snmplib/container_binary_array.c - vendor/opensource/netsnmp - Git at Google

 /*
  * container_binary_array.c
  * $Id$
  *
  * see comments in header file.
  *
  */

 #include <net-snmp/net-snmp-config.h>

 #if HAVE_IO_H
 #include <io.h>
 #endif
 #include <stdio.h>
 #if HAVE_STDLIB_H
 #include <stdlib.h>
 #endif
 #if HAVE_MALLOC_H
 #include <malloc.h>
 #endif
 #include <sys/types.h>
 #if HAVE_STRING_H
 #include <string.h>
 #else
 #include <strings.h>
 #endif

 #include <net-snmp/net-snmp-includes.h>
 #include <net-snmp/types.h>
 #include <net-snmp/library/snmp_api.h>
 #include <net-snmp/library/container.h>
 #include <net-snmp/library/container_binary_array.h>
 #include <net-snmp/library/tools.h>
 #include <net-snmp/library/snmp_assert.h>

 typedef struct binary_array_table_s {
     size_t                     max_size;   /* Size of the current data table */
     size_t                     count;      /* Index of the next free entry */
     int                        dirty;
     void                     **data;       /* The table itself */
 } binary_array_table;

 typedef struct binary_array_iterator_s {
     netsnmp_iterator base;

     size_t           pos;
 } binary_array_iterator;

 static netsnmp_iterator *_ba_iterator_get(netsnmp_container *c);

 /**********************************************************************
  *
  *
  *
  */
 static void
 array_qsort(void **data, int first, int last, netsnmp_container_compare *f)
 {
     int i, j;
     void *mid, *tmp;

     i = first;
     j = last;
     mid = data[(first+last)/2];

     do {
         while (i < last && (*f)(data[i], mid) < 0)
             ++i;
         while (j > first && (*f)(mid, data[j]) < 0)
             --j;

         if(i < j) {
             tmp = data[i];
             data[i] = data[j];
             data[j] = tmp;
             ++i;
             --j;
         }
         else if (i == j) {
             ++i;
             --j;
             break;
         }
     } while(i <= j);

     if (j > first)
         array_qsort(data, first, j, f);

     if (i < last)
         array_qsort(data, i, last, f);
 }

 static int
 Sort_Array(netsnmp_container *c)
 {
     binary_array_table *t = (binary_array_table*)c->container_data;
     netsnmp_assert(t!=NULL);
     netsnmp_assert(c->compare!=NULL);

     if (c->flags & CONTAINER_KEY_UNSORTED)
         return 0;

     if (t->dirty) {
         /*
          * Sort the table
          */
         if (t->count > 1)
             array_qsort(t->data, 0, t->count - 1, c->compare);
         t->dirty = 0;

         /*
          * no way to know if it actually changed... just assume so.
          */
         ++c->sync;
     }

     return 1;
 }

 static int
 linear_search(const void *val, netsnmp_container *c)
 {
     binary_array_table *t = (binary_array_table*)c->container_data;
     size_t             pos = 0;

     if (!t->count)
         return -1;

     if (! (c->flags & CONTAINER_KEY_UNSORTED)) {
         snmp_log(LOG_ERR, "linear search on sorted container %s?!?\n",
                  c->container_name);
         return -1;
     }

     for (; pos < t->count; ++pos) {
         if (c->compare(t->data[pos], val) == 0)
             break;
     }

     if (pos >= t->count)
         return -1;

     return pos;
 }

 static int
 binary_search(const void *val, netsnmp_container *c, int exact)
 {
     binary_array_table *t = (binary_array_table*)c->container_data;
     size_t             len = t->count;
     size_t             half;
     size_t             middle = 0;
     size_t             first = 0;
     int                result = 0;

     if (!len)
         return -1;

     if (c->flags & CONTAINER_KEY_UNSORTED) {
         if (!exact) {
             snmp_log(LOG_ERR, "non-exact search on unsorted container %s?!?\n",
                      c->container_name);
             return -1;
         }
         return linear_search(val, c);
     }

     if (t->dirty)
         Sort_Array(c);

     while (len > 0) {
         half = len >> 1;
         middle = first;
         middle += half;
         if ((result =
              c->compare(t->data[middle], val)) < 0) {
             first = middle;
             ++first;
             len = len - half - 1;
         } else {
             if(result == 0) {
                 first = middle;
                 break;
             }
             len = half;
         }
     }

     if (first >= t->count)
         return -1;

     if(first != middle) {
         /* last compare wasn't against first, so get actual result */
         result = c->compare(t->data[first], val);
     }

     if(result == 0) {
         if (!exact) {
             if (++first == t->count)
                first = -1;
         }
     }
     else {
         if(exact)
             first = -1;
     }

     return first;
 }

 NETSNMP_STATIC_INLINE binary_array_table *
 netsnmp_binary_array_initialize(void)
 {
     binary_array_table *t;

     t = SNMP_MALLOC_TYPEDEF(binary_array_table);
     if (t == NULL)
         return NULL;

     t->max_size = 0;
     t->count = 0;
     t->dirty = 0;
     t->data = NULL;

     return t;
 }

 void
 netsnmp_binary_array_release(netsnmp_container *c)
 {
     binary_array_table *t = (binary_array_table*)c->container_data;
     SNMP_FREE(t->data);
     SNMP_FREE(t);
     SNMP_FREE(c);
 }

 int
 netsnmp_binary_array_options_set(netsnmp_container *c, int set, u_int flags)
 {
 #define BA_FLAGS (CONTAINER_KEY_ALLOW_DUPLICATES|CONTAINER_KEY_UNSORTED)

     if (set) {
         if ((flags & BA_FLAGS) == flags)
             c->flags = flags;
         else
             flags = (u_int)-1; /* unsupported flag */
     }
     else
         return ((c->flags & flags) == flags);
     return flags;
 }

 NETSNMP_STATIC_INLINE size_t
 netsnmp_binary_array_count(netsnmp_container *c)
 {
     binary_array_table *t = (binary_array_table*)c->container_data;
     /*
      * return count
      */
     return t ? t->count : 0;
 }

 NETSNMP_STATIC_INLINE void           *
 netsnmp_binary_array_get(netsnmp_container *c, const void *key, int exact)
 {
     binary_array_table *t = (binary_array_table*)c->container_data;
     int             index = 0;

     /*
      * if there is no data, return NULL;
      */
     if (!t->count)
         return NULL;

     /*
      * if the table is dirty, sort it.
      */
     if (t->dirty)
         Sort_Array(c);

     /*
      * if there is a key, search. Otherwise default is 0;
      */
     if (key) {
         if ((index = binary_search(key, c, exact)) == -1)
             return NULL;
     }

     return t->data[index];
 }

 int
 netsnmp_binary_array_remove_at(netsnmp_container *c, size_t index, void **save)
 {
     binary_array_table *t = (binary_array_table*)c->container_data;

     if (save)
         *save = NULL;

     /*
      * if there is no data, return NULL;
      */
     if (!t->count)
         return 0;

     /*
      * find old data and save it, if ptr provided
      */
     if (save)
         *save = t->data[index];

     /*
      * if entry was last item, just decrement count
      */
     --t->count;
     if (index != t->count) {
         /*
          * otherwise, shift array down
          */
         memmove(&t->data[index], &t->data[index+1],
                 sizeof(void*) * (t->count - index));

         ++c->sync;
     }

     return 0;
 }
 int
 netsnmp_binary_array_remove(netsnmp_container *c, const void *key, void **save)
 {
     binary_array_table *t = (binary_array_table*)c->container_data;
     int                index = 0;

     if (save)
         *save = NULL;

     /*
      * if there is no data, return NULL;
      */
     if (!t->count)
         return 0;

     /*
      * if the table is dirty, sort it.
      */
     if (t->dirty)
         Sort_Array(c);

     /*
      * search
      */
     if ((index = binary_search(key, c, 1)) == -1)
         return -1;

     return netsnmp_binary_array_remove_at(c, (size_t)index, save);
 }

 NETSNMP_STATIC_INLINE void
 netsnmp_binary_array_for_each(netsnmp_container *c,
                               netsnmp_container_obj_func *fe,
                               void *context, int sort)
 {
     binary_array_table *t = (binary_array_table*)c->container_data;
     size_t             i;

     if (sort && t->dirty)
         Sort_Array(c);

     for (i = 0; i < t->count; ++i)
         (*fe) (t->data[i], context);
 }

 NETSNMP_STATIC_INLINE void
 netsnmp_binary_array_clear(netsnmp_container *c,
                            netsnmp_container_obj_func *fe,
                            void *context)
 {
     binary_array_table *t = (binary_array_table*)c->container_data;

     if( NULL != fe ) {
         size_t             i;

         for (i = 0; i < t->count; ++i)
             (*fe) (t->data[i], context);
     }

     t->count = 0;
     t->dirty = 0;
     ++c->sync;
 }

 NETSNMP_STATIC_INLINE int
 netsnmp_binary_array_insert(netsnmp_container *c, const void *entry)
 {
     binary_array_table *t = (binary_array_table*)c->container_data;
     int             was_dirty = 0;
     /*
      * check for duplicates
      */
     if (! (c->flags & CONTAINER_KEY_ALLOW_DUPLICATES)) {
         was_dirty = t->dirty;
         if (NULL != netsnmp_binary_array_get(c, entry, 1)) {
             DEBUGMSGTL(("container","not inserting duplicate key\n"));
             return -1;
         }
     }

     /*
      * check if we need to resize the array
      */
     if (t->max_size <= t->count) {
         /*
          * Table is full, so extend it to double the size, or use 10 elements
          * if it is empty.
          */
         size_t const new_max = t->max_size > 0 ? 2 * t->max_size : 10;
         void ** const new_data =
             (void**) realloc(t->data, new_max * sizeof(void*));

         if (new_data == NULL)
             return -1;

         memset(new_data + t->max_size, 0x0,
                (new_max - t->max_size) * sizeof(void*));

         t->data = new_data;
         t->max_size = new_max;
     }

     /*
      * Insert the new entry into the data array
      */
     t->data[t->count++] = NETSNMP_REMOVE_CONST(void *, entry);
     t->dirty = 1;

     /*
      * if array was dirty before we called get, sync was incremented when
      * get called SortArray. If we didn't call get or the array wasn't dirty,
      * bump sync now.
      */
     if (!was_dirty)
         ++c->sync;

     return 0;
 }

 /**********************************************************************
  *
  * Special case support for subsets
  *
  */
 static int
 binary_search_for_start(netsnmp_index *val, netsnmp_container *c)
 {
     binary_array_table *t = (binary_array_table*)c->container_data;
     size_t             len = t->count;
     size_t             half;
     size_t             middle;
     size_t             first = 0;
     int                result = 0;

     if (!len)
         return -1;

     if (t->dirty)
         Sort_Array(c);

     while (len > 0) {
         half = len >> 1;
         middle = first;
         middle += half;
         if ((result = c->ncompare(t->data[middle], val)) < 0) {
             first = middle;
             ++first;
             len = len - half - 1;
         } else
             len = half;
     }

     if ((first >= t->count) ||
         c->ncompare(t->data[first], val) != 0)
         return -1;

     return first;
 }

 void          **
 netsnmp_binary_array_get_subset(netsnmp_container *c, void *key, int *len)
 {
     binary_array_table *t;
     void          **subset;
     int             start, end;
     size_t          i;

     /*
      * if there is no data, return NULL;
      */
     if (!c || !key)
         return NULL;

     t = (binary_array_table*)c->container_data;
     netsnmp_assert(c->ncompare);
     if (!t->count | !c->ncompare)
         return NULL;

     /*
      * if the table is dirty, sort it.
      */
     if (t->dirty)
         Sort_Array(c);

     /*
      * find matching items
      */
     start = end = binary_search_for_start((netsnmp_index *)key, c);
     if (start == -1)
         return NULL;

     for (i = start + 1; i < t->count; ++i) {
         if (0 != c->ncompare(t->data[i], key))
             break;
         ++end;
     }

     *len = end - start + 1;
     subset = (void **)malloc((*len) * sizeof(void*));
     if (subset)
         memcpy(subset, &t->data[start], sizeof(void*) * (*len));

     return subset;
 }

 /**********************************************************************
  *
  * container
  *
  */
 static void *
 _ba_find(netsnmp_container *container, const void *data)
 {
     return netsnmp_binary_array_get(container, data, 1);
 }

 static void *
 _ba_find_next(netsnmp_container *container, const void *data)
 {
     return netsnmp_binary_array_get(container, data, 0);
 }

 static int
 _ba_insert(netsnmp_container *container, const void *data)
 {
     return netsnmp_binary_array_insert(container, data);
 }

 static int
 _ba_remove(netsnmp_container *container, const void *data)
 {
     return netsnmp_binary_array_remove(container,data, NULL);
 }

 static int
 _ba_free(netsnmp_container *container)
 {
     netsnmp_binary_array_release(container);
     return 0;
 }

 static size_t
 _ba_size(netsnmp_container *container)
 {
     return netsnmp_binary_array_count(container);
 }

 static void
 _ba_for_each(netsnmp_container *container, netsnmp_container_obj_func *f,
              void *context)
 {
     netsnmp_binary_array_for_each(container, f, context, 1);
 }

 static void
 _ba_clear(netsnmp_container *container, netsnmp_container_obj_func *f,
              void *context)
 {
     netsnmp_binary_array_clear(container, f, context);
 }

 static netsnmp_void_array *
 _ba_get_subset(netsnmp_container *container, void *data)
 {
     netsnmp_void_array * va;
     void ** rtn;
     int len;

     rtn = netsnmp_binary_array_get_subset(container, data, &len);
     if ((NULL==rtn) || (len <=0))
         return NULL;

     va = SNMP_MALLOC_TYPEDEF(netsnmp_void_array);
     if (NULL==va)
     {
         free (rtn);
         return NULL;
     }

     va->size = len;
     va->array = rtn;

     return va;
 }

 static int _ba_options(netsnmp_container *c, int set, u_int flags)
 {
     return netsnmp_binary_array_options_set(c, set, flags);
 }

 static netsnmp_container *
 _ba_duplicate(netsnmp_container *c, void *ctx, u_int flags)
 {
     netsnmp_container *dup;
     binary_array_table *dupt, *t;

     if (flags) {
         snmp_log(LOG_ERR, "binary arry duplicate does not supprt flags yet\n");
         return NULL;
     }

     dup = netsnmp_container_get_binary_array();
     if (NULL == dup) {
         snmp_log(LOG_ERR," no memory for binary array duplicate\n");
         return NULL;
     }
     /*
      * deal with container stuff
      */
     if (netsnmp_container_data_dup(dup, c) != 0) {
         netsnmp_binary_array_release(dup);
         return NULL;
     }

     /*
      * deal with data
      */
     dupt = (binary_array_table*)dup->container_data;
     t = (binary_array_table*)c->container_data;

     dupt->max_size = t->max_size;
     dupt->count = t->count;
     dupt->dirty = t->dirty;

     /*
      * shallow copy
      */
     dupt->data = (void**) malloc(dupt->max_size * sizeof(void*));
     if (NULL == dupt->data) {
         snmp_log(LOG_ERR, "no memory for binary array duplicate\n");
         netsnmp_binary_array_release(dup);
         return NULL;
     }

     memcpy(dupt->data, t->data, dupt->max_size * sizeof(void*));

     return dup;
 }

 netsnmp_container *
 netsnmp_container_get_binary_array(void)
 {
     /*
      * allocate memory
      */
     netsnmp_container *c = SNMP_MALLOC_TYPEDEF(netsnmp_container);
     if (NULL==c) {
         snmp_log(LOG_ERR, "couldn't allocate memory\n");
         return NULL;
     }

     c->container_data = netsnmp_binary_array_initialize();

     /*
      * NOTE: CHANGES HERE MUST BE DUPLICATED IN duplicate AS WELL!!
      */
     netsnmp_init_container(c, NULL, _ba_free, _ba_size, NULL, _ba_insert,
                            _ba_remove, _ba_find);
     c->find_next = _ba_find_next;
     c->get_subset = _ba_get_subset;
     c->get_iterator = _ba_iterator_get;
     c->for_each = _ba_for_each;
     c->clear = _ba_clear;
     c->options = _ba_options;
     c->duplicate = _ba_duplicate;

     return c;
 }

 netsnmp_factory *
 netsnmp_container_get_binary_array_factory(void)
 {
     static netsnmp_factory f = { "binary_array",
                                  (netsnmp_factory_produce_f*)
                                  netsnmp_container_get_binary_array };

     return &f;
 }

 void
 netsnmp_container_binary_array_init(void)
 {
     netsnmp_container_register("binary_array",
                                netsnmp_container_get_binary_array_factory());
 }

 /**********************************************************************
  *
  * iterator
  *
  */
 NETSNMP_STATIC_INLINE binary_array_table *
 _ba_it2cont(binary_array_iterator *it)
 {
     if(NULL == it) {
         netsnmp_assert(NULL != it);
         return NULL;
     }
     if(NULL == it->base.container) {
         netsnmp_assert(NULL != it->base.container);
         return NULL;
     }
     if(NULL == it->base.container->container_data) {
         netsnmp_assert(NULL != it->base.container->container_data);
         return NULL;
     }

     return (binary_array_table*)(it->base.container->container_data);
 }

 NETSNMP_STATIC_INLINE void *
 _ba_iterator_position(binary_array_iterator *it, size_t pos)
 {
     binary_array_table *t = _ba_it2cont(it);
     if (NULL == t)
         return t; /* msg already logged */

     if(it->base.container->sync != it->base.sync) {
         DEBUGMSGTL(("container:iterator", "out of sync\n"));
         return NULL;
     }

     if(0 == t->count) {
         DEBUGMSGTL(("container:iterator", "empty\n"));
         return NULL;
     }
     else if(pos >= t->count) {
         DEBUGMSGTL(("container:iterator", "end of container\n"));
         return NULL;
     }

     return t->data[ pos ];
 }

 static void *
 _ba_iterator_curr(binary_array_iterator *it)
 {
     if(NULL == it) {
         netsnmp_assert(NULL != it);
         return NULL;
     }

     return _ba_iterator_position(it, it->pos);
 }

 static void *
 _ba_iterator_first(binary_array_iterator *it)
 {
     return _ba_iterator_position(it, 0);
 }

 static void *
 _ba_iterator_next(binary_array_iterator *it)
 {
     if(NULL == it) {
         netsnmp_assert(NULL != it);
         return NULL;
     }

     ++it->pos;

     return _ba_iterator_position(it, it->pos);
 }

 static void *
 _ba_iterator_last(binary_array_iterator *it)
 {
     binary_array_table* t = _ba_it2cont(it);
     if(NULL == t) {
         netsnmp_assert(NULL != t);
         return NULL;
     }

     return _ba_iterator_position(it, t->count - 1 );
 }

 static int
 _ba_iterator_remove(binary_array_iterator *it)
 {
     binary_array_table* t = _ba_it2cont(it);
     if(NULL == t) {
         netsnmp_assert(NULL != t);
         return -1;
     }

     /*
      * since this iterator was used for the remove, keep it in sync with
      * the container. Also, back up one so that next will be the position
      * that was just removed.
      */
     ++it->base.sync;
     return netsnmp_binary_array_remove_at(it->base.container, it->pos--, NULL);

 }

 static int
 _ba_iterator_reset(binary_array_iterator *it)
 {
     binary_array_table* t = _ba_it2cont(it);
     if(NULL == t) {
         netsnmp_assert(NULL != t);
         return -1;
     }

     if (t->dirty)
         Sort_Array(it->base.container);

     /*
      * save sync count, to make sure container doesn't change while
      * iterator is in use.
      */
     it->base.sync = it->base.container->sync;

     it->pos = 0;

     return 0;
 }

 static int
 _ba_iterator_release(netsnmp_iterator *it)
 {
     free(it);

     return 0;
 }

 static netsnmp_iterator *
 _ba_iterator_get(netsnmp_container *c)
 {
     binary_array_iterator* it;

     if(NULL == c)
         return NULL;

     it = SNMP_MALLOC_TYPEDEF(binary_array_iterator);
     if(NULL == it)
         return NULL;

     it->base.container = c;

     it->base.first = (netsnmp_iterator_rtn*)_ba_iterator_first;
     it->base.next = (netsnmp_iterator_rtn*)_ba_iterator_next;
     it->base.curr = (netsnmp_iterator_rtn*)_ba_iterator_curr;
     it->base.last = (netsnmp_iterator_rtn*)_ba_iterator_last;
     it->base.remove = (netsnmp_iterator_rc*)_ba_iterator_remove;
     it->base.reset = (netsnmp_iterator_rc*)_ba_iterator_reset;
     it->base.release = (netsnmp_iterator_rc*)_ba_iterator_release;

     (void)_ba_iterator_reset(it);

     return (netsnmp_iterator *)it;
 }
	/*
	* container_binary_array.c
	* $Id$
	*
	* see comments in header file.
	*
	*/

	#include <net-snmp/net-snmp-config.h>

	#if HAVE_IO_H
	#include <io.h>
	#endif
	#include <stdio.h>
	#if HAVE_STDLIB_H
	#include <stdlib.h>
	#endif
	#if HAVE_MALLOC_H
	#include <malloc.h>
	#endif
	#include <sys/types.h>
	#if HAVE_STRING_H
	#include <string.h>
	#else
	#include <strings.h>
	#endif

	#include <net-snmp/net-snmp-includes.h>
	#include <net-snmp/types.h>
	#include <net-snmp/library/snmp_api.h>
	#include <net-snmp/library/container.h>
	#include <net-snmp/library/container_binary_array.h>
	#include <net-snmp/library/tools.h>
	#include <net-snmp/library/snmp_assert.h>

	typedef struct binary_array_table_s {
	size_t max_size; /* Size of the current data table */
	size_t count; /* Index of the next free entry */
	int dirty;
	void *data; / The table itself */
	} binary_array_table;

	typedef struct binary_array_iterator_s {
	netsnmp_iterator base;

	size_t pos;
	} binary_array_iterator;

	static netsnmp_iterator _ba_iterator_get(netsnmp_container c);

	/**********************************************************************
	*
	*
	*
	*/
	static void
	array_qsort(void *data, int first, int last, netsnmp_container_compare f)
	{
	int i, j;
	void mid, tmp;

	i = first;
	j = last;
	mid = data[(first+last)/2];

	do {
	while (i < last && (*f)(data[i], mid) < 0)
	++i;
	while (j > first && (*f)(mid, data[j]) < 0)
	--j;

	if(i < j) {
	tmp = data[i];
	data[i] = data[j];
	data[j] = tmp;
	++i;
	--j;
	}
	else if (i == j) {
	++i;
	--j;
	break;
	}
	} while(i <= j);

	if (j > first)
	array_qsort(data, first, j, f);

	if (i < last)
	array_qsort(data, i, last, f);
	}

	static int
	Sort_Array(netsnmp_container *c)
	{
	binary_array_table t = (binary_array_table)c->container_data;
	netsnmp_assert(t!=NULL);
	netsnmp_assert(c->compare!=NULL);

	if (c->flags & CONTAINER_KEY_UNSORTED)
	return 0;

	if (t->dirty) {
	/*
	* Sort the table
	*/
	if (t->count > 1)
	array_qsort(t->data, 0, t->count - 1, c->compare);
	t->dirty = 0;

	/*
	* no way to know if it actually changed... just assume so.
	*/
	++c->sync;
	}

	return 1;
	}

	static int
	linear_search(const void val, netsnmp_container c)
	{
	binary_array_table t = (binary_array_table)c->container_data;
	size_t pos = 0;

	if (!t->count)
	return -1;

	if (! (c->flags & CONTAINER_KEY_UNSORTED)) {
	snmp_log(LOG_ERR, "linear search on sorted container %s?!?\n",
	c->container_name);
	return -1;
	}

	for (; pos < t->count; ++pos) {
	if (c->compare(t->data[pos], val) == 0)
	break;
	}

	if (pos >= t->count)
	return -1;

	return pos;
	}

	static int
	binary_search(const void val, netsnmp_container c, int exact)
	{
	binary_array_table t = (binary_array_table)c->container_data;
	size_t len = t->count;
	size_t half;
	size_t middle = 0;
	size_t first = 0;
	int result = 0;

	if (!len)
	return -1;

	if (c->flags & CONTAINER_KEY_UNSORTED) {
	if (!exact) {
	snmp_log(LOG_ERR, "non-exact search on unsorted container %s?!?\n",
	c->container_name);
	return -1;
	}
	return linear_search(val, c);
	}

	if (t->dirty)
	Sort_Array(c);

	while (len > 0) {
	half = len >> 1;
	middle = first;
	middle += half;
	if ((result =
	c->compare(t->data[middle], val)) < 0) {
	first = middle;
	++first;
	len = len - half - 1;
	} else {
	if(result == 0) {
	first = middle;
	break;
	}
	len = half;
	}
	}

	if (first >= t->count)
	return -1;

	if(first != middle) {
	/* last compare wasn't against first, so get actual result */
	result = c->compare(t->data[first], val);
	}

	if(result == 0) {
	if (!exact) {
	if (++first == t->count)
	first = -1;
	}
	}
	else {
	if(exact)
	first = -1;
	}

	return first;
	}

	NETSNMP_STATIC_INLINE binary_array_table *
	netsnmp_binary_array_initialize(void)
	{
	binary_array_table *t;

	t = SNMP_MALLOC_TYPEDEF(binary_array_table);
	if (t == NULL)
	return NULL;

	t->max_size = 0;
	t->count = 0;
	t->dirty = 0;
	t->data = NULL;

	return t;
	}

	void
	netsnmp_binary_array_release(netsnmp_container *c)
	{
	binary_array_table t = (binary_array_table)c->container_data;
	SNMP_FREE(t->data);
	SNMP_FREE(t);
	SNMP_FREE(c);
	}

	int
	netsnmp_binary_array_options_set(netsnmp_container *c, int set, u_int flags)
	{
	#define BA_FLAGS (CONTAINER_KEY_ALLOW_DUPLICATES\|CONTAINER_KEY_UNSORTED)

	if (set) {
	if ((flags & BA_FLAGS) == flags)
	c->flags = flags;
	else
	flags = (u_int)-1; /* unsupported flag */
	}
	else
	return ((c->flags & flags) == flags);
	return flags;
	}

	NETSNMP_STATIC_INLINE size_t
	netsnmp_binary_array_count(netsnmp_container *c)
	{
	binary_array_table t = (binary_array_table)c->container_data;
	/*
	* return count
	*/
	return t ? t->count : 0;
	}

	NETSNMP_STATIC_INLINE void *
	netsnmp_binary_array_get(netsnmp_container c, const void key, int exact)
	{
	binary_array_table t = (binary_array_table)c->container_data;
	int index = 0;

	/*
	* if there is no data, return NULL;
	*/
	if (!t->count)
	return NULL;

	/*
	* if the table is dirty, sort it.
	*/
	if (t->dirty)
	Sort_Array(c);

	/*
	* if there is a key, search. Otherwise default is 0;
	*/
	if (key) {
	if ((index = binary_search(key, c, exact)) == -1)
	return NULL;
	}

	return t->data[index];
	}

	int
	netsnmp_binary_array_remove_at(netsnmp_container c, size_t index, void *save)
	{
	binary_array_table t = (binary_array_table)c->container_data;

	if (save)
	*save = NULL;

	/*
	* if there is no data, return NULL;
	*/
	if (!t->count)
	return 0;

	/*
	* find old data and save it, if ptr provided
	*/
	if (save)
	*save = t->data[index];

	/*
	* if entry was last item, just decrement count
	*/
	--t->count;
	if (index != t->count) {
	/*
	* otherwise, shift array down
	*/
	memmove(&t->data[index], &t->data[index+1],
	sizeof(void) (t->count - index));

	++c->sync;
	}

	return 0;
	}
	int
	netsnmp_binary_array_remove(netsnmp_container c, const void key, void **save)
	{
	binary_array_table t = (binary_array_table)c->container_data;
	int index = 0;

	if (save)
	*save = NULL;

	/*
	* if there is no data, return NULL;
	*/
	if (!t->count)
	return 0;

	/*
	* if the table is dirty, sort it.
	*/
	if (t->dirty)
	Sort_Array(c);

	/*
	* search
	*/
	if ((index = binary_search(key, c, 1)) == -1)
	return -1;

	return netsnmp_binary_array_remove_at(c, (size_t)index, save);
	}

	NETSNMP_STATIC_INLINE void
	netsnmp_binary_array_for_each(netsnmp_container *c,
	netsnmp_container_obj_func *fe,
	void *context, int sort)
	{
	binary_array_table t = (binary_array_table)c->container_data;
	size_t i;

	if (sort && t->dirty)
	Sort_Array(c);

	for (i = 0; i < t->count; ++i)
	(*fe) (t->data[i], context);
	}

	NETSNMP_STATIC_INLINE void
	netsnmp_binary_array_clear(netsnmp_container *c,
	netsnmp_container_obj_func *fe,
	void *context)
	{
	binary_array_table t = (binary_array_table)c->container_data;

	if( NULL != fe ) {
	size_t i;

	for (i = 0; i < t->count; ++i)
	(*fe) (t->data[i], context);
	}

	t->count = 0;
	t->dirty = 0;
	++c->sync;
	}

	NETSNMP_STATIC_INLINE int
	netsnmp_binary_array_insert(netsnmp_container c, const void entry)
	{
	binary_array_table t = (binary_array_table)c->container_data;
	int was_dirty = 0;
	/*
	* check for duplicates
	*/
	if (! (c->flags & CONTAINER_KEY_ALLOW_DUPLICATES)) {
	was_dirty = t->dirty;
	if (NULL != netsnmp_binary_array_get(c, entry, 1)) {
	DEBUGMSGTL(("container","not inserting duplicate key\n"));
	return -1;
	}
	}

	/*
	* check if we need to resize the array
	*/
	if (t->max_size <= t->count) {
	/*
	* Table is full, so extend it to double the size, or use 10 elements
	* if it is empty.
	*/
	size_t const new_max = t->max_size > 0 ? 2 * t->max_size : 10;
	void ** const new_data =
	(void*) realloc(t->data, new_max sizeof(void*));

	if (new_data == NULL)
	return -1;

	memset(new_data + t->max_size, 0x0,
	(new_max - t->max_size) * sizeof(void*));

	t->data = new_data;
	t->max_size = new_max;
	}

	/*
	* Insert the new entry into the data array
	*/
	t->data[t->count++] = NETSNMP_REMOVE_CONST(void *, entry);
	t->dirty = 1;

	/*
	* if array was dirty before we called get, sync was incremented when
	* get called SortArray. If we didn't call get or the array wasn't dirty,
	* bump sync now.
	*/
	if (!was_dirty)
	++c->sync;

	return 0;
	}

	/**********************************************************************
	*
	* Special case support for subsets
	*
	*/
	static int
	binary_search_for_start(netsnmp_index val, netsnmp_container c)
	{
	binary_array_table t = (binary_array_table)c->container_data;
	size_t len = t->count;
	size_t half;
	size_t middle;
	size_t first = 0;
	int result = 0;

	if (!len)
	return -1;

	if (t->dirty)
	Sort_Array(c);

	while (len > 0) {
	half = len >> 1;
	middle = first;
	middle += half;
	if ((result = c->ncompare(t->data[middle], val)) < 0) {
	first = middle;
	++first;
	len = len - half - 1;
	} else
	len = half;
	}

	if ((first >= t->count) \|\|
	c->ncompare(t->data[first], val) != 0)
	return -1;

	return first;
	}

	void **
	netsnmp_binary_array_get_subset(netsnmp_container c, void key, int *len)
	{
	binary_array_table *t;
	void **subset;
	int start, end;
	size_t i;

	/*
	* if there is no data, return NULL;
	*/
	if (!c \|\| !key)
	return NULL;

	t = (binary_array_table*)c->container_data;
	netsnmp_assert(c->ncompare);
	if (!t->count \| !c->ncompare)
	return NULL;

	/*
	* if the table is dirty, sort it.
	*/
	if (t->dirty)
	Sort_Array(c);

	/*
	* find matching items
	*/
	start = end = binary_search_for_start((netsnmp_index *)key, c);
	if (start == -1)
	return NULL;

	for (i = start + 1; i < t->count; ++i) {
	if (0 != c->ncompare(t->data[i], key))
	break;
	++end;
	}

	*len = end - start + 1;
	subset = (void *)malloc((len) * sizeof(void*));
	if (subset)
	memcpy(subset, &t->data[start], sizeof(void) (*len));

	return subset;
	}

	/**********************************************************************
	*
	* container
	*
	*/
	static void *
	_ba_find(netsnmp_container container, const void data)
	{
	return netsnmp_binary_array_get(container, data, 1);
	}

	static void *
	_ba_find_next(netsnmp_container container, const void data)
	{
	return netsnmp_binary_array_get(container, data, 0);
	}

	static int
	_ba_insert(netsnmp_container container, const void data)
	{
	return netsnmp_binary_array_insert(container, data);
	}

	static int
	_ba_remove(netsnmp_container container, const void data)
	{
	return netsnmp_binary_array_remove(container,data, NULL);
	}

	static int
	_ba_free(netsnmp_container *container)
	{
	netsnmp_binary_array_release(container);
	return 0;
	}

	static size_t
	_ba_size(netsnmp_container *container)
	{
	return netsnmp_binary_array_count(container);
	}

	static void
	_ba_for_each(netsnmp_container container, netsnmp_container_obj_func f,
	void *context)
	{
	netsnmp_binary_array_for_each(container, f, context, 1);
	}

	static void
	_ba_clear(netsnmp_container container, netsnmp_container_obj_func f,
	void *context)
	{
	netsnmp_binary_array_clear(container, f, context);
	}

	static netsnmp_void_array *
	_ba_get_subset(netsnmp_container container, void data)
	{
	netsnmp_void_array * va;
	void ** rtn;
	int len;

	rtn = netsnmp_binary_array_get_subset(container, data, &len);
	if ((NULL==rtn) \|\| (len <=0))
	return NULL;

	va = SNMP_MALLOC_TYPEDEF(netsnmp_void_array);
	if (NULL==va)
	{
	free (rtn);
	return NULL;
	}

	va->size = len;
	va->array = rtn;

	return va;
	}

	static int _ba_options(netsnmp_container *c, int set, u_int flags)
	{
	return netsnmp_binary_array_options_set(c, set, flags);
	}

	static netsnmp_container *
	_ba_duplicate(netsnmp_container c, void ctx, u_int flags)
	{
	netsnmp_container *dup;
	binary_array_table dupt, t;

	if (flags) {
	snmp_log(LOG_ERR, "binary arry duplicate does not supprt flags yet\n");
	return NULL;
	}

	dup = netsnmp_container_get_binary_array();
	if (NULL == dup) {
	snmp_log(LOG_ERR," no memory for binary array duplicate\n");
	return NULL;
	}
	/*
	* deal with container stuff
	*/
	if (netsnmp_container_data_dup(dup, c) != 0) {
	netsnmp_binary_array_release(dup);
	return NULL;
	}

	/*
	* deal with data
	*/
	dupt = (binary_array_table*)dup->container_data;
	t = (binary_array_table*)c->container_data;

	dupt->max_size = t->max_size;
	dupt->count = t->count;
	dupt->dirty = t->dirty;

	/*
	* shallow copy
	*/
	dupt->data = (void*) malloc(dupt->max_size sizeof(void*));
	if (NULL == dupt->data) {
	snmp_log(LOG_ERR, "no memory for binary array duplicate\n");
	netsnmp_binary_array_release(dup);
	return NULL;
	}

	memcpy(dupt->data, t->data, dupt->max_size * sizeof(void*));

	return dup;
	}

	netsnmp_container *
	netsnmp_container_get_binary_array(void)
	{
	/*
	* allocate memory
	*/
	netsnmp_container *c = SNMP_MALLOC_TYPEDEF(netsnmp_container);
	if (NULL==c) {
	snmp_log(LOG_ERR, "couldn't allocate memory\n");
	return NULL;
	}

	c->container_data = netsnmp_binary_array_initialize();

	/*
	* NOTE: CHANGES HERE MUST BE DUPLICATED IN duplicate AS WELL!!
	*/
	netsnmp_init_container(c, NULL, _ba_free, _ba_size, NULL, _ba_insert,
	_ba_remove, _ba_find);
	c->find_next = _ba_find_next;
	c->get_subset = _ba_get_subset;
	c->get_iterator = _ba_iterator_get;
	c->for_each = _ba_for_each;
	c->clear = _ba_clear;
	c->options = _ba_options;
	c->duplicate = _ba_duplicate;

	return c;
	}

	netsnmp_factory *
	netsnmp_container_get_binary_array_factory(void)
	{
	static netsnmp_factory f = { "binary_array",
	(netsnmp_factory_produce_f*)
	netsnmp_container_get_binary_array };

	return &f;
	}

	void
	netsnmp_container_binary_array_init(void)
	{
	netsnmp_container_register("binary_array",
	netsnmp_container_get_binary_array_factory());
	}

	/**********************************************************************
	*
	* iterator
	*
	*/
	NETSNMP_STATIC_INLINE binary_array_table *
	_ba_it2cont(binary_array_iterator *it)
	{
	if(NULL == it) {
	netsnmp_assert(NULL != it);
	return NULL;
	}
	if(NULL == it->base.container) {
	netsnmp_assert(NULL != it->base.container);
	return NULL;
	}
	if(NULL == it->base.container->container_data) {
	netsnmp_assert(NULL != it->base.container->container_data);
	return NULL;
	}

	return (binary_array_table*)(it->base.container->container_data);
	}

	NETSNMP_STATIC_INLINE void *
	_ba_iterator_position(binary_array_iterator *it, size_t pos)
	{
	binary_array_table *t = _ba_it2cont(it);
	if (NULL == t)
	return t; /* msg already logged */

	if(it->base.container->sync != it->base.sync) {
	DEBUGMSGTL(("container:iterator", "out of sync\n"));
	return NULL;
	}

	if(0 == t->count) {
	DEBUGMSGTL(("container:iterator", "empty\n"));
	return NULL;
	}
	else if(pos >= t->count) {
	DEBUGMSGTL(("container:iterator", "end of container\n"));
	return NULL;
	}

	return t->data[ pos ];
	}

	static void *
	_ba_iterator_curr(binary_array_iterator *it)
	{
	if(NULL == it) {
	netsnmp_assert(NULL != it);
	return NULL;
	}

	return _ba_iterator_position(it, it->pos);
	}

	static void *
	_ba_iterator_first(binary_array_iterator *it)
	{
	return _ba_iterator_position(it, 0);
	}

	static void *
	_ba_iterator_next(binary_array_iterator *it)
	{
	if(NULL == it) {
	netsnmp_assert(NULL != it);
	return NULL;
	}

	++it->pos;

	return _ba_iterator_position(it, it->pos);
	}

	static void *
	_ba_iterator_last(binary_array_iterator *it)
	{
	binary_array_table* t = _ba_it2cont(it);
	if(NULL == t) {
	netsnmp_assert(NULL != t);
	return NULL;
	}

	return _ba_iterator_position(it, t->count - 1 );
	}

	static int
	_ba_iterator_remove(binary_array_iterator *it)
	{
	binary_array_table* t = _ba_it2cont(it);
	if(NULL == t) {
	netsnmp_assert(NULL != t);
	return -1;
	}

	/*
	* since this iterator was used for the remove, keep it in sync with
	* the container. Also, back up one so that next will be the position
	* that was just removed.
	*/
	++it->base.sync;
	return netsnmp_binary_array_remove_at(it->base.container, it->pos--, NULL);

	}

	static int
	_ba_iterator_reset(binary_array_iterator *it)
	{
	binary_array_table* t = _ba_it2cont(it);
	if(NULL == t) {
	netsnmp_assert(NULL != t);
	return -1;
	}

	if (t->dirty)
	Sort_Array(it->base.container);

	/*
	* save sync count, to make sure container doesn't change while
	* iterator is in use.
	*/
	it->base.sync = it->base.container->sync;

	it->pos = 0;

	return 0;
	}

	static int
	_ba_iterator_release(netsnmp_iterator *it)
	{
	free(it);

	return 0;
	}

	static netsnmp_iterator *
	_ba_iterator_get(netsnmp_container *c)
	{
	binary_array_iterator* it;

	if(NULL == c)
	return NULL;

	it = SNMP_MALLOC_TYPEDEF(binary_array_iterator);
	if(NULL == it)
	return NULL;

	it->base.container = c;

	it->base.first = (netsnmp_iterator_rtn*)_ba_iterator_first;
	it->base.next = (netsnmp_iterator_rtn*)_ba_iterator_next;
	it->base.curr = (netsnmp_iterator_rtn*)_ba_iterator_curr;
	it->base.last = (netsnmp_iterator_rtn*)_ba_iterator_last;
	it->base.remove = (netsnmp_iterator_rc*)_ba_iterator_remove;
	it->base.reset = (netsnmp_iterator_rc*)_ba_iterator_reset;
	it->base.release = (netsnmp_iterator_rc*)_ba_iterator_release;

	(void)_ba_iterator_reset(it);

	return (netsnmp_iterator *)it;
	}