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/*
This file is part of telegram-cli.
Telegram-cli is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
Telegram-cli is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this telegram-cli. If not, see <http://www.gnu.org/licenses/>.
Copyright Vitaly Valtman 2013-2015
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#if USE_PYTHON
#include "python-tg.h"
#endif
#ifndef _GNU_SOURCE
#define _GNU_SOURCE
#endif
#define READLINE_CALLBACKS
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifdef READLINE_GNU
#include <readline/readline.h>
#include <readline/history.h>
#else
#include <readline/readline.h>
#include <readline/history.h>
#endif
#include <errno.h>
#include <poll.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/socket.h>
#include <fcntl.h>
#include <netinet/in.h>
#ifdef EVENT_V2
#include <event2/event.h>
#include <event2/bufferevent.h>
#else
#include <event.h>
#include "event-old.h"
#endif
#include "interface.h"
#include "telegram.h"
#include "loop.h"
#if USE_LUA
#include "lua-tg.h"
#endif
#include <tgl/tgl.h>
#include <tgl/tgl-binlog.h>
#include <tgl/tgl-net.h>
#include <tgl/tgl-timers.h>
#include <tgl/tgl-queries.h>
#include <openssl/sha.h>
int verbosity;
extern int readline_disabled;
extern char *bot_hash;
extern int bot_mode;
int binlog_read;
extern char *default_username;
extern char *auth_token;
void set_default_username (const char *s);
extern int binlog_enabled;
extern int unknown_user_list_pos;
extern int unknown_user_list[];
int register_mode;
extern int safe_quit;
extern int sync_from_start;
extern int disable_output;
extern int reset_authorization;
extern int sfd;
extern int usfd;
void got_it (char *line, int len);
void write_state_file (void);
static char *line_buffer;
static int line_buffer_size;
static int line_buffer_pos;
static int delete_stdin_event;
extern volatile int sigterm_cnt;
extern char *start_command;
extern struct tgl_state *TLS;
extern int ipv6_enabled;
struct event *term_ev = 0;
int read_one_string;
#define MAX_ONE_STRING_LEN 511
char one_string[MAX_ONE_STRING_LEN + 1];
int one_string_len;
void (*one_string_cb)(struct tgl_state *TLS, const char *string[], void *arg);
enum tgl_value_type one_string_type;
int one_string_num;
int one_string_total_args;
char *one_string_results[10];
void *string_cb_arg;
char *one_string_prompt;
int one_string_flags;
extern int disable_link_preview;
void deactivate_readline (void);
void reactivate_readline (void);
void do_get_string (struct tgl_state *TLS);
static void one_string_read_end (void) {
printf ("\n");
fflush (stdout);
read_one_string = 0;
tfree_str (one_string_prompt);
one_string_prompt = NULL;
reactivate_readline ();
one_string_results[one_string_num] = tstrdup (one_string);
++one_string_num;
if (one_string_num < one_string_total_args) {
do_get_string (TLS);
} else {
one_string_cb (TLS, (void *)one_string_results, string_cb_arg);
int i;
for (i = 0; i < one_string_total_args; i++) {
tfree_str (one_string_results[i]);
}
}
}
void generate_prompt (enum tgl_value_type type, int num) {
switch (type) {
case tgl_phone_number:
assert (!num);
one_string_prompt = tstrdup ("phone number: ");
one_string_flags = 0;
return;
case tgl_code:
assert (!num);
one_string_prompt = tstrdup ("code ('CALL' for phone code): ");
one_string_flags = 0;
return;
case tgl_register_info:
one_string_flags = 0;
switch (num) {
case 0:
one_string_prompt = tstrdup ("register (Y/n): ");
return;
case 1:
one_string_prompt = tstrdup ("first name: ");
return;
case 2:
one_string_prompt = tstrdup ("last name: ");
return;
default:
assert (0);
}
return;
case tgl_new_password:
one_string_flags = 1;
switch (num) {
case 0:
one_string_prompt = tstrdup ("new password: ");
return;
case 1:
one_string_prompt = tstrdup ("retype new password: ");
return;
default:
assert (0);
}
return;
case tgl_cur_and_new_password:
one_string_flags = 1;
switch (num) {
case 0:
one_string_prompt = tstrdup ("old password: ");
return;
case 1:
one_string_prompt = tstrdup ("new password: ");
return;
case 2:
one_string_prompt = tstrdup ("retype new password: ");
return;
default:
assert (0);
}
return;
case tgl_cur_password:
one_string_flags = 1;
assert (!num);
one_string_prompt = tstrdup ("password: ");
return;
case tgl_bot_hash:
one_string_flags = 0;
assert (!num);
one_string_prompt = tstrdup ("hash: ");
return;
default:
assert (0);
}
}
void do_get_string (struct tgl_state *TLS) {
deactivate_readline ();
generate_prompt (one_string_type, one_string_num);
printf ("%s", one_string_prompt);
fflush (stdout);
read_one_string = 1;
one_string_len = 0;
}
void do_get_values (struct tgl_state *TLS, enum tgl_value_type type, const char *prompt, int num_values,
void (*callback)(struct tgl_state *TLS, const char *string[], void *arg), void *arg) {
if (type == tgl_bot_hash && bot_hash) {
assert (num_values == 1);
one_string_results[0] = bot_hash;
callback (TLS, (void *)one_string_results, arg);
return;
}
one_string_cb = callback;
one_string_num = 0;
one_string_total_args = num_values;
one_string_type = type;
string_cb_arg = arg;
do_get_string (TLS);
}
static void stdin_read_callback (evutil_socket_t fd, short what, void *arg) {
if (!readline_disabled && !read_one_string) {
rl_callback_read_char ();
return;
}
if (read_one_string) {
char c;
int r = read (0, &c, 1);
if (r <= 0) {
perror ("read");
delete_stdin_event = 1;
return;
}
if (c == '\n' || c == '\r') {
one_string[one_string_len] = 0;
one_string_read_end ();
return;
}
if (one_string_len < MAX_ONE_STRING_LEN) {
one_string[one_string_len ++] = c;
if (!(one_string_flags & 1)) {
printf ("%c", c);
fflush (stdout);
}
}
return;
}
if (line_buffer_pos == line_buffer_size) {
line_buffer = realloc (line_buffer, line_buffer_size * 2 + 100);
assert (line_buffer);
line_buffer_size = line_buffer_size * 2 + 100;
assert (line_buffer);
}
int r = read (0, line_buffer + line_buffer_pos, line_buffer_size - line_buffer_pos);
if (r <= 0) {
perror ("read");
delete_stdin_event = 1;
return;
}
line_buffer_pos += r;
while (1) {
int p = 0;
while (p < line_buffer_pos && line_buffer[p] != '\n') { p ++; }
if (p < line_buffer_pos) {
line_buffer[p] = 0;
interpreter (line_buffer);
memmove (line_buffer, line_buffer + p + 1, line_buffer_pos - p - 1);
line_buffer_pos -= (p + 1);
} else {
break;
}
}
}
void net_loop (void) {
delete_stdin_event = 0;
if (verbosity >= E_DEBUG) {
logprintf ("Starting netloop\n");
}
term_ev = event_new (TLS->ev_base, 0, EV_READ | EV_PERSIST, stdin_read_callback, 0);
event_add (term_ev, 0);
int last_get_state = time (0);
while (1) {
event_base_loop (TLS->ev_base, EVLOOP_ONCE);
if (term_ev && delete_stdin_event) {
logprintf ("delete stdin\n");
event_free (term_ev);
term_ev = 0;
}
#ifdef USE_LUA
lua_do_all ();
#endif
#ifdef USE_PYTHON
py_do_all ();
#endif
if (safe_quit && !TLS->active_queries) {
printf ("All done. Exit\n");
do_halt (0);
safe_quit = 0;
}
if (sigterm_cnt > 0) {
do_halt (0);
}
if (time (0) - last_get_state > 3600) {
tgl_do_lookup_state (TLS);
last_get_state = time (0);
}
write_state_file ();
update_prompt ();
/* if (unknown_user_list_pos) {
int i;
for (i = 0; i < unknown_user_list_pos; i++) {
tgl_do_get_user_info (TLS, TGL_MK_USER (unknown_user_list[i]), 0, 0, 0);
}
unknown_user_list_pos = 0;
} */
}
if (term_ev) {
event_free (term_ev);
term_ev = 0;
}
if (verbosity >= E_DEBUG) {
logprintf ("End of netloop\n");
}
}
struct tgl_dc *cur_a_dc;
int is_authorized (void) {
return tgl_authorized_dc (TLS, cur_a_dc);
}
int all_authorized (void) {
int i;
for (i = 0; i <= TLS->max_dc_num; i++) if (TLS->DC_list[i]) {
if (!tgl_authorized_dc (TLS, TLS->DC_list[i])) {
return 0;
}
}
return 1;
}
int zero[512];
int readline_active;
int new_dc_num;
int wait_dialog_list;
extern struct tgl_update_callback upd_cb;
#define DC_SERIALIZED_MAGIC 0x868aa81d
#define STATE_FILE_MAGIC 0x28949a93
#define SECRET_CHAT_FILE_MAGIC 0x37a1988a
char *get_auth_key_filename (void);
char *get_state_filename (void);
char *get_secret_chat_filename (void);
void read_state_file (void) {
if (binlog_enabled) { return; }
int state_file_fd = open (get_state_filename (), O_CREAT | O_RDWR, 0600);
if (state_file_fd < 0) {
return;
}
int version, magic;
if (read (state_file_fd, &magic, 4) < 4) { close (state_file_fd); return; }
if (magic != (int)STATE_FILE_MAGIC) { close (state_file_fd); return; }
if (read (state_file_fd, &version, 4) < 4) { close (state_file_fd); return; }
assert (version >= 0);
int x[4];
if (read (state_file_fd, x, 16) < 16) {
close (state_file_fd);
return;
}
int pts = x[0];
int qts = x[1];
int seq = x[2];
int date = x[3];
close (state_file_fd);
bl_do_set_seq (TLS, seq);
bl_do_set_pts (TLS, pts);
bl_do_set_qts (TLS, qts);
bl_do_set_date (TLS, date);
}
void write_state_file (void) {
if (binlog_enabled) { return; }
static int wseq;
static int wpts;
static int wqts;
static int wdate;
if (wseq >= TLS->seq && wpts >= TLS->pts && wqts >= TLS->qts && wdate >= TLS->date) { return; }
wseq = TLS->seq; wpts = TLS->pts; wqts = TLS->qts; wdate = TLS->date;
int state_file_fd = open (get_state_filename (), O_CREAT | O_RDWR, 0600);
if (state_file_fd < 0) {
logprintf ("Can not write state file '%s': %m\n", get_state_filename ());
do_halt (1);
}
int x[6];
x[0] = STATE_FILE_MAGIC;
x[1] = 0;
x[2] = wpts;
x[3] = wqts;
x[4] = wseq;
x[5] = wdate;
assert (write (state_file_fd, x, 24) == 24);
close (state_file_fd);
}
void write_dc (struct tgl_dc *DC, void *extra) {
int auth_file_fd = *(int *)extra;
if (!DC) {
int x = 0;
assert (write (auth_file_fd, &x, 4) == 4);
return;
} else {
int x = 1;
assert (write (auth_file_fd, &x, 4) == 4);
}
assert (DC->flags & TGLDCF_LOGGED_IN);
assert (write (auth_file_fd, &DC->options[0]->port, 4) == 4);
int l = strlen (DC->options[0]->ip);
assert (write (auth_file_fd, &l, 4) == 4);
assert (write (auth_file_fd, DC->options[0]->ip, l) == l);
assert (write (auth_file_fd, &DC->auth_key_id, 8) == 8);
assert (write (auth_file_fd, DC->auth_key, 256) == 256);
}
void write_auth_file (void) {
if (binlog_enabled) { return; }
int auth_file_fd = open (get_auth_key_filename (), O_CREAT | O_RDWR, 0600);
assert (auth_file_fd >= 0);
int x = DC_SERIALIZED_MAGIC;
assert (write (auth_file_fd, &x, 4) == 4);
assert (write (auth_file_fd, &TLS->max_dc_num, 4) == 4);
assert (write (auth_file_fd, &TLS->dc_working_num, 4) == 4);
tgl_dc_iterator_ex (TLS, write_dc, &auth_file_fd);
assert (write (auth_file_fd, &TLS->our_id.peer_id, 4) == 4);
close (auth_file_fd);
}
void write_secret_chat (tgl_peer_t *Peer, void *extra) {
struct tgl_secret_chat *P = (void *)Peer;
if (tgl_get_peer_type (P->id) != TGL_PEER_ENCR_CHAT) { return; }
if (P->state != sc_ok) { return; }
int *a = extra;
int fd = a[0];
a[1] ++;
int id = tgl_get_peer_id (P->id);
assert (write (fd, &id, 4) == 4);
//assert (write (fd, &P->flags, 4) == 4);
int l = strlen (P->print_name);
assert (write (fd, &l, 4) == 4);
assert (write (fd, P->print_name, l) == l);
assert (write (fd, &P->user_id, 4) == 4);
assert (write (fd, &P->admin_id, 4) == 4);
assert (write (fd, &P->date, 4) == 4);
assert (write (fd, &P->ttl, 4) == 4);
assert (write (fd, &P->layer, 4) == 4);
assert (write (fd, &P->access_hash, 8) == 8);
assert (write (fd, &P->state, 4) == 4);
assert (write (fd, &P->key_fingerprint, 8) == 8);
assert (write (fd, &P->key, 256) == 256);
assert (write (fd, &P->first_key_sha, 20) == 20);
assert (write (fd, &P->in_seq_no, 4) == 4);
assert (write (fd, &P->last_in_seq_no, 4) == 4);
assert (write (fd, &P->out_seq_no, 4) == 4);
}
void write_secret_chat_file (void) {
if (binlog_enabled) { return; }
int secret_chat_fd = open (get_secret_chat_filename (), O_CREAT | O_RDWR, 0600);
assert (secret_chat_fd >= 0);
int x = SECRET_CHAT_FILE_MAGIC;
assert (write (secret_chat_fd, &x, 4) == 4);
x = 2;
assert (write (secret_chat_fd, &x, 4) == 4); // version
assert (write (secret_chat_fd, &x, 4) == 4); // num
int y[2];
y[0] = secret_chat_fd;
y[1] = 0;
tgl_peer_iterator_ex (TLS, write_secret_chat, y);
lseek (secret_chat_fd, 8, SEEK_SET);
assert (write (secret_chat_fd, &y[1], 4) == 4);
close (secret_chat_fd);
}
void read_dc (int auth_file_fd, int id, unsigned ver) {
int port = 0;
assert (read (auth_file_fd, &port, 4) == 4);
int l = 0;
assert (read (auth_file_fd, &l, 4) == 4);
assert (l >= 0 && l < 100);
char ip[100];
assert (read (auth_file_fd, ip, l) == l);
ip[l] = 0;
long long auth_key_id;
static unsigned char auth_key[256];
assert (read (auth_file_fd, &auth_key_id, 8) == 8);
assert (read (auth_file_fd, auth_key, 256) == 256);
//bl_do_add_dc (id, ip, l, port, auth_key_id, auth_key);
bl_do_dc_option (TLS, 0, id, "DC", 2, ip, l, port);
bl_do_set_auth_key (TLS, id, auth_key);
bl_do_dc_signed (TLS, id);
}
void empty_auth_file (void) {
if (TLS->test_mode) {
bl_do_dc_option (TLS, 0, 1, "", 0, TG_SERVER_TEST_1, strlen (TG_SERVER_TEST_1), 443);
bl_do_dc_option (TLS, 0, 2, "", 0, TG_SERVER_TEST_2, strlen (TG_SERVER_TEST_2), 443);
bl_do_dc_option (TLS, 0, 3, "", 0, TG_SERVER_TEST_3, strlen (TG_SERVER_TEST_3), 443);
bl_do_set_working_dc (TLS, TG_SERVER_TEST_DEFAULT);
} else {
bl_do_dc_option (TLS, 0, 1, "", 0, TG_SERVER_1, strlen (TG_SERVER_1), 443);
bl_do_dc_option (TLS, 0, 2, "", 0, TG_SERVER_2, strlen (TG_SERVER_2), 443);
bl_do_dc_option (TLS, 0, 3, "", 0, TG_SERVER_3, strlen (TG_SERVER_3), 443);
bl_do_dc_option (TLS, 0, 4, "", 0, TG_SERVER_4, strlen (TG_SERVER_4), 443);
bl_do_dc_option (TLS, 0, 5, "", 0, TG_SERVER_5, strlen (TG_SERVER_5), 443);
bl_do_set_working_dc (TLS, TG_SERVER_DEFAULT);
}
}
int need_dc_list_update;
void read_auth_file (void) {
if (binlog_enabled) { return; }
int auth_file_fd = open (get_auth_key_filename (), O_CREAT | O_RDWR, 0600);
if (auth_file_fd < 0) {
empty_auth_file ();
return;
}
assert (auth_file_fd >= 0);
unsigned x;
unsigned m;
if (read (auth_file_fd, &m, 4) < 4 || (m != DC_SERIALIZED_MAGIC)) {
close (auth_file_fd);
empty_auth_file ();
return;
}
assert (read (auth_file_fd, &x, 4) == 4);
assert (x > 0);
int dc_working_num;
assert (read (auth_file_fd, &dc_working_num, 4) == 4);
int i;
for (i = 0; i <= (int)x; i++) {
int y;
assert (read (auth_file_fd, &y, 4) == 4);
if (y) {
read_dc (auth_file_fd, i, m);
}
}
bl_do_set_working_dc (TLS, dc_working_num);
int our_id;
int l = read (auth_file_fd, &our_id, 4);
if (l < 4) {
assert (!l);
}
if (our_id) {
bl_do_set_our_id (TLS, TGL_MK_USER (our_id));
}
close (auth_file_fd);
}
void read_secret_chat (int fd, int v) {
int id, l, user_id, admin_id, date, ttl, layer, state;
long long access_hash, key_fingerprint;
static char s[1000];
static unsigned char key[256];
static unsigned char sha[20];
assert (read (fd, &id, 4) == 4);
//assert (read (fd, &flags, 4) == 4);
assert (read (fd, &l, 4) == 4);
assert (l > 0 && l < 1000);
assert (read (fd, s, l) == l);
assert (read (fd, &user_id, 4) == 4);
assert (read (fd, &admin_id, 4) == 4);
assert (read (fd, &date, 4) == 4);
assert (read (fd, &ttl, 4) == 4);
assert (read (fd, &layer, 4) == 4);
assert (read (fd, &access_hash, 8) == 8);
assert (read (fd, &state, 4) == 4);
assert (read (fd, &key_fingerprint, 8) == 8);
assert (read (fd, &key, 256) == 256);
assert (read (fd, sha, 20) == 20);
int in_seq_no = 0, out_seq_no = 0, last_in_seq_no = 0;
if (v >= 1) {
assert (read (fd, &in_seq_no, 4) == 4);
assert (read (fd, &last_in_seq_no, 4) == 4);
assert (read (fd, &out_seq_no, 4) == 4);
}
bl_do_encr_chat (TLS, id,
&access_hash,
&date,
&admin_id,
&user_id,
key,
NULL,
sha,
&state,
&ttl,
&layer,
&in_seq_no,
&last_in_seq_no,
&out_seq_no,
&key_fingerprint,
TGLECF_CREATE | TGLECF_CREATED,
NULL, 0
);
}
void read_secret_chat_file (void) {
if (binlog_enabled) { return; }
int secret_chat_fd = open (get_secret_chat_filename (), O_RDWR, 0600);
if (secret_chat_fd < 0) { return; }
//assert (secret_chat_fd >= 0);
int x;
if (read (secret_chat_fd, &x, 4) < 4) { close (secret_chat_fd); return; }
if (x != SECRET_CHAT_FILE_MAGIC) { close (secret_chat_fd); return; }
int v = 0;
assert (read (secret_chat_fd, &v, 4) == 4);
assert (v == 0 || v == 1 || v == 2); // version
assert (read (secret_chat_fd, &x, 4) == 4);
assert (x >= 0);
while (x --> 0) {
read_secret_chat (secret_chat_fd, v);
}
close (secret_chat_fd);
}
static void read_incoming (struct bufferevent *bev, void *_arg) {
vlogprintf (E_WARNING, "Read from incoming connection\n");
struct in_ev *ev = _arg;
assert (ev->bev == bev);
ev->in_buf_pos += bufferevent_read (bev, ev->in_buf + ev->in_buf_pos, 4096 - ev->in_buf_pos);
while (1) {
int pos = 0;
int ok = 0;
while (pos < ev->in_buf_pos) {
if (ev->in_buf[pos] == '\n') {
if (!ev->error) {
ev->in_buf[pos] = 0;
interpreter_ex (ev->in_buf, ev);
} else {
ev->error = 0;
}
ok = 1;
ev->in_buf_pos -= (pos + 1);
memmove (ev->in_buf, ev->in_buf + pos + 1, ev->in_buf_pos);
pos = 0;
} else {
pos ++;
}
}
if (ok) {
ev->in_buf_pos += bufferevent_read (bev, ev->in_buf + ev->in_buf_pos, 4096 - ev->in_buf_pos);
} else {
if (ev->in_buf_pos == 4096) {
ev->error = 1;
}
break;
}
}
}
void event_incoming (struct bufferevent *bev, short what, void *_arg) {
struct in_ev *ev = _arg;
if (what & (BEV_EVENT_EOF | BEV_EVENT_ERROR)) {
vlogprintf (E_WARNING, "Closing incoming connection\n");
assert (ev->fd >= 0);
close (ev->fd);
bufferevent_free (bev);
ev->bev = 0;
if (!--ev->refcnt) { free (ev); }
}
}
static void accept_incoming (evutil_socket_t efd, short what, void *arg) {
vlogprintf (E_WARNING, "Accepting incoming connection\n");
socklen_t clilen = 0;
struct sockaddr_in cli_addr;
int fd = accept (efd, (struct sockaddr *)&cli_addr, &clilen);
assert (fd >= 0);
struct bufferevent *bev = bufferevent_socket_new (TLS->ev_base, fd, 0);
struct in_ev *e = malloc (sizeof (*e));
e->bev = bev;
e->refcnt = 1;
e->in_buf_pos = 0;
e->error = 0;
e->fd = fd;
bufferevent_setcb (bev, read_incoming, 0, event_incoming, e);
bufferevent_enable (bev, EV_READ | EV_WRITE);
}
char *get_downloads_directory (void);
void on_login (struct tgl_state *TLS) {
write_auth_file ();
}
void on_failed_login (struct tgl_state *TLS) {
logprintf ("login failed\n");
logprintf ("login error #%d: %s\n", TLS->error_code, TLS->error);
logprintf ("you can relogin by deleting auth file or running telegram-cli with '-q' flag\n");
exit (2);
}
void on_started (struct tgl_state *TLS);
void clist_cb (struct tgl_state *TLSR, void *callback_extra, int success, int size, tgl_peer_id_t peers[], tgl_message_id_t *last_msg_id[], int unread_count[]) {
on_started (TLS);
}
void dlist_cb (struct tgl_state *TLSR, void *callback_extra, int success, int size, tgl_peer_id_t peers[], tgl_message_id_t *last_msg_id[], int unread_count[]) {
tgl_do_get_channels_dialog_list (TLS, 100, 0, clist_cb, 0);
}
void on_started (struct tgl_state *TLS) {
if (wait_dialog_list) {
wait_dialog_list = 0;
tgl_do_get_dialog_list (TLS, 100, 0, dlist_cb, 0);
return;
}
#ifdef USE_LUA
lua_diff_end ();
#endif
#ifdef USE_PYTHON
py_diff_end ();
#endif
if (start_command) {
safe_quit = 1;
while (*start_command) {
char *start = start_command;
while (*start_command && *start_command != '\n') {
start_command ++;
}
if (*start_command) {
*start_command = 0;
start_command ++;
}
interpreter_ex (start, 0);
}
}
}
int loop (void) {
tgl_set_callback (TLS, &upd_cb);
struct event_base *ev = event_base_new ();
tgl_set_ev_base (TLS, ev);
tgl_set_net_methods (TLS, &tgl_conn_methods);
tgl_set_timer_methods (TLS, &tgl_libevent_timers);
assert (TLS->timer_methods);
tgl_set_download_directory (TLS, get_downloads_directory ());
tgl_register_app_id (TLS, TELEGRAM_CLI_APP_ID, TELEGRAM_CLI_APP_HASH);
tgl_set_app_version (TLS, "Telegram-cli " TELEGRAM_CLI_VERSION);
if (ipv6_enabled) {
tgl_enable_ipv6 (TLS);
}
if (bot_mode) {
tgl_enable_bot (TLS);
}
if (disable_link_preview) {
tgl_disable_link_preview (TLS);
}
assert (tgl_init (TLS) >= 0);
/*if (binlog_enabled) {
double t = tglt_get_double_time ();
if (verbosity >= E_DEBUG) {
logprintf ("replay log start\n");
}
tgl_replay_log (TLS);
if (verbosity >= E_DEBUG) {
logprintf ("replay log end in %lf seconds\n", tglt_get_double_time () - t);
}
tgl_reopen_binlog_for_writing (TLS);
} else {*/
read_auth_file ();
read_state_file ();
read_secret_chat_file ();
//}
binlog_read = 1;
#ifdef USE_LUA
lua_binlog_end ();
#endif
#ifdef USE_PYTHON
py_binlog_end ();
#endif
if (sfd >= 0) {
struct event *ev = event_new (TLS->ev_base, sfd, EV_READ | EV_PERSIST, accept_incoming, 0);
event_add (ev, 0);
}
if (usfd >= 0) {
struct event *ev = event_new (TLS->ev_base, usfd, EV_READ | EV_PERSIST, accept_incoming, 0);
event_add (ev, 0);
}
update_prompt ();
if (reset_authorization) {
tgl_peer_t *P = tgl_peer_get (TLS, TLS->our_id);
if (P && P->user.phone && reset_authorization == 1) {
set_default_username (P->user.phone);
}
bl_do_reset_authorization (TLS);
}
set_interface_callbacks ();
tgl_login (TLS);
net_loop ();
return 0;
}