/* This file is part of telegram-client. Telegram-client 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-client 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-client. If not, see . Copyright Vitaly Valtman 2013 */ #define READLINE_CALLBACKS #include "config.h" #include #include #include #include #ifdef READLINE_GNU #include #include #else #include #include #endif #include #include #include #include #include #include #include "interface.h" #include "net.h" #include "mtproto-client.h" #include "mtproto-common.h" #include "queries.h" #include "telegram.h" #include "loop.h" #include "binlog.h" extern char *default_username; extern char *auth_token; extern int test_dc; void set_default_username (const char *s); int default_dc_num; extern int binlog_enabled; extern int unknown_user_list_pos; extern int unknown_user_list[]; int unread_messages; void got_it (char *line, int len); void net_loop (int flags, int (*is_end)(void)) { while (!is_end ()) { struct pollfd fds[101]; int cc = 0; if (flags & 3) { fds[0].fd = 0; fds[0].events = POLLIN; cc ++; } write_state_file (); int x = connections_make_poll_array (fds + cc, 101 - cc) + cc; double timer = next_timer_in (); if (timer > 1000) { timer = 1000; } if (poll (fds, x, timer) < 0) { work_timers (); continue; } work_timers (); if ((flags & 3) && (fds[0].revents & POLLIN)) { unread_messages = 0; if (flags & 1) { rl_callback_read_char (); } else { char *line = 0; size_t len = 0; assert (getline (&line, &len, stdin) >= 0); got_it (line, strlen (line)); } } connections_poll_result (fds + cc, x - cc); if (unknown_user_list_pos) { do_get_user_list_info_silent (unknown_user_list_pos, unknown_user_list); unknown_user_list_pos = 0; } } } char **_s; size_t *_l; int got_it_ok; void got_it (char *line, int len) { line[-- len] = 0; // delete end of line *_s = line; *_l = len; got_it_ok = 1; } int is_got_it (void) { return got_it_ok; } int net_getline (char **s, size_t *l) { fflush (stdout); // rl_already_prompted = 1; got_it_ok = 0; _s = s; _l = l; // rl_callback_handler_install (0, got_it); net_loop (2, is_got_it); return 0; } int ret1 (void) { return 0; } int main_loop (void) { net_loop (1, ret1); return 0; } struct dc *DC_list[MAX_DC_ID + 1]; struct dc *DC_working; int dc_working_num; int auth_state; char *get_auth_key_filename (void); char *get_state_filename (void); char *get_secret_chat_filename (void); int zero[512]; void write_dc (int auth_file_fd, struct dc *DC) { assert (write (auth_file_fd, &DC->port, 4) == 4); int l = strlen (DC->ip); assert (write (auth_file_fd, &l, 4) == 4); assert (write (auth_file_fd, DC->ip, l) == l); if (DC->flags & 1) { assert (write (auth_file_fd, &DC->auth_key_id, 8) == 8); assert (write (auth_file_fd, DC->auth_key, 256) == 256); } else { assert (write (auth_file_fd, zero, 256 + 8) == 256 + 8); } assert (write (auth_file_fd, &DC->server_salt, 8) == 8); assert (write (auth_file_fd, &DC->has_auth, 4) == 4); } int our_id; 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_V2; assert (write (auth_file_fd, &x, 4) == 4); x = MAX_DC_ID; assert (write (auth_file_fd, &x, 4) == 4); assert (write (auth_file_fd, &dc_working_num, 4) == 4); assert (write (auth_file_fd, &auth_state, 4) == 4); int i; for (i = 0; i <= MAX_DC_ID; i++) { if (DC_list[i]) { x = 1; assert (write (auth_file_fd, &x, 4) == 4); write_dc (auth_file_fd, DC_list[i]); } else { x = 0; assert (write (auth_file_fd, &x, 4) == 4); } } assert (write (auth_file_fd, &our_id, 4) == 4); close (auth_file_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); char *ip = malloc (l + 1); assert (read (auth_file_fd, ip, l) == l); ip[l] = 0; struct dc *DC = alloc_dc (id, ip, port); assert (read (auth_file_fd, &DC->auth_key_id, 8) == 8); assert (read (auth_file_fd, &DC->auth_key, 256) == 256); assert (read (auth_file_fd, &DC->server_salt, 8) == 8); if (DC->auth_key_id) { DC->flags |= 1; } if (ver != DC_SERIALIZED_MAGIC) { assert (read (auth_file_fd, &DC->has_auth, 4) == 4); } else { DC->has_auth = 0; } } void empty_auth_file (void) { struct dc *DC = alloc_dc (1, strdup (test_dc ? TG_SERVER_TEST : TG_SERVER), 443); assert (DC); dc_working_num = 1; auth_state = 0; write_auth_file (); } 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 (); } assert (auth_file_fd >= 0); unsigned x; unsigned m; if (read (auth_file_fd, &m, 4) < 4 || (m != DC_SERIALIZED_MAGIC && m != DC_SERIALIZED_MAGIC_V2)) { close (auth_file_fd); empty_auth_file (); return; } assert (read (auth_file_fd, &x, 4) == 4); assert (x <= MAX_DC_ID); assert (read (auth_file_fd, &dc_working_num, 4) == 4); assert (read (auth_file_fd, &auth_state, 4) == 4); if (m == DC_SERIALIZED_MAGIC) { auth_state = 700; } 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); } } int l = read (auth_file_fd, &our_id, 4); if (l < 4) { assert (!l); } close (auth_file_fd); DC_working = DC_list[dc_working_num]; if (m == DC_SERIALIZED_MAGIC) { DC_working->has_auth = 1; } } int pts, qts, seq, last_date; void read_state_file (void) { 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; } pts = x[0]; qts = x[1]; seq = x[2]; last_date = x[3]; close (state_file_fd); } void write_state_file (void) { static int wseq; static int wpts; static int wqts; static int wdate; if (wseq >= seq && wpts >= pts && wqts >= qts && wdate >= last_date) { return; } int state_file_fd = open (get_state_filename (), O_CREAT | O_RDWR, 0600); if (state_file_fd < 0) { return; } int x[6]; x[0] = STATE_FILE_MAGIC; x[1] = 0; x[2] = pts; x[3] = qts; x[4] = seq; x[5] = last_date; assert (write (state_file_fd, x, 24) == 24); close (state_file_fd); wseq = seq; wpts = pts; wqts = qts; wdate = last_date; } extern peer_t *Peers[]; extern int peer_num; extern int encr_root; extern unsigned char *encr_prime; extern int encr_param_version; void read_secret_chat_file (void) { if (binlog_enabled) { return; } int fd = open (get_secret_chat_filename (), O_CREAT | O_RDWR, 0600); if (fd < 0) { return; } int x[2]; if (read (fd, x, 8) < 8) { close (fd); return; } if (x[0] != (int)SECRET_CHAT_FILE_MAGIC) { close (fd); return; } int version = x[1]; assert (version >= 0); int cc; assert (read (fd, &cc, 4) == 4); int i; for (i = 0; i < cc; i++) { peer_t *P = malloc (sizeof (*P)); memset (P, 0, sizeof (*P)); struct secret_chat *E = &P->encr_chat; int t; assert (read (fd, &t, 4) == 4); P->id = MK_ENCR_CHAT (t); assert (read (fd, &P->flags, 4) == 4); assert (read (fd, &t, 4) == 4); assert (t > 0); P->print_name = malloc (t + 1); assert (read (fd, P->print_name, t) == t); P->print_name[t] = 0; assert (read (fd, &E->state, 4) == 4); assert (read (fd, &E->user_id, 4) == 4); assert (read (fd, &E->admin_id, 4) == 4); assert (read (fd, &E->ttl, 4) == 4); assert (read (fd, &E->access_hash, 8) == 8); if (E->state != sc_waiting) { E->g_key = malloc (256); assert (read (fd, E->g_key, 256) == 256); E->nonce = malloc (256); assert (read (fd, E->nonce, 256) == 256); } assert (read (fd, E->key, 256) == 256); assert (read (fd, &E->key_fingerprint, 8) == 8); insert_encrypted_chat (P); } if (version >= 1) { assert (read (fd, &encr_root, 4) == 4); if (encr_root) { assert (read (fd, &encr_param_version, 4) == 4); encr_prime = malloc (256); assert (read (fd, encr_prime, 256) == 256); } } close (fd); } void write_secret_chat_file (void) { if (binlog_enabled) { return; } int fd = open (get_secret_chat_filename (), O_CREAT | O_RDWR, 0600); if (fd < 0) { return; } int x[2]; x[0] = SECRET_CHAT_FILE_MAGIC; x[1] = 1; assert (write (fd, x, 8) == 8); int i; int cc = 0; for (i = 0; i < peer_num; i++) if (get_peer_type (Peers[i]->id) == PEER_ENCR_CHAT) { if (Peers[i]->encr_chat.state != sc_none && Peers[i]->encr_chat.state != sc_deleted) { cc ++; } } assert (write (fd, &cc, 4) == 4); for (i = 0; i < peer_num; i++) if (get_peer_type (Peers[i]->id) == PEER_ENCR_CHAT) { if (Peers[i]->encr_chat.state != sc_none && Peers[i]->encr_chat.state != sc_deleted) { int t = get_peer_id (Peers[i]->id); assert (write (fd, &t, 4) == 4); t = Peers[i]->flags; assert (write (fd, &t, 4) == 4); t = strlen (Peers[i]->print_name); assert (write (fd, &t, 4) == 4); assert (write (fd, Peers[i]->print_name, t) == t); assert (write (fd, &Peers[i]->encr_chat.state, 4) == 4); assert (write (fd, &Peers[i]->encr_chat.user_id, 4) == 4); assert (write (fd, &Peers[i]->encr_chat.admin_id, 4) == 4); assert (write (fd, &Peers[i]->encr_chat.ttl, 4) == 4); assert (write (fd, &Peers[i]->encr_chat.access_hash, 8) == 8); if (Peers[i]->encr_chat.state != sc_waiting) { assert (write (fd, Peers[i]->encr_chat.g_key, 256) == 256); } if (Peers[i]->encr_chat.state != sc_waiting) { assert (write (fd, Peers[i]->encr_chat.nonce, 256) == 256); } assert (write (fd, Peers[i]->encr_chat.key, 256) == 256); assert (write (fd, &Peers[i]->encr_chat.key_fingerprint, 8) == 8); } } assert (write (fd, &encr_root, 4) == 4); if (encr_root) { assert (write (fd, &encr_param_version, 4) == 4); assert (write (fd, encr_prime, 256) == 256); } close (fd); } extern int max_chat_size; int mcs (void) { return max_chat_size; } extern int difference_got; int dgot (void) { return !difference_got; } int readline_active; int new_dc_num; int loop (void) { on_start (); if (binlog_enabled) { replay_log (); write_binlog (); } else { read_auth_file (); } update_prompt (); assert (DC_list[dc_working_num]); if (!DC_working || !DC_working->auth_key_id) { // if (auth_state == 0) { DC_working = DC_list[dc_working_num]; assert (!DC_working->auth_key_id); dc_authorize (DC_working); assert (DC_working->auth_key_id); auth_state = 100; write_auth_file (); } if (verbosity) { logprintf ("Requesting info about DC...\n"); } do_help_get_config (); net_loop (0, mcs); if (verbosity) { logprintf ("DC_info: %d new DC got\n", new_dc_num); } int i; for (i = 0; i <= MAX_DC_NUM; i++) if (DC_list[i] && !DC_list[i]->auth_key_id) { dc_authorize (DC_list[i]); assert (DC_list[i]->auth_key_id); write_auth_file (); } if (auth_state == 100 || !(DC_working->has_auth)) { if (!default_username) { size_t size = 0; char *user = 0; if (!user) { printf ("Telephone number (with '+' sign): "); if (net_getline (&user, &size) == -1) { perror ("getline()"); exit (EXIT_FAILURE); } set_default_username (user); } } int res = do_auth_check_phone (default_username); assert (res >= 0); logprintf ("%s\n", res > 0 ? "phone registered" : "phone not registered"); if (res > 0) { do_send_code (default_username); char *code = 0; size_t size = 0; printf ("Code from sms: "); while (1) { if (net_getline (&code, &size) == -1) { perror ("getline()"); exit (EXIT_FAILURE); } if (do_send_code_result (code) >= 0) { break; } printf ("Invalid code. Try again: "); free (code); } auth_state = 300; } else { printf ("User is not registered. Do you want to register? [Y/n] "); char *code; size_t size; if (net_getline (&code, &size) == -1) { perror ("getline()"); exit (EXIT_FAILURE); } if (!*code || *code == 'y' || *code == 'Y') { printf ("Ok, starting registartion.\n"); } else { printf ("Then try again\n"); exit (EXIT_SUCCESS); } char *first_name; printf ("Name: "); if (net_getline (&first_name, &size) == -1) { perror ("getline()"); exit (EXIT_FAILURE); } char *last_name; printf ("Name: "); if (net_getline (&last_name, &size) == -1) { perror ("getline()"); exit (EXIT_FAILURE); } int dc_num = do_get_nearest_dc (); assert (dc_num >= 0 && dc_num <= MAX_DC_NUM && DC_list[dc_num]); dc_working_num = dc_num; DC_working = DC_list[dc_working_num]; do_send_code (default_username); printf ("Code from sms: "); while (1) { if (net_getline (&code, &size) == -1) { perror ("getline()"); exit (EXIT_FAILURE); } if (do_send_code_result_auth (code, first_name, last_name) >= 0) { break; } printf ("Invalid code. Try again: "); free (code); } auth_state = 300; } } for (i = 0; i <= MAX_DC_NUM; i++) if (DC_list[i] && !DC_list[i]->has_auth) { do_export_auth (i); do_import_auth (i); DC_list[i]->has_auth = 1; if (binlog_enabled) { int *ev = alloc_log_event (8); ev[0] = LOG_DC_SIGNED; ev[1] = i; add_log_event (ev, 8); } write_auth_file (); } write_auth_file (); fflush (stdin); fflush (stdout); fflush (stderr); read_state_file (); read_secret_chat_file (); set_interface_callbacks (); do_get_difference (); net_loop (0, dgot); do_get_dialog_list (); return main_loop (); }