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      1 /*
      2 *******************************************************************************
      3 *
      4 *   Copyright (C) 1999-2010, International Business Machines
      5 *   Corporation and others.  All Rights Reserved.
      6 *
      7 *******************************************************************************
      8 *   file name:  package.cpp
      9 *   encoding:   US-ASCII
     10 *   tab size:   8 (not used)
     11 *   indentation:4
     12 *
     13 *   created on: 2005aug25
     14 *   created by: Markus W. Scherer
     15 *
     16 *   Read, modify, and write ICU .dat data package files.
     17 *   This is an integral part of the icupkg tool, moved to the toolutil library
     18 *   because parts of tool implementations tend to be later shared by
     19 *   other tools.
     20 *   Subsumes functionality and implementation code from
     21 *   gencmn, decmn, and icuswap tools.
     22 */
     23 
     24 #include "unicode/utypes.h"
     25 #include "unicode/putil.h"
     26 #include "unicode/udata.h"
     27 #include "cstring.h"
     28 #include "uarrsort.h"
     29 #include "ucmndata.h"
     30 #include "udataswp.h"
     31 #include "swapimpl.h"
     32 #include "toolutil.h"
     33 #include "package.h"
     34 #include "cmemory.h"
     35 
     36 #include <stdio.h>
     37 #include <stdlib.h>
     38 #include <string.h>
     39 
     40 
     41 static const int32_t kItemsChunk = 256; /* How much to increase the filesarray by each time */
     42 
     43 // general definitions ----------------------------------------------------- ***
     44 
     45 #define LENGTHOF(array) (int32_t)(sizeof(array)/sizeof((array)[0]))
     46 
     47 /* UDataInfo cf. udata.h */
     48 static const UDataInfo dataInfo={
     49     (uint16_t)sizeof(UDataInfo),
     50     0,
     51 
     52     U_IS_BIG_ENDIAN,
     53     U_CHARSET_FAMILY,
     54     (uint8_t)sizeof(UChar),
     55     0,
     56 
     57     {0x43, 0x6d, 0x6e, 0x44},     /* dataFormat="CmnD" */
     58     {1, 0, 0, 0},                 /* formatVersion */
     59     {3, 0, 0, 0}                  /* dataVersion */
     60 };
     61 
     62 U_CDECL_BEGIN
     63 static void U_CALLCONV
     64 printPackageError(void *context, const char *fmt, va_list args) {
     65     vfprintf((FILE *)context, fmt, args);
     66 }
     67 U_CDECL_END
     68 
     69 static uint16_t
     70 readSwapUInt16(uint16_t x) {
     71     return (uint16_t)((x<<8)|(x>>8));
     72 }
     73 
     74 // platform types ---------------------------------------------------------- ***
     75 
     76 static const char *types="lb?e";
     77 
     78 enum { TYPE_L, TYPE_B, TYPE_LE, TYPE_E, TYPE_COUNT };
     79 
     80 static inline int32_t
     81 makeTypeEnum(uint8_t charset, UBool isBigEndian) {
     82     return 2*(int32_t)charset+isBigEndian;
     83 }
     84 
     85 static inline int32_t
     86 makeTypeEnum(char type) {
     87     return
     88         type == 'l' ? TYPE_L :
     89         type == 'b' ? TYPE_B :
     90         type == 'e' ? TYPE_E :
     91                -1;
     92 }
     93 
     94 static inline char
     95 makeTypeLetter(uint8_t charset, UBool isBigEndian) {
     96     return types[makeTypeEnum(charset, isBigEndian)];
     97 }
     98 
     99 static inline char
    100 makeTypeLetter(int32_t typeEnum) {
    101     return types[typeEnum];
    102 }
    103 
    104 static void
    105 makeTypeProps(char type, uint8_t &charset, UBool &isBigEndian) {
    106     int32_t typeEnum=makeTypeEnum(type);
    107     charset=(uint8_t)(typeEnum>>1);
    108     isBigEndian=(UBool)(typeEnum&1);
    109 }
    110 
    111 U_CFUNC const UDataInfo *
    112 getDataInfo(const uint8_t *data, int32_t length,
    113             int32_t &infoLength, int32_t &headerLength,
    114             UErrorCode *pErrorCode) {
    115     const DataHeader *pHeader;
    116     const UDataInfo *pInfo;
    117 
    118     if(pErrorCode==NULL || U_FAILURE(*pErrorCode)) {
    119         return NULL;
    120     }
    121     if( data==NULL ||
    122         (length>=0 && length<(int32_t)sizeof(DataHeader))
    123     ) {
    124         *pErrorCode=U_ILLEGAL_ARGUMENT_ERROR;
    125         return NULL;
    126     }
    127 
    128     pHeader=(const DataHeader *)data;
    129     pInfo=&pHeader->info;
    130     if( (length>=0 && length<(int32_t)sizeof(DataHeader)) ||
    131         pHeader->dataHeader.magic1!=0xda ||
    132         pHeader->dataHeader.magic2!=0x27 ||
    133         pInfo->sizeofUChar!=2
    134     ) {
    135         *pErrorCode=U_UNSUPPORTED_ERROR;
    136         return NULL;
    137     }
    138 
    139     if(pInfo->isBigEndian==U_IS_BIG_ENDIAN) {
    140         headerLength=pHeader->dataHeader.headerSize;
    141         infoLength=pInfo->size;
    142     } else {
    143         headerLength=readSwapUInt16(pHeader->dataHeader.headerSize);
    144         infoLength=readSwapUInt16(pInfo->size);
    145     }
    146 
    147     if( headerLength<(int32_t)sizeof(DataHeader) ||
    148         infoLength<(int32_t)sizeof(UDataInfo) ||
    149         headerLength<(int32_t)(sizeof(pHeader->dataHeader)+infoLength) ||
    150         (length>=0 && length<headerLength)
    151     ) {
    152         *pErrorCode=U_UNSUPPORTED_ERROR;
    153         return NULL;
    154     }
    155 
    156     return pInfo;
    157 }
    158 
    159 static int32_t
    160 getTypeEnumForInputData(const uint8_t *data, int32_t length,
    161                         UErrorCode *pErrorCode) {
    162     const UDataInfo *pInfo;
    163     int32_t infoLength, headerLength;
    164 
    165     /* getDataInfo() checks for illegal arguments */
    166     pInfo=getDataInfo(data, length, infoLength, headerLength, pErrorCode);
    167     if(pInfo==NULL) {
    168         return -1;
    169     }
    170 
    171     return makeTypeEnum(pInfo->charsetFamily, (UBool)pInfo->isBigEndian);
    172 }
    173 
    174 // file handling ----------------------------------------------------------- ***
    175 
    176 static void
    177 extractPackageName(const char *filename,
    178                    char pkg[], int32_t capacity) {
    179     const char *basename;
    180     int32_t len;
    181 
    182     basename=findBasename(filename);
    183     len=(int32_t)strlen(basename)-4; /* -4: subtract the length of ".dat" */
    184 
    185     if(len<=0 || 0!=strcmp(basename+len, ".dat")) {
    186         fprintf(stderr, "icupkg: \"%s\" is not recognized as a package filename (must end with .dat)\n",
    187                          basename);
    188         exit(U_ILLEGAL_ARGUMENT_ERROR);
    189     }
    190 
    191     if(len>=capacity) {
    192         fprintf(stderr, "icupkg: the package name \"%s\" is too long (>=%ld)\n",
    193                          basename, (long)capacity);
    194         exit(U_ILLEGAL_ARGUMENT_ERROR);
    195     }
    196 
    197     memcpy(pkg, basename, len);
    198     pkg[len]=0;
    199 }
    200 
    201 static int32_t
    202 getFileLength(FILE *f) {
    203     int32_t length;
    204 
    205     fseek(f, 0, SEEK_END);
    206     length=(int32_t)ftell(f);
    207     fseek(f, 0, SEEK_SET);
    208     return length;
    209 }
    210 
    211 /*
    212  * Turn tree separators and alternate file separators into normal file separators.
    213  */
    214 #if U_TREE_ENTRY_SEP_CHAR==U_FILE_SEP_CHAR && U_FILE_ALT_SEP_CHAR==U_FILE_SEP_CHAR
    215 #define treeToPath(s)
    216 #else
    217 static void
    218 treeToPath(char *s) {
    219     char *t;
    220 
    221     for(t=s; *t!=0; ++t) {
    222         if(*t==U_TREE_ENTRY_SEP_CHAR || *t==U_FILE_ALT_SEP_CHAR) {
    223             *t=U_FILE_SEP_CHAR;
    224         }
    225     }
    226 }
    227 #endif
    228 
    229 /*
    230  * Turn file separators into tree separators.
    231  */
    232 #if U_TREE_ENTRY_SEP_CHAR==U_FILE_SEP_CHAR && U_FILE_ALT_SEP_CHAR==U_FILE_SEP_CHAR
    233 #define pathToTree(s)
    234 #else
    235 static void
    236 pathToTree(char *s) {
    237     char *t;
    238 
    239     for(t=s; *t!=0; ++t) {
    240         if(*t==U_FILE_SEP_CHAR || *t==U_FILE_ALT_SEP_CHAR) {
    241             *t=U_TREE_ENTRY_SEP_CHAR;
    242         }
    243     }
    244 }
    245 #endif
    246 
    247 /*
    248  * Prepend the path (if any) to the name and run the name through treeToName().
    249  */
    250 static void
    251 makeFullFilename(const char *path, const char *name,
    252                  char *filename, int32_t capacity) {
    253     char *s;
    254 
    255     // prepend the path unless NULL or empty
    256     if(path!=NULL && path[0]!=0) {
    257         if((int32_t)(strlen(path)+1)>=capacity) {
    258             fprintf(stderr, "pathname too long: \"%s\"\n", path);
    259             exit(U_BUFFER_OVERFLOW_ERROR);
    260         }
    261         strcpy(filename, path);
    262 
    263         // make sure the path ends with a file separator
    264         s=strchr(filename, 0);
    265         if(*(s-1)!=U_FILE_SEP_CHAR && *(s-1)!=U_FILE_ALT_SEP_CHAR) {
    266             *s++=U_FILE_SEP_CHAR;
    267         }
    268     } else {
    269         s=filename;
    270     }
    271 
    272     // turn the name into a filename, turn tree separators into file separators
    273     if((int32_t)((s-filename)+strlen(name))>=capacity) {
    274         fprintf(stderr, "path/filename too long: \"%s%s\"\n", filename, name);
    275         exit(U_BUFFER_OVERFLOW_ERROR);
    276     }
    277     strcpy(s, name);
    278     treeToPath(s);
    279 }
    280 
    281 static void
    282 makeFullFilenameAndDirs(const char *path, const char *name,
    283                         char *filename, int32_t capacity) {
    284     char *sep;
    285     UErrorCode errorCode;
    286 
    287     makeFullFilename(path, name, filename, capacity);
    288 
    289     // make tree directories
    290     errorCode=U_ZERO_ERROR;
    291     sep=strchr(filename, 0)-strlen(name);
    292     while((sep=strchr(sep, U_FILE_SEP_CHAR))!=NULL) {
    293         if(sep!=filename) {
    294             *sep=0;                 // truncate temporarily
    295             uprv_mkdir(filename, &errorCode);
    296             if(U_FAILURE(errorCode)) {
    297                 fprintf(stderr, "icupkg: unable to create tree directory \"%s\"\n", filename);
    298                 exit(U_FILE_ACCESS_ERROR);
    299             }
    300         }
    301         *sep++=U_FILE_SEP_CHAR; // restore file separator character
    302     }
    303 }
    304 
    305 static uint8_t *
    306 readFile(const char *path, const char *name, int32_t &length, char &type) {
    307     char filename[1024];
    308     FILE *file;
    309     uint8_t *data;
    310     UErrorCode errorCode;
    311     int32_t fileLength, typeEnum;
    312 
    313     makeFullFilename(path, name, filename, (int32_t)sizeof(filename));
    314 
    315     /* open the input file, get its length, allocate memory for it, read the file */
    316     file=fopen(filename, "rb");
    317     if(file==NULL) {
    318         fprintf(stderr, "icupkg: unable to open input file \"%s\"\n", filename);
    319         exit(U_FILE_ACCESS_ERROR);
    320     }
    321 
    322     /* get the file length */
    323     fileLength=getFileLength(file);
    324     if(ferror(file) || fileLength<=0) {
    325         fprintf(stderr, "icupkg: empty input file \"%s\"\n", filename);
    326         fclose(file);
    327         exit(U_FILE_ACCESS_ERROR);
    328     }
    329 
    330     /* allocate the buffer, pad to multiple of 16 */
    331     length=(fileLength+0xf)&~0xf;
    332     data=(uint8_t *)malloc(length);
    333     if(data==NULL) {
    334         fclose(file);
    335         exit(U_MEMORY_ALLOCATION_ERROR);
    336     }
    337 
    338     /* read the file */
    339     if(fileLength!=(int32_t)fread(data, 1, fileLength, file)) {
    340         fprintf(stderr, "icupkg: error reading \"%s\"\n", filename);
    341         fclose(file);
    342         free(data);
    343         exit(U_FILE_ACCESS_ERROR);
    344     }
    345 
    346     /* pad the file to a multiple of 16 using the usual padding byte */
    347     if(fileLength<length) {
    348         memset(data+fileLength, 0xaa, length-fileLength);
    349     }
    350 
    351     fclose(file);
    352 
    353     // minimum check for ICU-format data
    354     errorCode=U_ZERO_ERROR;
    355     typeEnum=getTypeEnumForInputData(data, length, &errorCode);
    356     if(typeEnum<0 || U_FAILURE(errorCode)) {
    357         fprintf(stderr, "icupkg: not an ICU data file: \"%s\"\n", filename);
    358         free(data);
    359 #if !UCONFIG_NO_LEGACY_CONVERSION
    360         exit(U_INVALID_FORMAT_ERROR);
    361 #else
    362         fprintf(stderr, "U_INVALID_FORMAT_ERROR occurred but UCONFIG_NO_LEGACY_CONVERSION is on so this is expected.\n");
    363         exit(0);
    364 #endif
    365     }
    366     type=makeTypeLetter(typeEnum);
    367 
    368     return data;
    369 }
    370 
    371 // .dat package file representation ---------------------------------------- ***
    372 
    373 U_CDECL_BEGIN
    374 
    375 static int32_t U_CALLCONV
    376 compareItems(const void * /*context*/, const void *left, const void *right) {
    377     U_NAMESPACE_USE
    378 
    379     return (int32_t)strcmp(((Item *)left)->name, ((Item *)right)->name);
    380 }
    381 
    382 U_CDECL_END
    383 
    384 U_NAMESPACE_BEGIN
    385 
    386 Package::Package() {
    387     inPkgName[0]=0;
    388     inData=NULL;
    389     inLength=0;
    390     inCharset=U_CHARSET_FAMILY;
    391     inIsBigEndian=U_IS_BIG_ENDIAN;
    392 
    393     itemCount=0;
    394     itemMax=0;
    395     items=NULL;
    396 
    397     inStringTop=outStringTop=0;
    398 
    399     matchMode=0;
    400     findPrefix=findSuffix=NULL;
    401     findPrefixLength=findSuffixLength=0;
    402     findNextIndex=-1;
    403 
    404     // create a header for an empty package
    405     DataHeader *pHeader;
    406     pHeader=(DataHeader *)header;
    407     pHeader->dataHeader.magic1=0xda;
    408     pHeader->dataHeader.magic2=0x27;
    409     memcpy(&pHeader->info, &dataInfo, sizeof(dataInfo));
    410     headerLength=(int32_t)(4+sizeof(dataInfo));
    411     if(headerLength&0xf) {
    412         /* NUL-pad the header to a multiple of 16 */
    413         int32_t length=(headerLength+0xf)&~0xf;
    414         memset(header+headerLength, 0, length-headerLength);
    415         headerLength=length;
    416     }
    417     pHeader->dataHeader.headerSize=(uint16_t)headerLength;
    418 }
    419 
    420 Package::~Package() {
    421     int32_t idx;
    422 
    423     free(inData);
    424 
    425     for(idx=0; idx<itemCount; ++idx) {
    426         if(items[idx].isDataOwned) {
    427             free(items[idx].data);
    428         }
    429     }
    430 
    431     uprv_free((void*)items);
    432 }
    433 
    434 void
    435 Package::readPackage(const char *filename) {
    436     UDataSwapper *ds;
    437     const UDataInfo *pInfo;
    438     UErrorCode errorCode;
    439 
    440     const uint8_t *inBytes;
    441 
    442     int32_t length, offset, i;
    443     int32_t itemLength, typeEnum;
    444     char type;
    445 
    446     const UDataOffsetTOCEntry *inEntries;
    447 
    448     extractPackageName(filename, inPkgName, (int32_t)sizeof(inPkgName));
    449 
    450     /* read the file */
    451     inData=readFile(NULL, filename, inLength, type);
    452     length=inLength;
    453 
    454     /*
    455      * swap the header - even if the swapping itself is a no-op
    456      * because it tells us the header length
    457      */
    458     errorCode=U_ZERO_ERROR;
    459     makeTypeProps(type, inCharset, inIsBigEndian);
    460     ds=udata_openSwapper(inIsBigEndian, inCharset, U_IS_BIG_ENDIAN, U_CHARSET_FAMILY, &errorCode);
    461     if(U_FAILURE(errorCode)) {
    462         fprintf(stderr, "icupkg: udata_openSwapper(\"%s\") failed - %s\n",
    463                 filename, u_errorName(errorCode));
    464         exit(errorCode);
    465     }
    466 
    467     ds->printError=printPackageError;
    468     ds->printErrorContext=stderr;
    469 
    470     headerLength=sizeof(header);
    471     if(length<headerLength) {
    472         headerLength=length;
    473     }
    474     headerLength=udata_swapDataHeader(ds, inData, headerLength, header, &errorCode);
    475     if(U_FAILURE(errorCode)) {
    476         exit(errorCode);
    477     }
    478 
    479     /* check data format and format version */
    480     pInfo=(const UDataInfo *)((const char *)inData+4);
    481     if(!(
    482         pInfo->dataFormat[0]==0x43 &&   /* dataFormat="CmnD" */
    483         pInfo->dataFormat[1]==0x6d &&
    484         pInfo->dataFormat[2]==0x6e &&
    485         pInfo->dataFormat[3]==0x44 &&
    486         pInfo->formatVersion[0]==1
    487     )) {
    488         fprintf(stderr, "icupkg: data format %02x.%02x.%02x.%02x (format version %02x) is not recognized as an ICU .dat package\n",
    489                 pInfo->dataFormat[0], pInfo->dataFormat[1],
    490                 pInfo->dataFormat[2], pInfo->dataFormat[3],
    491                 pInfo->formatVersion[0]);
    492         exit(U_UNSUPPORTED_ERROR);
    493     }
    494     inIsBigEndian=(UBool)pInfo->isBigEndian;
    495     inCharset=pInfo->charsetFamily;
    496 
    497     inBytes=(const uint8_t *)inData+headerLength;
    498     inEntries=(const UDataOffsetTOCEntry *)(inBytes+4);
    499 
    500     /* check that the itemCount fits, then the ToC table, then at least the header of the last item */
    501     length-=headerLength;
    502     if(length<4) {
    503         /* itemCount does not fit */
    504         offset=0x7fffffff;
    505     } else {
    506         itemCount=udata_readInt32(ds, *(const int32_t *)inBytes);
    507         setItemCapacity(itemCount); /* resize so there's space */
    508         if(itemCount==0) {
    509             offset=4;
    510         } else if(length<(4+8*itemCount)) {
    511             /* ToC table does not fit */
    512             offset=0x7fffffff;
    513         } else {
    514             /* offset of the last item plus at least 20 bytes for its header */
    515             offset=20+(int32_t)ds->readUInt32(inEntries[itemCount-1].dataOffset);
    516         }
    517     }
    518     if(length<offset) {
    519         fprintf(stderr, "icupkg: too few bytes (%ld after header) for a .dat package\n",
    520                         (long)length);
    521         exit(U_INDEX_OUTOFBOUNDS_ERROR);
    522     }
    523     /* do not modify the package length variable until the last item's length is set */
    524 
    525     if(itemCount>0) {
    526         char prefix[MAX_PKG_NAME_LENGTH+4];
    527         char *s, *inItemStrings;
    528         int32_t inPkgNameLength, prefixLength, stringsOffset;
    529 
    530         if(itemCount>itemMax) {
    531             fprintf(stderr, "icupkg: too many items, maximum is %d\n", itemMax);
    532             exit(U_BUFFER_OVERFLOW_ERROR);
    533         }
    534 
    535         /* swap the item name strings */
    536         stringsOffset=4+8*itemCount;
    537         itemLength=(int32_t)(ds->readUInt32(inEntries[0].dataOffset))-stringsOffset;
    538 
    539         // don't include padding bytes at the end of the item names
    540         while(itemLength>0 && inBytes[stringsOffset+itemLength-1]!=0) {
    541             --itemLength;
    542         }
    543 
    544         if((inStringTop+itemLength)>STRING_STORE_SIZE) {
    545             fprintf(stderr, "icupkg: total length of item name strings too long\n");
    546             exit(U_BUFFER_OVERFLOW_ERROR);
    547         }
    548 
    549         inItemStrings=inStrings+inStringTop;
    550         ds->swapInvChars(ds, inBytes+stringsOffset, itemLength, inItemStrings, &errorCode);
    551         if(U_FAILURE(errorCode)) {
    552             fprintf(stderr, "icupkg failed to swap the input .dat package item name strings\n");
    553             exit(U_INVALID_FORMAT_ERROR);
    554         }
    555         inStringTop+=itemLength;
    556 
    557         // reset the Item entries
    558         memset(items, 0, itemCount*sizeof(Item));
    559 
    560         inPkgNameLength=strlen(inPkgName);
    561         memcpy(prefix, inPkgName, inPkgNameLength);
    562         prefixLength=inPkgNameLength;
    563 
    564         /*
    565          * Get the common prefix of the items.
    566          * New-style ICU .dat packages use tree separators ('/') between package names,
    567          * tree names, and item names,
    568          * while old-style ICU .dat packages (before multi-tree support)
    569          * use an underscore ('_') between package and item names.
    570          */
    571         offset=(int32_t)ds->readUInt32(inEntries[0].nameOffset)-stringsOffset;
    572         s=inItemStrings+offset;
    573         if( (int32_t)strlen(s)>=(inPkgNameLength+2) &&
    574             0==memcmp(s, inPkgName, inPkgNameLength) &&
    575             s[inPkgNameLength]=='_'
    576         ) {
    577             // old-style .dat package
    578             prefix[prefixLength++]='_';
    579         } else {
    580             // new-style .dat package
    581             prefix[prefixLength++]=U_TREE_ENTRY_SEP_CHAR;
    582             // if it turns out to not contain U_TREE_ENTRY_SEP_CHAR
    583             // then the test in the loop below will fail
    584         }
    585         prefix[prefixLength]=0;
    586 
    587         /* read the ToC table */
    588         for(i=0; i<itemCount; ++i) {
    589             // skip the package part of the item name, error if it does not match the actual package name
    590             // or if nothing follows the package name
    591             offset=(int32_t)ds->readUInt32(inEntries[i].nameOffset)-stringsOffset;
    592             s=inItemStrings+offset;
    593             if(0!=strncmp(s, prefix, prefixLength) || s[prefixLength]==0) {
    594                 fprintf(stderr, "icupkg: input .dat item name \"%s\" does not start with \"%s\"\n",
    595                         s, prefix);
    596                 exit(U_UNSUPPORTED_ERROR);
    597             }
    598             items[i].name=s+prefixLength;
    599 
    600             // set the item's data
    601             items[i].data=(uint8_t *)inBytes+ds->readUInt32(inEntries[i].dataOffset);
    602             if(i>0) {
    603                 items[i-1].length=(int32_t)(items[i].data-items[i-1].data);
    604 
    605                 // set the previous item's platform type
    606                 typeEnum=getTypeEnumForInputData(items[i-1].data, items[i-1].length, &errorCode);
    607                 if(typeEnum<0 || U_FAILURE(errorCode)) {
    608                     fprintf(stderr, "icupkg: not an ICU data file: item \"%s\" in \"%s\"\n", items[i-1].name, filename);
    609                     exit(U_INVALID_FORMAT_ERROR);
    610                 }
    611                 items[i-1].type=makeTypeLetter(typeEnum);
    612             }
    613             items[i].isDataOwned=FALSE;
    614         }
    615         // set the last item's length
    616         items[itemCount-1].length=length-ds->readUInt32(inEntries[itemCount-1].dataOffset);
    617 
    618         // set the last item's platform type
    619         typeEnum=getTypeEnumForInputData(items[itemCount-1].data, items[itemCount-1].length, &errorCode);
    620         if(typeEnum<0 || U_FAILURE(errorCode)) {
    621             fprintf(stderr, "icupkg: not an ICU data file: item \"%s\" in \"%s\"\n", items[i-1].name, filename);
    622             exit(U_INVALID_FORMAT_ERROR);
    623         }
    624         items[itemCount-1].type=makeTypeLetter(typeEnum);
    625 
    626         if(type!=U_ICUDATA_TYPE_LETTER[0]) {
    627             // sort the item names for the local charset
    628             sortItems();
    629         }
    630     }
    631 
    632     udata_closeSwapper(ds);
    633 }
    634 
    635 char
    636 Package::getInType() {
    637     return makeTypeLetter(inCharset, inIsBigEndian);
    638 }
    639 
    640 void
    641 Package::writePackage(const char *filename, char outType, const char *comment) {
    642     char prefix[MAX_PKG_NAME_LENGTH+4];
    643     UDataOffsetTOCEntry entry;
    644     UDataSwapper *dsLocalToOut, *ds[TYPE_COUNT];
    645     FILE *file;
    646     Item *pItem;
    647     char *name;
    648     UErrorCode errorCode;
    649     int32_t i, length, prefixLength, maxItemLength, basenameOffset, offset, outInt32;
    650     uint8_t outCharset;
    651     UBool outIsBigEndian;
    652 
    653     extractPackageName(filename, prefix, MAX_PKG_NAME_LENGTH);
    654 
    655     // if there is an explicit comment, then use it, else use what's in the current header
    656     if(comment!=NULL) {
    657         /* get the header size minus the current comment */
    658         DataHeader *pHeader;
    659         int32_t length;
    660 
    661         pHeader=(DataHeader *)header;
    662         headerLength=4+pHeader->info.size;
    663         length=(int32_t)strlen(comment);
    664         if((int32_t)(headerLength+length)>=(int32_t)sizeof(header)) {
    665             fprintf(stderr, "icupkg: comment too long\n");
    666             exit(U_BUFFER_OVERFLOW_ERROR);
    667         }
    668         memcpy(header+headerLength, comment, length+1);
    669         headerLength+=length;
    670         if(headerLength&0xf) {
    671             /* NUL-pad the header to a multiple of 16 */
    672             length=(headerLength+0xf)&~0xf;
    673             memset(header+headerLength, 0, length-headerLength);
    674             headerLength=length;
    675         }
    676         pHeader->dataHeader.headerSize=(uint16_t)headerLength;
    677     }
    678 
    679     makeTypeProps(outType, outCharset, outIsBigEndian);
    680 
    681     // open (TYPE_COUNT-2) swappers
    682     // one is a no-op for local type==outType
    683     // one type (TYPE_LE) is bogus
    684     errorCode=U_ZERO_ERROR;
    685     i=makeTypeEnum(outType);
    686     ds[TYPE_B]= i==TYPE_B ? NULL : udata_openSwapper(TRUE, U_ASCII_FAMILY, outIsBigEndian, outCharset, &errorCode);
    687     ds[TYPE_L]= i==TYPE_L ? NULL : udata_openSwapper(FALSE, U_ASCII_FAMILY, outIsBigEndian, outCharset, &errorCode);
    688     ds[TYPE_LE]=NULL;
    689     ds[TYPE_E]= i==TYPE_E ? NULL : udata_openSwapper(TRUE, U_EBCDIC_FAMILY, outIsBigEndian, outCharset, &errorCode);
    690     if(U_FAILURE(errorCode)) {
    691         fprintf(stderr, "icupkg: udata_openSwapper() failed - %s\n", u_errorName(errorCode));
    692         exit(errorCode);
    693     }
    694     for(i=0; i<TYPE_COUNT; ++i) {
    695         if(ds[i]!=NULL) {
    696             ds[i]->printError=printPackageError;
    697             ds[i]->printErrorContext=stderr;
    698         }
    699     }
    700 
    701     dsLocalToOut=ds[makeTypeEnum(U_CHARSET_FAMILY, U_IS_BIG_ENDIAN)];
    702 
    703     // create the file and write its contents
    704     file=fopen(filename, "wb");
    705     if(file==NULL) {
    706         fprintf(stderr, "icupkg: unable to create file \"%s\"\n", filename);
    707         exit(U_FILE_ACCESS_ERROR);
    708     }
    709 
    710     // swap and write the header
    711     if(dsLocalToOut!=NULL) {
    712         udata_swapDataHeader(dsLocalToOut, header, headerLength, header, &errorCode);
    713         if(U_FAILURE(errorCode)) {
    714             fprintf(stderr, "icupkg: udata_swapDataHeader(local to out) failed - %s\n", u_errorName(errorCode));
    715             exit(errorCode);
    716         }
    717     }
    718     length=(int32_t)fwrite(header, 1, headerLength, file);
    719     if(length!=headerLength) {
    720         fprintf(stderr, "icupkg: unable to write complete header to file \"%s\"\n", filename);
    721         exit(U_FILE_ACCESS_ERROR);
    722     }
    723 
    724     // prepare and swap the package name with a tree separator
    725     // for prepending to item names
    726     strcat(prefix, U_TREE_ENTRY_SEP_STRING);
    727     prefixLength=(int32_t)strlen(prefix);
    728     if(dsLocalToOut!=NULL) {
    729         dsLocalToOut->swapInvChars(dsLocalToOut, prefix, prefixLength, prefix, &errorCode);
    730         if(U_FAILURE(errorCode)) {
    731             fprintf(stderr, "icupkg: swapInvChars(output package name) failed - %s\n", u_errorName(errorCode));
    732             exit(errorCode);
    733         }
    734 
    735         // swap and sort the item names (sorting needs to be done in the output charset)
    736         dsLocalToOut->swapInvChars(dsLocalToOut, inStrings, inStringTop, inStrings, &errorCode);
    737         if(U_FAILURE(errorCode)) {
    738             fprintf(stderr, "icupkg: swapInvChars(item names) failed - %s\n", u_errorName(errorCode));
    739             exit(errorCode);
    740         }
    741         sortItems();
    742     }
    743 
    744     // create the output item names in sorted order, with the package name prepended to each
    745     for(i=0; i<itemCount; ++i) {
    746         length=(int32_t)strlen(items[i].name);
    747         name=allocString(FALSE, length+prefixLength);
    748         memcpy(name, prefix, prefixLength);
    749         memcpy(name+prefixLength, items[i].name, length+1);
    750         items[i].name=name;
    751     }
    752 
    753     // calculate offsets for item names and items, pad to 16-align items
    754     // align only the first item; each item's length is a multiple of 16
    755     basenameOffset=4+8*itemCount;
    756     offset=basenameOffset+outStringTop;
    757     if((length=(offset&15))!=0) {
    758         length=16-length;
    759         memset(allocString(FALSE, length-1), 0xaa, length);
    760         offset+=length;
    761     }
    762 
    763     // write the table of contents
    764     // first the itemCount
    765     outInt32=itemCount;
    766     if(dsLocalToOut!=NULL) {
    767         dsLocalToOut->swapArray32(dsLocalToOut, &outInt32, 4, &outInt32, &errorCode);
    768         if(U_FAILURE(errorCode)) {
    769             fprintf(stderr, "icupkg: swapArray32(item count) failed - %s\n", u_errorName(errorCode));
    770             exit(errorCode);
    771         }
    772     }
    773     length=(int32_t)fwrite(&outInt32, 1, 4, file);
    774     if(length!=4) {
    775         fprintf(stderr, "icupkg: unable to write complete item count to file \"%s\"\n", filename);
    776         exit(U_FILE_ACCESS_ERROR);
    777     }
    778 
    779     // then write the item entries (and collect the maxItemLength)
    780     maxItemLength=0;
    781     for(i=0; i<itemCount; ++i) {
    782         entry.nameOffset=(uint32_t)(basenameOffset+(items[i].name-outStrings));
    783         entry.dataOffset=(uint32_t)offset;
    784         if(dsLocalToOut!=NULL) {
    785             dsLocalToOut->swapArray32(dsLocalToOut, &entry, 8, &entry, &errorCode);
    786             if(U_FAILURE(errorCode)) {
    787                 fprintf(stderr, "icupkg: swapArray32(item entry %ld) failed - %s\n", (long)i, u_errorName(errorCode));
    788                 exit(errorCode);
    789             }
    790         }
    791         length=(int32_t)fwrite(&entry, 1, 8, file);
    792         if(length!=8) {
    793             fprintf(stderr, "icupkg: unable to write complete item entry %ld to file \"%s\"\n", (long)i, filename);
    794             exit(U_FILE_ACCESS_ERROR);
    795         }
    796 
    797         length=items[i].length;
    798         if(length>maxItemLength) {
    799             maxItemLength=length;
    800         }
    801         offset+=length;
    802     }
    803 
    804     // write the item names
    805     length=(int32_t)fwrite(outStrings, 1, outStringTop, file);
    806     if(length!=outStringTop) {
    807         fprintf(stderr, "icupkg: unable to write complete item names to file \"%s\"\n", filename);
    808         exit(U_FILE_ACCESS_ERROR);
    809     }
    810 
    811     // write the items
    812     for(pItem=items, i=0; i<itemCount; ++pItem, ++i) {
    813         int32_t type=makeTypeEnum(pItem->type);
    814         if(ds[type]!=NULL) {
    815             // swap each item from its platform properties to the desired ones
    816             udata_swap(
    817                 ds[type],
    818                 pItem->data, pItem->length, pItem->data,
    819                 &errorCode);
    820             if(U_FAILURE(errorCode)) {
    821                 fprintf(stderr, "icupkg: udata_swap(item %ld) failed - %s\n", (long)i, u_errorName(errorCode));
    822                 exit(errorCode);
    823             }
    824         }
    825         length=(int32_t)fwrite(pItem->data, 1, pItem->length, file);
    826         if(length!=pItem->length) {
    827             fprintf(stderr, "icupkg: unable to write complete item %ld to file \"%s\"\n", (long)i, filename);
    828             exit(U_FILE_ACCESS_ERROR);
    829         }
    830     }
    831 
    832     if(ferror(file)) {
    833         fprintf(stderr, "icupkg: unable to write complete file \"%s\"\n", filename);
    834         exit(U_FILE_ACCESS_ERROR);
    835     }
    836 
    837     fclose(file);
    838     for(i=0; i<TYPE_COUNT; ++i) {
    839         udata_closeSwapper(ds[i]);
    840     }
    841 }
    842 
    843 int32_t
    844 Package::findItem(const char *name, int32_t length) const {
    845     int32_t i, start, limit;
    846     int result;
    847 
    848     /* do a binary search for the string */
    849     start=0;
    850     limit=itemCount;
    851     while(start<limit) {
    852         i=(start+limit)/2;
    853         if(length>=0) {
    854             result=strncmp(name, items[i].name, length);
    855         } else {
    856             result=strcmp(name, items[i].name);
    857         }
    858 
    859         if(result==0) {
    860             /* found */
    861             if(length>=0) {
    862                 /*
    863                  * if we compared just prefixes, then we may need to back up
    864                  * to the first item with this prefix
    865                  */
    866                 while(i>0 && 0==strncmp(name, items[i-1].name, length)) {
    867                     --i;
    868                 }
    869             }
    870             return i;
    871         } else if(result<0) {
    872             limit=i;
    873         } else /* result>0 */ {
    874             start=i+1;
    875         }
    876     }
    877 
    878     return ~start; /* not found, return binary-not of the insertion point */
    879 }
    880 
    881 void
    882 Package::findItems(const char *pattern) {
    883     const char *wild;
    884 
    885     if(pattern==NULL || *pattern==0) {
    886         findNextIndex=-1;
    887         return;
    888     }
    889 
    890     findPrefix=pattern;
    891     findSuffix=NULL;
    892     findSuffixLength=0;
    893 
    894     wild=strchr(pattern, '*');
    895     if(wild==NULL) {
    896         // no wildcard
    897         findPrefixLength=(int32_t)strlen(pattern);
    898     } else {
    899         // one wildcard
    900         findPrefixLength=(int32_t)(wild-pattern);
    901         findSuffix=wild+1;
    902         findSuffixLength=(int32_t)strlen(findSuffix);
    903         if(NULL!=strchr(findSuffix, '*')) {
    904             // two or more wildcards
    905             fprintf(stderr, "icupkg: syntax error (more than one '*') in item pattern \"%s\"\n", pattern);
    906             exit(U_PARSE_ERROR);
    907         }
    908     }
    909 
    910     if(findPrefixLength==0) {
    911         findNextIndex=0;
    912     } else {
    913         findNextIndex=findItem(findPrefix, findPrefixLength);
    914     }
    915 }
    916 
    917 int32_t
    918 Package::findNextItem() {
    919     const char *name, *middle, *treeSep;
    920     int32_t idx, nameLength, middleLength;
    921 
    922     if(findNextIndex<0) {
    923         return -1;
    924     }
    925 
    926     while(findNextIndex<itemCount) {
    927         idx=findNextIndex++;
    928         name=items[idx].name;
    929         nameLength=(int32_t)strlen(name);
    930         if(nameLength<(findPrefixLength+findSuffixLength)) {
    931             // item name too short for prefix & suffix
    932             continue;
    933         }
    934         if(findPrefixLength>0 && 0!=memcmp(findPrefix, name, findPrefixLength)) {
    935             // left the range of names with this prefix
    936             break;
    937         }
    938         middle=name+findPrefixLength;
    939         middleLength=nameLength-findPrefixLength-findSuffixLength;
    940         if(findSuffixLength>0 && 0!=memcmp(findSuffix, name+(nameLength-findSuffixLength), findSuffixLength)) {
    941             // suffix does not match
    942             continue;
    943         }
    944         // prefix & suffix match
    945 
    946         if(matchMode&MATCH_NOSLASH) {
    947             treeSep=strchr(middle, U_TREE_ENTRY_SEP_CHAR);
    948             if(treeSep!=NULL && (treeSep-middle)<middleLength) {
    949                 // the middle (matching the * wildcard) contains a tree separator /
    950                 continue;
    951             }
    952         }
    953 
    954         // found a matching item
    955         return idx;
    956     }
    957 
    958     // no more items
    959     findNextIndex=-1;
    960     return -1;
    961 }
    962 
    963 void
    964 Package::setMatchMode(uint32_t mode) {
    965     matchMode=mode;
    966 }
    967 
    968 void
    969 Package::addItem(const char *name) {
    970     addItem(name, NULL, 0, FALSE, U_ICUDATA_TYPE_LETTER[0]);
    971 }
    972 
    973 void
    974 Package::addItem(const char *name, uint8_t *data, int32_t length, UBool isDataOwned, char type) {
    975     int32_t idx;
    976 
    977     idx=findItem(name);
    978     if(idx<0) {
    979         // new item, make space at the insertion point
    980         ensureItemCapacity();
    981         // move the following items down
    982         idx=~idx;
    983         if(idx<itemCount) {
    984             memmove(items+idx+1, items+idx, (itemCount-idx)*sizeof(Item));
    985         }
    986         ++itemCount;
    987 
    988         // reset this Item entry
    989         memset(items+idx, 0, sizeof(Item));
    990 
    991         // copy the item's name
    992         items[idx].name=allocString(TRUE, strlen(name));
    993         strcpy(items[idx].name, name);
    994         pathToTree(items[idx].name);
    995     } else {
    996         // same-name item found, replace it
    997         if(items[idx].isDataOwned) {
    998             free(items[idx].data);
    999         }
   1000 
   1001         // keep the item's name since it is the same
   1002     }
   1003 
   1004     // set the item's data
   1005     items[idx].data=data;
   1006     items[idx].length=length;
   1007     items[idx].isDataOwned=isDataOwned;
   1008     items[idx].type=type;
   1009 }
   1010 
   1011 void
   1012 Package::addFile(const char *filesPath, const char *name) {
   1013     uint8_t *data;
   1014     int32_t length;
   1015     char type;
   1016 
   1017     data=readFile(filesPath, name, length, type);
   1018     // readFile() exits the tool if it fails
   1019     addItem(name, data, length, TRUE, type);
   1020 }
   1021 
   1022 void
   1023 Package::addItems(const Package &listPkg) {
   1024     const Item *pItem;
   1025     int32_t i;
   1026 
   1027     for(pItem=listPkg.items, i=0; i<listPkg.itemCount; ++pItem, ++i) {
   1028         addItem(pItem->name, pItem->data, pItem->length, FALSE, pItem->type);
   1029     }
   1030 }
   1031 
   1032 void
   1033 Package::removeItem(int32_t idx) {
   1034     if(idx>=0) {
   1035         // remove the item
   1036         if(items[idx].isDataOwned) {
   1037             free(items[idx].data);
   1038         }
   1039 
   1040         // move the following items up
   1041         if((idx+1)<itemCount) {
   1042             memmove(items+idx, items+idx+1, (itemCount-(idx+1))*sizeof(Item));
   1043         }
   1044         --itemCount;
   1045 
   1046         if(idx<=findNextIndex) {
   1047             --findNextIndex;
   1048         }
   1049     }
   1050 }
   1051 
   1052 void
   1053 Package::removeItems(const char *pattern) {
   1054     int32_t idx;
   1055 
   1056     findItems(pattern);
   1057     while((idx=findNextItem())>=0) {
   1058         removeItem(idx);
   1059     }
   1060 }
   1061 
   1062 void
   1063 Package::removeItems(const Package &listPkg) {
   1064     const Item *pItem;
   1065     int32_t i;
   1066 
   1067     for(pItem=listPkg.items, i=0; i<listPkg.itemCount; ++pItem, ++i) {
   1068         removeItems(pItem->name);
   1069     }
   1070 }
   1071 
   1072 void
   1073 Package::extractItem(const char *filesPath, const char *outName, int32_t idx, char outType) {
   1074     char filename[1024];
   1075     UDataSwapper *ds;
   1076     FILE *file;
   1077     Item *pItem;
   1078     int32_t fileLength;
   1079     uint8_t itemCharset, outCharset;
   1080     UBool itemIsBigEndian, outIsBigEndian;
   1081 
   1082     if(idx<0 || itemCount<=idx) {
   1083         return;
   1084     }
   1085     pItem=items+idx;
   1086 
   1087     // swap the data to the outType
   1088     // outType==0: don't swap
   1089     if(outType!=0 && pItem->type!=outType) {
   1090         // open the swapper
   1091         UErrorCode errorCode=U_ZERO_ERROR;
   1092         makeTypeProps(pItem->type, itemCharset, itemIsBigEndian);
   1093         makeTypeProps(outType, outCharset, outIsBigEndian);
   1094         ds=udata_openSwapper(itemIsBigEndian, itemCharset, outIsBigEndian, outCharset, &errorCode);
   1095         if(U_FAILURE(errorCode)) {
   1096             fprintf(stderr, "icupkg: udata_openSwapper(item %ld) failed - %s\n",
   1097                     (long)idx, u_errorName(errorCode));
   1098             exit(errorCode);
   1099         }
   1100 
   1101         ds->printError=printPackageError;
   1102         ds->printErrorContext=stderr;
   1103 
   1104         // swap the item from its platform properties to the desired ones
   1105         udata_swap(ds, pItem->data, pItem->length, pItem->data, &errorCode);
   1106         if(U_FAILURE(errorCode)) {
   1107             fprintf(stderr, "icupkg: udata_swap(item %ld) failed - %s\n", (long)idx, u_errorName(errorCode));
   1108             exit(errorCode);
   1109         }
   1110         udata_closeSwapper(ds);
   1111         pItem->type=outType;
   1112     }
   1113 
   1114     // create the file and write its contents
   1115     makeFullFilenameAndDirs(filesPath, outName, filename, (int32_t)sizeof(filename));
   1116     file=fopen(filename, "wb");
   1117     if(file==NULL) {
   1118         fprintf(stderr, "icupkg: unable to create file \"%s\"\n", filename);
   1119         exit(U_FILE_ACCESS_ERROR);
   1120     }
   1121     fileLength=(int32_t)fwrite(pItem->data, 1, pItem->length, file);
   1122 
   1123     if(ferror(file) || fileLength!=pItem->length) {
   1124         fprintf(stderr, "icupkg: unable to write complete file \"%s\"\n", filename);
   1125         exit(U_FILE_ACCESS_ERROR);
   1126     }
   1127     fclose(file);
   1128 }
   1129 
   1130 void
   1131 Package::extractItem(const char *filesPath, int32_t idx, char outType) {
   1132     extractItem(filesPath, items[idx].name, idx, outType);
   1133 }
   1134 
   1135 void
   1136 Package::extractItems(const char *filesPath, const char *pattern, char outType) {
   1137     int32_t idx;
   1138 
   1139     findItems(pattern);
   1140     while((idx=findNextItem())>=0) {
   1141         extractItem(filesPath, idx, outType);
   1142     }
   1143 }
   1144 
   1145 void
   1146 Package::extractItems(const char *filesPath, const Package &listPkg, char outType) {
   1147     const Item *pItem;
   1148     int32_t i;
   1149 
   1150     for(pItem=listPkg.items, i=0; i<listPkg.itemCount; ++pItem, ++i) {
   1151         extractItems(filesPath, pItem->name, outType);
   1152     }
   1153 }
   1154 
   1155 int32_t
   1156 Package::getItemCount() const {
   1157     return itemCount;
   1158 }
   1159 
   1160 const Item *
   1161 Package::getItem(int32_t idx) const {
   1162     if (0 <= idx && idx < itemCount) {
   1163         return &items[idx];
   1164     }
   1165     return NULL;
   1166 }
   1167 
   1168 void
   1169 Package::checkDependency(void *context, const char *itemName, const char *targetName) {
   1170     // check dependency: make sure the target item is in the package
   1171     Package *me=(Package *)context;
   1172     if(me->findItem(targetName)<0) {
   1173         me->isMissingItems=TRUE;
   1174         fprintf(stderr, "Item %s depends on missing item %s\n", itemName, targetName);
   1175     }
   1176 }
   1177 
   1178 UBool
   1179 Package::checkDependencies() {
   1180     isMissingItems=FALSE;
   1181     enumDependencies(this, checkDependency);
   1182     return (UBool)!isMissingItems;
   1183 }
   1184 
   1185 void
   1186 Package::enumDependencies(void *context, CheckDependency check) {
   1187     int32_t i;
   1188 
   1189     for(i=0; i<itemCount; ++i) {
   1190         enumDependencies(items+i, context, check);
   1191     }
   1192 }
   1193 
   1194 char *
   1195 Package::allocString(UBool in, int32_t length) {
   1196     char *p;
   1197     int32_t top;
   1198 
   1199     if(in) {
   1200         top=inStringTop;
   1201         p=inStrings+top;
   1202     } else {
   1203         top=outStringTop;
   1204         p=outStrings+top;
   1205     }
   1206     top+=length+1;
   1207 
   1208     if(top>STRING_STORE_SIZE) {
   1209         fprintf(stderr, "icupkg: string storage overflow\n");
   1210         exit(U_BUFFER_OVERFLOW_ERROR);
   1211     }
   1212     if(in) {
   1213         inStringTop=top;
   1214     } else {
   1215         outStringTop=top;
   1216     }
   1217     return p;
   1218 }
   1219 
   1220 void
   1221 Package::sortItems() {
   1222     UErrorCode errorCode=U_ZERO_ERROR;
   1223     uprv_sortArray(items, itemCount, (int32_t)sizeof(Item), compareItems, NULL, FALSE, &errorCode);
   1224     if(U_FAILURE(errorCode)) {
   1225         fprintf(stderr, "icupkg: sorting item names failed - %s\n", u_errorName(errorCode));
   1226         exit(errorCode);
   1227     }
   1228 }
   1229 
   1230 void Package::setItemCapacity(int32_t max)
   1231 {
   1232   if(max<=itemMax) {
   1233     return;
   1234   }
   1235   Item *newItems = (Item*)uprv_malloc(max * sizeof(items[0]));
   1236   Item *oldItems = items;
   1237   if(newItems == NULL) {
   1238     fprintf(stderr, "icupkg: Out of memory trying to allocate %ld bytes for %d items\n", max*sizeof(items[0]), max);
   1239     exit(U_MEMORY_ALLOCATION_ERROR);
   1240   }
   1241   if(items && itemCount>0) {
   1242     uprv_memcpy(newItems, items, itemCount*sizeof(items[0]));
   1243   }
   1244   itemMax = max;
   1245   items = newItems;
   1246   uprv_free(oldItems);
   1247 }
   1248 
   1249 void Package::ensureItemCapacity()
   1250 {
   1251   if((itemCount+1)>itemMax) {
   1252     setItemCapacity(itemCount+kItemsChunk);
   1253   }
   1254 }
   1255 
   1256 U_NAMESPACE_END
   1257