*/
/* used to contain the registered stat trees */
-static GHashTable* registry = NULL;
+static GHashTable *registry = NULL;
/* writes into the buffers pointed by value, rate and percent
the string representations of a node*/
-extern void stats_tree_get_strs_from_node(const stat_node* node, guint8* value, guint8* rate, guint8* percent) {
+extern void
+stats_tree_get_strs_from_node(const stat_node *node, gchar *value, gchar *rate, gchar *percent)
+{
float f;
if (value) g_snprintf(value,NUM_BUF_SIZE,"%u",node->counter);
/* a text representation of a node
if buffer is NULL returns a newly allocated string */
-extern guint8* stats_tree_node_to_str(const stat_node* node,
- guint8* buffer, guint len) {
+extern gchar*
+stats_tree_node_to_str(const stat_node *node, gchar *buffer, guint len)
+{
if (buffer) {
g_snprintf(buffer,len,"%s: %i",node->name, node->counter);
return buffer;
}
}
-extern guint stats_tree_branch_max_namelen(const stat_node* node, guint indent) {
- stat_node* child;
+extern guint
+stats_tree_branch_max_namelen(const stat_node *node, guint indent)
+{
+ stat_node *child;
guint maxlen = 0;
guint len;
}
}
- len = strlen(node->name) + indent;
+ len = (guint) strlen(node->name) + indent;
maxlen = len > maxlen ? len : maxlen;
return maxlen;
}
-static gchar* format;
+static gchar *format;
/* populates the given GString with a tree representation of a branch given by node,
using indent spaces as initial indentation */
-extern void stats_tree_branch_to_str(const stat_node* node, GString* s, guint indent) {
- stat_node* child;
+extern void
+stats_tree_branch_to_str(const stat_node *node, GString *s, guint indent)
+{
+ stat_node *child;
static gchar indentation[INDENT_MAX+1];
static gchar value[NUM_BUF_SIZE];
static gchar rate[NUM_BUF_SIZE];
/* frees the resources allocated by a stat_tree node */
-static void free_stat_node( stat_node* node ) {
- stat_node* child;
- stat_node* next;
+static void
+free_stat_node(stat_node *node)
+{
+ stat_node *child;
+ stat_node *next;
if (node->children) {
for (child = node->children; child; child = next ) {
if (node->hash) g_hash_table_destroy(node->hash);
- if (node->rng) g_free(node->rng);
-
- if (node->name) g_free(node->name);
-
+ g_free(node->rng);
+ g_free(node->name);
g_free(node);
}
/* destroys the whole tree instance */
-extern void stats_tree_free(stats_tree* st) {
- stat_node* child;
- stat_node* next;
+extern void
+stats_tree_free(stats_tree *st)
+{
+ stat_node *child;
+ stat_node *next;
g_free(st->filter);
g_hash_table_destroy(st->names);
g_ptr_array_free(st->parents,TRUE);
- for (child = st->root.children; child; child = next ) {
- /* child->next will be gone after free_stat_node, so cache it here */
- next = child->next;
+ for (child = st->root.children; child; child = next ) {
+ /* child->next will be gone after free_stat_node, so cache it here */
+ next = child->next;
free_stat_node(child);
- }
+ }
if (st->cfg->free_tree_pr)
st->cfg->free_tree_pr(st);
/* reset a node to its original state */
-static void reset_stat_node(stat_node* node) {
- stat_node* child;
+static void
+reset_stat_node(stat_node *node)
+{
+ stat_node *child;
if (node->children) {
for (child = node->children; child; child = child->next )
}
/* reset the whole stats_tree */
-extern void stats_tree_reset(void* p) {
- stats_tree* st = p;
+extern void
+stats_tree_reset(void *p)
+{
+ stats_tree *st = p;
st->start = -1.0;
st->elapsed = 0.0;
}
}
-extern void stats_tree_reinit(void* p) {
- stats_tree* st = p;
- stat_node* child;
- stat_node* next;
+extern void
+stats_tree_reinit(void *p)
+{
+ stats_tree *st = p;
+ stat_node *child;
+ stat_node *next;
for (child = st->root.children; child; child = next) {
/* child->next will be gone after free_stat_node, so cache it here */
}
/* register a new stats_tree */
-extern void stats_tree_register(const guint8* tapname,
- const guint8* abbr,
- const guint8* name,
- stat_tree_packet_cb packet,
- stat_tree_init_cb init,
- stat_tree_cleanup_cb cleanup) {
+extern void
+stats_tree_register_with_group(const char *tapname, const char *abbr, const char *name,
+ guint flags,
+ stat_tree_packet_cb packet, stat_tree_init_cb init,
+ stat_tree_cleanup_cb cleanup, register_stat_group_t stat_group)
+{
- stats_tree_cfg* cfg = g_malloc( sizeof(stats_tree_cfg) );
+ stats_tree_cfg *cfg = g_malloc( sizeof(stats_tree_cfg) );
/* at the very least the abbrev and the packet function should be given */
g_assert( tapname && abbr && packet );
cfg->tapname = g_strdup(tapname);
cfg->abbr = g_strdup(abbr);
cfg->name = name ? g_strdup(name) : g_strdup(abbr);
+ cfg->stat_group = stat_group;
cfg->packet = packet;
cfg->init = init;
cfg->cleanup = cleanup;
+
+ cfg->flags = flags;
/* these have to be filled in by implementations */
cfg->setup_node_pr = NULL;
}
-extern stats_tree* stats_tree_new(stats_tree_cfg* cfg, tree_pres* pr,char* filter) {
- stats_tree* st = g_malloc(sizeof(stats_tree));
+/* register a new stats_tree with default group REGISTER_STAT_GROUP_UNSORTED */
+extern void
+stats_tree_register(const char *tapname, const char *abbr, const char *name,
+ guint flags,
+ stat_tree_packet_cb packet, stat_tree_init_cb init,
+ stat_tree_cleanup_cb cleanup)
+{
+ stats_tree_register_with_group(tapname, abbr, name,
+ flags,
+ packet, init,
+ cleanup, REGISTER_STAT_GROUP_UNSORTED);
+}
+
+extern stats_tree*
+stats_tree_new(stats_tree_cfg *cfg, tree_pres *pr, char *filter)
+{
+ stats_tree *st = g_malloc(sizeof(stats_tree));
st->cfg = cfg;
st->pr = pr;
}
/* will be the tap packet cb */
-extern int stats_tree_packet(void* p, packet_info* pinfo, epan_dissect_t *edt, const void *pri) {
- stats_tree* st = p;
+extern int
+stats_tree_packet(void *p, packet_info *pinfo, epan_dissect_t *edt, const void *pri)
+{
+ stats_tree *st = p;
double now = nstime_to_msec(&pinfo->fd->rel_ts);
if (st->start < 0.0) st->start = now;
return 0;
}
-extern stats_tree_cfg* stats_tree_get_cfg_by_abbr(guint8* abbr) {
+extern stats_tree_cfg*
+stats_tree_get_cfg_by_abbr(char *abbr)
+{
return g_hash_table_lookup(registry,abbr);
}
void (*free_node_pr)(stat_node*);
void (*draw_node)(stat_node*);
void (*reset_node)(stat_node*);
- tree_pres* (*new_tree_pr)(stats_tree*);
+ tree_pres *(*new_tree_pr)(stats_tree*);
void (*free_tree_pr)(stats_tree*);
void (*draw_tree)(stats_tree*);
void (*reset_tree)(stats_tree*);
};
-static void setup_tree_presentation(gpointer k _U_, gpointer v, gpointer p) {
- stats_tree_cfg* cfg = v;
+static void
+setup_tree_presentation(gpointer k _U_, gpointer v, gpointer p)
+{
+ stats_tree_cfg *cfg = v;
struct _stats_tree_pres_cbs *d = p;
cfg->in_use = FALSE;
}
-extern void stats_tree_presentation(void (*registry_iterator)(gpointer,gpointer,gpointer),
- void (*setup_node_pr)(stat_node*),
- void (*free_node_pr)(stat_node*),
- void (*draw_node)(stat_node*),
- void (*reset_node)(stat_node*),
- tree_pres* (*new_tree_pr)(stats_tree*),
- void (*free_tree_pr)(stats_tree*),
- void (*draw_tree)(stats_tree*),
- void (*reset_tree)(stats_tree*),
- void* data) {
+extern void
+stats_tree_presentation(void (*registry_iterator)(gpointer,gpointer,gpointer),
+ void (*setup_node_pr)(stat_node*),
+ void (*free_node_pr)(stat_node*),
+ void (*draw_node)(stat_node*),
+ void (*reset_node)(stat_node*),
+ tree_pres *(*new_tree_pr)(stats_tree*),
+ void (*free_tree_pr)(stats_tree*),
+ void (*draw_tree)(stats_tree*),
+ void (*reset_tree)(stats_tree*),
+ void *data)
+{
static struct _stats_tree_pres_cbs d;
d.setup_node_pr = setup_node_pr;
* with_hash: whether or not it should keep a hash with it's children names
* as_named_node: whether or not it has to be registered in the root namespace
*/
-static stat_node* new_stat_node(stats_tree* st,
- const gchar* name,
- int parent_id,
- gboolean with_hash,
- gboolean as_parent_node) {
+static stat_node*
+new_stat_node(stats_tree *st, const gchar *name, int parent_id,
+ gboolean with_hash, gboolean as_parent_node)
+{
stat_node *node = g_malloc (sizeof(stat_node));
- stat_node* last_chld = NULL;
+ stat_node *last_chld = NULL;
node->counter = 0;
node->name = g_strdup(name);
}
/***/
-extern int stats_tree_create_node(stats_tree* st, const gchar* name, int parent_id, gboolean with_hash) {
- stat_node* node = new_stat_node(st,name,parent_id,with_hash,TRUE);
+extern int
+stats_tree_create_node(stats_tree *st, const gchar *name, int parent_id, gboolean with_hash)
+{
+ stat_node *node = new_stat_node(st,name,parent_id,with_hash,TRUE);
if (node)
return node->id;
}
/* XXX: should this be a macro? */
-extern int stats_tree_create_node_by_pname(stats_tree* st,
- const gchar* name,
- const gchar* parent_name,
- gboolean with_children) {
+extern int
+stats_tree_create_node_by_pname(stats_tree *st, const gchar *name,
+ const gchar *parent_name, gboolean with_children)
+{
return stats_tree_create_node(st,name,stats_tree_parent_id_by_name(st,parent_name),with_children);
}
* using parent_name as parent node.
* with_hash=TRUE to indicate that the created node will have a parent
*/
-extern int stats_tree_manip_node(manip_node_mode mode, stats_tree* st, const guint8* name, int parent_id, gboolean with_hash, gint value) {
- stat_node* node = NULL;
- stat_node* parent = NULL;
+extern int
+stats_tree_manip_node(manip_node_mode mode, stats_tree *st, const char *name,
+ int parent_id, gboolean with_hash, gint value)
+{
+ stat_node *node = NULL;
+ stat_node *parent = NULL;
g_assert( parent_id >= 0 && parent_id < (int) st->parents->len );
}
-extern guint8* stats_tree_get_abbr(const guint8* optarg) {
+extern char*
+stats_tree_get_abbr(const char *optarg)
+{
guint i;
/* XXX: this fails when tshark is given any options
* returns NULL, it but may also return a pair with undefined values.
*
*/
-static range_pair_t* get_range(guint8* rngstr) {
- gchar** split;
- range_pair_t* rng;
+static range_pair_t*
+get_range(char *rngstr)
+{
+ gchar **split;
+ range_pair_t *rng;
split = g_strsplit((gchar*)rngstr,"-",2);
}
-extern int stats_tree_create_range_node(stats_tree* st,
- const gchar* name,
- int parent_id,
- ...) {
+extern int
+stats_tree_create_range_node(stats_tree *st, const gchar *name, int parent_id, ...)
+{
va_list list;
- guint8* curr_range;
- stat_node* rng_root = new_stat_node(st, name, parent_id, FALSE, TRUE);
- stat_node* range_node = NULL;
+ gchar *curr_range;
+ stat_node *rng_root = new_stat_node(st, name, parent_id, FALSE, TRUE);
+ stat_node *range_node = NULL;
va_start( list, parent_id );
- while (( curr_range = va_arg(list, guint8*) )) {
+ while (( curr_range = va_arg(list, gchar*) )) {
range_node = new_stat_node(st, curr_range, rng_root->id, FALSE, FALSE);
range_node->rng = get_range(curr_range);
}
}
/****/
-extern int stats_tree_parent_id_by_name(stats_tree* st, const gchar* parent_name) {
- stat_node* node = g_hash_table_lookup(st->names,parent_name);
+extern int
+stats_tree_parent_id_by_name(stats_tree *st, const gchar *parent_name)
+{
+ stat_node *node = g_hash_table_lookup(st->names,parent_name);
if (node)
return node->id;
}
-extern int stats_tree_range_node_with_pname(stats_tree* st,
- const gchar* name,
- const gchar* parent_name,
- ...) {
+extern int
+stats_tree_range_node_with_pname(stats_tree *st, const gchar *name,
+ const gchar *parent_name, ...)
+{
va_list list;
- guint8* curr_range;
- stat_node* range_node = NULL;
+ gchar *curr_range;
+ stat_node *range_node = NULL;
int parent_id = stats_tree_parent_id_by_name(st,parent_name);
- stat_node* rng_root = new_stat_node(st, name, parent_id, FALSE, TRUE);
+ stat_node *rng_root = new_stat_node(st, name, parent_id, FALSE, TRUE);
va_start( list, parent_name );
- while (( curr_range = va_arg(list, guint8*) )) {
+ while (( curr_range = va_arg(list, gchar*) )) {
range_node = new_stat_node(st, curr_range, rng_root->id, FALSE, FALSE);
range_node->rng = get_range(curr_range);
}
}
-extern int stats_tree_tick_range(stats_tree* st,
- const gchar* name,
- int parent_id,
- int value_in_range) {
+extern int
+stats_tree_tick_range(stats_tree *st, const gchar *name, int parent_id,
+ int value_in_range)
+{
- stat_node* node = NULL;
- stat_node* parent = NULL;
- stat_node* child = NULL;
+ stat_node *node = NULL;
+ stat_node *parent = NULL;
+ stat_node *child = NULL;
gint floor, ceil;
if (parent_id >= 0 && parent_id < (int) st->parents->len) {
return node->id;
}
-extern int stats_tree_create_pivot(stats_tree* st,
- const gchar* name,
- int parent_id) {
- stat_node* node = new_stat_node(st,name,parent_id,TRUE,TRUE);
+extern int
+stats_tree_create_pivot(stats_tree *st, const gchar *name, int parent_id)
+{
+ stat_node *node = new_stat_node(st,name,parent_id,TRUE,TRUE);
if (node)
return node->id;
return 0;
}
-extern int stats_tree_create_pivot_by_pname(stats_tree* st,
- const gchar* name,
- const gchar* parent_name) {
+extern int
+stats_tree_create_pivot_by_pname(stats_tree *st, const gchar *name,
+ const gchar *parent_name)
+{
int parent_id = stats_tree_parent_id_by_name(st,parent_name);
- stat_node* node;
+ stat_node *node;
node = new_stat_node(st,name,parent_id,TRUE,TRUE);
return 0;
}
-extern int stats_tree_tick_pivot(stats_tree* st,
- int pivot_id,
- const gchar* pivot_value) {
+extern int
+stats_tree_tick_pivot(stats_tree *st, int pivot_id, const gchar *pivot_value)
+{
- stat_node* parent = g_ptr_array_index(st->parents,pivot_id);
+ stat_node *parent = g_ptr_array_index(st->parents,pivot_id);
parent->counter++;
stats_tree_manip_node( MN_INCREASE, st, pivot_value, pivot_id, FALSE, 1);