/* * Copyright (c) 2000 Apple Computer, 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@ */ /* * plist.c - plist parsing functions * * Copyright (c) 2000-2005 Apple Computer, Inc. * * DRI: Josh de Cesare * code split out from drivers.c by Soren Spies, 2005 */ //Slice - rewrite for UEFI with more functions like Copyright (c) 2003 Apple Computer #include "Platform.h" #include "b64cdecode.h" #ifndef DEBUG_ALL #define DEBUG_PLIST 0 #else #define DEBUG_PLIST DEBUG_ALL #endif #if DEBUG_PLIST == 0 #define DBG(...) #else #define DBG(...) DebugLog(DEBUG_PLIST, __VA_ARGS__) #endif /* XML Tags */ #define kXMLTagPList "plist" #define kXMLTagDict "dict" #define kXMLTagKey "key" #define kXMLTagString "string" #define kXMLTagInteger "integer" #define kXMLTagData "data" #define kXMLTagDate "date" #define kXMLTagFalse "false/" #define kXMLTagTrue "true/" #define kXMLTagArray "array" #define kXMLTagReference "reference" #define kXMLTagID "ID=" #define kXMLTagIDREF "IDREF=" struct Symbol { UINTN refCount; struct Symbol *next; CHAR8 string[1]; }; typedef struct Symbol Symbol, *SymbolPtr; SymbolPtr gSymbolsHead = NULL; TagPtr gTagsFree = NULL; CHAR8* buffer_start = NULL; // Forward declarations EFI_STATUS ParseTagList( CHAR8* buffer, TagPtr * tag, UINT32 type, UINT32 empty, UINT32* lenPtr); EFI_STATUS ParseTagKey( char * buffer, TagPtr * tag,UINT32* lenPtr); EFI_STATUS ParseTagString(CHAR8* buffer, TagPtr * tag,UINT32* lenPtr); EFI_STATUS ParseTagInteger(CHAR8* buffer, TagPtr * tag,UINT32* lenPtr); EFI_STATUS ParseTagData(CHAR8* buffer, TagPtr * tag,UINT32* lenPtr); EFI_STATUS ParseTagDate(CHAR8* buffer, TagPtr * tag,UINT32* lenPtr); EFI_STATUS ParseTagBoolean(CHAR8* buffer, TagPtr * tag, UINT32 type,UINT32* lenPtr); //defined in Platform.h //EFI_STATUS GetElement( TagPtr dict, INTN id, TagPtr *dict1); //INTN GetTagCount( TagPtr dict ); TagPtr NewTag( void ); EFI_STATUS FixDataMatchingTag( CHAR8* buffer, CONST CHAR8* tag,UINT32* lenPtr); CHAR8* NewSymbol(CHAR8* string); VOID FreeSymbol(CHAR8* string); SymbolPtr FindSymbol( char * string, SymbolPtr * prevSymbol ); /* Function for basic XML character entities parsing */ typedef struct XMLEntity { const CHAR8* name; UINTN nameLen; CHAR8 value; } XMLEntity; /* This is ugly, but better than specifying the lengths by hand */ #define _e(str,c) {str,sizeof(str)-1,c} CONST XMLEntity ents[] = { _e("quot;",'"'), _e("apos;",'\''), _e("lt;", '<'), _e("gt;", '>'), _e("amp;", '&') }; CHAR8* XMLDecode(CHAR8* src) { UINTN len; CONST CHAR8 *s; CHAR8 *out, *o; if (!src) { return 0; } len = AsciiStrLen(src); #if 0 out = (__typeof__(out))AllocateZeroPool(len+1); if (!out) return 0; #else // unsafe // out is always <= src, let's overwrite src out = src; #endif o = out; s = src; while (s <= src+len) /* Make sure the terminator is also copied */ { if ( *s == '&' ) { BOOLEAN entFound = FALSE; UINTN i; s++; for ( i = 0; i < sizeof(ents)/sizeof(ents[0]); i++) { if ( AsciiStrnCmp(s, ents[i].name, ents[i].nameLen) == 0 ) { entFound = TRUE; break; } } if ( entFound ) { *o++ = ents[i].value; s += ents[i].nameLen; continue; } } *o++ = *s++; } return out; } INTN GetTagCount( TagPtr dict ) { INTN count = 0; TagPtr tagList, tag; if (!dict || (dict->type != kTagTypeDict && dict->type != kTagTypeArray)) { return 0; } tag = 0; tagList = dict->tag; while (tagList) { tag = tagList; tagList = tag->tagNext; if (((dict->type == kTagTypeDict) && (tag->type == kTagTypeKey)) || (dict->type == kTagTypeArray) // If we are an array, any element is valid ) { count++; } //if(tag->type == kTagTypeKey) printf("Located key %s\n", tag->string); } return count; } EFI_STATUS GetElement( TagPtr dict, INTN id, TagPtr * dict1) { INTN element = 0; TagPtr child; if(!dict || !dict1 || ((dict->type != kTagTypeArray) && (dict->type != kTagTypeDict))) { return EFI_UNSUPPORTED; } child = dict->tag; while (child != NULL) { if (((dict->type == kTagTypeDict) && (child->type == kTagTypeKey)) || //in Dict count Keys (dict->type == kTagTypeArray) // If we are an array, any element is valid ) { if (element++ >= id) break; } child = child->tagNext; } *dict1 = child; return EFI_SUCCESS; } // Expects to see one dictionary in the XML file, the final pos will be returned // If the pos is not equal to the strlen, then there are multiple dicts // Puts the first dictionary it finds in the // tag pointer and returns the end of the dic, or returns -1 if not found. // EFI_STATUS ParseXML(const CHAR8* buffer, TagPtr * dict, UINT32 bufSize) { EFI_STATUS Status; UINT32 length = 0; UINT32 pos = 0; TagPtr tag = NULL; CHAR8* configBuffer = NULL; UINT32 bufferSize = 0; UINTN i; if (bufSize) { bufferSize = bufSize; } else { bufferSize = (UINT32)AsciiStrLen(buffer); } if(dict == NULL) { return EFI_INVALID_PARAMETER; } configBuffer = (__typeof__(configBuffer))AllocateZeroPool(bufferSize+1); if(configBuffer == NULL) { return EFI_OUT_OF_RESOURCES; } CopyMem(configBuffer, buffer, bufferSize); for (i=0; itype == kTagTypeDict) { break; } FreeTag(tag); tag = NULL; } // FreePool(configBuffer); if (EFI_ERROR(Status)) { return Status; } *dict = tag; return EFI_SUCCESS; } // // xml // #define DOFREE 1 //========================================================================== // GetProperty TagPtr GetProperty( TagPtr dict, const CHAR8* key ) { TagPtr tagList, tag; if (dict->type != kTagTypeDict) { return NULL; } tag = NULL; tagList = dict->tag; while (tagList) { tag = tagList; tagList = tag->tagNext; if ((tag->type != kTagTypeKey) || (tag->string == 0)) { continue; } if (!AsciiStriCmp(tag->string, key)) { return tag->tag; } } return NULL; } TagPtr GetNextProperty(TagPtr dict) { TagPtr tagList, tag; if (dict->type != kTagTypeDict) { return NULL; } tag = NULL; tagList = dict->tag; while (tagList) { tag = tagList; tagList = tag->tagNext; if ((tag->type != kTagTypeKey) || (tag->string == 0)) { continue; } return tag->tag; } return NULL; } //========================================================================== // ParseNextTag EFI_STATUS XMLParseNextTag(CHAR8* buffer, TagPtr* tag, UINT32* lenPtr) { EFI_STATUS Status; UINT32 length = 0; UINT32 pos = 0; CHAR8* tagName = NULL; *lenPtr=0; Status = GetNextTag((UINT8*)buffer, &tagName, 0, &length); if (EFI_ERROR(Status)) { DBG("NextTag error %s\n", strerror(Status)); return Status; } pos = length; if (!AsciiStrnCmp(tagName, kXMLTagPList, 6)) { length=0; Status=EFI_SUCCESS; } /***** dict ****/ else if (!AsciiStrCmp(tagName, kXMLTagDict)) { DBG("begin dict len=%d\n", length); Status = ParseTagList(buffer + pos, tag, kTagTypeDict, 0, &length); } else if (!AsciiStrCmp(tagName, kXMLTagDict "/")) { DBG("end dict len=%d\n", length); Status = ParseTagList(buffer + pos, tag, kTagTypeDict, 1, &length); } else if (!AsciiStrnCmp(tagName, kXMLTagDict " ", 5)) { DBG("space dict len=%d\n", length); Status = ParseTagList(buffer + pos, tag, kTagTypeDict, 0, &length); } /***** key ****/ else if (!AsciiStrCmp(tagName, kXMLTagKey)) { DBG("parse key\n"); Status = ParseTagKey(buffer + pos, tag, &length); } /***** string ****/ else if (!AsciiStrCmp(tagName, kXMLTagString)) { DBG("parse String\n"); Status = ParseTagString(buffer + pos, tag, &length); } /***** string ****/ else if (!AsciiStrnCmp(tagName, kXMLTagString " ", 7)) { DBG("parse String len=%d\n", length); Status = ParseTagString(buffer + pos, tag, &length); } /***** integer ****/ else if (!AsciiStrCmp(tagName, kXMLTagInteger)) { Status = ParseTagInteger(buffer + pos, tag, &length); } else if (!AsciiStrnCmp(tagName, kXMLTagInteger " ", 8)) { Status = ParseTagInteger(buffer + pos, tag, &length); } /***** data ****/ else if (!AsciiStrCmp(tagName, kXMLTagData)) { Status = ParseTagData(buffer + pos, tag, &length); } else if (!AsciiStrnCmp(tagName, kXMLTagData " ", 5)) { Status = ParseTagData(buffer + pos, tag, &length); } /***** date ****/ else if (!AsciiStrCmp(tagName, kXMLTagDate)) { Status = ParseTagDate(buffer + pos, tag, &length); } /***** FALSE ****/ else if (!AsciiStrCmp(tagName, kXMLTagFalse)) { Status = ParseTagBoolean(buffer + pos, tag, kTagTypeFalse, &length); } /***** TRUE ****/ else if (!AsciiStrCmp(tagName, kXMLTagTrue)) { Status = ParseTagBoolean(buffer + pos, tag, kTagTypeTrue, &length); } /***** array ****/ else if (!AsciiStrCmp(tagName, kXMLTagArray)) { Status = ParseTagList(buffer + pos, tag, kTagTypeArray, 0, &length); } else if (!AsciiStrnCmp(tagName, kXMLTagArray " ", 6)) { DBG("begin array len=%d\n", length); Status = ParseTagList(buffer + pos, tag, kTagTypeArray, 0, &length); } else if (!AsciiStrCmp(tagName, kXMLTagArray "/")) { DBG("end array len=%d\n", length); Status = ParseTagList(buffer + pos, tag, kTagTypeArray, 1, &length); } /***** unknown ****/ else { *tag = NULL; length = 0; } if (EFI_ERROR(Status)) { return Status; } // TODO jief : seems to me that length cannot be -1. Added the cast anyway to avoid regression. If confirmed, the next 3 lines must be removed. if (length == (UINT32)-1) { DBG("(length == -1)\n"); return EFI_UNSUPPORTED; } *lenPtr = pos + length; DBG(" len after success parse next tag %d\n", *lenPtr); return EFI_SUCCESS; } //========================================================================== // ParseTagList EFI_STATUS ParseTagList( CHAR8* buffer, TagPtr* tag, UINT32 type, UINT32 empty, UINT32* lenPtr) { EFI_STATUS Status = EFI_SUCCESS; UINT32 pos; TagPtr tagList; TagPtr tagTail; TagPtr tmpTag = NULL; UINT32 length = 0; if (type == kTagTypeArray) { DBG("parsing array len=%d\n", *lenPtr); } else if (type == kTagTypeDict) { DBG("parsing dict len=%d\n", *lenPtr); } tagList = NULL; tagTail = NULL; pos = 0; if (!empty) { while (TRUE) { Status = XMLParseNextTag(buffer + pos, &tmpTag, &length); if (EFI_ERROR(Status)) { DBG("error XMLParseNextTag in array: %s\n", strerror(Status)); break; } pos += length; if (tmpTag == NULL) { break; } if (tagTail) { tagTail->tagNext = tmpTag; } else { tagList = tmpTag; } tagTail = tmpTag; } if (EFI_ERROR(Status)) { if (tagList) { FreeTag(tagList); } return Status; } } tmpTag = NewTag(); if (tmpTag == NULL) { if (tagList) { FreeTag(tagList); } DBG("next tag is NULL\n"); return EFI_OUT_OF_RESOURCES; } tmpTag->type = type; tmpTag->string = 0; tmpTag->offset = (UINT32)(buffer_start ? buffer - buffer_start : 0); tmpTag->tag = tagList; tmpTag->tagNext = 0; *tag = tmpTag; *lenPtr=pos; DBG(" return from ParseTagList with len=%d\n", *lenPtr); return Status; } //========================================================================== // ParseTagKey EFI_STATUS ParseTagKey( char * buffer, TagPtr* tag, UINT32* lenPtr) { EFI_STATUS Status; UINT32 length = 0; UINT32 length2 = 0; CHAR8* tmpString; TagPtr tmpTag; TagPtr subTag = NULL; Status = FixDataMatchingTag(buffer, kXMLTagKey, &length); DBG("fixing key len=%d status=%s\n", length, strerror(Status)); if (EFI_ERROR(Status)){ return Status; } Status = XMLParseNextTag(buffer + length, &subTag, &length2); if (EFI_ERROR(Status)) { return Status; } tmpTag = NewTag(); if (tmpTag == NULL) { FreeTag(subTag); return EFI_OUT_OF_RESOURCES; } tmpString = NewSymbol(buffer); if (tmpString == NULL) { FreeTag(subTag); FreeTag(tmpTag); return EFI_OUT_OF_RESOURCES; } tmpTag->type = kTagTypeKey; tmpTag->string = tmpString; tmpTag->tag = subTag; tmpTag->offset = (UINT32)(buffer_start ? buffer - buffer_start: 0); tmpTag->tagNext = 0; *tag = tmpTag; *lenPtr = length + length2; DBG("parse key '%s' success len=%d\n", tmpString, *lenPtr); return EFI_SUCCESS; } //========================================================================== // ParseTagString EFI_STATUS ParseTagString(CHAR8* buffer, TagPtr * tag,UINT32* lenPtr) { EFI_STATUS Status; UINT32 length = 0; CHAR8* tmpString; TagPtr tmpTag; Status = FixDataMatchingTag(buffer, kXMLTagString, &length); if (EFI_ERROR(Status)) { return Status; } tmpTag = NewTag(); if (tmpTag == NULL) { return EFI_OUT_OF_RESOURCES; } tmpString = XMLDecode(buffer); tmpString = NewSymbol(tmpString); if (tmpString == NULL) { FreeTag(tmpTag); return EFI_OUT_OF_RESOURCES; } tmpTag->type = kTagTypeString; tmpTag->string = tmpString; tmpTag->tag = NULL; tmpTag->tagNext = NULL; tmpTag->offset = (UINT32)(buffer_start ? buffer - buffer_start: 0); *tag = tmpTag; *lenPtr = length; DBG(" parse string %s\n", tmpString); return EFI_SUCCESS; } //========================================================================== // ParseTagInteger EFI_STATUS ParseTagInteger(CHAR8* buffer, TagPtr * tag,UINT32* lenPtr) { EFI_STATUS Status; UINT32 length = 0; INTN integer; UINT32 size; BOOLEAN negative = FALSE; CHAR8* val = buffer; TagPtr tmpTag; Status = FixDataMatchingTag(buffer, kXMLTagInteger,&length); if (EFI_ERROR(Status)) { return Status; } tmpTag = NewTag(); if (tmpTag == NULL) { return EFI_OUT_OF_RESOURCES; } size = length; integer = 0; if(buffer[0] == '<') { tmpTag->type = kTagTypeInteger; tmpTag->string = 0; tmpTag->tag = 0; tmpTag->offset = 0; tmpTag->tagNext = 0; *tag = tmpTag; length = 0; return EFI_SUCCESS; } if(size > 1 && (val[1] == 'x' || val[1] == 'X')) { // Hex value val += 2; while(*val) { if ((*val >= '0' && *val <= '9')) { // 0 - 9 integer = (integer * 16) + (*val++ - '0'); } else if ((*val >= 'a' && *val <= 'f')) { // a - f integer = (integer * 16) + (*val++ - 'a' + 10); } else if ((*val >= 'A' && *val <= 'F')) { // A - F integer = (integer * 16) + (*val++ - 'a' + 10); } else { MsgLog("ParseTagInteger hex error (0x%hhX) in buffer %s\n", *val, buffer); // getchar(); FreeTag(tmpTag); return EFI_UNSUPPORTED; } } } else if ( size ) { // Decimal value if (*val == '-') { negative = TRUE; val++; size--; } for (integer = 0; size > 0; size--) { if(*val) { // UGLY HACK, fix me. if (*val < '0' || *val > '9') { MsgLog("ParseTagInteger decimal error (0x%hhX) in buffer %s\n", *val, buffer); // getchar(); FreeTag(tmpTag); return EFI_UNSUPPORTED; } integer = (integer * 10) + (*val++ - '0'); } } if (negative) { integer = -integer; } } tmpTag->type = kTagTypeInteger; tmpTag->string = (CHAR8*)(UINTN)integer; tmpTag->tag = NULL; tmpTag->offset = (UINT32)(buffer_start ? buffer - buffer_start: 0); tmpTag->tagNext = NULL; *tag = tmpTag; *lenPtr = length; return EFI_SUCCESS; } //========================================================================== // ParseTagData EFI_STATUS ParseTagData(CHAR8* buffer, TagPtr * tag, UINT32* lenPtr) { EFI_STATUS Status; UINT32 length = 0; UINTN len = 0; TagPtr tmpTag; CHAR8* tmpString; Status = FixDataMatchingTag(buffer, kXMLTagData,&length); if (EFI_ERROR(Status)) { return Status; } tmpTag = NewTag(); if (tmpTag == NULL) { return EFI_OUT_OF_RESOURCES; } //Slice - correction as Apple 2003 tmpString = NewSymbol(buffer); tmpTag->type = kTagTypeData; tmpTag->string = tmpString; // dmazar: base64 decode data tmpTag->data = (UINT8 *)Base64DecodeClover(tmpTag->string, &len); tmpTag->dataLen = len; tmpTag->tag = NULL; tmpTag->offset = (UINT32)(buffer_start ? buffer - buffer_start: 0); tmpTag->tagNext = NULL; *tag = tmpTag; *lenPtr = length; return EFI_SUCCESS; } //========================================================================== // ParseTagDate EFI_STATUS ParseTagDate(CHAR8* buffer, TagPtr * tag,UINT32* lenPtr) { EFI_STATUS Status; UINT32 length = 0; TagPtr tmpTag; Status = FixDataMatchingTag(buffer, kXMLTagDate,&length); if (EFI_ERROR(Status)) { return Status; } tmpTag = NewTag(); if (tmpTag == NULL) { return EFI_OUT_OF_RESOURCES; } tmpTag->type = kTagTypeDate; tmpTag->string = NULL; tmpTag->tag = NULL; tmpTag->tagNext = NULL; tmpTag->offset = (UINT32)(buffer_start ? buffer - buffer_start: 0); *tag = tmpTag; *lenPtr = length; return EFI_SUCCESS; } //========================================================================== // ParseTagBoolean EFI_STATUS ParseTagBoolean(CHAR8* buffer, TagPtr * tag, UINT32 type,UINT32* lenPtr) { TagPtr tmpTag; tmpTag = NewTag(); if (tmpTag == NULL) { return EFI_OUT_OF_RESOURCES; } tmpTag->type = type; tmpTag->string = NULL; tmpTag->tag = NULL; tmpTag->tagNext = NULL; tmpTag->offset = (UINT32)(buffer_start ? buffer - buffer_start: 0); *tag = tmpTag; *lenPtr = 0; return EFI_SUCCESS; } //========================================================================== // GetNextTag EFI_STATUS GetNextTag( UINT8* buffer, CHAR8** tag, UINT32* start, UINT32* length) { UINT32 cnt, cnt2; if (tag == NULL) { return EFI_INVALID_PARAMETER; } // Find the start of the tag. cnt = 0; while ((buffer[cnt] != '\0') && (buffer[cnt] != '<')) { cnt++; } if (buffer[cnt] == '\0') { DBG("empty buffer at cnt=%d\n", cnt); return EFI_UNSUPPORTED; } // Find the end of the tag. cnt2 = cnt + 1; while ((buffer[cnt2] != '\0') && (buffer[cnt2] != '>')) { cnt2++; } if (buffer[cnt2] == '\0') { DBG("empty buffer at cnt2=%d\n", cnt2); return EFI_UNSUPPORTED; } // Fix the tag data. *tag = (CHAR8*)(buffer + cnt + 1); buffer[cnt2] = '\0'; if (start) { *start = cnt; } *length = cnt2 + 1; //unreal to be -1. This is UINT32 if (*length == (UINT32)-1) { DBG("GetNextTag with *length == -1\n"); return EFI_UNSUPPORTED; } return EFI_SUCCESS; } //========================================================================== // FixDataMatchingTag // Modifies 'buffer' to add a '\0' at the end of the tag matching 'tag'. // Returns the length of the data found, counting the end tag, // or -1 if the end tag was not found. EFI_STATUS FixDataMatchingTag( CHAR8* buffer, CONST CHAR8* tag, UINT32* lenPtr) { EFI_STATUS Status; UINT32 length; UINT32 start; UINT32 stop; CHAR8* endTag; start = 0; while (1) { Status = GetNextTag(((UINT8 *)buffer) + start, &endTag, &stop, &length); if (EFI_ERROR(Status)) { return Status; } if ((*endTag == '/') && !AsciiStrCmp(endTag + 1, tag)) { break; } start += length; } DBG("fix buffer at pos=%d\n", start + stop); buffer[start + stop] = '\0'; *lenPtr = start + length; if (*lenPtr == (__typeof_am__(*lenPtr))-1) { // Why is this test. -1 is UINTN_MAX. return EFI_UNSUPPORTED; } return EFI_SUCCESS; } //========================================================================== // NewTag #define TAGCACHESIZE 0x1000 TagPtr NewTag( void ) { UINT32 cnt; TagPtr tag; if (gTagsFree == NULL) { tag = (TagPtr)AllocateZeroPool(TAGCACHESIZE * sizeof(TagStruct)); if (tag == NULL) { return NULL; } // Initalize the new tags. for (cnt = 0; cnt < TAGCACHESIZE - 1; cnt++) { tag[cnt].type = kTagTypeNone; tag[cnt].tagNext = tag + cnt + 1; } tag[TAGCACHESIZE - 1].tagNext = 0; gTagsFree = tag; } tag = gTagsFree; gTagsFree = tag->tagNext; if (gTagsFree == NULL) { //end of cache gTagsFree = NewTag(); tag->tagNext = gTagsFree; //add new cache to old one } return tag; } #undef TAGCACHESIZE //========================================================================== // XMLFreeTag void FreeTag( TagPtr tag ) { if (tag == NULL) { return; } if (tag->type != kTagTypeInteger && tag->string) { FreeSymbol(tag->string); } if (tag->data) { FreePool(tag->data); } FreeTag(tag->tag); FreeTag(tag->tagNext); // Clear and free the tag. tag->type = kTagTypeNone; tag->string = NULL; tag->data = NULL; tag->dataLen = 0; tag->tag = NULL; tag->offset = 0; tag->tagNext = gTagsFree; gTagsFree = tag; } CHAR8* NewSymbol(CHAR8* tmpString) { #if 0 SymbolPtr lastGuy = 0; // never used #endif SymbolPtr symbol; UINTN len; // Look for string in the list of symbols. symbol = FindSymbol(tmpString, 0); // Add the new symbol. if (symbol == NULL) { len = AsciiStrLen(tmpString); symbol = (SymbolPtr)AllocateZeroPool(sizeof(Symbol) + len + 1); if (symbol == NULL) { return NULL; } // Set the symbol's data. symbol->refCount = 0; AsciiStrnCpyS(symbol->string, len+1, tmpString, len); // Add the symbol to the list. symbol->next = gSymbolsHead; gSymbolsHead = symbol; } // Update the refCount and return the string. symbol->refCount++; #if 0 if (lastGuy && lastGuy->next != 0) { // lastGuy is always 0, accessing to ((SymbolPtr)null)->next can be dangerous. return NULL; } #endif return symbol->string; } //========================================================================== // FreeSymbol void FreeSymbol(CHAR8* tmpString) { SymbolPtr symbol, prev; prev = NULL; // Look for string in the list of symbols. symbol = FindSymbol(tmpString, &prev); if (symbol == NULL) { return; } // Update the refCount. symbol->refCount--; if (symbol->refCount != 0) { return; } // Remove the symbol from the list. if (prev != NULL) { prev->next = symbol->next; } else { gSymbolsHead = symbol->next; } // Free the symbol's memory. FreePool(symbol); } //========================================================================== // FindSymbol SymbolPtr FindSymbol(CHAR8 *tmpString, SymbolPtr *prevSymbol ) { SymbolPtr symbol, prev; if (tmpString == NULL) { return NULL; } symbol = gSymbolsHead; prev = NULL; while (symbol != NULL) { if (!AsciiStrCmp(symbol->string, tmpString)) { break; } prev = symbol; symbol = symbol->next; } if ((symbol != NULL) && (prevSymbol != NULL)) { *prevSymbol = prev; } return symbol; } /* return TRUE if the property present && value = TRUE else return FALSE */ BOOLEAN IsPropertyTrue ( TagPtr Prop ) { return Prop != NULL && ((Prop->type == kTagTypeTrue) || ((Prop->type == kTagTypeString) && Prop->string && ((Prop->string[0] == 'y') || (Prop->string[0] == 'Y')))); } /* return TRUE if the property present && value = FALSE else return FALSE */ BOOLEAN IsPropertyFalse ( TagPtr Prop ) { return Prop != NULL && ((Prop->type == kTagTypeFalse) || ((Prop->type == kTagTypeString) && Prop->string && ((Prop->string[0] == 'N') || (Prop->string[0] == 'n')))); } /* Possible values 1234 +1234 -1234 0x12abd */ INTN GetPropertyInteger ( TagPtr Prop, INTN Default ) { if (Prop == NULL) { return Default; } if (Prop->type == kTagTypeInteger) { return (INTN)Prop->string; //this is union char* or size_t } else if ((Prop->type == kTagTypeString) && Prop->string) { if ((Prop->string[1] == 'x') || (Prop->string[1] == 'X')) { return (INTN)AsciiStrHexToUintn (Prop->string); } if (Prop->string[0] == '-') { return -(INTN)AsciiStrDecimalToUintn (Prop->string + 1); } // return (INTN)AsciiStrDecimalToUintn (Prop->string); return (INTN)AsciiStrDecimalToUintn((Prop->string[0] == '+') ? (Prop->string + 1) : Prop->string); } return Default; }