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|
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/resource.h>
#include "avl.h"
#include "log.h"
#include "common.h"
#include "appconfig.h"
#include "rrd.h"
#include "popen.h"
#include "plugin_tc.h"
#include "main.h"
#define RRD_TYPE_TC "tc"
#define RRD_TYPE_TC_LEN strlen(RRD_TYPE_TC)
// ----------------------------------------------------------------------------
// /sbin/tc processor
// this requires the script plugins.d/tc-qos-helper.sh
#define TC_LINE_MAX 1024
struct tc_class {
avl avl;
char *id;
uint32_t hash;
char *name;
char *leafid;
uint32_t leaf_hash;
char *parentid;
uint32_t parent_hash;
char hasparent;
char isleaf;
unsigned long long bytes;
unsigned long long packets;
unsigned long long dropped;
unsigned long long overlimits;
unsigned long long requeues;
unsigned long long lended;
unsigned long long borrowed;
unsigned long long giants;
unsigned long long tokens;
unsigned long long ctokens;
char updated; // updated bytes
char seen; // seen in the tc list (even without bytes)
struct tc_class *next;
struct tc_class *prev;
};
struct tc_device {
avl avl;
char *id;
uint32_t hash;
char *name;
char *family;
avl_tree classes_index;
struct tc_class *classes;
struct tc_device *next;
struct tc_device *prev;
};
struct tc_device *tc_device_root = NULL;
// ----------------------------------------------------------------------------
// tc_device index
static int tc_device_iterator(avl *a) { if(a) {}; return 0; }
static int tc_device_compare(void* a, void* b) {
if(((struct tc_device *)a)->hash < ((struct tc_device *)b)->hash) return -1;
else if(((struct tc_device *)a)->hash > ((struct tc_device *)b)->hash) return 1;
else return strcmp(((struct tc_device *)a)->id, ((struct tc_device *)b)->id);
}
avl_tree tc_device_root_index = {
NULL,
tc_device_compare,
#ifdef AVL_LOCK_WITH_MUTEX
PTHREAD_MUTEX_INITIALIZER
#else
PTHREAD_RWLOCK_INITIALIZER
#endif
};
#define tc_device_index_add(st) avl_insert(&tc_device_root_index, (avl *)(st))
#define tc_device_index_del(st) avl_remove(&tc_device_root_index, (avl *)(st))
static struct tc_device *tc_device_index_find(const char *id, uint32_t hash) {
struct tc_device *result = NULL, tmp;
tmp.id = (char *)id;
tmp.hash = (hash)?hash:simple_hash(tmp.id);
avl_search(&(tc_device_root_index), (avl *)&tmp, tc_device_iterator, (avl **)&result);
return result;
}
// ----------------------------------------------------------------------------
// tc_class index
static int tc_class_iterator(avl *a) { if(a) {}; return 0; }
static int tc_class_compare(void* a, void* b) {
if(((struct tc_class *)a)->hash < ((struct tc_class *)b)->hash) return -1;
else if(((struct tc_class *)a)->hash > ((struct tc_class *)b)->hash) return 1;
else return strcmp(((struct tc_class *)a)->id, ((struct tc_class *)b)->id);
}
#define tc_class_index_add(st, rd) avl_insert(&((st)->classes_index), (avl *)(rd))
#define tc_class_index_del(st, rd) avl_remove(&((st)->classes_index), (avl *)(rd))
static struct tc_class *tc_class_index_find(struct tc_device *st, const char *id, uint32_t hash) {
struct tc_class *result = NULL, tmp;
tmp.id = (char *)id;
tmp.hash = (hash)?hash:simple_hash(tmp.id);
avl_search(&(st->classes_index), (avl *)&tmp, tc_class_iterator, (avl **)&result);
return result;
}
// ----------------------------------------------------------------------------
static void tc_class_free(struct tc_device *n, struct tc_class *c) {
debug(D_TC_LOOP, "Removing from device '%s' class '%s', parentid '%s', leafid '%s', seen=%d", n->id, c->id, c->parentid?c->parentid:"", c->leafid?c->leafid:"", c->seen);
if(c->next) c->next->prev = c->prev;
if(c->prev) c->prev->next = c->next;
if(n->classes == c) {
if(c->next) n->classes = c->next;
else n->classes = c->prev;
}
tc_class_index_del(n, c);
if(c->id) free(c->id);
if(c->name) free(c->name);
if(c->leafid) free(c->leafid);
if(c->parentid) free(c->parentid);
free(c);
}
static void tc_device_classes_cleanup(struct tc_device *d) {
static int cleanup_every = 999;
if(cleanup_every > 0) {
cleanup_every = (int) -config_get_number("plugin:tc", "cleanup unused classes every", 60);
if(cleanup_every > 0) cleanup_every = -cleanup_every;
if(cleanup_every == 0) cleanup_every = -1;
}
struct tc_class *c = d->classes;
while(c) {
if(c->seen < cleanup_every) {
struct tc_class *nc = c->next;
tc_class_free(d, c);
c = nc;
}
else c = c->next;
if(c) {
c->updated = 0;
c->seen--;
}
}
}
static void tc_device_commit(struct tc_device *d)
{
static int enable_new_interfaces = -1;
if(enable_new_interfaces == -1) enable_new_interfaces = config_get_boolean("plugin:tc", "enable new interfaces detected at runtime", 1);
// we only need to add leaf classes
struct tc_class *c, *x;
// set all classes
for(c = d->classes ; c ; c = c->next) {
c->isleaf = 1;
c->hasparent = 0;
}
// mark the classes as leafs and parents
for(c = d->classes ; c ; c = c->next) {
if(!c->updated) continue;
for(x = d->classes ; x ; x = x->next) {
if(!x->updated) continue;
if(c == x) continue;
if(x->parentid && (
( c->hash == x->parent_hash && strcmp(c->id, x->parentid) == 0) ||
(c->leafid && c->leaf_hash == x->parent_hash && strcmp(c->leafid, x->parentid) == 0))) {
// debug(D_TC_LOOP, "TC: In device '%s', class '%s' (leafid: '%s') has as leaf class '%s' (parentid: '%s').", d->name?d->name:d->id, c->name?c->name:c->id, c->leafid?c->leafid:c->id, x->name?x->name:x->id, x->parentid?x->parentid:x->id);
c->isleaf = 0;
x->hasparent = 1;
}
}
}
// debugging:
/*
for ( c = d->classes ; c ; c = c->next) {
if(c->isleaf && c->hasparent) debug(D_TC_LOOP, "TC: Device %s, class %s, OK", d->name, c->id);
else debug(D_TC_LOOP, "TC: Device %s, class %s, IGNORE (isleaf: %d, hasparent: %d, parent: %s)", d->name, c->id, c->isleaf, c->hasparent, c->parentid);
}
*/
// we need at least a class
for(c = d->classes ; c ; c = c->next) {
// debug(D_TC_LOOP, "TC: Device '%s', class '%s', isLeaf=%d, HasParent=%d, Seen=%d", d->name?d->name:d->id, c->name?c->name:c->id, c->isleaf, c->hasparent, c->seen);
if(!c->updated) continue;
if(c->isleaf && c->hasparent) break;
}
if(!c) {
debug(D_TC_LOOP, "TC: Ignoring TC device '%s'. No leaf classes.", d->name?d->name:d->id);
tc_device_classes_cleanup(d);
return;
}
char var_name[CONFIG_MAX_NAME + 1];
snprintf(var_name, CONFIG_MAX_NAME, "qos for %s", d->id);
if(config_get_boolean("plugin:tc", var_name, enable_new_interfaces)) {
RRDSET *st = rrdset_find_bytype(RRD_TYPE_TC, d->id);
if(!st) {
debug(D_TC_LOOP, "TC: Creating new chart for device '%s'", d->name?d->name:d->id);
st = rrdset_create(RRD_TYPE_TC, d->id, d->name?d->name:d->id, d->family?d->family:d->id, RRD_TYPE_TC ".qos", "Class Usage", "kilobits/s", 7000, rrd_update_every, RRDSET_TYPE_STACKED);
for(c = d->classes ; c ; c = c->next) {
if(!c->updated) continue;
if(c->isleaf && c->hasparent)
rrddim_add(st, c->id, c->name?c->name:c->id, 8, 1024, RRDDIM_INCREMENTAL);
}
}
else {
debug(D_TC_LOOP, "TC: Updating chart for device '%s'", d->name?d->name:d->id);
rrdset_next_plugins(st);
if(d->name && strcmp(d->id, d->name) != 0) rrdset_set_name(st, d->name);
}
for(c = d->classes ; c ; c = c->next) {
if(!c->updated) continue;
if(c->isleaf && c->hasparent) {
RRDDIM *rd = rrddim_find(st, c->id);
if(!rd) {
debug(D_TC_LOOP, "TC: Adding to chart '%s', dimension '%s'", st->id, c->id, c->name);
// new class, we have to add it
rd = rrddim_add(st, c->id, c->name?c->name:c->id, 8, 1024, RRDDIM_INCREMENTAL);
}
else debug(D_TC_LOOP, "TC: Updating chart '%s', dimension '%s'", st->id, c->id);
rrddim_set_by_pointer(st, rd, c->bytes);
// if it has a name, different to the id
if(c->name) {
// update the rrd dimension with the new name
debug(D_TC_LOOP, "TC: Setting chart '%s', dimension '%s' name to '%s'", st->id, rd->id, c->name);
rrddim_set_name(st, rd, c->name);
free(c->name);
c->name = NULL;
}
}
}
rrdset_done(st);
}
tc_device_classes_cleanup(d);
}
static void tc_device_set_class_name(struct tc_device *d, char *id, char *name)
{
struct tc_class *c = tc_class_index_find(d, id, 0);
if(c) {
if(c->name) free(c->name);
c->name = NULL;
if(name && *name && strcmp(c->id, name) != 0) {
debug(D_TC_LOOP, "TC: Setting device '%s', class '%s' name to '%s'", d->id, id, name);
c->name = strdup(name);
}
}
}
static void tc_device_set_device_name(struct tc_device *d, char *name) {
if(d->name) free(d->name);
d->name = NULL;
if(name && *name && strcmp(d->id, name) != 0) {
debug(D_TC_LOOP, "TC: Setting device '%s' name to '%s'", d->id, name);
d->name = strdup(name);
}
}
static void tc_device_set_device_family(struct tc_device *d, char *family) {
if(d->family) free(d->family);
d->family = NULL;
if(family && *family && strcmp(d->id, family) != 0) {
debug(D_TC_LOOP, "TC: Setting device '%s' family to '%s'", d->id, family);
d->family = strdup(family);
}
// no need for null termination - it is already null
}
static struct tc_device *tc_device_create(char *id)
{
struct tc_device *d = tc_device_index_find(id, 0);
if(!d) {
debug(D_TC_LOOP, "TC: Creating device '%s'", id);
d = calloc(1, sizeof(struct tc_device));
if(!d) {
fatal("Cannot allocate memory for tc_device %s", id);
return NULL;
}
d->id = strdup(id);
d->hash = simple_hash(d->id);
d->classes_index.root = NULL;
d->classes_index.compar = tc_class_compare;
#ifdef AVL_LOCK_WITH_MUTEX
pthread_mutex_init(&d->classes_index.mutex, NULL);
#else
pthread_rwlock_init(&d->classes_index.rwlock, NULL);
#endif
tc_device_index_add(d);
if(!tc_device_root) {
tc_device_root = d;
}
else {
d->next = tc_device_root;
tc_device_root->prev = d;
tc_device_root = d;
}
}
return(d);
}
static struct tc_class *tc_class_add(struct tc_device *n, char *id, char *parentid, char *leafid)
{
struct tc_class *c = tc_class_index_find(n, id, 0);
if(!c) {
debug(D_TC_LOOP, "TC: Creating in device '%s', class id '%s', parentid '%s', leafid '%s'", n->id, id, parentid?parentid:"", leafid?leafid:"");
c = calloc(1, sizeof(struct tc_class));
if(!c) {
fatal("Cannot allocate memory for tc class");
return NULL;
}
if(n->classes) n->classes->prev = c;
c->next = n->classes;
n->classes = c;
c->id = strdup(id);
if(!c->id) {
free(c);
return NULL;
}
c->hash = simple_hash(c->id);
if(parentid && *parentid) {
c->parentid = strdup(parentid);
c->parent_hash = simple_hash(c->parentid);
}
if(leafid && *leafid) {
c->leafid = strdup(leafid);
c->leaf_hash = simple_hash(c->leafid);
}
tc_class_index_add(n, c);
}
c->seen = 1;
return(c);
}
static void tc_device_free(struct tc_device *n)
{
if(n->next) n->next->prev = n->prev;
if(n->prev) n->prev->next = n->next;
if(tc_device_root == n) {
if(n->next) tc_device_root = n->next;
else tc_device_root = n->prev;
}
tc_device_index_del(n);
while(n->classes) tc_class_free(n, n->classes);
if(n->id) free(n->id);
if(n->name) free(n->name);
if(n->family) free(n->family);
free(n);
}
static void tc_device_free_all()
{
while(tc_device_root)
tc_device_free(tc_device_root);
}
#define MAX_WORDS 20
static inline int tc_space(char c) {
switch(c) {
case ' ':
case '\t':
case '\r':
case '\n':
return 1;
default:
return 0;
}
}
static void tc_split_words(char *str, char **words, int max_words) {
char *s = str;
int i = 0;
// skip all white space
while(tc_space(*s)) s++;
// store the first word
words[i++] = s;
// while we have something
while(*s) {
// if it is a space
if(tc_space(*s)) {
// terminate the word
*s++ = '\0';
// skip all white space
while(tc_space(*s)) s++;
// if we reached the end, stop
if(!*s) break;
// store the next word
if(i < max_words) words[i++] = s;
else break;
}
else s++;
}
// terminate the words
while(i < max_words) words[i++] = NULL;
}
pid_t tc_child_pid = 0;
void *tc_main(void *ptr)
{
if(ptr) { ; }
info("TC thread created with task id %d", gettid());
if(pthread_setcanceltype(PTHREAD_CANCEL_DEFERRED, NULL) != 0)
error("Cannot set pthread cancel type to DEFERRED.");
if(pthread_setcancelstate(PTHREAD_CANCEL_ENABLE, NULL) != 0)
error("Cannot set pthread cancel state to ENABLE.");
struct rusage thread;
RRDSET *stcpu = NULL, *sttime = NULL;
char buffer[TC_LINE_MAX+1] = "";
char *words[MAX_WORDS] = { NULL };
uint32_t BEGIN_HASH = simple_hash("BEGIN");
uint32_t END_HASH = simple_hash("END");
uint32_t CLASS_HASH = simple_hash("class");
uint32_t SENT_HASH = simple_hash("Sent");
uint32_t LENDED_HASH = simple_hash("lended:");
uint32_t TOKENS_HASH = simple_hash("tokens:");
uint32_t SETDEVICENAME_HASH = simple_hash("SETDEVICENAME");
uint32_t SETDEVICEGROUP_HASH = simple_hash("SETDEVICEGROUP");
uint32_t SETCLASSNAME_HASH = simple_hash("SETCLASSNAME");
uint32_t WORKTIME_HASH = simple_hash("WORKTIME");
#ifdef DETACH_PLUGINS_FROM_NETDATA
uint32_t MYPID_HASH = simple_hash("MYPID");
#endif
uint32_t first_hash;
for(;1;) {
if(unlikely(netdata_exit)) break;
FILE *fp;
struct tc_device *device = NULL;
struct tc_class *class = NULL;
snprintf(buffer, TC_LINE_MAX, "exec %s %d", config_get("plugin:tc", "script to run to get tc values", PLUGINS_DIR "/tc-qos-helper.sh"), rrd_update_every);
debug(D_TC_LOOP, "executing '%s'", buffer);
// fp = popen(buffer, "r");
fp = mypopen(buffer, &tc_child_pid);
if(!fp) {
error("TC: Cannot popen(\"%s\", \"r\").", buffer);
pthread_exit(NULL);
return NULL;
}
while(fgets(buffer, TC_LINE_MAX, fp) != NULL) {
if(unlikely(netdata_exit)) break;
buffer[TC_LINE_MAX] = '\0';
// debug(D_TC_LOOP, "TC: read '%s'", buffer);
tc_split_words(buffer, words, MAX_WORDS);
if(!words[0] || !*words[0]) {
// debug(D_TC_LOOP, "empty line");
continue;
}
// else debug(D_TC_LOOP, "First word is '%s'", words[0]);
first_hash = simple_hash(words[0]);
if(device && first_hash == CLASS_HASH && strcmp(words[0], "class") == 0) {
// debug(D_TC_LOOP, "CLASS line on class id='%s', parent='%s', parentid='%s', leaf='%s', leafid='%s'", words[2], words[3], words[4], words[5], words[6]);
// clear the last class
class = NULL;
// words[1] : class type
// words[2] : N:XX
// words[3] : parent or root
if(words[1] && words[2] && words[3] && (strcmp(words[3], "parent") == 0 || strcmp(words[3], "root") == 0)) {
//char *type = words[1]; // the class: htb, fq_codel, etc
// we are only interested for HTB classes
//if(strcmp(type, "htb") != 0) continue;
char *id = words[2]; // the class major:minor
char *parent = words[3]; // 'parent' or 'root'
char *parentid = words[4]; // the parent's id
char *leaf = words[5]; // 'leaf'
char *leafid = words[6]; // leafid
if(strcmp(parent, "root") == 0) {
parentid = NULL;
leafid = NULL;
}
else if(!leaf || strcmp(leaf, "leaf") != 0)
leafid = NULL;
char leafbuf[20 + 1] = "";
if(leafid && leafid[strlen(leafid) - 1] == ':') {
strncpy(leafbuf, leafid, 20 - 1);
strcat(leafbuf, "1");
leafid = leafbuf;
}
class = tc_class_add(device, id, parentid, leafid);
}
}
else if(first_hash == END_HASH && strcmp(words[0], "END") == 0) {
// debug(D_TC_LOOP, "END line");
if(device) {
if(pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, NULL) != 0)
error("Cannot set pthread cancel state to DISABLE.");
tc_device_commit(device);
// tc_device_free(device);
device = NULL;
class = NULL;
if(pthread_setcancelstate(PTHREAD_CANCEL_ENABLE, NULL) != 0)
error("Cannot set pthread cancel state to ENABLE.");
}
}
else if(first_hash == BEGIN_HASH && strcmp(words[0], "BEGIN") == 0) {
// debug(D_TC_LOOP, "BEGIN line on device '%s'", words[1]);
if(device) {
// tc_device_free(device);
device = NULL;
class = NULL;
}
if(words[1] && *words[1]) {
device = tc_device_create(words[1]);
class = NULL;
}
}
else if(device && class && first_hash == SENT_HASH && strcmp(words[0], "Sent") == 0) {
// debug(D_TC_LOOP, "SENT line '%s'", words[1]);
if(words[1] && *words[1]) {
class->bytes = strtoull(words[1], NULL, 10);
class->updated = 1;
}
if(words[3] && *words[3])
class->packets = strtoull(words[3], NULL, 10);
if(words[6] && *words[6])
class->dropped = strtoull(words[6], NULL, 10);
if(words[8] && *words[8])
class->overlimits = strtoull(words[8], NULL, 10);
if(words[10] && *words[10])
class->requeues = strtoull(words[8], NULL, 10);
}
else if(device && class && class->updated && first_hash == LENDED_HASH && strcmp(words[0], "lended:") == 0) {
// debug(D_TC_LOOP, "LENDED line '%s'", words[1]);
if(words[1] && *words[1])
class->lended = strtoull(words[1], NULL, 10);
if(words[3] && *words[3])
class->borrowed = strtoull(words[3], NULL, 10);
if(words[5] && *words[5])
class->giants = strtoull(words[5], NULL, 10);
}
else if(device && class && class->updated && first_hash == TOKENS_HASH && strcmp(words[0], "tokens:") == 0) {
// debug(D_TC_LOOP, "TOKENS line '%s'", words[1]);
if(words[1] && *words[1])
class->tokens = strtoull(words[1], NULL, 10);
if(words[3] && *words[3])
class->ctokens = strtoull(words[3], NULL, 10);
}
else if(device && first_hash == SETDEVICENAME_HASH && strcmp(words[0], "SETDEVICENAME") == 0) {
// debug(D_TC_LOOP, "SETDEVICENAME line '%s'", words[1]);
if(words[1] && *words[1]) tc_device_set_device_name(device, words[1]);
}
else if(device && first_hash == SETDEVICEGROUP_HASH && strcmp(words[0], "SETDEVICEGROUP") == 0) {
// debug(D_TC_LOOP, "SETDEVICEGROUP line '%s'", words[1]);
if(words[1] && *words[1]) tc_device_set_device_family(device, words[1]);
}
else if(device && first_hash == SETCLASSNAME_HASH && strcmp(words[0], "SETCLASSNAME") == 0) {
// debug(D_TC_LOOP, "SETCLASSNAME line '%s' '%s'", words[1], words[2]);
char *id = words[1];
char *path = words[2];
if(id && *id && path && *path) tc_device_set_class_name(device, id, path);
}
else if(first_hash == WORKTIME_HASH && strcmp(words[0], "WORKTIME") == 0) {
// debug(D_TC_LOOP, "WORKTIME line '%s' '%s'", words[1], words[2]);
getrusage(RUSAGE_THREAD, &thread);
if(!stcpu) stcpu = rrdset_find("netdata.plugin_tc_cpu");
if(!stcpu) {
stcpu = rrdset_create("netdata", "plugin_tc_cpu", NULL, "tc.helper", NULL, "NetData TC CPU usage", "milliseconds/s", 135000, rrd_update_every, RRDSET_TYPE_STACKED);
rrddim_add(stcpu, "user", NULL, 1, 1000, RRDDIM_INCREMENTAL);
rrddim_add(stcpu, "system", NULL, 1, 1000, RRDDIM_INCREMENTAL);
}
else rrdset_next(stcpu);
rrddim_set(stcpu, "user" , thread.ru_utime.tv_sec * 1000000ULL + thread.ru_utime.tv_usec);
rrddim_set(stcpu, "system", thread.ru_stime.tv_sec * 1000000ULL + thread.ru_stime.tv_usec);
rrdset_done(stcpu);
if(!sttime) stcpu = rrdset_find("netdata.plugin_tc_time");
if(!sttime) {
sttime = rrdset_create("netdata", "plugin_tc_time", NULL, "tc.helper", NULL, "NetData TC script execution", "milliseconds/run", 135001, rrd_update_every, RRDSET_TYPE_AREA);
rrddim_add(sttime, "run_time", "run time", 1, 1, RRDDIM_ABSOLUTE);
}
else rrdset_next(sttime);
rrddim_set(sttime, "run_time", atoll(words[1]));
rrdset_done(sttime);
}
#ifdef DETACH_PLUGINS_FROM_NETDATA
else if(first_hash == MYPID_HASH && (strcmp(words[0], "MYPID") == 0)) {
// debug(D_TC_LOOP, "MYPID line '%s'", words[1]);
char *id = words[1];
pid_t pid = atol(id);
if(pid) tc_child_pid = pid;
debug(D_TC_LOOP, "TC: Child PID is %d.", tc_child_pid);
}
#endif
//else {
// debug(D_TC_LOOP, "IGNORED line");
//}
}
mypclose(fp, tc_child_pid);
tc_child_pid = 0;
if(device) {
// tc_device_free(device);
device = NULL;
class = NULL;
}
if(netdata_exit) {
tc_device_free_all();
pthread_exit(NULL);
return NULL;
}
sleep((unsigned int) rrd_update_every);
}
pthread_exit(NULL);
return NULL;
}
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