/* * Copyright (c) 1999-2009 Apple Inc. All rights reserved. * * @APPLE_LICENSE_HEADER_START@ * * The contents of this file constitute Original Code as defined in and * are subject to the Apple Public Source License Version 1.1 (the * "License"). You may not use this file except in compliance with the * License. Please obtain a copy of the License at * http://www.apple.com/publicsource and read it before using this file. * * This Original Code and all software distributed under the License are * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the * License for the specific language governing rights and limitations * under the License. * * @APPLE_LICENSE_HEADER_END@ */ /* * HISTORY * * 09 Dec 99 rsulack created by rsulack */ // parser for unserializing OSContainer objects serialized to XML // // to build : // bison -p IOCFUnserialize -o IOCFUnserialize.temp IOCFUnserialize.yacc // head -50 IOCFUnserialize.yacc > IOCFUnserialize.tab.c // cat IOCFUnserialize.temp >> IOCFUnserialize.tab.c // // when changing code check in both IOCFUnserialize.yacc and IOCFUnserialize.tab.c // // // // // // DO NOT EDIT IOCFUnserialize.tab.c // // this means you! // // // // // // %pure_parser %{ #include #include #include #include #include #include #include #include #include #include #include #include #include #define YYSTYPE object_t * #define YYPARSE_PARAM state #define YYLEX_PARAM (parser_state_t *)state // this is the internal struct used to hold objects on parser stack // it represents objects both before and after they have been created typedef struct object { struct object *next; struct object *free; struct object *elements; CFTypeRef object; CFStringRef key; // for dictionary int size; void *data; // for data char *string; // for string & symbol long long number; // for number int idref; } object_t; // this code is reentrant, this structure contains all // state information for the parsing of a single buffer typedef struct parser_state { const char *parseBuffer; // start of text to be parsed int parseBufferIndex; // current index into text int lineNumber; // current line number CFAllocatorRef allocator; // which allocator to use object_t *objects; // internal objects in use object_t *freeObjects; // internal objects that are free CFMutableDictionaryRef tags; // used to remember "ID" tags CFStringRef *errorString; // parse error with line CFTypeRef parsedObject; // resultant object of parsed text } parser_state_t; #define STATE ((parser_state_t *)state) #undef yyerror #define yyerror(s) IOCFUnserializeerror(STATE, (s)) static int IOCFUnserializeerror(parser_state_t *state, const char *s); static int yylex(YYSTYPE *lvalp, parser_state_t *state); static object_t *newObject(parser_state_t *state); static void freeObject(parser_state_t *state, object_t *o); static void rememberObject(parser_state_t *state, intptr_t tag, CFTypeRef o); static object_t *retrieveObject(parser_state_t *state, intptr_t tag); static void cleanupObjects(parser_state_t *state); static object_t *buildDictionary(parser_state_t *state, object_t *o); static object_t *buildArray(parser_state_t *state, object_t *o); static object_t *buildSet(parser_state_t *state, object_t *o); static object_t *buildString(parser_state_t *state, object_t *o); static object_t *buildData(parser_state_t *state, object_t *o); static object_t *buildNumber(parser_state_t *state, object_t *o); static object_t *buildBoolean(parser_state_t *state, object_t *o); %} %token ARRAY %token BOOLEAN %token DATA %token DICTIONARY %token IDREF %token KEY %token NUMBER %token SET %token STRING %token SYNTAX_ERROR %% /* Grammar rules and actions follow */ input: /* empty */ { yyerror("unexpected end of buffer"); YYERROR; } | object { STATE->parsedObject = $1->object; $1->object = 0; freeObject(STATE, $1); YYACCEPT; } | SYNTAX_ERROR { yyerror("syntax error"); YYERROR; } ; object: dict { $$ = buildDictionary(STATE, $1); } | array { $$ = buildArray(STATE, $1); } | set { $$ = buildSet(STATE, $1); } | string { $$ = buildString(STATE, $1); } | data { $$ = buildData(STATE, $1); } | number { $$ = buildNumber(STATE, $1); } | boolean { $$ = buildBoolean(STATE, $1); } | idref { $$ = retrieveObject(STATE, $1->idref); if ($$) { CFRetain($$->object); } else { yyerror("forward reference detected"); YYERROR; } freeObject(STATE, $1); } ; //------------------------------------------------------------------------------ dict: '{' '}' { $$ = $1; $$->elements = NULL; } | '{' pairs '}' { $$ = $1; $$->elements = $2; } | DICTIONARY ; pairs: pair | pairs pair { $$ = $2; $$->next = $1; } ; pair: key object { $$ = $1; $$->key = (CFStringRef)$$->object; $$->object = $2->object; $$->next = NULL; $2->object = 0; freeObject(STATE, $2); } ; key: KEY { $$ = buildString(STATE, $1); } ; //------------------------------------------------------------------------------ array: '(' ')' { $$ = $1; $$->elements = NULL; } | '(' elements ')' { $$ = $1; $$->elements = $2; } | ARRAY ; set: '[' ']' { $$ = $1; $$->elements = NULL; } | '[' elements ']' { $$ = $1; $$->elements = $2; } | SET ; elements: object { $$ = $1; $$->next = NULL; } | elements object { $$ = $2; $$->next = $1; } ; //------------------------------------------------------------------------------ boolean: BOOLEAN ; data: DATA ; idref: IDREF ; number: NUMBER ; string: STRING ; %% int IOCFUnserializeerror(parser_state_t * state, const char *s) /* Called by yyparse on errors */ { if (state->errorString) { *(state->errorString) = CFStringCreateWithFormat(state->allocator, NULL, CFSTR("IOCFUnserialize: %s near line %d"), s, state->lineNumber); } return 0; } #define TAG_MAX_LENGTH 32 #define TAG_MAX_ATTRIBUTES 32 #define TAG_BAD 0 #define TAG_START 1 #define TAG_END 2 #define TAG_EMPTY 3 #define TAG_IGNORE 4 #define currentChar() (state->parseBuffer[state->parseBufferIndex]) #define nextChar() (state->parseBuffer[++state->parseBufferIndex]) #define prevChar() (state->parseBuffer[state->parseBufferIndex - 1]) #define isSpace(c) ((c) == ' ' || (c) == '\t') #define isAlpha(c) (((c) >= 'A' && (c) <= 'Z') || ((c) >= 'a' && (c) <= 'z')) #define isDigit(c) ((c) >= '0' && (c) <= '9') #define isAlphaDigit(c) ((c) >= 'a' && (c) <= 'f') #define isHexDigit(c) (isDigit(c) || isAlphaDigit(c)) #define isAlphaNumeric(c) (isAlpha(c) || isDigit(c) || ((c) == '-')) static int getTag(parser_state_t *state, char tag[TAG_MAX_LENGTH], int *attributeCount, char attributes[TAG_MAX_ATTRIBUTES][TAG_MAX_LENGTH], char values[TAG_MAX_ATTRIBUTES][TAG_MAX_LENGTH] ) { int length = 0; int c = currentChar(); int tagType = TAG_START; *attributeCount = 0; if (c != '<') return TAG_BAD; c = nextChar(); // skip '<' // // if (c == '!') { c = nextChar(); bool isComment = (c == '-') && ((c = nextChar()) != 0) && (c == '-'); if (!isComment && !isAlpha(c)) return TAG_BAD; // lineNumber++; if (isComment) { if (c != '-') continue; c = nextChar(); if (c != '-') continue; c = nextChar(); } if (c == '>') { (void)nextChar(); return TAG_IGNORE; } if (isComment) break; } return TAG_BAD; } else // if (c == '?') { while ((c = nextChar()) != 0) { if (c == '\n') state->lineNumber++; if (c != '?') continue; c = nextChar(); if (c == '>') { (void)nextChar(); return TAG_IGNORE; } } return TAG_BAD; } else // if (c == '/') { c = nextChar(); // skip '/' tagType = TAG_END; } if (!isAlpha(c)) return TAG_BAD; /* find end of tag while copying it */ while (isAlphaNumeric(c)) { tag[length++] = c; c = nextChar(); if (length >= (TAG_MAX_LENGTH - 1)) return TAG_BAD; } tag[length] = 0; // printf("tag %s, type %d\n", tag, tagType); // look for attributes of the form attribute = "value" ... while ((c != '>') && (c != '/')) { while (isSpace(c)) c = nextChar(); length = 0; while (isAlphaNumeric(c)) { attributes[*attributeCount][length++] = c; if (length >= (TAG_MAX_LENGTH - 1)) return TAG_BAD; c = nextChar(); } attributes[*attributeCount][length] = 0; while (isSpace(c)) c = nextChar(); if (c != '=') return TAG_BAD; c = nextChar(); while (isSpace(c)) c = nextChar(); if (c != '"') return TAG_BAD; c = nextChar(); length = 0; while (c != '"') { values[*attributeCount][length++] = c; if (length >= (TAG_MAX_LENGTH - 1)) return TAG_BAD; c = nextChar(); } values[*attributeCount][length] = 0; c = nextChar(); // skip closing quote // printf(" attribute '%s' = '%s', nextchar = '%c'\n", // attributes[*attributeCount], values[*attributeCount], c); (*attributeCount)++; if (*attributeCount >= TAG_MAX_ATTRIBUTES) return TAG_BAD; } if (c == '/') { c = nextChar(); // skip '/' tagType = TAG_EMPTY; } if (c != '>') return TAG_BAD; c = nextChar(); // skip '>' return tagType; } static char * getString(parser_state_t *state) { int c = currentChar(); int start, length, i, j; char * tempString; start = state->parseBufferIndex; /* find end of string */ while (c != 0) { if (c == '\n') state->lineNumber++; if (c == '<') { break; } c = nextChar(); } if (c != '<') return 0; length = state->parseBufferIndex - start; /* copy to null terminated buffer */ tempString = (char *)malloc(length + 1); if (tempString == 0) { printf("IOCFUnserialize: can't alloc temp memory\n"); goto error; } // copy out string in tempString // "&" -> '&', "<" -> '<', ">" -> '>' i = j = 0; while (i < length) { c = state->parseBuffer[start + i++]; if (c != '&') { tempString[j++] = c; } else { if ((i+3) > length) goto error; c = state->parseBuffer[start + i++]; if (c == 'l') { if (state->parseBuffer[start + i++] != 't') goto error; if (state->parseBuffer[start + i++] != ';') goto error; tempString[j++] = '<'; continue; } if (c == 'g') { if (state->parseBuffer[start + i++] != 't') goto error; if (state->parseBuffer[start + i++] != ';') goto error; tempString[j++] = '>'; continue; } if ((i+3) > length) goto error; if (c == 'a') { if (state->parseBuffer[start + i++] != 'm') goto error; if (state->parseBuffer[start + i++] != 'p') goto error; if (state->parseBuffer[start + i++] != ';') goto error; tempString[j++] = '&'; continue; } goto error; } } tempString[j] = 0; // printf("string %s\n", tempString); return tempString; error: if (tempString) free(tempString); return 0; } static long long getNumber(parser_state_t *state) { unsigned long long n = 0; int base = 10; bool negate = false; int c = currentChar(); if (c == '0') { c = nextChar(); if (c == 'x') { base = 16; c = nextChar(); } } if (base == 10) { if (c == '-') { negate = true; c = nextChar(); } while(isDigit(c)) { n = (n * base + c - '0'); c = nextChar(); } if (negate) { n = (unsigned long long)((long long)n * (long long)-1); } } else { while(isHexDigit(c)) { if (isDigit(c)) { n = (n * base + c - '0'); } else { n = (n * base + 0xa + c - 'a'); } c = nextChar(); } } // printf("number 0x%x\n", (unsigned long)n); return n; } // taken from CFXMLParsing/CFPropertyList.c static const signed char __CFPLDataDecodeTable[128] = { /* 000 */ -1, -1, -1, -1, -1, -1, -1, -1, /* 010 */ -1, -1, -1, -1, -1, -1, -1, -1, /* 020 */ -1, -1, -1, -1, -1, -1, -1, -1, /* 030 */ -1, -1, -1, -1, -1, -1, -1, -1, /* ' ' */ -1, -1, -1, -1, -1, -1, -1, -1, /* '(' */ -1, -1, -1, 62, -1, -1, -1, 63, /* '0' */ 52, 53, 54, 55, 56, 57, 58, 59, /* '8' */ 60, 61, -1, -1, -1, 0, -1, -1, /* '@' */ -1, 0, 1, 2, 3, 4, 5, 6, /* 'H' */ 7, 8, 9, 10, 11, 12, 13, 14, /* 'P' */ 15, 16, 17, 18, 19, 20, 21, 22, /* 'X' */ 23, 24, 25, -1, -1, -1, -1, -1, /* '`' */ -1, 26, 27, 28, 29, 30, 31, 32, /* 'h' */ 33, 34, 35, 36, 37, 38, 39, 40, /* 'p' */ 41, 42, 43, 44, 45, 46, 47, 48, /* 'x' */ 49, 50, 51, -1, -1, -1, -1, -1 }; #define DATA_ALLOC_SIZE 4096 static void * getCFEncodedData(parser_state_t *state, unsigned int *size) { int numeq = 0, acc = 0, cntr = 0; int tmpbufpos = 0, tmpbuflen = 0; unsigned char *tmpbuf = (unsigned char *)malloc(DATA_ALLOC_SIZE); int c = currentChar(); *size = 0; while (c != '<') { c &= 0x7f; if (c == 0) { free(tmpbuf); return 0; } if (c == '=') numeq++; else numeq = 0; if (c == '\n') state->lineNumber++; if (__CFPLDataDecodeTable[c] < 0) { c = nextChar(); continue; } cntr++; acc <<= 6; acc += __CFPLDataDecodeTable[c]; if (0 == (cntr & 0x3)) { if (tmpbuflen <= tmpbufpos + 2) { tmpbuflen += DATA_ALLOC_SIZE; tmpbuf = (unsigned char *)realloc(tmpbuf, tmpbuflen); } tmpbuf[tmpbufpos++] = (acc >> 16) & 0xff; if (numeq < 2) tmpbuf[tmpbufpos++] = (acc >> 8) & 0xff; if (numeq < 1) tmpbuf[tmpbufpos++] = acc & 0xff; } c = nextChar(); } *size = tmpbufpos; if (*size == 0) { free(tmpbuf); return 0; } return tmpbuf; } static int yylex(YYSTYPE *lvalp, parser_state_t *state) { int c, i; int tagType; char tag[TAG_MAX_LENGTH]; int attributeCount; char attributes[TAG_MAX_ATTRIBUTES][TAG_MAX_LENGTH]; char values[TAG_MAX_ATTRIBUTES][TAG_MAX_LENGTH]; object_t *object; top: c = currentChar(); /* skip white space */ if (isSpace(c)) while ((c = nextChar()) != 0 && isSpace(c)) {}; /* keep track of line number, don't return \n's */ if (c == '\n') { STATE->lineNumber++; (void)nextChar(); goto top; } // end of the buffer? if (!c) return 0; tagType = getTag(STATE, tag, &attributeCount, attributes, values); if (tagType == TAG_BAD) return SYNTAX_ERROR; if (tagType == TAG_IGNORE) goto top; // handle allocation and check for "ID" and "IDREF" tags up front *lvalp = object = newObject(STATE); object->idref = -1; for (i=0; i < attributeCount; i++) { if (attributes[i][0] == 'I' && attributes[i][1] == 'D') { // check for idref's, note: we ignore the tag, for // this to work correctly, all idrefs must be unique // across the whole serialization if (attributes[i][2] == 'R' && attributes[i][3] == 'E' && attributes[i][4] == 'F' && !attributes[i][5]) { if (tagType != TAG_EMPTY) return SYNTAX_ERROR; object->idref = strtol(values[i], NULL, 0); return IDREF; } // check for id's if (!attributes[i][2]) { object->idref = strtol(values[i], NULL, 0); } else { return SYNTAX_ERROR; } } } switch (*tag) { case 'a': if (!strcmp(tag, "array")) { if (tagType == TAG_EMPTY) { object->elements = NULL; return ARRAY; } return (tagType == TAG_START) ? '(' : ')'; } break; case 'd': if (!strcmp(tag, "dict")) { if (tagType == TAG_EMPTY) { object->elements = NULL; return DICTIONARY; } return (tagType == TAG_START) ? '{' : '}'; } if (!strcmp(tag, "data")) { unsigned int size; if (tagType == TAG_EMPTY) { object->data = NULL; object->size = 0; return DATA; } object->data = getCFEncodedData(STATE, &size); object->size = size; if ((getTag(STATE, tag, &attributeCount, attributes, values) != TAG_END) || strcmp(tag, "data")) { return SYNTAX_ERROR; } return DATA; } break; case 'f': if (!strcmp(tag, "false")) { if (tagType == TAG_EMPTY) { object->number = 0; return BOOLEAN; } } break; case 'i': if (!strcmp(tag, "integer")) { object->size = 64; // default for (i=0; i < attributeCount; i++) { if (!strcmp(attributes[i], "size")) { object->size = strtoul(values[i], NULL, 0); } } if (tagType == TAG_EMPTY) { object->number = 0; return NUMBER; } object->number = getNumber(STATE); if ((getTag(STATE, tag, &attributeCount, attributes, values) != TAG_END) || strcmp(tag, "integer")) { return SYNTAX_ERROR; } return NUMBER; } break; case 'k': if (!strcmp(tag, "key")) { if (tagType == TAG_EMPTY) return SYNTAX_ERROR; object->string = getString(STATE); if (!object->string) { return SYNTAX_ERROR; } if ((getTag(STATE, tag, &attributeCount, attributes, values) != TAG_END) || strcmp(tag, "key")) { return SYNTAX_ERROR; } return KEY; } break; case 'p': if (!strcmp(tag, "plist")) { freeObject(STATE, object); goto top; } break; case 's': if (!strcmp(tag, "string")) { if (tagType == TAG_EMPTY) { object->string = (char *)malloc(1); object->string[0] = 0; return STRING; } object->string = getString(STATE); if (!object->string) { return SYNTAX_ERROR; } if ((getTag(STATE, tag, &attributeCount, attributes, values) != TAG_END) || strcmp(tag, "string")) { return SYNTAX_ERROR; } return STRING; } if (!strcmp(tag, "set")) { if (tagType == TAG_EMPTY) { object->elements = NULL; return SET;; } if (tagType == TAG_START) { return '['; } else { return ']'; } } break; case 't': if (!strcmp(tag, "true")) { if (tagType == TAG_EMPTY) { object->number = 1; return BOOLEAN; } } break; } return SYNTAX_ERROR; } // !@$&)(^Q$&*^!$(*!@$_(^%_(*Q#$(_*&!$_(*&!$_(*&!#$(*!@&^!@#%!_!# // !@$&)(^Q$&*^!$(*!@$_(^%_(*Q#$(_*&!$_(*&!$_(*&!#$(*!@&^!@#%!_!# // !@$&)(^Q$&*^!$(*!@$_(^%_(*Q#$(_*&!$_(*&!$_(*&!#$(*!@&^!@#%!_!# // "java" like allocation, if this code hits a syntax error in the // the middle of the parsed string we just bail with pointers hanging // all over place, this code helps keeps it all together //static int object_count = 0; object_t * newObject(parser_state_t *state) { object_t *o; if (state->freeObjects) { o = state->freeObjects; state->freeObjects = state->freeObjects->next; } else { o = (object_t *)malloc(sizeof(object_t)); // object_count++; memset(o, 0, sizeof(object_t)); o->free = state->objects; state->objects = o; } return o; } void freeObject(parser_state_t * state, object_t *o) { o->next = state->freeObjects; state->freeObjects = o; } void cleanupObjects(parser_state_t *state) { object_t *t, *o = state->objects; while (o) { if (o->object) { // printf("IOCFUnserialize: releasing object o=%x object=%x\n", (int)o, (int)o->object); CFRelease(o->object); } if (o->data) { // printf("IOCFUnserialize: freeing object o=%x data=%x\n", (int)o, (int)o->data); free(o->data); } if (o->key) { // printf("IOCFUnserialize: releasing object o=%x key=%x\n", (int)o, (int)o->key); CFRelease(o->key); } if (o->string) { // printf("IOCFUnserialize: freeing object o=%x string=%x\n", (int)o, (int)o->string); free(o->string); } t = o; o = o->free; free(t); // object_count--; } // printf("object_count = %d\n", object_count); } // !@$&)(^Q$&*^!$(*!@$_(^%_(*Q#$(_*&!$_(*&!$_(*&!#$(*!@&^!@#%!_!# // !@$&)(^Q$&*^!$(*!@$_(^%_(*Q#$(_*&!$_(*&!$_(*&!#$(*!@&^!@#%!_!# // !@$&)(^Q$&*^!$(*!@$_(^%_(*Q#$(_*&!$_(*&!$_(*&!#$(*!@&^!@#%!_!# static void rememberObject(parser_state_t *state, intptr_t tag, CFTypeRef o) { // printf("remember idref %d\n", tag); CFDictionarySetValue(state->tags, (void *) tag, o); } static object_t * retrieveObject(parser_state_t *state, intptr_t tag) { CFTypeRef ref; object_t *o; // printf("retrieve idref '%d'\n", tag); ref = (CFTypeRef) CFDictionaryGetValue(state->tags, (void *) tag); if (!ref) return 0; o = newObject(state); o->object = ref; return o; } // !@$&)(^Q$&*^!$(*!@$_(^%_(*Q#$(_*&!$_(*&!$_(*&!#$(*!@&^!@#%!_!# // !@$&)(^Q$&*^!$(*!@$_(^%_(*Q#$(_*&!$_(*&!$_(*&!#$(*!@&^!@#%!_!# // !@$&)(^Q$&*^!$(*!@$_(^%_(*Q#$(_*&!$_(*&!$_(*&!#$(*!@&^!@#%!_!# object_t * buildDictionary(parser_state_t *state, object_t * header) { object_t *o, *t; int count = 0; CFMutableDictionaryRef dict; // get count and reverse order o = header->elements; header->elements = 0; while (o) { count++; t = o; o = o->next; t->next = header->elements; header->elements = t; } dict = CFDictionaryCreateMutable(state->allocator, count, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); if (header->idref >= 0) rememberObject(state, header->idref, dict); o = header->elements; while (o) { CFDictionarySetValue(dict, o->key, o->object); CFRelease(o->key); CFRelease(o->object); o->key = 0; o->object = 0; t = o; o = o->next; freeObject(state, t); } o = header; o->object = dict; return o; }; object_t * buildArray(parser_state_t *state, object_t * header) { object_t *o, *t; int count = 0; CFMutableArrayRef array; // get count and reverse order o = header->elements; header->elements = 0; while (o) { count++; t = o; o = o->next; t->next = header->elements; header->elements = t; } array = CFArrayCreateMutable(state->allocator, count, &kCFTypeArrayCallBacks); if (header->idref >= 0) rememberObject(state, header->idref, array); o = header->elements; while (o) { CFArrayAppendValue(array, o->object); CFRelease(o->object); o->object = 0; t = o; o = o->next; freeObject(state, t); } o = header; o->object = array; return o; }; object_t * buildSet(parser_state_t *state, object_t *header) { object_t *o, *t; int count = 0; CFMutableSetRef set; // get count and reverse order o = header->elements; header->elements = 0; while (o) { count++; t = o; o = o->next; t->next = header->elements; header->elements = t; } set = CFSetCreateMutable(state->allocator, count, &kCFTypeSetCallBacks); if (header->idref >= 0) rememberObject(state, header->idref, set); o = header->elements; while (o) { CFSetAddValue(set, o->object); CFRelease(o->object); o->object = 0; t = o; o = o->next; freeObject(state, t); } o = header; o->object = set; return o; }; object_t * buildString(parser_state_t *state, object_t *o) { CFStringRef string; string = CFStringCreateWithCString(state->allocator, o->string, kCFStringEncodingUTF8); if (!string) { syslog(LOG_ERR, "FIXME: IOUnserialize has detected a string that is not valid UTF-8, \"%s\".", o->string); string = CFStringCreateWithCString(state->allocator, o->string, kCFStringEncodingMacRoman); } if (o->idref >= 0) rememberObject(state, o->idref, string); free(o->string); o->string = 0; o->object = string; return o; }; object_t * buildData(parser_state_t *state, object_t *o) { CFDataRef data; data = CFDataCreate(state->allocator, (const UInt8 *) o->data, o->size); if (o->idref >= 0) rememberObject(state, o->idref, data); if (o->size) free(o->data); o->data = 0; o->object = data; return o; }; object_t * buildNumber(parser_state_t *state, object_t *o) { CFNumberRef number; CFNumberType numType; const UInt8 * bytes; bytes = (const UInt8 *) &o->number; if (o->size <= 32) { numType = kCFNumberSInt32Type; #if __BIG_ENDIAN__ bytes += 4; #endif } else { numType = kCFNumberSInt64Type; } number = CFNumberCreate(state->allocator, numType, (const void *) bytes); if (o->idref >= 0) rememberObject(state, o->idref, number); o->object = number; return o; }; object_t * buildBoolean(parser_state_t *state __unused, object_t *o) { o->object = CFRetain((o->number == 0) ? kCFBooleanFalse : kCFBooleanTrue); return o; }; CFTypeRef IOCFUnserialize(const char *buffer, CFAllocatorRef allocator, CFOptionFlags options, CFStringRef *errorString) { CFTypeRef object; parser_state_t *state; // just in case if (errorString) *errorString = NULL; if ((!buffer) || options) return 0; state = (parser_state_t *) malloc(sizeof(parser_state_t)); if (!state) return 0; state->parseBuffer = buffer; state->parseBufferIndex = 0; state->lineNumber = 1; state->allocator = allocator; state->objects = 0; state->freeObjects = 0; state->tags = CFDictionaryCreateMutable(allocator, 0, 0, /* key callbacks */ &kCFTypeDictionaryValueCallBacks); state->errorString = errorString; state->parsedObject = 0; (void)yyparse((void *)state); object = state->parsedObject; cleanupObjects(state); CFRelease(state->tags); free(state); return object; } // // // // // // DO NOT EDIT IOCFUnserialize.tab.c // // this means you! // // // // //