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path: root/common/collection/collection.c
blob: e2816e63800377a8f280015060f8ed57afdd80af (plain)
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/*
    COLLECTION LIBRARY

    Implemenation of the collection library interface.

    Copyright (C) Dmitri Pal <dpal@redhat.com> 2009

    Collection Library is free software: you can redistribute it and/or modify
    it under the terms of the GNU Lesser General Public License as published by
    the Free Software Foundation, either version 3 of the License, or
    (at your option) any later version.

    Collection Library is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU Lesser General Public License for more details.

    You should have received a copy of the GNU Lesser General Public License
    along with Collection Library.  If not, see <http://www.gnu.org/licenses/>.
*/

#define _GNU_SOURCE
#include <string.h>
#include <stdlib.h>
#include <errno.h>
#include <ctype.h>
#include <time.h>
#include "trace.h"

/* The collection should use the teal structures */
#include "collection_priv.h"
#include "collection.h"


/* Internal constants defined to denote actions that can be performed by find handler */
#define COLLECTION_ACTION_FIND       1
#define COLLECTION_ACTION_DEL        2
#define COLLECTION_ACTION_UPDATE     3
#define COLLECTION_ACTION_GET        4


/* Special internal error code to indicate that collection search was interrupted */
#define EINTR_INTERNAL 10000


/* Potential subjest for management with libtools */
#define DATE_FORMAT "%c"

#define TIME_ARRAY_SIZE 100


/* Struct used for passing parameter for update operation */
struct update_property {
        int type;
        void *data;
        int length;
        int found;
};

/* Dummy structure */
struct collection_item dummy = { NULL, "", 0, COL_TYPE_END, 0, NULL };

/******************** FUNCTION DECLARATIONS ****************************/

/* Have to declare those due to function cross referencing */
static int find_item_and_do(struct collection_item *ci,
                            const char *property_to_find,
                            int type,
                            int mode_flags,
                            item_fn item_handler,
                            void *custom_data,
                            int action);

/* Traverse callback for find & delete function */
static int act_traverse_handler(struct collection_item *head,
                                struct collection_item *previous,
                                struct collection_item *current,
                                void *passed_traverse_data,
                                item_fn user_item_handler,
                                void *custom_data,
                                int *stop);

/* Traverse callback signature */
typedef int (*internal_item_fn)(struct collection_item *head,
                                struct collection_item *previous,
                                struct collection_item *current,
                                void *traverse_data,
                                item_fn user_item_handler,
                                void *custom_data,
                                int *stop);

/******************** SUPPLEMENTARY FUNCTIONS ****************************/


/* BASIC OPERATIONS */
/* Function that checks if property can be added */
static int validate_property(const char *property)
{
    TRACE_FLOW_STRING("validate_property", "Entry point.");
    /* Only alpha numeric characters are allowed in names of the properties */
    int invalid = 0;
    const char *check;

    check = property;
    while (*check != '\0') {
        if ((!isalnum(*check)) && (!ispunct(*check))) {
            invalid = 1;
            break;
        }
        check++;
    }
    TRACE_FLOW_NUMBER("validate_property. Returning ", invalid);
    return invalid;
}



/* Function that cleans the item */
static void delete_item(struct collection_item *item)
{
    TRACE_FLOW_STRING("delete_item","Entry point.");

    if (item == NULL) return;

    if (item->property != NULL) free(item->property);
    if (item->data != NULL) free(item->data);

    free(item);

    TRACE_FLOW_STRING("delete_item","Exit.");
}

/* A generic function to allocate a property item */
static int allocate_item(struct collection_item **ci, const char *property,
                         void *item_data,int length, int type)
{
    struct collection_item *item = NULL;
    int error = 0;
    errno = 0;

    TRACE_FLOW_STRING("allocate_item", "Entry point.");
    TRACE_INFO_NUMBER("Will be using type:", type);

    /* Check the length */
    if (length >= COL_MAX_DATA) {
        TRACE_ERROR_STRING("allocate_item", "Data to long.");
        return EMSGSIZE;
    }

    if (validate_property(property)) {
        TRACE_ERROR_STRING("Invalid chracters in the property name", property);
        return EINVAL;
    }

    /* Allocate memory for the structure */
    item = (struct collection_item *)malloc(sizeof(struct collection_item));
    if (item == NULL)  {
        error = errno;
        TRACE_ERROR_STRING("allocate_item", "Malloc failed.");
        return error;
    }

    /* After we initialize "next" we can use delete_item() in case of error */
    item->next = NULL;

    /* Copy property */
    item->property = strdup(property);
    if (item->property == NULL) {
        error = errno;
        TRACE_ERROR_STRING("allocate_item", "Failed to dup property.");
        delete_item(item);
        return error;
    }

    item->property_len = strlen(item->property);

    /* Deal with data */
    item->data = malloc(length);
    if (item->data == NULL) {
        TRACE_ERROR_STRING("allocate_item", "Failed to dup data.");
        delete_item(item);
        return errno;
    }
    memcpy(item->data, item_data, length);

    /* Deal with other properties of the item */
    TRACE_INFO_NUMBER("About to set type to:", type);
    item->type = type;
    item->length = length;

    /* Make sure that data is NULL terminated in case of string */
    if (type == COL_TYPE_STRING) ((char *)(item->data))[length-1] = '\0';

    *ci = item;

    TRACE_INFO_STRING("Item property", item->property);
    TRACE_INFO_NUMBER("Item property type", item->type);
    TRACE_INFO_NUMBER("Item data length", item->length);
    TRACE_FLOW_STRING("allocate_item", "Success exit.");
    return 0;
}

/* Add item to the end of collection */
/* Can add itself to itself - nice...*/
static int add_item_to_collection(struct collection_item *collection,
                                  struct collection_item *item)
{
    struct collection_header *header;

    TRACE_FLOW_STRING("add_item_to_collection", "Entry point.");

    if (collection == NULL) {
        TRACE_INFO_STRING("add_item_to_collection",
                          "Collection accepting is NULL");
        if ((item != NULL) && (item->type == COL_TYPE_COLLECTION)) {
            /* This is a special case of self creation */
            TRACE_INFO_STRING("add_item_to_collection",
                              "Adding header item to new collection.");
            collection = item;
        }
    }

    /* We can add items only to collections */
    if (collection->type != COL_TYPE_COLLECTION) {
        TRACE_ERROR_STRING("add_item_to_collection",
                           "Attempt to add item to non collection.");
        TRACE_ERROR_STRING("Collection name:", collection->property);
        TRACE_ERROR_NUMBER("Collection type:", collection->type);
        return EINVAL;
    }

    header = (struct collection_header *)collection->data;

    /* Link new item to the last item in the list if there any */
    if (header->last != NULL) header->last->next = item;

    /* Make sure we save a new last element */
    header->last = item;
    header->count++;

    TRACE_INFO_STRING("Collection:", collection->property);
    TRACE_INFO_STRING("Just added item is:", item->property);
    TRACE_INFO_NUMBER("Item type.", item->type);
    TRACE_INFO_NUMBER("Number of items in collection now is.", header->count);

    TRACE_FLOW_STRING("add_item_to_collection", "Success exit.");
    return EOK;
}


/* TRAVERSE HANDLERS */

/* Special handler to just set a flag if the item is found */
inline static int is_in_item_handler(const char *property,
                                     int property_len,
                                     int type,
                                     void *data,
                                     int length,
                                     void *found,
                                     int *dummy)
{
    TRACE_FLOW_STRING("is_in_item_handler", "Entry.");
    TRACE_INFO_STRING("Property:", property);
    TRACE_INFO_NUMBER("Property length:", property_len);
    TRACE_INFO_NUMBER("Type:", type);
    TRACE_INFO_NUMBER("Length:", length);

    *((int *)(found)) = COL_MATCH;

    TRACE_FLOW_STRING("is_in_item_handler", "Success Exit.");

    return EOK;
}

/* Special handler to retrieve the sub collection */
inline static int get_subcollection(const char *property,
                                    int property_len,
                                    int type,
                                    void *data,
                                    int length,
                                    void *found,
                                    int *dummy)
{
    TRACE_FLOW_STRING("get_subcollection", "Entry.");
    TRACE_INFO_STRING("Property:", property);
    TRACE_INFO_NUMBER("Property length:", property_len);
    TRACE_INFO_NUMBER("Type:", type);
    TRACE_INFO_NUMBER("Length:", length);

    *((struct collection_item **)(found)) = *((struct collection_item **)(data));

    TRACE_FLOW_STRING("get_subcollection","Success Exit.");

    return EOK;

}


/* ADD PROPERTY */

/* Add a single property to a collection.
 * Returns a pointer to a newly allocated property */
static struct collection_item *add_property(struct collection_item *collection,
                                            const char *subcollection,
                                            const char *property,
                                            void *item_data,
                                            int length,
                                            int type,
                                            int *error)
{
    struct collection_item *item = NULL;
    struct collection_item *acceptor = NULL;

    TRACE_FLOW_STRING("add_property", "Entry.");
    /* Allocate item */

    TRACE_INFO_NUMBER("Property type to add", type);
    *error = allocate_item(&item, property, item_data, length, type);
    if (*error) return NULL;

    TRACE_INFO_STRING("Created item:", item->property);
    TRACE_INFO_NUMBER("Item has type:", item->type);

    /* Add item to collection */
    if (subcollection == NULL) {
        acceptor = collection;
    }
    else {
        TRACE_INFO_STRING("Subcollection id not null, searching", subcollection);
        *error = find_item_and_do(collection, subcollection,
                                  COL_TYPE_COLLECTIONREF,
                                  COL_TRAVERSE_DEFAULT,
                                  get_subcollection, (void *)(&acceptor),
                                  COLLECTION_ACTION_FIND);
        if (*error) {
            TRACE_ERROR_NUMBER("Search for subcollection returned error:", *error);
            delete_item(item);
            return NULL;
        }

        if (acceptor == NULL) {
            TRACE_ERROR_STRING("Search for subcollection returned NULL pointer", "");
            delete_item(item);
            *error = ENOENT;
            return NULL;
        }

    }
    *error = add_item_to_collection(acceptor, item);
    if (*error) {
        TRACE_ERROR_NUMBER("Failed to add item to collection error:", *error);
        delete_item(item);
        return NULL;
    }

    TRACE_FLOW_STRING("add_property", "Success Exit.");
    return item;
}

/* CLEANUP */

/* Cleans the collection tree including current item. */
/* The passed in variable should not be used after the call
 * as memory is freed!!! */
static void delete_collection(struct collection_item *ci)
{
    struct collection_item *other_collection;

    TRACE_FLOW_STRING("delete_collection", "Entry.");

    if (ci == NULL) {
        TRACE_FLOW_STRING("delete_collection", "Nothing to do Exit.");
        return;
    }

    TRACE_INFO_STRING("Real work to do","");

    delete_collection(ci->next);

    /* Handle external or embedded collection */
    if(ci->type == COL_TYPE_COLLECTIONREF)  {
        /* Our data is a pointer to a whole external collection so dereference
         * it or delete */
        other_collection = *((struct collection_item **)(ci->data));
        destroy_collection(other_collection);
    }

    /* Delete this item */
    delete_item(ci);
    TRACE_FLOW_STRING("delete_collection", "Exit.");
}


/* NAME MANAGEMENT - used by search */

/* Internal data structures used for search */

struct path_data {
    char *name;
    int length;
    struct path_data *previous_path;
};

struct find_name {
    const char *name_to_find;
    int name_len_to_find;
    int type_to_match;
    char *given_name;
    int given_len;
    struct path_data *current_path;
    int action;
};

/* Create a new name */
static int create_path_data(struct path_data **name_path,
                            const char *name, int length,
                            const char *property, int property_len)
{
    int error = EOK;
    struct path_data *new_name_path;

    TRACE_FLOW_STRING("create_path_data", "Entry.");

    TRACE_INFO_STRING("Constructing path from name:", name);
    TRACE_INFO_STRING("Constructing path from property:", property);

    /* Allocate structure */
    errno = 0;
    new_name_path = (struct path_data *)malloc(sizeof(struct path_data));
    if (new_name_path == NULL) return errno;

    new_name_path->name = malloc(length + property_len + 2);
    if (new_name_path->name == NULL) {
        error = errno;
        TRACE_ERROR_NUMBER("Failed to allocate memory for new path name. Errno", error);
        free(new_name_path);
        return error;
    }

    /* Construct the new name */
    new_name_path->length = 0;

    if(length > 0) {
        memcpy(new_name_path->name, name, length);
        new_name_path->length = length;
        new_name_path->name[new_name_path->length] = '.';
        new_name_path->length++;
        new_name_path->name[new_name_path->length] = '\0';
        TRACE_INFO_STRING("Name so far:", new_name_path->name);
        TRACE_INFO_NUMBER("Len so far:", new_name_path->length);
    }
    memcpy(&new_name_path->name[new_name_path->length], property, property_len);
    new_name_path->length += property_len;
    new_name_path->name[new_name_path->length] = '\0';

    /* Link to the chain */
    new_name_path->previous_path = *name_path;
    *name_path = new_name_path;

    TRACE_INFO_STRING("Constructed path", new_name_path->name);


    TRACE_FLOW_NUMBER("create_path_data. Returning:", error);
    return error;
}

/* Matching item name and type */
static int match_item(struct collection_item *current,
                      struct find_name *traverse_data)
{

    const char *find_str;
    const char *start;
    const char *data_str;

    TRACE_FLOW_STRING("match_item", "Entry");

    if (traverse_data->type_to_match & current->type) {
        /* Check if there is any value to match */
        if ((traverse_data->name_to_find == NULL) ||
            (*(traverse_data->name_to_find) == '\0')) {
            TRACE_INFO_STRING("match_item",
                              "Returning MATCH because there is no search criteria!");
            return COL_MATCH;
        }

        /* Start comparing the two strings from the end */
        find_str = traverse_data->name_to_find + traverse_data->name_len_to_find;
        start = current->property;
        data_str = start + current->property_len;

        TRACE_INFO_STRING("Searching for:", traverse_data->name_to_find);
        TRACE_INFO_STRING("Item name:", current->property);
        TRACE_INFO_STRING("Current path:", traverse_data->current_path->name);
        TRACE_INFO_NUMBER("Searching:", toupper(*find_str));
        TRACE_INFO_NUMBER("Have:", toupper(*data_str));

        /* We start pointing to 0 so the loop will be executed at least once */
        while (toupper(*data_str) == toupper(*find_str)) {

            TRACE_INFO_STRING("Loop iteration:","");

            if (data_str == start) {
                if (find_str > traverse_data->name_to_find) {
                    if (*(find_str-1) == '.') {
                        /* We matched the property but the search string is
                         * longer so we need to continue matching */
                        TRACE_INFO_STRING("match_item",
                                          "Need to continue matching");
                        start = traverse_data->current_path->name;
                        data_str = &start[traverse_data->current_path->length - 1];
                        find_str -= 2;
                        continue;
                    }
                    else {
                        TRACE_INFO_STRING("match_item","Returning NO match!");
                        return COL_NOMATCH;
                    }
                }
                else {
                    TRACE_INFO_STRING("match_item","Returning MATCH!");
                    return COL_MATCH;
                }
            }
            else if ((find_str == traverse_data->name_to_find) &&
                     (*(data_str-1) == '.')) return COL_MATCH;

            data_str--;
            find_str--;
             TRACE_INFO_NUMBER("Searching:", toupper(*find_str));
            TRACE_INFO_NUMBER("Have:", toupper(*data_str));

        }
    }

    TRACE_FLOW_STRING("match_item","Returning NO match!");
    return COL_NOMATCH;

}

/* Function to delete the data that contains search path */
static void delete_path_data(struct path_data *path)
{
    TRACE_FLOW_STRING("delete_path_data","Entry.");

    if (path != NULL) {
        TRACE_INFO_STRING("delete_path_data", "Item to delete exits.");
        if (path->previous_path != NULL) {
            TRACE_INFO_STRING("delete_path_data",
                              "But previous item to delete exits to. Nesting.");
            delete_path_data(path->previous_path);
        }
        if (path->name != NULL) {
            TRACE_INFO_STRING("delete_path_data Deleting path:", path->name);
            free(path->name);
        }
        TRACE_INFO_STRING("delete_path_data", "Deleting path element");
        free(path);
    }
    TRACE_FLOW_STRING("delete_path_data", "Exit");
}


/* MAIN TRAVERSAL FUNCTION */

/* Internal function to walk collection */
/* For each item walked it will call traverse handler.
   Traverse handler accepts: current item,
   user provided item handler and user provided custom data. */
/* See below defferent traverse handlers for different cases */
static int walk_items(struct collection_item *ci,
                      int mode_flags,
                      internal_item_fn traverse_handler,
                      void *traverse_data,
                      item_fn user_item_handler,
                      void *custom_data) {

    struct collection_item *current;
    struct collection_item *parent = NULL;
    struct collection_item *sub;
    int stop = 0;
    int error = EOK;

    TRACE_FLOW_STRING("walk_items", "Entry.");
    TRACE_INFO_NUMBER("Mode flags:", mode_flags);

    current = ci;

    while (current) {

        TRACE_INFO_STRING("Processing item:", current->property);
        TRACE_INFO_NUMBER("Item type:", current->type);

        if (current->type == COL_TYPE_COLLECTIONREF) {

            TRACE_INFO_STRING("Subcollection:", current->property);

            if ((mode_flags & COL_TRAVERSE_IGNORE) == 0) {

                TRACE_INFO_STRING("Subcollection is not ignored.", "");

                /* We are not ignoring sub collections */
                error = traverse_handler(ci, parent, current, traverse_data,
                                         user_item_handler, custom_data, &stop);
                if (stop != 0) {
                    TRACE_INFO_STRING("Traverse handler returned STOP.", "");
                    error = EINTR_INTERNAL;
                }
                /* Check what error we got */
                if (error == EINTR_INTERNAL) {
                    TRACE_FLOW_NUMBER("Internal error - means we are stopping.", error);
                    return error;
                }
                else if (error) {
                    TRACE_ERROR_NUMBER("Traverse handler returned error.", error);
                    return error;
                }

                if ((mode_flags & COL_TRAVERSE_ONELEVEL) == 0) {
                    TRACE_INFO_STRING("Before diving into sub collection","");
                    sub = *((struct collection_item **)(current->data));
                    TRACE_INFO_STRING("Sub collection name", sub->property);
                    TRACE_INFO_NUMBER("Header type", sub->type);
                    /* We need to go into sub collections */
                    error = walk_items(sub, mode_flags,
                                       traverse_handler, traverse_data,
                                       user_item_handler, custom_data);
                    TRACE_INFO_STRING("Returned from sub collection processing", "");
                    TRACE_INFO_STRING("Done processing item:", current->property);
                    TRACE_INFO_NUMBER("Done processing item type:", current->type);

                }
            }
        }
        else
            /* Call handler then move on */
            error = traverse_handler(ci, parent, current,
                                     traverse_data, user_item_handler,
                                     custom_data, &stop);

        /* If we are stopped - return EINTR_INTERNAL */
        if (stop != 0) {
            TRACE_INFO_STRING("Traverse handler returned STOP.", "");
            error = EINTR_INTERNAL;
        }
        /* Check what error we got */
        if (error == EINTR_INTERNAL) {
            TRACE_FLOW_NUMBER("Internal error - means we are stopping.", error);
            return error;
        }
        else if (error) {
            TRACE_ERROR_NUMBER("Traverse handler returned error.", error);
            return error;
        }

        parent = current;
        current = current->next;

    }

    TRACE_INFO_STRING("Out of loop", "");

    if ((mode_flags & COL_TRAVERSE_END) != 0) {
        TRACE_INFO_STRING("About to do the special end collection invocation of handler", "");
        error = traverse_handler(ci, parent, current,
                                 traverse_data, user_item_handler,
                                 custom_data, &stop);
    }

    TRACE_FLOW_NUMBER("walk_items. Returns: ", error);
    return error;
}


/* ACTION */

/* Find an item by property name and perform an action on it. */
/* No pattern matching supported in the first implementation. */
/* To refer to child properties use dotted notatation like this: */
/* parent.child.subchild.subsubchild etc.  */
static int find_item_and_do(struct collection_item *ci,
                            const char *property_to_find,
                            int type,
                            int mode_flags,
                            item_fn item_handler,
                            void *custom_data,
                            int action)
{

    int error = EOK;
    struct find_name *traverse_data = NULL;

    TRACE_FLOW_STRING("find_item_and_do", "Entry.");

    /* Item handler is always required */
    if ((item_handler == NULL) &&
        (action == COLLECTION_ACTION_FIND)) {
        TRACE_ERROR_NUMBER("No item handler - returning error!", EINVAL);
        return EINVAL;
    }

    /* Make sure that there is anything to search */
    type &= COL_TYPE_ANY;
    if ((ci == NULL) ||
        ((property_to_find == NULL) && (type == 0)) ||
        ((*property_to_find == '\0') && (type == 0))) {
        TRACE_ERROR_NUMBER("No item search criteria specified - returning error!", ENOKEY);
        return ENOKEY;
    }
    /* Prepare data for traversal */
    errno = 0;
    traverse_data= (struct find_name *)malloc(sizeof(struct find_name));
    if (traverse_data == NULL) {
        error = errno;
        TRACE_ERROR_NUMBER("Failed to allocate traverse data memory - returning error!", errno);
        return error;
    }

    TRACE_INFO_STRING("find_item_and_do", "Filling in traverse data.");

    traverse_data->name_to_find = property_to_find;
    traverse_data->name_len_to_find = strlen(property_to_find);
    traverse_data->type_to_match = type;
    traverse_data->given_name = NULL;
    traverse_data->given_len = 0;
    traverse_data->current_path = NULL;
    traverse_data->action = action;

    mode_flags |= COL_TRAVERSE_END;

    TRACE_INFO_STRING("find_item_and_do", "About to walk the tree.");
    TRACE_INFO_NUMBER("Traverse flags", mode_flags);

    error = walk_items(ci, mode_flags, act_traverse_handler,
                       (void *)traverse_data, item_handler, custom_data);

    if (traverse_data->current_path != NULL) {
        TRACE_INFO_STRING("find_item_and_do",
                          "Path was not cleared - deleting");
        delete_path_data(traverse_data->current_path);
    }

    free(traverse_data);

    if (error && (error != EINTR_INTERNAL)) {
        TRACE_ERROR_NUMBER("Walk items returned error. Returning: ", error);
        return error;
    }
    else {
        TRACE_FLOW_STRING("Walk items returned SUCCESS.", "");
        return EOK;
    }
}

/* Function to replace data in the item */
static int update_current_item(struct collection_item *current,
                               struct update_property *update_data)
{
    TRACE_FLOW_STRING("update_current_item", "Entry");

    /* If type is different or same but it is string or binary we need to
     * replace the storage */
    if ((current->type != update_data->type) ||
        ((current->type == update_data->type) &&
        ((current->type == COL_TYPE_STRING) ||
         (current->type == COL_TYPE_BINARY)))) {
        TRACE_INFO_STRING("Replacing item data buffer", "");
        free(current->data);
        current->data = malloc(update_data->length);
        if (current->data == NULL) {
            TRACE_ERROR_STRING("Failed to allocate memory", "");
            current->length = 0;
            return ENOMEM;
        }
        current->length = update_data->length;
    }

    TRACE_INFO_STRING("Overwriting item data", "");
    memcpy(current->data, update_data->data, current->length);
    current->type = update_data->type;

    if (current->type == COL_TYPE_STRING)
        ((char *)(current->data))[current->length-1] = '\0';

    TRACE_FLOW_STRING("update_current_item", "Exit");
    return EOK;
}

/* TRAVERSE CALLBACKS */

/* Traverse handler for simple traverse function */
/* Handler must be able to deal with NULL current item */
inline static int simple_traverse_handler(struct collection_item *head,
                                          struct collection_item *previous,
                                          struct collection_item *current,
                                          void *traverse_data,
                                          item_fn user_item_handler,
                                          void *custom_data,
                                          int *stop)
{
    int error = EOK;

    TRACE_FLOW_STRING("simple_traverse_handler", "Entry.");

    if (current == NULL) current = &dummy;

    error = user_item_handler(current->property,
                              current->property_len,
                              current->type,
                              current->data,
                              current->length,
                              custom_data,
                              stop);

    TRACE_FLOW_NUMBER("simple_traverse_handler. Returning:", error);
    return error;
}


/* Traverse callback for find & delete function */
static int act_traverse_handler(struct collection_item *head,
                                struct collection_item *previous,
                                struct collection_item *current,
                                void *passed_traverse_data,
                                item_fn user_item_handler,
                                void *custom_data,
                                int *stop)
{
    int error = EOK;
    struct find_name *traverse_data = NULL;
    char *name;
    int length;
    struct path_data *temp;
    struct collection_header *header;
    struct collection_item *other;
    char *property;
    int property_len;
    struct update_property *update_data;

    TRACE_FLOW_STRING("act_traverse_handler", "Entry.");

    traverse_data = (struct find_name *)passed_traverse_data;

    /* We can be called when current points to NULL */
    if (current == NULL) {
        TRACE_INFO_STRING("act_traverse_handler",
                          "Special call at the end of the collection.");
        temp = traverse_data->current_path;
        traverse_data->current_path = temp->previous_path;
        temp->previous_path = NULL;
        delete_path_data(temp);
        traverse_data->given_name = NULL;
        traverse_data->given_len = 0;
        TRACE_FLOW_NUMBER("Handling end of collection - removed path. Returning:", error);
        return error;
    }

    /* Create new path at the beginning of a new sub collection */
    if (current->type == COL_TYPE_COLLECTION) {

        TRACE_INFO_STRING("act_traverse_handler",
                          "Processing collection handle.");

        /* Create new path */
        if (traverse_data->current_path != NULL) {
            TRACE_INFO_STRING("Already have part of the path", "");
            name = traverse_data->current_path->name;
            length = traverse_data->current_path->length;
            TRACE_INFO_STRING("Path:", name);
            TRACE_INFO_NUMBER("Path len:", length);
        }
        else {
            name = NULL;
            length = 0;
        }

        if (traverse_data->given_name != NULL) {
            property = traverse_data->given_name;
            property_len = traverse_data->given_len;
        }
        else {
            property = current->property;
            property_len = current->property_len;
        }

        TRACE_INFO_STRING("act_traverse_handler", "About to create path data.");

        error = create_path_data(&(traverse_data->current_path),
                                 name, length, property, property_len);

        TRACE_INFO_NUMBER("create_path_data returned:", error);
        return error;
    }

    /* Handle the collection pointers */
    if (current->type == COL_TYPE_COLLECTIONREF) {
        traverse_data->given_name = current->property;
        traverse_data->given_len = current->property_len;
        TRACE_INFO_STRING("Saved given name:", traverse_data->given_name);
    }

    TRACE_INFO_STRING("Processing item with property:", current->property);

    /* Do here what we do with items */
    if (match_item(current, traverse_data)) {
        TRACE_INFO_STRING("Matched item:", current->property);
        switch (traverse_data->action) {
        case COLLECTION_ACTION_FIND:
            TRACE_INFO_STRING("It is a find action - calling handler.", "");
            if (user_item_handler != NULL) {
                /* Call user handler */
                error = user_item_handler(current->property,
                                          current->property_len,
                                          current->type,
                                          current->data,
                                          current->length,
                                          custom_data,
                                          stop);

                TRACE_INFO_NUMBER("Handler returned:", error);
                TRACE_INFO_NUMBER("Handler set STOP to:", *stop);

            }
            break;

        case COLLECTION_ACTION_GET:
            TRACE_INFO_STRING("It is a get action.", "");
            if (custom_data != NULL)
                *((struct collection_item **)(custom_data)) = current;
            break;

        case COLLECTION_ACTION_DEL:
            TRACE_INFO_STRING("It is a delete action.", "");
            /* Make sure we tell the caller we found a match */
            if (custom_data != NULL)
                *(int *)custom_data = COL_MATCH;
            /* Dereference external collections */
            if (current->type == COL_TYPE_COLLECTIONREF) {
                TRACE_INFO_STRING("Dereferencing a referenced collection.", "");
                other = *((struct collection_item **)current->data);
                header = (struct collection_header *)other->data;
                destroy_collection(other);
            }

            /* Adjust header of the collection */
            header = (struct collection_header *)head->data;
            header->count--;
            if (current->next == NULL)
                header->last = previous;

            /* Unlink and delete iteam */
            /* Previous can't be NULL here becuase we never delete
             * header elements */
            previous->next = current->next;
            delete_item(current);
            TRACE_INFO_STRING("Did the delete of the item.", "");
            break;

        case COLLECTION_ACTION_UPDATE:
            TRACE_INFO_STRING("It is an update action.", "");
            if((current->type == COL_TYPE_COLLECTION) ||
               (current->type == COL_TYPE_COLLECTIONREF)) {
                TRACE_ERROR_STRING("Can't update collections it is an error for now", "");
                return EINVAL;
            }

            /* Make sure we tell the caller we found a match */
            if (custom_data != NULL) {
                update_data = (struct update_property *)custom_data;
                update_data->found = COL_MATCH;
                error = update_current_item(current, update_data);
            }
            else {
                TRACE_ERROR_STRING("Error - update data is required", "");
                return EINVAL;
            }

            TRACE_INFO_STRING("Did the delete of the item.", "");
            break;
        default:
            break;
        }
        /* Force interrupt if we found */
        *stop = 1;
    }

    TRACE_FLOW_NUMBER("act_traverse_handler returning", error);
    return error;
}


/* Traverse handler for copy function */
static int copy_traverse_handler(struct collection_item *head,
                                 struct collection_item *previous,
                                 struct collection_item *current,
                                 void *passed_traverse_data,
                                 item_fn user_item_handler,
                                 void *custom_data,
                                 int *stop)
{
    int error = EOK;
    struct collection_item *parent;
    struct collection_item *item;
    struct collection_item *new_collection = NULL;

    TRACE_FLOW_STRING("copy_traverse_handler", "Entry.");

    parent = (struct collection_item *)passed_traverse_data;

    /* Skip current element but rather work with next if it is not NULL */
    item = current->next;
    if (item == NULL) return error;


    /* Check if this is a special case of sub collection */
    if (item->type == COL_TYPE_COLLECTIONREF) {
        TRACE_INFO_STRING("Found a subcollection we need to copy. Name:",
                          item->property);

        error = copy_collection(&new_collection,
                                *((struct collection_item **)(item->data)),
                                item->property);
        if (error) {
            TRACE_ERROR_NUMBER("Copy subcollection returned error:", error);
            return error;
        }

        /* Add new item to a collection
         * all references are now sub collections */
        add_property(parent, NULL, item->property,
                     (void *)(&new_collection),
                     sizeof(struct collection_item **),
                     COL_TYPE_COLLECTIONREF, &error);
        if (error) {
            TRACE_ERROR_NUMBER("Add property returned error:", error);
            return error;
        }
    }
    else {
        add_property(parent, NULL, item->property,
                     item->data, item->length, item->type, &error);
        if (error) {
            TRACE_ERROR_NUMBER("Add property returned error:", error);
            return error;
        }
    }

    TRACE_FLOW_NUMBER("copy_traverse_handler returning", error);
    return error;
}



/********************* MAIN INTERFACE FUNCTIONS *****************************/


/* CREATE */

/* Function that creates an named collection of a given class*/
int create_collection(struct collection_item **ci, const char *name,
                      unsigned cclass)
{
    struct collection_item *handle = NULL;
    struct collection_header header;
    int error = EOK;

    TRACE_FLOW_STRING("create_collection", "Entry.");

    /* Prepare header */
    header.last = NULL;
    header.reference_count = 1;
    header.count = 0;
    header.cclass = cclass;

    /* Create a collection type property */
    handle = add_property(NULL, NULL, name,
                          &header, sizeof(header),
                          COL_TYPE_COLLECTION, &error);
    if (error) return error;

    *ci = handle;

    TRACE_FLOW_STRING("create_collection", "Success Exit.");
    return 0;
}


/* DESTROY */

/* Function that destroys a collection */
void destroy_collection(struct collection_item *ci)
{
    struct collection_header *header;

    TRACE_FLOW_STRING("destroy_collection", "Entry.");

    /* Do not try to delete NULL */
    if (ci == NULL) return;

    /* You can delete only whole collection not a part of it */
    if (ci->type != COL_TYPE_COLLECTION) {
        TRACE_ERROR_STRING("Attempt to delete a non collection - BAD!", "");
        TRACE_ERROR_NUMBER("Actual type is:", ci->type);
        return;
    }

    /* Collection can be referenced by other collection */
    header = (struct collection_header *)(ci->data);
    if (header->reference_count > 1) {
        TRACE_INFO_STRING("Dereferencing a referenced collection.", "");
        header->reference_count--;
        TRACE_INFO_NUMBER("Number after dereferencing.",
                          header->reference_count);
    }
    else {
        delete_collection(ci);
    }

    TRACE_FLOW_STRING("destroy_collection", "Exit.");
}


/* PROPERTIES */

/* Add a string property.
   If length equals 0, the length is determined based on the string.
   Lenght INCLUDES the terminating 0 */
inline int add_str_property(struct collection_item *ci,
                            const char *subcollection,
                            const char *property,
                            char *string, int length)
{
    int error = EOK;

    TRACE_FLOW_STRING("add_str_property", "Entry.");

    if (length == 0)
        length = strlen(string) + 1;

    add_property(ci, subcollection, property,
                 (void *)(string), length, COL_TYPE_STRING, &error);

    TRACE_FLOW_NUMBER("add_str_property returning", error);
    return error;
}

/* Add a binary property. */
inline int add_binary_property(struct collection_item *ci,
                               const char *subcollection,
                               const char *property,
                               void *binary_data, int length)
{
    int error = EOK;

    TRACE_FLOW_STRING("add_binary_property", "Entry.");

    add_property(ci, subcollection, property,
                 binary_data, length, COL_TYPE_BINARY, &error);

    TRACE_FLOW_NUMBER("add_binary_property returning", error);
    return error;
}

/* Add an int property. */
inline int add_int_property(struct collection_item *ci,
                            const char *subcollection,
                            const char *property, int number)
{
    int error = EOK;

    TRACE_FLOW_STRING("add_int_property", "Entry.");

    add_property(ci, subcollection, property,
                 (void *)(&number), sizeof(int),
                 COL_TYPE_INTEGER, &error);

    TRACE_FLOW_NUMBER("add_int_property returning", error);
    return error;
}

/* Add an unsigned int property. */
inline int add_unsigned_property(struct collection_item *ci,
                                 const char *subcollection,
                                 const char *property, unsigned int number)
{
    int error = EOK;

    TRACE_FLOW_STRING("add_unsigned_property", "Entry.");

    add_property(ci, subcollection, property,
                 (void *)(&number), sizeof(int), COL_TYPE_UNSIGNED, &error);

    TRACE_FLOW_NUMBER("add_unsigned_property returning", error);
    return error;
}

/* Add an long property. */
inline int add_long_property(struct collection_item *ci,
                             const char *subcollection,
                             const char *property, long number)
{
    int error = EOK;

    TRACE_FLOW_STRING("add_long_property", "Entry.");

    add_property(ci, subcollection, property,
                 (void *)(&number), sizeof(long), COL_TYPE_LONG, &error);

    TRACE_FLOW_NUMBER("add_long_property returning", error);
    return error;
}

/* Add an unsigned long property. */
inline int add_ulong_property(struct collection_item *ci,
                              const char *subcollection,
                              const char *property, unsigned long number)
{
    int error = EOK;

    TRACE_FLOW_STRING("add_ulong_property", "Entry.");

    add_property(ci, subcollection, property,
                 (void *)(&number), sizeof(long),
                 COL_TYPE_ULONG, &error);

    TRACE_FLOW_NUMBER("add_ulong_property returning", error);
    return error;
}

/* Add a double property. */
inline int add_double_property(struct collection_item *ci,
                               const char *subcollection,
                               const char *property, double number)
{
    int error = EOK;

    TRACE_FLOW_STRING("add_double_property", "Entry.");

    add_property(ci, subcollection, property,
                 (void *)(&number), sizeof(double), COL_TYPE_DOUBLE, &error);

    TRACE_FLOW_NUMBER("add_double_property returning", error);
    return error;
}

/* Add a bool property. */
inline int add_bool_property(struct collection_item *ci,
                             const char *subcollection,
                             const char *property, unsigned char logical)
{
    int error = EOK;

    TRACE_FLOW_STRING("add_bool_property", "Entry.");

    add_property(ci, subcollection, property,
                 (void *)(&logical), sizeof(unsigned char),
                 COL_TYPE_BOOL, &error);

    TRACE_FLOW_NUMBER("add_bool_property returning", error);
    return error;
}

/* A function to add a property */
inline int add_any_property(struct collection_item *ci,
                            const char *subcollection,
                            const char *property,
                            int type, void *data, int length)
{
    int error = EOK;

    TRACE_FLOW_STRING("add_any_property", "Entry.");

    add_property(ci, subcollection, property, data, length, type, &error);

    TRACE_FLOW_NUMBER("add_any_property returning", error);
    return error;
}

/* Add a string property.
   If length equals 0, the length is determined based on the string.
   Lenght INCLUDES the terminating 0 */
inline int add_str_property_with_ref(struct collection_item *ci,
                                     const char *subcollection,
                                     const char *property,
                                     char *string, int length,
                                     struct collection_item **ref_ret)
{
    int error = EOK;
    struct collection_item *item;

    TRACE_FLOW_STRING("add_str_property_with_ref", "Entry.");

    if (length == 0) length = strlen(string) + 1;

    item = add_property(ci, subcollection, property,
                        (void *)(string), length, COL_TYPE_STRING, &error);

    if (ref_ret != NULL) *ref_ret = item;

    TRACE_FLOW_NUMBER("add_str_property_with_ref returning", error);
    return error;
}

/* Add a binary property. */
inline int add_binary_property_with_ref(struct collection_item *ci,
                                        const char *subcollection,
                                        const char *property,
                                        void *binary_data, int length,
                                        struct collection_item **ref_ret)
{
    int error = EOK;
    struct collection_item *item;

    TRACE_FLOW_STRING("add_binary_property_with_ref", "Entry.");

    item = add_property(ci, subcollection, property,
                        binary_data, length, COL_TYPE_BINARY, &error);

    if (ref_ret != NULL) *ref_ret = item;

    TRACE_FLOW_NUMBER("add_binary_property_with_ref returning", error);
    return error;
}

/* Add an int property. */
inline int add_int_property_with_ref(struct collection_item *ci,
                                     const char *subcollection,
                                     const char *property,
                                     int number,
                                     struct collection_item **ref_ret)
{
    int error = EOK;
    struct collection_item *item;

    TRACE_FLOW_STRING("add_int_property_with_ref", "Entry.");

    item = add_property(ci, subcollection, property,
                        (void *)(&number), sizeof(int),
                        COL_TYPE_INTEGER, &error);

    if (ref_ret != NULL) *ref_ret = item;

    TRACE_FLOW_NUMBER("add_int_property_with_ref returning", error);
    return error;
}

/* Add an unsigned int property. */
inline int add_unsigned_property_with_ref(struct collection_item *ci,
                                          const char *subcollection,
                                          const char *property,
                                          unsigned int number,
                                          struct collection_item **ref_ret)
{
    int error = EOK;
    struct collection_item *item;

    TRACE_FLOW_STRING("add_unsigned_property_with_ref", "Entry.");

    item = add_property(ci, subcollection, property,
                        (void *)(&number), sizeof(int),
                        COL_TYPE_UNSIGNED, &error);

    if (ref_ret != NULL) *ref_ret = item;

    TRACE_FLOW_NUMBER("add_unsigned_property_with_ref returning", error);
    return error;
}

/* Add an long property. */
inline int add_long_property_with_ref(struct collection_item *ci,
                                      const char *subcollection,
                                      const char *property,
                                      long number,
                                      struct collection_item **ref_ret)
{
    int error = EOK;
    struct collection_item *item;

    TRACE_FLOW_STRING("add_long_property_with_ref", "Entry.");

    item = add_property(ci, subcollection, property,
                        (void *)(&number), sizeof(long), COL_TYPE_LONG, &error);

    if (ref_ret != NULL) *ref_ret = item;

    TRACE_FLOW_NUMBER("add_long_property_with_ref returning", error);
    return error;
}

/* Add an unsigned long property. */
inline int add_ulong_property_with_ref(struct collection_item *ci,
                                       const char *subcollection,
                                       const char *property,
                                       unsigned long number,
                                       struct collection_item **ref_ret)
{
    int error = EOK;
    struct collection_item *item;

    TRACE_FLOW_STRING("add_ulong_property_with_ref", "Entry.");

    item = add_property(ci, subcollection, property,
                        (void *)(&number), sizeof(long),
                        COL_TYPE_ULONG, &error);

    if (ref_ret != NULL) *ref_ret = item;

    TRACE_FLOW_NUMBER("add_ulong_property_with_ref returning", error);
    return error;
}

/* Add a double property. */
inline int add_double_property_with_ref(struct collection_item *ci,
                                        const char *subcollection,
                                        const char *property,
                                        double number,
                                        struct collection_item **ref_ret)
{
    int error = EOK;
    struct collection_item *item;

    TRACE_FLOW_STRING("add_double_property_with_ref", "Entry.");

    item = add_property(ci, subcollection, property,
                        (void *)(&number), sizeof(double),
                        COL_TYPE_DOUBLE, &error);

    if (ref_ret != NULL) *ref_ret = item;

    TRACE_FLOW_NUMBER("add_double_property_with_ref returning", error);
    return error;
}

/* Add a bool property. */
inline int add_bool_property_with_ref(struct collection_item *ci,
                                      const char *subcollection,
                                      const char *property,
                                      unsigned char logical,
                                      struct collection_item **ref_ret)
{
    int error = EOK;
    struct collection_item *item;

    TRACE_FLOW_STRING("add_bool_property_with_ref", "Entry.");

    item = add_property(ci, subcollection, property,
                        (void *)(&logical), sizeof(unsigned char),
                        COL_TYPE_BOOL, &error);

    if (ref_ret != NULL) *ref_ret = item;

    TRACE_FLOW_NUMBER("add_bool_property_with_ref returning", error);
    return error;
}

/* A function to add a property */
inline int add_any_property_with_ref(struct collection_item *ci,
                                     const char *subcollection,
                                     const char *property,
                                     int type,
                                     void *data,
                                     int length,
                                     struct collection_item **ref_ret)
{
    int error = EOK;
    struct collection_item *item;

    TRACE_FLOW_STRING("add_any_property_with_ref", "Entry.");

    item = add_property(ci, subcollection, property,
                        data, length, type, &error);

    if (ref_ret != NULL) *ref_ret = item;

    TRACE_FLOW_NUMBER("add_any_property_with_ref returning", error);
    return error;
}



/* COPY */

/* Create a deep copy of the current collection. */
/* Referenced collections of the donor are copied as sub collections. */
int copy_collection(struct collection_item **collection_copy,
                    struct collection_item *collection_to_copy,
                    const char *name_to_use)
{
    int error = EOK;
    struct collection_item *new_collection = NULL;
    const char *name;
    struct collection_header *header;

    TRACE_FLOW_STRING("copy_collection", "Entry.");

    /* Determine what name to use */
    if (name_to_use != NULL)
        name = name_to_use;
    else
        name = collection_to_copy->property;

    header = (struct collection_header *)collection_to_copy->data;

    /* Create a new collection */
    error = create_collection(&new_collection, name, header->cclass);
    if (error) {
        TRACE_ERROR_NUMBER("Create_cllection failed returning", error);
        return error;
    }

    error = walk_items(collection_to_copy, COL_TRAVERSE_ONELEVEL,
                       copy_traverse_handler, new_collection, NULL, NULL);

    if (!error) *collection_copy = new_collection;
    else destroy_collection(new_collection);

    TRACE_FLOW_NUMBER("copy_collection returning", error);
    return error;

}

/* EXTRACTION */

/* Extract collection */
int get_collection_reference(struct collection_item *ci,          /* High level collection */
                             struct collection_item **acceptor,   /* The pointer that will accept extracted handle */
                             const char *collection_to_find)      /* Name to of the collection */
{
    struct collection_header *header;
    struct collection_item *subcollection = NULL;
    int error = EOK;

    TRACE_FLOW_STRING("get_collection_reference", "Entry.");

    if ((ci == NULL) ||
        (ci->type != COL_TYPE_COLLECTION) ||
        (acceptor == NULL) ||
        (collection_to_find == NULL)) {
        TRACE_ERROR_NUMBER("Invalid parameter - returning error",EINVAL);
        return EINVAL;
    }

    /* Find a sub collection */
    TRACE_INFO_STRING("We are given subcollection name - search it:",
                      collection_to_find);
    error = find_item_and_do(ci, collection_to_find,
                             COL_TYPE_COLLECTIONREF,
                             COL_TRAVERSE_DEFAULT,
                             get_subcollection,
                             (void *)(&subcollection),
                             COLLECTION_ACTION_FIND);
    if (error) {
        TRACE_ERROR_NUMBER("Search failed returning error", error);
        return error;
    }

    if (subcollection == NULL) {
        TRACE_ERROR_STRING("Search for subcollection returned NULL pointer", "");
        return ENOENT;
    }

    header = (struct collection_header *)subcollection->data;
    TRACE_INFO_NUMBER("Count:", header->count);
    TRACE_INFO_NUMBER("Ref count:", header->reference_count);
    header->reference_count++;
    TRACE_INFO_NUMBER("Ref count after increment:", header->reference_count);
    *acceptor = subcollection;

    TRACE_FLOW_STRING("get_collection_reference", "Success Exit.");
    return EOK;
}

/* Get collection - if current item is a reference get a real collection from it. */
int get_reference_from_item(struct collection_item *ci,
                            struct collection_item **acceptor)
{
    struct collection_header *header;
    struct collection_item *subcollection = NULL;

    TRACE_FLOW_STRING("get_reference_from_item", "Entry.");

    if ((ci == NULL) ||
        (ci->type != COL_TYPE_COLLECTIONREF) ||
        (acceptor == NULL)) {
        TRACE_ERROR_NUMBER("Invalid parameter - returning error",EINVAL);
        return EINVAL;
    }

    subcollection = *((struct collection_item **)ci->data);

    header = (struct collection_header *)subcollection->data;
    TRACE_INFO_NUMBER("Count:", header->count);
    TRACE_INFO_NUMBER("Ref count:", header->reference_count);
    header->reference_count++;
    TRACE_INFO_NUMBER("Ref count after increment:", header->reference_count);
    *acceptor = subcollection;

    TRACE_FLOW_STRING("get_reference_from_item", "Success Exit.");
    return EOK;
}

/* ADDITION */

/* Add collection to collection */
int add_collection_to_collection(
   struct collection_item *ci,                /* Collection handle to with we add another collection */
   const char *sub_collection_name,           /* Name of the sub collection to which
                                                 collection needs to be added as a property.
                                                 If NULL high level collection is assumed. */
   const char *as_property,                   /* Name of the collection property.
                                                 If NULL, same property as the name of
                                                 the collection being added will be used. */
   struct collection_item *collection_to_add, /* Collection to add */
   int mode)                                  /* How this collection needs to be added */
{
    struct collection_item *acceptor = NULL;
    const char *name_to_use;
    struct collection_header *header;
    struct collection_item *collection_copy;
    int error = EOK;

    TRACE_FLOW_STRING("add_collection_to_collection", "Entry.");

    if ((ci == NULL) ||
        (ci->type != COL_TYPE_COLLECTION) ||
        (collection_to_add == NULL) ||
        (collection_to_add->type != COL_TYPE_COLLECTION)) {
        /* Need to debug here */
        TRACE_ERROR_NUMBER("Missing parameter - returning error", EINVAL);
        return EINVAL;
    }

    if (sub_collection_name != NULL) {
        /* Find a sub collection */
        TRACE_INFO_STRING("We are given subcollection name - search it:",
                          sub_collection_name);
        error = find_item_and_do(ci, sub_collection_name,
                                 COL_TYPE_COLLECTIONREF,
                                 COL_TRAVERSE_DEFAULT,
                                 get_subcollection,
                                 (void *)(&acceptor),
                                 COLLECTION_ACTION_FIND);
        if (error) {
            TRACE_ERROR_NUMBER("Search failed returning error", error);
            return error;
        }

        if (acceptor == NULL) {
            TRACE_ERROR_STRING("Search for subcollection returned NULL pointer", "");
            return ENOENT;
        }

    }
    else {
        acceptor = ci;
    }

    if (as_property != NULL)
        name_to_use = as_property;
    else
        name_to_use = collection_to_add->property;


    TRACE_INFO_STRING("Going to use name:", name_to_use);


    switch (mode) {
    case COL_ADD_MODE_REFERENCE:
        TRACE_INFO_STRING("We are adding a reference.", "");
        TRACE_INFO_NUMBER("Type of the header element:",
                          collection_to_add->type);
        TRACE_INFO_STRING("Header name we are adding.",
                          collection_to_add->property);
        /* Create a pointer to external collection */
        /* For future thread safety: Transaction start -> */
        add_property(acceptor, NULL, name_to_use,
                     (void *)(&collection_to_add),
                     sizeof(struct collection_item **),
                     COL_TYPE_COLLECTIONREF, &error);

        TRACE_INFO_NUMBER("Type of the header element after add_property:",
                          collection_to_add->type);
        TRACE_INFO_STRING("Header name we just added.",
                          collection_to_add->property);
        if (error) {
            TRACE_ERROR_NUMBER("Adding property failed with error:", error);
            return error;
        }
        header = (struct collection_header *)collection_to_add->data;
        TRACE_INFO_NUMBER("Count:", header->count);
        TRACE_INFO_NUMBER("Ref count:", header->reference_count);
        header->reference_count++;
        TRACE_INFO_NUMBER("Ref count after increment:",
                          header->reference_count);
        /* -> Transaction end */
        break;

    case COL_ADD_MODE_EMBED:
        TRACE_INFO_STRING("We are embedding the collection.", "");
        /* First check if the passed in collection is referenced more than once */
        TRACE_INFO_NUMBER("Type of the header element we are adding:",
                          collection_to_add->type);
        TRACE_INFO_STRING("Header name we are adding.",
                          collection_to_add->property);
        TRACE_INFO_NUMBER("Type of the header element we are adding to:",
                          acceptor->type);
        TRACE_INFO_STRING("Header name we are adding to.",
                          acceptor->property);

        add_property(acceptor, NULL, name_to_use,
                     (void *)(&collection_to_add),
                     sizeof(struct collection_item **),
                     COL_TYPE_COLLECTIONREF, &error);

        TRACE_INFO_NUMBER("Adding property returned:", error);
        break;

    case COL_ADD_MODE_CLONE:
        TRACE_INFO_STRING("We are cloning the collection.", "");
        TRACE_INFO_STRING("Name we will use.", name_to_use);

        /* For future thread safety: Transaction start -> */
        error = copy_collection(&collection_copy,
                                collection_to_add, name_to_use);
        if (error) return error;

        TRACE_INFO_STRING("We have a collection copy.", collection_copy->property);
        TRACE_INFO_NUMBER("Collection type.", collection_copy->type);
        TRACE_INFO_STRING("Acceptor collection.", acceptor->property);
        TRACE_INFO_NUMBER("Acceptor collection type.", acceptor->type);

        add_property(acceptor, NULL, name_to_use,
                     (void *)(&collection_copy),
                     sizeof(struct collection_item **),
                     COL_TYPE_COLLECTIONREF, &error);

        /* -> Transaction end */
        TRACE_INFO_NUMBER("Adding property returned:", error);
        break;

    default:
        error = EINVAL;
    }

    TRACE_FLOW_NUMBER("add_collection_to_collection returning:", error);
    return error;
}

/* TRAVERSING */

/* Function to traverse the entire collection including optionally
 * sub collections */
inline int traverse_collection(struct collection_item *ci,
                               int mode_flags,
                               item_fn item_handler,
                               void *custom_data)
{

    int error = EOK;
    TRACE_FLOW_STRING("traverse_collection", "Entry.");

    error = walk_items(ci, mode_flags, simple_traverse_handler,
                       NULL, item_handler, custom_data);

    if ((error != 0) && (error != EINTR_INTERNAL)) {
        TRACE_ERROR_NUMBER("Error walking tree", error);
        return error;
    }

    TRACE_FLOW_STRING("traverse_collection", "Success exit.");
    return EOK;
}

/* CHECK */

/* Convenience function to check if specific property is in the collection */
inline int is_item_in_collection(struct collection_item *ci,
                                 const char *property_to_find,
                                 int type,
                                 int mode_flags,
                                 int *found)
{
    int error;

    TRACE_FLOW_STRING("is_item_in_collection","Entry.");

    *found = COL_NOMATCH;
    error = find_item_and_do(ci, property_to_find,
                             type, mode_flags,
                             is_in_item_handler,
                             (void *)found,
                             COLLECTION_ACTION_FIND);

    TRACE_FLOW_NUMBER("is_item_in_collection returning", error);
    return error;
}

/* SEARCH */
/* Search function. Looks up an item in the collection based on the property.
   Essentually it is a traverse function with spacial traversing logic.
 */
inline int get_item_and_do(struct collection_item *ci,       /* Collection to find things in */
                           const char *property_to_find,     /* Name to match */
                           int type,                         /* Type filter */
                           int mode_flags,                   /* How to traverse the collection */
                           item_fn item_handler,             /* Function to call when the item is found */
                           void *custom_data)                /* Custom data passed around */
{
    int error = EOK;

    TRACE_FLOW_STRING("get_item_and_do","Entry.");

    error = find_item_and_do(ci, property_to_find,
                             type, mode_flags,
                             item_handler,
                             custom_data,
                             COLLECTION_ACTION_FIND);

    TRACE_FLOW_NUMBER("get_item_and_do returning", error);
    return error;
}


/* Get raw item */
inline int get_item(struct collection_item *ci,       /* Collection to find things in */
                    const char *property_to_find,     /* Name to match */
                    int type,                         /* Type filter */
                    int mode_flags,                   /* How to traverse the collection */
                    struct collection_item **item)    /* Found item */
{

    int error = EOK;

    TRACE_FLOW_STRING("get_item", "Entry.");

    error = find_item_and_do(ci, property_to_find,
                             type, mode_flags,
                             NULL, (void *)item,
                             COLLECTION_ACTION_GET);

    TRACE_FLOW_NUMBER("get_item returning", error);
    return error;
}

/* DELETE */
/* Delete property from the collection */
inline int delete_property(struct collection_item *ci,    /* Collection to find things in */
                           const char *property_to_find,  /* Name to match */
                           int type,                      /* Type filter */
                           int mode_flags)                /* How to traverse the collection */
{
    int error = EOK;
    int found;

    TRACE_FLOW_STRING("delete_property", "Entry.");
    found = COL_NOMATCH;

    error = find_item_and_do(ci, property_to_find,
                             type, mode_flags,
                             NULL, (void *)(&found),
                             COLLECTION_ACTION_DEL);

    if ((error == EOK) && (found == COL_NOMATCH))
        error = ENOENT;

    TRACE_FLOW_NUMBER("delete_property returning", error);
    return error;
}

/* UPDATE */
/* Update property in the collection */
int update_property(struct collection_item *ci,    /* Collection to find things in */
                    const char *property_to_find,  /* Name to match */
                    int type,                      /* Type of the passed in data */
                    void *new_data,                /* Pointer to the new data */
                    int length,                    /* Length of the data. For strings should include trailing 0 */
                    int mode_flags)                /* How to traverse the collection  */

{
    int error = EOK;
    struct update_property update_data;

    TRACE_FLOW_STRING("update_property", "Entry.");
    update_data.type = type;
    update_data.data = new_data;
    update_data.length = length;
    update_data.found = COL_NOMATCH;

    error = find_item_and_do(ci, property_to_find,
                             type, mode_flags,
                             NULL, (void *)(&update_data),
                             COLLECTION_ACTION_UPDATE);

    if ((error == EOK) && (update_data.found == COL_NOMATCH))
        error = ENOENT;

    TRACE_FLOW_NUMBER("update_property returning", error);
    return error;
}

/* Update a string property in the collection.
 * Length should include the terminating 0  */
inline int update_str_property(struct collection_item *ci,
                               const char *property,
                               int mode_flags,
                               char *string,
                               int length)
{
    int error = EOK;
    TRACE_FLOW_STRING("update_str_property", "Entry.");

    if (length == 0) length = strlen(string) + 1;
    error =  update_property(ci, property, COL_TYPE_STRING,
                             (void *)string, length, mode_flags);

    TRACE_FLOW_NUMBER("update_str_property Returning", error);
    return error;
}

/* Update a binary property in the collection.  */
inline int update_binary_property(struct collection_item *ci,
                                  const char *property,
                                  int mode_flags,
                                  void *binary_data,
                                  int length)
{
    int error = EOK;
    TRACE_FLOW_STRING("update_binary_property", "Entry.");

    error =  update_property(ci, property, COL_TYPE_BINARY,
                             binary_data, length, mode_flags);

    TRACE_FLOW_NUMBER("update_binary_property Returning", error);
    return error;
}

/* Update an int property in the collection. */
inline int update_int_property(struct collection_item *ci,
                               const char *property,
                               int mode_flags,
                               int number)
{
    int error = EOK;
    TRACE_FLOW_STRING("update_int_property", "Entry.");

    error =  update_property(ci, property, COL_TYPE_INTEGER,
                             (void *)(&number), sizeof(int), mode_flags);

    TRACE_FLOW_NUMBER("update_int_property Returning", error);
    return error;
}

/* Update an unsigned int property. */
inline int update_unsigned_property(struct collection_item *ci,
                                    const char *property,
                                    int mode_flags,
                                    unsigned int number)
{
    int error = EOK;
    TRACE_FLOW_STRING("update_unsigned_property", "Entry.");

    error =  update_property(ci, property, COL_TYPE_UNSIGNED,
                             (void *)(&number), sizeof(unsigned int),
                             mode_flags);

    TRACE_FLOW_NUMBER("update_unsigned_property Returning", error);
    return error;
}
/* Update a long property. */
inline int update_long_property(struct collection_item *ci,
                                const char *property,
                                int mode_flags,
                                long number)
{
    int error = EOK;
    TRACE_FLOW_STRING("update_long_property", "Entry.");

    error =  update_property(ci, property, COL_TYPE_LONG,
                             (void *)(&number), sizeof(long), mode_flags);

    TRACE_FLOW_NUMBER("update_long_property Returning", error);
    return error;

}

/* Update an unsigned long property. */
inline int update_ulong_property(struct collection_item *ci,
                                 const char *property,
                                 int mode_flags,
                                 unsigned long number)
{
    int error = EOK;
    TRACE_FLOW_STRING("update_ulong_property", "Entry.");

    error =  update_property(ci, property, COL_TYPE_ULONG,
                             (void *)(&number), sizeof(unsigned long),
                             mode_flags);

    TRACE_FLOW_NUMBER("update_ulong_property Returning", error);
    return error;
}

/* Update a double property. */
inline int update_double_property(struct collection_item *ci,
                                  const char *property,
                                  int mode_flags,
                                  double number)
{
    int error = EOK;
    TRACE_FLOW_STRING("update_double_property", "Entry.");

    error =  update_property(ci, property, COL_TYPE_DOUBLE,
                             (void *)(&number), sizeof(double), mode_flags);

    TRACE_FLOW_NUMBER("update_double_property Returning", error);
    return error;
}

/* Update a bool property. */
inline int update_bool_property(struct collection_item *ci,
                                const char *property,
                                int mode_flags,
                                unsigned char logical)
{
    int error = EOK;
    TRACE_FLOW_STRING("update_bool_property", "Entry.");

    error =  update_property(ci, property, COL_TYPE_BOOL,
                             (void *)(&logical), sizeof(unsigned char),
                             mode_flags);

    TRACE_FLOW_NUMBER("update_bool_property Returning", error);
    return error;
}

/* Function to modify the item */
int modify_item(struct collection_item *item,
                const char *property,
                int type,
                void *data,
                int length)
{
    TRACE_FLOW_STRING("modify_item", "Entry");

    if ((item == NULL) ||
        (item->type == COL_TYPE_COLLECTION) ||
        (item->type == COL_TYPE_COLLECTIONREF)) {
        TRACE_ERROR_NUMBER("Invalid argument or invalid argument type", EINVAL);
        return EINVAL;
    }

    if (property != NULL) {
        free(item->property);
        item->property = strdup(property);
        if (item->property == NULL) {
            TRACE_ERROR_STRING("Failed to allocate memory", "");
            return ENOMEM;
        }
    }

    /* If type is different or same but it is string or binary we need to
     * replace the storage */
    if ((item->type != type) ||
        ((item->type == type) &&
        ((item->type == COL_TYPE_STRING) || (item->type == COL_TYPE_BINARY)))) {
        TRACE_INFO_STRING("Replacing item data buffer", "");
        free(item->data);
        item->data = malloc(length);
        if (item->data == NULL) {
            TRACE_ERROR_STRING("Failed to allocate memory", "");
            item->length = 0;
            return ENOMEM;
        }
        item->length = length;
    }


    TRACE_INFO_STRING("Overwriting item data", "");
    memcpy(item->data, data, item->length);
    item->type = type;

    if (item->type == COL_TYPE_STRING)
        ((char *)(item->data))[item->length - 1] = '\0';

    TRACE_FLOW_STRING("modify_item", "Exit");
    return EOK;
}


/* Convinience functions that wrap modify_item(). */
/* Modify item data to be str */
inline int modify_str_item(struct collection_item *item,
                           const char *property,
                           char *string,
                           int length)
{
    int len;
    int error;

    TRACE_FLOW_STRING("modify_str_item", "Entry");

    if (length != 0)
        len = length;
    else
        len = strlen(string) + 1;

    error = modify_item(item, property, COL_TYPE_STRING, (void *)string, len);

    TRACE_FLOW_STRING("modify_str_item", "Exit");
    return error;
}

/* Modify item data to be binary */
inline int modify_binary_item(struct collection_item *item,
                              const char *property,
                              void *binary_data,
                              int length)
{
    int error;

    TRACE_FLOW_STRING("modify_binary_item", "Entry");

    error = modify_item(item, property, COL_TYPE_BINARY, binary_data, length);

    TRACE_FLOW_STRING("modify_binary_item", "Exit");
    return error;
}

/* Modify item data to be bool */
inline int modify_bool_item(struct collection_item *item,
                            const char *property,
                            unsigned char logical)
{
    int error;

    TRACE_FLOW_STRING("modify_bool_item", "Entry");

    error = modify_item(item, property, COL_TYPE_BOOL, (void *)(&logical), 1);

    TRACE_FLOW_STRING("modify_bool_item", "Exit");
    return error;
}

/* Modify item data to be int */
inline int modify_int_item(struct collection_item *item,
                           const char *property,
                           int number)
{
    int error;

    TRACE_FLOW_STRING("modify_int_item","Entry");

    error = modify_item(item, property, COL_TYPE_INTEGER,
                        (void *)(&number), sizeof(int));

    TRACE_FLOW_STRING("modify_int_item", "Exit");
    return error;
}

/* Modify item data to be long */
inline int modify_long_item(struct collection_item *item,
                            const char *property,
                            long number)
{
    int error;

    TRACE_FLOW_STRING("modify_long_item", "Entry");

    error = modify_item(item, property, COL_TYPE_LONG,
                        (void *)(&number), sizeof(long));

    TRACE_FLOW_STRING("modify_long_item", "Exit");
    return error;
}

/* Modify item data to be unigned long */
inline int modify_ulong_item(struct collection_item *item,
                             const char *property,
                             unsigned long number)
{
    int error;

    TRACE_FLOW_STRING("modify_ulong_item", "Entry");

    error = modify_item(item, property, COL_TYPE_ULONG,
                        (void *)(&number), sizeof(unsigned long));

    TRACE_FLOW_STRING("modify_ulong_item", "Exit");
    return error;
}

inline int modify_unsigned_item(struct collection_item *item,
                                const char *property,
                                unsigned number)
{
    int error;

    TRACE_FLOW_STRING("modify_unsigned_item", "Entry");

    error = modify_item(item, property, COL_TYPE_UNSIGNED,
                        (void *)(&number), sizeof(unsigned));

    TRACE_FLOW_STRING("modify_unsigned_item", "Exit");
    return error;
}

inline int modify_double_item(struct collection_item *item,
                              const char *property,
                              double number)
{
    int error;

    TRACE_FLOW_STRING("modify_double_item", "Entry");

    error = modify_item(item, property, COL_TYPE_DOUBLE,
                        (void *)(&number), sizeof(double));

    TRACE_FLOW_STRING("modify_double_item", "Exit");
    return error;
}


/* Grow iteration stack */
static int grow_stack(struct collection_iterator *iterator, unsigned desired)
{
    int grow_by = 0;
    struct collection_item **temp;

    TRACE_FLOW_STRING("grow_stack", "Entry.");

    if (desired > iterator->stack_size) {
        grow_by = (((desired - iterator->stack_size) / STACK_DEPTH_BLOCK) + 1) * STACK_DEPTH_BLOCK;
        errno = 0;
        temp = (struct collection_item **)realloc(iterator->stack, grow_by * sizeof(struct collection_item *));
        if (temp == NULL) {
            TRACE_ERROR_NUMBER("Failed to allocate memory", ENOMEM);
            return ENOMEM;
        }
        iterator->stack = temp;
        iterator->stack_size += grow_by;
    }
    TRACE_FLOW_STRING("grow_stack", "Exit.");
    return EOK;
}



/* Bind iterator to a collection */
int bind_iterator(struct collection_iterator **iterator,
                  struct collection_item *ci,
                  int mode_flags)
{
    int error;
    struct collection_header *header;
    struct collection_iterator *iter = NULL;

    TRACE_FLOW_STRING("bind_iterator", "Entry.");

    /* Do some argument checking first */
    if ((iterator == NULL) || (ci == NULL)) {
        TRACE_ERROR_NUMBER("Invalid parameter.", EINVAL);
        return EINVAL;
    }

    iter = (struct collection_iterator *)malloc(sizeof(struct collection_iterator));
    if (iter == NULL) {
        TRACE_ERROR_NUMBER("Error allocating memory for the iterator.", ENOMEM);
        return ENOMEM;
    }

    /* Allocate memory for the stack */
    iter->stack = NULL;
    iter->stack_size = 0;
    iter->stack_depth = 0;
    iter->flags = mode_flags;

    /* Allocate memory for stack */
    error = grow_stack(iter, 1);
    if(error) {
        free(iter);
        TRACE_ERROR_NUMBER("Error growing stack.", error);
        return error;
    }

    /* Make sure that we tie iterator to the collection */
    header = (struct collection_header *)ci->data;
    header->reference_count++;
    iter->top = ci;
    *(iter->stack) = ci;
    iter->stack_depth++;

    *iterator = iter;

    TRACE_FLOW_STRING("bind_iterator", "Exit");
    return EOK;
}

/* Stop processing this subcollection and move to the next item in the
 * collection 'level' levels up.*/
inline int iterate_up(struct collection_iterator *iterator, int level)
{
    TRACE_FLOW_STRING("iterate_up", "Entry");

    if ((iterator == NULL) || (level >= iterator->stack_depth)) {
        TRACE_ERROR_NUMBER("Invalid parameter.", EINVAL);
        return EINVAL;
    }

    TRACE_INFO_NUMBER("Going up:", level);

    iterator->stack_depth--;

    TRACE_INFO_NUMBER("Stack depth at the end:", iterator->stack_depth);
    TRACE_FLOW_STRING("iterate_up", "Exit");
    return EOK;
}
/* How deep are we relative to the top level.*/
inline int get_iterator_depth(struct collection_iterator *iterator, int *depth)
{
    TRACE_FLOW_STRING("iterate_up", "Entry");

    if ((iterator == NULL) || (depth == NULL)) {
        TRACE_ERROR_NUMBER("Invalid parameter.", EINVAL);
        return EINVAL;
    }

    *depth = iterator->stack_depth -1;

    TRACE_INFO_NUMBER("Stack depth at the end:", iterator->stack_depth);
    TRACE_FLOW_STRING("iterate_up","Exit");
    return EOK;
}


/* Unbind the iterator from the collection */
inline void unbind_iterator(struct collection_iterator *iterator)
{
    TRACE_FLOW_STRING("unbind_iterator", "Entry.");
    if (iterator != NULL) {
        destroy_collection(iterator->top);
        if (iterator->stack != NULL) free(iterator->stack);
        free(iterator);
    }
    TRACE_FLOW_STRING("unbind_iterator", "Exit");
}

/* Get items from the collection one by one following the tree */
int iterate_collection(struct collection_iterator *iterator,
                       struct collection_item **item)
{
    int error;
    struct collection_item *current;
    struct collection_item *other;

    TRACE_FLOW_STRING("iterate_collection", "Entry.");

    /* Check if we have storage for item */
    if (item == NULL) {
        TRACE_ERROR_NUMBER("Invalid parameter.", EINVAL);
        return EINVAL;
    }

    while (1) {

        TRACE_INFO_NUMBER("Stack depth:", iterator->stack_depth);

        /* Are we done? */
        if (iterator->stack_depth == 0) {
            TRACE_FLOW_STRING("We are done.", "");
            *item = NULL;
            return EOK;
        }

        /* Is current item available */
        current = iterator->stack[iterator->stack_depth - 1];

        /* We are not done so check if we have an item  */
        if (current != NULL) {

            TRACE_INFO_STRING("Current item:", current->property);
            TRACE_INFO_NUMBER("Current item type:", current->type);

            /* Is this a collection reference */
            if (current->type == COL_TYPE_COLLECTIONREF) {
                /* We do follow references? */
                TRACE_INFO_STRING("Current item:", "collection reference");
                if ((iterator->flags & COL_TRAVERSE_IGNORE) == 0) {
                    /* We should not ignore - then move on */
                    TRACE_INFO_STRING("Collection references are not ignored", "");
                    error = grow_stack(iterator, iterator->stack_depth + 1);
                    if (error) {
                        TRACE_ERROR_NUMBER("Error growing stack.", error);
                        return error;
                    }
                    /* Do we need to go deeper than one level ? */
                    if ((iterator->flags & COL_TRAVERSE_ONELEVEL) == 0) {
                        TRACE_INFO_STRING("Need to go deeper", "");
                        /* We need to go deeper... */
                        /* Do we need to show headers but not reference? */
                        if ((iterator->flags & COL_TRAVERSE_ONLYSUB) != 0) {
                            TRACE_INFO_STRING("Instructed to show header not reference", "");
                            other = *((struct collection_item **)current->data);
                            iterator->stack[iterator->stack_depth] = other->next;
                            *item = other;
                        }
                        /* Do we need to show both? */
                        else if ((iterator->flags & COL_TRAVERSE_SHOWSUB) != 0) {
                            TRACE_INFO_STRING("Instructed to show header and reference","");
                            iterator->stack[iterator->stack_depth] = *((struct collection_item **)(current->data));
                            *item = current;
                        }
                        /* We need to show reference only */
                        else {
                            TRACE_INFO_STRING("Instructed to show reference only", "");
                            other = *((struct collection_item **)current->data);
                            TRACE_INFO_STRING("Sub collection:", other->property);
                            TRACE_INFO_NUMBER("Sub collection type:", other->type);
                            iterator->stack[iterator->stack_depth] = other->next;
                            if (other->next != NULL) {
                                TRACE_INFO_STRING("Will show this item next time:", other->next->property);
                                TRACE_INFO_NUMBER("Will show this item next time type:", other->next->type);
                            }
                            *item = current;
                        }

                        TRACE_INFO_STRING("We return item:", (*item)->property);
                        TRACE_INFO_NUMBER("We return item type:", (*item)->type);
                        TRACE_INFO_STRING("Moving to the next item on the previous item in stack", "");
                        iterator->stack[iterator->stack_depth - 1] = current->next;
                        iterator->stack_depth++;

                    }
                    else {
                        TRACE_INFO_STRING("Instructed to parse just one level", "");
                        /* On one level - just return current */
                        *item = current;
                        TRACE_INFO_STRING("Moving to the next item on one level", "");
                        iterator->stack[iterator->stack_depth - 1] = current->next;
                    }
                    break;
                }
                else {
                    /* We need to ignore references so move to the next item */
                    TRACE_INFO_STRING("Stepping over the reference", "");
                    iterator->stack[iterator->stack_depth - 1] = current->next;
                    continue;
                }
            }
            else {
                /* Got a normal item - return it and move to the next one */
                TRACE_INFO_STRING("Simple item", "");
                *item = current;
                iterator->stack[iterator->stack_depth - 1] = current->next;
                break;
            }
        }
        else {
            /* Item is NULL */
            TRACE_INFO_STRING("Finished level", "moving to upper level");
            iterator->stack_depth--;
            TRACE_INFO_NUMBER("Stack depth at the end:", iterator->stack_depth);
            if ((iterator->flags & COL_TRAVERSE_END) != 0) {
                /* Return dummy entry to indicate the end of the collection */
                TRACE_INFO_STRING("Finished level", "told to return END");
                *item = &dummy;
                break;
            }
            else {
                /* Move to next level */
                continue;
            }
        }
    }

    TRACE_FLOW_STRING("iterate_collection", "Exit");
    return EOK;
}

/* Set collection class */
inline int set_collection_class(struct collection_item *item, unsigned cclass)
{
    struct collection_header *header;

    TRACE_FLOW_STRING("set_collection_class", "Entry");

    if (item->type != COL_TYPE_COLLECTION) {
        TRACE_INFO_NUMBER("Not a collectin object. Type is", item->type);
        return EINVAL;
    }

    header = (struct collection_header *)item->data;
    header->cclass = cclass;
    TRACE_FLOW_STRING("set_collection_class", "Exit");
    return EOK;
}

/* Get collection class */
inline int get_collection_class(struct collection_item *item,
                                unsigned *cclass)
{
    struct collection_header *header;

    TRACE_FLOW_STRING("get_collection_class", "Entry");

    if (item->type != COL_TYPE_COLLECTION) {
        TRACE_ERROR_NUMBER("Not a collection object. Type is", item->type);
        return EINVAL;
    }

    header = (struct collection_header *)item->data;
    *cclass  = header->cclass;
    TRACE_FLOW_STRING("get_collection_class", "Exit");
    return EOK;
}

/* Get collection count */
inline int get_collection_count(struct collection_item *item,
                                unsigned *count)
{
    struct collection_header *header;

    TRACE_FLOW_STRING("get_collection_count", "Entry");

    if (item->type != COL_TYPE_COLLECTION) {
        TRACE_ERROR_NUMBER("Not a collectin object. Type is", item->type);
        return EINVAL;
    }

    header = (struct collection_header *)item->data;
    *count  = header->count;
    TRACE_FLOW_STRING("get_collection_count", "Exit");
    return EOK;

}

/* Convinience function to check if the collection is of the specific class */
/* In case of internal error assumes that collection is not of the right class */
inline int is_of_class(struct collection_item *item, unsigned cclass)
{
    int error = EOK;
    unsigned ret_class = 0;

    TRACE_FLOW_STRING("is_of_class invoked", "");

    error = get_collection_class(item, &ret_class);
    if (error || (ret_class != cclass))
        return 0;
    else
        return 1;
}

/* Get propery */
inline const char *get_item_property(struct collection_item *ci,int *property_len)
{
    if (property_len != NULL) *property_len = ci->property_len;
    return ci->property;
}

/* Get type */
inline int get_item_type(struct collection_item *ci)
{
    return ci->type;
}

/* Get length */
inline int get_item_length(struct collection_item *ci)
{
    return ci->length;
}

/* Get data */
inline const void *get_item_data(struct collection_item *ci)
{
    return ci->data;
}


/* Set time stamp in the collection - FIXME move to another level */
int set_timestamp(struct collection_item *ci,
                  struct collection_item **timestr_ref,
                  struct collection_item **timeint_ref)
{
    time_t utctime;
    struct tm time_struct;
    char time_array[TIME_ARRAY_SIZE+1];
    int len;
    struct collection_item *timestr = NULL;
    struct collection_item *timeint = NULL;
    int error = EOK;

    TRACE_FLOW_STRING("set_timestamp", "Entry point");

    utctime = time(NULL);
    localtime_r(&utctime, &time_struct);

    len = strftime(time_array, TIME_ARRAY_SIZE, DATE_FORMAT, &time_struct);
    if (len == 0) {
        TRACE_ERROR_STRING("add_time", "CODING ERROR - INCREASE THE BUFFER");
        return EMSGSIZE;
    }

    TRACE_INFO_STRING("Timestamp:", time_array);

    /* Check if we have the timestamp item already */
    error = get_item(ci, TS_NAME, COL_TYPE_STRING,
                     COL_TRAVERSE_IGNORE, &timestr);
    if (error) {
        TRACE_ERROR_NUMBER("search failed with error:", error);
        return error;
    }

    if (timestr != NULL) {
        /* There is a timestamp */
        free(timestr->data);
        timestr->data = strdup(time_array);
        if (timestr->data == NULL) {
            TRACE_ERROR_NUMBER("failed to add timestamp property:", error);
            return ENOMEM;
        }
        timestr->length = len+1;
        *timestr_ref = timestr;
    }
    else {
        /* Add timestamp to the collection */
        error = add_str_property_with_ref(ci, NULL, TS_NAME,
                                          time_array, len+1, timestr_ref);
        if (error) {
            TRACE_ERROR_NUMBER("failed to add timestamp property:", error);
            return error;
        }
    }

    /* Check if we have the time item already */
    error = get_item(ci, T_NAME, COL_TYPE_INTEGER,
                     COL_TRAVERSE_IGNORE, &timeint);
    if (error) {
        TRACE_ERROR_NUMBER("search failed with error:", error);
        return error;
    }

    if (timeint != NULL) {
        /* There is a time property */
        *((int *)(timeint->data)) = utctime;
        *timeint_ref = timeint;
    }
    else {
        /* Add time to the collection */
        error = add_int_property_with_ref(ci, NULL, T_NAME,
                                          utctime, timeint_ref);
        if (error) {
            TRACE_ERROR_NUMBER("failed to add time property:", error);
            return error;
        }
    }

    TRACE_FLOW_STRING("set_timestamp", "Exit point");
    return EOK;
}