entryOffset = map[typeOffset + 1];
    267     if (entryCount == 0 || entry < entryOffset || entry - entryOffset > entryCount - 1) {
    268         *outValue = 0;
    269         return NO_ERROR;
    270     }
    271     const uint32_t index = typeOffset + 2 + entry - entryOffset;
    272     if (index > size) {
    273         ALOGW("Resource ID map: entry index=%d exceeds size of map=%d\n", index, (int)size);
    274         *outValue = 0;
    275         return NO_ERROR;
    276     }
    277     *outValue = map[index];
    278 
    279     return NO_ERROR;
    280 }
    281 
    282 static status_t getIdmapPackageId(const uint32_t* map, size_t mapSize, uint32_t *outId)
    283 {
    284     if (!assertIdmapHeader(map, mapSize)) {
    285         return UNKNOWN_ERROR;
    286     }
    287     const uint32_t* p = map + IDMAP_HEADER_SIZE + 1;
    288     while (*p == 0) {
    289         ++p;
    290     }
    291     *outId = (map[*p + IDMAP_HEADER_SIZE + 2] >> 24) & 0x000000ff;
    292     return NO_ERROR;
    293 }
    294 
    295 Res_png_9patch* Res_png_9patch::deserialize(const void* inData)
    296 {
    297     if (sizeof(void*) != sizeof(int32_t)) {
    298         ALOGE("Cannot deserialize on non 32-bit system\n");
    299         return NULL;
    300     }
    301     deserializeInternal(inData, (Res_png_9patch*) inData);
    302     return (Res_png_9patch*) inData;
    303 }
    304 
    305 // --------------------------------------------------------------------
    306 // --------------------------------------------------------------------
    307 // --------------------------------------------------------------------
    308 
    309 ResStringPool::ResStringPool()
    310     : mError(NO_INIT), mOwnedData(NULL), mHeader(NULL), mCache(NULL)
    311 {
    312 }
    313 
    314 ResStringPool::ResStringPool(const void* data, size_t size, bool copyData)
    315     : mError(NO_INIT), mOwnedData(NULL), mHeader(NULL), mCache(NULL)
    316 {
    317     setTo(data, size, copyData);
    318 }
    319 
    320 ResStringPool::~ResStringPool()
    321 {
    322     uninit();
    323 }
    324 
    325 status_t ResStringPool::setTo(const void* data, size_t size, bool copyData)
    326 {
    327     if (!data || !size) {
    328         return (mError=BAD_TYPE);
    329     }
    330 
    331     uninit();
    332 
    333     const bool notDeviceEndian = htods(0xf0) != 0xf0;
    334 
    335     if (copyData || notDeviceEndian) {
    336         mOwnedData = malloc(size);
    337         if (mOwnedData == NULL) {
    338             return (mError=NO_MEMORY);
    339         }
    340         memcpy(mOwnedData, data, size);
    341         data = mOwnedData;
    342     }
    343 
    344     mHeader = (const ResStringPool_header*)data;
    345 
    346     if (notDeviceEndian) {
    347         ResStringPool_header* h = const_cast<ResStringPool_header*>(mHeader);
    348         h->header.headerSize = dtohs(mHeader->header.headerSize);
    349         h->header.type = dtohs(mHeader->header.type);
    350         h->header.size = dtohl(mHeader->header.size);
    351         h->stringCount = dtohl(mHeader->stringCount);
    352         h->styleCount = dtohl(mHeader->styleCount);
    353         h->flags = dtohl(mHeader->flags);
    354         h->stringsStart = dtohl(mHeader->stringsStart);
    355         h->stylesStart = dtohl(mHeader->stylesStart);
    356     }
    357 
    358     if (mHeader->header.headerSize > mHeader->header.size
    359             || mHeader->header.size > size) {
    360         ALOGW("Bad string block: header size %d or total size %d is larger than data size %d\n",
    361                 (int)mHeader->header.headerSize, (int)mHeader->header.size, (int)size);
    362         return (mError=BAD_TYPE);
    363     }
    364     mSize = mHeader->header.size;
    365     mEntries = (const uint32_t*)
    366         (((const uint8_t*)data)+mHeader->header.headerSize);
    367 
    368     if (mHeader->stringCount > 0) {
    369         if ((mHeader->stringCount*sizeof(uint32_t) < mHeader->stringCount)  // uint32 overflow?
    370             || (mHeader->header.headerSize+(mHeader->stringCount*sizeof(uint32_t)))
    371                 > size) {
    372             ALOGW("Bad string block: entry of %d items extends past data size %d\n",
    373                     (int)(mHeader->header.headerSize+(mHeader->stringCount*sizeof(uint32_t))),
    374                     (int)size);
    375             return (mError=BAD_TYPE);
    376         }
    377 
    378         size_t charSize;
    379         if (mHeader->flags&ResStringPool_header::UTF8_FLAG) {
    380             charSize = sizeof(uint8_t);
    381         } else {
    382             charSize = sizeof(char16_t);
    383         }
    384 
    385         mStrings = (const void*)
    386             (((const uint8_t*)data)+mHeader->stringsStart);
    387         if (mHeader->stringsStart >= (mHeader->header.size-sizeof(uint16_t))) {
    388             ALOGW("Bad string block: string pool starts at %d, after total size %d\n",
    389                     (int)mHeader->stringsStart, (int)mHeader->header.size);
    390             return (mError=BAD_TYPE);
    391         }
    392         if (mHeader->styleCount == 0) {
    393             mStringPoolSize =
    394                 (mHeader->header.size-mHeader->stringsStart)/charSize;
    395         } else {
    396             // check invariant: styles starts before end of data
    397             if (mHeader->stylesStart >= (mHeader->header.size-sizeof(uint16_t))) {
    398                 ALOGW("Bad style block: style block starts at %d past data size of %d\n",
    399                     (int)mHeader->stylesStart, (int)mHeader->header.size);
    400                 return (mError=BAD_TYPE);
    401             }
    402             // check invariant: styles follow the strings
    403             if (mHeader->stylesStart <= mHeader->stringsStart) {
    404                 ALOGW("Bad style block: style block starts at %d, before strings at %d\n",
    405                     (int)mHeader->stylesStart, (int)mHeader->stringsStart);
    406                 return (mError=BAD_TYPE);
    407             }
    408             mStringPoolSize =
    409                 (mHeader->stylesStart-mHeader->stringsStart)/charSize;
    410         }
    411 
    412         // check invariant: stringCount > 0 requires a string pool to exist
    413         if (mStringPoolSize == 0) {
    414             ALOGW("Bad string block: stringCount is %d but pool size is 0\n", (int)mHeader->stringCount);
    415             return (mError=BAD_TYPE);
    416         }
    417 
    418         if (notDeviceEndian) {
    419             size_t i;
    420             uint32_t* e = const_cast<uint32_t*>(mEntries);
    421             for (i=0; i<mHeader->stringCount; i++) {
    422                 e[i] = dtohl(mEntries[i]);
    423             }
    424             if (!(mHeader->flags&ResStringPool_header::UTF8_FLAG)) {
    425                 const char16_t* strings = (const char16_t*)mStrings;
    426                 char16_t* s = const_cast<char16_t*>(strings);
    427                 for (i=0; i<mStringPoolSize; i++) {
    428                     s[i] = dtohs(strings[i]);
    429                 }
    430             }
    431         }
    432 
    433         if ((mHeader->flags&ResStringPool_header::UTF8_FLAG &&
    434                 ((uint8_t*)mStrings)[mStringPoolSize-1] != 0) ||
    435                 (!mHeader->flags&ResStringPool_header::UTF8_FLAG &&
    436                 ((char16_t*)mStrings)[mStringPoolSize-1] != 0)) {
    437             ALOGW("Bad string block: last string is not 0-terminated\n");
    438             return (mError=BAD_TYPE);
    439         }
    440     } else {
    441         mStrings = NULL;
    442         mStringPoolSize = 0;
    443     }
    444 
    445     if (mHeader->styleCount > 0) {
    446         mEntryStyles = mEntries + mHeader->stringCount;
    447         // invariant: integer overflow in calculating mEntryStyles
    448         if (mEntryStyles < mEntries) {
    449             ALOGW("Bad string block: integer overflow finding styles\n");
    450             return (mError=BAD_TYPE);
    451         }
    452 
    453         if (((const uint8_t*)mEntryStyles-(const uint8_t*)mHeader) > (int)size) {
    454             ALOGW("Bad string block: entry of %d styles extends past data size %d\n",
    455                     (int)((const uint8_t*)mEntryStyles-(const uint8_t*)mHeader),
    456                     (int)size);
    457             return (mError=BAD_TYPE);
    458         }
    459         mStyles = (const uint32_t*)
    460             (((const uint8_t*)data)+mHeader->stylesStart);
    461         if (mHeader->stylesStart >= mHeader->header.size) {
    462             ALOGW("Bad string block: style pool starts %d, after total size %d\n",
    463                     (int)mHeader->stylesStart, (int)mHeader->header.size);
    464             return (mError=BAD_TYPE);
    465         }
    466         mStylePoolSize =
    467             (mHeader->header.size-mHeader->stylesStart)/sizeof(uint32_t);
    468 
    469         if (notDeviceEndian) {
    470             size_t i;
    471             uint32_t* e = const_cast<uint32_t*>(mEntryStyles);
    472             for (i=0; i<mHeader->styleCount; i++) {
    473                 e[i] = dtohl(mEntryStyles[i]);
    474             }
    475             uint32_t* s = const_cast<uint32_t*>(mStyles);
    476             for (i=0; i<mStylePoolSize; i++) {
    477                 s[i] = dtohl(mStyles[i]);
    478             }
    479         }
    480 
    481         const ResStringPool_span endSpan = {
    482             { htodl(ResStringPool_span::END) },
    483             htodl(ResStringPool_span::END), htodl(ResStringPool_span::END)
    484         };
    485         if (memcmp(&mStyles[mStylePoolSize-(sizeof(endSpan)/sizeof(uint32_t))],
    486                    &endSpan, sizeof(endSpan)) != 0) {
    487             ALOGW("Bad string block: last style is not 0xFFFFFFFF-terminated\n");
    488             return (mError=BAD_TYPE);
    489         }
    490     } else {
    491         mEntryStyles = NULL;
    492         mStyles = NULL;
    493         mStylePoolSize = 0;
    494     }
    495 
    496     return (mError=NO_ERROR);
    497 }
    498 
    499 status_t ResStringPool::getError() const
    500 {
    501     return mError;
    502 }
    503 
    504 void ResStringPool::uninit()
    505 {
    506     mError = NO_INIT;
    507     if (mHeader != NULL && mCache != NULL) {
    508         for (size_t x = 0; x < mHeader->stringCount; x++) {
    509             if (mCache[x] != NULL) {
    510                 free(mCache[x]);
    511                 mCache[x] = NULL;
    512             }
    513         }
    514         free(mCache);
    515         mCache = NULL;
    516     }
    517     if (mOwnedData) {
    518         free(mOwnedData);
    519         mOwnedData = NULL;
    520     }
    521 }
    522 
    523 /**
    524  * Strings in UTF-16 format have length indicated by a length encoded in the
    525  * stored data. It is either 1 or 2 characters of length data. This allows a
    526  * maximum length of 0x7FFFFFF (2147483647 bytes), but if you're storing that
    527  * much data in a string, you're abusing them.
    528  *
    529  * If the high bit is set, then there are two characters or 4 bytes of length
    530  * data encoded. In that case, drop the high bit of the first character and
    531  * add it together with the next character.
    532  */
    533 static inline size_t
    534 decodeLength(const char16_t** str)
    535 {
    536     size_t len = **str;
    537     if ((len & 0x8000) != 0) {
    538         (*str)++;
    539         len = ((len & 0x7FFF) << 16) | **str;
    540     }
    541     (*str)++;
    542     return len;
    543 }
    544 
    545 /**
    546  * Strings in UTF-8 format have length indicated by a length encoded in the
    547  * stored data. It is either 1 or 2 characters of length data. This allows a
    548  * maximum length of 0x7FFF (32767 bytes), but you should consider storing
    549  * text in another way if you're using that much data in a single string.
    550  *
    551  * If the high bit is set, then there are two characters or 2 bytes of length
    552  * data encoded. In that case, drop the high bit of the first character and
    553  * add it together with the next character.
    554  */
    555 static inline size_t
    556 decodeLength(const uint8_t** str)
    557 {
    558     size_t len = **str;
    559     if ((len & 0x80) != 0) {
    560         (*str)++;
    561         len = ((len & 0x7F) << 8) | **str;
    562     }
    563     (*str)++;
    564     return len;
    565 }
    566 
    567 const uint16_t* ResStringPool::stringAt(size_t idx, size_t* u16len) const
    568 {
    569     if (mError == NO_ERROR && idx < mHeader->stringCount) {
    570         const bool isUTF8 = (mHeader->flags&ResStringPool_header::UTF8_FLAG) != 0;
    571         const uint32_t off = mEntries[idx]/(isUTF8?sizeof(char):sizeof(char16_t));
    572         if (off < (mStringPoolSize-1)) {
    573             if (!isUTF8) {
    574                 const char16_t* strings = (char16_t*)mStrings;
    575                 const char16_t* str = strings+off;
    576 
    577                 *u16len = decodeLength(&str);
    578                 if ((uint32_t)(str+*u16len-strings) < mStringPoolSize) {
    579                     return str;
    580                 } else {
    581                     ALOGW("Bad string block: string #%d extends to %d, past end at %d\n",
    582                             (int)idx, (int)(str+*u16len-strings), (int)mStringPoolSize);
    583                 }
    584             } else {
    585                 const uint8_t* strings = (uint8_t*)mStrings;
    586                 const uint8_t* u8str = strings+off;
    587 
    588                 *u16len = decodeLength(&u8str);
    589                 size_t u8len = decodeLength(&u8str);
    590 
    591                 // encLen must be less than 0x7FFF due to encoding.
    592                 if ((uint32_t)(u8str+u8len-strings) < mStringPoolSize) {
    593                     AutoMutex lock(mDecodeLock);
    594 
    595                     if (mCache == NULL) {
    596 #ifndef HAVE_ANDROID_OS
    597                         STRING_POOL_NOISY(ALOGI("CREATING STRING CACHE OF %d bytes",
    598                                 mHeader->stringCount*sizeof(char16_t**)));
    599 #else
    600                         // We do not want to be in this case when actually running Android.
    601                         ALOGW("CREATING STRING CACHE OF %d bytes",
    602                                 mHeader->stringCount*sizeof(char16_t**));
    603 #endif
    604                         mCache = (char16_t**)calloc(mHeader->stringCount, sizeof(char16_t**));
    605                         if (mCache == NULL) {
    606                             ALOGW("No memory trying to allocate decode cache table of %d bytes\n",
    607                                     (int)(mHeader->stringCount*sizeof(char16_t**)));
    608                             return NULL;
    609                         }
    610                     }
    611 
    612                     if (mCache[idx] != NULL) {
    613                         return mCache[idx];
    614                     }
    615 
    616                     ssize_t actualLen = utf8_to_utf16_length(u8str, u8len);
    617                     if (actualLen < 0 || (size_t)actualLen != *u16len) {
    618                         ALOGW("Bad string block: string #%lld decoded length is not correct "
    619                                 "%lld vs %llu\n",
    620                                 (long long)idx, (long long)actualLen, (long long)*u16len);
    621                         return NULL;
    622                     }
    623 
    624                     char16_t *u16str = (char16_t *)calloc(*u16len+1, sizeof(char16_t));
    625                     if (!u16str) {
    626                         ALOGW("No memory when trying to allocate decode cache for string #%d\n",
    627                                 (int)idx);
    628                         return NULL;
    629                     }
    630 
    631                     STRING_POOL_NOISY(ALOGI("Caching UTF8 string: %s", u8str));
    632                     utf8_to_utf16(u8str, u8len, u16str);
    633                     mCache[idx] = u16str;
    634                     return u16str;
    635                 } else {
    636                     ALOGW("Bad string block: string #%lld extends to %lld, past end at %lld\n",
    637                             (long long)idx, (long long)(u8str+u8len-strings),
    638                             (long long)mStringPoolSize);
    639                 }
    640             }
    641         } else {
    642             ALOGW("Bad string block: string #%d entry is at %d, past end at %d\n",
    643                     (int)idx, (int)(off*sizeof(uint16_t)),
    644                     (int)(mStringPoolSize*sizeof(uint16_t)));
    645         }
    646     }
    647     return NULL;
    648 }
    649 
    650 const char* ResStringPool::string8At(size_t idx, size_t* outLen) const
    651 {
    652     if (mError == NO_ERROR && idx < mHeader->stringCount) {
    653         if ((mHeader->flags&ResStringPool_header::UTF8_FLAG) == 0) {
    654             return NULL;
    655         }
    656         const uint32_t off = mEntries[idx]/sizeof(char);
    657         if (off < (mStringPoolSize-1)) {
    658             const uint8_t* strings = (uint8_t*)mStrings;
    659             const uint8_t* str = strings+off;
    660             *outLen = decodeLength(&str);
    661             size_t encLen = decodeLength(&str);
    662             if ((uint32_t)(str+encLen-strings) < mStringPoolSize) {
    663                 return (const char*)str;
    664             } else {
    665                 ALOGW("Bad string block: string #%d extends to %d, past end at %d\n",
    666                         (int)idx, (int)(str+encLen-strings), (int)mStringPoolSize);
    667             }
    668         } else {
    669             ALOGW("Bad string block: string #%d entry is at %d, past end at %d\n",
    670                     (int)idx, (int)(off*sizeof(uint16_t)),
    671                     (int)(mStringPoolSize*sizeof(uint16_t)));
    672         }
    673     }
    674     return NULL;
    675 }
    676 
    677 const String8 ResStringPool::string8ObjectAt(size_t idx) const
    678 {
    679     size_t len;
    680     const char *str = (const char*)string8At(idx, &len);
    681     if (str != NULL) {
    682         return String8(str);
    683     }
    684     return String8(stringAt(idx, &len));
    685 }
    686 
    687 const ResStringPool_span* ResStringPool::styleAt(const ResStringPool_ref& ref) const
    688 {
    689     return styleAt(ref.index);
    690 }
    691 
    692 const ResStringPool_span* ResStringPool::styleAt(size_t idx) const
    693 {
    694     if (mError == NO_ERROR && idx < mHeader->styleCount) {
    695         const uint32_t off = (mEntryStyles[idx]/sizeof(uint32_t));
    696         if (off < mStylePoolSize) {
    697             return (const ResStringPool_span*)(mStyles+off);
    698         } else {
    699             ALOGW("Bad string block: style #%d entry is at %d, past end at %d\n",
    700                     (int)idx, (int)(off*sizeof(uint32_t)),
    701                     (int)(mStylePoolSize*sizeof(uint32_t)));
    702         }
    703     }
    704     return NULL;
    705 }
    706 
    707 ssize_t ResStringPool::indexOfString(const char16_t* str, size_t strLen) const
    708 {
    709     if (mError != NO_ERROR) {
    710         return mError;
    711     }
    712 
    713     size_t len;
    714 
    715     if ((mHeader->flags&ResStringPool_header::UTF8_FLAG) != 0) {
    716         STRING_POOL_NOISY(ALOGI("indexOfString UTF-8: %s", String8(str, strLen).string()));
    717 
    718         // The string pool contains UTF 8 strings; we don't want to cause
    719         // temporary UTF-16 strings to be created as we search.
    720         if (mHeader->flags&ResStringPool_header::SORTED_FLAG) {
    721             // Do a binary search for the string...  this is a little tricky,
    722             // because the strings are sorted with strzcmp16().  So to match
    723             // the ordering, we need to convert strings in the pool to UTF-16.
    724             // But we don't want to hit the cache, so instead we will have a
    725             // local temporary allocation for the conversions.
    726             char16_t* convBuffer = (char16_t*)malloc(strLen+4);
    727             ssize_t l = 0;
    728             ssize_t h = mHeader->stringCount-1;
    729 
    730             ssize_t mid;
    731             while (l <= h) {
    732                 mid = l + (h - l)/2;
    733                 const uint8_t* s = (const uint8_t*)string8At(mid, &len);
    734                 int c;
    735                 if (s != NULL) {
    736                     char16_t* end = utf8_to_utf16_n(s, len, convBuffer, strLen+3);
    737                     *end = 0;
    738                     c = strzcmp16(convBuffer, end-convBuffer, str, strLen);
    739                 } else {
    740                     c = -1;
    741                 }
    742                 STRING_POOL_NOISY(ALOGI("Looking at %s, cmp=%d, l/mid/h=%d/%d/%d\n",
    743                              (const char*)s, c, (int)l, (int)mid, (int)h));
    744                 if (c == 0) {
    745                     STRING_POOL_NOISY(ALOGI("MATCH!"));
    746                     free(convBuffer);
    747                     return mid;
    748                 } else if (c < 0) {
    749                     l = mid + 1;
    750                 } else {
    751                     h = mid - 1;
    752                 }
    753             }
    754             free(convBuffer);
    755         } else {
    756             // It is unusual to get the ID from an unsorted string block...
    757             // most often this happens because we want to get IDs for style
    758             // span tags; since those always appear at the end of the string
    759             // block, start searching at the back.
    760             String8 str8(str, strLen);
    761             const size_t str8Len = str8.size();
    762             for (int i=mHeader->stringCount-1; i>=0; i--) {
    763                 const char* s = string8At(i, &len);
    764                 STRING_POOL_NOISY(ALOGI("Looking at %s, i=%d\n",
    765                              String8(s).string(),
    766                              i));
    767                 if (s && str8Len == len && memcmp(s, str8.string(), str8Len) == 0) {
    768                     STRING_POOL_NOISY(ALOGI("MATCH!"));
    769                     return i;
    770                 }
    771             }
    772         }
    773 
    774     } else {
    775         STRING_POOL_NOISY(ALOGI("indexOfString UTF-16: %s", String8(str, strLen).string()));
    776 
    777         if (mHeader->flags&ResStringPool_header::SORTED_FLAG) {
    778             // Do a binary search for the string...
    779             ssize_t l = 0;
    780             ssize_t h = mHeader->stringCount-1;
    781 
    782             ssize_t mid;
    783             while (l <= h) {
    784                 mid = l + (h - l)/2;
    785                 const char16_t* s = stringAt(mid, &len);
    786                 int c = s ? strzcmp16(s, len, str, strLen) : -1;
    787                 STRING_POOL_NOISY(ALOGI("Looking at %s, cmp=%d, l/mid/h=%d/%d/%d\n",
    788                              String8(s).string(),
    789                              c, (int)l, (int)mid, (int)h));
    790                 if (c == 0) {
    791                     STRING_POOL_NOISY(ALOGI("MATCH!"));
    792                     return mid;
    793                 } else if (c < 0) {
    794                     l = mid + 1;
    795                 } else {
    796                     h = mid - 1;
    797                 }
    798             }
    799         } else {
    800             // It is unusual to get the ID from an unsorted string block...
    801             // most often this happens because we want to get IDs for style
    802             // span tags; since those always appear at the end of the string
    803             // block, start searching at the back.
    804             for (int i=mHeader->stringCount-1; i>=0; i--) {
    805                 const char16_t* s = stringAt(i, &len);
    806                 STRING_POOL_NOISY(ALOGI("Looking at %s, i=%d\n",
    807                              String8(s).string(),
    808                              i));
    809                 if (s && strLen == len && strzcmp16(s, len, str, strLen) == 0) {
    810                     STRING_POOL_NOISY(ALOGI("MATCH!"));
    811                     return i;
    812                 }
    813             }
    814         }
    815     }
    816 
    817     return NAME_NOT_FOUND;
    818 }
    819 
    820 size_t ResStringPool::size() const
    821 {
    822     return (mError == NO_ERROR) ? mHeader->stringCount : 0;
    823 }
    824 
    825 size_t ResStringPool::styleCount() const
    826 {
    827     return (mError == NO_ERROR) ? mHeader->styleCount : 0;
    828 }
    829 
    830 size_t ResStringPool::bytes() const
    831 {
    832     return (mError == NO_ERROR) ? mHeader->header.size : 0;
    833 }
    834 
    835 bool ResStringPool::isSorted() const
    836 {
    837     return (mHeader->flags&ResStringPool_header::SORTED_FLAG)!=0;
    838 }
    839 
    840 bool ResStringPool::isUTF8() const
    841 {
    842     return (mHeader->flags&ResStringPool_header::UTF8_FLAG)!=0;
    843 }
    844 
    845 // --------------------------------------------------------------------
    846 // --------------------------------------------------------------------
    847 // --------------------------------------------------------------------
    848 
    849 ResXMLParser::ResXMLParser(const ResXMLTree& tree)
    850     : mTree(tree), mEventCode(BAD_DOCUMENT)
    851 {
    852 }
    853 
    854 void ResXMLParser::restart()
    855 {
    856     mCurNode = NULL;
    857     mEventCode = mTree.mError == NO_ERROR ? START_DOCUMENT : BAD_DOCUMENT;
    858 }
    859 const ResStringPool& ResXMLParser::getStrings() const
    860 {
    861     return mTree.mStrings;
    862 }
    863 
    864 ResXMLParser::event_code_t ResXMLParser::getEventType() const
    865 {
    866     return mEventCode;
    867 }
    868 
    869 ResXMLParser::event_code_t ResXMLParser::next()
    870 {
    871     if (mEventCode == START_DOCUMENT) {
    872         mCurNode = mTree.mRootNode;
    873         mCurExt = mTree.mRootExt;
    874         return (mEventCode=mTree.mRootCode);
    875     } else if (mEventCode >= FIRST_CHUNK_CODE) {
    876         return nextNode();
    877     }
    878     return mEventCode;
    879 }
    880 
    881 int32_t ResXMLParser::getCommentID() const
    882 {
    883     return mCurNode != NULL ? dtohl(mCurNode->comment.index) : -1;
    884 }
    885 
    886 const uint16_t* ResXMLParser::getComment(size_t* outLen) const
    887 {
    888     int32_t id = getCommentID();
    889     return id >= 0 ? mTree.mStrings.stringAt(id, outLen) : NULL;
    890 }
    891 
    892 uint32_t ResXMLParser::getLineNumber() const
    893 {
    894     return mCurNode != NULL ? dtohl(mCurNode->lineNumber) : -1;
    895 }
    896 
    897 int32_t ResXMLParser::getTextID() const
    898 {
    899     if (mEventCode == TEXT) {
    900         return dtohl(((const ResXMLTree_cdataExt*)mCurExt)->data.index);
    901     }
    902     return -1;
    903 }
    904 
    905 const uint16_t* ResXMLParser::getText(size_t* outLen) const
    906 {
    907     int32_t id = getTextID();
    908     return id >= 0 ? mTree.mStrings.stringAt(id, outLen) : NULL;
    909 }
    910 
    911 ssize_t ResXMLParser::getTextValue(Res_value* outValue) const
    912 {
    913     if (mEventCode == TEXT) {
    914         outValue->copyFrom_dtoh(((const ResXMLTree_cdataExt*)mCurExt)->typedData);
    915         return sizeof(Res_value);
    916     }
    917     return BAD_TYPE;
    918 }
    919 
    920 int32_t ResXMLParser::getNamespacePrefixID() const
    921 {
    922     if (mEventCode == START_NAMESPACE || mEventCode == END_NAMESPACE) {
    923         return dtohl(((const ResXMLTree_namespaceExt*)mCurExt)->prefix.index);
    924     }
    925     return -1;
    926 }
    927 
    928 const uint16_t* ResXMLParser::getNamespacePrefix(size_t* outLen) const
    929 {
    930     int32_t id = getNamespacePrefixID();
    931     //printf("prefix=%d  event=%p\n", id, mEventCode);
    932     return id >= 0 ? mTree.mStrings.stringAt(id, outLen) : NULL;
    933 }
    934 
    935 int32_t ResXMLParser::getNamespaceUriID() const
    936 {
    937     if (mEventCode == START_NAMESPACE || mEventCode == END_NAMESPACE) {
    938         return dtohl(((const ResXMLTree_namespaceExt*)mCurExt)->uri.index);
    939     }
    940     return -1;
    941 }
    942 
    943 const uint16_t* ResXMLParser::getNamespaceUri(size_t* outLen) const
    944 {
    945     int32_t id = getNamespaceUriID();
    946     //printf("uri=%d  event=%p\n", id, mEventCode);
    947     return id >= 0 ? mTree.mStrings.stringAt(id, outLen) : NULL;
    948 }
    949 
    950 int32_t ResXMLParser::getElementNamespaceID() const
    951 {
    952     if (mEventCode == START_TAG) {
    953         return dtohl(((const ResXMLTree_attrExt*)mCurExt)->ns.index);
    954     }
    955     if (mEventCode == END_TAG) {
    956         return dtohl(((const ResXMLTree_endElementExt*)mCurExt)->ns.index);
    957     }
    958     return -1;
    959 }
    960 
    961 const uint16_t* ResXMLParser::getElementNamespace(size_t* outLen) const
    962 {
    963     int32_t id = getElementNamespaceID();
    964     return id >= 0 ? mTree.mStrings.stringAt(id, outLen) : NULL;
    965 }
    966 
    967 int32_t ResXMLParser::getElementNameID() const
    968 {
    969     if (mEventCode == START_TAG) {
    970         return dtohl(((const ResXMLTree_attrExt*)mCurExt)->name.index);
    971     }
    972     if (mEventCode == END_TAG) {
    973         return dtohl(((const ResXMLTree_endElementExt*)mCurExt)->name.index);
    974     }
    975     return -1;
    976 }
    977 
    978 const uint16_t* ResXMLParser::getElementName(size_t* outLen) const
    979 {
    980     int32_t id = getElementNameID();
    981     return id >= 0 ? mTree.mStrings.stringAt(id, outLen) : NULL;
    982 }
    983 
    984 size_t ResXMLParser::getAttributeCount() const
    985 {
    986     if (mEventCode == START_TAG) {
    987         return dtohs(((const ResXMLTree_attrExt*)mCurExt)->attributeCount);
    988     }
    989     return 0;
    990 }
    991 
    992 int32_t ResXMLParser::getAttributeNamespaceID(size_t idx) const
    993 {
    994     if (mEventCode == START_TAG) {
    995         const ResXMLTree_attrExt* tag = (const ResXMLTree_attrExt*)mCurExt;
    996         if (idx < dtohs(tag->attributeCount)) {
    997             const ResXMLTree_attribute* attr = (const ResXMLTree_attribute*)
    998                 (((const uint8_t*)tag)
    999                  + dtohs(tag->attributeStart)
   1000                  + (dtohs(tag->attributeSize)*idx));
   1001             return dtohl(attr->ns.index);
   1002         }
   1003     }
   1004     return -2;
   1005 }
   1006 
   1007 const uint16_t* ResXMLParser::getAttributeNamespace(size_t idx, size_t* outLen) const
   1008 {
   1009     int32_t id = getAttributeNamespaceID(idx);
   1010     //printf("attribute namespace=%d  idx=%d  event=%p\n", id, idx, mEventCode);
   1011     //XML_NOISY(printf("getAttributeNamespace 0x%x=0x%x\n", idx, id));
   1012     return id >= 0 ? mTree.mStrings.stringAt(id, outLen) : NULL;
   1013 }
   1014 
   1015 const char* ResXMLParser::getAttributeNamespace8(size_t idx, size_t* outLen) const
   1016 {
   1017     int32_t id = getAttributeNamespaceID(idx);
   1018     //printf("attribute namespace=%d  idx=%d  event=%p\n", id, idx, mEventCode);
   1019     //XML_NOISY(printf("getAttributeNamespace 0x%x=0x%x\n", idx, id));
   1020     return id >= 0 ? mTree.mStrings.string8At(id, outLen) : NULL;
   1021 }
   1022 
   1023 int32_t ResXMLParser::getAttributeNameID(size_t idx) const
   1024 {
   1025     if (mEventCode == START_TAG) {
   1026         const ResXMLTree_attrExt* tag = (const ResXMLTree_attrExt*)mCurExt;
   1027         if (idx < dtohs(tag->attributeCount)) {
   1028             const ResXMLTree_attribute* attr = (const ResXMLTree_attribute*)
   1029                 (((const uint8_t*)tag)
   1030                  + dtohs(tag->attributeStart)
   1031                  + (dtohs(tag->attributeSize)*idx));
   1032             return dtohl(attr->name.index);
   1033         }
   1034     }
   1035     return -1;
   1036 }
   1037 
   1038 const uint16_t* ResXMLParser::getAttributeName(size_t idx, size_t* outLen) const
   1039 {
   1040     int32_t id = getAttributeNameID(idx);
   1041     //printf("attribute name=%d  idx=%d  event=%p\n", id, idx, mEventCode);
   1042     //XML_NOISY(printf("getAttributeName 0x%x=0x%x\n", idx, id));
   1043     return id >= 0 ? mTree.mStrings.stringAt(id, outLen) : NULL;
   1044 }
   1045 
   1046 const char* ResXMLParser::getAttributeName8(size_t idx, size_t* outLen) const
   1047 {
   1048     int32_t id = getAttributeNameID(idx);
   1049     //printf("attribute name=%d  idx=%d  event=%p\n", id, idx, mEventCode);
   1050     //XML_NOISY(printf("getAttributeName 0x%x=0x%x\n", idx, id));
   1051     return id >= 0 ? mTree.mStrings.string8At(id, outLen) : NULL;
   1052 }
   1053 
   1054 uint32_t ResXMLParser::getAttributeNameResID(size_t idx) const
   1055 {
   1056     int32_t id = getAttributeNameID(idx);
   1057     if (id >= 0 && (size_t)id < mTree.mNumResIds) {
   1058         return dtohl(mTree.mResIds[id]);
   1059     }
   1060     return 0;
   1061 }
   1062 
   1063 int32_t ResXMLParser::getAttributeValueStringID(size_t idx) const
   1064 {
   1065     if (mEventCode == START_TAG) {
   1066         const ResXMLTree_attrExt* tag = (const ResXMLTree_attrExt*)mCurExt;
   1067         if (idx < dtohs(tag->attributeCount)) {
   1068             const ResXMLTree_attribute* attr = (const ResXMLTree_attribute*)
   1069                 (((const uint8_t*)tag)
   1070                  + dtohs(tag->attributeStart)
   1071                  + (dtohs(tag->attributeSize)*idx));
   1072             return dtohl(attr->rawValue.index);
   1073         }
   1074     }
   1075     return -1;
   1076 }
   1077 
   1078 const uint16_t* ResXMLParser::getAttributeStringValue(size_t idx, size_t* outLen) const
   1079 {
   1080     int32_t id = getAttributeValueStringID(idx);
   1081     //XML_NOISY(printf("getAttributeValue 0x%x=0x%x\n", idx, id));
   1082     return id >= 0 ? mTree.mStrings.stringAt(id, outLen) : NULL;
   1083 }
   1084 
   1085 int32_t ResXMLParser::getAttributeDataType(size_t idx) const
   1086 {
   1087     if (mEventCode == START_TAG) {
   1088         const ResXMLTree_attrExt* tag = (const ResXMLTree_attrExt*)mCurExt;
   1089         if (idx < dtohs(tag->attributeCount)) {
   1090             const ResXMLTree_attribute* attr = (const ResXMLTree_attribute*)
   1091                 (((const uint8_t*)tag)
   1092                  + dtohs(tag->attributeStart)
   1093                  + (dtohs(tag->attributeSize)*idx));
   1094             return attr->typedValue.dataType;
   1095         }
   1096     }
   1097     return Res_value::TYPE_NULL;
   1098 }
   1099 
   1100 int32_t ResXMLParser::getAttributeData(size_t idx) const
   1101 {
   1102     if (mEventCode == START_TAG) {
   1103         const ResXMLTree_attrExt* tag = (const ResXMLTree_attrExt*)mCurExt;
   1104         if (idx < dtohs(tag->attributeCount)) {
   1105             const ResXMLTree_attribute* attr = (const ResXMLTree_attribute*)
   1106                 (((const uint8_t*)tag)
   1107                  + dtohs(tag->attributeStart)
   1108                  + (dtohs(tag->attributeSize)*idx));
   1109             return dtohl(attr->typedValue.data);
   1110         }
   1111     }
   1112     return 0;
   1113 }
   1114 
   1115 ssize_t ResXMLParser::getAttributeValue(size_t idx, Res_value* outValue) const
   1116 {
   1117     if (mEventCode == START_TAG) {
   1118         const ResXMLTree_attrExt* tag = (const ResXMLTree_attrExt*)mCurExt;
   1119         if (idx < dtohs(tag->attributeCount)) {
   1120             const ResXMLTree_attribute* attr = (const ResXMLTree_attribute*)
   1121                 (((const uint8_t*)tag)
   1122                  + dtohs(tag->attributeStart)
   1123                  + (dtohs(tag->attributeSize)*idx));
   1124             outValue->copyFrom_dtoh(attr->typedValue);
   1125             return sizeof(Res_value);
   1126         }
   1127     }
   1128     return BAD_TYPE;
   1129 }
   1130 
   1131 ssize_t ResXMLParser::indexOfAttribute(const char* ns, const char* attr) const
   1132 {
   1133     String16 nsStr(ns != NULL ? ns : "");
   1134     String16 attrStr(attr);
   1135     return indexOfAttribute(ns ? nsStr.string() : NULL, ns ? nsStr.size() : 0,
   1136                             attrStr.string(), attrStr.size());
   1137 }
   1138 
   1139 ssize_t ResXMLParser::indexOfAttribute(const char16_t* ns, size_t nsLen,
   1140                                        const char16_t* attr, size_t attrLen) const
   1141 {
   1142     if (mEventCode == START_TAG) {
   1143         if (attr == NULL) {
   1144             return NAME_NOT_FOUND;
   1145         }
   1146         const size_t N = getAttributeCount();
   1147         if (mTree.mStrings.isUTF8()) {
   1148             String8 ns8, attr8;
   1149             if (ns != NULL) {
   1150                 ns8 = String8(ns, nsLen);
   1151             }
   1152             attr8 = String8(attr, attrLen);
   1153             STRING_POOL_NOISY(ALOGI("indexOfAttribute UTF8 %s (%d) / %s (%d)", ns8.string(), nsLen,
   1154                     attr8.string(), attrLen));
   1155             for (size_t i=0; i<N; i++) {
   1156                 size_t curNsLen = 0, curAttrLen = 0;
   1157                 const char* curNs = getAttributeNamespace8(i, &curNsLen);
   1158                 const char* curAttr = getAttributeName8(i, &curAttrLen);
   1159                 STRING_POOL_NOISY(ALOGI("  curNs=%s (%d), curAttr=%s (%d)", curNs, curNsLen,
   1160                         curAttr, curAttrLen));
   1161                 if (curAttr != NULL && curNsLen == nsLen && curAttrLen == attrLen
   1162                         && memcmp(attr8.string(), curAttr, attrLen) == 0) {
   1163                     if (ns == NULL) {
   1164                         if (curNs == NULL) {
   1165                             STRING_POOL_NOISY(ALOGI("  FOUND!"));
   1166                             return i;
   1167                         }
   1168                     } else if (curNs != NULL) {
   1169                         //printf(" --> ns=%s, curNs=%s\n",
   1170                         //       String8(ns).string(), String8(curNs).string());
   1171                         if (memcmp(ns8.string(), curNs, nsLen) == 0) {
   1172                             STRING_POOL_NOISY(ALOGI("  FOUND!"));
   1173                             return i;
   1174                         }
   1175                     }
   1176                 }
   1177             }
   1178         } else {
   1179             STRING_POOL_NOISY(ALOGI("indexOfAttribute UTF16 %s (%d) / %s (%d)",
   1180                     String8(ns, nsLen).string(), nsLen,
   1181                     String8(attr, attrLen).string(), attrLen));
   1182             for (size_t i=0; i<N; i++) {
   1183                 size_t curNsLen = 0, curAttrLen = 0;
   1184                 const char16_t* curNs = getAttributeNamespace(i, &curNsLen);
   1185                 const char16_t* curAttr = getAttributeName(i, &curAttrLen);
   1186                 STRING_POOL_NOISY(ALOGI("  curNs=%s (%d), curAttr=%s (%d)",
   1187                         String8(curNs, curNsLen).string(), curNsLen,
   1188                         String8(curAttr, curAttrLen).string(), curAttrLen));
   1189                 if (curAttr != NULL && curNsLen == nsLen && curAttrLen == attrLen
   1190                         && (memcmp(attr, curAttr, attrLen*sizeof(char16_t)) == 0)) {
   1191                     if (ns == NULL) {
   1192                         if (curNs == NULL) {
   1193                             STRING_POOL_NOISY(ALOGI("  FOUND!"));
   1194                             return i;
   1195                         }
   1196                     } else if (curNs != NULL) {
   1197                         //printf(" --> ns=%s, curNs=%s\n",
   1198                         //       String8(ns).string(), String8(curNs).string());
   1199                         if (memcmp(ns, curNs, nsLen*sizeof(char16_t)) == 0) {
   1200                             STRING_POOL_NOISY(ALOGI("  FOUND!"));
   1201                             return i;
   1202                         }
   1203                     }
   1204                 }
   1205             }
   1206         }
   1207     }
   1208 
   1209     return NAME_NOT_FOUND;
   1210 }
   1211 
   1212 ssize_t ResXMLParser::indexOfID() const
   1213 {
   1214     if (mEventCode == START_TAG) {
   1215         const ssize_t idx = dtohs(((const ResXMLTree_attrExt*)mCurExt)->idIndex);
   1216         if (idx > 0) return (idx-1);
   1217     }
   1218     return NAME_NOT_FOUND;
   1219 }
   1220 
   1221 ssize_t ResXMLParser::indexOfClass() const
   1222 {
   1223     if (mEventCode == START_TAG) {
   1224         const ssize_t idx = dtohs(((const ResXMLTree_attrExt*)mCurExt)->classIndex);
   1225         if (idx > 0) return (idx-1);
   1226     }
   1227     return NAME_NOT_FOUND;
   1228 }
   1229 
   1230 ssize_t ResXMLParser::indexOfStyle() const
   1231 {
   1232     if (mEventCode == START_TAG) {
   1233         const ssize_t idx = dtohs(((const ResXMLTree_attrExt*)mCurExt)->styleIndex);
   1234         if (idx > 0) return (idx-1);
   1235     }
   1236     return NAME_NOT_FOUND;
   1237 }
   1238 
   1239 ResXMLParser::event_code_t ResXMLParser::nextNode()
   1240 {
   1241     if (mEventCode < 0) {
   1242         return mEventCode;
   1243     }
   1244 
   1245     do {
   1246         const ResXMLTree_node* next = (const ResXMLTree_node*)
   1247             (((const uint8_t*)mCurNode) + dtohl(mCurNode->header.size));
   1248         //ALOGW("Next node: prev=%p, next=%p\n", mCurNode, next);
   1249 
   1250         if (((const uint8_t*)next) >= mTree.mDataEnd) {
   1251             mCurNode = NULL;
   1252             return (mEventCode=END_DOCUMENT);
   1253         }
   1254 
   1255         if (mTree.validateNode(next) != NO_ERROR) {
   1256             mCurNode = NULL;
   1257             return (mEventCode=BAD_DOCUMENT);
   1258         }
   1259 
   1260         mCurNode = next;
   1261         const uint16_t headerSize = dtohs(next->header.headerSize);
   1262         const uint32_t totalSize = dtohl(next->header.size);
   1263         mCurExt = ((const uint8_t*)next) + headerSize;
   1264         size_t minExtSize = 0;
   1265         event_code_t eventCode = (event_code_t)dtohs(next->header.type);
   1266         switch ((mEventCode=eventCode)) {
   1267             case RES_XML_START_NAMESPACE_TYPE:
   1268             case RES_XML_END_NAMESPACE_TYPE:
   1269                 minExtSize = sizeof(ResXMLTree_namespaceExt);
   1270                 break;
   1271             case RES_XML_START_ELEMENT_TYPE:
   1272                 minExtSize = sizeof(ResXMLTree_attrExt);
   1273                 break;
   1274             case RES_XML_END_ELEMENT_TYPE:
   1275                 minExtSize = sizeof(ResXMLTree_endElementExt);
   1276                 break;
   1277             case RES_XML_CDATA_TYPE:
   1278                 minExtSize = sizeof(ResXMLTree_cdataExt);
   1279                 break;
   1280             default:
   1281                 ALOGW("Unknown XML block: header type %d in node at %d\n",
   1282                      (int)dtohs(next->header.type),
   1283                      (int)(((const uint8_t*)next)-((const uint8_t*)mTree.mHeader)));
   1284                 continue;
   1285         }
   1286 
   1287         if ((totalSize-headerSize) < minExtSize) {
   1288             ALOGW("Bad XML block: header type 0x%x in node at 0x%x has size %d, need %d\n",
   1289                  (int)dtohs(next->header.type),
   1290                  (int)(((const uint8_t*)next)-((const uint8_t*)mTree.mHeader)),
   1291                  (int)(totalSize-headerSize), (int)minExtSize);
   1292             return (mEventCode=BAD_DOCUMENT);
   1293         }
   1294 
   1295         //printf("CurNode=%p, CurExt=%p, headerSize=%d, minExtSize=%d\n",
   1296         //       mCurNode, mCurExt, headerSize, minExtSize);
   1297 
   1298         return eventCode;
   1299     } while (true);
   1300 }
   1301 
   1302 void ResXMLParser::getPosition(ResXMLParser::ResXMLPosition* pos) const
   1303 {
   1304     pos->eventCode = mEventCode;
   1305     pos->curNode = mCurNode;
   1306     pos->curExt = mCurExt;
   1307 }
   1308 
   1309 void ResXMLParser::setPosition(const ResXMLParser::ResXMLPosition& pos)
   1310 {
   1311     mEventCode = pos.eventCode;
   1312     mCurNode = pos.curNode;
   1313     mCurExt = pos.curExt;
   1314 }
   1315 
   1316 
   1317 // --------------------------------------------------------------------
   1318 
   1319 static volatile int32_t gCount = 0;
   1320 
   1321 ResXMLTree::ResXMLTree()
   1322     : ResXMLParser(*this)
   1323     , mError(NO_INIT), mOwnedData(NULL)
   1324 {
   1325     //ALOGI("Creating ResXMLTree %p #%d\n", this, android_atomic_inc(&gCount)+1);
   1326     restart();
   1327 }
   1328 
   1329 ResXMLTree::ResXMLTree(const void* data, size_t size, bool copyData)
   1330     : ResXMLParser(*this)
   1331     , mError(NO_INIT), mOwnedData(NULL)
   1332 {
   1333     //ALOGI("Creating ResXMLTree %p #%d\n", this, android_atomic_inc(&gCount)+1);
   1334     setTo(data, size, copyData);
   1335 }
   1336 
   1337 ResXMLTree::~ResXMLTree()
   1338 {
   1339     //ALOGI("Destroying ResXMLTree in %p #%d\n", this, android_atomic_dec(&gCount)-1);
   1340     uninit();
   1341 }
   1342 
   1343 status_t ResXMLTree::setTo(const void* data, size_t size, bool copyData)
   1344 {
   1345     uninit();
   1346     mEventCode = START_DOCUMENT;
   1347 
   1348     if (!data || !size) {
   1349         return (mError=BAD_TYPE);
   1350     }
   1351 
   1352     if (copyData) {
   1353         mOwnedData = malloc(size);
   1354         if (mOwnedData == NULL) {
   1355             return (mError=NO_MEMORY);
   1356         }
   1357         memcpy(mOwnedData, data, size);
   1358         data = mOwnedData;
   1359     }
   1360 
   1361     mHeader = (const ResXMLTree_header*)data;
   1362     mSize = dtohl(mHeader->header.size);
   1363     if (dtohs(mHeader->header.headerSize) > mSize || mSize > size) {
   1364         ALOGW("Bad XML block: header size %d or total size %d is larger than data size %d\n",
   1365              (int)dtohs(mHeader->header.headerSize),
   1366              (int)dtohl(mHeader->header.size), (int)size);
   1367         mError = BAD_TYPE;
   1368         restart();
   1369         return mError;
   1370     }
   1371     mDataEnd = ((const uint8_t*)mHeader) + mSize;
   1372 
   1373     mStrings.uninit();
   1374     mRootNode = NULL;
   1375     mResIds = NULL;
   1376     mNumResIds = 0;
   1377 
   1378     // First look for a couple interesting chunks: the string block
   1379     // and first XML node.
   1380     const ResChunk_header* chunk =
   1381         (const ResChunk_header*)(((const uint8_t*)mHeader) + dtohs(mHeader->header.headerSize));
   1382     const ResChunk_header* lastChunk = chunk;
   1383     while (((const uint8_t*)chunk) < (mDataEnd-sizeof(ResChunk_header)) &&
   1384            ((const uint8_t*)chunk) < (mDataEnd-dtohl(chunk->size))) {
   1385         status_t err = validate_chunk(chunk, sizeof(ResChunk_header), mDataEnd, "XML");
   1386         if (err != NO_ERROR) {
   1387             mError = err;
   1388             goto done;
   1389         }
   1390         const uint16_t type = dtohs(chunk->type);
   1391         const size_t size = dtohl(chunk->size);
   1392         XML_NOISY(printf("Scanning @ %p: type=0x%x, size=0x%x\n",
   1393                      (void*)(((uint32_t)chunk)-((uint32_t)mHeader)), type, size));
   1394         if (type == RES_STRING_POOL_TYPE) {
   1395             mStrings.setTo(chunk, size);
   1396         } else if (type == RES_XML_RESOURCE_MAP_TYPE) {
   1397             mResIds = (const uint32_t*)
   1398                 (((const uint8_t*)chunk)+dtohs(chunk->headerSize));
   1399             mNumResIds = (dtohl(chunk->size)-dtohs(chunk->headerSize))/sizeof(uint32_t);
   1400         } else if (type >= RES_XML_FIRST_CHUNK_TYPE
   1401                    && type <= RES_XML_LAST_CHUNK_TYPE) {
   1402             if (validateNode((const ResXMLTree_node*)chunk) != NO_ERROR) {
   1403                 mError = BAD_TYPE;
   1404                 goto done;
   1405             }
   1406             mCurNode = (const ResXMLTree_node*)lastChunk;
   1407             if (nextNode() == BAD_DOCUMENT) {
   1408                 mError = BAD_TYPE;
   1409                 goto done;
   1410             }
   1411             mRootNode = mCurNode;
   1412             mRootExt = mCurExt;
   1413             mRootCode = mEventCode;
   1414             break;
   1415         } else {
   1416             XML_NOISY(printf("Skipping unknown chunk!\n"));
   1417         }
   1418         lastChunk = chunk;
   1419         chunk = (const ResChunk_header*)
   1420             (((const uint8_t*)chunk) + size);
   1421     }
   1422 
   1423     if (mRootNode == NULL) {
   1424         ALOGW("Bad XML block: no root element node found\n");
   1425         mError = BAD_TYPE;
   1426         goto done;
   1427     }
   1428 
   1429     mError = mStrings.getError();
   1430 
   1431 done:
   1432     restart();
   1433     return mError;
   1434 }
   1435 
   1436 status_t ResXMLTree::getError() const
   1437 {
   1438     return mError;
   1439 }
   1440 
   1441 void ResXMLTree::uninit()
   1442 {
   1443     mError = NO_INIT;
   1444     mStrings.uninit();
   1445     if (mOwnedData) {
   1446         free(mOwnedData);
   1447         mOwnedData = NULL;
   1448     }
   1449     restart();
   1450 }
   1451 
   1452 status_t ResXMLTree::validateNode(const ResXMLTree_node* node) const
   1453 {
   1454     const uint16_t eventCode = dtohs(node->header.type);
   1455 
   1456     status_t err = validate_chunk(
   1457         &node->header, sizeof(ResXMLTree_node),
   1458         mDataEnd, "ResXMLTree_node");
   1459 
   1460     if (err >= NO_ERROR) {
   1461         // Only perform additional validation on START nodes
   1462         if (eventCode != RES_XML_START_ELEMENT_TYPE) {
   1463             return NO_ERROR;
   1464         }
   1465 
   1466         const uint16_t headerSize = dtohs(node->header.headerSize);
   1467         const uint32_t size = dtohl(node->header.size);
   1468         const ResXMLTree_attrExt* attrExt = (const ResXMLTree_attrExt*)
   1469             (((const uint8_t*)node) + headerSize);
   1470         // check for sensical values pulled out of the stream so far...
   1471         if ((size >= headerSize + sizeof(ResXMLTree_attrExt))
   1472                 && ((void*)attrExt > (void*)node)) {
   1473             const size_t attrSize = ((size_t)dtohs(attrExt->attributeSize))
   1474                 * dtohs(attrExt->attributeCount);
   1475             if ((dtohs(attrExt->attributeStart)+attrSize) <= (size-headerSize)) {
   1476                 return NO_ERROR;
   1477             }
   1478             ALOGW("Bad XML block: node attributes use 0x%x bytes, only have 0x%x bytes\n",
   1479                     (unsigned int)(dtohs(attrExt->attributeStart)+attrSize),
   1480                     (unsigned int)(size-headerSize));
   1481         }
   1482         else {
   1483             ALOGW("Bad XML start block: node header size 0x%x, size 0x%x\n",
   1484                 (unsigned int)headerSize, (unsigned int)size);
   1485         }
   1486         return BAD_TYPE;
   1487     }
   1488 
   1489     return err;
   1490 
   1491 #if 0
   1492     const bool isStart = dtohs(node->header.type) == RES_XML_START_ELEMENT_TYPE;
   1493 
   1494     const uint16_t headerSize = dtohs(node->header.headerSize);
   1495     const uint32_t size = dtohl(node->header.size);
   1496 
   1497     if (headerSize >= (isStart ? sizeof(ResXMLTree_attrNode) : sizeof(ResXMLTree_node))) {
   1498         if (size >= headerSize) {
   1499             if (((const uint8_t*)node) <= (mDataEnd-size)) {
   1500                 if (!isStart) {
   1501                     return NO_ERROR;
   1502                 }
   1503                 if ((((size_t)dtohs(node->attributeSize))*dtohs(node->attributeCount))
   1504                         <= (size-headerSize)) {
   1505                     return NO_ERROR;
   1506                 }
   1507                 ALOGW("Bad XML block: node attributes use 0x%x bytes, only have 0x%x bytes\n",
   1508                         ((int)dtohs(node->attributeSize))*dtohs(node->attributeCount),
   1509                         (int)(size-headerSize));
   1510                 return BAD_TYPE;
   1511             }
   1512             ALOGW("Bad XML block: node at 0x%x extends beyond data end 0x%x\n",
   1513                     (int)(((const uint8_t*)node)-((const uint8_t*)mHeader)), (int)mSize);
   1514             return BAD_TYPE;
   1515         }
   1516         ALOGW("Bad XML block: node at 0x%x header size 0x%x smaller than total size 0x%x\n",
   1517                 (int)(((const uint8_t*)node)-((const uint8_t*)mHeader)),
   1518                 (int)headerSize, (int)size);
   1519         return BAD_TYPE;
   1520     }
   1521     ALOGW("Bad XML block: node at 0x%x header size 0x%x too small\n",
   1522             (int)(((const uint8_t*)node)-((const uint8_t*)mHeader)),
   1523             (int)headerSize);
   1524     return BAD_TYPE;
   1525 #endif
   1526 }
   1527 
   1528 // --------------------------------------------------------------------
   1529 // --------------------------------------------------------------------
   1530 // --------------------------------------------------------------------
   1531 
   1532 void ResTable_config::copyFromDeviceNoSwap(const ResTable_config& o) {
   1533     const size_t size = dtohl(o.size);
   1534     if (size >= sizeof(ResTable_config)) {
   1535         *this = o;
   1536     } else {
   1537         memcpy(this, &o, size);
   1538         memset(((uint8_t*)this)+size, 0, sizeof(ResTable_config)-size);
   1539     }
   1540 }
   1541 
   1542 void ResTable_config::copyFromDtoH(const ResTable_config& o) {
   1543     copyFromDeviceNoSwap(o);
   1544     size = sizeof(ResTable_config);
   1545     mcc = dtohs(mcc);
   1546     mnc = dtohs(mnc);
   1547     density = dtohs(density);
   1548     screenWidth = dtohs(screenWidth);
   1549     screenHeight = dtohs(screenHeight);
   1550     sdkVersion = dtohs(sdkVersion);
   1551     minorVersion = dtohs(minorVersion);
   1552     smallestScreenWidthDp = dtohs(smallestScreenWidthDp);
   1553     screenWidthDp = dtohs(screenWidthDp);
   1554     screenHeightDp = dtohs(screenHeightDp);
   1555 }
   1556 
   1557 void ResTable_config::swapHtoD() {
   1558     size = htodl(size);
   1559     mcc = htods(mcc);
   1560     mnc = htods(mnc);
   1561     density = htods(density);
   1562     screenWidth = htods(screenWidth);
   1563     screenHeight = htods(screenHeight);
   1564     sdkVersion = htods(sdkVersion);
   1565     minorVersion = htods(minorVersion);
   1566     smallestScreenWidthDp = htods(smallestScreenWidthDp);
   1567     screenWidthDp = htods(screenWidthDp);
   1568     screenHeightDp = htods(screenHeightDp);
   1569 }
   1570 
   1571 int ResTable_config::compare(const ResTable_config& o) const {
   1572     int32_t diff = (int32_t)(imsi - o.imsi);
   1573     if (diff != 0) return diff;
   1574     diff = (int32_t)(locale - o.locale);
   1575     if (diff != 0) return diff;
   1576     diff = (int32_t)(screenType - o.screenType);
   1577     if (diff != 0) return diff;
   1578     diff = (int32_t)(input - o.input);
   1579     if (diff != 0) return diff;
   1580     diff = (int32_t)(screenSize - o.screenSize);
   1581     if (diff != 0) return diff;
   1582     diff = (int32_t)(version - o.version);
   1583     if (diff != 0) return diff;
   1584     diff = (int32_t)(screenLayout - o.screenLayout);
   1585     if (diff != 0) return diff;
   1586     diff = (int32_t)(uiMode - o.uiMode);
   1587     if (diff != 0) return diff;
   1588     diff = (int32_t)(smallestScreenWidthDp - o.smallestScreenWidthDp);
   1589     if (diff != 0) return diff;
   1590     diff = (int32_t)(screenSizeDp - o.screenSizeDp);
   1591     return (int)diff;
   1592 }
   1593 
   1594 int ResTable_config::compareLogical(const ResTable_config& o) const {
   1595     if (mcc != o.mcc) {
   1596         return mcc < o.mcc ? -1 : 1;
   1597     }
   1598     if (mnc != o.mnc) {
   1599         return mnc < o.mnc ? -1 : 1;
   1600     }
   1601     if (language[0] != o.language[0]) {
   1602         return language[0] < o.language[0] ? -1 : 1;
   1603     }
   1604     if (language[1] != o.language[1]) {
   1605         return language[1] < o.language[1] ? -1 : 1;
   1606     }
   1607     if (country[0] != o.country[0]) {
   1608         return country[0] < o.country[0] ? -1 : 1;
   1609     }
   1610     if (country[1] != o.country[1]) {
   1611         return country[1] < o.country[1] ? -1 : 1;
   1612     }
   1613     if ((screenLayout & MASK_LAYOUTDIR) != (o.screenLayout & MASK_LAYOUTDIR)) {
   1614         return (screenLayout & MASK_LAYOUTDIR) < (o.screenLayout & MASK_LAYOUTDIR) ? -1 : 1;
   1615     }
   1616     if (smallestScreenWidthDp != o.smallestScreenWidthDp) {
   1617         return smallestScreenWidthDp < o.smallestScreenWidthDp ? -1 : 1;
   1618     }
   1619     if (screenWidthDp != o.screenWidthDp) {
   1620         return screenWidthDp < o.screenWidthDp ? -1 : 1;
   1621     }
   1622     if (screenHeightDp != o.screenHeightDp) {
   1623         return screenHeightDp < o.screenHeightDp ? -1 : 1;
   1624     }
   1625     if (screenWidth != o.screenWidth) {
   1626         return screenWidth < o.screenWidth ? -1 : 1;
   1627     }
   1628     if (screenHeight != o.screenHeight) {
   1629         return screenHeight < o.screenHeight ? -1 : 1;
   1630     }
   1631     if (density != o.density) {
   1632         return density < o.density ? -1 : 1;
   1633     }
   1634     if (orientation != o.orientation) {
   1635         return orientation < o.orientation ? -1 : 1;
   1636     }
   1637     if (touchscreen != o.touchscreen) {
   1638         return touchscreen < o.touchscreen ? -1 : 1;
   1639     }
   1640     if (input != o.input) {
   1641         return input < o.input ? -1 : 1;
   1642     }
   1643     if (screenLayout != o.screenLayout) {
   1644         return screenLayout < o.screenLayout ? -1 : 1;
   1645     }
   1646     if (uiMode != o.uiMode) {
   1647         return uiMode < o.uiMode ? -1 : 1;
   1648     }
   1649     if (version != o.version) {
   1650         return version < o.version ? -1 : 1;
   1651     }
   1652     return 0;
   1653 }
   1654 
   1655 int ResTable_config::diff(const ResTable_config& o) const {
   1656     int diffs = 0;
   1657     if (mcc != o.mcc) diffs |= CONFIG_MCC;
   1658     if (mnc != o.mnc) diffs |= CONFIG_MNC;
   1659     if (locale != o.locale) diffs |= CONFIG_LOCALE;
   1660     if (orientation != o.orientation) diffs |= CONFIG_ORIENTATION;
   1661     if (density != o.density) diffs |= CONFIG_DENSITY;
   1662     if (touchscreen != o.touchscreen) diffs |= CONFIG_TOUCHSCREEN;
   1663     if (((inputFlags^o.inputFlags)&(MASK_KEYSHIDDEN|MASK_NAVHIDDEN)) != 0)
   1664             diffs |= CONFIG_KEYBOARD_HIDDEN;
   1665     if (keyboard != o.keyboard) diffs |= CONFIG_KEYBOARD;
   1666     if (navigation != o.navigation) diffs |= CONFIG_NAVIGATION;
   1667     if (screenSize != o.screenSize) diffs |= CONFIG_SCREEN_SIZE;
   1668     if (version != o.version) diffs |= CONFIG_VERSION;
   1669     if ((screenLayout & MASK_LAYOUTDIR) != (o.screenLayout & MASK_LAYOUTDIR)) diffs |= CONFIG_LAYOUTDIR;
   1670     if ((screenLayout & ~MASK_LAYOUTDIR) != (o.screenLayout & ~MASK_LAYOUTDIR)) diffs |= CONFIG_SCREEN_LAYOUT;
   1671     if (uiMode != o.uiMode) diffs |= CONFIG_UI_MODE;
   1672     if (smallestScreenWidthDp != o.smallestScreenWidthDp) diffs |= CONFIG_SMALLEST_SCREEN_SIZE;
   1673     if (screenSizeDp != o.screenSizeDp) diffs |= CONFIG_SCREEN_SIZE;
   1674     return diffs;
   1675 }
   1676 
   1677 bool ResTable_config::isMoreSpecificThan(const ResTable_config& o) const {
   1678     // The order of the following tests defines the importance of one
   1679     // configuration parameter over another.  Those tests first are more
   1680     // important, trumping any values in those following them.
   1681     if (imsi || o.imsi) {
   1682         if (mcc != o.mcc) {
   1683             if (!mcc) return false;
   1684             if (!o.mcc) return true;
   1685         }
   1686 
   1687         if (mnc != o.mnc) {
   1688             if (!mnc) return false;
   1689             if (!o.mnc) return true;
   1690         }
   1691     }
   1692 
   1693     if (locale || o.locale) {
   1694         if (language[0] != o.language[0]) {
   1695             if (!language[0]) return false;
   1696             if (!o.language[0]) return true;
   1697         }
   1698 
   1699         if (country[0] != o.country[0]) {
   1700             if (!country[0]) return false;
   1701             if (!o.country[0]) return true;
   1702         }
   1703     }
   1704 
   1705     if (screenLayout || o.screenLayout) {
   1706         if (((screenLayout^o.screenLayout) & MASK_LAYOUTDIR) != 0) {
   1707             if (!(screenLayout & MASK_LAYOUTDIR)) return false;
   1708             if (!(o.screenLayout & MASK_LAYOUTDIR)) return true;
   1709         }
   1710     }
   1711 
   1712     if (smallestScreenWidthDp || o.smallestScreenWidthDp) {
   1713         if (smallestScreenWidthDp != o.smallestScreenWidthDp) {
   1714             if (!smallestScreenWidthDp) return false;
   1715             if (!o.smallestScreenWidthDp) return true;
   1716         }
   1717     }
   1718 
   1719     if (screenSizeDp || o.screenSizeDp) {
   1720         if (screenWidthDp != o.screenWidthDp) {
   1721             if (!screenWidthDp) return false;
   1722             if (!o.screenWidthDp) return true;
   1723         }
   1724 
   1725         if (screenHeightDp != o.screenHeightDp) {
   1726             if (!screenHeightDp) return false;
   1727             if (!o.screenHeightDp) return true;
   1728         }
   1729     }
   1730 
   1731     if (screenLayout || o.screenLayout) {
   1732         if (((screenLayout^o.screenLayout) & MASK_SCREENSIZE) != 0) {
   1733             if (!(screenLayout & MASK_SCREENSIZE)) return false;
   1734             if (!(o.screenLayout & MASK_SCREENSIZE)) return true;
   1735         }
   1736         if (((screenLayout^o.screenLayout) & MASK_SCREENLONG) != 0) {
   1737             if (!(screenLayout & MASK_SCREENLONG)) return false;
   1738             if (!(o.screenLayout & MASK_SCREENLONG)) return true;
   1739         }
   1740     }
   1741 
   1742     if (orientation != o.orientation) {
   1743         if (!orientation) return false;
   1744         if (!o.orientation) return true;
   1745     }
   1746 
   1747     if (uiMode || o.uiMode) {
   1748         if (((uiMode^o.uiMode) & MASK_UI_MODE_TYPE) != 0) {
   1749             if (!(uiMode & MASK_UI_MODE_TYPE)) return false;
   1750             if (!(o.uiMode & MASK_UI_MODE_TYPE)) return true;
   1751         }
   1752         if (((uiMode^o.uiMode) & MASK_UI_MODE_NIGHT) != 0) {
   1753             if (!(uiMode & MASK_UI_MODE_NIGHT)) return false;
   1754             if (!(o.uiMode & MASK_UI_MODE_NIGHT)) return true;
   1755         }
   1756     }
   1757 
   1758     // density is never 'more specific'
   1759     // as the default just equals 160
   1760 
   1761     if (touchscreen != o.touchscreen) {
   1762         if (!touchscreen) return false;
   1763         if (!o.touchscreen) return true;
   1764     }
   1765 
   1766     if (input || o.input) {
   1767         if (((inputFlags^o.inputFlags) & MASK_KEYSHIDDEN) != 0) {
   1768             if (!(inputFlags & MASK_KEYSHIDDEN)) return false;
   1769             if (!(o.inputFlags & MASK_KEYSHIDDEN)) return true;
   1770         }
   1771 
   1772         if (((inputFlags^o.inputFlags) & MASK_NAVHIDDEN) != 0) {
   1773             if (!(inputFlags & MASK_NAVHIDDEN)) return false;
   1774             if (!(o.inputFlags & MASK_NAVHIDDEN)) return true;
   1775         }
   1776 
   1777         if (keyboard != o.keyboard) {
   1778             if (!keyboard) return false;
   1779             if (!o.keyboard) return true;
   1780         }
   1781 
   1782         if (navigation != o.navigation) {
   1783             if (!navigation) return false;
   1784             if (!o.navigation) return true;
   1785         }
   1786     }
   1787 
   1788     if (screenSize || o.screenSize) {
   1789         if (screenWidth != o.screenWidth) {
   1790             if (!screenWidth) return false;
   1791             if (!o.screenWidth) return true;
   1792         }
   1793 
   1794         if (screenHeight != o.screenHeight) {
   1795             if (!screenHeight) return false;
   1796             if (!o.screenHeight) return true;
   1797         }
   1798     }
   1799 
   1800     if (version || o.version) {
   1801         if (sdkVersion != o.sdkVersion) {
   1802             if (!sdkVersion) return false;
   1803             if (!o.sdkVersion) return true;
   1804         }
   1805 
   1806         if (minorVersion != o.minorVersion) {
   1807             if (!minorVersion) return false;
   1808             if (!o.minorVersion) return true;
   1809         }
   1810     }
   1811     return false;
   1812 }
   1813 
   1814 bool ResTable_config::isBetterThan(const ResTable_config& o,
   1815         const ResTable_config* requested) const {
   1816     if (requested) {
   1817         if (imsi || o.imsi) {
   1818             if ((mcc != o.mcc) && requested->mcc) {
   1819                 return (mcc);
   1820             }
   1821 
   1822             if ((mnc != o.mnc) && requested->mnc) {
   1823                 return (mnc);
   1824             }
   1825         }
   1826 
   1827         if (locale || o.locale) {
   1828             if ((language[0] != o.language[0]) && requested->language[0]) {
   1829                 return (language[0]);
   1830             }
   1831 
   1832             if ((country[0] != o.country[0]) && requested->country[0]) {
   1833                 return (country[0]);
   1834             }
   1835         }
   1836 
   1837         if (screenLayout || o.screenLayout) {
   1838             if (((screenLayout^o.screenLayout) & MASK_LAYOUTDIR) != 0
   1839                     && (requested->screenLayout & MASK_LAYOUTDIR)) {
   1840                 int myLayoutDir = screenLayout & MASK_LAYOUTDIR;
   1841                 int oLayoutDir = o.screenLayout & MASK_LAYOUTDIR;
   1842                 return (myLayoutDir > oLayoutDir);
   1843             }
   1844         }
   1845 
   1846         if (smallestScreenWidthDp || o.smallestScreenWidthDp) {
   1847             // The configuration closest to the actual size is best.
   1848             // We assume that larger configs have already been filtered
   1849             // out at this point.  That means we just want the largest one.
   1850             if (smallestScreenWidthDp != o.smallestScreenWidthDp) {
   1851                 return smallestScreenWidthDp > o.smallestScreenWidthDp;
   1852             }
   1853         }
   1854 
   1855         if (screenSizeDp || o.screenSizeDp) {
   1856             // "Better" is based on the sum of the difference between both
   1857             // width and height from the requested dimensions.  We are
   1858             // assuming the invalid configs (with smaller dimens) have
   1859             // already been filtered.  Note that if a particular dimension
   1860             // is unspecified, we will end up with a large value (the
   1861             // difference between 0 and the requested dimension), which is
   1862             // good since we will prefer a config that has specified a
   1863             // dimension value.
   1864             int myDelta = 0, otherDelta = 0;
   1865             if (requested->screenWidthDp) {
   1866                 myDelta += requested->screenWidthDp - screenWidthDp;
   1867                 otherDelta += requested->screenWidthDp - o.screenWidthDp;
   1868             }
   1869             if (requested->screenHeightDp) {
   1870                 myDelta += requested->screenHeightDp - screenHeightDp;
   1871                 otherDelta += requested->screenHeightDp - o.screenHeightDp;
   1872             }
   1873             //ALOGI("Comparing this %dx%d to other %dx%d in %dx%d: myDelta=%d otherDelta=%d",
   1874             //    screenWidthDp, screenHeightDp, o.screenWidthDp, o.screenHeightDp,
   1875             //    requested->screenWidthDp, requested->screenHeightDp, myDelta, otherDelta);
   1876             if (myDelta != otherDelta) {
   1877                 return myDelta < otherDelta;
   1878             }
   1879         }
   1880 
   1881         if (screenLayout || o.screenLayout) {
   1882             if (((screenLayout^o.screenLayout) & MASK_SCREENSIZE) != 0
   1883                     && (requested->screenLayout & MASK_SCREENSIZE)) {
   1884                 // A little backwards compatibility here: undefined is
   1885                 // considered equivalent to normal.  But only if the
   1886                 // requested size is at least normal; otherwise, small
   1887                 // is better than the default.
   1888                 int mySL = (screenLayout & MASK_SCREENSIZE);
   1889                 int oSL = (o.screenLayout & MASK_SCREENSIZE);
   1890                 int fixedMySL = mySL;
   1891                 int fixedOSL = oSL;
   1892                 if ((requested->screenLayout & MASK_SCREENSIZE) >= SCREENSIZE_NORMAL) {
   1893                     if (fixedMySL == 0) fixedMySL = SCREENSIZE_NORMAL;
   1894                     if (fixedOSL == 0) fixedOSL = SCREENSIZE_NORMAL;
   1895                 }
   1896                 // For screen size, the best match is the one that is
   1897                 // closest to the requested screen size, but not over
   1898                 // (the not over part is dealt with in match() below).
   1899                 if (fixedMySL == fixedOSL) {
   1900                     // If the two are the same, but 'this' is actually
   1901                     // undefined, then the other is really a better match.
   1902                     if (mySL == 0) return false;
   1903                     return true;
   1904                 }
   1905                 if (fixedMySL != fixedOSL) {
   1906                     return fixedMySL > fixedOSL;
   1907                 }
   1908             }
   1909             if (((screenLayout^o.screenLayout) & MASK_SCREENLONG) != 0
   1910                     && (requested->screenLayout & MASK_SCREENLONG)) {
   1911                 return (screenLayout & MASK_SCREENLONG);
   1912             }
   1913         }
   1914 
   1915         if ((orientation != o.orientation) && requested->orientation) {
   1916             return (orientation);
   1917         }
   1918 
   1919         if (uiMode || o.uiMode) {
   1920             if (((uiMode^o.uiMode) & MASK_UI_MODE_TYPE) != 0
   1921                     && (requested->uiMode & MASK_UI_MODE_TYPE)) {
   1922                 return (uiMode & MASK_UI_MODE_TYPE);
   1923             }
   1924             if (((uiMode^o.uiMode) & MASK_UI_MODE_NIGHT) != 0
   1925                     && (requested->uiMode & MASK_UI_MODE_NIGHT)) {
   1926                 return (uiMode & MASK_UI_MODE_NIGHT);
   1927             }
   1928         }
   1929 
   1930         if (screenType || o.screenType) {
   1931             if (density != o.density) {
   1932                 // density is tough.  Any density is potentially useful
   1933                 // because the system will scale it.  Scaling down
   1934                 // is generally better than scaling up.
   1935                 // Default density counts as 160dpi (the system default)
   1936                 // TODO - remove 160 constants
   1937                 int h = (density?density:160);
   1938                 int l = (o.density?o.density:160);
   1939                 bool bImBigger = true;
   1940                 if (l > h) {
   1941                     int t = h;
   1942                     h = l;
   1943                     l = t;
   1944                     bImBigger = false;
   1945                 }
   1946 
   1947                 int reqValue = (requested->density?requested->density:160);
   1948                 if (reqValue >= h) {
   1949                     // requested value higher than both l and h, give h
   1950                     return bImBigger;
   1951                 }
   1952                 if (l >= reqValue) {
   1953                     // requested value lower than both l and h, give l
   1954                     return !bImBigger;
   1955                 }
   1956                 // saying that scaling down is 2x better than up
   1957                 if (((2 * l) - reqValue) * h > reqValue * reqValue) {
   1958                     return !bImBigger;
   1959                 } else {
   1960                     return bImBigger;
   1961                 }
   1962             }
   1963 
   1964             if ((touchscreen != o.touchscreen) && requested->touchscreen) {
   1965                 return (touchscreen);
   1966             }
   1967         }
   1968 
   1969         if (input || o.input) {
   1970             const int keysHidden = inputFlags & MASK_KEYSHIDDEN;
   1971             const int oKeysHidden = o.inputFlags & MASK_KEYSHIDDEN;
   1972             if (keysHidden != oKeysHidden) {
   1973                 const int reqKeysHidden =
   1974                         requested->inputFlags & MASK_KEYSHIDDEN;
   1975                 if (reqKeysHidden) {
   1976 
   1977                     if (!keysHidden) return false;
   1978                     if (!oKeysHidden) return true;
   1979                     // For compatibility, we count KEYSHIDDEN_NO as being
   1980                     // the same as KEYSHIDDEN_SOFT.  Here we disambiguate
   1981                     // these by making an exact match more specific.
   1982                     if (reqKeysHidden == keysHidden) return true;
   1983                     if (reqKeysHidden == oKeysHidden) return false;
   1984                 }
   1985             }
   1986 
   1987             const int navHidden = inputFlags & MASK_NAVHIDDEN;
   1988             const int oNavHidden = o.inputFlags & MASK_NAVHIDDEN;
   1989             if (navHidden != oNavHidden) {
   1990                 const int reqNavHidden =
   1991                         requested->inputFlags & MASK_NAVHIDDEN;
   1992                 if (reqNavHidden) {
   1993 
   1994                     if (!navHidden) return false;
   1995                     if (!oNavHidden) return true;
   1996                 }
   1997             }
   1998 
   1999             if ((keyboard != o.keyboard) && requested->keyboard) {
   2000                 return (keyboard);
   2001             }
   2002 
   2003             if ((navigation != o.navigation) && requested->navigation) {
   2004                 return (navigation);
   2005             }
   2006         }
   2007 
   2008         if (screenSize || o.screenSize) {
   2009             // "Better" is based on the sum of the difference between both
   2010             // width and height from the requested dimensions.  We are
   2011             // assuming the invalid configs (with smaller sizes) have
   2012             // already been filtered.  Note that if a particular dimension
   2013             // is unspecified, we will end up with a large value (the
   2014             // difference between 0 and the requested dimension), which is
   2015             // good since we will prefer a config that has specified a
   2016             // size value.
   2017             int myDelta = 0, otherDelta = 0;
   2018             if (requested->screenWidth) {
   2019                 myDelta += requested->screenWidth - screenWidth;
   2020                 otherDelta += requested->screenWidth - o.screenWidth;
   2021             }
   2022             if (requested->screenHeight) {
   2023                 myDelta += requested->screenHeight - screenHeight;
   2024                 otherDelta += requested->screenHeight - o.screenHeight;
   2025             }
   2026             if (myDelta != otherDelta) {
   2027                 return myDelta < otherDelta;
   2028             }
   2029         }
   2030 
   2031         if (version || o.version) {
   2032             if ((sdkVersion != o.sdkVersion) && requested->sdkVersion) {
   2033                 return (sdkVersion > o.sdkVersion);
   2034             }
   2035 
   2036             if ((minorVersion != o.minorVersion) &&
   2037                     requested->minorVersion) {
   2038                 return (minorVersion);
   2039             }
   2040         }
   2041 
   2042         return false;
   2043     }
   2044     return isMoreSpecificThan(o);
   2045 }
   2046 
   2047 bool ResTable_config::match(const ResTable_config& settings) const {
   2048     if (imsi != 0) {
   2049         if (mcc != 0 && mcc != settings.mcc) {
   2050             return false;
   2051         }
   2052         if (mnc != 0 && mnc != settings.mnc) {
   2053             return false;
   2054         }
   2055     }
   2056     if (locale != 0) {
   2057         if (language[0] != 0
   2058             && (language[0] != settings.language[0]
   2059                 || language[1] != settings.language[1])) {
   2060             return false;
   2061         }
   2062         if (country[0] != 0
   2063             && (country[0] != settings.country[0]
   2064                 || country[1] != settings.country[1])) {
   2065             return false;
   2066         }
   2067     }
   2068     if (screenConfig != 0) {
   2069         const int layoutDir = screenLayout&MASK_LAYOUTDIR;
   2070         const int setLayoutDir = settings.screenLayout&MASK_LAYOUTDIR;
   2071         if (layoutDir != 0 && layoutDir != setLayoutDir) {
   2072             return false;
   2073         }
   2074 
   2075         const int screenSize = screenLayout&MASK_SCREENSIZE;
   2076         const int setScreenSize = settings.screenLayout&MASK_SCREENSIZE;
   2077         // Any screen sizes for larger screens than the setting do not
   2078         // match.
   2079         if (screenSize != 0 && screenSize > setScreenSize) {
   2080             return false;
   2081         }
   2082 
   2083         const int screenLong = screenLayout&MASK_SCREENLONG;
   2084         const int setScreenLong = settings.screenLayout&MASK_SCREENLONG;
   2085         if (screenLong != 0 && screenLong != setScreenLong) {
   2086             return false;
   2087         }
   2088 
   2089         const int uiModeType = uiMode&MASK_UI_MODE_TYPE;
   2090         const int setUiModeType = settings.uiMode&MASK_UI_MODE_TYPE;
   2091         if (uiModeType != 0 && uiModeType != setUiModeType) {
   2092             return false;
   2093         }
   2094 
   2095         const int uiModeNight = uiMode&MASK_UI_MODE_NIGHT;
   2096         const int setUiModeNight = settings.uiMode&MASK_UI_MODE_NIGHT;
   2097         if (uiModeNight != 0 && uiModeNight != setUiModeNight) {
   2098             return false;
   2099         }
   2100 
   2101         if (smallestScreenWidthDp != 0
   2102                 && smallestScreenWidthDp > settings.smallestScreenWidthDp) {
   2103             return false;
   2104         }
   2105     }
   2106     if (screenSizeDp != 0) {
   2107         if (screenWidthDp != 0 && screenWidthDp > settings.screenWidthDp) {
   2108             //ALOGI("Filtering out width %d in requested %d", screenWidthDp, settings.screenWidthDp);
   2109             return false;
   2110         }
   2111         if (screenHeightDp != 0 && screenHeightDp > settings.screenHeightDp) {
   2112             //ALOGI("Filtering out height %d in requested %d", screenHeightDp, settings.screenHeightDp);
   2113             return false;
   2114         }
   2115     }
   2116     if (screenType != 0) {
   2117         if (orientation != 0 && orientation != settings.orientation) {
   2118             return false;
   2119         }
   2120         // density always matches - we can scale it.  See isBetterThan
   2121         if (touchscreen != 0 && touchscreen != settings.touchscreen) {
   2122             return false;
   2123         }
   2124     }
   2125     if (input != 0) {
   2126         const int keysHidden = inputFlags&MASK_KEYSHIDDEN;
   2127         const int setKeysHidden = settings.inputFlags&MASK_KEYSHIDDEN;
   2128         if (keysHidden != 0 && keysHidden != setKeysHidden) {
   2129             // For compatibility, we count a request for KEYSHIDDEN_NO as also
   2130             // matching the more recent KEYSHIDDEN_SOFT.  Basically
   2131             // KEYSHIDDEN_NO means there is some kind of keyboard available.
   2132             //ALOGI("Matching keysHidden: have=%d, config=%d\n", keysHidden, setKeysHidden);
   2133             if (keysHidden != KEYSHIDDEN_NO || setKeysHidden != KEYSHIDDEN_SOFT) {
   2134                 //ALOGI("No match!");
   2135                 return false;
   2136             }
   2137         }
   2138         const int navHidden = inputFlags&MASK_NAVHIDDEN;
   2139         const int setNavHidden = settings.inputFlags&MASK_NAVHIDDEN;
   2140         if (navHidden != 0 && navHidden != setNavHidden) {
   2141             return false;
   2142         }
   2143         if (keyboard != 0 && keyboard != settings.keyboard) {
   2144             return false;
   2145         }
   2146         if (navigation != 0 && navigation != settings.navigation) {
   2147             return false;
   2148         }
   2149     }
   2150     if (screenSize != 0) {
   2151         if (screenWidth != 0 && screenWidth > settings.screenWidth) {
   2152             return false;
   2153         }
   2154         if (screenHeight != 0 && screenHeight > settings.screenHeight) {
   2155             return false;
   2156         }
   2157     }
   2158     if (version != 0) {
   2159         if (sdkVersion != 0 && sdkVersion > settings.sdkVersion) {
   2160             return false;
   2161         }
   2162         if (minorVersion != 0 && minorVersion != settings.minorVersion) {
   2163             return false;
   2164         }
   2165     }
   2166     return true;
   2167 }
   2168 
   2169 void ResTable_config::getLocale(char str[6]) const {
   2170     memset(str, 0, 6);
   2171     if (language[0]) {
   2172         str[0] = language[0];
   2173         str[1] = language[1];
   2174         if (country[0]) {
   2175             str[2] = '_';
   2176             str[3] = country[0];
   2177             str[4] = country[1];
   2178         }
   2179     }
   2180 }
   2181 
   2182 String8 ResTable_config::toString() const {
   2183     String8 res;
   2184 
   2185     if (mcc != 0) {
   2186         if (res.size() > 0) res.append("-");
   2187         res.appendFormat("%dmcc", dtohs(mcc));
   2188     }
   2189     if (mnc != 0) {
   2190         if (res.size() > 0) res.append("-");
   2191         res.appendFormat("%dmnc", dtohs(mnc));
   2192     }
   2193     if (language[0] != 0) {
   2194         if (res.size() > 0) res.append("-");
   2195         res.append(language, 2);
   2196     }
   2197     if (country[0] != 0) {
   2198         if (res.size() > 0) res.append("-");
   2199         res.append(country, 2);
   2200     }
   2201     if ((screenLayout&MASK_LAYOUTDIR) != 0) {
   2202         if (res.size() > 0) res.append("-");
   2203         switch (screenLayout&ResTable_config::MASK_LAYOUTDIR) {
   2204             case ResTable_config::LAYOUTDIR_LTR:
   2205                 res.append("ldltr");
   2206                 break;
   2207             case ResTable_config::LAYOUTDIR_RTL:
   2208                 res.append("ldrtl");
   2209                 break;
   2210             default:
   2211                 res.appendFormat("layoutDir=%d",
   2212                         dtohs(screenLayout&ResTable_config::MASK_LAYOUTDIR));
   2213                 break;
   2214         }
   2215     }
   2216     if (smallestScreenWidthDp != 0) {
   2217         if (res.size() > 0) res.append("-");
   2218         res.appendFormat("sw%ddp", dtohs(smallestScreenWidthDp));
   2219     }
   2220     if (screenWidthDp != 0) {
   2221         if (res.size() > 0) res.append("-");
   2222         res.appendFormat("w%ddp", dtohs(screenWidthDp));
   2223     }
   2224     if (screenHeightDp != 0) {
   2225         if (res.size() > 0) res.append("-");
   2226         res.appendFormat("h%ddp", dtohs(screenHeightDp));
   2227     }
   2228     if ((screenLayout&MASK_SCREENSIZE) != SCREENSIZE_ANY) {
   2229         if (res.size() > 0) res.append("-");
   2230         switch (screenLayout&ResTable_config::MASK_SCREENSIZE) {
   2231             case ResTable_config::SCREENSIZE_SMALL:
   2232                 res.append("small");
   2233                 break;
   2234             case ResTable_config::SCREENSIZE_NORMAL:
   2235                 res.append("normal");
   2236                 break;
   2237             case ResTable_config::SCREENSIZE_LARGE:
   2238                 res.append("large");
   2239                 break;
   2240             case ResTable_config::SCREENSIZE_XLARGE:
   2241                 res.append("xlarge");
   2242                 break;
   2243             default:
   2244                 res.appendFormat("screenLayoutSize=%d",
   2245                         dtohs(screenLayout&ResTable_config::MASK_SCREENSIZE));
   2246                 break;
   2247         }
   2248     }
   2249     if ((screenLayout&MASK_SCREENLONG) != 0) {
   2250         if (res.size() > 0) res.append("-");
   2251         switch (screenLayout&ResTable_config::MASK_SCREENLONG) {
   2252             case ResTable_config::SCREENLONG_NO:
   2253                 res.append("notlong");
   2254                 break;
   2255             case ResTable_config::SCREENLONG_YES:
   2256                 res.append("long");
   2257                 break;
   2258             default:
   2259                 res.appendFormat("screenLayoutLong=%d",
   2260                         dtohs(screenLayout&ResTable_config::MASK_SCREENLONG));
   2261                 break;
   2262         }
   2263     }
   2264     if (orientation != ORIENTATION_ANY) {
   2265         if (res.size() > 0) res.append("-");
   2266         switch (orientation) {
   2267             case ResTable_config::ORIENTATION_PORT:
   2268                 res.append("port");
   2269                 break;
   2270             case ResTable_config::ORIENTATION_LAND:
   2271                 res.append("land");
   2272                 break;
   2273             case ResTable_config::ORIENTATION_SQUARE:
   2274                 res.append("square");
   2275                 break;
   2276             default:
   2277                 res.appendFormat("orientation=%d", dtohs(orientation));
   2278                 break;
   2279         }
   2280     }
   2281     if ((uiMode&MASK_UI_MODE_TYPE) != UI_MODE_TYPE_ANY) {
   2282         if (res.size() > 0) res.append("-");
   2283         switch (uiMode&ResTable_config::MASK_UI_MODE_TYPE) {
   2284             case ResTable_config::UI_MODE_TYPE_DESK:
   2285                 res.append("desk");
   2286                 break;
   2287             case ResTable_config::UI_MODE_TYPE_CAR:
   2288                 res.append("car");
   2289                 break;
   2290             case ResTable_config::UI_MODE_TYPE_TELEVISION:
   2291                 res.append("television");
   2292                 break;
   2293             case ResTable_config::UI_MODE_TYPE_APPLIANCE:
   2294                 res.append("appliance");
   2295                 break;
   2296             default:
   2297                 res.appendFormat("uiModeType=%d",
   2298                         dtohs(screenLayout&ResTable_config::MASK_UI_MODE_TYPE));
   2299                 break;
   2300         }
   2301     }
   2302     if ((uiMode&MASK_UI_MODE_NIGHT) != 0) {
   2303         if (res.size() > 0) res.append("-");
   2304         switch (uiMode&ResTable_config::MASK_UI_MODE_NIGHT) {
   2305             case ResTable_config::UI_MODE_NIGHT_NO:
   2306                 res.append("notnight");
   2307                 break;
   2308             case ResTable_config::UI_MODE_NIGHT_YES:
   2309                 res.append("night");
   2310                 break;
   2311             default:
   2312                 res.appendFormat("uiModeNight=%d",
   2313                         dtohs(uiMode&MASK_UI_MODE_NIGHT));
   2314                 break;
   2315         }
   2316     }
   2317     if (density != DENSITY_DEFAULT) {
   2318         if (res.size() > 0) res.append("-");
   2319         switch (density) {
   2320             case ResTable_config::DENSITY_LOW:
   2321                 res.append("ldpi");
   2322                 break;
   2323             case ResTable_config::DENSITY_MEDIUM:
   2324                 res.append("mdpi");
   2325                 break;
   2326             case ResTable_config::DENSITY_TV:
   2327                 res.append("tvdpi");
   2328                 break;
   2329             case ResTable_config::DENSITY_HIGH:
   2330                 res.append("hdpi");
   2331                 break;
   2332             case ResTable_config::DENSITY_XHIGH:
   2333                 res.append("xhdpi");
   2334                 break;
   2335             case ResTable_config::DENSITY_XXHIGH:
   2336                 res.append("xxhdpi");
   2337                 break;
   2338             case ResTable_config::DENSITY_NONE:
   2339                 res.append("nodpi");
   2340                 break;
   2341             default:
   2342                 res.appendFormat("%ddpi", dtohs(density));
   2343                 break;
   2344         }
   2345     }
   2346     if (touchscreen != TOUCHSCREEN_ANY) {
   2347         if (res.size() > 0) res.append("-");
   2348         switch (touchscreen) {
   2349             case ResTable_config::TOUCHSCREEN_NOTOUCH:
   2350                 res.append("notouch");
   2351                 break;
   2352             case ResTable_config::TOUCHSCREEN_FINGER:
   2353                 res.append("finger");
   2354                 break;
   2355             case ResTable_config::TOUCHSCREEN_STYLUS:
   2356                 res.append("stylus");
   2357                 break;
   2358             default:
   2359                 res.appendFormat("touchscreen=%d", dtohs(touchscreen));
   2360                 break;
   2361         }
   2362     }
   2363     if (keyboard != KEYBOARD_ANY) {
   2364         if (res.size() > 0) res.append("-");
   2365         switch (keyboard) {
   2366             case ResTable_config::KEYBOARD_NOKEYS:
   2367                 res.append("nokeys");
   2368                 break;
   2369             case ResTable_config::KEYBOARD_QWERTY:
   2370                 res.append("qwerty");
   2371                 break;
   2372             case ResTable_config::KEYBOARD_12KEY:
   2373                 res.append("12key");
   2374                 break;
   2375             default:
   2376                 res.appendFormat("keyboard=%d", dtohs(keyboard));
   2377                 break;
   2378         }
   2379     }
   2380     if ((inputFlags&MASK_KEYSHIDDEN) != 0) {
   2381         if (res.size() > 0) res.append("-");
   2382         switch (inputFlags&MASK_KEYSHIDDEN) {
   2383             case ResTable_config::KEYSHIDDEN_NO:
   2384                 res.append("keysexposed");
   2385                 break;
   2386             case ResTable_config::KEYSHIDDEN_YES:
   2387                 res.append("keyshidden");
   2388                 break;
   2389             case ResTable_config::KEYSHIDDEN_SOFT:
   2390                 res.append("keyssoft");
   2391                 break;
   2392         }
   2393     }
   2394     if (navigation != NAVIGATION_ANY) {
   2395         if (res.size() > 0) res.append("-");
   2396         switch (navigation) {
   2397             case ResTable_config::NAVIGATION_NONAV:
   2398                 res.append("nonav");
   2399                 break;
   2400             case ResTable_config::NAVIGATION_DPAD:
   2401                 res.append("dpad");
   2402                 break;
   2403             case ResTable_config::NAVIGATION_TRACKBALL:
   2404                 res.append("trackball");
   2405                 break;
   2406             case ResTable_config::NAVIGATION_WHEEL:
   2407                 res.append("wheel");
   2408                 break;
   2409             default:
   2410                 res.appendFormat("navigation=%d", dtohs(navigation));
   2411                 break;
   2412         }
   2413     }
   2414     if ((inputFlags&MASK_NAVHIDDEN) != 0) {
   2415         if (res.size() > 0) res.append("-");
   2416         switch (inputFlags&MASK_NAVHIDDEN) {
   2417             case ResTable_config::NAVHIDDEN_NO:
   2418                 res.append("navsexposed");
   2419                 break;
   2420             case ResTable_config::NAVHIDDEN_YES:
   2421                 res.append("navhidden");
   2422                 break;
   2423             default:
   2424                 res.appendFormat("inputFlagsNavHidden=%d",
   2425                         dtohs(inputFlags&MASK_NAVHIDDEN));
   2426                 break;
   2427         }
   2428     }
   2429     if (screenSize != 0) {
   2430         if (res.size() > 0) res.append("-");
   2431         res.appendFormat("%dx%d", dtohs(screenWidth), dtohs(screenHeight));
   2432     }
   2433     if (version != 0) {
   2434         if (res.size() > 0) res.append("-");
   2435         res.appendFormat("v%d", dtohs(sdkVersion));
   2436         if (minorVersion != 0) {
   2437             res.appendFormat(".%d", dtohs(minorVersion));
   2438         }
   2439     }
   2440 
   2441     return res;
   2442 }
   2443 
   2444 // --------------------------------------------------------------------
   2445 // --------------------------------------------------------------------
   2446 // --------------------------------------------------------------------
   2447 
   2448 struct ResTable::Header
   2449 {
   2450     Header(ResTable* _owner) : owner(_owner), ownedData(NULL), header(NULL),
   2451         resourceIDMap(NULL), resourceIDMapSize(0) { }
   2452 
   2453     ~Header()
   2454     {
   2455         free(resourceIDMap);
   2456     }
   2457 
   2458     ResTable* const                 owner;
   2459     void*                           ownedData;
   2460     const ResTable_header*          header;
   2461     size_t                          size;
   2462     const uint8_t*                  dataEnd;
   2463     size_t                          index;
   2464     void*                           cookie;
   2465 
   2466     ResStringPool                   values;
   2467     uint32_t*                       resourceIDMap;
   2468     size_t                          resourceIDMapSize;
   2469 };
   2470 
   2471 struct ResTable::Type
   2472 {
   2473     Type(const Header* _header, const Package* _package, size_t count)
   2474         : header(_header), package(_package), entryCount(count),
   2475           typeSpec(NULL), typeSpecFlags(NULL) { }
   2476     const Header* const             header;
   2477     const Package* const            package;
   2478     const size_t                    entryCount;
   2479     const ResTable_typeSpec*        typeSpec;
   2480     const uint32_t*                 typeSpecFlags;
   2481     Vector<const ResTable_type*>    configs;
   2482 };
   2483 
   2484 struct ResTable::Package
   2485 {
   2486     Package(ResTable* _owner, const Header* _header, const ResTable_package* _package)
   2487         : owner(_owner), header(_header), package(_package) { }
   2488     ~Package()
   2489     {
   2490         size_t i = types.size();
   2491         while (i > 0) {
   2492             i--;
   2493             delete types[i];
   2494         }
   2495     }
   2496 
   2497     ResTable* const                 owner;
   2498     const Header* const             header;
   2499     const ResTable_package* const   package;
   2500     Vector<Type*>                   types;
   2501 
   2502     ResStringPool                   typeStrings;
   2503     ResStringPool                   keyStrings;
   2504 
   2505     const Type* getType(size_t idx) const {
   2506         return idx < types.size() ? types[idx] : NULL;
   2507     }
   2508 };
   2509 
   2510 // A group of objects describing a particular resource package.
   2511 // The first in 'package' is always the root object (from the resource
   2512 // table that defined the package); the ones after are skins on top of it.
   2513 struct ResTable::PackageGroup
   2514 {
   2515     PackageGroup(ResTable* _owner, const String16& _name, uint32_t _id)
   2516         : owner(_owner), name(_name), id(_id), typeCount(0), bags(NULL) { }
   2517     ~PackageGroup() {
   2518         clearBagCache();
   2519         const size_t N = packages.size();
   2520         for (size_t i=0; i<N; i++) {
   2521             Package* pkg = packages[i];
   2522             if (pkg->owner == owner) {
   2523                 delete pkg;
   2524             }
   2525         }
   2526     }
   2527 
   2528     void clearBagCache() {
   2529         if (bags) {
   2530             TABLE_NOISY(printf("bags=%p\n", bags));
   2531             Package* pkg = packages[0];
   2532             TABLE_NOISY(printf("typeCount=%x\n", typeCount));
   2533             for (size_t i=0; i<typeCount; i++) {
   2534                 TABLE_NOISY(printf("type=%d\n", i));
   2535                 const Type* type = pkg->getType(i);
   2536                 if (type != NULL) {
   2537                     bag_set** typeBags = bags[i];
   2538                     TABLE_NOISY(printf("typeBags=%p\n", typeBags));
   2539                     if (typeBags) {
   2540                         TABLE_NOISY(printf("type->entryCount=%x\n", type->entryCount));
   2541                         const size_t N = type->entryCount;
   2542                         for (size_t j=0; j<N; j++) {
   2543                             if (typeBags[j] && typeBags[j] != (bag_set*)0xFFFFFFFF)
   2544                                 free(typeBags[j]);
   2545                         }
   2546                         free(typeBags);
   2547                     }
   2548                 }
   2549             }
   2550             free(bags);
   2551             bags = NULL;
   2552         }
   2553     }
   2554 
   2555     ResTable* const                 owner;
   2556     String16 const                  name;
   2557     uint32_t const                  id;
   2558     Vector<Package*>                packages;
   2559 
   2560     // This is for finding typeStrings and other common package stuff.
   2561     Package*                        basePackage;
   2562 
   2563     // For quick access.
   2564     size_t                          typeCount;
   2565 
   2566     // Computed attribute bags, first indexed by the type and second
   2567     // by the entry in that type.
   2568     bag_set***                      bags;
   2569 };
   2570 
   2571 struct ResTable::bag_set
   2572 {
   2573     size_t numAttrs;    // number in array
   2574     size_t availAttrs;  // total space in array
   2575     uint32_t typeSpecFlags;
   2576     // Followed by 'numAttr' bag_entry structures.
   2577 };
   2578 
   2579 ResTable::Theme::Theme(const ResTable& table)
   2580     : mTable(table)
   2581 {
   2582     memset(mPackages, 0, sizeof(mPackages));
   2583 }
   2584 
   2585 ResTable::Theme::~Theme()
   2586 {
   2587     for (size_t i=0; i<Res_MAXPACKAGE; i++) {
   2588         package_info* pi = mPackages[i];
   2589         if (pi != NULL) {
   2590             free_package(pi);
   2591         }
   2592     }
   2593 }
   2594 
   2595 void ResTable::Theme::free_package(package_info* pi)
   2596 {
   2597     for (size_t j=0; j<pi->numTypes; j++) {
   2598         theme_entry* te = pi->types[j].entries;
   2599         if (te != NULL) {
   2600             free(te);
   2601         }
   2602     }
   2603     free(pi);
   2604 }
   2605 
   2606 ResTable::Theme::package_info* ResTable::Theme::copy_package(package_info* pi)
   2607 {
   2608     package_info* newpi = (package_info*)malloc(
   2609         sizeof(package_info) + (pi->numTypes*sizeof(type_info)));
   2610     newpi->numTypes = pi->numTypes;
   2611     for (size_t j=0; j<newpi->numTypes; j++) {
   2612         size_t cnt = pi->types[j].numEntries;
   2613         newpi->types[j].numEntries = cnt;
   2614         theme_entry* te = pi->types[j].entries;
   2615         if (te != NULL) {
   2616             theme_entry* newte = (theme_entry*)malloc(cnt*sizeof(theme_entry));
   2617             newpi->types[j].entries = newte;
   2618             memcpy(newte, te, cnt*sizeof(theme_entry));
   2619         } else {
   2620             newpi->types[j].entries = NULL;
   2621         }
   2622     }
   2623     return newpi;
   2624 }
   2625 
   2626 status_t ResTable::Theme::applyStyle(uint32_t resID, bool force)
   2627 {
   2628     const bag_entry* bag;
   2629     uint32_t bagTypeSpecFlags = 0;
   2630     mTable.lock();
   2631     const ssize_t N = mTable.getBagLocked(resID, &bag, &bagTypeSpecFlags);
   2632     TABLE_NOISY(ALOGV("Applying style 0x%08x to theme %p, count=%d", resID, this, N));
   2633     if (N < 0) {
   2634         mTable.unlock();
   2635         return N;
   2636     }
   2637 
   2638     uint32_t curPackage = 0xffffffff;
   2639     ssize_t curPackageIndex = 0;
   2640     package_info* curPI = NULL;
   2641     uint32_t curType = 0xffffffff;
   2642     size_t numEntries = 0;
   2643     theme_entry* curEntries = NULL;
   2644 
   2645     const bag_entry* end = bag + N;
   2646     while (bag < end) {
   2647         const uint32_t attrRes = bag->map.name.ident;
   2648         const uint32_t p = Res_GETPACKAGE(attrRes);
   2649         const uint32_t t = Res_GETTYPE(attrRes);
   2650         const uint32_t e = Res_GETENTRY(attrRes);
   2651 
   2652         if (curPackage != p) {
   2653             const ssize_t pidx = mTable.getResourcePackageIndex(attrRes);
   2654             if (pidx < 0) {
   2655                 ALOGE("Style contains key with bad package: 0x%08x\n", attrRes);
   2656                 bag++;
   2657                 continue;
   2658             }
   2659             curPackage = p;
   2660             curPackageIndex = pidx;
   2661             curPI = mPackages[pidx];
   2662             if (curPI == NULL) {
   2663                 PackageGroup* const grp = mTable.mPackageGroups[pidx];
   2664                 int cnt = grp->typeCount;
   2665                 curPI = (package_info*)malloc(
   2666                     sizeof(package_info) + (cnt*sizeof(type_info)));
   2667                 curPI->numTypes = cnt;
   2668                 memset(curPI->types, 0, cnt*sizeof(type_info));
   2669                 mPackages[pidx] = curPI;
   2670             }
   2671             curType = 0xffffffff;
   2672         }
   2673         if (curType != t) {
   2674             if (t >= curPI->numTypes) {
   2675                 ALOGE("Style contains key with bad type: 0x%08x\n", attrRes);
   2676                 bag++;
   2677                 continue;
   2678             }
   2679             curType = t;
   2680             curEntries = curPI->types[t].entries;
   2681             if (curEntries == NULL) {
   2682                 PackageGroup* const grp = mTable.mPackageGroups[curPackageIndex];
   2683                 const Type* type = grp->packages[0]->getType(t);
   2684                 int cnt = type != NULL ? type->entryCount : 0;
   2685                 curEntries = (theme_entry*)malloc(cnt*sizeof(theme_entry));
   2686                 memset(curEntries, Res_value::TYPE_NULL, cnt*sizeof(theme_entry));
   2687                 curPI->types[t].numEntries = cnt;
   2688                 curPI->types[t].entries = curEntries;
   2689             }
   2690             numEntries = curPI->types[t].numEntries;
   2691         }
   2692         if (e >= numEntries) {
   2693             ALOGE("Style contains key with bad entry: 0x%08x\n", attrRes);
   2694             bag++;
   2695             continue;
   2696         }
   2697         theme_entry* curEntry = curEntries + e;
   2698         TABLE_NOISY(ALOGV("Attr 0x%08x: type=0x%x, data=0x%08x; curType=0x%x",
   2699                    attrRes, bag->map.value.dataType, bag->map.value.data,
   2700              curEntry->value.dataType));
   2701         if (force || curEntry->value.dataType == Res_value::TYPE_NULL) {
   2702             curEntry->stringBlock = bag->stringBlock;
   2703             curEntry->typeSpecFlags |= bagTypeSpecFlags;
   2704             curEntry->value = bag->map.value;
   2705         }
   2706 
   2707         bag++;
   2708     }
   2709 
   2710     mTable.unlock();
   2711 
   2712     //ALOGI("Applying style 0x%08x (force=%d)  theme %p...\n", resID, force, this);
   2713     //dumpToLog();
   2714 
   2715     return NO_ERROR;
   2716 }
   2717 
   2718 status_t ResTable::Theme::setTo(const Theme& other)
   2719 {
   2720     //ALOGI("Setting theme %p from theme %p...\n", this, &other);
   2721     //dumpToLog();
   2722     //other.dumpToLog();
   2723 
   2724     if (&mTable == &other.mTable) {
   2725         for (size_t i=0; i<Res_MAXPACKAGE; i++) {
   2726             if (mPackages[i] != NULL) {
   2727                 free_package(mPackages[i]);
   2728             }
   2729             if (other.mPackages[i] != NULL) {
   2730                 mPackages[i] = copy_package(other.mPackages[i]);
   2731             } else {
   2732                 mPackages[i] = NULL;
   2733             }
   2734         }
   2735     } else {
   2736         // @todo: need to really implement this, not just copy
   2737         // the system package (which is still wrong because it isn't
   2738         // fixing up resource references).
   2739         for (size_t i=0; i<Res_MAXPACKAGE; i++) {
   2740             if (mPackages[i] != NULL) {
   2741                 free_package(mPackages[i]);
   2742             }
   2743             if (i == 0 && other.mPackages[i] != NULL) {
   2744                 mPackages[i] = copy_package(other.mPackages[i]);
   2745             } else {
   2746                 mPackages[i] = NULL;
   2747             }
   2748         }
   2749     }
   2750 
   2751     //ALOGI("Final theme:");
   2752     //dumpToLog();
   2753 
   2754     return NO_ERROR;
   2755 }
   2756 
   2757 ssize_t ResTable::Theme::getAttribute(uint32_t resID, Res_value* outValue,
   2758         uint32_t* outTypeSpecFlags) const
   2759 {
   2760     int cnt = 20;
   2761 
   2762     if (outTypeSpecFlags != NULL) *outTypeSpecFlags = 0;
   2763 
   2764     do {
   2765         const ssize_t p = mTable.getResourcePackageIndex(resID);
   2766         const uint32_t t = Res_GETTYPE(resID);
   2767         const uint32_t e = Res_GETENTRY(resID);
   2768 
   2769         TABLE_THEME(ALOGI("Looking up attr 0x%08x in theme %p", resID, this));
   2770 
   2771         if (p >= 0) {
   2772             const package_info* const pi = mPackages[p];
   2773             TABLE_THEME(ALOGI("Found package: %p", pi));
   2774             if (pi != NULL) {
   2775                 TABLE_THEME(ALOGI("Desired type index is %ld in avail %d", t, pi->numTypes));
   2776                 if (t < pi->numTypes) {
   2777                     const type_info& ti = pi->types[t];
   2778                     TABLE_THEME(ALOGI("Desired entry index is %ld in avail %d", e, ti.numEntries));
   2779                     if (e < ti.numEntries) {
   2780                         const theme_entry& te = ti.entries[e];
   2781                         if (outTypeSpecFlags != NULL) {
   2782                             *outTypeSpecFlags |= te.typeSpecFlags;
   2783                         }
   2784                         TABLE_THEME(ALOGI("Theme value: type=0x%x, data=0x%08x",
   2785                                 te.value.dataType, te.value.data));
   2786                         const uint8_t type = te.value.dataType;
   2787                         if (type == Res_value::TYPE_ATTRIBUTE) {
   2788                             if (cnt > 0) {
   2789                                 cnt--;
   2790                                 resID = te.value.data;
   2791                                 continue;
   2792                             }
   2793                             ALOGW("Too many attribute references, stopped at: 0x%08x\n", resID);
   2794                             return BAD_INDEX;
   2795                         } else if (type != Res_value::TYPE_NULL) {
   2796                             *outValue = te.value;
   2797                             return te.stringBlock;
   2798                         }
   2799                         return BAD_INDEX;
   2800                     }
   2801                 }
   2802             }
   2803         }
   2804         break;
   2805 
   2806     } while (true);
   2807 
   2808     return BAD_INDEX;
   2809 }
   2810 
   2811 ssize_t ResTable::Theme::resolveAttributeReference(Res_value* inOutValue,
   2812         ssize_t blockIndex, uint32_t* outLastRef,
   2813         uint32_t* inoutTypeSpecFlags, ResTable_config* inoutConfig) const
   2814 {
   2815     //printf("Resolving type=0x%x\n", inOutValue->dataType);
   2816     if (inOutValue->dataType == Res_value::TYPE_ATTRIBUTE) {
   2817         uint32_t newTypeSpecFlags;
   2818         blockIndex = getAttribute(inOutValue->data, inOutValue, &newTypeSpecFlags);
   2819         TABLE_THEME(ALOGI("Resolving attr reference: blockIndex=%d, type=0x%x, data=%p\n",
   2820              (int)blockIndex, (int)inOutValue->dataType, (void*)inOutValue->data));
   2821         if (inoutTypeSpecFlags != NULL) *inoutTypeSpecFlags |= newTypeSpecFlags;
   2822         //printf("Retrieved attribute new type=0x%x\n", inOutValue->dataType);
   2823         if (blockIndex < 0) {
   2824             return blockIndex;
   2825         }
   2826     }
   2827     return mTable.resolveReference(inOutValue, blockIndex, outLastRef,
   2828             inoutTypeSpecFlags, inoutConfig);
   2829 }
   2830 
   2831 void ResTable::Theme::dumpToLog() const
   2832 {
   2833     ALOGI("Theme %p:\n", this);
   2834     for (size_t i=0; i<Res_MAXPACKAGE; i++) {
   2835         package_info* pi = mPackages[i];
   2836         if (pi == NULL) continue;
   2837 
   2838         ALOGI("  Package #0x%02x:\n", (int)(i+1));
   2839         for (size_t j=0; j<pi->numTypes; j++) {
   2840             type_info& ti = pi->types[j];
   2841             if (ti.numEntries == 0) continue;
   2842 
   2843             ALOGI("    Type #0x%02x:\n", (int)(j+1));
   2844             for (size_t k=0; k<ti.numEntries; k++) {
   2845                 theme_entry& te = ti.entries[k];
   2846                 if (te.value.dataType == Res_value::TYPE_NULL) continue;
   2847                 ALOGI("      0x%08x: t=0x%x, d=0x%08x (block=%d)\n",
   2848                      (int)Res_MAKEID(i, j, k),
   2849                      te.value.dataType, (int)te.value.data, (int)te.stringBlock);
   2850             }
   2851         }
   2852     }
   2853 }
   2854 
   2855 ResTable::ResTable()
   2856     : mError(NO_INIT)
   2857 {
   2858     memset(&mParams, 0, sizeof(mParams));
   2859     memset(mPackageMap, 0, sizeof(mPackageMap));
   2860     //ALOGI("Creating ResTable %p\n", this);
   2861 }
   2862 
   2863 ResTable::ResTable(const void* data, size_t size, void* cookie, bool copyData)
   2864     : mError(NO_INIT)
   2865 {
   2866     memset(&mParams, 0, sizeof(mParams));
   2867     memset(mPackageMap, 0, sizeof(mPackageMap));
   2868     add(data, size, cookie, copyData);
   2869     LOG_FATAL_IF(mError != NO_ERROR, "Error parsing resource table");
   2870     //ALOGI("Creating ResTable %p\n", this);
   2871 }
   2872 
   2873 ResTable::~ResTable()
   2874 {
   2875     //ALOGI("Destroying ResTable in %p\n", this);
   2876     uninit();
   2877 }
   2878 
   2879 inline ssize_t ResTable::getResourcePackageIndex(uint32_t resID) const
   2880 {
   2881     return ((ssize_t)mPackageMap[Res_GETPACKAGE(resID)+1])-1;
   2882 }
   2883 
   2884 status_t ResTable::add(const void* data, size_t size, void* cookie, bool copyData,
   2885                        const void* idmap)
   2886 {
   2887     return add(data, size, cookie, NULL, copyData, reinterpret_cast<const Asset*>(idmap));
   2888 }
   2889 
   2890 status_t ResTable::add(Asset* asset, void* cookie, bool copyData, const void* idmap)
   2891 {
   2892     const void* data = asset->getBuffer(true);
   2893     if (data == NULL) {
   2894         ALOGW("Unable to get buffer of resource asset file");
   2895         return UNKNOWN_ERROR;
   2896     }
   2897     size_t size = (size_t)asset->getLength();
   2898     return add(data, size, cookie, asset, copyData, reinterpret_cast<const Asset*>(idmap));
   2899 }
   2900 
   2901 status_t ResTable::add(ResTable* src)
   2902 {
   2903     mError = src->mError;
   2904 
   2905     for (size_t i=0; i<src->mHeaders.size(); i++) {
   2906         mHeaders.add(src->mHeaders[i]);
   2907     }
   2908 
   2909     for (size_t i=0; i<src->mPackageGroups.size(); i++) {
   2910         PackageGroup* srcPg = src->mPackageGroups[i];
   2911         PackageGroup* pg = new PackageGroup(this, srcPg->name, srcPg->id);
   2912         for (size_t j=0; j<srcPg->packages.size(); j++) {
   2913             pg->packages.add(srcPg->packages[j]);
   2914         }
   2915         pg->basePackage = srcPg->basePackage;
   2916         pg->typeCount = srcPg->typeCount;
   2917         mPackageGroups.add(pg);
   2918     }
   2919 
   2920     memcpy(mPackageMap, src->mPackageMap, sizeof(mPackageMap));
   2921 
   2922     return mError;
   2923 }
   2924 
   2925 status_t ResTable::add(const void* data, size_t size, void* cookie,
   2926                        Asset* asset, bool copyData, const Asset* idmap)
   2927 {
   2928     if (!data) return NO_ERROR;
   2929     Header* header = new Header(this);
   2930     header->index = mHeaders.size();
   2931     header->cookie = cookie;
   2932     if (idmap != NULL) {
   2933         const size_t idmap_size = idmap->getLength();
   2934         const void* idmap_data = const_cast<Asset*>(idmap)->getBuffer(true);
   2935         header->resourceIDMap = (uint32_t*)malloc(idmap_size);
   2936         if (header->resourceIDMap == NULL) {
   2937             delete header;
   2938             return (mError = NO_MEMORY);
   2939         }
   2940         memcpy((void*)header->resourceIDMap, idmap_data, idmap_size);
   2941         header->resourceIDMapSize = idmap_size;
   2942     }
   2943     mHeaders.add(header);
   2944 
   2945     const bool notDeviceEndian = htods(0xf0) != 0xf0;
   2946 
   2947     LOAD_TABLE_NOISY(
   2948         ALOGV("Adding resources to ResTable: data=%p, size=0x%x, cookie=%p, asset=%p, copy=%d "
   2949              "idmap=%p\n", data, size, cookie, asset, copyData, idmap));
   2950 
   2951     if (copyData || notDeviceEndian) {
   2952         header->ownedData = malloc(size);
   2953         if (header->ownedData == NULL) {
   2954             return (mError=NO_MEMORY);
   2955         }
   2956         memcpy(header->ownedData, data, size);
   2957         data = header->ownedData;
   2958     }
   2959 
   2960     header->header = (const ResTable_header*)data;
   2961     header->size = dtohl(header->header->header.size);
   2962     //ALOGI("Got size 0x%x, again size 0x%x, raw size 0x%x\n", header->size,
   2963     //     dtohl(header->header->header.size), header->header->header.size);
   2964     LOAD_TABLE_NOISY(ALOGV("Loading ResTable @%p:\n", header->header));
   2965     LOAD_TABLE_NOISY(printHexData(2, header->header, header->size < 256 ? header->size : 256,
   2966                                   16, 16, 0, false, printToLogFunc));
   2967     if (dtohs(header->header->header.headerSize) > header->size
   2968             || header->size > size) {
   2969         ALOGW("Bad resource table: header size 0x%x or total size 0x%x is larger than data size 0x%x\n",
   2970              (int)dtohs(header->header->header.headerSize),
   2971              (int)header->size, (int)size);
   2972         return (mError=BAD_TYPE);
   2973     }
   2974     if (((dtohs(header->header->header.headerSize)|header->size)&0x3) != 0) {
   2975         ALOGW("Bad resource table: header size 0x%x or total size 0x%x is not on an integer boundary\n",
   2976              (int)dtohs(header->header->header.headerSize),
   2977              (int)header->size);
   2978         return (mError=BAD_TYPE);
   2979     }
   2980     header->dataEnd = ((const uint8_t*)header->header) + header->size;
   2981 
   2982     // Iterate through all chunks.
   2983     size_t curPackage = 0;
   2984 
   2985     const ResChunk_header* chunk =
   2986         (const ResChunk_header*)(((const uint8_t*)header->header)
   2987                                  + dtohs(header->header->header.headerSize));
   2988     while (((const uint8_t*)chunk) <= (header->dataEnd-sizeof(ResChunk_header)) &&
   2989            ((const uint8_t*)chunk) <= (header->dataEnd-dtohl(chunk->size))) {
   2990         status_t err = validate_chunk(chunk, sizeof(ResChunk_header), header->dataEnd, "ResTable");
   2991         if (err != NO_ERROR) {
   2992             return (mError=err);
   2993         }
   2994         TABLE_NOISY(ALOGV("Chunk: type=0x%x, headerSize=0x%x, size=0x%x, pos=%p\n",
   2995                      dtohs(chunk->type), dtohs(chunk->headerSize), dtohl(chunk->size),
   2996                      (void*)(((const uint8_t*)chunk) - ((const uint8_t*)header->header))));
   2997         const size_t csize = dtohl(chunk->size);
   2998         const uint16_t ctype = dtohs(chunk->type);
   2999         if (ctype == RES_STRING_POOL_TYPE) {
   3000             if (header->values.getError() != NO_ERROR) {
   3001                 // Only use the first string chunk; ignore any others that
   3002                 // may appear.
   3003                 status_t err = header->values.setTo(chunk, csize);
   3004                 if (err != NO_ERROR) {
   3005                     return (mError=err);
   3006                 }
   3007             } else {
   3008                 ALOGW("Multiple string chunks found in resource table.");
   3009             }
   3010         } else if (ctype == RES_TABLE_PACKAGE_TYPE) {
   3011             if (curPackage >= dtohl(header->header->packageCount)) {
   3012                 ALOGW("More package chunks were found than the %d declared in the header.",
   3013                      dtohl(header->header->packageCount));
   3014                 return (mError=BAD_TYPE);
   3015             }
   3016             uint32_t idmap_id = 0;
   3017             if (idmap != NULL) {
   3018                 uint32_t tmp;
   3019                 if (getIdmapPackageId(header->resourceIDMap,
   3020                                       header->resourceIDMapSize,
   3021                                       &tmp) == NO_ERROR) {
   3022                     idmap_id = tmp;
   3023                 }
   3024             }
   3025             if (parsePackage((ResTable_package*)chunk, header, idmap_id) != NO_ERROR) {
   3026                 return mError;
   3027             }
   3028             curPackage++;
   3029         } else {
   3030             ALOGW("Unknown chunk type %p in table at %p.\n",
   3031                  (void*)(int)(ctype),
   3032                  (void*)(((const uint8_t*)chunk) - ((const uint8_t*)header->header)));
   3033         }
   3034         chunk = (const ResChunk_header*)
   3035             (((const uint8_t*)chunk) + csize);
   3036     }
   3037 
   3038     if (curPackage < dtohl(header->header->packageCount)) {
   3039         ALOGW("Fewer package chunks (%d) were found than the %d declared in the header.",
   3040              (int)curPackage, dtohl(header->header->packageCount));
   3041         return (mError=BAD_TYPE);
   3042     }
   3043     mError = header->values.getError();
   3044     if (mError != NO_ERROR) {
   3045         ALOGW("No string values found in resource table!");
   3046     }
   3047 
   3048     TABLE_NOISY(ALOGV("Returning from add with mError=%d\n", mError));
   3049     return mError;
   3050 }
   3051 
   3052 status_t ResTable::getError() const
   3053 {
   3054     return mError;
   3055 }
   3056 
   3057 void ResTable::uninit()
   3058 {
   3059     mError = NO_INIT;
   3060     size_t N = mPackageGroups.size();
   3061     for (size_t i=0; i<N; i++) {
   3062         PackageGroup* g = mPackageGroups[i];
   3063         delete g;
   3064     }
   3065     N = mHeaders.size();
   3066     for (size_t i=0; i<N; i++) {
   3067         Header* header = mHeaders[i];
   3068         if (header->owner == this) {
   3069             if (header->ownedData) {
   3070                 free(header->ownedData);
   3071             }
   3072             delete header;
   3073         }
   3074     }
   3075 
   3076     mPackageGroups.clear();
   3077     mHeaders.clear();
   3078 }
   3079 
   3080 bool ResTable::getResourceName(uint32_t resID, bool allowUtf8, resource_name* outName) const
   3081 {
   3082     if (mError != NO_ERROR) {
   3083         return false;
   3084     }
   3085 
   3086     const ssize_t p = getResourcePackageIndex(resID);
   3087     const int t = Res_GETTYPE(resID);
   3088     const int e = Res_GETENTRY(resID);
   3089 
   3090     if (p < 0) {
   3091         if (Res_GETPACKAGE(resID)+1 == 0) {
   3092             ALOGW("No package identifier when getting name for resource number 0x%08x", resID);
   3093         } else {
   3094             ALOGW("No known package when getting name for resource number 0x%08x", resID);
   3095         }
   3096         return false;
   3097     }
   3098     if (t < 0) {
   3099         ALOGW("No type identifier when getting name for resource number 0x%08x", resID);
   3100         return false;
   3101     }
   3102 
   3103     const PackageGroup* const grp = mPackageGroups[p];
   3104     if (grp == NULL) {
   3105         ALOGW("Bad identifier when getting name for resource number 0x%08x", resID);
   3106         return false;
   3107     }
   3108     if (grp->packages.size() > 0) {
   3109         const Package* const package = grp->packages[0];
   3110 
   3111         const ResTable_type* type;
   3112         const ResTable_entry* entry;
   3113         ssize_t offset = getEntry(package, t, e, NULL, &type, &entry, NULL);
   3114         if (offset <= 0) {
   3115             return false;
   3116         }
   3117 
   3118         outName->package = grp->name.string();
   3119         outName->packageLen = grp->name.size();
   3120         if (allowUtf8) {
   3121             outName->type8 = grp->basePackage->typeStrings.string8At(t, &outName->typeLen);
   3122             outName->name8 = grp->basePackage->keyStrings.string8At(
   3123                 dtohl(entry->key.index), &outName->nameLen);
   3124         } else {
   3125             outName->type8 = NULL;
   3126             outName->name8 = NULL;
   3127         }
   3128         if (outName->type8 == NULL) {
   3129             outName->type = grp->basePackage->typeStrings.stringAt(t, &outName->typeLen);
   3130             // If we have a bad index for some reason, we should abort.
   3131             if (outName->type == NULL) {
   3132                 return false;
   3133             }
   3134         }
   3135         if (outName->name8 == NULL) {
   3136             outName->name = grp->basePackage->keyStrings.stringAt(
   3137                 dtohl(entry->key.index), &outName->nameLen);
   3138             // If we have a bad index for some reason, we should abort.
   3139             if (outName->name == NULL) {
   3140                 return false;
   3141             }
   3142         }
   3143 
   3144         return true;
   3145     }
   3146 
   3147     return false;
   3148 }
   3149 
   3150 ssize_t ResTable::getResource(uint32_t resID, Res_value* outValue, bool mayBeBag, uint16_t density,
   3151         uint32_t* outSpecFlags, ResTable_config* outConfig) const
   3152 {
   3153     if (mError != NO_ERROR) {
   3154         return mError;
   3155     }
   3156 
   3157     const ssize_t p = getResourcePackageIndex(resID);
   3158     const int t = Res_GETTYPE(resID);
   3159     const int e = Res_GETENTRY(resID);
   3160 
   3161     if (p < 0) {
   3162         if (Res_GETPACKAGE(resID)+1 == 0) {
   3163             ALOGW("No package identifier when getting value for resource number 0x%08x", resID);
   3164         } else {
   3165             ALOGW("No known package when getting value for resource number 0x%08x", resID);
   3166         }
   3167         return BAD_INDEX;
   3168     }
   3169     if (t < 0) {
   3170         ALOGW("No type identifier when getting value for resource number 0x%08x", resID);
   3171         return BAD_INDEX;
   3172     }
   3173 
   3174     const Res_value* bestValue = NULL;
   3175     const Package* bestPackage = NULL;
   3176     ResTable_config bestItem;
   3177     memset(&bestItem, 0, sizeof(bestItem)); // make the compiler shut up
   3178 
   3179     if (outSpecFlags != NULL) *outSpecFlags = 0;
   3180 
   3181     // Look through all resource packages, starting with the most
   3182     // recently added.
   3183     const PackageGroup* const grp = mPackageGroups[p];
   3184     if (grp == NULL) {
   3185         ALOGW("Bad identifier when getting value for resource number 0x%08x", resID);
   3186         return BAD_INDEX;
   3187     }
   3188 
   3189     // Allow overriding density
   3190     const ResTable_config* desiredConfig = &mParams;
   3191     ResTable_config* overrideConfig = NULL;
   3192     if (density > 0) {
   3193         overrideConfig = (ResTable_config*) malloc(sizeof(ResTable_config));
   3194         if (overrideConfig == NULL) {
   3195             ALOGE("Couldn't malloc ResTable_config for overrides: %s", strerror(errno));
   3196             return BAD_INDEX;
   3197         }
   3198         memcpy(overrideConfig, &mParams, sizeof(ResTable_config));
   3199         overrideConfig->density = density;
   3200         desiredConfig = overrideConfig;
   3201     }
   3202 
   3203     ssize_t rc = BAD_VALUE;
   3204     size_t ip = grp->packages.size();
   3205     while (ip > 0) {
   3206         ip--;
   3207         int T = t;
   3208         int E = e;
   3209 
   3210         const Package* const package = grp->packages[ip];
   3211         if (package->header->resourceIDMap) {
   3212             uint32_t overlayResID = 0x0;
   3213             status_t retval = idmapLookup(package->header->resourceIDMap,
   3214                                           package->header->resourceIDMapSize,
   3215                                           resID, &overlayResID);
   3216             if (retval == NO_ERROR && overlayResID != 0x0) {
   3217                 // for this loop iteration, this is the type and entry we really want
   3218                 ALOGV("resource map 0x%08x -> 0x%08x\n", resID, overlayResID);
   3219                 T = Res_GETTYPE(overlayResID);
   3220                 E = Res_GETENTRY(overlayResID);
   3221             } else {
   3222                 // resource not present in overlay package, continue with the next package
   3223                 continue;
   3224             }
   3225         }
   3226 
   3227         const ResTable_type* type;
   3228         const ResTable_entry* entry;
   3229         const Type* typeClass;
   3230         ssize_t offset = getEntry(package, T, E, desiredConfig, &type, &entry, &typeClass);
   3231         if (offset <= 0) {
   3232             // No {entry, appropriate config} pair found in package. If this
   3233             // package is an overlay package (ip != 0), this simply means the
   3234             // overlay package did not specify a default.
   3235             // Non-overlay packages are still required to provide a default.
   3236             if (offset < 0 && ip == 0) {
   3237                 ALOGW("Failure getting entry for 0x%08x (t=%d e=%d) in package %zd (error %d)\n",
   3238                         resID, T, E, ip, (int)offset);
   3239                 rc = offset;
   3240                 goto out;
   3241             }
   3242             continue;
   3243         }
   3244 
   3245         if ((dtohs(entry->flags)&entry->FLAG_COMPLEX) != 0) {
   3246             if (!mayBeBag) {
   3247                 ALOGW("Requesting resource %p failed because it is complex\n",
   3248                      (void*)resID);
   3249             }
   3250             continue;
   3251         }
   3252 
   3253         TABLE_NOISY(aout << "Resource type data: "
   3254               << HexDump(type, dtohl(type->header.size)) << endl);
   3255 
   3256         if ((size_t)offset > (dtohl(type->header.size)-sizeof(Res_value))) {
   3257             ALOGW("ResTable_item at %d is beyond type chunk data %d",
   3258                  (int)offset, dtohl(type->header.size));
   3259             rc = BAD_TYPE;
   3260             goto out;
   3261         }
   3262 
   3263         const Res_value* item =
   3264             (const Res_value*)(((const uint8_t*)type) + offset);
   3265         ResTable_config thisConfig;
   3266         thisConfig.copyFromDtoH(type->config);
   3267 
   3268         if (outSpecFlags != NULL) {
   3269             if (typeClass->typeSpecFlags != NULL) {
   3270                 *outSpecFlags |= dtohl(typeClass->typeSpecFlags[E]);
   3271             } else {
   3272                 *outSpecFlags = -1;
   3273             }
   3274         }
   3275 
   3276         if (bestPackage != NULL &&
   3277             (bestItem.isMoreSpecificThan(thisConfig) || bestItem.diff(thisConfig) == 0)) {
   3278             // Discard thisConfig not only if bestItem is more specific, but also if the two configs
   3279             // are identical (diff == 0), or overlay packages will not take effect.
   3280             continue;
   3281         }
   3282 
   3283         bestItem = thisConfig;
   3284         bestValue = item;
   3285         bestPackage = package;
   3286     }
   3287 
   3288     TABLE_NOISY(printf("Found result: package %p\n", bestPackage));
   3289 
   3290     if (bestValue) {
   3291         outValue->size = dtohs(bestValue->size);
   3292         outValue->res0 = bestValue->res0;
   3293         outValue->dataType = bestValue->dataType;
   3294         outValue->data = dtohl(bestValue->data);
   3295         if (outConfig != NULL) {
   3296             *outConfig = bestItem;
   3297         }
   3298         TABLE_NOISY(size_t len;
   3299               printf("Found value: pkg=%d, type=%d, str=%s, int=%d\n",
   3300                      bestPackage->header->index,
   3301                      outValue->dataType,
   3302                      outValue->dataType == bestValue->TYPE_STRING
   3303                      ? String8(bestPackage->header->values.stringAt(
   3304                          outValue->data, &len)).string()
   3305                      : "",
   3306                      outValue->data));
   3307         rc = bestPackage->header->index;
   3308         goto out;
   3309     }
   3310 
   3311 out:
   3312     if (overrideConfig != NULL) {
   3313         free(overrideConfig);
   3314     }
   3315 
   3316     return rc;
   3317 }
   3318 
   3319 ssize_t ResTable::resolveReference(Res_value* value, ssize_t blockIndex,
   3320         uint32_t* outLastRef, uint32_t* inoutTypeSpecFlags,
   3321         ResTable_config* outConfig) const
   3322 {
   3323     int count=0;
   3324     while (blockIndex >= 0 && value->dataType == value->TYPE_REFERENCE
   3325            && value->data != 0 && count < 20) {
   3326         if (outLastRef) *outLastRef = value->data;
   3327         uint32_t lastRef = value->data;
   3328         uint32_t newFlags = 0;
   3329         const ssize_t newIndex = getResource(value->data, value, true, 0, &newFlags,
   3330                 outConfig);
   3331         if (newIndex == BAD_INDEX) {
   3332             return BAD_INDEX;
   3333         }
   3334         TABLE_THEME(ALOGI("Resolving reference %p: newIndex=%d, type=0x%x, data=%p\n",
   3335              (void*)lastRef, (int)newIndex, (int)value->dataType, (void*)value->data));
   3336         //printf("Getting reference 0x%08x: newIndex=%d\n", value->data, newIndex);
   3337         if (inoutTypeSpecFlags != NULL) *inoutTypeSpecFlags |= newFlags;
   3338         if (newIndex < 0) {
   3339             // This can fail if the resource being referenced is a style...
   3340             // in this case, just return the reference, and expect the
   3341             // caller to deal with.
   3342             return blockIndex;
   3343         }
   3344         blockIndex = newIndex;
   3345         count++;
   3346     }
   3347     return blockIndex;
   3348 }
   3349 
   3350 const char16_t* ResTable::valueToString(
   3351     const Res_value* value, size_t stringBlock,
   3352     char16_t tmpBuffer[TMP_BUFFER_SIZE], size_t* outLen)
   3353 {
   3354     if (!value) {
   3355         return NULL;
   3356     }
   3357     if (value->dataType == value->TYPE_STRING) {
   3358         return getTableStringBlock(stringBlock)->stringAt(value->data, outLen);
   3359     }
   3360     // XXX do int to string conversions.
   3361     return NULL;
   3362 }
   3363 
   3364 ssize_t ResTable::lockBag(uint32_t resID, const bag_entry** outBag) const
   3365 {
   3366     mLock.lock();
   3367     ssize_t err = getBagLocked(resID, outBag);
   3368     if (err < NO_ERROR) {
   3369         //printf("*** get failed!  unlocking\n");
   3370         mLock.unlock();
   3371     }
   3372     return err;
   3373 }
   3374 
   3375 void ResTable::unlockBag(const bag_entry* bag) const
   3376 {
   3377     //printf("<<< unlockBag %p\n", this);
   3378     mLock.unlock();
   3379 }
   3380 
   3381 void ResTable::lock() const
   3382 {
   3383     mLock.lock();
   3384 }
   3385 
   3386 void ResTable::unlock() const
   3387 {
   3388     mLock.unlock();
   3389 }
   3390 
   3391 ssize_t ResTable::getBagLocked(uint32_t resID, const bag_entry** outBag,
   3392         uint32_t* outTypeSpecFlags) const
   3393 {
   3394     if (mError != NO_ERROR) {
   3395         return mError;
   3396     }
   3397 
   3398     const ssize_t p = getResourcePackageIndex(resID);
   3399     const int t = Res_GETTYPE(resID);
   3400     const int e = Res_GETENTRY(resID);
   3401 
   3402     if (p < 0) {
   3403         ALOGW("Invalid package identifier when getting bag for resource number 0x%08x", resID);
   3404         return BAD_INDEX;
   3405     }
   3406     if (t < 0) {
   3407         ALOGW("No type identifier when getting bag for resource number 0x%08x", resID);
   3408         return BAD_INDEX;
   3409     }
   3410 
   3411     //printf("Get bag: id=0x%08x, p=%d, t=%d\n", resID, p, t);
   3412     PackageGroup* const grp = mPackageGroups[p];
   3413     if (grp == NULL) {
   3414         ALOGW("Bad identifier when getting bag for resource number 0x%08x", resID);
   3415         return false;
   3416     }
   3417 
   3418     if (t >= (int)grp->typeCount) {
   3419         ALOGW("Type identifier 0x%x is larger than type count 0x%x",
   3420              t+1, (int)grp->typeCount);
   3421         return BAD_INDEX;
   3422     }
   3423 
   3424     const Package* const basePackage = grp->packages[0];
   3425 
   3426     const Type* const typeConfigs = basePackage->getType(t);
   3427 
   3428     const size_t NENTRY = typeConfigs->entryCount;
   3429     if (e >= (int)NENTRY) {
   3430         ALOGW("Entry identifier 0x%x is larger than entry count 0x%x",
   3431              e, (int)typeConfigs->entryCount);
   3432         return BAD_INDEX;
   3433     }
   3434 
   3435     // First see if we've already computed this bag...
   3436     if (grp->bags) {
   3437         bag_set** typeSet = grp->bags[t];
   3438         if (typeSet) {
   3439             bag_set* set = typeSet[e];
   3440             if (set) {
   3441                 if (set != (bag_set*)0xFFFFFFFF) {
   3442                     if (outTypeSpecFlags != NULL) {
   3443                         *outTypeSpecFlags = set->typeSpecFlags;
   3444                     }
   3445                     *outBag = (bag_entry*)(set+1);
   3446                     //ALOGI("Found existing bag for: %p\n", (void*)resID);
   3447                     return set->numAttrs;
   3448                 }
   3449                 ALOGW("Attempt to retrieve bag 0x%08x which is invalid or in a cycle.",
   3450                      resID);
   3451                 return BAD_INDEX;
   3452             }
   3453         }
   3454     }
   3455 
   3456     // Bag not found, we need to compute it!
   3457     if (!grp->bags) {
   3458         grp->bags = (bag_set***)calloc(grp->typeCount, sizeof(bag_set*));
   3459         if (!grp->bags) return NO_MEMORY;
   3460     }
   3461 
   3462     bag_set** typeSet = grp->bags[t];
   3463     if (!typeSet) {
   3464         typeSet = (bag_set**)calloc(NENTRY, sizeof(bag_set*));
   3465         if (!typeSet) return NO_MEMORY;
   3466         grp->bags[t] = typeSet;
   3467     }
   3468 
   3469     // Mark that we are currently working on this one.
   3470     typeSet[e] = (bag_set*)0xFFFFFFFF;
   3471 
   3472     // This is what we are building.
   3473     bag_set* set = NULL;
   3474 
   3475     TABLE_NOISY(ALOGI("Building bag: %p\n", (void*)resID));
   3476 
   3477     ResTable_config bestConfig;
   3478     memset(&bestConfig, 0, sizeof(bestConfig));
   3479 
   3480     // Now collect all bag attributes from all packages.
   3481     size_t ip = grp->packages.size();
   3482     while (ip > 0) {
   3483         ip--;
   3484         int T = t;
   3485         int E = e;
   3486 
   3487         const Package* const package = grp->packages[ip];
   3488         if (package->header->resourceIDMap) {
   3489             uint32_t overlayResID = 0x0;
   3490             status_t retval = idmapLookup(package->header->resourceIDMap,
   3491                                           package->header->resourceIDMapSize,
   3492                                           resID, &overlayResID);
   3493             if (retval == NO_ERROR && overlayResID != 0x0) {
   3494                 // for this loop iteration, this is the type and entry we really want
   3495                 ALOGV("resource map 0x%08x -> 0x%08x\n", resID, overlayResID);
   3496                 T = Res_GETTYPE(overlayResID);
   3497                 E = Res_GETENTRY(overlayResID);
   3498             } else {
   3499                 // resource not present in overlay package, continue with the next package
   3500                 continue;
   3501             }
   3502         }
   3503 
   3504         const ResTable_type* type;
   3505         const ResTable_entry* entry;
   3506         const Type* typeClass;
   3507         ALOGV("Getting entry pkg=%p, t=%d, e=%d\n", package, T, E);
   3508         ssize_t offset = getEntry(package, T, E, &mParams, &type, &entry, &typeClass);
   3509         ALOGV("Resulting offset=%d\n", offset);
   3510         if (offset <= 0) {
   3511             // No {entry, appropriate config} pair found in package. If this
   3512             // package is an overlay package (ip != 0), this simply means the
   3513             // overlay package did not specify a default.
   3514             // Non-overlay packages are still required to provide a default.
   3515             if (offset < 0 && ip == 0) {
   3516                 if (set) free(set);
   3517                 return offset;
   3518             }
   3519             continue;
   3520         }
   3521 
   3522         if ((dtohs(entry->flags)&entry->FLAG_COMPLEX) == 0) {
   3523             ALOGW("Skipping entry %p in package table %d because it is not complex!\n",
   3524                  (void*)resID, (int)ip);
   3525             continue;
   3526         }
   3527 
   3528         if (set != NULL && !type->config.isBetterThan(bestConfig, NULL)) {
   3529             continue;
   3530         }
   3531         bestConfig = type->config;
   3532         if (set) {
   3533             free(set);
   3534             set = NULL;
   3535         }
   3536 
   3537         const uint16_t entrySize = dtohs(entry->size);
   3538         const uint32_t parent = entrySize >= sizeof(ResTable_map_entry)
   3539             ? dtohl(((const ResTable_map_entry*)entry)->parent.ident) : 0;
   3540         const uint32_t count = entrySize >= sizeof(ResTable_map_entry)
   3541             ? dtohl(((const ResTable_map_entry*)entry)->count) : 0;
   3542 
   3543         size_t N = count;
   3544 
   3545         TABLE_NOISY(ALOGI("Found map: size=%p parent=%p count=%d\n",
   3546                          entrySize, parent, count));
   3547 
   3548         // If this map inherits from another, we need to start
   3549         // with its parent's values.  Otherwise start out empty.
   3550         TABLE_NOISY(printf("Creating new bag, entrySize=0x%08x, parent=0x%08x\n",
   3551                            entrySize, parent));
   3552         if (parent) {
   3553             const bag_entry* parentBag;
   3554             uint32_t parentTypeSpecFlags = 0;
   3555             const ssize_t NP = getBagLocked(parent, &parentBag, &parentTypeSpecFlags);
   3556             const size_t NT = ((NP >= 0) ? NP : 0) + N;
   3557             set = (bag_set*)malloc(sizeof(bag_set)+sizeof(bag_entry)*NT);
   3558             if (set == NULL) {
   3559                 return NO_MEMORY;
   3560             }
   3561             if (NP > 0) {
   3562                 memcpy(set+1, parentBag, NP*sizeof(bag_entry));
   3563                 set->numAttrs = NP;
   3564                 TABLE_NOISY(ALOGI("Initialized new bag with %d inherited attributes.\n", NP));
   3565             } else {
   3566                 TABLE_NOISY(ALOGI("Initialized new bag with no inherited attributes.\n"));
   3567                 set->numAttrs = 0;
   3568             }
   3569             set->availAttrs = NT;
   3570             set->typeSpecFlags = parentTypeSpecFlags;
   3571         } else {
   3572             set = (bag_set*)malloc(sizeof(bag_set)+sizeof(bag_entry)*N);
   3573             if (set == NULL) {
   3574                 return NO_MEMORY;
   3575             }
   3576             set->numAttrs = 0;
   3577             set->availAttrs = N;
   3578             set->typeSpecFlags = 0;
   3579         }
   3580 
   3581         if (typeClass->typeSpecFlags != NULL) {
   3582             set->typeSpecFlags |= dtohl(typeClass->typeSpecFlags[E]);
   3583         } else {
   3584             set->typeSpecFlags = -1;
   3585         }
   3586 
   3587         // Now merge in the new attributes...
   3588         ssize_t curOff = offset;
   3589         const ResTable_map* map;
   3590         bag_entry* entries = (bag_entry*)(set+1);
   3591         size_t curEntry = 0;
   3592         uint32_t pos = 0;
   3593         TABLE_NOISY(ALOGI("Starting with set %p, entries=%p, avail=%d\n",
   3594                      set, entries, set->availAttrs));
   3595         while (pos < count) {
   3596             TABLE_NOISY(printf("Now at %p\n", (void*)curOff));
   3597 
   3598             if ((size_t)curOff > (dtohl(type->header.size)-sizeof(ResTable_map))) {
   3599                 ALOGW("ResTable_map at %d is beyond type chunk data %d",
   3600                      (int)curOff, dtohl(type->header.size));
   3601                 return BAD_TYPE;
   3602             }
   3603             map = (const ResTable_map*)(((const uint8_t*)type) + curOff);
   3604             N++;
   3605 
   3606             const uint32_t newName = htodl(map->name.ident);
   3607             bool isInside;
   3608             uint32_t oldName = 0;
   3609             while ((isInside=(curEntry < set->numAttrs))
   3610                     && (oldName=entries[curEntry].map.name.ident) < newName) {
   3611                 TABLE_NOISY(printf("#%d: Keeping existing attribute: 0x%08x\n",
   3612                              curEntry, entries[curEntry].map.name.ident));
   3613                 curEntry++;
   3614             }
   3615 
   3616             if ((!isInside) || oldName != newName) {
   3617                 // This is a new attribute...  figure out what to do with it.
   3618                 if (set->numAttrs >= set->availAttrs) {
   3619                     // Need to alloc more memory...
   3620                     const size_t newAvail = set->availAttrs+N;
   3621                     set = (bag_set*)realloc(set,
   3622                                             sizeof(bag_set)
   3623                                             + sizeof(bag_entry)*newAvail);
   3624                     if (set == NULL) {
   3625                         return NO_MEMORY;
   3626                     }
   3627                     set->availAttrs = newAvail;
   3628                     entries = (bag_entry*)(set+1);
   3629                     TABLE_NOISY(printf("Reallocated set %p, entries=%p, avail=%d\n",
   3630                                  set, entries, set->availAttrs));
   3631                 }
   3632                 if (isInside) {
   3633                     // Going in the middle, need to make space.
   3634                     memmove(entries+curEntry+1, entries+curEntry,
   3635                             sizeof(bag_entry)*(set->numAttrs-curEntry));
   3636                     set->numAttrs++;
   3637                 }
   3638                 TABLE_NOISY(printf("#%d: Inserting new attribute: 0x%08x\n",
   3639                              curEntry, newName));
   3640             } else {
   3641                 TABLE_NOISY(printf("#%d: Replacing existing attribute: 0x%08x\n",
   3642                              curEntry, oldName));
   3643             }
   3644 
   3645             bag_entry* cur = entries+curEntry;
   3646 
   3647             cur->stringBlock = package->header->index;
   3648             cur->map.name.ident = newName;
   3649             cur->map.value.copyFrom_dtoh(map->value);
   3650             TABLE_NOISY(printf("Setting entry #%d %p: block=%d, name=0x%08x, type=%d, data=0x%08x\n",
   3651                          curEntry, cur, cur->stringBlock, cur->map.name.ident,
   3652                          cur->map.value.dataType, cur->map.value.data));
   3653 
   3654             // On to the next!
   3655             curEntry++;
   3656             pos++;
   3657             const size_t size = dtohs(map->value.size);
   3658             curOff += size + sizeof(*map)-sizeof(map->value);
   3659         };
   3660         if (curEntry > set->numAttrs) {
   3661             set->numAttrs = curEntry;
   3662         }
   3663     }
   3664 
   3665     // And this is it...
   3666     typeSet[e] = set;
   3667     if (set) {
   3668         if (outTypeSpecFlags != NULL) {
   3669             *outTypeSpecFlags = set->typeSpecFlags;
   3670         }
   3671         *outBag = (bag_entry*)(set+1);
   3672         TABLE_NOISY(ALOGI("Returning %d attrs\n", set->numAttrs));
   3673         return set->numAttrs;
   3674     }
   3675     return BAD_INDEX;
   3676 }
   3677 
   3678 void ResTable::setParameters(const ResTable_config* params)
   3679 {
   3680     mLock.lock();
   3681     TABLE_GETENTRY(ALOGI("Setting parameters: %s\n", params->toString().string()));
   3682     mParams = *params;
   3683     for (size_t i=0; i<mPackageGroups.size(); i++) {
   3684         TABLE_NOISY(ALOGI("CLEARING BAGS FOR GROUP %d!", i));
   3685         mPackageGroups[i]->clearBagCache();
   3686     }
   3687     mLock.unlock();
   3688 }
   3689 
   3690 void ResTable::getParameters(ResTable_config* params) const
   3691 {
   3692     mLock.lock();
   3693     *params = mParams;
   3694     mLock.unlock();
   3695 }
   3696 
   3697 struct id_name_map {
   3698     uint32_t id;
   3699     size_t len;
   3700     char16_t name[6];
   3701 };
   3702 
   3703 const static id_name_map ID_NAMES[] = {
   3704     { ResTable_map::ATTR_TYPE,  5, { '^', 't', 'y', 'p', 'e' } },
   3705     { ResTable_map::ATTR_L10N,  5, { '^', 'l', '1', '0', 'n' } },
   3706     { ResTable_map::ATTR_MIN,   4, { '^', 'm', 'i', 'n' } },
   3707     { ResTable_map::ATTR_MAX,   4, { '^', 'm', 'a', 'x' } },
   3708     { ResTable_map::ATTR_OTHER, 6, { '^', 'o', 't', 'h', 'e', 'r' } },
   3709     { ResTable_map::ATTR_ZERO,  5, { '^', 'z', 'e', 'r', 'o' } },
   3710     { ResTable_map::ATTR_ONE,   4, { '^', 'o', 'n', 'e' } },
   3711     { ResTable_map::ATTR_TWO,   4, { '^', 't', 'w', 'o' } },
   3712     { ResTable_map::ATTR_FEW,   4, { '^', 'f', 'e', 'w' } },
   3713     { ResTable_map::ATTR_MANY,  5, { '^', 'm', 'a', 'n', 'y' } },
   3714 };
   3715 
   3716 uint32_t ResTable::identifierForName(const char16_t* name, size_t nameLen,
   3717                                      const char16_t* type, size_t typeLen,
   3718                                      const char16_t* package,
   3719                                      size_t packageLen,
   3720                                      uint32_t* outTypeSpecFlags) const
   3721 {
   3722     TABLE_SUPER_NOISY(printf("Identifier for name: error=%d\n", mError));
   3723 
   3724     // Check for internal resource identifier as the very first thing, so
   3725     // that we will always find them even when there are no resources.
   3726     if (name[0] == '^') {
   3727         const int N = (sizeof(ID_NAMES)/sizeof(ID_NAMES[0]));
   3728         size_t len;
   3729         for (int i=0; i<N; i++) {
   3730             const id_name_map* m = ID_NAMES + i;
   3731             len = m->len;
   3732             if (len != nameLen) {
   3733                 continue;
   3734             }
   3735             for (size_t j=1; j<len; j++) {
   3736                 if (m->name[j] != name[j]) {
   3737                     goto nope;
   3738                 }
   3739             }
   3740             if (outTypeSpecFlags) {
   3741                 *outTypeSpecFlags = ResTable_typeSpec::SPEC_PUBLIC;
   3742             }
   3743             return m->id;
   3744 nope:
   3745             ;
   3746         }
   3747         if (nameLen > 7) {
   3748             if (name[1] == 'i' && name[2] == 'n'
   3749                 && name[3] == 'd' && name[4] == 'e' && name[5] == 'x'
   3750                 && name[6] == '_') {
   3751                 int index = atoi(String8(name + 7, nameLen - 7).string());
   3752                 if (Res_CHECKID(index)) {
   3753                     ALOGW("Array resource index: %d is too large.",
   3754                          index);
   3755                     return 0;
   3756                 }
   3757                 if (outTypeSpecFlags) {
   3758                     *outTypeSpecFlags = ResTable_typeSpec::SPEC_PUBLIC;
   3759                 }
   3760                 return  Res_MAKEARRAY(index);
   3761             }
   3762         }
   3763         return 0;
   3764     }
   3765 
   3766     if (mError != NO_ERROR) {
   3767         return 0;
   3768     }
   3769 
   3770     bool fakePublic = false;
   3771 
   3772     // Figure out the package and type we are looking in...
   3773 
   3774     const char16_t* packageEnd = NULL;
   3775     const char16_t* typeEnd = NULL;
   3776     const char16_t* const nameEnd = name+nameLen;
   3777     const char16_t* p = name;
   3778     while (p < nameEnd) {
   3779         if (*p == ':') packageEnd = p;
   3780         else if (*p == '/') typeEnd = p;
   3781         p++;
   3782     }
   3783     if (*name == '@') {
   3784         name++;
   3785         if (*name == '*') {
   3786             fakePublic = true;
   3787             name++;
   3788         }
   3789     }
   3790     if (name >= nameEnd) {
   3791         return 0;
   3792     }
   3793 
   3794     if (packageEnd) {
   3795         package = name;
   3796         packageLen = packageEnd-name;
   3797         name = packageEnd+1;
   3798     } else if (!package) {
   3799         return 0;
   3800     }
   3801 
   3802     if (typeEnd) {
   3803         type = name;
   3804         typeLen = typeEnd-name;
   3805         name = typeEnd+1;
   3806     } else if (!type) {
   3807         return 0;
   3808     }
   3809 
   3810     if (name >= nameEnd) {
   3811         return 0;
   3812     }
   3813     nameLen = nameEnd-name;
   3814 
   3815     TABLE_NOISY(printf("Looking for identifier: type=%s, name=%s, package=%s\n",
   3816                  String8(type, typeLen).string(),
   3817                  String8(name, nameLen).string(),
   3818                  String8(package, packageLen).string()));
   3819 
   3820     const size_t NG = mPackageGroups.size();
   3821     for (size_t ig=0; ig<NG; ig++) {
   3822         const PackageGroup* group = mPackageGroups[ig];
   3823 
   3824         if (strzcmp16(package, packageLen,
   3825                       group->name.string(), group->name.size())) {
   3826             TABLE_NOISY(printf("Skipping package group: %s\n", String8(group->name).string()));
   3827             continue;
   3828         }
   3829 
   3830         const ssize_t ti = group->basePackage->typeStrings.indexOfString(type, typeLen);
   3831         if (ti < 0) {
   3832             TABLE_NOISY(printf("Type not found in package %s\n", String8(group->name).string()));
   3833             continue;
   3834         }
   3835 
   3836         const ssize_t ei = group->basePackage->keyStrings.indexOfString(name, nameLen);
   3837         if (ei < 0) {
   3838             TABLE_NOISY(printf("Name not found in package %s\n", String8(group->name).string()));
   3839             continue;
   3840         }
   3841 
   3842         TABLE_NOISY(printf("Search indices: type=%d, name=%d\n", ti, ei));
   3843 
   3844         const Type* const typeConfigs = group->packages[0]->getType(ti);
   3845         if (typeConfigs == NULL || typeConfigs->configs.size() <= 0) {
   3846             TABLE_NOISY(printf("Expected type structure not found in package %s for idnex %d\n",
   3847                                String8(group->name).string(), ti));
   3848         }
   3849 
   3850         size_t NTC = typeConfigs->configs.size();
   3851         for (size_t tci=0; tci<NTC; tci++) {
   3852             const ResTable_type* const ty = typeConfigs->configs[tci];
   3853             const uint32_t typeOffset = dtohl(ty->entriesStart);
   3854 
   3855             const uint8_t* const end = ((const uint8_t*)ty) + dtohl(ty->header.size);
   3856             const uint32_t* const eindex = (const uint32_t*)
   3857                 (((const uint8_t*)ty) + dtohs(ty->header.headerSize));
   3858 
   3859             const size_t NE = dtohl(ty->entryCount);
   3860             for (size_t i=0; i<NE; i++) {
   3861                 uint32_t offset = dtohl(eindex[i]);
   3862                 if (offset == ResTable_type::NO_ENTRY) {
   3863                     continue;
   3864                 }
   3865 
   3866                 offset += typeOffset;
   3867 
   3868                 if (offset > (dtohl(ty->header.size)-sizeof(ResTable_entry))) {
   3869                     ALOGW("ResTable_entry at %d is beyond type chunk data %d",
   3870                          offset, dtohl(ty->header.size));
   3871                     return 0;
   3872                 }
   3873                 if ((offset&0x3) != 0) {
   3874                     ALOGW("ResTable_entry at %d (pkg=%d type=%d ent=%d) is not on an integer boundary when looking for %s:%s/%s",
   3875                          (int)offset, (int)group->id, (int)ti+1, (int)i,
   3876                          String8(package, packageLen).string(),
   3877                          String8(type, typeLen).string(),
   3878                          String8(name, nameLen).string());
   3879                     return 0;
   3880                 }
   3881 
   3882                 const ResTable_entry* const entry = (const ResTable_entry*)
   3883                     (((const uint8_t*)ty) + offset);
   3884                 if (dtohs(entry->size) < sizeof(*entry)) {
   3885                     ALOGW("ResTable_entry size %d is too small", dtohs(entry->size));
   3886                     return BAD_TYPE;
   3887                 }
   3888 
   3889                 TABLE_SUPER_NOISY(printf("Looking at entry #%d: want str %d, have %d\n",
   3890                                          i, ei, dtohl(entry->key.index)));
   3891                 if (dtohl(entry->key.index) == (size_t)ei) {
   3892                     if (outTypeSpecFlags) {
   3893                         *outTypeSpecFlags = typeConfigs->typeSpecFlags[i];
   3894                         if (fakePublic) {
   3895                             *outTypeSpecFlags |= ResTable_typeSpec::SPEC_PUBLIC;
   3896                         }
   3897                     }
   3898                     return Res_MAKEID(group->id-1, ti, i);
   3899                 }
   3900             }
   3901         }
   3902     }
   3903 
   3904     return 0;
   3905 }
   3906 
   3907 bool ResTable::expandResourceRef(const uint16_t* refStr, size_t refLen,
   3908                                  String16* outPackage,
   3909                                  String16* outType,
   3910                                  String16* outName,
   3911                                  const String16* defType,
   3912                                  const String16* defPackage,
   3913                                  const char** outErrorMsg,
   3914                                  bool* outPublicOnly)
   3915 {
   3916     const char16_t* packageEnd = NULL;
   3917     const char16_t* typeEnd = NULL;
   3918     const char16_t* p = refStr;
   3919     const char16_t* const end = p + refLen;
   3920     while (p < end) {
   3921         if (*p == ':') packageEnd = p;
   3922         else if (*p == '/') {
   3923             typeEnd = p;
   3924             break;
   3925         }
   3926         p++;
   3927     }
   3928     p = refStr;
   3929     if (*p == '@') p++;
   3930 
   3931     if (outPublicOnly != NULL) {
   3932         *outPublicOnly = true;
   3933     }
   3934     if (*p == '*') {
   3935         p++;
   3936         if (outPublicOnly != NULL) {
   3937             *outPublicOnly = false;
   3938         }
   3939     }
   3940 
   3941     if (packageEnd) {
   3942         *outPackage = String16(p, packageEnd-p);
   3943         p = packageEnd+1;
   3944     } else {
   3945         if (!defPackage) {
   3946             if (outErrorMsg) {
   3947                 *outErrorMsg = "No resource package specified";
   3948             }
   3949             return false;
   3950         }
   3951         *outPackage = *defPackage;
   3952     }
   3953     if (typeEnd) {
   3954         *outType = String16(p, typeEnd-p);
   3955         p = typeEnd+1;
   3956     } else {
   3957         if (!defType) {
   3958             if (outErrorMsg) {
   3959                 *outErrorMsg = "No resource type specified";
   3960             }
   3961             return false;
   3962         }
   3963         *outType = *defType;
   3964     }
   3965     *outName = String16(p, end-p);
   3966     if(**outPackage == 0) {
   3967         if(outErrorMsg) {
   3968             *outErrorMsg = "Resource package cannot be an empty string";
   3969         }
   3970         return false;
   3971     }
   3972     if(**outType == 0) {
   3973         if(outErrorMsg) {
   3974             *outErrorMsg = "Resource type cannot be an empty string";
   3975         }
   3976         return false;
   3977     }
   3978     if(**outName == 0) {
   3979         if(outErrorMsg) {
   3980             *outErrorMsg = "Resource id cannot be an empty string";
   3981         }
   3982         return false;
   3983     }
   3984     return true;
   3985 }
   3986 
   3987 static uint32_t get_hex(char c, bool* outError)
   3988 {
   3989     if (c >= '0' && c <= '9') {
   3990         return c - '0';
   3991     } else if (c >= 'a' && c <= 'f') {
   3992         return c - 'a' + 0xa;
   3993     } else if (c >= 'A' && c <= 'F') {
   3994         return c - 'A' + 0xa;
   3995     }
   3996     *outError = true;
   3997     return 0;
   3998 }
   3999 
   4000 struct unit_entry
   4001 {
   4002     const char* name;
   4003     size_t len;
   4004     uint8_t type;
   4005     uint32_t unit;
   4006     float scale;
   4007 };
   4008 
   4009 static const unit_entry unitNames[] = {
   4010     { "px", strlen("px"), Res_value::TYPE_DIMENSION, Res_value::COMPLEX_UNIT_PX, 1.0f },
   4011     { "dip", strlen("dip"), Res_value::TYPE_DIMENSION, Res_value::COMPLEX_UNIT_DIP, 1.0f },
   4012     { "dp", strlen("dp"), Res_value::TYPE_DIMENSION, Res_value::COMPLEX_UNIT_DIP, 1.0f },
   4013     { "sp", strlen("sp"), Res_value::TYPE_DIMENSION, Res_value::COMPLEX_UNIT_SP, 1.0f },
   4014     { "pt", strlen("pt"), Res_value::TYPE_DIMENSION, Res_value::COMPLEX_UNIT_PT, 1.0f },
   4015     { "in", strlen("in"), Res_value::TYPE_DIMENSION, Res_value::COMPLEX_UNIT_IN, 1.0f },
   4016     { "mm", strlen("mm"), Res_value::TYPE_DIMENSION, Res_value::COMPLEX_UNIT_MM, 1.0f },
   4017     { "%", strlen("%"), Res_value::TYPE_FRACTION, Res_value::COMPLEX_UNIT_FRACTION, 1.0f/100 },
   4018     { "%p", strlen("%p"), Res_value::TYPE_FRACTION, Res_value::COMPLEX_UNIT_FRACTION_PARENT, 1.0f/100 },
   4019     { NULL, 0, 0, 0, 0 }
   4020 };
   4021 
   4022 static bool parse_unit(const char* str, Res_value* outValue,
   4023                        float* outScale, const char** outEnd)
   4024 {
   4025     const char* end = str;
   4026     while (*end != 0 && !isspace((unsigned char)*end)) {
   4027         end++;
   4028     }
   4029     const size_t len = end-str;
   4030 
   4031     const char* realEnd = end;
   4032     while (*realEnd != 0 && isspace((unsigned char)*realEnd)) {
   4033         realEnd++;
   4034     }
   4035     if (*realEnd != 0) {
   4036         return false;
   4037     }
   4038 
   4039     const unit_entry* cur = unitNames;
   4040     while (cur->name) {
   4041         if (len == cur->len && strncmp(cur->name, str, len) == 0) {
   4042             outValue->dataType = cur->type;
   4043             outValue->data = cur->unit << Res_value::COMPLEX_UNIT_SHIFT;
   4044             *outScale = cur->scale;
   4045             *outEnd = end;
   4046             //printf("Found unit %s for %s\n", cur->name, str);
   4047             return true;
   4048         }
   4049         cur++;
   4050     }
   4051 
   4052     return false;
   4053 }
   4054 
   4055 
   4056 bool ResTable::stringToInt(const char16_t* s, size_t len, Res_value* outValue)
   4057 {
   4058     while (len > 0 && isspace16(*s)) {
   4059         s++;
   4060         len--;
   4061     }
   4062 
   4063     if (len <= 0) {
   4064         return false;
   4065     }
   4066 
   4067     size_t i = 0;
   4068     int32_t val = 0;
   4069     bool neg = false;
   4070 
   4071     if (*s == '-') {
   4072         neg = true;
   4073         i++;
   4074     }
   4075 
   4076     if (s[i] < '0' || s[i] > '9') {
   4077         return false;
   4078     }
   4079 
   4080     // Decimal or hex?
   4081     if (s[i] == '0' && s[i+1] == 'x') {
   4082         if (outValue)
   4083             outValue->dataType = outValue->TYPE_INT_HEX;
   4084         i += 2;
   4085         bool error = false;
   4086         while (i < len && !error) {
   4087             val = (val*16) + get_hex(s[i], &error);
   4088             i++;
   4089         }
   4090         if (error) {
   4091             return false;
   4092         }
   4093     } else {
   4094         if (outValue)
   4095             outValue->dataType = outValue->TYPE_INT_DEC;
   4096         while (i < len) {
   4097             if (s[i] < '0' || s[i] > '9') {
   4098                 return false;
   4099             }
   4100             val = (val*10) + s[i]-'0';
   4101             i++;
   4102         }
   4103     }
   4104 
   4105     if (neg) val = -val;
   4106 
   4107     while (i < len && isspace16(s[i])) {
   4108         i++;
   4109     }
   4110 
   4111     if (i == len) {
   4112         if (outValue)
   4113             outValue->data = val;
   4114         return true;
   4115     }
   4116 
   4117     return false;
   4118 }
   4119 
   4120 bool ResTable::stringToFloat(const char16_t* s, size_t len, Res_value* outValue)
   4121 {
   4122     while (len > 0 && isspace16(*s)) {
   4123         s++;
   4124         len--;
   4125     }
   4126 
   4127     if (len <= 0) {
   4128         return false;
   4129     }
   4130 
   4131     char buf[128];
   4132     int i=0;
   4133     while (len > 0 && *s != 0 && i < 126) {
   4134         if (*s > 255) {
   4135             return false;
   4136         }
   4137         buf[i++] = *s++;
   4138         len--;
   4139     }
   4140 
   4141     if (len > 0) {
   4142         return false;
   4143     }
   4144     if (buf[0] < '0' && buf[0] > '9' && buf[0] != '.') {
   4145         return false;
   4146     }
   4147 
   4148     buf[i] = 0;
   4149     const char* end;
   4150     float f = strtof(buf, (char**)&end);
   4151 
   4152     if (*end != 0 && !isspace((unsigned char)*end)) {
   4153         // Might be a unit...
   4154         float scale;
   4155         if (parse_unit(end, outValue, &scale, &end)) {
   4156             f *= scale;
   4157             const bool neg = f < 0;
   4158             if (neg) f = -f;
   4159             uint64_t bits = (uint64_t)(f*(1<<23)+.5f);
   4160             uint32_t radix;
   4161             uint32_t shift;
   4162             if ((bits&0x7fffff) == 0) {
   4163                 // Always use 23p0 if there is no fraction, just to make
   4164                 // things easier to read.
   4165                 radix = Res_value::COMPLEX_RADIX_23p0;
   4166                 shift = 23;
   4167             } else if ((bits&0xffffffffff800000LL) == 0) {
   4168                 // Magnitude is zero -- can fit in 0 bits of precision.
   4169                 radix = Res_value::COMPLEX_RADIX_0p23;
   4170                 shift = 0;
   4171             } else if ((bits&0xffffffff80000000LL) == 0) {
   4172                 // Magnitude can fit in 8 bits of precision.
   4173                 radix = Res_value::COMPLEX_RADIX_8p15;
   4174                 shift = 8;
   4175             } else if ((bits&0xffffff8000000000LL) == 0) {
   4176                 // Magnitude can fit in 16 bits of precision.
   4177                 radix = Res_value::COMPLEX_RADIX_16p7;
   4178                 shift = 16;
   4179             } else {
   4180                 // Magnitude needs entire range, so no fractional part.
   4181                 radix = Res_value::COMPLEX_RADIX_23p0;
   4182                 shift = 23;
   4183             }
   4184             int32_t mantissa = (int32_t)(
   4185                 (bits>>shift) & Res_value::COMPLEX_MANTISSA_MASK);
   4186             if (neg) {
   4187                 mantissa = (-mantissa) & Res_value::COMPLEX_MANTISSA_MASK;
   4188             }
   4189             outValue->data |=
   4190                 (radix<<Res_value::COMPLEX_RADIX_SHIFT)
   4191                 | (mantissa<<Res_value::COMPLEX_MANTISSA_SHIFT);
   4192             //printf("Input value: %f 0x%016Lx, mult: %f, radix: %d, shift: %d, final: 0x%08x\n",
   4193             //       f * (neg ? -1 : 1), bits, f*(1<<23),
   4194             //       radix, shift, outValue->data);
   4195             return true;
   4196         }
   4197         return false;
   4198     }
   4199 
   4200     while (*end != 0 && isspace((unsigned char)*end)) {
   4201         end++;
   4202     }
   4203 
   4204     if (*end == 0) {
   4205         if (outValue) {
   4206             outValue->dataType = outValue->TYPE_FLOAT;
   4207             *(float*)(&outValue->data) = f;
   4208             return true;
   4209         }
   4210     }
   4211 
   4212     return false;
   4213 }
   4214 
   4215 bool ResTable::stringToValue(Res_value* outValue, String16* outString,
   4216                              const char16_t* s, size_t len,
   4217                              bool preserveSpaces, bool coerceType,
   4218                              uint32_t attrID,
   4219                              const String16* defType,
   4220                              const String16* defPackage,
   4221                              Accessor* accessor,
   4222                              void* accessorCookie,
   4223                              uint32_t attrType,
   4224                              bool enforcePrivate) const
   4225 {
   4226     bool localizationSetting = accessor != NULL && accessor->getLocalizationSetting();
   4227     const char* errorMsg = NULL;
   4228 
   4229     outValue->size = sizeof(Res_value);
   4230     outValue->res0 = 0;
   4231 
   4232     // First strip leading/trailing whitespace.  Do this before handling
   4233     // escapes, so they can be used to force whitespace into the string.
   4234     if (!preserveSpaces) {
   4235         while (len > 0 && isspace16(*s)) {
   4236             s++;
   4237             len--;
   4238         }
   4239         while (len > 0 && isspace16(s[len-1])) {
   4240             len--;
   4241         }
   4242         // If the string ends with '\', then we keep the space after it.
   4243         if (len > 0 && s[len-1] == '\\' && s[len] != 0) {
   4244             len++;
   4245         }
   4246     }
   4247 
   4248     //printf("Value for: %s\n", String8(s, len).string());
   4249 
   4250     uint32_t l10nReq = ResTable_map::L10N_NOT_REQUIRED;
   4251     uint32_t attrMin = 0x80000000, attrMax = 0x7fffffff;
   4252     bool fromAccessor = false;
   4253     if (attrID != 0 && !Res_INTERNALID(attrID)) {
   4254         const ssize_t p = getResourcePackageIndex(attrID);
   4255         const bag_entry* bag;
   4256         ssize_t cnt = p >= 0 ? lockBag(attrID, &bag) : -1;
   4257         //printf("For attr 0x%08x got bag of %d\n", attrID, cnt);
   4258         if (cnt >= 0) {
   4259             while (cnt > 0) {
   4260                 //printf("Entry 0x%08x = 0x%08x\n", bag->map.name.ident, bag->map.value.data);
   4261                 switch (bag->map.name.ident) {
   4262                 case ResTable_map::ATTR_TYPE:
   4263                     attrType = bag->map.value.data;
   4264                     break;
   4265                 case ResTable_map::ATTR_MIN:
   4266                     attrMin = bag->map.value.data;
   4267                     break;
   4268                 case ResTable_map::ATTR_MAX:
   4269                     attrMax = bag->map.value.data;
   4270                     break;
   4271                 case ResTable_map::ATTR_L10N:
   4272                     l10nReq = bag->map.value.data;
   4273                     break;
   4274                 }
   4275                 bag++;
   4276                 cnt--;
   4277             }
   4278             unlockBag(bag);
   4279         } else if (accessor && accessor->getAttributeType(attrID, &attrType)) {
   4280             fromAccessor = true;
   4281             if (attrType == ResTable_map::TYPE_ENUM
   4282                     || attrType == ResTable_map::TYPE_FLAGS
   4283                     || attrType == ResTable_map::TYPE_INTEGER) {
   4284                 accessor->getAttributeMin(attrID, &attrMin);
   4285                 accessor->getAttributeMax(attrID, &attrMax);
   4286             }
   4287             if (localizationSetting) {
   4288                 l10nReq = accessor->getAttributeL10N(attrID);
   4289             }
   4290         }
   4291     }
   4292 
   4293     const bool canStringCoerce =
   4294         coerceType && (attrType&ResTable_map::TYPE_STRING) != 0;
   4295 
   4296     if (*s == '@') {
   4297         outValue->dataType = outValue->TYPE_REFERENCE;
   4298 
   4299         // Note: we don't check attrType here because the reference can
   4300         // be to any other type; we just need to count on the client making
   4301         // sure the referenced type is correct.
   4302 
   4303         //printf("Looking up ref: %s\n", String8(s, len).string());
   4304 
   4305         // It's a reference!
   4306         if (len == 5 && s[1]=='n' && s[2]=='u' && s[3]=='l' && s[4]=='l') {
   4307             outValue->data = 0;
   4308             return true;
   4309         } else {
   4310             bool createIfNotFound = false;
   4311             const char16_t* resourceRefName;
   4312             int resourceNameLen;
   4313             if (len > 2 && s[1] == '+') {
   4314                 createIfNotFound = true;
   4315                 resourceRefName = s + 2;
   4316                 resourceNameLen = len - 2;
   4317             } else if (len > 2 && s[1] == '*') {
   4318                 enforcePrivate = false;
   4319                 resourceRefName = s + 2;
   4320                 resourceNameLen = len - 2;
   4321             } else {
   4322                 createIfNotFound = false;
   4323                 resourceRefName = s + 1;
   4324                 resourceNameLen = len - 1;
   4325             }
   4326             String16 package, type, name;
   4327             if (!expandResourceRef(resourceRefName,resourceNameLen, &package, &type, &name,
   4328                                    defType, defPackage, &errorMsg)) {
   4329                 if (accessor != NULL) {
   4330                     accessor->reportError(accessorCookie, errorMsg);
   4331                 }
   4332                 return false;
   4333             }
   4334 
   4335             uint32_t specFlags = 0;
   4336             uint32_t rid = identifierForName(name.string(), name.size(), type.string(),
   4337                     type.size(), package.string(), package.size(), &specFlags);
   4338             if (rid != 0) {
   4339                 if (enforcePrivate) {
   4340                     if ((specFlags&ResTable_typeSpec::SPEC_PUBLIC) == 0) {
   4341                         if (accessor != NULL) {
   4342                             accessor->reportError(accessorCookie, "Resource is not public.");
   4343                         }
   4344                         return false;
   4345                     }
   4346                 }
   4347                 if (!accessor) {
   4348                     outValue->data = rid;
   4349                     return true;
   4350                 }
   4351                 rid = Res_MAKEID(
   4352                     accessor->getRemappedPackage(Res_GETPACKAGE(rid)),
   4353                     Res_GETTYPE(rid), Res_GETENTRY(rid));
   4354                 TABLE_NOISY(printf("Incl %s:%s/%s: 0x%08x\n",
   4355                        String8(package).string(), String8(type).string(),
   4356                        String8(name).string(), rid));
   4357                 outValue->data = rid;
   4358                 return true;
   4359             }
   4360 
   4361             if (accessor) {
   4362                 uint32_t rid = accessor->getCustomResourceWithCreation(package, type, name,
   4363                                                                        createIfNotFound);
   4364                 if (rid != 0) {
   4365                     TABLE_NOISY(printf("Pckg %s:%s/%s: 0x%08x\n",
   4366                            String8(package).string(), String8(type).string(),
   4367                            String8(name).string(), rid));
   4368                     outValue->data = rid;
   4369                     return true;
   4370                 }
   4371             }
   4372         }
   4373 
   4374         if (accessor != NULL) {
   4375             accessor->reportError(accessorCookie, "No resource found that matches the given name");
   4376         }
   4377         return false;
   4378     }
   4379 
   4380     // if we got to here, and localization is required and it's not a reference,
   4381     // complain and bail.
   4382     if (l10nReq == ResTable_map::L10N_SUGGESTED) {
   4383         if (localizationSetting) {
   4384             if (accessor != NULL) {
   4385                 accessor->reportError(accessorCookie, "This attribute must be localized.");
   4386             }
   4387         }
   4388     }
   4389 
   4390     if (*s == '#') {
   4391         // It's a color!  Convert to an integer of the form 0xaarrggbb.
   4392         uint32_t color = 0;
   4393         bool error = false;
   4394         if (len == 4) {
   4395             outValue->dataType = outValue->TYPE_INT_COLOR_RGB4;
   4396             color |= 0xFF000000;
   4397             color |= get_hex(s[1], &error) << 20;
   4398             color |= get_hex(s[1], &error) << 16;
   4399             color |= get_hex(s[2], &error) << 12;
   4400             color |= get_hex(s[2], &error) << 8;
   4401             color |= get_hex(s[3], &error) << 4;
   4402             color |= get_hex(s[3], &error);
   4403         } else if (len == 5) {
   4404             outValue->dataType = outValue->TYPE_INT_COLOR_ARGB4;
   4405             color |= get_hex(s[1], &error) << 28;
   4406             color |= get_hex(s[1], &error) << 24;
   4407             color |= get_hex(s[2], &error) << 20;
   4408             color |= get_hex(s[2], &error) << 16;
   4409             color |= get_hex(s[3], &error) << 12;
   4410             color |= get_hex(s[3], &error) << 8;
   4411             color |= get_hex(s[4], &error) << 4;
   4412             color |= get_hex(s[4], &error);
   4413         } else if (len == 7) {
   4414             outValue->dataType = outValue->TYPE_INT_COLOR_RGB8;
   4415             color |= 0xFF000000;
   4416             color |= get_hex(s[1], &error) << 20;
   4417             color |= get_hex(s[2], &error) << 16;
   4418             color |= get_hex(s[3], &error) << 12;
   4419             color |= get_hex(s[4], &error) << 8;
   4420             color |= get_hex(s[5], &error) << 4;
   4421             color |= get_hex(s[6], &error);
   4422         } else if (len == 9) {
   4423             outValue->dataType = outValue->TYPE_INT_COLOR_ARGB8;
   4424             color |= get_hex(s[1], &error) << 28;
   4425             color |= get_hex(s[2], &error) << 24;
   4426             color |= get_hex(s[3], &error) << 20;
   4427             color |= get_hex(s[4], &error) << 16;
   4428             color |= get_hex(s[5], &error) << 12;
   4429             color |= get_hex(s[6], &error) << 8;
   4430             color |= get_hex(s[7], &error) << 4;
   4431             color |= get_hex(s[8], &error);
   4432         } else {
   4433             error = true;
   4434         }
   4435         if (!error) {
   4436             if ((attrType&ResTable_map::TYPE_COLOR) == 0) {
   4437                 if (!canStringCoerce) {
   4438                     if (accessor != NULL) {
   4439                         accessor->reportError(accessorCookie,
   4440                                 "Color types not allowed");
   4441                     }
   4442                     return false;
   4443                 }
   4444             } else {
   4445                 outValue->data = color;
   4446                 //printf("Color input=%s, output=0x%x\n", String8(s, len).string(), color);
   4447                 return true;
   4448             }
   4449         } else {
   4450             if ((attrType&ResTable_map::TYPE_COLOR) != 0) {
   4451                 if (accessor != NULL) {
   4452                     accessor->reportError(accessorCookie, "Color value not valid --"
   4453                             " must be #rgb, #argb, #rrggbb, or #aarrggbb");
   4454                 }
   4455                 #if 0
   4456                 fprintf(stderr, "%s: Color ID %s value %s is not valid\n",
   4457                         "Resource File", //(const char*)in->getPrintableSource(),
   4458                         String8(*curTag).string(),
   4459                         String8(s, len).string());
   4460                 #endif
   4461                 return false;
   4462             }
   4463         }
   4464     }
   4465 
   4466     if (*s == '?') {
   4467         outValue->dataType = outValue->TYPE_ATTRIBUTE;
   4468 
   4469         // Note: we don't check attrType here because the reference can
   4470         // be to any other type; we just need to count on the client making
   4471         // sure the referenced type is correct.
   4472 
   4473         //printf("Looking up attr: %s\n", String8(s, len).string());
   4474 
   4475         static const String16 attr16("attr");
   4476         String16 package, type, name;
   4477         if (!expandResourceRef(s+1, len-1, &package, &type, &name,
   4478                                &attr16, defPackage, &errorMsg)) {
   4479             if (accessor != NULL) {
   4480                 accessor->reportError(accessorCookie, errorMsg);
   4481             }
   4482             return false;
   4483         }
   4484 
   4485         //printf("Pkg: %s, Type: %s, Name: %s\n",
   4486         //       String8(package).string(), String8(type).string(),
   4487         //       String8(name).string());
   4488         uint32_t specFlags = 0;
   4489         uint32_t rid =
   4490             identifierForName(name.string(), name.size(),
   4491                               type.string(), type.size(),
   4492                               package.string(), package.size(), &specFlags);
   4493         if (rid != 0) {
   4494             if (enforcePrivate) {
   4495                 if ((specFlags&ResTable_typeSpec::SPEC_PUBLIC) == 0) {
   4496                     if (accessor != NULL) {
   4497                         accessor->reportError(accessorCookie, "Attribute is not public.");
   4498                     }
   4499                     return false;
   4500                 }
   4501             }
   4502             if (!accessor) {
   4503                 outValue->data = rid;
   4504                 return true;
   4505             }
   4506             rid = Res_MAKEID(
   4507                 accessor->getRemappedPackage(Res_GETPACKAGE(rid)),
   4508                 Res_GETTYPE(rid), Res_GETENTRY(rid));
   4509             //printf("Incl %s:%s/%s: 0x%08x\n",
   4510             //       String8(package).string(), String8(type).string(),
   4511             //       String8(name).string(), rid);
   4512             outValue->data = rid;
   4513             return true;
   4514         }
   4515 
   4516         if (accessor) {
   4517             uint32_t rid = accessor->getCustomResource(package, type, name);
   4518             if (rid != 0) {
   4519                 //printf("Mine %s:%s/%s: 0x%08x\n",
   4520                 //       String8(package).string(), String8(type).string(),
   4521                 //       String8(name).string(), rid);
   4522                 outValue->data = rid;
   4523                 return true;
   4524             }
   4525         }
   4526 
   4527         if (accessor != NULL) {
   4528             accessor->reportError(accessorCookie, "No resource found that matches the given name");
   4529         }
   4530         return false;
   4531     }
   4532 
   4533     if (stringToInt(s, len, outValue)) {
   4534         if ((attrType&ResTable_map::TYPE_INTEGER) == 0) {
   4535             // If this type does not allow integers, but does allow floats,
   4536             // fall through on this error case because the float type should
   4537             // be able to accept any integer value.
   4538             if (!canStringCoerce && (attrType&ResTable_map::TYPE_FLOAT) == 0) {
   4539                 if (accessor != NULL) {
   4540                     accessor->reportError(accessorCookie, "Integer types not allowed");
   4541                 }
   4542                 return false;
   4543             }
   4544         } else {
   4545             if (((int32_t)outValue->data) < ((int32_t)attrMin)
   4546                     || ((int32_t)outValue->data) > ((int32_t)attrMax)) {
   4547                 if (accessor != NULL) {
   4548                     accessor->reportError(accessorCookie, "Integer value out of range");
   4549                 }
   4550                 return false;
   4551             }
   4552             return true;
   4553         }
   4554     }
   4555 
   4556     if (stringToFloat(s, len, outValue)) {
   4557         if (outValue->dataType == Res_value::TYPE_DIMENSION) {
   4558             if ((attrType&ResTable_map::TYPE_DIMENSION) != 0) {
   4559                 return true;
   4560             }
   4561             if (!canStringCoerce) {
   4562                 if (accessor != NULL) {
   4563                     accessor->reportError(accessorCookie, "Dimension types not allowed");
   4564                 }
   4565                 return false;
   4566             }
   4567         } else if (outValue->dataType == Res_value::TYPE_FRACTION) {
   4568             if ((attrType&ResTable_map::TYPE_FRACTION) != 0) {
   4569                 return true;
   4570             }
   4571             if (!canStringCoerce) {
   4572                 if (accessor != NULL) {
   4573                     accessor->reportError(accessorCookie, "Fraction types not allowed");
   4574                 }
   4575                 return false;
   4576             }
   4577         } else if ((attrType&ResTable_map::TYPE_FLOAT) == 0) {
   4578             if (!canStringCoerce) {
   4579                 if (accessor != NULL) {
   4580                     accessor->reportError(accessorCookie, "Float types not allowed");
   4581                 }
   4582                 return false;
   4583             }
   4584         } else {
   4585             return true;
   4586         }
   4587     }
   4588 
   4589     if (len == 4) {
   4590         if ((s[0] == 't' || s[0] == 'T') &&
   4591             (s[1] == 'r' || s[1] == 'R') &&
   4592             (s[2] == 'u' || s[2] == 'U') &&
   4593             (s[3] == 'e' || s[3] == 'E')) {
   4594             if ((attrType&ResTable_map::TYPE_BOOLEAN) == 0) {
   4595                 if (!canStringCoerce) {
   4596                     if (accessor != NULL) {
   4597                         accessor->reportError(accessorCookie, "Boolean types not allowed");
   4598                     }
   4599                     return false;
   4600                 }
   4601             } else {
   4602                 outValue->dataType = outValue->TYPE_INT_BOOLEAN;
   4603                 outValue->data = (uint32_t)-1;
   4604                 return true;
   4605             }
   4606         }
   4607     }
   4608 
   4609     if (len == 5) {
   4610         if ((s[0] == 'f' || s[0] == 'F') &&
   4611             (s[1] == 'a' || s[1] == 'A') &&
   4612             (s[2] == 'l' || s[2] == 'L') &&
   4613             (s[3] == 's' || s[3] == 'S') &&
   4614             (s[4] == 'e' || s[4] == 'E')) {
   4615             if ((attrType&ResTable_map::TYPE_BOOLEAN) == 0) {
   4616                 if (!canStringCoerce) {
   4617                     if (accessor != NULL) {
   4618                         accessor->reportError(accessorCookie, "Boolean types not allowed");
   4619                     }
   4620                     return false;
   4621                 }
   4622             } else {
   4623                 outValue->dataType = outValue->TYPE_INT_BOOLEAN;
   4624                 outValue->data = 0;
   4625                 return true;
   4626             }
   4627         }
   4628     }
   4629 
   4630     if ((attrType&ResTable_map::TYPE_ENUM) != 0) {
   4631         const ssize_t p = getResourcePackageIndex(attrID);
   4632         const bag_entry* bag;
   4633         ssize_t cnt = p >= 0 ? lockBag(attrID, &bag) : -1;
   4634         //printf("Got %d for enum\n", cnt);
   4635         if (cnt >= 0) {
   4636             resource_name rname;
   4637             while (cnt > 0) {
   4638                 if (!Res_INTERNALID(bag->map.name.ident)) {
   4639                     //printf("Trying attr #%08x\n", bag->map.name.ident);
   4640                     if (getResourceName(bag->map.name.ident, false, &rname)) {
   4641                         #if 0
   4642                         printf("Matching %s against %s (0x%08x)\n",
   4643                                String8(s, len).string(),
   4644                                String8(rname.name, rname.nameLen).string(),
   4645                                bag->map.name.ident);
   4646                         #endif
   4647                         if (strzcmp16(s, len, rname.name, rname.nameLen) == 0) {
   4648                             outValue->dataType = bag->map.value.dataType;
   4649                             outValue->data = bag->map.value.data;
   4650                             unlockBag(bag);
   4651                             return true;
   4652                         }
   4653                     }
   4654 
   4655                 }
   4656                 bag++;
   4657                 cnt--;
   4658             }
   4659             unlockBag(bag);
   4660         }
   4661 
   4662         if (fromAccessor) {
   4663             if (accessor->getAttributeEnum(attrID, s, len, outValue)) {
   4664                 return true;
   4665             }
   4666         }
   4667     }
   4668 
   4669     if ((attrType&ResTable_map::TYPE_FLAGS) != 0) {
   4670         const ssize_t p = getResourcePackageIndex(attrID);
   4671         const bag_entry* bag;
   4672         ssize_t cnt = p >= 0 ? lockBag(attrID, &bag) : -1;
   4673         //printf("Got %d for flags\n", cnt);
   4674         if (cnt >= 0) {
   4675             bool failed = false;
   4676             resource_name rname;
   4677             outValue->dataType = Res_value::TYPE_INT_HEX;
   4678             outValue->data = 0;
   4679             const char16_t* end = s + len;
   4680             const char16_t* pos = s;
   4681             while (pos < end && !failed) {
   4682                 const char16_t* start = pos;
   4683                 pos++;
   4684                 while (pos < end && *pos != '|') {
   4685                     pos++;
   4686                 }
   4687                 //printf("Looking for: %s\n", String8(start, pos-start).string());
   4688                 const bag_entry* bagi = bag;
   4689                 ssize_t i;
   4690                 for (i=0; i<cnt; i++, bagi++) {
   4691                     if (!Res_INTERNALID(bagi->map.name.ident)) {
   4692                         //printf("Trying attr #%08x\n", bagi->map.name.ident);
   4693                         if (getResourceName(bagi->map.name.ident, false, &rname)) {
   4694                             #if 0
   4695                             printf("Matching %s against %s (0x%08x)\n",
   4696                                    String8(start,pos-start).string(),
   4697                                    String8(rname.name, rname.nameLen).string(),
   4698                                    bagi->map.name.ident);
   4699                             #endif
   4700                             if (strzcmp16(start, pos-start, rname.name, rname.nameLen) == 0) {
   4701                                 outValue->data |= bagi->map.value.data;
   4702                                 break;
   4703                             }
   4704                         }
   4705                     }
   4706                 }
   4707                 if (i >= cnt) {
   4708                     // Didn't find this flag identifier.
   4709                     failed = true;
   4710                 }
   4711                 if (pos < end) {
   4712                     pos++;
   4713                 }
   4714             }
   4715             unlockBag(bag);
   4716             if (!failed) {
   4717                 //printf("Final flag value: 0x%lx\n", outValue->data);
   4718                 return true;
   4719             }
   4720         }
   4721 
   4722 
   4723         if (fromAccessor) {
   4724             if (accessor->getAttributeFlags(attrID, s, len, outValue)) {
   4725                 //printf("Final flag value: 0x%lx\n", outValue->data);
   4726                 return true;
   4727             }
   4728         }
   4729     }
   4730 
   4731     if ((attrType&ResTable_map::TYPE_STRING) == 0) {
   4732         if (accessor != NULL) {
   4733             accessor->reportError(accessorCookie, "String types not allowed");
   4734         }
   4735         return false;
   4736     }
   4737 
   4738     // Generic string handling...
   4739     outValue->dataType = outValue->TYPE_STRING;
   4740     if (outString) {
   4741         bool failed = collectString(outString, s, len, preserveSpaces, &errorMsg);
   4742         if (accessor != NULL) {
   4743             accessor->reportError(accessorCookie, errorMsg);
   4744         }
   4745         return failed;
   4746     }
   4747 
   4748     return true;
   4749 }
   4750 
   4751 bool ResTable::collectString(String16* outString,
   4752                              const char16_t* s, size_t len,
   4753                              bool preserveSpaces,
   4754                              const char** outErrorMsg,
   4755                              bool append)
   4756 {
   4757     String16 tmp;
   4758 
   4759     char quoted = 0;
   4760     const char16_t* p = s;
   4761     while (p < (s+len)) {
   4762         while (p < (s+len)) {
   4763             const char16_t c = *p;
   4764             if (c == '\\') {
   4765                 break;
   4766             }
   4767             if (!preserveSpaces) {
   4768                 if (quoted == 0 && isspace16(c)
   4769                     && (c != ' ' || isspace16(*(p+1)))) {
   4770                     break;
   4771                 }
   4772                 if (c == '"' && (quoted == 0 || quoted == '"')) {
   4773                     break;
   4774                 }
   4775                 if (c == '\'' && (quoted == 0 || quoted == '\'')) {
   4776                     /*
   4777                      * In practice, when people write ' instead of \'
   4778                      * in a string, they are doing it by accident
   4779                      * instead of really meaning to use ' as a quoting
   4780                      * character.  Warn them so they don't lose it.
   4781                      */
   4782                     if (outErrorMsg) {
   4783                         *outErrorMsg = "Apostrophe not preceded by \\";
   4784                     }
   4785                     return false;
   4786                 }
   4787             }
   4788             p++;
   4789         }
   4790         if (p < (s+len)) {
   4791             if (p > s) {
   4792                 tmp.append(String16(s, p-s));
   4793             }
   4794             if (!preserveSpaces && (*p == '"' || *p == '\'')) {
   4795                 if (quoted == 0) {
   4796                     quoted = *p;
   4797                 } else {
   4798                     quoted = 0;
   4799                 }
   4800                 p++;
   4801             } else if (!preserveSpaces && isspace16(*p)) {
   4802                 // Space outside of a quote -- consume all spaces and
   4803                 // leave a single plain space char.
   4804                 tmp.append(String16(" "));
   4805                 p++;
   4806                 while (p < (s+len) && isspace16(*p)) {
   4807                     p++;
   4808                 }
   4809             } else if (*p == '\\') {
   4810                 p++;
   4811                 if (p < (s+len)) {
   4812                     switch (*p) {
   4813                     case 't':
   4814                         tmp.append(String16("\t"));
   4815                         break;
   4816                     case 'n':
   4817                         tmp.append(String16("\n"));
   4818                         break;
   4819                     case '#':
   4820                         tmp.append(String16("#"));
   4821                         break;
   4822                     case '@':
   4823                         tmp.append(String16("@"));
   4824                         break;
   4825                     case '?':
   4826                         tmp.append(String16("?"));
   4827                         break;
   4828                     case '"':
   4829                         tmp.append(String16("\""));
   4830                         break;
   4831                     case '\'':
   4832                         tmp.append(String16("'"));
   4833                         break;
   4834                     case '\\':
   4835                         tmp.append(String16("\\"));
   4836                         break;
   4837                     case 'u':
   4838                     {
   4839                         char16_t chr = 0;
   4840                         int i = 0;
   4841                         while (i < 4 && p[1] != 0) {
   4842                             p++;
   4843                             i++;
   4844                             int c;
   4845                             if (*p >= '0' && *p <= '9') {
   4846                                 c = *p - '0';
   4847                             } else if (*p >= 'a' && *p <= 'f') {
   4848                                 c = *p - 'a' + 10;
   4849                             } else if (*p >= 'A' && *p <= 'F') {
   4850                                 c = *p - 'A' + 10;
   4851                             } else {
   4852                                 if (outErrorMsg) {
   4853                                     *outErrorMsg = "Bad character in \\u unicode escape sequence";
   4854                                 }
   4855                                 return false;
   4856                             }
   4857                             chr = (chr<<4) | c;
   4858                         }
   4859                         tmp.append(String16(&chr, 1));
   4860                     } break;
   4861                     default:
   4862                         // ignore unknown escape chars.
   4863                         break;
   4864                     }
   4865                     p++;
   4866                 }
   4867             }
   4868             len -= (p-s);
   4869             s = p;
   4870         }
   4871     }
   4872 
   4873     if (tmp.size() != 0) {
   4874         if (len > 0) {
   4875             tmp.append(String16(s, len));
   4876         }
   4877         if (append) {
   4878             outString->append(tmp);
   4879         } else {
   4880             outString->setTo(tmp);
   4881         }
   4882     } else {
   4883         if (append) {
   4884             outString->append(String16(s, len));
   4885         } else {
   4886             outString->setTo(s, len);
   4887         }
   4888     }
   4889 
   4890     return true;
   4891 }
   4892 
   4893 size_t ResTable::getBasePackageCount() const
   4894 {
   4895     if (mError != NO_ERROR) {
   4896         return 0;
   4897     }
   4898     return mPackageGroups.size();
   4899 }
   4900 
   4901 const char16_t* ResTable::getBasePackageName(size_t idx) const
   4902 {
   4903     if (mError != NO_ERROR) {
   4904         return 0;
   4905     }
   4906     LOG_FATAL_IF(idx >= mPackageGroups.size(),
   4907                  "Requested package index %d past package count %d",
   4908                  (int)idx, (int)mPackageGroups.size());
   4909     return mPackageGroups[idx]->name.string();
   4910 }
   4911 
   4912 uint32_t ResTable::getBasePackageId(size_t idx) const
   4913 {
   4914     if (mError != NO_ERROR) {
   4915         return 0;
   4916     }
   4917     LOG_FATAL_IF(idx >= mPackageGroups.size(),
   4918                  "Requested package index %d past package count %d",
   4919                  (int)idx, (int)mPackageGroups.size());
   4920     return mPackageGroups[idx]->id;
   4921 }
   4922 
   4923 size_t ResTable::getTableCount() const
   4924 {
   4925     return mHeaders.size();
   4926 }
   4927 
   4928 const ResStringPool* ResTable::getTableStringBlock(size_t index) const
   4929 {
   4930     return &mHeaders[index]->values;
   4931 }
   4932 
   4933 void* ResTable::getTableCookie(size_t index) const
   4934 {
   4935     return mHeaders[index]->cookie;
   4936 }
   4937 
   4938 void ResTable::getConfigurations(Vector<ResTable_config>* configs) const
   4939 {
   4940     const size_t I = mPackageGroups.size();
   4941     for (size_t i=0; i<I; i++) {
   4942         const PackageGroup* packageGroup = mPackageGroups[i];
   4943         const size_t J = packageGroup->packages.size();
   4944         for (size_t j=0; j<J; j++) {
   4945             const Package* package = packageGroup->packages[j];
   4946             const size_t K = package->types.size();
   4947             for (size_t k=0; k<K; k++) {
   4948                 const Type* type = package->types[k];
   4949                 if (type == NULL) continue;
   4950                 const size_t L = type->configs.size();
   4951                 for (size_t l=0; l<L; l++) {
   4952                     const ResTable_type* config = type->configs[l];
   4953                     const ResTable_config* cfg = &config->config;
   4954                     // only insert unique
   4955                     const size_t M = configs->size();
   4956                     size_t m;
   4957                     for (m=0; m<M; m++) {
   4958                         if (0 == (*configs)[m].compare(*cfg)) {
   4959                             break;
   4960                         }
   4961                     }
   4962                     // if we didn't find it
   4963                     if (m == M) {
   4964                         configs->add(*cfg);
   4965                     }
   4966                 }
   4967             }
   4968         }
   4969     }
   4970 }
   4971 
   4972 void ResTable::getLocales(Vector<String8>* locales) const
   4973 {
   4974     Vector<ResTable_config> configs;
   4975     ALOGV("calling getConfigurations");
   4976     getConfigurations(&configs);
   4977     ALOGV("called getConfigurations size=%d", (int)configs.size());
   4978     const size_t I = configs.size();
   4979     for (size_t i=0; i<I; i++) {
   4980         char locale[6];
   4981         configs[i].getLocale(locale);
   4982         const size_t J = locales->size();
   4983         size_t j;
   4984         for (j=0; j<J; j++) {
   4985             if (0 == strcmp(locale, (*locales)[j].string())) {
   4986                 break;
   4987             }
   4988         }
   4989         if (j == J) {
   4990             locales->add(String8(locale));
   4991         }
   4992     }
   4993 }
   4994 
   4995 ssize_t ResTable::getEntry(
   4996     const Package* package, int typeIndex, int entryIndex,
   4997     const ResTable_config* config,
   4998     const ResTable_type** outType, const ResTable_entry** outEntry,
   4999     const Type** outTypeClass) const
   5000 {
   5001     ALOGV("Getting entry from package %p\n", package);
   5002     const ResTable_package* const pkg = package->package;
   5003 
   5004     const Type* allTypes = package->getType(typeIndex);
   5005     ALOGV("allTypes=%p\n", allTypes);
   5006     if (allTypes == NULL) {
   5007         ALOGV("Skipping entry type index 0x%02x because type is NULL!\n", typeIndex);
   5008         return 0;
   5009     }
   5010 
   5011     if ((size_t)entryIndex >= allTypes->entryCount) {
   5012         ALOGW("getEntry failing because entryIndex %d is beyond type entryCount %d",
   5013             entryIndex, (int)allTypes->entryCount);
   5014         return BAD_TYPE;
   5015     }
   5016 
   5017     const ResTable_type* type = NULL;
   5018     uint32_t offset = ResTable_type::NO_ENTRY;
   5019     ResTable_config bestConfig;
   5020     memset(&bestConfig, 0, sizeof(bestConfig)); // make the compiler shut up
   5021 
   5022     const size_t NT = allTypes->configs.size();
   5023     for (size_t i=0; i<NT; i++) {
   5024         const ResTable_type* const thisType = allTypes->configs[i];
   5025         if (thisType == NULL) continue;
   5026 
   5027         ResTable_config thisConfig;
   5028         thisConfig.copyFromDtoH(thisType->config);
   5029 
   5030         TABLE_GETENTRY(ALOGI("Match entry 0x%x in type 0x%x (sz 0x%x): %s\n",
   5031                            entryIndex, typeIndex+1, dtohl(thisType->config.size),
   5032                            thisConfig.toString().string()));
   5033 
   5034         // Check to make sure this one is valid for the current parameters.
   5035         if (config && !thisConfig.match(*config)) {
   5036             TABLE_GETENTRY(ALOGI("Does not match config!\n"));
   5037             continue;
   5038         }
   5039 
   5040         // Check if there is the desired entry in this type.
   5041 
   5042         const uint8_t* const end = ((const uint8_t*)thisType)
   5043             + dtohl(thisType->header.size);
   5044         const uint32_t* const eindex = (const uint32_t*)
   5045             (((const uint8_t*)thisType) + dtohs(thisType->header.headerSize));
   5046 
   5047         uint32_t thisOffset = dtohl(eindex[entryIndex]);
   5048         if (thisOffset == ResTable_type::NO_ENTRY) {
   5049             TABLE_GETENTRY(ALOGI("Skipping because it is not defined!\n"));
   5050             continue;
   5051         }
   5052 
   5053         if (type != NULL) {
   5054             // Check if this one is less specific than the last found.  If so,
   5055             // we will skip it.  We check starting with things we most care
   5056             // about to those we least care about.
   5057             if (!thisConfig.isBetterThan(bestConfig, config)) {
   5058                 TABLE_GETENTRY(ALOGI("This config is worse than last!\n"));
   5059                 continue;
   5060             }
   5061         }
   5062 
   5063         type = thisType;
   5064         offset = thisOffset;
   5065         bestConfig = thisConfig;
   5066         TABLE_GETENTRY(ALOGI("Best entry so far -- using it!\n"));
   5067         if (!config) break;
   5068     }
   5069 
   5070     if (type == NULL) {
   5071         TABLE_GETENTRY(ALOGI("No value found for requested entry!\n"));
   5072         return BAD_INDEX;
   5073     }
   5074 
   5075     offset += dtohl(type->entriesStart);
   5076     TABLE_NOISY(aout << "Looking in resource table " << package->header->header
   5077           << ", typeOff="
   5078           << (void*)(((const char*)type)-((const char*)package->header->header))
   5079           << ", offset=" << (void*)offset << endl);
   5080 
   5081     if (offset > (dtohl(type->header.size)-sizeof(ResTable_entry))) {
   5082         ALOGW("ResTable_entry at 0x%x is beyond type chunk data 0x%x",
   5083              offset, dtohl(type->header.size));
   5084         return BAD_TYPE;
   5085     }
   5086     if ((offset&0x3) != 0) {
   5087         ALOGW("ResTable_entry at 0x%x is not on an integer boundary",
   5088              offset);
   5089         return BAD_TYPE;
   5090     }
   5091 
   5092     const ResTable_entry* const entry = (const ResTable_entry*)
   5093         (((const uint8_t*)type) + offset);
   5094     if (dtohs(entry->size) < sizeof(*entry)) {
   5095         ALOGW("ResTable_entry size 0x%x is too small", dtohs(entry->size));
   5096         return BAD_TYPE;
   5097     }
   5098 
   5099     *outType = type;
   5100     *outEntry = entry;
   5101     if (outTypeClass != NULL) {
   5102         *outTypeClass = allTypes;
   5103     }
   5104     return offset + dtohs(entry->size);
   5105 }
   5106 
   5107 status_t ResTable::parsePackage(const ResTable_package* const pkg,
   5108                                 const Header* const header, uint32_t idmap_id)
   5109 {
   5110     const uint8_t* base = (const uint8_t*)pkg;
   5111     status_t err = validate_chunk(&pkg->header, sizeof(*pkg),
   5112                                   header->dataEnd, "ResTable_package");
   5113     if (err != NO_ERROR) {
   5114         return (mError=err);
   5115     }
   5116 
   5117     const size_t pkgSize = dtohl(pkg->header.size);
   5118 
   5119     if (dtohl(pkg->typeStrings) >= pkgSize) {
   5120         ALOGW("ResTable_package type strings at %p are past chunk size %p.",
   5121              (void*)dtohl(pkg->typeStrings), (void*)pkgSize);
   5122         return (mError=BAD_TYPE);
   5123     }
   5124     if ((dtohl(pkg->typeStrings)&0x3) != 0) {
   5125         ALOGW("ResTable_package type strings at %p is not on an integer boundary.",
   5126              (void*)dtohl(pkg->typeStrings));
   5127         return (mError=BAD_TYPE);
   5128     }
   5129     if (dtohl(pkg->keyStrings) >= pkgSize) {
   5130         ALOGW("ResTable_package key strings at %p are past chunk size %p.",
   5131              (void*)dtohl(pkg->keyStrings), (void*)pkgSize);
   5132         return (mError=BAD_TYPE);
   5133     }
   5134     if ((dtohl(pkg->keyStrings)&0x3) != 0) {
   5135         ALOGW("ResTable_package key strings at %p is not on an integer boundary.",
   5136              (void*)dtohl(pkg->keyStrings));
   5137         return (mError=BAD_TYPE);
   5138     }
   5139 
   5140     Package* package = NULL;
   5141     PackageGroup* group = NULL;
   5142     uint32_t id = idmap_id != 0 ? idmap_id : dtohl(pkg->id);
   5143     // If at this point id == 0, pkg is an overlay package without a
   5144     // corresponding idmap. During regular usage, overlay packages are
   5145     // always loaded alongside their idmaps, but during idmap creation
   5146     // the package is temporarily loaded by itself.
   5147     if (id < 256) {
   5148 
   5149         package = new Package(this, header, pkg);
   5150         if (package == NULL) {
   5151             return (mError=NO_MEMORY);
   5152         }
   5153 
   5154         size_t idx = mPackageMap[id];
   5155         if (idx == 0) {
   5156             idx = mPackageGroups.size()+1;
   5157 
   5158             char16_t tmpName[sizeof(pkg->name)/sizeof(char16_t)];
   5159             strcpy16_dtoh(tmpName, pkg->name, sizeof(pkg->name)/sizeof(char16_t));
   5160             group = new PackageGroup(this, String16(tmpName), id);
   5161             if (group == NULL) {
   5162                 delete package;
   5163                 return (mError=NO_MEMORY);
   5164             }
   5165 
   5166             err = package->typeStrings.setTo(base+dtohl(pkg->typeStrings),
   5167                                            header->dataEnd-(base+dtohl(pkg->typeStrings)));
   5168             if (err != NO_ERROR) {
   5169                 delete group;
   5170                 delete package;
   5171                 return (mError=err);
   5172             }
   5173             err = package->keyStrings.setTo(base+dtohl(pkg->keyStrings),
   5174                                           header->dataEnd-(base+dtohl(pkg->keyStrings)));
   5175             if (err != NO_ERROR) {
   5176                 delete group;
   5177                 delete package;
   5178                 return (mError=err);
   5179             }
   5180 
   5181             //printf("Adding new package id %d at index %d\n", id, idx);
   5182             err = mPackageGroups.add(group);
   5183             if (err < NO_ERROR) {
   5184                 return (mError=err);
   5185             }
   5186             group->basePackage = package;
   5187 
   5188             mPackageMap[id] = (uint8_t)idx;
   5189         } else {
   5190             group = mPackageGroups.itemAt(idx-1);
   5191             if (group == NULL) {
   5192                 return (mError=UNKNOWN_ERROR);
   5193             }
   5194         }
   5195         err = group->packages.add(package);
   5196         if (err < NO_ERROR) {
   5197             return (mError=err);
   5198         }
   5199     } else {
   5200         LOG_ALWAYS_FATAL("Package id out of range");
   5201         return NO_ERROR;
   5202     }
   5203 
   5204 
   5205     // Iterate through all chunks.
   5206     size_t curPackage = 0;
   5207 
   5208     const ResChunk_header* chunk =
   5209         (const ResChunk_header*)(((const uint8_t*)pkg)
   5210                                  + dtohs(pkg->header.headerSize));
   5211     const uint8_t* endPos = ((const uint8_t*)pkg) + dtohs(pkg->header.size);
   5212     while (((const uint8_t*)chunk) <= (endPos-sizeof(ResChunk_header)) &&
   5213            ((const uint8_t*)chunk) <= (endPos-dtohl(chunk->size))) {
   5214         TABLE_NOISY(ALOGV("PackageChunk: type=0x%x, headerSize=0x%x, size=0x%x, pos=%p\n",
   5215                          dtohs(chunk->type), dtohs(chunk->headerSize), dtohl(chunk->size),
   5216                          (void*)(((const uint8_t*)chunk) - ((const uint8_t*)header->header))));
   5217         const size_t csize = dtohl(chunk->size);
   5218         const uint16_t ctype = dtohs(chunk->type);
   5219         if (ctype == RES_TABLE_TYPE_SPEC_TYPE) {
   5220             const ResTable_typeSpec* typeSpec = (const ResTable_typeSpec*)(chunk);
   5221             err = validate_chunk(&typeSpec->header, sizeof(*typeSpec),
   5222                                  endPos, "ResTable_typeSpec");
   5223             if (err != NO_ERROR) {
   5224                 return (mError=err);
   5225             }
   5226 
   5227             const size_t typeSpecSize = dtohl(typeSpec->header.size);
   5228 
   5229             LOAD_TABLE_NOISY(printf("TypeSpec off %p: type=0x%x, headerSize=0x%x, size=%p\n",
   5230                                     (void*)(base-(const uint8_t*)chunk),
   5231                                     dtohs(typeSpec->header.type),
   5232                                     dtohs(typeSpec->header.headerSize),
   5233                                     (void*)typeSize));
   5234             // look for block overrun or int overflow when multiplying by 4
   5235             if ((dtohl(typeSpec->entryCount) > (INT32_MAX/sizeof(uint32_t))
   5236                     || dtohs(typeSpec->header.headerSize)+(sizeof(uint32_t)*dtohl(typeSpec->entryCount))
   5237                     > typeSpecSize)) {
   5238                 ALOGW("ResTable_typeSpec entry index to %p extends beyond chunk end %p.",
   5239                      (void*)(dtohs(typeSpec->header.headerSize)
   5240                              +(sizeof(uint32_t)*dtohl(typeSpec->entryCount))),
   5241                      (void*)typeSpecSize);
   5242                 return (mError=BAD_TYPE);
   5243             }
   5244 
   5245             if (typeSpec->id == 0) {
   5246                 ALOGW("ResTable_type has an id of 0.");
   5247                 return (mError=BAD_TYPE);
   5248             }
   5249 
   5250             while (package->types.size() < typeSpec->id) {
   5251                 package->types.add(NULL);
   5252             }
   5253             Type* t = package->types[typeSpec->id-1];
   5254             if (t == NULL) {
   5255                 t = new Type(header, package, dtohl(typeSpec->entryCount));
   5256                 package->types.editItemAt(typeSpec->id-1) = t;
   5257             } else if (dtohl(typeSpec->entryCount) != t->entryCount) {
   5258                 ALOGW("ResTable_typeSpec entry count inconsistent: given %d, previously %d",
   5259                     (int)dtohl(typeSpec->entryCount), (int)t->entryCount);
   5260                 return (mError=BAD_TYPE);
   5261             }
   5262             t->typeSpecFlags = (const uint32_t*)(
   5263                     ((const uint8_t*)typeSpec) + dtohs(typeSpec->header.headerSize));
   5264             t->typeSpec = typeSpec;
   5265 
   5266         } else if (ctype == RES_TABLE_TYPE_TYPE) {
   5267             const ResTable_type* type = (const ResTable_type*)(chunk);
   5268             err = validate_chunk(&type->header, sizeof(*type)-sizeof(ResTable_config)+4,
   5269                                  endPos, "ResTable_type");
   5270             if (err != NO_ERROR) {
   5271                 return (mError=err);
   5272             }
   5273 
   5274             const size_t typeSize = dtohl(type->header.size);
   5275 
   5276             LOAD_TABLE_NOISY(printf("Type off %p: type=0x%x, headerSize=0x%x, size=%p\n",
   5277                                     (void*)(base-(const uint8_t*)chunk),
   5278                                     dtohs(type->header.type),
   5279                                     dtohs(type->header.headerSize),
   5280                                     (void*)typeSize));
   5281             if (dtohs(type->header.headerSize)+(sizeof(uint32_t)*dtohl(type->entryCount))
   5282                 > typeSize) {
   5283                 ALOGW("ResTable_type entry index to %p extends beyond chunk end %p.",
   5284                      (void*)(dtohs(type->header.headerSize)
   5285                              +(sizeof(uint32_t)*dtohl(type->entryCount))),
   5286                      (void*)typeSize);
   5287                 return (mError=BAD_TYPE);
   5288             }
   5289             if (dtohl(type->entryCount) != 0
   5290                 && dtohl(type->entriesStart) > (typeSize-sizeof(ResTable_entry))) {
   5291                 ALOGW("ResTable_type entriesStart at %p extends beyond chunk end %p.",
   5292                      (void*)dtohl(type->entriesStart), (void*)typeSize);
   5293                 return (mError=BAD_TYPE);
   5294             }
   5295             if (type->id == 0) {
   5296                 ALOGW("ResTable_type has an id of 0.");
   5297                 return (mError=BAD_TYPE);
   5298             }
   5299 
   5300             while (package->types.size() < type->id) {
   5301                 package->types.add(NULL);
   5302             }
   5303             Type* t = package->types[type->id-1];
   5304             if (t == NULL) {
   5305                 t = new Type(header, package, dtohl(type->entryCount));
   5306                 package->types.editItemAt(type->id-1) = t;
   5307             } else if (dtohl(type->entryCount) != t->entryCount) {
   5308                 ALOGW("ResTable_type entry count inconsistent: given %d, previously %d",
   5309                     (int)dtohl(type->entryCount), (int)t->entryCount);
   5310                 return (mError=BAD_TYPE);
   5311             }
   5312 
   5313             TABLE_GETENTRY(
   5314                 ResTable_config thisConfig;
   5315                 thisConfig.copyFromDtoH(type->config);
   5316                 ALOGI("Adding config to type %d: %s\n",
   5317                       type->id, thisConfig.toString().string()));
   5318             t->configs.add(type);
   5319         } else {
   5320             status_t err = validate_chunk(chunk, sizeof(ResChunk_header),
   5321                                           endPos, "ResTable_package:unknown");
   5322             if (err != NO_ERROR) {
   5323                 return (mError=err);
   5324             }
   5325         }
   5326         chunk = (const ResChunk_header*)
   5327             (((const uint8_t*)chunk) + csize);
   5328     }
   5329 
   5330     if (group->typeCount == 0) {
   5331         group->typeCount = package->types.size();
   5332     }
   5333 
   5334     return NO_ERROR;
   5335 }
   5336 
   5337 status_t ResTable::createIdmap(const ResTable& overlay, uint32_t originalCrc, uint32_t overlayCrc,
   5338                                void** outData, size_t* outSize) const
   5339 {
   5340     // see README for details on the format of map
   5341     if (mPackageGroups.size() == 0) {
   5342         return UNKNOWN_ERROR;
   5343     }
   5344     if (mPackageGroups[0]->packages.size() == 0) {
   5345         return UNKNOWN_ERROR;
   5346     }
   5347 
   5348     Vector<Vector<uint32_t> > map;
   5349     const PackageGroup* pg = mPackageGroups[0];
   5350     const Package* pkg = pg->packages[0];
   5351     size_t typeCount = pkg->types.size();
   5352     // starting size is header + first item (number of types in map)
   5353     *outSize = (IDMAP_HEADER_SIZE + 1) * sizeof(uint32_t);
   5354     const String16 overlayPackage(overlay.mPackageGroups[0]->packages[0]->package->name);
   5355     const uint32_t pkg_id = pkg->package->id << 24;
   5356 
   5357     for (size_t typeIndex = 0; typeIndex < typeCount; ++typeIndex) {
   5358         ssize_t first = -1;
   5359         ssize_t last = -1;
   5360         const Type* typeConfigs = pkg->getType(typeIndex);
   5361         ssize_t mapIndex = map.add();
   5362         if (mapIndex < 0) {
   5363             return NO_MEMORY;
   5364         }
   5365         Vector<uint32_t>& vector = map.editItemAt(mapIndex);
   5366         for (size_t entryIndex = 0; entryIndex < typeConfigs->entryCount; ++entryIndex) {
   5367             uint32_t resID = pkg_id
   5368                 | (0x00ff0000 & ((typeIndex+1)<<16))
   5369                 | (0x0000ffff & (entryIndex));
   5370             resource_name resName;
   5371             if (!this->getResourceName(resID, true, &resName)) {
   5372                 ALOGW("idmap: resource 0x%08x has spec but lacks values, skipping\n", resID);
   5373                 // add dummy value, or trimming leading/trailing zeroes later will fail
   5374                 vector.push(0);
   5375                 continue;
   5376             }
   5377 
   5378             const String16 overlayType(resName.type, resName.typeLen);
   5379             const String16 overlayName(resName.name, resName.nameLen);
   5380             uint32_t overlayResID = overlay.identifierForName(overlayName.string(),
   5381                                                               overlayName.size(),
   5382                                                               overlayType.string(),
   5383                                                               overlayType.size(),
   5384                                                               overlayPackage.string(),
   5385                                                               overlayPackage.size());
   5386             if (overlayResID != 0) {
   5387                 overlayResID = pkg_id | (0x00ffffff & overlayResID);
   5388                 last = Res_GETENTRY(resID);
   5389                 if (first == -1) {
   5390                     first = Res_GETENTRY(resID);
   5391                 }
   5392             }
   5393             vector.push(overlayResID);
   5394 #if 0
   5395             if (overlayResID != 0) {
   5396                 ALOGD("%s/%s 0x%08x -> 0x%08x\n",
   5397                      String8(String16(resName.type)).string(),
   5398                      String8(String16(resName.name)).string(),
   5399                      resID, overlayResID);
   5400             }
   5401 #endif
   5402         }
   5403 
   5404         if (first != -1) {
   5405             // shave off trailing entries which lack overlay values
   5406             const size_t last_past_one = last + 1;
   5407             if (last_past_one < vector.size()) {
   5408                 vector.removeItemsAt(last_past_one, vector.size() - last_past_one);
   5409             }
   5410             // shave off leading entries which lack overlay values
   5411             vector.removeItemsAt(0, first);
   5412             // store offset to first overlaid resource ID of this type
   5413             vector.insertAt((uint32_t)first, 0, 1);
   5414             // reserve space for number and offset of entries, and the actual entries
   5415             *outSize += (2 + vector.size()) * sizeof(uint32_t);
   5416         } else {
   5417             // no entries of current type defined in overlay package
   5418             vector.clear();
   5419             // reserve space for type offset
   5420             *outSize += 1 * sizeof(uint32_t);
   5421         }
   5422     }
   5423 
   5424     if ((*outData = malloc(*outSize)) == NULL) {
   5425         return NO_MEMORY;
   5426     }
   5427     uint32_t* data = (uint32_t*)*outData;
   5428     *data++ = htodl(IDMAP_MAGIC);
   5429     *data++ = htodl(originalCrc);
   5430     *data++ = htodl(overlayCrc);
   5431     const size_t mapSize = map.size();
   5432     *data++ = htodl(mapSize);
   5433     size_t offset = mapSize;
   5434     for (size_t i = 0; i < mapSize; ++i) {
   5435         const Vector<uint32_t>& vector = map.itemAt(i);
   5436         const size_t N = vector.size();
   5437         if (N == 0) {
   5438             *data++ = htodl(0);
   5439         } else {
   5440             offset++;
   5441             *data++ = htodl(offset);
   5442             offset += N;
   5443         }
   5444     }
   5445     for (size_t i = 0; i < mapSize; ++i) {
   5446         const Vector<uint32_t>& vector = map.itemAt(i);
   5447         const size_t N = vector.size();
   5448         if (N == 0) {
   5449             continue;
   5450         }
   5451         if (N == 1) { // vector expected to hold (offset) + (N > 0 entries)
   5452             ALOGW("idmap: type %d supposedly has entries, but no entries found\n", i);
   5453             return UNKNOWN_ERROR;
   5454         }
   5455         *data++ = htodl(N - 1); // do not count the offset (which is vector's first element)
   5456         for (size_t j = 0; j < N; ++j) {
   5457             const uint32_t& overlayResID = vector.itemAt(j);
   5458             *data++ = htodl(overlayResID);
   5459         }
   5460     }
   5461 
   5462     return NO_ERROR;
   5463 }
   5464 
   5465 bool ResTable::getIdmapInfo(const void* idmap, size_t sizeBytes,
   5466                             uint32_t* pOriginalCrc, uint32_t* pOverlayCrc)
   5467 {
   5468     const uint32_t* map = (const uint32_t*)idmap;
   5469     if (!assertIdmapHeader(map, sizeBytes)) {
   5470         return false;
   5471     }
   5472     *pOriginalCrc = map[1];
   5473     *pOverlayCrc = map[2];
   5474     return true;
   5475 }
   5476 
   5477 
   5478 #define CHAR16_TO_CSTR(c16, len) (String8(String16(c16,len)).string())
   5479 
   5480 #define CHAR16_ARRAY_EQ(constant, var, len) \
   5481         ((len == (sizeof(constant)/sizeof(constant[0]))) && (0 == memcmp((var), (constant), (len))))
   5482 
   5483 static void print_complex(uint32_t complex, bool isFraction)
   5484 {
   5485     const float MANTISSA_MULT =
   5486         1.0f / (1<<Res_value::COMPLEX_MANTISSA_SHIFT);
   5487     const float RADIX_MULTS[] = {
   5488         1.0f*MANTISSA_MULT, 1.0f/(1<<7)*MANTISSA_MULT,
   5489         1.0f/(1<<15)*MANTISSA_MULT, 1.0f/(1<<23)*MANTISSA_MULT
   5490     };
   5491 
   5492     float value = (complex&(Res_value::COMPLEX_MANTISSA_MASK
   5493                    <<Res_value::COMPLEX_MANTISSA_SHIFT))
   5494             * RADIX_MULTS[(complex>>Res_value::COMPLEX_RADIX_SHIFT)
   5495                             & Res_value::COMPLEX_RADIX_MASK];
   5496     printf("%f", value);
   5497 
   5498     if (!isFraction) {
   5499         switch ((complex>>Res_value::COMPLEX_UNIT_SHIFT)&Res_value::COMPLEX_UNIT_MASK) {
   5500             case Res_value::COMPLEX_UNIT_PX: printf("px"); break;
   5501             case Res_value::COMPLEX_UNIT_DIP: printf("dp"); break;
   5502             case Res_value::COMPLEX_UNIT_SP: printf("sp"); break;
   5503             case Res_value::COMPLEX_UNIT_PT: printf("pt"); break;
   5504             case Res_value::COMPLEX_UNIT_IN: printf("in"); break;
   5505             case Res_value::COMPLEX_UNIT_MM: printf("mm"); break;
   5506             default: printf(" (unknown unit)"); break;
   5507         }
   5508     } else {
   5509         switch ((complex>>Res_value::COMPLEX_UNIT_SHIFT)&Res_value::COMPLEX_UNIT_MASK) {
   5510             case Res_value::COMPLEX_UNIT_FRACTION: printf("%%"); break;
   5511             case Res_value::COMPLEX_UNIT_FRACTION_PARENT: printf("%%p"); break;
   5512             default: printf(" (unknown unit)"); break;
   5513         }
   5514     }
   5515 }
   5516 
   5517 // Normalize a string for output
   5518 String8 ResTable::normalizeForOutput( const char *input )
   5519 {
   5520     String8 ret;
   5521     char buff[2];
   5522     buff[1] = '\0';
   5523 
   5524     while (*input != '\0') {
   5525         switch (*input) {
   5526             // All interesting characters are in the ASCII zone, so we are making our own lives
   5527             // easier by scanning the string one byte at a time.
   5528         case '\\':
   5529             ret += "\\\\";
   5530             break;
   5531         case '\n':
   5532             ret += "\\n";
   5533             break;
   5534         case '"':
   5535             ret += "\\\"";
   5536             break;
   5537         default:
   5538             buff[0] = *input;
   5539             ret += buff;
   5540             break;
   5541         }
   5542 
   5543         input++;
   5544     }
   5545 
   5546     return ret;
   5547 }
   5548 
   5549 void ResTable::print_value(const Package* pkg, const Res_value& value) const
   5550 {
   5551     if (value.dataType == Res_value::TYPE_NULL) {
   5552         printf("(null)\n");
   5553     } else if (value.dataType == Res_value::TYPE_REFERENCE) {
   5554         printf("(reference) 0x%08x\n", value.data);
   5555     } else if (value.dataType == Res_value::TYPE_ATTRIBUTE) {
   5556         printf("(attribute) 0x%08x\n", value.data);
   5557     } else if (value.dataType == Res_value::TYPE_STRING) {
   5558         size_t len;
   5559         const char* str8 = pkg->header->values.string8At(
   5560                 value.data, &len);
   5561         if (str8 != NULL) {
   5562             printf("(string8) \"%s\"\n", normalizeForOutput(str8).string());
   5563         } else {
   5564             const char16_t* str16 = pkg->header->values.stringAt(
   5565                     value.data, &len);
   5566             if (str16 != NULL) {
   5567                 printf("(string16) \"%s\"\n",
   5568                     normalizeForOutput(String8(str16, len).string()).string());
   5569             } else {
   5570                 printf("(string) null\n");
   5571             }
   5572         }
   5573     } else if (value.dataType == Res_value::TYPE_FLOAT) {
   5574         printf("(float) %g\n", *(const float*)&value.data);
   5575     } else if (value.dataType == Res_value::TYPE_DIMENSION) {
   5576         printf("(dimension) ");
   5577         print_complex(value.data, false);
   5578         printf("\n");
   5579     } else if (value.dataType == Res_value::TYPE_FRACTION) {
   5580         printf("(fraction) ");
   5581         print_complex(value.data, true);
   5582         printf("\n");
   5583     } else if (value.dataType >= Res_value::TYPE_FIRST_COLOR_INT
   5584             || value.dataType <= Res_value::TYPE_LAST_COLOR_INT) {
   5585         printf("(color) #%08x\n", value.data);
   5586     } else if (value.dataType == Res_value::TYPE_INT_BOOLEAN) {
   5587         printf("(boolean) %s\n", value.data ? "true" : "false");
   5588     } else if (value.dataType >= Res_value::TYPE_FIRST_INT
   5589             || value.dataType <= Res_value::TYPE_LAST_INT) {
   5590         printf("(int) 0x%08x or %d\n", value.data, value.data);
   5591     } else {
   5592         printf("(unknown type) t=0x%02x d=0x%08x (s=0x%04x r=0x%02x)\n",
   5593                (int)value.dataType, (int)value.data,
   5594                (int)value.size, (int)value.res0);
   5595     }
   5596 }
   5597 
   5598 void ResTable::print(bool inclValues) const
   5599 {
   5600     if (mError != 0) {
   5601         printf("mError=0x%x (%s)\n", mError, strerror(mError));
   5602     }
   5603 #if 0
   5604     printf("mParams=%c%c-%c%c,\n",
   5605             mParams.language[0], mParams.language[1],
   5606             mParams.country[0], mParams.country[1]);
   5607 #endif
   5608     size_t pgCount = mPackageGroups.size();
   5609     printf("Package Groups (%d)\n", (int)pgCount);
   5610     for (size_t pgIndex=0; pgIndex<pgCount; pgIndex++) {
   5611         const PackageGroup* pg = mPackageGroups[pgIndex];
   5612         printf("Package Group %d id=%d packageCount=%d name=%s\n",
   5613                 (int)pgIndex, pg->id, (int)pg->packages.size(),
   5614                 String8(pg->name).string());
   5615 
   5616         size_t pkgCount = pg->packages.size();
   5617         for (size_t pkgIndex=0; pkgIndex<pkgCount; pkgIndex++) {
   5618             const Package* pkg = pg->packages[pkgIndex];
   5619             size_t typeCount = pkg->types.size();
   5620             printf("  Package %d id=%d name=%s typeCount=%d\n", (int)pkgIndex,
   5621                     pkg->package->id, String8(String16(pkg->package->name)).string(),
   5622                     (int)typeCount);
   5623             for (size_t typeIndex=0; typeIndex<typeCount; typeIndex++) {
   5624                 const Type* typeConfigs = pkg->getType(typeIndex);
   5625                 if (typeConfigs == NULL) {
   5626                     printf("    type %d NULL\n", (int)typeIndex);
   5627                     continue;
   5628                 }
   5629                 const size_t NTC = typeConfigs->configs.size();
   5630                 printf("    type %d configCount=%d entryCount=%d\n",
   5631                        (int)typeIndex, (int)NTC, (int)typeConfigs->entryCount);
   5632                 if (typeConfigs->typeSpecFlags != NULL) {
   5633                     for (size_t entryIndex=0; entryIndex<typeConfigs->entryCount; entryIndex++) {
   5634                         uint32_t resID = (0xff000000 & ((pkg->package->id)<<24))
   5635                                     | (0x00ff0000 & ((typeIndex+1)<<16))
   5636                                     | (0x0000ffff & (entryIndex));
   5637                         resource_name resName;
   5638                         if (this->getResourceName(resID, true, &resName)) {
   5639                             String8 type8;
   5640                             String8 name8;
   5641                             if (resName.type8 != NULL) {
   5642                                 type8 = String8(resName.type8, resName.typeLen);
   5643                             } else {
   5644                                 type8 = String8(resName.type, resName.typeLen);
   5645                             }
   5646                             if (resName.name8 != NULL) {
   5647                                 name8 = String8(resName.name8, resName.nameLen);
   5648                             } else {
   5649                                 name8 = String8(resName.name, resName.nameLen);
   5650                             }
   5651                             printf("      spec resource 0x%08x %s:%s/%s: flags=0x%08x\n",
   5652                                 resID,
   5653                                 CHAR16_TO_CSTR(resName.package, resName.packageLen),
   5654                                 type8.string(), name8.string(),
   5655                                 dtohl(typeConfigs->typeSpecFlags[entryIndex]));
   5656                         } else {
   5657                             printf("      INVALID TYPE CONFIG FOR RESOURCE 0x%08x\n", resID);
   5658                         }
   5659                     }
   5660                 }
   5661                 for (size_t configIndex=0; configIndex<NTC; configIndex++) {
   5662                     const ResTable_type* type = typeConfigs->configs[configIndex];
   5663                     if ((((uint64_t)type)&0x3) != 0) {
   5664                         printf("      NON-INTEGER ResTable_type ADDRESS: %p\n", type);
   5665                         continue;
   5666                     }
   5667                     String8 configStr = type->config.toString();
   5668                     printf("      config %s:\n", configStr.size() > 0
   5669                             ? configStr.string() : "(default)");
   5670                     size_t entryCount = dtohl(type->entryCount);
   5671                     uint32_t entriesStart = dtohl(type->entriesStart);
   5672                     if ((entriesStart&0x3) != 0) {
   5673                         printf("      NON-INTEGER ResTable_type entriesStart OFFSET: %p\n", (void*)entriesStart);
   5674                         continue;
   5675                     }
   5676                     uint32_t typeSize = dtohl(type->header.size);
   5677                     if ((typeSize&0x3) != 0) {
   5678                         printf("      NON-INTEGER ResTable_type header.size: %p\n", (void*)typeSize);
   5679                         continue;
   5680                     }
   5681                     for (size_t entryIndex=0; entryIndex<entryCount; entryIndex++) {
   5682 
   5683                         const uint8_t* const end = ((const uint8_t*)type)
   5684                             + dtohl(type->header.size);
   5685                         const uint32_t* const eindex = (const uint32_t*)
   5686                             (((const uint8_t*)type) + dtohs(type->header.headerSize));
   5687 
   5688                         uint32_t thisOffset = dtohl(eindex[entryIndex]);
   5689                         if (thisOffset == ResTable_type::NO_ENTRY) {
   5690                             continue;
   5691                         }
   5692 
   5693                         uint32_t resID = (0xff000000 & ((pkg->package->id)<<24))
   5694                                     | (0x00ff0000 & ((typeIndex+1)<<16))
   5695                                     | (0x0000ffff & (entryIndex));
   5696                         resource_name resName;
   5697                         if (this->getResourceName(resID, true, &resName)) {
   5698                             String8 type8;
   5699                             String8 name8;
   5700                             if (resName.type8 != NULL) {
   5701                                 type8 = String8(resName.type8, resName.typeLen);
   5702                             } else {
   5703                                 type8 = String8(resName.type, resName.typeLen);
   5704                             }
   5705                             if (resName.name8 != NULL) {
   5706                                 name8 = String8(resName.name8, resName.nameLen);
   5707                             } else {
   5708                                 name8 = String8(resName.name, resName.nameLen);
   5709                             }
   5710                             printf("        resource 0x%08x %s:%s/%s: ", resID,
   5711                                     CHAR16_TO_CSTR(resName.package, resName.packageLen),
   5712                                     type8.string(), name8.string());
   5713                         } else {
   5714                             printf("        INVALID RESOURCE 0x%08x: ", resID);
   5715                         }
   5716                         if ((thisOffset&0x3) != 0) {
   5717                             printf("NON-INTEGER OFFSET: %p\n", (void*)thisOffset);
   5718                             continue;
   5719                         }
   5720                         if ((thisOffset+sizeof(ResTable_entry)) > typeSize) {
   5721                             printf("OFFSET OUT OF BOUNDS: %p+%p (size is %p)\n",
   5722                                    (void*)entriesStart, (void*)thisOffset,
   5723                                    (void*)typeSize);
   5724                             continue;
   5725                         }
   5726 
   5727                         const ResTable_entry* ent = (const ResTable_entry*)
   5728                             (((const uint8_t*)type) + entriesStart + thisOffset);
   5729                         if (((entriesStart + thisOffset)&0x3) != 0) {
   5730                             printf("NON-INTEGER ResTable_entry OFFSET: %p\n",
   5731                                  (void*)(entriesStart + thisOffset));
   5732                             continue;
   5733                         }
   5734 
   5735                         uint16_t esize = dtohs(ent->size);
   5736                         if ((esize&0x3) != 0) {
   5737                             printf("NON-INTEGER ResTable_entry SIZE: %p\n", (void*)esize);
   5738                             continue;
   5739                         }
   5740                         if ((thisOffset+esize) > typeSize) {
   5741                             printf("ResTable_entry OUT OF BOUNDS: %p+%p+%p (size is %p)\n",
   5742                                    (void*)entriesStart, (void*)thisOffset,
   5743                                    (void*)esize, (void*)typeSize);
   5744                             continue;
   5745                         }
   5746 
   5747                         const Res_value* valuePtr = NULL;
   5748                         const ResTable_map_entry* bagPtr = NULL;
   5749                         Res_value value;
   5750                         if ((dtohs(ent->flags)&ResTable_entry::FLAG_COMPLEX) != 0) {
   5751                             printf("<bag>");
   5752                             bagPtr = (const ResTable_map_entry*)ent;
   5753                         } else {
   5754                             valuePtr = (const Res_value*)
   5755                                 (((const uint8_t*)ent) + esize);
   5756                             value.copyFrom_dtoh(*valuePtr);
   5757                             printf("t=0x%02x d=0x%08x (s=0x%04x r=0x%02x)",
   5758                                    (int)value.dataType, (int)value.data,
   5759                                    (int)value.size, (int)value.res0);
   5760                         }
   5761 
   5762                         if ((dtohs(ent->flags)&ResTable_entry::FLAG_PUBLIC) != 0) {
   5763                             printf(" (PUBLIC)");
   5764                         }
   5765                         printf("\n");
   5766 
   5767                         if (inclValues) {
   5768                             if (valuePtr != NULL) {
   5769                                 printf("          ");
   5770                                 print_value(pkg, value);
   5771                             } else if (bagPtr != NULL) {
   5772                                 const int N = dtohl(bagPtr->count);
   5773                                 const uint8_t* baseMapPtr = (const uint8_t*)ent;
   5774                                 size_t mapOffset = esize;
   5775                                 const ResTable_map* mapPtr = (ResTable_map*)(baseMapPtr+mapOffset);
   5776                                 printf("          Parent=0x%08x, Count=%d\n",
   5777                                     dtohl(bagPtr->parent.ident), N);
   5778                                 for (int i=0; i<N && mapOffset < (typeSize-sizeof(ResTable_map)); i++) {
   5779                                     printf("          #%i (Key=0x%08x): ",
   5780                                         i, dtohl(mapPtr->name.ident));
   5781                                     value.copyFrom_dtoh(mapPtr->value);
   5782                                     print_value(pkg, value);
   5783                                     const size_t size = dtohs(mapPtr->value.size);
   5784                                     mapOffset += size + sizeof(*mapPtr)-sizeof(mapPtr->value);
   5785                                     mapPtr = (ResTable_map*)(baseMapPtr+mapOffset);
   5786                                 }
   5787                             }
   5788                         }
   5789                     }
   5790                 }
   5791             }
   5792         }
   5793     }
   5794 }
   5795 
   5796 }   // namespace android
   5797