#include #include #include #include #include #include #include #include "triton.h" #include "events.h" #include "ppp.h" #include "ipdb.h" #include "cli.h" #include "utils.h" #include "log.h" #include "memdebug.h" void core_restart(int); static int show_stat_exec(const char *cmd, char * const *fields, int fields_cnt, void *client) { struct timespec ts; time_t dt; int day,hour; char statm_fname[128]; FILE *f; unsigned long vmsize = 0, vmrss = 0; unsigned long page_size_kb = sysconf(_SC_PAGE_SIZE) / 1024; #ifdef MEMDEBUG struct mallinfo mi = mallinfo(); #endif sprintf(statm_fname, "/proc/%i/statm", getpid()); f = fopen(statm_fname, "r"); if (f) { fscanf(f, "%lu %lu", &vmsize, &vmrss); fclose(f); } clock_gettime(CLOCK_MONOTONIC, &ts); dt = ts.tv_sec - triton_stat.start_time; day = dt / (60 * 60 * 24); dt %= 60 * 60 * 24; hour = dt / (60 * 60); dt %= 60 * 60; cli_sendv(client, "uptime: %i.%02i:%02lu:%02lu\r\n", day, hour, dt / 60, dt % 60); cli_sendv(client, "cpu: %i%%\r\n", triton_stat.cpu); #ifdef MEMDEBUG cli_send(client, "memory:\r\n"); cli_sendv(client, " rss/virt: %lu/%lu kB\r\n", vmrss * page_size_kb, vmsize * page_size_kb); cli_sendv(client, " arena: %i kB\r\n", mi.arena / 1024); cli_sendv(client, " mmaped: %i kB\r\n", mi.hblkhd / 1024); cli_sendv(client, " uordblks: %i kB\r\n", mi.uordblks / 1024); cli_sendv(client, " fordblks: %i kB\r\n", mi.fordblks / 1024); #else cli_sendv(client, "mem(rss/virt): %lu/%lu kB\r\n", vmrss * page_size_kb, vmsize * page_size_kb); #endif cli_send(client, "core:\r\n"); cli_sendv(client, " mempool_allocated: %u\r\n", triton_stat.mempool_allocated); cli_sendv(client, " mempool_available: %u\r\n", triton_stat.mempool_available); cli_sendv(client, " thread_count: %u\r\n", triton_stat.thread_count); cli_sendv(client, " thread_active: %u\r\n", triton_stat.thread_active); cli_sendv(client, " context_count: %u\r\n", triton_stat.context_count); cli_sendv(client, " context_sleeping: %u\r\n", triton_stat.context_sleeping); cli_sendv(client, " context_pending: %u\r\n", triton_stat.context_pending); cli_sendv(client, " md_handler_count: %u\r\n", triton_stat.md_handler_count); cli_sendv(client, " md_handler_pending: %u\r\n", triton_stat.md_handler_pending); cli_sendv(client, " timer_count: %u\r\n", triton_stat.timer_count); cli_sendv(client, " timer_pending: %u\r\n", triton_stat.timer_pending); //=========== cli_send(client, "sessions:\r\n"); cli_sendv(client, " starting: %u\r\n", ap_session_stat.starting); cli_sendv(client, " active: %u\r\n", ap_session_stat.active); cli_sendv(client, " finishing: %u\r\n", ap_session_stat.finishing); return CLI_CMD_OK; } static void show_stat_help(char * const *fields, int fields_cnt, void *client) { cli_send(client, "show stat - shows various statistics information\r\n"); } //============================= static int exit_exec(const char *cmd, char * const *fields, int fields_cnt, void *client) { return CLI_CMD_EXIT; } static void exit_help(char * const *fields, int fields_cnt, void *client) { cli_send(client, "exit - exit cli\r\n"); } //============================= static void __terminate_soft(struct ap_session *ses) { ap_session_terminate(ses, TERM_NAS_REQUEST, 0); } static void __terminate_hard(struct ap_session *ses) { ap_session_terminate(ses, TERM_NAS_REQUEST, 1); } static int terminate_exec1(char * const *f, int f_cnt, void *cli) { struct ap_session *ses; int hard = 0; pcre *re; const char *pcre_err; int pcre_offset; if (f_cnt == 5) { if (!strcmp(f[4], "hard")) hard = 1; else if (strcmp(f[4], "soft")) return CLI_CMD_SYNTAX; } else if (f_cnt != 4) return CLI_CMD_SYNTAX; re = pcre_compile2(f[3], 0, NULL, &pcre_err, &pcre_offset, NULL); if (!re) { cli_sendv(cli, "match: %s at %i\r\n", pcre_err, pcre_offset); return CLI_CMD_OK; } pthread_rwlock_rdlock(&ses_lock); list_for_each_entry(ses, &ses_list, entry) { if (!ses->username) continue; if (pcre_exec(re, NULL, ses->username, strlen(ses->username), 0, 0, NULL, 0) < 0) continue; if (hard) triton_context_call(ses->ctrl->ctx, (triton_event_func)__terminate_hard, ses); else triton_context_call(ses->ctrl->ctx, (triton_event_func)__terminate_soft, ses); } pthread_rwlock_unlock(&ses_lock); pcre_free(re); return CLI_CMD_OK; } static int terminate_exec2(int key, char * const *f, int f_cnt, void *cli) { struct ap_session *ses; int hard = 0; in_addr_t ipaddr = 0; if (f_cnt == 4) { if (!strcmp(f[3], "hard")) hard = 1; else if (strcmp(f[3], "soft")) return CLI_CMD_SYNTAX; } else if (f_cnt != 3) return CLI_CMD_SYNTAX; if (key == 1) ipaddr = inet_addr(f[2]); pthread_rwlock_rdlock(&ses_lock); list_for_each_entry(ses, &ses_list, entry) { switch (key) { case 0: if (!ses->username || strcmp(ses->username, f[2])) continue; break; case 1: if (ses->ipv4 && ses->ipv4->peer_addr != ipaddr) continue; break; case 2: if (strcmp(ses->ctrl->calling_station_id, f[2])) continue; break; case 3: if (strcmp(ses->sessionid, f[2])) continue; break; case 4: if (strcmp(ses->ifname, f[2])) continue; break; } if (hard) triton_context_call(ses->ctrl->ctx, (triton_event_func)__terminate_hard, ses); else triton_context_call(ses->ctrl->ctx, (triton_event_func)__terminate_soft, ses); break; } pthread_rwlock_unlock(&ses_lock); return CLI_CMD_OK; } static int terminate_exec(const char *cmd, char * const *fields, int fields_cnt, void *client) { struct ap_session *ses; int hard = 0; if (fields_cnt == 1) return CLI_CMD_SYNTAX; if (!strcmp(fields[1], "match") && fields_cnt > 3 && !strcmp(fields[2], "username")) return terminate_exec1(fields, fields_cnt, client); else if (!strcmp(fields[1], "username")) return terminate_exec2(0, fields, fields_cnt, client); else if (!strcmp(fields[1], "ip")) return terminate_exec2(1, fields, fields_cnt, client); else if (!strcmp(fields[1], "csid")) return terminate_exec2(2, fields, fields_cnt, client); else if (!strcmp(fields[1], "sid")) return terminate_exec2(3, fields, fields_cnt, client); else if (!strcmp(fields[1], "if")) return terminate_exec2(4, fields, fields_cnt, client); else if (strcmp(fields[1], "all")) return CLI_CMD_SYNTAX; if (fields_cnt == 3) { if (!strcmp(fields[2], "hard")) hard = 1; else if (strcmp(fields[2], "soft")) return CLI_CMD_SYNTAX; } else if (fields_cnt != 2) return CLI_CMD_SYNTAX; pthread_rwlock_rdlock(&ses_lock); list_for_each_entry(ses, &ses_list, entry) { if (hard) triton_context_call(ses->ctrl->ctx, (triton_event_func)__terminate_hard, ses); else triton_context_call(ses->ctrl->ctx, (triton_event_func)__terminate_soft, ses); } pthread_rwlock_unlock(&ses_lock); return CLI_CMD_OK; } static void terminate_help(char * const *fields, int fields_cnt, void *client) { cli_send(client, "terminate if [soft|hard]- terminate session by interface name\r\n"); cli_send(client, "\t[match] username [soft|hard]- terminate session by username\r\n"); cli_send(client, "\tip [soft|hard]- terminate session by ip address\r\n"); cli_send(client, "\tcsid [soft|hard]- terminate session by calling station id\r\n"); cli_send(client, "\tsid [soft|hard]- terminate session by session id\r\n"); cli_send(client, "\tall [soft|hard]- terminate all sessions\r\n"); } //============================= static void shutdown_help(char * const *fields, int fields_cnt, void *client) { cli_send(client, "shutdown [soft|hard|cancel]- shutdown daemon\r\n"); cli_send(client, "\t\tdefault action - send termination signals to all clients and wait everybody disconnects\r\n"); cli_send(client, "\t\tsoft - wait until all clients disconnects, don't accept new connections\r\n"); cli_send(client, "\t\thard - shutdown now, don't wait anything\r\n"); cli_send(client, "\t\tcancel - cancel 'shutdown soft' and return to normal operation\r\n"); } static void __terminate_soft2(struct ap_session *ses) { ap_session_terminate(ses, TERM_NAS_REBOOT, 0); } static void __terminate_hard2(struct ap_session *ses) { ap_session_terminate(ses, TERM_NAS_REBOOT, 1); } static void terminate_all_sessions(int hard) { struct ap_session *ses; pthread_rwlock_rdlock(&ses_lock); list_for_each_entry(ses, &ses_list, entry) { if (hard) triton_context_call(ses->ctrl->ctx, (triton_event_func)__terminate_hard2, ses); else triton_context_call(ses->ctrl->ctx, (triton_event_func)__terminate_soft2, ses); } pthread_rwlock_unlock(&ses_lock); } static int shutdown_exec(const char *cmd, char * const *f, int f_cnt, void *cli) { int hard = 0; if (f_cnt == 2) { if (!strcmp(f[1], "soft")) { ap_shutdown_soft(NULL, 0); return CLI_CMD_OK; } else if (!strcmp(f[1], "hard")) hard = 1; else if (!strcmp(f[1], "cancel")) { ap_shutdown = 0; return CLI_CMD_OK; } else return CLI_CMD_SYNTAX; } ap_shutdown_soft(NULL, 0); terminate_all_sessions(hard); return CLI_CMD_OK; } //========================== static int conf_reload_res; static struct triton_context_t *conf_reload_ctx; static void conf_reload_notify(int r) { if (!r) triton_event_fire(EV_CONFIG_RELOAD, NULL); conf_reload_res = r; triton_context_wakeup(conf_reload_ctx); } static int reload_exec(const char *cmd, char * const *f, int f_cnt, void *cli) { if (f_cnt == 1) { conf_reload_ctx = triton_context_self(); triton_conf_reload(conf_reload_notify); triton_context_schedule(); if (conf_reload_res) cli_send(cli, "failed\r\n"); return CLI_CMD_OK; } else return CLI_CMD_SYNTAX; } static void reload_help(char * const *fields, int fields_cnt, void *client) { cli_send(client, "reload - reload config file\r\n"); } //========================== static int restart_exec(const char *cmd, char * const *f, int f_cnt, void *cli) { if (f_cnt == 2) { #ifdef USE_BACKUP if (strcmp(f[1], "soft") == 0) core_restart(1); else #endif if (strcmp(f[1], "hard") == 0) { terminate_all_sessions(1); core_restart(0); return CLI_CMD_OK; } else return CLI_CMD_SYNTAX; } else if (f_cnt == 1) core_restart(0); else return CLI_CMD_SYNTAX; core_restart(0); return CLI_CMD_OK; } static void restart_help(char * const *fields, int fields_cnt, void *client) { #ifdef USE_BACKUP cli_send(client, "restart [soft|hard] - restart daemon\r\n"); cli_send(client, "\t\tsoft - restart daemon softly, e.g. keep existing connections if session backup is enabled (default)\r\n"); #else cli_send(client, "restart [hard] - restart daemon\r\n"); #endif cli_send(client, "\t\thard - restart immediatly\r\n"); cli_send(client, "\t\tdefault action - terminate all connections then restart\r\n"); } static void init(void) { cli_register_simple_cmd2(show_stat_exec, show_stat_help, 2, "show", "stat"); cli_register_simple_cmd2(terminate_exec, terminate_help, 1, "terminate"); cli_register_simple_cmd2(reload_exec, reload_help, 1, "reload"); cli_register_simple_cmd2(restart_exec, restart_help, 1, "restart"); cli_register_simple_cmd2(shutdown_exec, shutdown_help, 1, "shutdown"); cli_register_simple_cmd2(exit_exec, exit_help, 1, "exit"); } DEFINE_INIT(12, init);