#include #include #include #include #include #include #include #include #include #include "triton.h" #include "events.h" #include "log.h" #include "ppp.h" #include "cli.h" #ifdef RADIUS #include "radius.h" #endif #include "memdebug.h" #include "shaper.h" #include "tc_core.h" #define ATTR_UP 1 #define ATTR_DOWN 2 static int conf_verbose = 0; #ifdef RADIUS static int conf_attr_down = 11; //Filter-Id static int conf_attr_up = 11; //Filter-Id static int conf_vendor = 0; #endif double conf_down_burst_factor = 0.1; double conf_up_burst_factor = 1; double conf_latency = 0.05; int conf_mpu = 0; int conf_quantum = 1500; int conf_r2q = 10; int conf_ifb_ifindex; int conf_up_limiter = LIM_POLICE; int conf_down_limiter = LIM_TBF; static int temp_down_speed; static int temp_up_speed; static pthread_rwlock_t shaper_lock = PTHREAD_RWLOCK_INITIALIZER; static LIST_HEAD(shaper_list); struct time_range_pd_t; struct shaper_pd_t { struct list_head entry; struct ppp_t *ppp; struct ppp_pd_t pd; int temp_down_speed; int temp_up_speed; int down_speed; int up_speed; struct list_head tr_list; struct time_range_pd_t *cur_tr; }; struct time_range_pd_t { struct list_head entry; int id; int down_speed; int down_burst; int up_speed; int up_burst; }; struct time_range_t { struct list_head entry; int id; struct triton_timer_t begin; struct triton_timer_t end; }; static void *pd_key; static LIST_HEAD(time_range_list); static int time_range_id = 0; static void shaper_ctx_close(struct triton_context_t *); static struct triton_context_t shaper_ctx = { .close = shaper_ctx_close, .before_switch = log_switch, }; static struct shaper_pd_t *find_pd(struct ppp_t *ppp, int create) { struct ppp_pd_t *pd; struct shaper_pd_t *spd; list_for_each_entry(pd, &ppp->pd_list, entry) { if (pd->key == &pd_key) { spd = container_of(pd, typeof(*spd), pd); return spd; } } if (create) { spd = _malloc(sizeof(*spd)); if (!spd) { log_emerg("shaper: out of memory\n"); return NULL; } memset(spd, 0, sizeof(*spd)); spd->ppp = ppp; list_add_tail(&spd->pd.entry, &ppp->pd_list); spd->pd.key = &pd_key; INIT_LIST_HEAD(&spd->tr_list); pthread_rwlock_wrlock(&shaper_lock); list_add_tail(&spd->entry, &shaper_list); pthread_rwlock_unlock(&shaper_lock); return spd; } return NULL; } static void parse_string(const char *str, int dir, int *speed, int *burst, int *tr_id) { char *endptr; long int val; unsigned int n1, n2, n3; if (strstr(str, "lcp:interface-config#1=rate-limit output access-group") == str) { if (dir == ATTR_DOWN) { val = sscanf(str, "lcp:interface-config#1=rate-limit output access-group %i %u %u %u conform-action transmit exceed-action drop", tr_id, &n1, &n2, &n3); if (val == 4) { *speed = n1/1000; *burst = n2; } } return; } else if (strstr(str, "lcp:interface-config#1=rate-limit input access-group") == str) { if (dir == ATTR_UP) { val = sscanf(str, "lcp:interface-config#1=rate-limit input access-group %i %u %u %u conform-action transmit exceed-action drop", tr_id, &n1, &n2, &n3); if (val == 4) { *speed = n1/1000; *burst = n2; } } return; } else if (strstr(str, "lcp:interface-config#1=rate-limit output") == str) { if (dir == ATTR_DOWN) { val = sscanf(str, "lcp:interface-config#1=rate-limit output %u %u %u conform-action transmit exceed-action drop", &n1, &n2, &n3); if (val == 3) { *speed = n1/1000; *burst = n2; } } return; } else if (strstr(str, "lcp:interface-config#1=rate-limit input") == str) { if (dir == ATTR_UP) { val = sscanf(str, "lcp:interface-config#1=rate-limit input %u %u %u conform-action transmit exceed-action drop", &n1, &n2, &n3); if (val == 3) { *speed = n1/1000; *burst = n2; } } return; } val = strtol(str, &endptr, 10); if (*endptr == 0) { *speed = val; return; } if (*endptr == ',') { *tr_id = val; val = strtol(endptr + 1, &endptr, 10); } if (*endptr == 0) { *speed = val; return; } else { if (*endptr == '/' || *endptr == '\\' || *endptr == ':') { if (dir == ATTR_DOWN) *speed = val; else *speed = strtol(endptr + 1, &endptr, 10); } } } static struct time_range_pd_t *get_tr_pd(struct shaper_pd_t *pd, int id) { struct time_range_pd_t *tr_pd; list_for_each_entry(tr_pd, &pd->tr_list, entry) { if (tr_pd->id == id) return tr_pd; } tr_pd = _malloc(sizeof(*tr_pd)); memset(tr_pd, 0, sizeof(*tr_pd)); tr_pd->id = id; if (id == time_range_id || id == 0) pd->cur_tr = tr_pd; list_add_tail(&tr_pd->entry, &pd->tr_list); return tr_pd; } static void clear_tr_pd(struct shaper_pd_t *pd) { struct time_range_pd_t *tr_pd; while (!list_empty(&pd->tr_list)) { tr_pd = list_entry(pd->tr_list.next, typeof(*tr_pd), entry); list_del(&tr_pd->entry); _free(tr_pd); } } #ifdef RADIUS static void parse_attr(struct rad_attr_t *attr, int dir, int *speed, int *burst, int *tr_id) { if (attr->attr->type == ATTR_TYPE_STRING) parse_string(attr->val.string, dir, speed, burst, tr_id); else if (attr->attr->type == ATTR_TYPE_INTEGER) *speed = attr->val.integer; } static void check_radius_attrs(struct shaper_pd_t *pd, struct rad_packet_t *pack) { struct rad_attr_t *attr; int down_speed, down_burst; int up_speed, up_burst; int tr_id; struct time_range_pd_t *tr_pd; list_for_each_entry(attr, &pack->attrs, entry) { if (attr->vendor && attr->vendor->id != conf_vendor) continue; if (!attr->vendor && conf_vendor) continue; if (attr->attr->id != conf_attr_down && attr->attr->id != conf_attr_up) continue; tr_id = 0; down_speed = 0; down_burst = 0; up_speed = 0; up_burst = 0; if (attr->attr->id == conf_attr_down) parse_attr(attr, ATTR_DOWN, &down_speed, &down_burst, &tr_id); if (attr->attr->id == conf_attr_up) parse_attr(attr, ATTR_UP, &up_speed, &up_burst, &tr_id); tr_pd = get_tr_pd(pd, tr_id); if (down_speed) tr_pd->down_speed = down_speed; if (down_burst) tr_pd->down_burst = down_burst; if (up_speed) tr_pd->up_speed = up_speed; if (up_burst) tr_pd->up_burst = up_burst; } } static void ev_radius_access_accept(struct ev_radius_t *ev) { int down_speed, down_burst; int up_speed, up_burst; struct shaper_pd_t *pd = find_pd(ev->ppp, 1); if (!pd) return; check_radius_attrs(pd, ev->reply); if (temp_down_speed || temp_up_speed) { pd->temp_down_speed = temp_down_speed; pd->temp_up_speed = temp_up_speed; pd->down_speed = temp_down_speed; pd->up_speed = temp_up_speed; down_speed = temp_down_speed; up_speed = temp_up_speed; down_burst = 0; up_burst = 0; } else { if (!pd->cur_tr) return; pd->down_speed = pd->cur_tr->down_speed; pd->up_speed = pd->cur_tr->up_speed; down_speed = pd->cur_tr->down_speed; up_speed = pd->cur_tr->up_speed; down_burst = pd->cur_tr->down_burst; up_burst = pd->cur_tr->up_burst; } if (down_speed > 0 && up_speed > 0) { if (!install_limiter(ev->ppp, down_speed, down_burst, up_speed, up_burst)) { if (conf_verbose) log_ppp_info2("shaper: installed shaper %i/%i (Kbit)\n", down_speed, up_speed); } } } static void ev_radius_coa(struct ev_radius_t *ev) { struct shaper_pd_t *pd = find_pd(ev->ppp, 0); if (!pd) { ev->res = -1; return; } clear_tr_pd(pd); check_radius_attrs(pd, ev->request); if (pd->temp_down_speed || pd->temp_up_speed) return; if (!pd->cur_tr) { if (pd->down_speed || pd->up_speed) { pd->down_speed = 0; pd->up_speed = 0; if (conf_verbose) log_ppp_info2("shaper: removed shaper\n"); remove_limiter(ev->ppp); } return; } if (pd->down_speed != pd->cur_tr->down_speed || pd->up_speed != pd->cur_tr->up_speed) { pd->down_speed = pd->cur_tr->down_speed; pd->up_speed = pd->cur_tr->up_speed; if (remove_limiter(ev->ppp)) { ev->res = -1; return; } if (pd->down_speed > 0 || pd->up_speed > 0) { if (install_limiter(ev->ppp, pd->cur_tr->down_speed, pd->cur_tr->down_burst, pd->cur_tr->up_speed, pd->cur_tr->up_burst)) { ev->res= -1; return; } else { if (conf_verbose) log_ppp_info2("shaper: changed shaper %i/%i (Kbit)\n", pd->down_speed, pd->up_speed); } } else { if (conf_verbose) log_ppp_info2("shaper: removed shaper\n"); } } } #endif static void ev_shaper(struct ev_shaper_t *ev) { struct shaper_pd_t *pd = find_pd(ev->ppp, 1); int down_speed = 0, down_burst = 0; int up_speed = 0, up_burst = 0; int tr_id = 0; struct time_range_pd_t *tr_pd; if (!pd) return; parse_string(ev->val, ATTR_DOWN, &down_speed, &down_burst, &tr_id); parse_string(ev->val, ATTR_UP, &up_speed, &up_burst, &tr_id); tr_pd = get_tr_pd(pd, tr_id); tr_pd->down_speed = down_speed; tr_pd->down_burst = down_burst; tr_pd->up_speed = up_speed; tr_pd->up_burst = up_burst; if (temp_down_speed || temp_up_speed) { pd->temp_down_speed = temp_down_speed; pd->temp_up_speed = temp_up_speed; pd->down_speed = temp_down_speed; pd->up_speed = temp_up_speed; down_speed = temp_down_speed; up_speed = temp_up_speed; down_burst = 0; up_burst = 0; } else { if (!pd->cur_tr) return; pd->down_speed = down_speed; pd->up_speed = up_speed; } if (pd->down_speed > 0 && pd->up_speed > 0) { if (!install_limiter(ev->ppp, down_speed, down_burst, up_speed, up_burst)) { if (conf_verbose) log_ppp_info2("shaper: installed shaper %i/%i (Kbit)\n", down_speed, up_speed); } } } static void ev_ppp_pre_up(struct ppp_t *ppp) { struct shaper_pd_t *pd = find_pd(ppp, 1); if (!pd) return; if (temp_down_speed || temp_up_speed) { pd->temp_down_speed = temp_down_speed; pd->temp_up_speed = temp_up_speed; pd->down_speed = temp_down_speed; pd->up_speed = temp_up_speed; if (!install_limiter(ppp, temp_down_speed, 0, temp_up_speed, 0)) { if (conf_verbose) log_ppp_info2("shaper: installed shaper %i/%i (Kbit)\n", temp_down_speed, temp_up_speed); } } } static void ev_ppp_finishing(struct ppp_t *ppp) { struct shaper_pd_t *pd = find_pd(ppp, 0); if (pd) { clear_tr_pd(pd); pthread_rwlock_wrlock(&shaper_lock); list_del(&pd->entry); pthread_rwlock_unlock(&shaper_lock); list_del(&pd->pd.entry); if (pd->down_speed || pd->up_speed) remove_limiter(ppp); _free(pd); } } static void shaper_change_help(char * const *f, int f_cnt, void *cli) { cli_send(cli, "shaper change [temp] - change shaper on specified interface, if temp is set then previous settings may be restored later by 'shaper restore'\r\n"); cli_send(cli, "shaper change all [temp] - change shaper on all interfaces, if temp is set also new interfaces will have specified shaper value\r\n"); } static void shaper_change(struct shaper_pd_t *pd) { if (pd->down_speed || pd->up_speed) remove_limiter(pd->ppp); if (pd->temp_down_speed || pd->temp_up_speed) { pd->down_speed = pd->temp_down_speed; pd->up_speed = pd->temp_up_speed; install_limiter(pd->ppp, pd->temp_down_speed, 0, pd->temp_up_speed, 0); } else if (pd->cur_tr->down_speed || pd->cur_tr->up_speed) { pd->down_speed = pd->cur_tr->down_speed; pd->up_speed = pd->cur_tr->up_speed; install_limiter(pd->ppp, pd->cur_tr->down_speed, pd->cur_tr->down_burst, pd->cur_tr->up_speed, pd->cur_tr->up_burst); } else { pd->down_speed = 0; pd->up_speed = 0; } } static int shaper_change_exec(const char *cmd, char * const *f, int f_cnt, void *cli) { struct shaper_pd_t *pd; int down_speed = 0, up_speed = 0, down_burst = 0, up_burst = 0; int all = 0, temp = 0, found = 0; int tr_id; if (f_cnt < 4) return CLI_CMD_SYNTAX; parse_string(f[3], ATTR_DOWN, &down_speed, &down_burst, &tr_id); parse_string(f[3], ATTR_UP, &up_speed, &up_burst, &tr_id); //if (down_speed == 0 || up_speed == 0) // return CLI_CMD_INVAL; if (!strcmp(f[2], "all")) all = 1; if (f_cnt == 5) { if (strcmp(f[4], "temp")) return CLI_CMD_SYNTAX; else temp = 1; } if (all && temp) { temp_down_speed = down_speed; temp_up_speed = up_speed; } pthread_rwlock_rdlock(&shaper_lock); list_for_each_entry(pd, &shaper_list, entry) { if (all || !strcmp(f[2], pd->ppp->ifname)) { if (temp) { pd->temp_down_speed = down_speed; pd->temp_up_speed = up_speed; } else { pd->temp_down_speed = 0; pd->temp_up_speed = 0; if (!pd->cur_tr) pd->cur_tr = get_tr_pd(pd, 0); pd->cur_tr->down_speed = down_speed; pd->cur_tr->down_burst = down_burst; pd->cur_tr->up_speed = up_speed; pd->cur_tr->up_burst = up_burst; } triton_context_call(pd->ppp->ctrl->ctx, (triton_event_func)shaper_change, pd); if (!all) { found = 1; break; } } } pthread_rwlock_unlock(&shaper_lock); if (!all && !found) cli_send(cli, "not found\r\n"); return CLI_CMD_OK; } static void shaper_restore_help(char * const *f, int f_cnt, void *cli) { cli_send(cli, "shaper restore - restores shaper settings on specified interface made by 'shaper change' command with 'temp' flag\r\n"); cli_send(cli, "shaper restore all - restores shaper settings on all interfaces made by 'shaper change' command with 'temp' flag\r\n"); } static void shaper_restore(struct shaper_pd_t *pd) { remove_limiter(pd->ppp); if (pd->cur_tr) { pd->down_speed = pd->cur_tr->down_speed; pd->up_speed = pd->cur_tr->up_speed; install_limiter(pd->ppp, pd->cur_tr->down_speed, pd->cur_tr->down_burst, pd->cur_tr->up_speed, pd->cur_tr->up_burst); } else { pd->down_speed = 0; pd->up_speed = 0; } } static int shaper_restore_exec(const char *cmd, char * const *f, int f_cnt, void *cli) { struct shaper_pd_t *pd; int all, found = 0;; if (f_cnt != 3) return CLI_CMD_SYNTAX; if (strcmp(f[2], "all")) all = 0; else all = 1; pthread_rwlock_rdlock(&shaper_lock); if (all) { temp_down_speed = 0; temp_up_speed = 0; } list_for_each_entry(pd, &shaper_list, entry) { if (!pd->temp_down_speed) continue; if (all || !strcmp(f[2], pd->ppp->ifname)) { pd->temp_down_speed = 0; pd->temp_up_speed = 0; triton_context_call(pd->ppp->ctrl->ctx, (triton_event_func)shaper_restore, pd); if (!all) { found = 1; break; } } } pthread_rwlock_unlock(&shaper_lock); if (!all && !found) cli_send(cli, "not found\r\n"); return CLI_CMD_OK; } static void print_rate(const struct ppp_t *ppp, char *buf) { struct shaper_pd_t *pd = find_pd((struct ppp_t *)ppp, 0); if (pd && (pd->down_speed || pd->up_speed)) sprintf(buf, "%i/%i", pd->down_speed, pd->up_speed); else *buf = 0; } static void shaper_ctx_close(struct triton_context_t *ctx) { struct time_range_t *r; while (!list_empty(&time_range_list)) { r = list_entry(time_range_list.next, typeof(*r), entry); list_del(&r->entry); if (r->begin.tpd) triton_timer_del(&r->begin); if (r->end.tpd) triton_timer_del(&r->end); _free(r); } triton_context_unregister(ctx); } static void update_shaper_tr(struct shaper_pd_t *pd) { struct time_range_pd_t *tr; if (pd->ppp->terminating) return; list_for_each_entry(tr, &pd->tr_list, entry) { if (tr->id != time_range_id) continue; pd->cur_tr = tr; break; } if (pd->temp_down_speed || pd->temp_up_speed) return; if (pd->down_speed || pd->up_speed) { if (pd->cur_tr && pd->down_speed == pd->cur_tr->down_speed && pd->up_speed == pd->cur_tr->up_speed) return; remove_limiter(pd->ppp); } if (pd->cur_tr && (pd->cur_tr->down_speed || pd->cur_tr->up_speed)) { pd->down_speed = pd->cur_tr->down_speed; pd->up_speed = pd->cur_tr->up_speed; if (!install_limiter(pd->ppp, pd->cur_tr->down_speed, pd->cur_tr->down_burst, pd->cur_tr->up_speed, pd->cur_tr->up_burst)) { if (conf_verbose) log_ppp_info2("shaper: changed shaper %i/%i (Kbit)\n", pd->cur_tr->down_speed, pd->cur_tr->up_speed); } } else if (conf_verbose) log_ppp_info2("shaper: removed shaper\n"); } static void time_range_begin_timer(struct triton_timer_t *t) { struct time_range_t *tr = container_of(t, typeof(*tr), begin); struct shaper_pd_t *pd; time_range_id = tr->id; log_debug("shaper: time_range_begin_timer: id=%i\n", time_range_id); pthread_rwlock_rdlock(&shaper_lock); list_for_each_entry(pd, &shaper_list, entry) triton_context_call(pd->ppp->ctrl->ctx, (triton_event_func)update_shaper_tr, pd); pthread_rwlock_unlock(&shaper_lock); } static void time_range_end_timer(struct triton_timer_t *t) { struct shaper_pd_t *pd; time_range_id = 0; log_debug("shaper: time_range_end_timer\n"); pthread_rwlock_rdlock(&shaper_lock); list_for_each_entry(pd, &shaper_list, entry) triton_context_call(pd->ppp->ctrl->ctx, (triton_event_func)update_shaper_tr, pd); pthread_rwlock_unlock(&shaper_lock); } static struct time_range_t *parse_range(const char *val) { char *endptr; int id; time_t t; struct tm begin_tm, end_tm; struct time_range_t *r; id = strtol(val, &endptr, 10); if (*endptr != ',') return NULL; if (id <= 0) return NULL; time(&t); localtime_r(&t, &begin_tm); begin_tm.tm_sec = 1; end_tm = begin_tm; end_tm.tm_sec = 0; endptr = strptime(endptr + 1, "%H:%M", &begin_tm); if (*endptr != '-') return NULL; endptr = strptime(endptr + 1, "%H:%M", &end_tm); if (*endptr) return NULL; r = _malloc(sizeof(*r)); memset(r, 0, sizeof(*r)); r->id = id; r->begin.expire_tv.tv_sec = mktime(&begin_tm); r->begin.period = 24 * 60 * 60 * 1000; r->begin.expire = time_range_begin_timer; r->end.expire_tv.tv_sec = mktime(&end_tm); r->end.period = 24 * 60 * 60 * 1000; r->end.expire = time_range_end_timer; return r; } static void load_time_ranges(void) { struct conf_sect_t *s = conf_get_section("shaper"); struct conf_option_t *opt; struct time_range_t *r; time_t ts; if (!s) return; time(&ts); while (!list_empty(&time_range_list)) { r = list_entry(time_range_list.next, typeof(*r), entry); list_del(&r->entry); if (r->begin.tpd) triton_timer_del(&r->begin); if (r->end.tpd) triton_timer_del(&r->end); _free(r); } list_for_each_entry(opt, &s->items, entry) { if (strcmp(opt->name, "time-range")) continue; r = parse_range(opt->val); if (r) { list_add_tail(&r->entry, &time_range_list); if (r->begin.expire_tv.tv_sec > r->end.expire_tv.tv_sec) { if (ts >= r->begin.expire_tv.tv_sec && ts <= r->end.expire_tv.tv_sec + 24*60*60) time_range_begin_timer(&r->begin); } else { if (ts >= r->begin.expire_tv.tv_sec && ts <= r->end.expire_tv.tv_sec) time_range_begin_timer(&r->begin); } if (r->begin.expire_tv.tv_sec < ts) r->begin.expire_tv.tv_sec += 24 * 60 * 60; if (r->end.expire_tv.tv_sec < ts) r->end.expire_tv.tv_sec += 24 * 60 * 60; triton_timer_add(&shaper_ctx, &r->begin, 1); triton_timer_add(&shaper_ctx, &r->end, 1); } else log_emerg("shaper: failed to parse time-range '%s'\n", opt->val); } } #ifdef RADIUS static int parse_attr_opt(const char *opt) { struct rad_dict_attr_t *attr; struct rad_dict_vendor_t *vendor; if (conf_vendor) vendor = rad_dict_find_vendor_id(conf_vendor); else vendor = NULL; if (conf_vendor) { if (vendor) attr = rad_dict_find_vendor_attr(vendor, opt); else attr = NULL; }else attr = rad_dict_find_attr(opt); if (attr) return attr->id; return atoi(opt); } static int parse_vendor_opt(const char *opt) { struct rad_dict_vendor_t *vendor; vendor = rad_dict_find_vendor_name(opt); if (vendor) return vendor->id; return atoi(opt); } #endif static void load_config(void) { const char *opt; #ifdef RADIUS if (triton_module_loaded("radius")) { opt = conf_get_opt("shaper", "vendor"); if (opt) conf_vendor = parse_vendor_opt(opt); opt = conf_get_opt("shaper", "attr"); if (opt) { conf_attr_down = parse_attr_opt(opt); conf_attr_up = parse_attr_opt(opt); } opt = conf_get_opt("shaper", "attr-down"); if (opt) conf_attr_down = parse_attr_opt(opt); opt = conf_get_opt("shaper", "attr-up"); if (opt) conf_attr_up = parse_attr_opt(opt); if (conf_attr_up <= 0 || conf_attr_down <= 0) { log_emerg("shaper: incorrect attribute(s), tbf disabled...\n"); return; } } #endif opt = conf_get_opt("shaper", "burst-factor"); if (opt) { conf_down_burst_factor = strtod(opt, NULL); conf_up_burst_factor = conf_down_burst_factor * 10; } opt = conf_get_opt("shaper", "down-burst-factor"); if (opt) conf_down_burst_factor = strtod(opt, NULL); opt = conf_get_opt("shaper", "up-burst-factor"); if (opt) conf_up_burst_factor = strtod(opt, NULL); opt = conf_get_opt("shaper", "latency"); if (opt && atoi(opt) > 0) conf_latency = (double)atoi(opt) / 1000; opt = conf_get_opt("shaper", "mpu"); if (opt && atoi(opt) >= 0) conf_mpu = atoi(opt); opt = conf_get_opt("shaper", "r2q"); if (opt && atoi(opt) >= 0) conf_r2q = atoi(opt); opt = conf_get_opt("shaper", "quantum"); if (opt && atoi(opt) >= 0) conf_quantum = atoi(opt); opt = conf_get_opt("shaper", "up-limiter"); if (opt) { if (!strcmp(opt, "police")) conf_up_limiter = LIM_POLICE; else if (!strcmp(opt, "htb")) conf_up_limiter = LIM_HTB; else log_error("shaper: unknown upstream limiter '%s'\n", opt); } opt = conf_get_opt("shaper", "down-limiter"); if (opt) { if (!strcmp(opt, "tbf")) conf_down_limiter = LIM_TBF; else if (!strcmp(opt, "htb")) conf_down_limiter = LIM_HTB; else log_error("shaper: unknown downstream limiter '%s'\n", opt); } if (conf_up_limiter == LIM_HTB && !conf_ifb_ifindex) { log_warn("shaper: requested 'htb' upstream limiter, but no 'ifb' specified, falling back to police...\n"); conf_up_limiter = LIM_POLICE; } opt = conf_get_opt("shaper", "verbose"); if (opt && atoi(opt) > 0) conf_verbose = 1; triton_context_call(&shaper_ctx, (triton_event_func)load_time_ranges, NULL); } static void init(void) { const char *opt; tc_core_init(); opt = conf_get_opt("shaper", "ifb"); if (opt && init_ifb(opt)) _exit(0); triton_context_register(&shaper_ctx, NULL); triton_context_wakeup(&shaper_ctx); load_config(); #ifdef RADIUS if (triton_module_loaded("radius")) { triton_event_register_handler(EV_RADIUS_ACCESS_ACCEPT, (triton_event_func)ev_radius_access_accept); triton_event_register_handler(EV_RADIUS_COA, (triton_event_func)ev_radius_coa); } #endif triton_event_register_handler(EV_PPP_PRE_UP, (triton_event_func)ev_ppp_pre_up); triton_event_register_handler(EV_PPP_FINISHING, (triton_event_func)ev_ppp_finishing); //triton_event_register_handler(EV_CTRL_FINISHED, (triton_event_func)ev_ctrl_finished); triton_event_register_handler(EV_SHAPER, (triton_event_func)ev_shaper); triton_event_register_handler(EV_CONFIG_RELOAD, (triton_event_func)load_config); cli_register_simple_cmd2(shaper_change_exec, shaper_change_help, 2, "shaper", "change"); cli_register_simple_cmd2(shaper_restore_exec, shaper_restore_help, 2, "shaper", "restore"); cli_show_ses_register("rate-limit", "rate limit down-stream/up-stream (Kbit)", print_rate); } DEFINE_INIT(100, init);