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#include <stdio.h>
#include <time.h>
#include <string.h>
#include <unistd.h>
#include <signal.h>
#include "triton.h"
#include "events.h"
#include "ppp.h"
#include "cli.h"
#include "utils.h"
#include "log.h"
#include "memdebug.h"
static int show_stat_exec(const char *cmd, char * const *fields, int fields_cnt, void *client)
{
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;
sprintf(statm_fname, "/proc/%i/statm", getpid());
f = fopen(statm_fname, "r");
if (f) {
fscanf(f, "%lu %lu", &vmsize, &vmrss);
fclose(f);
}
time(&dt);
dt -= 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:%02i:%02i\r\n", day, hour, dt / 60, dt % 60);
cli_sendv(client, "cpu: %i%% (%i/%i)\r\n", triton_stat.ru_utime + triton_stat.ru_stime, triton_stat.ru_utime, triton_stat.ru_stime);
cli_sendv(client, "mem: %lu/%lu kB\r\n", vmrss / page_size_kb, vmsize / page_size_kb);
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, "ppp:\r\n");
cli_sendv(client, " staring: %u\r\n", ppp_stat.starting);
cli_sendv(client, " active: %u\r\n", ppp_stat.active);
cli_sendv(client, " finishing: %u\r\n", ppp_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 int show_ses_exec(const char *cmd, char * const *fields, int fields_cnt, void *client)
{
struct row_t
{
struct list_head entry;
char buf[128];
char *match_key;
char *order_key;
};
char ip_str[17];
char *state_str;
char time_str[12];
time_t uptime;
int day,hour,min,sec;
struct ppp_t *ppp;
int i;
enum order_type {ORDER_NONE, ORDER_USERNAME};
enum match_type {MATCH_NONE, MATCH_USERNAME};
int order = ORDER_NONE;
int match = MATCH_NONE;
struct row_t *row, *row2, *row3;
pcre *re;
const char *pcre_err;
int pcre_offset;
LIST_HEAD(rows);
LIST_HEAD(temp_rows);
for (i = 2; i < fields_cnt; i++) {
if (!strcmp(fields[i], "order")) {
if (i == fields_cnt - 1)
return CLI_CMD_SYNTAX;
i++;
if (!strcmp(fields[i], "username"))
order = ORDER_USERNAME;
else {
cli_send(client, "only order by username is supported yet\r\n");
return CLI_CMD_OK;
}
} else if (!strcmp(fields[i], "match")) {
if (i == fields_cnt - 2)
return CLI_CMD_SYNTAX;
i++;
if (!strcmp(fields[i], "username"))
match = MATCH_USERNAME;
else {
cli_send(client, "only match by username is supported yet\r\n");
return CLI_CMD_OK;
}
i++;
re = pcre_compile2(fields[i], 0, NULL, &pcre_err, &pcre_offset, NULL);
if (!re) {
cli_sendv(client, "match: %s at %i\r\n", pcre_err, pcre_offset);
return CLI_CMD_OK;
}
} else
return CLI_CMD_SYNTAX;
}
cli_send(client, "interface: username: address: type: state: uptime:\r\n");
cli_send(client, "------------------------------------------------------------------------\r\n");
pthread_rwlock_rdlock(&ppp_lock);
list_for_each_entry(ppp, &ppp_list, entry) {
row = _malloc(sizeof(*row));
if (!row) {
log_emerg("out of memory\n");
cli_send(client, "out of memory\r\n");
break;
}
if (order == ORDER_USERNAME)
row->order_key = ppp->username ? _strdup(ppp->username) : _strdup("");
if (match == MATCH_USERNAME)
row->match_key = ppp->username ? _strdup(ppp->username) : _strdup("");
u_inet_ntoa(ppp->peer_ipaddr, ip_str);
switch (ppp->state) {
case PPP_STATE_STARTING:
state_str = "start";
break;
case PPP_STATE_ACTIVE:
state_str = "active";
break;
case PPP_STATE_FINISHING:
state_str = "finish";
break;
default:
state_str = "unk";
}
if (ppp->stop_time)
uptime = ppp->stop_time - ppp->start_time;
else {
time(&uptime);
uptime -= ppp->start_time;
}
day = uptime/ (24*60*60); uptime %= (24*60*60);
hour = uptime / (60*60); uptime %= (60*60);
min = uptime / 60;
sec = uptime % 60;
if (day)
snprintf(time_str, 12, "%i.%02i:%02i:%02i", day, hour, min, sec);
else
snprintf(time_str, 12, "%02i:%02i:%02i", hour, min, sec);
snprintf(row->buf, 128, "%9s %15s %16s %6s %6s %10s\r\n", ppp->ifname, ppp->username ? ppp->username : "", ip_str, ppp->ctrl->name, state_str, time_str);
if (order || match)
list_add_tail(&row->entry, &temp_rows);
else
list_add_tail(&row->entry, &rows);
//cli_send(client, buf);
}
pthread_rwlock_unlock(&ppp_lock);
if (match || order) {
while (!list_empty(&temp_rows)) {
row = list_entry(temp_rows.next, typeof(*row), entry);
list_del(&row->entry);
if (match == MATCH_USERNAME) {
if (pcre_exec(re, NULL, row->match_key, strlen(row->match_key), 0, 0, NULL, 0) < 0) {
_free(row->match_key);
if (order)
_free(row->order_key);
_free(row);
continue;
}
}
if (order == ORDER_USERNAME) {
row3 = NULL;
list_for_each_entry(row2, &rows, entry) {
if (strcmp(row->order_key, row2->order_key) <= 0) {
row3 = row2;
break;
}
}
if (row3)
list_add_tail(&row->entry, &row3->entry);
else
list_add_tail(&row->entry, &rows);
} else
list_add_tail(&row->entry, &rows);
}
}
while (!list_empty(&rows)) {
row = list_entry(rows.next, typeof(*row), entry);
list_del(&row->entry);
cli_send(client, row->buf);
if (match == MATCH_USERNAME)
_free(row->match_key);
if (order == ORDER_USERNAME)
_free(row->order_key);
_free(row);
}
if (match == MATCH_USERNAME)
pcre_free(re);
return CLI_CMD_OK;
}
static void show_ses_help(char * const *fields, int fields_cnt, void *client)
{
cli_send(client, "show sessions [order username] [match username <regexp>] - shows all sessions\r\n");
}
//=============================
static void ppp_terminate_soft(struct ppp_t *ppp)
{
ppp_terminate(ppp, TERM_NAS_REQUEST, 0);
}
static void ppp_terminate_hard(struct ppp_t *ppp)
{
ppp_terminate(ppp, TERM_NAS_REQUEST, 1);
}
static void terminate_help(char * const *fields, int fields_cnt, void *client);
static int terminate_exec(const char *cmd, char * const *fields, int fields_cnt, void *client)
{
struct ppp_t *ppp;
int hard = 0;
if (fields_cnt == 1)
goto help;
if (fields_cnt == 3) {
if (!strcmp(fields[2], "hard"))
hard = 1;
else if (strcmp(fields[2], "soft"))
goto help;
}
pthread_rwlock_rdlock(&ppp_lock);
if (strcmp(fields[1], "all")) {
list_for_each_entry(ppp, &ppp_list, entry) {
if (strcmp(ppp->ifname, fields[1]))
continue;
if (hard)
triton_context_call(ppp->ctrl->ctx, (triton_event_func)ppp_terminate_hard, ppp);
else
triton_context_call(ppp->ctrl->ctx, (triton_event_func)ppp_terminate_soft, ppp);
break;
}
} else {
list_for_each_entry(ppp, &ppp_list, entry) {
if (hard)
triton_context_call(ppp->ctrl->ctx, (triton_event_func)ppp_terminate_hard, ppp);
else
triton_context_call(ppp->ctrl->ctx, (triton_event_func)ppp_terminate_soft, ppp);
}
}
pthread_rwlock_unlock(&ppp_lock);
return CLI_CMD_OK;
help:
terminate_help(fields, fields_cnt, client);
return CLI_CMD_OK;
}
static void terminate_help(char * const *fields, int fields_cnt, void *client)
{
cli_send(client, "terminate <interface> [soft|hard]- terminate session\r\n");
cli_send(client, "terminate all [soft|hard]- terminate all session\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 ppp_terminate_soft2(struct ppp_t *ppp)
{
ppp_terminate(ppp, TERM_NAS_REBOOT, 0);
}
static void ppp_terminate_hard2(struct ppp_t *ppp)
{
ppp_terminate(ppp, TERM_NAS_REBOOT, 1);
}
static int shutdown_exec(const char *cmd, char * const *f, int f_cnt, void *cli)
{
int hard = 0;
struct ppp_t *ppp;
if (f_cnt == 2) {
if (!strcmp(f[1], "soft")) {
ppp_shutdown_soft();
return CLI_CMD_OK;
} else if (!strcmp(f[1], "hard"))
hard = 1;
else if (!strcmp(f[1], "cancel")) {
ppp_shutdown = 0;
return CLI_CMD_OK;
} else
return CLI_CMD_SYNTAX;
}
ppp_shutdown_soft();
pthread_rwlock_rdlock(&ppp_lock);
list_for_each_entry(ppp, &ppp_list, entry) {
if (hard)
triton_context_call(ppp->ctrl->ctx, (triton_event_func)ppp_terminate_hard2, ppp);
else
triton_context_call(ppp->ctrl->ctx, (triton_event_func)ppp_terminate_soft2, ppp);
}
pthread_rwlock_unlock(&ppp_lock);
return CLI_CMD_OK;
}
static void __init init(void)
{
cli_register_simple_cmd2(show_stat_exec, show_stat_help, 2, "show", "stat");
cli_register_simple_cmd2(show_ses_exec, show_ses_help, 2, "show", "sessions");
cli_register_simple_cmd2(terminate_exec, terminate_help, 1, "terminate");
cli_register_simple_cmd2(shutdown_exec, shutdown_help, 1, "shutdown");
cli_register_simple_cmd2(exit_exec, exit_help, 1, "exit");
}
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