struct loc_node_stack network_stack[MAX_STACK_DEPTH];
int network_stack_depth;
unsigned int* networks_visited;
+
+ // For subnet search
+ struct loc_network_list* stack;
};
static int loc_database_read_magic(struct loc_database* db) {
// Enumerator
+static void loc_database_enumerator_free(struct loc_database_enumerator* enumerator) {
+ DEBUG(enumerator->ctx, "Releasing database enumerator %p\n", enumerator);
+
+ // Release all references
+ loc_database_unref(enumerator->db);
+ loc_unref(enumerator->ctx);
+
+ if (enumerator->string)
+ free(enumerator->string);
+
+ // Free network search
+ free(enumerator->networks_visited);
+
+ // Free subnet stack
+ if (enumerator->stack)
+ loc_network_list_unref(enumerator->stack);
+
+ free(enumerator);
+}
+
LOC_EXPORT int loc_database_enumerator_new(struct loc_database_enumerator** enumerator,
struct loc_database* db, enum loc_database_enumerator_mode mode, int flags) {
struct loc_database_enumerator* e = calloc(1, sizeof(*e));
e->flatten = (flags & LOC_DB_ENUMERATOR_FLAGS_FLATTEN);
// Initialise graph search
- //e->network_stack[++e->network_stack_depth] = 0;
e->network_stack_depth = 1;
e->networks_visited = calloc(db->network_nodes_count, sizeof(*e->networks_visited));
+ // Allocate stack
+ int r = loc_network_list_new(e->ctx, &e->stack);
+ if (r) {
+ loc_database_enumerator_free(e);
+ return r;
+ }
+
DEBUG(e->ctx, "Database enumerator object allocated at %p\n", e);
*enumerator = e;
return enumerator;
}
-static void loc_database_enumerator_free(struct loc_database_enumerator* enumerator) {
- DEBUG(enumerator->ctx, "Releasing database enumerator %p\n", enumerator);
-
- // Release all references
- loc_database_unref(enumerator->db);
- loc_unref(enumerator->ctx);
-
- if (enumerator->string)
- free(enumerator->string);
-
- // Free network search
- free(enumerator->networks_visited);
-
- free(enumerator);
-}
-
LOC_EXPORT struct loc_database_enumerator* loc_database_enumerator_unref(struct loc_database_enumerator* enumerator) {
if (!enumerator)
return NULL;
return 0;
}
-LOC_EXPORT int loc_database_enumerator_next_network(
- struct loc_database_enumerator* enumerator, struct loc_network** network) {
- // Reset network
- *network = NULL;
-
- // Do not do anything if not in network mode
- if (enumerator->mode != LOC_DB_ENUMERATE_NETWORKS)
+static int __loc_database_enumerator_next_network(
+ struct loc_database_enumerator* enumerator, struct loc_network** network, int filter) {
+ // Return top element from the stack
+ *network = loc_network_list_pop(enumerator->stack);
+ if (*network)
return 0;
- int r;
-
DEBUG(enumerator->ctx, "Called with a stack of %u nodes\n",
enumerator->network_stack_depth);
enumerator->db->network_nodes_v1 + node->offset;
// Add edges to stack
- r = loc_database_enumerator_stack_push_node(enumerator,
+ int r = loc_database_enumerator_stack_push_node(enumerator,
be32toh(n->one), 1, node->depth + 1);
if (r)
if (r)
return r;
+ // Return all networks when the filter is disabled
+ if (!filter)
+ return 0;
+
// Check if we are interested in this network
// Skip if the family does not match
}
// Reached the end of the search
+ return 0;
+}
- // Mark all nodes as non-visited
- for (unsigned int i = 0; i < enumerator->db->network_nodes_count; i++)
- enumerator->networks_visited[i] = 0;
+static int __loc_database_enumerator_next_network_flattened(
+ struct loc_database_enumerator* enumerator, struct loc_network** network) {
+ // Fetch the next network
+ int r = __loc_database_enumerator_next_network(enumerator, network, 1);
+ if (r)
+ return r;
- return 0;
+ // End if we could not read another network
+ if (!*network)
+ return 0;
+
+ struct loc_network* subnet = NULL;
+ struct loc_network_list* subnets;
+
+ // Create a list with all subnets
+ r = loc_network_list_new(enumerator->ctx, &subnets);
+ if (r)
+ return r;
+
+ // Search all subnets from the database
+ while (1) {
+ // Fetch the next network in line
+ r = __loc_database_enumerator_next_network(enumerator, &subnet, 0);
+ if (r)
+ goto END;
+
+ // End if we did not receive another subnet
+ if (!subnet)
+ break;
+
+ // Collect all subnets in a list
+ if (loc_network_is_subnet(*network, subnet)) {
+ r = loc_network_list_push(subnets, subnet);
+ if (r)
+ goto END;
+
+ loc_network_unref(subnet);
+ continue;
+ }
+
+ // If this is not a subnet, we push it back onto the stack and break
+ r = loc_network_list_push(enumerator->stack, subnet);
+ if (r)
+ goto END;
+
+ loc_network_unref(subnet);
+ break;
+ }
+
+ DEBUG(enumerator->ctx, "Found %zu subnet(s)\n", loc_network_list_size(subnets));
+
+ // We can abort here if the network has no subnets
+ if (loc_network_list_empty(subnets)) {
+ loc_network_list_unref(subnets);
+
+ return 0;
+ }
+
+ // If the network has any subnets, we will break it into smaller parts
+ // without the subnets.
+ struct loc_network_list* excluded = loc_network_exclude_list(*network, subnets);
+ if (!excluded || loc_network_list_empty(excluded)) {
+ r = 1;
+ goto END;
+ }
+
+ // Sort the result
+ loc_network_list_sort(excluded);
+
+ // Reverse the list
+ loc_network_list_reverse(excluded);
+
+ // Replace network with the first one
+ loc_network_unref(*network);
+
+ *network = loc_network_list_pop(excluded);
+
+ // Push the rest onto the stack
+ loc_network_list_merge(enumerator->stack, excluded);
+
+ loc_network_list_unref(excluded);
+
+END:
+ if (subnet)
+ loc_network_unref(subnet);
+
+ loc_network_list_unref(subnets);
+
+ return r;
+}
+
+LOC_EXPORT int loc_database_enumerator_next_network(
+ struct loc_database_enumerator* enumerator, struct loc_network** network) {
+ // Do not do anything if not in network mode
+ if (enumerator->mode != LOC_DB_ENUMERATE_NETWORKS)
+ return 0;
+
+ // Flatten output?
+ if (enumerator->flatten)
+ return __loc_database_enumerator_next_network_flattened(enumerator, network);
+
+ return __loc_database_enumerator_next_network(enumerator, network, 1);
}
LOC_EXPORT int loc_database_enumerator_next_country(