kc3-lang/libxml2/dict.c

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• Hash : e1657f3f
  Author :
  Date : 2024-07-22T14:33:14
  

  build: Use AC_CHECK_DECLS/check_symbol_exists for getentropy
  
  This assumes that getentropy is declared in sys/random.h.
  
  Should fix issues on iOS. See #774.
  

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• dict.c

• /*
   * dict.c: dictionary of reusable strings, just used to avoid allocation
   *         and freeing operations.
   *
   * Copyright (C) 2003-2012 Daniel Veillard.
   *
   * Permission to use, copy, modify, and distribute this software for any
   * purpose with or without fee is hereby granted, provided that the above
   * copyright notice and this permission notice appear in all copies.
   *
   * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED
   * WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
   * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE AUTHORS AND
   * CONTRIBUTORS ACCEPT NO RESPONSIBILITY IN ANY CONCEIVABLE MANNER.
   *
   * Author: daniel@veillard.com
   */
  
  #define IN_LIBXML
  #include "libxml.h"
  
  #include <errno.h>
  #include <limits.h>
  #include <stdlib.h>
  #include <string.h>
  
  #include "private/dict.h"
  #include "private/error.h"
  #include "private/globals.h"
  #include "private/threads.h"
  
  #include <libxml/parser.h>
  #include <libxml/dict.h>
  #include <libxml/xmlmemory.h>
  #include <libxml/xmlstring.h>
  
  #ifndef SIZE_MAX
    #define SIZE_MAX ((size_t) -1)
  #endif
  
  #define MAX_FILL_NUM 7
  #define MAX_FILL_DENOM 8
  #define MIN_HASH_SIZE 8
  #define MAX_HASH_SIZE (1u << 31)
  
  typedef struct _xmlDictStrings xmlDictStrings;
  typedef xmlDictStrings *xmlDictStringsPtr;
  struct _xmlDictStrings {
      xmlDictStringsPtr next;
      xmlChar *free;
      xmlChar *end;
      size_t size;
      size_t nbStrings;
      xmlChar array[1];
  };
  
  typedef xmlHashedString xmlDictEntry;
  
  /*
   * The entire dictionary
   */
  struct _xmlDict {
      int ref_counter;
  
      xmlDictEntry *table;
      size_t size;
      unsigned int nbElems;
      xmlDictStringsPtr strings;
  
      struct _xmlDict *subdict;
      /* used for randomization */
      unsigned seed;
      /* used to impose a limit on size */
      size_t limit;
  };
  
  /*
   * A mutex for modifying the reference counter for shared
   * dictionaries.
   */
  static xmlMutex xmlDictMutex;
  
  /**
   * xmlInitializeDict:
   *
   * DEPRECATED: Alias for xmlInitParser.
   *
   * Returns 0.
   */
  int
  xmlInitializeDict(void) {
      xmlInitParser();
      return(0);
  }
  
  /**
   * xmlInitDictInternal:
   *
   * Initialize mutex.
   */
  void
  xmlInitDictInternal(void) {
      xmlInitMutex(&xmlDictMutex);
  }
  
  /**
   * xmlDictCleanup:
   *
   * DEPRECATED: This function is a no-op. Call xmlCleanupParser
   * to free global state but see the warnings there. xmlCleanupParser
   * should be only called once at program exit. In most cases, you don't
   * have call cleanup functions at all.
   */
  void
  xmlDictCleanup(void) {
  }
  
  /**
   * xmlCleanupDictInternal:
   *
   * Free the dictionary mutex.
   */
  void
  xmlCleanupDictInternal(void) {
      xmlCleanupMutex(&xmlDictMutex);
  }
  
  /*
   * xmlDictAddString:
   * @dict: the dictionary
   * @name: the name of the userdata
   * @len: the length of the name
   *
   * Add the string to the array[s]
   *
   * Returns the pointer of the local string, or NULL in case of error.
   */
  static const xmlChar *
  xmlDictAddString(xmlDictPtr dict, const xmlChar *name, unsigned int namelen) {
      xmlDictStringsPtr pool;
      const xmlChar *ret;
      size_t size = 0; /* + sizeof(_xmlDictStrings) == 1024 */
      size_t limit = 0;
  
      pool = dict->strings;
      while (pool != NULL) {
  	if ((size_t)(pool->end - pool->free) > namelen)
  	    goto found_pool;
  	if (pool->size > size) size = pool->size;
          limit += pool->size;
  	pool = pool->next;
      }
      /*
       * Not found, need to allocate
       */
      if (pool == NULL) {
          if ((dict->limit > 0) && (limit > dict->limit)) {
              return(NULL);
          }
  
          if (size == 0) {
              size = 1000;
          } else {
              if (size < (SIZE_MAX - sizeof(xmlDictStrings)) / 4)
                  size *= 4; /* exponential growth */
              else
                  size = SIZE_MAX - sizeof(xmlDictStrings);
          }
          if (size / 4 < namelen) {
              if ((size_t) namelen + 0 < (SIZE_MAX - sizeof(xmlDictStrings)) / 4)
                  size = 4 * (size_t) namelen; /* just in case ! */
              else
                  return(NULL);
          }
  	pool = (xmlDictStringsPtr) xmlMalloc(sizeof(xmlDictStrings) + size);
  	if (pool == NULL)
  	    return(NULL);
  	pool->size = size;
  	pool->nbStrings = 0;
  	pool->free = &pool->array[0];
  	pool->end = &pool->array[size];
  	pool->next = dict->strings;
  	dict->strings = pool;
      }
  found_pool:
      ret = pool->free;
      memcpy(pool->free, name, namelen);
      pool->free += namelen;
      *(pool->free++) = 0;
      pool->nbStrings++;
      return(ret);
  }
  
  /*
   * xmlDictAddQString:
   * @dict: the dictionary
   * @prefix: the prefix of the userdata
   * @plen: the prefix length
   * @name: the name of the userdata
   * @len: the length of the name
   *
   * Add the QName to the array[s]
   *
   * Returns the pointer of the local string, or NULL in case of error.
   */
  static const xmlChar *
  xmlDictAddQString(xmlDictPtr dict, const xmlChar *prefix, unsigned int plen,
                   const xmlChar *name, unsigned int namelen)
  {
      xmlDictStringsPtr pool;
      const xmlChar *ret;
      size_t size = 0; /* + sizeof(_xmlDictStrings) == 1024 */
      size_t limit = 0;
  
      pool = dict->strings;
      while (pool != NULL) {
  	if ((size_t)(pool->end - pool->free) > namelen + plen + 1)
  	    goto found_pool;
  	if (pool->size > size) size = pool->size;
          limit += pool->size;
  	pool = pool->next;
      }
      /*
       * Not found, need to allocate
       */
      if (pool == NULL) {
          if ((dict->limit > 0) && (limit > dict->limit)) {
              return(NULL);
          }
  
          if (size == 0) size = 1000;
  	else size *= 4; /* exponential growth */
          if (size < 4 * (namelen + plen + 1))
  	    size = 4 * (namelen + plen + 1); /* just in case ! */
  	pool = (xmlDictStringsPtr) xmlMalloc(sizeof(xmlDictStrings) + size);
  	if (pool == NULL)
  	    return(NULL);
  	pool->size = size;
  	pool->nbStrings = 0;
  	pool->free = &pool->array[0];
  	pool->end = &pool->array[size];
  	pool->next = dict->strings;
  	dict->strings = pool;
      }
  found_pool:
      ret = pool->free;
      memcpy(pool->free, prefix, plen);
      pool->free += plen;
      *(pool->free++) = ':';
      memcpy(pool->free, name, namelen);
      pool->free += namelen;
      *(pool->free++) = 0;
      pool->nbStrings++;
      return(ret);
  }
  
  /**
   * xmlDictCreate:
   *
   * Create a new dictionary
   *
   * Returns the newly created dictionary, or NULL if an error occurred.
   */
  xmlDictPtr
  xmlDictCreate(void) {
      xmlDictPtr dict;
  
      xmlInitParser();
  
      dict = xmlMalloc(sizeof(xmlDict));
      if (dict == NULL)
          return(NULL);
      dict->ref_counter = 1;
      dict->limit = 0;
  
      dict->size = 0;
      dict->nbElems = 0;
      dict->table = NULL;
      dict->strings = NULL;
      dict->subdict = NULL;
      dict->seed = xmlRandom();
  #ifdef FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION
      dict->seed = 0;
  #endif
      return(dict);
  }
  
  /**
   * xmlDictCreateSub:
   * @sub: an existing dictionary
   *
   * Create a new dictionary, inheriting strings from the read-only
   * dictionary @sub. On lookup, strings are first searched in the
   * new dictionary, then in @sub, and if not found are created in the
   * new dictionary.
   *
   * Returns the newly created dictionary, or NULL if an error occurred.
   */
  xmlDictPtr
  xmlDictCreateSub(xmlDictPtr sub) {
      xmlDictPtr dict = xmlDictCreate();
  
      if ((dict != NULL) && (sub != NULL)) {
          dict->seed = sub->seed;
          dict->subdict = sub;
  	xmlDictReference(dict->subdict);
      }
      return(dict);
  }
  
  /**
   * xmlDictReference:
   * @dict: the dictionary
   *
   * Increment the reference counter of a dictionary
   *
   * Returns 0 in case of success and -1 in case of error
   */
  int
  xmlDictReference(xmlDictPtr dict) {
      if (dict == NULL) return -1;
      xmlMutexLock(&xmlDictMutex);
      dict->ref_counter++;
      xmlMutexUnlock(&xmlDictMutex);
      return(0);
  }
  
  /**
   * xmlDictFree:
   * @dict: the dictionary
   *
   * Free the hash @dict and its contents. The userdata is
   * deallocated with @f if provided.
   */
  void
  xmlDictFree(xmlDictPtr dict) {
      xmlDictStringsPtr pool, nextp;
  
      if (dict == NULL)
  	return;
  
      /* decrement the counter, it may be shared by a parser and docs */
      xmlMutexLock(&xmlDictMutex);
      dict->ref_counter--;
      if (dict->ref_counter > 0) {
          xmlMutexUnlock(&xmlDictMutex);
          return;
      }
  
      xmlMutexUnlock(&xmlDictMutex);
  
      if (dict->subdict != NULL) {
          xmlDictFree(dict->subdict);
      }
  
      if (dict->table) {
  	xmlFree(dict->table);
      }
      pool = dict->strings;
      while (pool != NULL) {
          nextp = pool->next;
  	xmlFree(pool);
  	pool = nextp;
      }
      xmlFree(dict);
  }
  
  /**
   * xmlDictOwns:
   * @dict: the dictionary
   * @str: the string
   *
   * check if a string is owned by the dictionary
   *
   * Returns 1 if true, 0 if false and -1 in case of error
   * -1 in case of error
   */
  int
  xmlDictOwns(xmlDictPtr dict, const xmlChar *str) {
      xmlDictStringsPtr pool;
  
      if ((dict == NULL) || (str == NULL))
  	return(-1);
      pool = dict->strings;
      while (pool != NULL) {
          if ((str >= &pool->array[0]) && (str <= pool->free))
  	    return(1);
  	pool = pool->next;
      }
      if (dict->subdict)
          return(xmlDictOwns(dict->subdict, str));
      return(0);
  }
  
  /**
   * xmlDictSize:
   * @dict: the dictionary
   *
   * Query the number of elements installed in the hash @dict.
   *
   * Returns the number of elements in the dictionary or
   * -1 in case of error
   */
  int
  xmlDictSize(xmlDictPtr dict) {
      if (dict == NULL)
  	return(-1);
      if (dict->subdict)
          return(dict->nbElems + dict->subdict->nbElems);
      return(dict->nbElems);
  }
  
  /**
   * xmlDictSetLimit:
   * @dict: the dictionary
   * @limit: the limit in bytes
   *
   * Set a size limit for the dictionary
   * Added in 2.9.0
   *
   * Returns the previous limit of the dictionary or 0
   */
  size_t
  xmlDictSetLimit(xmlDictPtr dict, size_t limit) {
      size_t ret;
  
      if (dict == NULL)
  	return(0);
      ret = dict->limit;
      dict->limit = limit;
      return(ret);
  }
  
  /**
   * xmlDictGetUsage:
   * @dict: the dictionary
   *
   * Get how much memory is used by a dictionary for strings
   * Added in 2.9.0
   *
   * Returns the amount of strings allocated
   */
  size_t
  xmlDictGetUsage(xmlDictPtr dict) {
      xmlDictStringsPtr pool;
      size_t limit = 0;
  
      if (dict == NULL)
  	return(0);
      pool = dict->strings;
      while (pool != NULL) {
          limit += pool->size;
  	pool = pool->next;
      }
      return(limit);
  }
  
  /*****************************************************************
   *
   * The code below was rewritten and is additionally licensed under
   * the main license in file 'Copyright'.
   *
   *****************************************************************/
  
  ATTRIBUTE_NO_SANITIZE_INTEGER
  static unsigned
  xmlDictHashName(unsigned seed, const xmlChar* data, size_t maxLen,
                  size_t *plen) {
      unsigned h1, h2;
      size_t i;
  
      HASH_INIT(h1, h2, seed);
  
      for (i = 0; i < maxLen && data[i]; i++) {
          HASH_UPDATE(h1, h2, data[i]);
      }
  
      HASH_FINISH(h1, h2);
  
      *plen = i;
      return(h2 | MAX_HASH_SIZE);
  }
  
  ATTRIBUTE_NO_SANITIZE_INTEGER
  static unsigned
  xmlDictHashQName(unsigned seed, const xmlChar *prefix, const xmlChar *name,
                   size_t *pplen, size_t *plen) {
      unsigned h1, h2;
      size_t i;
  
      HASH_INIT(h1, h2, seed);
  
      for (i = 0; prefix[i] != 0; i++) {
          HASH_UPDATE(h1, h2, prefix[i]);
      }
      *pplen = i;
  
      HASH_UPDATE(h1, h2, ':');
  
      for (i = 0; name[i] != 0; i++) {
          HASH_UPDATE(h1, h2, name[i]);
      }
      *plen = i;
  
      HASH_FINISH(h1, h2);
  
      /*
       * Always set the upper bit of hash values since 0 means an unoccupied
       * bucket.
       */
      return(h2 | MAX_HASH_SIZE);
  }
  
  /**
   * xmlDictComputeHash:
   * @dict:  dictionary
   * @string:  C string
   *
   * Compute the hash value of a C string.
   *
   * Returns the hash value.
   */
  unsigned
  xmlDictComputeHash(const xmlDict *dict, const xmlChar *string) {
      size_t len;
      return(xmlDictHashName(dict->seed, string, SIZE_MAX, &len));
  }
  
  #define HASH_ROL31(x,n) ((x) << (n) | ((x) & 0x7FFFFFFF) >> (31 - (n)))
  
  /**
   * xmlDictCombineHash:
   * @v1:  first hash value
   * @v2: second hash value
   *
   * Combine two hash values.
   *
   * Returns the combined hash value.
   */
  ATTRIBUTE_NO_SANITIZE_INTEGER
  unsigned
  xmlDictCombineHash(unsigned v1, unsigned v2) {
      /*
       * The upper bit of hash values is always set, so we have to operate on
       * 31-bit hashes here.
       */
      v1 ^= v2;
      v1 += HASH_ROL31(v2, 5);
  
      return((v1 & 0xFFFFFFFF) | 0x80000000);
  }
  
  /**
   * xmlDictFindEntry:
   * @dict: dict
   * @prefix: optional QName prefix
   * @name: string
   * @len: length of string
   * @hashValue: valid hash value of string
   * @pfound: result of search
   *
   * Try to find a matching hash table entry. If an entry was found, set
   * @found to 1 and return the entry. Otherwise, set @found to 0 and return
   * the location where a new entry should be inserted.
   */
  ATTRIBUTE_NO_SANITIZE_INTEGER
  static xmlDictEntry *
  xmlDictFindEntry(const xmlDict *dict, const xmlChar *prefix,
                   const xmlChar *name, int len, unsigned hashValue,
                   int *pfound) {
      xmlDictEntry *entry;
      unsigned mask, pos, displ;
      int found = 0;
  
      mask = dict->size - 1;
      pos = hashValue & mask;
      entry = &dict->table[pos];
  
      if (entry->hashValue != 0) {
          /*
           * Robin hood hashing: abort if the displacement of the entry
           * is smaller than the displacement of the key we look for.
           * This also stops at the correct position when inserting.
           */
          displ = 0;
  
          do {
              if (entry->hashValue == hashValue) {
                  if (prefix == NULL) {
                      /*
                       * name is not necessarily null-terminated.
                       */
                      if ((strncmp((const char *) entry->name,
                                   (const char *) name, len) == 0) &&
                          (entry->name[len] == 0)) {
                          found = 1;
                          break;
                      }
                  } else {
                      if (xmlStrQEqual(prefix, name, entry->name)) {
                          found = 1;
                          break;
                      }
                  }
              }
  
              displ++;
              pos++;
              entry++;
              if ((pos & mask) == 0)
                  entry = dict->table;
          } while ((entry->hashValue != 0) &&
                   (((pos - entry->hashValue) & mask) >= displ));
      }
  
      *pfound = found;
      return(entry);
  }
  
  /**
   * xmlDictGrow:
   * @dict: dictionary
   * @size: new size of the dictionary
   *
   * Resize the dictionary hash table.
   *
   * Returns 0 in case of success, -1 if a memory allocation failed.
   */
  static int
  xmlDictGrow(xmlDictPtr dict, unsigned size) {
      const xmlDictEntry *oldentry, *oldend, *end;
      xmlDictEntry *table;
      unsigned oldsize, i;
  
      /* Add 0 to avoid spurious -Wtype-limits warning on 64-bit GCC */
      if ((size_t) size + 0 > SIZE_MAX / sizeof(table[0]))
          return(-1);
      table = xmlMalloc(size * sizeof(table[0]));
      if (table == NULL)
          return(-1);
      memset(table, 0, size * sizeof(table[0]));
  
      oldsize = dict->size;
      if (oldsize == 0)
          goto done;
  
      oldend = &dict->table[oldsize];
      end = &table[size];
  
      /*
       * Robin Hood sorting order is maintained if we
       *
       * - compute dict indices with modulo
       * - resize by an integer factor
       * - start to copy from the beginning of a probe sequence
       */
      oldentry = dict->table;
      while (oldentry->hashValue != 0) {
          if (++oldentry >= oldend)
              oldentry = dict->table;
      }
  
      for (i = 0; i < oldsize; i++) {
          if (oldentry->hashValue != 0) {
              xmlDictEntry *entry = &table[oldentry->hashValue & (size - 1)];
  
              while (entry->hashValue != 0) {
                  if (++entry >= end)
                      entry = table;
              }
              *entry = *oldentry;
          }
  
          if (++oldentry >= oldend)
              oldentry = dict->table;
      }
  
      xmlFree(dict->table);
  
  done:
      dict->table = table;
      dict->size = size;
  
      return(0);
  }
  
  /**
   * xmlDictLookupInternal:
   * @dict: dict
   * @prefix: optional QName prefix
   * @name: string
   * @maybeLen: length of string or -1 if unknown
   * @update: whether the string should be added
   *
   * Internal lookup and update function.
   */
  ATTRIBUTE_NO_SANITIZE_INTEGER
  static const xmlDictEntry *
  xmlDictLookupInternal(xmlDictPtr dict, const xmlChar *prefix,
                        const xmlChar *name, int maybeLen, int update) {
      xmlDictEntry *entry = NULL;
      const xmlChar *ret;
      unsigned hashValue;
      size_t maxLen, len, plen, klen;
      int found = 0;
  
      if ((dict == NULL) || (name == NULL))
  	return(NULL);
  
      maxLen = (maybeLen < 0) ? SIZE_MAX : (size_t) maybeLen;
  
      if (prefix == NULL) {
          hashValue = xmlDictHashName(dict->seed, name, maxLen, &len);
          if (len > INT_MAX / 2)
              return(NULL);
          klen = len;
      } else {
          hashValue = xmlDictHashQName(dict->seed, prefix, name, &plen, &len);
          if ((len > INT_MAX / 2) || (plen >= INT_MAX / 2 - len))
              return(NULL);
          klen = plen + 1 + len;
      }
  
      if ((dict->limit > 0) && (klen >= dict->limit))
          return(NULL);
  
      /*
       * Check for an existing entry
       */
      if (dict->size > 0)
          entry = xmlDictFindEntry(dict, prefix, name, klen, hashValue, &found);
      if (found)
          return(entry);
  
      if ((dict->subdict != NULL) && (dict->subdict->size > 0)) {
          xmlDictEntry *subEntry;
          unsigned subHashValue;
  
          if (prefix == NULL)
              subHashValue = xmlDictHashName(dict->subdict->seed, name, len,
                                             &len);
          else
              subHashValue = xmlDictHashQName(dict->subdict->seed, prefix, name,
                                              &plen, &len);
          subEntry = xmlDictFindEntry(dict->subdict, prefix, name, klen,
                                      subHashValue, &found);
          if (found)
              return(subEntry);
      }
  
      if (!update)
          return(NULL);
  
      /*
       * Grow the hash table if needed
       */
      if (dict->nbElems + 1 > dict->size / MAX_FILL_DENOM * MAX_FILL_NUM) {
          unsigned newSize, mask, displ, pos;
  
          if (dict->size == 0) {
              newSize = MIN_HASH_SIZE;
          } else {
              if (dict->size >= MAX_HASH_SIZE)
                  return(NULL);
              newSize = dict->size * 2;
          }
          if (xmlDictGrow(dict, newSize) != 0)
              return(NULL);
  
          /*
           * Find new entry
           */
          mask = dict->size - 1;
          displ = 0;
          pos = hashValue & mask;
          entry = &dict->table[pos];
  
          while ((entry->hashValue != 0) &&
                 ((pos - entry->hashValue) & mask) >= displ) {
              displ++;
              pos++;
              entry++;
              if ((pos & mask) == 0)
                  entry = dict->table;
          }
      }
  
      if (prefix == NULL)
          ret = xmlDictAddString(dict, name, len);
      else
          ret = xmlDictAddQString(dict, prefix, plen, name, len);
      if (ret == NULL)
          return(NULL);
  
      /*
       * Shift the remainder of the probe sequence to the right
       */
      if (entry->hashValue != 0) {
          const xmlDictEntry *end = &dict->table[dict->size];
          const xmlDictEntry *cur = entry;
  
          do {
              cur++;
              if (cur >= end)
                  cur = dict->table;
          } while (cur->hashValue != 0);
  
          if (cur < entry) {
              /*
               * If we traversed the end of the buffer, handle the part
               * at the start of the buffer.
               */
              memmove(&dict->table[1], dict->table,
                      (char *) cur - (char *) dict->table);
              cur = end - 1;
              dict->table[0] = *cur;
          }
  
          memmove(&entry[1], entry, (char *) cur - (char *) entry);
      }
  
      /*
       * Populate entry
       */
      entry->hashValue = hashValue;
      entry->name = ret;
  
      dict->nbElems++;
  
      return(entry);
  }
  
  /**
   * xmlDictLookup:
   * @dict: dictionary
   * @name: string key
   * @len: length of the key, if -1 it is recomputed
   *
   * Lookup a string and add it to the dictionary if it wasn't found.
   *
   * Returns the interned copy of the string or NULL if a memory allocation
   * failed.
   */
  const xmlChar *
  xmlDictLookup(xmlDictPtr dict, const xmlChar *name, int len) {
      const xmlDictEntry *entry;
  
      entry = xmlDictLookupInternal(dict, NULL, name, len, 1);
      if (entry == NULL)
          return(NULL);
      return(entry->name);
  }
  
  /**
   * xmlDictLookupHashed:
   * @dict: dictionary
   * @name: string key
   * @len: length of the key, if -1 it is recomputed
   *
   * Lookup a dictionary entry and add the string to the dictionary if
   * it wasn't found.
   *
   * Returns the dictionary entry.
   */
  xmlHashedString
  xmlDictLookupHashed(xmlDictPtr dict, const xmlChar *name, int len) {
      const xmlDictEntry *entry;
      xmlHashedString ret;
  
      entry = xmlDictLookupInternal(dict, NULL, name, len, 1);
  
      if (entry == NULL) {
          ret.name = NULL;
          ret.hashValue = 0;
      } else {
          ret = *entry;
      }
  
      return(ret);
  }
  
  /**
   * xmlDictExists:
   * @dict: the dictionary
   * @name: the name of the userdata
   * @len: the length of the name, if -1 it is recomputed
   *
   * Check if a string exists in the dictionary.
   *
   * Returns the internal copy of the name or NULL if not found.
   */
  const xmlChar *
  xmlDictExists(xmlDictPtr dict, const xmlChar *name, int len) {
      const xmlDictEntry *entry;
  
      entry = xmlDictLookupInternal(dict, NULL, name, len, 0);
      if (entry == NULL)
          return(NULL);
      return(entry->name);
  }
  
  /**
   * xmlDictQLookup:
   * @dict: the dictionary
   * @prefix: the prefix
   * @name: the name
   *
   * Lookup the QName @prefix:@name and add it to the dictionary if
   * it wasn't found.
   *
   * Returns the interned copy of the string or NULL if a memory allocation
   * failed.
   */
  const xmlChar *
  xmlDictQLookup(xmlDictPtr dict, const xmlChar *prefix, const xmlChar *name) {
      const xmlDictEntry *entry;
  
      entry = xmlDictLookupInternal(dict, prefix, name, -1, 1);
      if (entry == NULL)
          return(NULL);
      return(entry->name);
  }
  
  /*
   * Pseudo-random generator
   */
  
  #ifdef _WIN32
    #define WIN32_LEAN_AND_MEAN
    #include <windows.h>
    #include <bcrypt.h>
  #elif HAVE_DECL_GETENTROPY
    #include <unistd.h>
    #include <sys/random.h>
  #else
    #include <time.h>
  #endif
  
  static xmlMutex xmlRngMutex;
  
  static unsigned globalRngState[2];
  
  /*
   * xmlInitRandom:
   *
   * Initialize the PRNG.
   */
  ATTRIBUTE_NO_SANITIZE_INTEGER
  void
  xmlInitRandom(void) {
      xmlInitMutex(&xmlRngMutex);
  
      {
  #ifdef _WIN32
          NTSTATUS status;
  
          status = BCryptGenRandom(NULL, (unsigned char *) globalRngState,
                                   sizeof(globalRngState),
                                   BCRYPT_USE_SYSTEM_PREFERRED_RNG);
          if (!BCRYPT_SUCCESS(status))
              xmlAbort("libxml2: BCryptGenRandom failed with error code %lu\n",
                       GetLastError());
  #elif HAVE_DECL_GETENTROPY
          while (1) {
              if (getentropy(globalRngState, sizeof(globalRngState)) == 0)
                  break;
  
              if (errno != EINTR)
                  xmlAbort("libxml2: getentropy failed with error code %d\n",
                           errno);
          }
  #else
          int var;
  
          globalRngState[0] =
                  (unsigned) time(NULL) ^
                  HASH_ROL((unsigned) ((size_t) &xmlInitRandom & 0xFFFFFFFF), 8);
          globalRngState[1] =
                  HASH_ROL((unsigned) ((size_t) &xmlRngMutex & 0xFFFFFFFF), 16) ^
                  HASH_ROL((unsigned) ((size_t) &var & 0xFFFFFFFF), 24);
  #endif
      }
  }
  
  /*
   * xmlCleanupRandom:
   *
   * Clean up PRNG globals.
   */
  void
  xmlCleanupRandom(void) {
      xmlCleanupMutex(&xmlRngMutex);
  }
  
  ATTRIBUTE_NO_SANITIZE_INTEGER
  static unsigned
  xoroshiro64ss(unsigned *s) {
      unsigned s0 = s[0];
      unsigned s1 = s[1];
      unsigned result = HASH_ROL(s0 * 0x9E3779BB, 5) * 5;
  
      s1 ^= s0;
      s[0] = HASH_ROL(s0, 26) ^ s1 ^ (s1 << 9);
      s[1] = HASH_ROL(s1, 13);
  
      return(result & 0xFFFFFFFF);
  }
  
  /*
   * xmlGlobalRandom:
   *
   * Generate a pseudo-random value using the global PRNG.
   *
   * Returns a random value.
   */
  unsigned
  xmlGlobalRandom(void) {
      unsigned ret;
  
      xmlMutexLock(&xmlRngMutex);
      ret = xoroshiro64ss(globalRngState);
      xmlMutexUnlock(&xmlRngMutex);
  
      return(ret);
  }
  
  /*
   * xmlRandom:
   *
   * Generate a pseudo-random value using the thread-local PRNG.
   *
   * Returns a random value.
   */
  unsigned
  xmlRandom(void) {
  #ifdef LIBXML_THREAD_ENABLED
      return(xoroshiro64ss(xmlGetLocalRngState()));
  #else
      return(xmlGlobalRandom());
  #endif
  }
  
  

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