/* 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 */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #define _FILE_OFFSET_BITS 64 #include #include #include #include #include #include #include #include #ifndef PATH_MAX #define PATH_MAX 4096 #endif #include "include.h" #include "mtproto-client.h" #include "queries.h" #include "tree.h" #include "mtproto-common.h" #include "telegram.h" #include "loop.h" #include "structures.h" #include "interface.h" #include "net.h" #include #include #include #include #include #include "no-preview.h" #include "binlog.h" #define sha1 SHA1 #ifdef __APPLE__ #define OPEN_BIN "open %s" #else #define OPEN_BIN "xdg-open %s" #endif char *get_downloads_directory (void); int verbosity; extern int offline_mode; long long cur_uploading_bytes; long long cur_uploaded_bytes; long long cur_downloading_bytes; long long cur_downloaded_bytes; extern int binlog_enabled; extern int sync_from_start; int queries_num; void out_peer_id (peer_id_t id); #define QUERY_TIMEOUT 6.0 #define memcmp8(a,b) memcmp ((a), (b), 8) DEFINE_TREE (query, struct query *, memcmp8, 0) ; struct tree_query *queries_tree; double get_double_time (void) { struct timespec tv; my_clock_gettime (CLOCK_REALTIME, &tv); return tv.tv_sec + 1e-9 * tv.tv_nsec; } struct query *query_get (long long id) { return tree_lookup_query (queries_tree, (void *)&id); } int alarm_query (struct query *q) { assert (q); if (verbosity >= 1) { logprintf ("Alarm query %lld\n", q->msg_id); } q->ev.timeout = get_double_time () + QUERY_TIMEOUT; insert_event_timer (&q->ev); if (q->session->c->out_bytes >= 100000) { return 0; } clear_packet (); out_int (CODE_msg_container); out_int (1); out_long (q->msg_id); out_int (q->seq_no); out_int (4 * q->data_len); out_ints (q->data, q->data_len); encrypt_send_message (q->session->c, packet_buffer, packet_ptr - packet_buffer, 0); return 0; } void query_restart (long long id) { struct query *q = query_get (id); if (q) { remove_event_timer (&q->ev); alarm_query (q); } } struct query *send_query (struct dc *DC, int ints, void *data, struct query_methods *methods, void *extra) { assert (DC); assert (DC->auth_key_id); if (!DC->sessions[0]) { dc_create_session (DC); } if (verbosity) { logprintf ( "Sending query of size %d to DC (%s:%d)\n", 4 * ints, DC->ip, DC->port); } struct query *q = talloc0 (sizeof (*q)); q->data_len = ints; q->data = talloc (4 * ints); memcpy (q->data, data, 4 * ints); q->msg_id = encrypt_send_message (DC->sessions[0]->c, data, ints, 1); q->session = DC->sessions[0]; q->seq_no = DC->sessions[0]->seq_no - 1; if (verbosity) { logprintf ( "Msg_id is %lld %p\n", q->msg_id, q); } q->methods = methods; q->DC = DC; if (queries_tree) { if (verbosity >= 2) { logprintf ( "%lld %lld\n", q->msg_id, queries_tree->x->msg_id); } } queries_tree = tree_insert_query (queries_tree, q, lrand48 ()); q->ev.alarm = (void *)alarm_query; q->ev.timeout = get_double_time () + QUERY_TIMEOUT; q->ev.self = (void *)q; insert_event_timer (&q->ev); q->extra = extra; queries_num ++; return q; } void query_ack (long long id) { struct query *q = query_get (id); if (q && !(q->flags & QUERY_ACK_RECEIVED)) { assert (q->msg_id == id); q->flags |= QUERY_ACK_RECEIVED; remove_event_timer (&q->ev); } } void query_error (long long id) { assert (fetch_int () == CODE_rpc_error); int error_code = fetch_int (); int error_len = prefetch_strlen (); char *error = fetch_str (error_len); if (verbosity) { logprintf ( "error for query #%lld: #%d :%.*s\n", id, error_code, error_len, error); } struct query *q = query_get (id); if (!q) { if (verbosity) { logprintf ( "No such query\n"); } } else { if (!(q->flags & QUERY_ACK_RECEIVED)) { remove_event_timer (&q->ev); } queries_tree = tree_delete_query (queries_tree, q); if (q->methods && q->methods->on_error) { q->methods->on_error (q, error_code, error_len, error); } else { logprintf ( "error for query #%lld: #%d :%.*s\n", id, error_code, error_len, error); } tfree (q->data, q->data_len * 4); tfree (q, sizeof (*q)); } queries_num --; } #define MAX_PACKED_SIZE (1 << 24) static int packed_buffer[MAX_PACKED_SIZE / 4]; void query_result (long long id UU) { if (verbosity) { logprintf ( "result for query #%lld\n", id); } if (verbosity >= 4) { logprintf ( "result: "); hexdump_in (); } int op = prefetch_int (); int *end = 0; int *eend = 0; if (op == CODE_gzip_packed) { fetch_int (); int l = prefetch_strlen (); char *s = fetch_str (l); int total_out = tinflate (s, l, packed_buffer, MAX_PACKED_SIZE); end = in_ptr; eend = in_end; //assert (total_out % 4 == 0); in_ptr = packed_buffer; in_end = in_ptr + total_out / 4; if (verbosity >= 4) { logprintf ( "Unzipped data: "); hexdump_in (); } } struct query *q = query_get (id); if (!q) { if (verbosity) { logprintf ( "No such query\n"); } in_ptr = in_end; } else { if (!(q->flags & QUERY_ACK_RECEIVED)) { remove_event_timer (&q->ev); } queries_tree = tree_delete_query (queries_tree, q); if (q->methods && q->methods->on_answer) { q->methods->on_answer (q); assert (in_ptr == in_end); } tfree (q->data, 4 * q->data_len); tfree (q, sizeof (*q)); } if (end) { in_ptr = end; in_end = eend; } queries_num --; } #define event_timer_cmp(a,b) ((a)->timeout > (b)->timeout ? 1 : ((a)->timeout < (b)->timeout ? -1 : (memcmp (a, b, sizeof (struct event_timer))))) DEFINE_TREE (timer, struct event_timer *, event_timer_cmp, 0) struct tree_timer *timer_tree; void insert_event_timer (struct event_timer *ev) { if (verbosity > 2) { logprintf ( "INSERT: %lf %p %p\n", ev->timeout, ev->self, ev->alarm); } timer_tree = tree_insert_timer (timer_tree, ev, lrand48 ()); } void remove_event_timer (struct event_timer *ev) { if (verbosity > 2) { logprintf ( "REMOVE: %lf %p %p\n", ev->timeout, ev->self, ev->alarm); } timer_tree = tree_delete_timer (timer_tree, ev); } double next_timer_in (void) { if (!timer_tree) { return 1e100; } return tree_get_min_timer (timer_tree)->timeout; } void work_timers (void) { double t = get_double_time (); while (timer_tree) { struct event_timer *ev = tree_get_min_timer (timer_tree); assert (ev); if (ev->timeout > t) { break; } remove_event_timer (ev); assert (ev->alarm); if (verbosity) { logprintf ("Alarm\n"); } ev->alarm (ev->self); } } int max_chat_size; int want_dc_num; int new_dc_num; extern struct dc *DC_list[]; extern struct dc *DC_working; void out_random (int n) { assert (n <= 32); static char buf[32]; secure_random (buf, n); out_cstring (buf, n); } int allow_send_linux_version; void do_insert_header (void) { out_int (CODE_invoke_with_layer11); out_int (CODE_init_connection); out_int (TG_APP_ID); if (allow_send_linux_version) { struct utsname st; uname (&st); out_string (st.machine); static char buf[4096]; tsnprintf (buf, sizeof (buf), "%.999s %.999s %.999s\n", st.sysname, st.release, st.version); out_string (buf); out_string (TG_VERSION " (build " TG_BUILD ")"); out_string ("En"); } else { out_string ("x86"); out_string ("Linux"); out_string (TG_VERSION); out_string ("en"); } } /* {{{ Get config */ void fetch_dc_option (void) { assert (fetch_int () == CODE_dc_option); int id = fetch_int (); int l1 = prefetch_strlen (); char *name = fetch_str (l1); int l2 = prefetch_strlen (); char *ip = fetch_str (l2); int port = fetch_int (); if (verbosity) { logprintf ( "id = %d, name = %.*s ip = %.*s port = %d\n", id, l1, name, l2, ip, port); } bl_do_dc_option (id, l1, name, l2, ip, port); } int help_get_config_on_answer (struct query *q UU) { assert (fetch_int () == CODE_config); fetch_int (); unsigned test_mode = fetch_int (); assert (test_mode == CODE_bool_true || test_mode == CODE_bool_false); assert (test_mode == CODE_bool_false || test_mode == CODE_bool_true); int this_dc = fetch_int (); if (verbosity) { logprintf ( "this_dc = %d\n", this_dc); } assert (fetch_int () == CODE_vector); int n = fetch_int (); assert (n <= 10); int i; for (i = 0; i < n; i++) { fetch_dc_option (); } max_chat_size = fetch_int (); if (verbosity >= 2) { logprintf ( "chat_size = %d\n", max_chat_size); } return 0; } struct query_methods help_get_config_methods = { .on_answer = help_get_config_on_answer }; void do_help_get_config (void) { clear_packet (); out_int (CODE_help_get_config); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &help_get_config_methods, 0); } /* }}} */ /* {{{ Send code */ char *phone_code_hash; int send_code_on_answer (struct query *q UU) { assert (fetch_int () == CODE_auth_sent_code); fetch_bool (); int l = prefetch_strlen (); char *s = fetch_str (l); if (phone_code_hash) { tfree_str (phone_code_hash); } phone_code_hash = tstrndup (s, l); want_dc_num = -1; return 0; } int send_code_on_error (struct query *q UU, int error_code, int l, char *error) { int s = strlen ("PHONE_MIGRATE_"); int s2 = strlen ("NETWORK_MIGRATE_"); if (l >= s && !memcmp (error, "PHONE_MIGRATE_", s)) { int i = error[s] - '0'; want_dc_num = i; } else if (l >= s2 && !memcmp (error, "NETWORK_MIGRATE_", s2)) { int i = error[s2] - '0'; want_dc_num = i; } else { logprintf ( "error_code = %d, error = %.*s\n", error_code, l, error); assert (0); } return 0; } struct query_methods send_code_methods = { .on_answer = send_code_on_answer, .on_error = send_code_on_error }; int code_is_sent (void) { return want_dc_num; } int config_got (void) { return DC_list[want_dc_num] != 0; } char *suser; extern int dc_working_num; void do_send_code (const char *user) { logprintf ("sending code\n"); suser = tstrdup (user); want_dc_num = 0; clear_packet (); do_insert_header (); out_int (CODE_auth_send_code); out_string (user); out_int (0); out_int (TG_APP_ID); out_string (TG_APP_HASH); out_string ("en"); logprintf ("send_code: dc_num = %d\n", dc_working_num); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &send_code_methods, 0); net_loop (0, code_is_sent); if (want_dc_num == -1) { return; } DC_working = DC_list[want_dc_num]; if (!DC_working->sessions[0]) { dc_create_session (DC_working); } dc_working_num = want_dc_num; bl_do_set_working_dc (dc_working_num); logprintf ("send_code: dc_num = %d\n", dc_working_num); want_dc_num = 0; clear_packet (); do_insert_header (); out_int (CODE_auth_send_code); out_string (user); out_int (0); out_int (TG_APP_ID); out_string (TG_APP_HASH); out_string ("en"); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &send_code_methods, 0); net_loop (0, code_is_sent); assert (want_dc_num == -1); } /* }}} */ /* {{{ Check phone */ int check_phone_result; int cr_f (void) { return check_phone_result >= 0; } int check_phone_on_answer (struct query *q UU) { assert (fetch_int () == (int)CODE_auth_checked_phone); check_phone_result = fetch_bool (); fetch_bool (); return 0; } int check_phone_on_error (struct query *q UU, int error_code, int l, char *error) { int s = strlen ("PHONE_MIGRATE_"); int s2 = strlen ("NETWORK_MIGRATE_"); if (l >= s && !memcmp (error, "PHONE_MIGRATE_", s)) { int i = error[s] - '0'; assert (DC_list[i]); dc_working_num = i; DC_working = DC_list[i]; write_auth_file (); bl_do_set_working_dc (i); check_phone_result = 1; } else if (l >= s2 && !memcmp (error, "NETWORK_MIGRATE_", s2)) { int i = error[s2] - '0'; assert (DC_list[i]); dc_working_num = i; bl_do_set_working_dc (i); DC_working = DC_list[i]; write_auth_file (); check_phone_result = 1; } else { logprintf ( "error_code = %d, error = %.*s\n", error_code, l, error); assert (0); } return 0; } struct query_methods check_phone_methods = { .on_answer = check_phone_on_answer, .on_error = check_phone_on_error }; int do_auth_check_phone (const char *user) { suser = tstrdup (user); clear_packet (); out_int (CODE_auth_check_phone); out_string (user); check_phone_result = -1; send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &check_phone_methods, 0); net_loop (0, cr_f); return check_phone_result; } /* }}} */ /* {{{ Nearest DC */ int nearest_dc_num; int nr_f (void) { return nearest_dc_num >= 0; } int nearest_dc_on_answer (struct query *q UU) { assert (fetch_int () == (int)CODE_nearest_dc); char *country = fetch_str_dup (); if (verbosity > 0) { logprintf ("Server thinks that you are in %s\n", country); } fetch_int (); // this_dc nearest_dc_num = fetch_int (); assert (nearest_dc_num >= 0); return 0; } int fail_on_error (struct query *q UU, int error_code UU, int l UU, char *error UU) { fprintf (stderr, "error #%d: %.*s\n", error_code, l, error); assert (0); return 0; } struct query_methods nearest_dc_methods = { .on_answer = nearest_dc_on_answer, .on_error = fail_on_error }; int do_get_nearest_dc (void) { clear_packet (); out_int (CODE_help_get_nearest_dc); nearest_dc_num = -1; send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &nearest_dc_methods, 0); net_loop (0, nr_f); return nearest_dc_num; } /* }}} */ /* {{{ Sign in / Sign up */ int sign_in_ok; int our_id; int sign_in_is_ok (void) { return sign_in_ok; } struct user User; int sign_in_on_answer (struct query *q UU) { assert (fetch_int () == (int)CODE_auth_authorization); int expires = fetch_int (); fetch_user (&User); if (!our_id) { our_id = get_peer_id (User.id); bl_do_set_our_id (our_id); } sign_in_ok = 1; if (verbosity) { logprintf ( "authorized successfully: name = '%s %s', phone = '%s', expires = %d\n", User.first_name, User.last_name, User.phone, (int)(expires - get_double_time ())); } DC_working->has_auth = 1; bl_do_dc_signed (DC_working->id); return 0; } int sign_in_on_error (struct query *q UU, int error_code, int l, char *error) { logprintf ( "error_code = %d, error = %.*s\n", error_code, l, error); sign_in_ok = -1; assert (0); return 0; } struct query_methods sign_in_methods = { .on_answer = sign_in_on_answer, .on_error = sign_in_on_error }; int do_send_code_result (const char *code) { clear_packet (); out_int (CODE_auth_sign_in); out_string (suser); out_string (phone_code_hash); out_string (code); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &sign_in_methods, 0); sign_in_ok = 0; net_loop (0, sign_in_is_ok); return sign_in_ok; } int do_send_code_result_auth (const char *code, const char *first_name, const char *last_name) { clear_packet (); out_int (CODE_auth_sign_up); out_string (suser); out_string (phone_code_hash); out_string (code); out_string (first_name); out_string (last_name); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &sign_in_methods, 0); sign_in_ok = 0; net_loop (0, sign_in_is_ok); return sign_in_ok; } /* }}} */ /* {{{ Get contacts */ extern char *user_list[]; int get_contacts_on_answer (struct query *q UU) { int i; assert (fetch_int () == (int)CODE_contacts_contacts); assert (fetch_int () == CODE_vector); int n = fetch_int (); for (i = 0; i < n; i++) { assert (fetch_int () == (int)CODE_contact); fetch_int (); // id fetch_int (); // mutual } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n; i++) { struct user *U = fetch_alloc_user (); print_start (); push_color (COLOR_YELLOW); printf ("User #%d: ", get_peer_id (U->id)); print_user_name (U->id, (peer_t *)U); push_color (COLOR_GREEN); printf (" ("); printf ("%s", U->print_name); if (U->phone) { printf (" "); printf ("%s", U->phone); } printf (") "); pop_color (); if (U->status.online > 0) { printf ("online\n"); } else { if (U->status.online < 0) { printf ("offline. Was online "); print_date_full (U->status.when); } else { printf ("offline permanent"); } printf ("\n"); } pop_color (); print_end (); } return 0; } struct query_methods get_contacts_methods = { .on_answer = get_contacts_on_answer, }; void do_update_contact_list (void) { clear_packet (); out_int (CODE_contacts_get_contacts); out_string (""); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &get_contacts_methods, 0); } /* }}} */ /* {{{ Encrypt decrypted */ int *encr_extra; int *encr_ptr; int *encr_end; char *encrypt_decrypted_message (struct secret_chat *E) { static int msg_key[4]; static unsigned char sha1a_buffer[20]; static unsigned char sha1b_buffer[20]; static unsigned char sha1c_buffer[20]; static unsigned char sha1d_buffer[20]; int x = *(encr_ptr); assert (x >= 0 && !(x & 3)); sha1 ((void *)encr_ptr, 4 + x, sha1a_buffer); memcpy (msg_key, sha1a_buffer + 4, 16); static unsigned char buf[64]; memcpy (buf, msg_key, 16); memcpy (buf + 16, E->key, 32); sha1 (buf, 48, sha1a_buffer); memcpy (buf, E->key + 8, 16); memcpy (buf + 16, msg_key, 16); memcpy (buf + 32, E->key + 12, 16); sha1 (buf, 48, sha1b_buffer); memcpy (buf, E->key + 16, 32); memcpy (buf + 32, msg_key, 16); sha1 (buf, 48, sha1c_buffer); memcpy (buf, msg_key, 16); memcpy (buf + 16, E->key + 24, 32); sha1 (buf, 48, sha1d_buffer); static unsigned char key[32]; memcpy (key, sha1a_buffer + 0, 8); memcpy (key + 8, sha1b_buffer + 8, 12); memcpy (key + 20, sha1c_buffer + 4, 12); static unsigned char iv[32]; memcpy (iv, sha1a_buffer + 8, 12); memcpy (iv + 12, sha1b_buffer + 0, 8); memcpy (iv + 20, sha1c_buffer + 16, 4); memcpy (iv + 24, sha1d_buffer + 0, 8); AES_KEY aes_key; AES_set_encrypt_key (key, 256, &aes_key); AES_ige_encrypt ((void *)encr_ptr, (void *)encr_ptr, 4 * (encr_end - encr_ptr), &aes_key, iv, 1); memset (&aes_key, 0, sizeof (aes_key)); return (void *)msg_key; } void encr_start (void) { encr_extra = packet_ptr; packet_ptr += 1; // str len packet_ptr += 2; // fingerprint packet_ptr += 4; // msg_key packet_ptr += 1; // len } void encr_finish (struct secret_chat *E) { int l = packet_ptr - (encr_extra + 8); while (((packet_ptr - encr_extra) - 3) & 3) { int t; secure_random (&t, 4); out_int (t); } *encr_extra = ((packet_ptr - encr_extra) - 1) * 4 * 256 + 0xfe; encr_extra ++; *(long long *)encr_extra = E->key_fingerprint; encr_extra += 2; encr_extra[4] = l * 4; encr_ptr = encr_extra + 4; encr_end = packet_ptr; memcpy (encr_extra, encrypt_decrypted_message (E), 16); } /* }}} */ /* {{{ Seng msg (plain text) */ int msg_send_encr_on_answer (struct query *q UU) { assert (fetch_int () == CODE_messages_sent_encrypted_message); rprintf ("Sent\n"); struct message *M = q->extra; //M->date = fetch_int (); fetch_int (); bl_do_set_message_sent (M); return 0; } int msg_send_on_answer (struct query *q UU) { unsigned x = fetch_int (); assert (x == CODE_messages_sent_message || x == CODE_messages_sent_message_link); int id = fetch_int (); // id struct message *M = q->extra; bl_do_set_msg_id (M, id); fetch_date (); fetch_pts (); fetch_seq (); if (x == CODE_messages_sent_message_link) { assert (fetch_int () == CODE_vector); int n = fetch_int (); int i; unsigned a, b; for (i = 0; i < n; i++) { assert (fetch_int () == (int)CODE_contacts_link); a = fetch_int (); assert (a == CODE_contacts_my_link_empty || a == CODE_contacts_my_link_requested || a == CODE_contacts_my_link_contact); if (a == CODE_contacts_my_link_requested) { fetch_bool (); } b = fetch_int (); assert (b == CODE_contacts_foreign_link_unknown || b == CODE_contacts_foreign_link_requested || b == CODE_contacts_foreign_link_mutual); if (b == CODE_contacts_foreign_link_requested) { fetch_bool (); } struct user *U = fetch_alloc_user (); U->flags &= ~(FLAG_USER_IN_CONTACT | FLAG_USER_OUT_CONTACT); if (a == CODE_contacts_my_link_contact) { U->flags |= FLAG_USER_IN_CONTACT; } U->flags &= ~(FLAG_USER_IN_CONTACT | FLAG_USER_OUT_CONTACT); if (b == CODE_contacts_foreign_link_mutual) { U->flags |= FLAG_USER_IN_CONTACT | FLAG_USER_OUT_CONTACT; } if (b == CODE_contacts_foreign_link_requested) { U->flags |= FLAG_USER_OUT_CONTACT; } print_start (); push_color (COLOR_YELLOW); printf ("Link with user "); print_user_name (U->id, (void *)U); printf (" changed\n"); pop_color (); print_end (); } } rprintf ("Sent: id = %d\n", id); bl_do_set_message_sent (M); return 0; } int msg_send_on_error (struct query *q, int error_code, int error_len, char *error) { logprintf ( "error for query #%lld: #%d :%.*s\n", q->msg_id, error_code, error_len, error); struct message *M = q->extra; bl_do_delete_msg (M); return 0; } struct query_methods msg_send_methods = { .on_answer = msg_send_on_answer, .on_error = msg_send_on_error }; struct query_methods msg_send_encr_methods = { .on_answer = msg_send_encr_on_answer }; int out_message_num; int our_id; void do_send_encr_msg (struct message *M) { peer_t *P = user_chat_get (M->to_id); if (!P || P->encr_chat.state != sc_ok) { return; } clear_packet (); out_int (CODE_messages_send_encrypted); out_int (CODE_input_encrypted_chat); out_int (get_peer_id (M->to_id)); out_long (P->encr_chat.access_hash); out_long (M->id); encr_start (); out_int (CODE_decrypted_message); out_long (M->id); static int buf[4]; secure_random (buf, 16); out_cstring ((void *)buf, 16); out_cstring ((void *)M->message, M->message_len); out_int (CODE_decrypted_message_media_empty); encr_finish (&P->encr_chat); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &msg_send_encr_methods, M); } void do_send_msg (struct message *M) { if (get_peer_type (M->to_id) == PEER_ENCR_CHAT) { do_send_encr_msg (M); return; } clear_packet (); out_int (CODE_messages_send_message); out_peer_id (M->to_id); out_cstring (M->message, M->message_len); out_long (M->id); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &msg_send_methods, M); } void do_send_message (peer_id_t id, const char *msg, int len) { if (get_peer_type (id) == PEER_ENCR_CHAT) { peer_t *P = user_chat_get (id); if (!P) { logprintf ("Can not send to unknown encrypted chat\n"); return; } if (P->encr_chat.state != sc_ok) { logprintf ("Chat is not yet initialized\n"); return; } } long long t; secure_random (&t, 8); logprintf ("t = %lld, len = %d\n", t, len); bl_do_send_message_text (t, our_id, get_peer_type (id), get_peer_id (id), time (0), len, msg); struct message *M = message_get (t); assert (M); do_send_msg (M); print_message (M); } /* }}} */ /* {{{ Send text file */ void do_send_text (peer_id_t id, char *file_name) { int fd = open (file_name, O_RDONLY); if (fd < 0) { rprintf ("No such file '%s'\n", file_name); tfree_str (file_name); return; } static char buf[(1 << 20) + 1]; int x = read (fd, buf, (1 << 20) + 1); assert (x >= 0); if (x == (1 << 20) + 1) { rprintf ("Too big file '%s'\n", file_name); tfree_str (file_name); close (fd); } else { buf[x] = 0; do_send_message (id, buf, x); tfree_str (file_name); close (fd); } } /* }}} */ /* {{{ Mark read */ int mark_read_on_receive (struct query *q UU) { assert (fetch_int () == (int)CODE_messages_affected_history); fetch_pts (); fetch_seq (); fetch_int (); // offset return 0; } int mark_read_encr_on_receive (struct query *q UU) { fetch_bool (); return 0; } struct query_methods mark_read_methods = { .on_answer = mark_read_on_receive }; struct query_methods mark_read_encr_methods = { .on_answer = mark_read_encr_on_receive }; void do_messages_mark_read (peer_id_t id, int max_id) { clear_packet (); out_int (CODE_messages_read_history); out_peer_id (id); out_int (max_id); out_int (0); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &mark_read_methods, 0); } void do_messages_mark_read_encr (peer_id_t id, long long access_hash, int last_time) { clear_packet (); out_int (CODE_messages_read_encrypted_history); out_int (CODE_input_encrypted_chat); out_int (get_peer_id (id)); out_long (access_hash); out_int (last_time); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &mark_read_encr_methods, 0); } void do_mark_read (peer_id_t id) { peer_t *P = user_chat_get (id); if (!P) { rprintf ("Unknown peer\n"); return; } if (get_peer_type (id) == PEER_USER || get_peer_type (id) == PEER_CHAT) { if (!P->last) { rprintf ("Unknown last peer message\n"); return; } do_messages_mark_read (id, P->last->id); return; } assert (get_peer_type (id) == PEER_ENCR_CHAT); if (P->last) { do_messages_mark_read_encr (id, P->encr_chat.access_hash, P->last->date); } else { do_messages_mark_read_encr (id, P->encr_chat.access_hash, time (0) - 10); } } /* }}} */ /* {{{ Get history */ int get_history_on_answer (struct query *q UU) { static struct message *ML[10000]; int i; int x = fetch_int (); if (x == (int)CODE_messages_messages_slice) { fetch_int (); rprintf ("...\n"); } else { assert (x == (int)CODE_messages_messages); } assert (fetch_int () == CODE_vector); int n = fetch_int (); for (i = 0; i < n; i++) { struct message *M = fetch_alloc_message (); if (i <= 9999) { ML[i] = M; } } if (n > 10000) { n = 10000; } int sn = n; for (i = n - 1; i >= 0; i--) { print_message (ML[i]); } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n; i++) { fetch_alloc_chat (); } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n; i++) { fetch_alloc_user (); } if (sn > 0 && q->extra) { do_messages_mark_read (*(peer_id_t *)&(q->extra), ML[0]->id); } return 0; } struct query_methods get_history_methods = { .on_answer = get_history_on_answer, }; void do_get_local_history (peer_id_t id, int limit) { peer_t *P = user_chat_get (id); if (!P || !P->last) { return; } struct message *M = P->last; int count = 1; assert (!M->prev); while (count < limit && M->next) { M = M->next; count ++; } while (M) { print_message (M); M = M->prev; } } void do_get_history (peer_id_t id, int limit) { if (get_peer_type (id) == PEER_ENCR_CHAT || offline_mode) { do_get_local_history (id, limit); do_mark_read (id); return; } clear_packet (); out_int (CODE_messages_get_history); out_peer_id (id); out_int (0); out_int (0); out_int (limit); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &get_history_methods, (void *)*(long *)&id); } /* }}} */ /* {{{ Get dialogs */ int get_dialogs_on_answer (struct query *q UU) { unsigned x = fetch_int (); assert (x == CODE_messages_dialogs || x == CODE_messages_dialogs_slice); if (x == CODE_messages_dialogs_slice) { fetch_int (); // total_count } assert (fetch_int () == CODE_vector); int n, i; n = fetch_int (); static int dlist[2 * 100]; static peer_id_t plist[100]; int dl_size = n; for (i = 0; i < n; i++) { assert (fetch_int () == CODE_dialog); if (i < 100) { plist[i] = fetch_peer_id (); dlist[2 * i + 0] = fetch_int (); dlist[2 * i + 1] = fetch_int (); } else { fetch_peer_id (); fetch_int (); fetch_int (); } } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n; i++) { fetch_alloc_message (); } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n; i++) { fetch_alloc_chat (); } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n; i++) { fetch_alloc_user (); } print_start (); push_color (COLOR_YELLOW); for (i = dl_size - 1; i >= 0; i--) { peer_t *UC; switch (get_peer_type (plist[i])) { case PEER_USER: UC = user_chat_get (plist[i]); printf ("User "); print_user_name (plist[i], UC); printf (": %d unread\n", dlist[2 * i + 1]); break; case PEER_CHAT: UC = user_chat_get (plist[i]); printf ("Chat "); print_chat_name (plist[i], UC); printf (": %d unread\n", dlist[2 * i + 1]); break; } } pop_color (); print_end (); return 0; } struct query_methods get_dialogs_methods = { .on_answer = get_dialogs_on_answer, }; void do_get_dialog_list (void) { clear_packet (); out_int (CODE_messages_get_dialogs); out_int (0); out_int (0); out_int (1000); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &get_dialogs_methods, 0); } /* }}} */ int allow_send_linux_version = 1; /* {{{ Send photo/video file */ struct send_file { int fd; long long size; long long offset; int part_num; int part_size; long long id; long long thumb_id; peer_id_t to_id; unsigned media_type; char *file_name; int encr; unsigned char *iv; unsigned char *init_iv; unsigned char *key; }; void out_peer_id (peer_id_t id) { peer_t *U; switch (get_peer_type (id)) { case PEER_CHAT: out_int (CODE_input_peer_chat); out_int (get_peer_id (id)); break; case PEER_USER: U = user_chat_get (id); if (U && U->user.access_hash) { out_int (CODE_input_peer_foreign); out_int (get_peer_id (id)); out_long (U->user.access_hash); } else { out_int (CODE_input_peer_contact); out_int (get_peer_id (id)); } break; default: assert (0); } } void send_part (struct send_file *f); int send_file_part_on_answer (struct query *q) { assert (fetch_int () == (int)CODE_bool_true); send_part (q->extra); return 0; } int send_file_on_answer (struct query *q UU) { assert (fetch_int () == (int)CODE_messages_stated_message); struct message *M = fetch_alloc_message (); assert (fetch_int () == CODE_vector); int n, i; n = fetch_int (); for (i = 0; i < n; i++) { fetch_alloc_chat (); } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n; i++) { fetch_alloc_user (); } fetch_pts (); fetch_seq (); print_message (M); return 0; } int send_encr_file_on_answer (struct query *q UU) { if (prefetch_int () != (int)CODE_messages_sent_encrypted_file) { hexdump_in (); } assert (fetch_int () == (int)CODE_messages_sent_encrypted_file); struct message *M = q->extra; M->date = fetch_int (); assert (fetch_int () == CODE_encrypted_file); M->media.encr_photo.id = fetch_long (); M->media.encr_photo.access_hash = fetch_long (); //M->media.encr_photo.size = fetch_int (); fetch_int (); M->media.encr_photo.dc_id = fetch_int (); assert (fetch_int () == M->media.encr_photo.key_fingerprint); print_message (M); message_insert (M); return 0; } struct query_methods send_file_part_methods = { .on_answer = send_file_part_on_answer }; struct query_methods send_file_methods = { .on_answer = send_file_on_answer }; struct query_methods send_encr_file_methods = { .on_answer = send_encr_file_on_answer }; void send_part (struct send_file *f) { if (f->fd >= 0) { if (!f->part_num) { cur_uploading_bytes += f->size; } clear_packet (); if (f->size < (16 << 20)) { out_int (CODE_upload_save_file_part); out_long (f->id); out_int (f->part_num ++); } else { out_int (CODE_upload_save_big_file_part); out_long (f->id); out_int (f->part_num ++); out_int ((f->size + f->part_size - 1) / f->part_size); } static char buf[512 << 10]; int x = read (f->fd, buf, f->part_size); assert (x > 0); f->offset += x; cur_uploaded_bytes += x; if (f->encr) { if (x & 15) { assert (f->offset == f->size); secure_random (buf + x, (-x) & 15); x = (x + 15) & ~15; } AES_KEY aes_key; AES_set_encrypt_key (f->key, 256, &aes_key); AES_ige_encrypt ((void *)buf, (void *)buf, x, &aes_key, f->iv, 1); memset (&aes_key, 0, sizeof (aes_key)); } out_cstring (buf, x); if (verbosity >= 2) { logprintf ("offset=%lld size=%lld\n", f->offset, f->size); } if (f->offset == f->size) { close (f->fd); f->fd = -1; } else { assert (f->part_size == x); } update_prompt (); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &send_file_part_methods, f); } else { cur_uploaded_bytes -= f->size; cur_uploading_bytes -= f->size; update_prompt (); clear_packet (); assert (f->media_type == CODE_input_media_uploaded_photo || f->media_type == CODE_input_media_uploaded_video || f->media_type == CODE_input_media_uploaded_thumb_video || f->media_type == CODE_input_media_uploaded_audio || f->media_type == CODE_input_media_uploaded_document || f->media_type == CODE_input_media_uploaded_thumb_document); if (!f->encr) { out_int (CODE_messages_send_media); out_peer_id (f->to_id); out_int (f->media_type); if (f->size < (16 << 20)) { out_int (CODE_input_file); } else { out_int (CODE_input_file_big); } out_long (f->id); out_int (f->part_num); char *s = f->file_name + strlen (f->file_name); while (s >= f->file_name && *s != '/') { s --;} out_string (s + 1); if (f->size < (16 << 20)) { out_string (""); } if (f->media_type == CODE_input_media_uploaded_thumb_video || f->media_type == CODE_input_media_uploaded_thumb_document) { out_int (CODE_input_file); out_long (f->thumb_id); out_int (1); out_string ("thumb.jpg"); out_string (""); } if (f->media_type == CODE_input_media_uploaded_video || f->media_type == CODE_input_media_uploaded_thumb_video) { out_int (100); out_int (100); out_int (100); } if (f->media_type == CODE_input_media_uploaded_document || f->media_type == CODE_input_media_uploaded_thumb_document) { out_string (s + 1); out_string ("text"); } if (f->media_type == CODE_input_media_uploaded_audio) { out_int (60); } out_long (-lrand48 () * (1ll << 32) - lrand48 ()); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &send_file_methods, 0); } else { struct message *M = talloc0 (sizeof (*M)); out_int (CODE_messages_send_encrypted_file); out_int (CODE_input_encrypted_chat); out_int (get_peer_id (f->to_id)); peer_t *P = user_chat_get (f->to_id); assert (P); out_long (P->encr_chat.access_hash); long long r = -lrand48 () * (1ll << 32) - lrand48 (); out_long (r); encr_start (); out_int (CODE_decrypted_message); out_long (r); out_random (15 + 4 * (lrand48 () % 3)); out_string (""); if (f->media_type == CODE_input_media_uploaded_photo) { out_int (CODE_decrypted_message_media_photo); M->media.type = CODE_decrypted_message_media_photo; } else if (f->media_type == CODE_input_media_uploaded_video) { out_int (CODE_decrypted_message_media_video); M->media.type = CODE_decrypted_message_media_video; } else if (f->media_type == CODE_input_media_uploaded_audio) { out_int (CODE_decrypted_message_media_audio); M->media.type = CODE_decrypted_message_media_audio; } else if (f->media_type == CODE_input_media_uploaded_document) { out_int (CODE_decrypted_message_media_document); M->media.type = CODE_decrypted_message_media_document;; } else { assert (0); } if (f->media_type != CODE_input_media_uploaded_audio) { out_cstring ((void *)thumb_file, thumb_file_size); out_int (90); out_int (90); } if (f->media_type == CODE_input_media_uploaded_video) { out_int (0); } if (f->media_type == CODE_input_media_uploaded_document) { out_string (f->file_name); out_string ("text"); } if (f->media_type == CODE_input_media_uploaded_audio) { out_int (60); } if (f->media_type == CODE_input_media_uploaded_video || f->media_type == CODE_input_media_uploaded_photo) { out_int (100); out_int (100); } out_int (f->size); out_cstring ((void *)f->key, 32); out_cstring ((void *)f->init_iv, 32); encr_finish (&P->encr_chat); if (f->size < (16 << 20)) { out_int (CODE_input_encrypted_file_uploaded); } else { out_int (CODE_input_encrypted_file_big_uploaded); } out_long (f->id); out_int (f->part_num); if (f->size < (16 << 20)) { out_string (""); } unsigned char md5[16]; unsigned char str[64]; memcpy (str, f->key, 32); memcpy (str + 32, f->init_iv, 32); MD5 (str, 64, md5); out_int ((*(int *)md5) ^ (*(int *)(md5 + 4))); tfree_secure (f->iv, 32); M->media.encr_photo.key = f->key; M->media.encr_photo.iv = f->init_iv; M->media.encr_photo.key_fingerprint = (*(int *)md5) ^ (*(int *)(md5 + 4)); M->media.encr_photo.size = f->size; M->flags = FLAG_ENCRYPTED; M->from_id = MK_USER (our_id); M->to_id = f->to_id; M->unread = 1; M->message = tstrdup (""); M->out = 1; M->id = r; M->date = time (0); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &send_encr_file_methods, M); } tfree_str (f->file_name); tfree (f, sizeof (*f)); } } void send_file_thumb (struct send_file *f) { clear_packet (); f->thumb_id = lrand48 () * (1ll << 32) + lrand48 (); out_int (CODE_upload_save_file_part); out_long (f->thumb_id); out_int (0); out_cstring ((void *)thumb_file, thumb_file_size); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &send_file_part_methods, f); } void do_send_photo (int type, peer_id_t to_id, char *file_name) { int fd = open (file_name, O_RDONLY); if (fd < 0) { rprintf ("No such file '%s'\n", file_name); tfree_str (file_name); return; } struct stat buf; fstat (fd, &buf); long long size = buf.st_size; if (size <= 0) { rprintf ("File has zero length\n"); tfree_str (file_name); close (fd); return; } struct send_file *f = talloc0 (sizeof (*f)); f->fd = fd; f->size = size; f->offset = 0; f->part_num = 0; int tmp = ((size + 2999) / 3000); f->part_size = (1 << 10); while (f->part_size < tmp) { f->part_size *= 2; } if (f->part_size > (512 << 10)) { close (fd); rprintf ("Too big file. Maximal supported size is %d.\n", (512 << 10) * 1000); tfree (f, sizeof (*f)); tfree_str (file_name); return; } f->id = lrand48 () * (1ll << 32) + lrand48 (); f->to_id = to_id; f->media_type = type; f->file_name = file_name; if (get_peer_type (f->to_id) == PEER_ENCR_CHAT) { f->encr = 1; f->iv = talloc (32); secure_random (f->iv, 32); f->init_iv = talloc (32); memcpy (f->init_iv, f->iv, 32); f->key = talloc (32); secure_random (f->key, 32); } if (f->media_type == CODE_input_media_uploaded_video && !f->encr) { f->media_type = CODE_input_media_uploaded_thumb_video; send_file_thumb (f); } else if (f->media_type == CODE_input_media_uploaded_document && !f->encr) { f->media_type = CODE_input_media_uploaded_thumb_document; send_file_thumb (f); } else { send_part (f); } } /* }}} */ /* {{{ Forward */ int fwd_msg_on_answer (struct query *q UU) { assert (fetch_int () == (int)CODE_messages_stated_message); struct message *M = fetch_alloc_message (); assert (fetch_int () == CODE_vector); int n, i; n = fetch_int (); for (i = 0; i < n; i++) { fetch_alloc_chat (); } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n; i++) { fetch_alloc_user (); } fetch_pts (); fetch_seq (); print_message (M); return 0; } struct query_methods fwd_msg_methods = { .on_answer = fwd_msg_on_answer }; void do_forward_message (peer_id_t id, int n) { if (get_peer_type (id) == PEER_ENCR_CHAT) { rprintf ("Can not forward messages from secret chat\n"); return; } clear_packet (); out_int (CODE_messages_forward_message); out_peer_id (id); out_int (n); out_long (lrand48 () * (1ll << 32) + lrand48 ()); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &fwd_msg_methods, 0); } /* }}} */ /* {{{ Rename chat */ int rename_chat_on_answer (struct query *q UU) { assert (fetch_int () == (int)CODE_messages_stated_message); struct message *M = fetch_alloc_message (); assert (fetch_int () == CODE_vector); int n, i; n = fetch_int (); for (i = 0; i < n; i++) { fetch_alloc_chat (); } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n; i++) { fetch_alloc_user (); } fetch_pts (); fetch_seq (); print_message (M); return 0; } struct query_methods rename_chat_methods = { .on_answer = rename_chat_on_answer }; void do_rename_chat (peer_id_t id, char *name UU) { clear_packet (); out_int (CODE_messages_edit_chat_title); assert (get_peer_type (id) == PEER_CHAT); out_int (get_peer_id (id)); out_string (name); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &rename_chat_methods, 0); } /* }}} */ /* {{{ Chat info */ void print_chat_info (struct chat *C) { peer_t *U = (void *)C; print_start (); push_color (COLOR_YELLOW); printf ("Chat "); print_chat_name (U->id, U); printf (" members:\n"); int i; for (i = 0; i < C->user_list_size; i++) { printf ("\t\t"); print_user_name (MK_USER (C->user_list[i].user_id), user_chat_get (MK_USER (C->user_list[i].user_id))); printf (" invited by "); print_user_name (MK_USER (C->user_list[i].inviter_id), user_chat_get (MK_USER (C->user_list[i].inviter_id))); printf (" at "); print_date_full (C->user_list[i].date); if (C->user_list[i].user_id == C->admin_id) { printf (" admin"); } printf ("\n"); } pop_color (); print_end (); } int chat_info_on_answer (struct query *q UU) { struct chat *C = fetch_alloc_chat_full (); print_chat_info (C); return 0; } struct query_methods chat_info_methods = { .on_answer = chat_info_on_answer }; void do_get_chat_info (peer_id_t id) { if (offline_mode) { peer_t *C = user_chat_get (id); if (!C) { rprintf ("No such chat\n"); } else { print_chat_info (&C->chat); } return; } clear_packet (); out_int (CODE_messages_get_full_chat); assert (get_peer_type (id) == PEER_CHAT); out_int (get_peer_id (id)); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &chat_info_methods, 0); } /* }}} */ /* {{{ User info */ void print_user_info (struct user *U) { peer_t *C = (void *)U; print_start (); push_color (COLOR_YELLOW); printf ("User "); print_user_name (U->id, C); printf (":\n"); printf ("\treal name: %s %s\n", U->real_first_name, U->real_last_name); printf ("\tphone: %s\n", U->phone); if (U->status.online > 0) { printf ("\tonline\n"); } else { printf ("\toffline (was online "); print_date_full (U->status.when); printf (")\n"); } pop_color (); print_end (); } int user_info_on_answer (struct query *q UU) { struct user *U = fetch_alloc_user_full (); print_user_info (U); return 0; } struct query_methods user_info_methods = { .on_answer = user_info_on_answer }; void do_get_user_info (peer_id_t id) { if (offline_mode) { peer_t *C = user_chat_get (id); if (!C) { rprintf ("No such user\n"); } else { print_user_info (&C->user); } return; } clear_packet (); out_int (CODE_users_get_full_user); assert (get_peer_type (id) == PEER_USER); peer_t *U = user_chat_get (id); if (U && U->user.access_hash) { out_int (CODE_input_user_foreign); out_int (get_peer_id (id)); out_long (U->user.access_hash); } else { out_int (CODE_input_user_contact); out_int (get_peer_id (id)); } send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &user_info_methods, 0); } /* }}} */ /* {{{ Get user info silently */ int user_list_info_silent_on_answer (struct query *q UU) { assert (fetch_int () == CODE_vector); int n = fetch_int (); int i; for (i = 0; i < n; i++) { fetch_alloc_user (); } return 0; } struct query_methods user_list_info_silent_methods = { .on_answer = user_list_info_silent_on_answer }; void do_get_user_list_info_silent (int num, int *list) { clear_packet (); out_int (CODE_users_get_users); out_int (CODE_vector); out_int (num); int i; for (i = 0; i < num; i++) { out_int (CODE_input_user_contact); out_int (list[i]); //out_long (0); } send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &user_list_info_silent_methods, 0); } /* }}} */ /* {{{ Load photo/video */ struct download { int offset; int size; long long volume; long long secret; long long access_hash; int local_id; int dc; int next; int fd; char *name; long long id; unsigned char *iv; unsigned char *key; int type; }; void end_load (struct download *D) { cur_downloading_bytes -= D->size; cur_downloaded_bytes -= D->size; update_prompt (); close (D->fd); if (D->next == 1) { logprintf ("Done: %s\n", D->name); } else if (D->next == 2) { static char buf[PATH_MAX]; if (tsnprintf (buf, sizeof (buf), OPEN_BIN, D->name) >= (int) sizeof (buf)) { logprintf ("Open image command buffer overflow\n"); } else { int x = system (buf); if (x < 0) { logprintf ("Can not open image viewer: %m\n"); logprintf ("Image is at %s\n", D->name); } } } if (D->iv) { tfree_secure (D->iv, 32); } tfree_str (D->name); tfree (D, sizeof (*D)); } void load_next_part (struct download *D); int download_on_answer (struct query *q) { assert (fetch_int () == (int)CODE_upload_file); unsigned x = fetch_int (); assert (x); struct download *D = q->extra; if (D->fd == -1) { D->fd = open (D->name, O_CREAT | O_WRONLY, 0640); } fetch_int (); // mtime int len = prefetch_strlen (); assert (len >= 0); cur_downloaded_bytes += len; update_prompt (); if (D->iv) { unsigned char *ptr = (void *)fetch_str (len); assert (!(len & 15)); AES_KEY aes_key; AES_set_decrypt_key (D->key, 256, &aes_key); AES_ige_encrypt (ptr, ptr, len, &aes_key, D->iv, 0); memset (&aes_key, 0, sizeof (aes_key)); if (len > D->size - D->offset) { len = D->size - D->offset; } assert (write (D->fd, ptr, len) == len); } else { assert (write (D->fd, fetch_str (len), len) == len); } D->offset += len; if (D->offset < D->size) { load_next_part (D); return 0; } else { end_load (D); return 0; } } struct query_methods download_methods = { .on_answer = download_on_answer }; void load_next_part (struct download *D) { if (!D->offset) { static char buf[PATH_MAX]; int l; if (!D->id) { l = tsnprintf (buf, sizeof (buf), "%s/download_%lld_%d", get_downloads_directory (), D->volume, D->local_id); } else { l = tsnprintf (buf, sizeof (buf), "%s/download_%lld", get_downloads_directory (), D->id); } if (l >= (int) sizeof (buf)) { logprintf ("Download filename is too long"); exit (1); } D->name = tstrdup (buf); struct stat st; if (stat (buf, &st) >= 0) { D->offset = st.st_size; if (D->offset >= D->size) { cur_downloading_bytes += D->size; cur_downloaded_bytes += D->offset; rprintf ("Already downloaded\n"); end_load (D); return; } } cur_downloading_bytes += D->size; cur_downloaded_bytes += D->offset; update_prompt (); } clear_packet (); out_int (CODE_upload_get_file); if (!D->id) { out_int (CODE_input_file_location); out_long (D->volume); out_int (D->local_id); out_long (D->secret); } else { if (D->iv) { out_int (CODE_input_encrypted_file_location); } else { out_int (D->type); } out_long (D->id); out_long (D->access_hash); } out_int (D->offset); out_int (1 << 14); send_query (DC_list[D->dc], packet_ptr - packet_buffer, packet_buffer, &download_methods, D); //send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &download_methods, D); } void do_load_photo_size (struct photo_size *P, int next) { if (!P->loc.dc) { rprintf ("Bad video thumb\n"); return; } assert (P); assert (next); struct download *D = talloc0 (sizeof (*D)); D->id = 0; D->offset = 0; D->size = P->size; D->volume = P->loc.volume; D->dc = P->loc.dc; D->local_id = P->loc.local_id; D->secret = P->loc.secret; D->next = next; D->name = 0; D->fd = -1; load_next_part (D); } void do_load_photo (struct photo *photo, int next) { if (!photo->sizes_num) { return; } int max = -1; int maxi = 0; int i; for (i = 0; i < photo->sizes_num; i++) { if (photo->sizes[i].w + photo->sizes[i].h > max) { max = photo->sizes[i].w + photo->sizes[i].h; maxi = i; } } do_load_photo_size (&photo->sizes[maxi], next); } void do_load_video_thumb (struct video *video, int next) { do_load_photo_size (&video->thumb, next); } void do_load_document_thumb (struct document *video, int next) { do_load_photo_size (&video->thumb, next); } void do_load_video (struct video *V, int next) { assert (V); assert (next); struct download *D = talloc0 (sizeof (*D)); D->offset = 0; D->size = V->size; D->id = V->id; D->access_hash = V->access_hash; D->dc = V->dc_id; D->next = next; D->name = 0; D->fd = -1; D->type = CODE_input_video_file_location; load_next_part (D); } void do_load_audio (struct video *V, int next) { assert (V); assert (next); struct download *D = talloc0 (sizeof (*D)); D->offset = 0; D->size = V->size; D->id = V->id; D->access_hash = V->access_hash; D->dc = V->dc_id; D->next = next; D->name = 0; D->fd = -1; D->type = CODE_input_audio_file_location; load_next_part (D); } void do_load_document (struct document *V, int next) { assert (V); assert (next); struct download *D = talloc0 (sizeof (*D)); D->offset = 0; D->size = V->size; D->id = V->id; D->access_hash = V->access_hash; D->dc = V->dc_id; D->next = next; D->name = 0; D->fd = -1; D->type = CODE_input_document_file_location; load_next_part (D); } void do_load_encr_video (struct encr_video *V, int next) { assert (V); assert (next); struct download *D = talloc0 (sizeof (*D)); D->offset = 0; D->size = V->size; D->id = V->id; D->access_hash = V->access_hash; D->dc = V->dc_id; D->next = next; D->name = 0; D->fd = -1; D->key = V->key; D->iv = talloc (32); memcpy (D->iv, V->iv, 32); load_next_part (D); unsigned char md5[16]; unsigned char str[64]; memcpy (str, V->key, 32); memcpy (str + 32, V->iv, 32); MD5 (str, 64, md5); assert (V->key_fingerprint == ((*(int *)md5) ^ (*(int *)(md5 + 4)))); } /* }}} */ /* {{{ Export auth */ char *export_auth_str; int export_auth_str_len; int is_export_auth_str (void) { return export_auth_str != 0; } int isn_export_auth_str (void) { return export_auth_str == 0; } int export_auth_on_answer (struct query *q UU) { assert (fetch_int () == (int)CODE_auth_exported_authorization); int l = fetch_int (); if (!our_id) { our_id = l; } else { assert (our_id == l); } l = prefetch_strlen (); char *s = talloc (l); memcpy (s, fetch_str (l), l); export_auth_str_len = l; export_auth_str = s; return 0; } struct query_methods export_auth_methods = { .on_answer = export_auth_on_answer, .on_error = fail_on_error }; void do_export_auth (int num) { export_auth_str = 0; clear_packet (); out_int (CODE_auth_export_authorization); out_int (num); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &export_auth_methods, 0); net_loop (0, is_export_auth_str); } /* }}} */ /* {{{ Import auth */ int import_auth_on_answer (struct query *q UU) { assert (fetch_int () == (int)CODE_auth_authorization); fetch_int (); // expires fetch_alloc_user (); tfree_str (export_auth_str); export_auth_str = 0; return 0; } struct query_methods import_auth_methods = { .on_answer = import_auth_on_answer, .on_error = fail_on_error }; void do_import_auth (int num) { clear_packet (); out_int (CODE_auth_import_authorization); out_int (our_id); out_cstring (export_auth_str, export_auth_str_len); send_query (DC_list[num], packet_ptr - packet_buffer, packet_buffer, &import_auth_methods, 0); net_loop (0, isn_export_auth_str); } /* }}} */ /* {{{ Add contact */ int add_contact_on_answer (struct query *q UU) { assert (fetch_int () == (int)CODE_contacts_imported_contacts); assert (fetch_int () == CODE_vector); int n = fetch_int (); if (n > 0) { logprintf ("Added successfully"); } else { logprintf ("Not added"); } int i; for (i = 0; i < n ; i++) { assert (fetch_int () == (int)CODE_imported_contact); fetch_int (); // uid fetch_long (); // client_id } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n ; i++) { struct user *U = fetch_alloc_user (); print_start (); push_color (COLOR_YELLOW); printf ("User #%d: ", get_peer_id (U->id)); print_user_name (U->id, (peer_t *)U); push_color (COLOR_GREEN); printf (" ("); printf ("%s", U->print_name); if (U->phone) { printf (" "); printf ("%s", U->phone); } printf (") "); pop_color (); if (U->status.online > 0) { printf ("online\n"); } else { if (U->status.online < 0) { printf ("offline. Was online "); print_date_full (U->status.when); } else { printf ("offline permanent"); } printf ("\n"); } pop_color (); print_end (); } return 0; } struct query_methods add_contact_methods = { .on_answer = add_contact_on_answer, }; void do_add_contact (const char *phone, int phone_len, const char *first_name, int first_name_len, const char *last_name, int last_name_len, int force) { clear_packet (); out_int (CODE_contacts_import_contacts); out_int (CODE_vector); out_int (1); out_int (CODE_input_phone_contact); out_long (lrand48 () * (1ll << 32) + lrand48 ()); out_cstring (phone, phone_len); out_cstring (first_name, first_name_len); out_cstring (last_name, last_name_len); out_int (force ? CODE_bool_true : CODE_bool_false); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &add_contact_methods, 0); } /* }}} */ /* {{{ Msg search */ int msg_search_on_answer (struct query *q UU) { return get_history_on_answer (q); } struct query_methods msg_search_methods = { .on_answer = msg_search_on_answer }; void do_msg_search (peer_id_t id, int from, int to, int limit, const char *s) { if (get_peer_type (id) == PEER_ENCR_CHAT) { rprintf ("Can not search in secure chat\n"); return; } clear_packet (); out_int (CODE_messages_search); if (get_peer_type (id) == PEER_UNKNOWN) { out_int (CODE_input_peer_empty); } else { out_peer_id (id); } out_string (s); out_int (CODE_input_messages_filter_empty); out_int (from); out_int (to); out_int (0); // offset out_int (0); // max_id out_int (limit); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &msg_search_methods, 0); } /* }}} */ /* {{{ Contacts search */ int contacts_search_on_answer (struct query *q UU) { assert (fetch_int () == CODE_contacts_found); assert (fetch_int () == CODE_vector); int n = fetch_int (); int i; for (i = 0; i < n; i++) { assert (fetch_int () == (int)CODE_contact_found); fetch_int (); } assert (fetch_int () == CODE_vector); n = fetch_int (); print_start (); push_color (COLOR_YELLOW); for (i = 0; i < n; i++) { struct user *U = fetch_alloc_user (); printf ("User "); push_color (COLOR_RED); printf ("%s %s", U->first_name, U->last_name); pop_color (); printf (". Phone %s\n", U->phone); } pop_color (); print_end (); return 0; } struct query_methods contacts_search_methods = { .on_answer = contacts_search_on_answer }; void do_contacts_search (int limit, const char *s) { clear_packet (); out_int (CODE_contacts_search); out_string (s); out_int (limit); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &contacts_search_methods, 0); } /* }}} */ /* {{{ Encr accept */ int send_encr_accept_on_answer (struct query *q UU) { struct secret_chat *E = fetch_alloc_encrypted_chat (); if (E->state == sc_ok) { print_start (); push_color (COLOR_YELLOW); printf ("Encrypted connection with "); print_encr_chat_name (E->id, (void *)E); printf (" established\n"); pop_color (); print_end (); } else { print_start (); push_color (COLOR_YELLOW); printf ("Encrypted connection with "); print_encr_chat_name (E->id, (void *)E); printf (" failed\n"); pop_color (); print_end (); } return 0; } int send_encr_request_on_answer (struct query *q UU) { struct secret_chat *E = fetch_alloc_encrypted_chat (); if (E->state == sc_deleted) { print_start (); push_color (COLOR_YELLOW); printf ("Encrypted connection with "); print_encr_chat_name (E->id, (void *)E); printf (" can not be established\n"); pop_color (); print_end (); } else { print_start (); push_color (COLOR_YELLOW); printf ("Establishing connection with "); print_encr_chat_name (E->id, (void *)E); printf ("\n"); pop_color (); print_end (); assert (E->state == sc_waiting); } return 0; } struct query_methods send_encr_accept_methods = { .on_answer = send_encr_accept_on_answer }; struct query_methods send_encr_request_methods = { .on_answer = send_encr_request_on_answer }; int encr_root; unsigned char *encr_prime; int encr_param_version; BN_CTX *ctx; void do_send_accept_encr_chat (struct secret_chat *E, unsigned char *random) { int i; int ok = 0; for (i = 0; i < 64; i++) { if (E->key[i]) { ok = 1; break; } } if (ok) { return; } // Already generated key for this chat unsigned char random_here[256]; secure_random (random_here, 256); for (i = 0; i < 256; i++) { random[i] ^= random_here[i]; } BIGNUM *b = BN_bin2bn (random, 256, 0); ensure_ptr (b); BIGNUM *g_a = BN_bin2bn (E->g_key, 256, 0); ensure_ptr (g_a); assert (check_g (encr_prime, g_a) >= 0); if (!ctx) { ctx = BN_CTX_new (); ensure_ptr (ctx); } BIGNUM *p = BN_bin2bn (encr_prime, 256, 0); ensure_ptr (p); BIGNUM *r = BN_new (); ensure_ptr (r); ensure (BN_mod_exp (r, g_a, b, p, ctx)); static unsigned char kk[256]; memset (kk, 0, sizeof (kk)); BN_bn2bin (r, kk); for (i = 0; i < 256; i++) { kk[i] ^= E->nonce[i]; } static unsigned char sha_buffer[20]; sha1 (kk, 256, sha_buffer); bl_do_set_encr_chat_key (E, kk, *(long long *)(sha_buffer + 12)); clear_packet (); out_int (CODE_messages_accept_encryption); out_int (CODE_input_encrypted_chat); out_int (get_peer_id (E->id)); out_long (E->access_hash); ensure (BN_set_word (g_a, encr_root)); ensure (BN_mod_exp (r, g_a, b, p, ctx)); static unsigned char buf[256]; memset (buf, 0, sizeof (buf)); BN_bn2bin (r, buf); out_cstring ((void *)buf, 256); out_long (E->key_fingerprint); BN_clear_free (b); BN_clear_free (g_a); BN_clear_free (p); BN_clear_free (r); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &send_encr_accept_methods, E); } void do_create_keys_end (struct secret_chat *U) { assert (encr_prime); BIGNUM *g_b = BN_bin2bn (U->g_key, 256, 0); ensure_ptr (g_b); assert (check_g (encr_prime, g_b) >= 0); if (!ctx) { ctx = BN_CTX_new (); ensure_ptr (ctx); } BIGNUM *p = BN_bin2bn (encr_prime, 256, 0); ensure_ptr (p); BIGNUM *r = BN_new (); ensure_ptr (r); BIGNUM *a = BN_bin2bn ((void *)U->key, 256, 0); ensure_ptr (a); ensure (BN_mod_exp (r, g_b, a, p, ctx)); unsigned char *t = talloc (256); memcpy (t, U->key, 256); memset (U->key, 0, sizeof (U->key)); BN_bn2bin (r, (void *)U->key); int i; for (i = 0; i < 64; i++) { U->key[i] ^= *(((int *)U->nonce) + i); } static unsigned char sha_buffer[20]; sha1 ((void *)U->key, 256, sha_buffer); long long k = *(long long *)(sha_buffer + 12); if (k != U->key_fingerprint) { logprintf ("version = %d\n", encr_param_version); hexdump ((void *)U->nonce, (void *)(U->nonce + 256)); hexdump ((void *)U->g_key, (void *)(U->g_key + 256)); hexdump ((void *)U->key, (void *)(U->key + 64)); hexdump ((void *)t, (void *)(t + 256)); hexdump ((void *)sha_buffer, (void *)(sha_buffer + 20)); logprintf ("!!Key fingerprint mismatch (my 0x%llx 0x%llx)\n", (unsigned long long)k, (unsigned long long)U->key_fingerprint); U->state = sc_deleted; } tfree_secure (t, 256); BN_clear_free (p); BN_clear_free (g_b); BN_clear_free (r); BN_clear_free (a); } void do_send_create_encr_chat (void *x, unsigned char *random) { int user_id = (long)x; int i; unsigned char random_here[256]; secure_random (random_here, 256); for (i = 0; i < 256; i++) { random[i] ^= random_here[i]; } if (!ctx) { ctx = BN_CTX_new (); ensure_ptr (ctx); } BIGNUM *a = BN_bin2bn (random, 256, 0); ensure_ptr (a); BIGNUM *p = BN_bin2bn (encr_prime, 256, 0); ensure_ptr (p); BIGNUM *g = BN_new (); ensure_ptr (g); ensure (BN_set_word (g, encr_root)); BIGNUM *r = BN_new (); ensure_ptr (r); ensure (BN_mod_exp (r, g, a, p, ctx)); BN_clear_free (a); static char g_a[256]; memset (g_a, 0, 256); BN_bn2bin (r, (void *)g_a); int t = lrand48 (); while (user_chat_get (MK_ENCR_CHAT (t))) { t = lrand48 (); } bl_do_encr_chat_init (t, user_id, (void *)random, (void *)g_a); peer_t *_E = user_chat_get (MK_ENCR_CHAT (t)); assert (_E); struct secret_chat *E = &_E->encr_chat; clear_packet (); out_int (CODE_messages_request_encryption); peer_t *U = user_chat_get (MK_USER (E->user_id)); assert (U); if (U && U->user.access_hash) { out_int (CODE_input_user_foreign); out_int (E->user_id); out_long (U->user.access_hash); } else { out_int (CODE_input_user_contact); out_int (E->user_id); } out_int (get_peer_id (E->id)); out_cstring (g_a, 256); write_secret_chat_file (); BN_clear_free (g); BN_clear_free (p); BN_clear_free (r); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &send_encr_request_methods, E); } int get_dh_config_on_answer (struct query *q UU) { unsigned x = fetch_int (); assert (x == CODE_messages_dh_config || x == CODE_messages_dh_config_not_modified || LOG_DH_CONFIG); if (x == CODE_messages_dh_config || x == LOG_DH_CONFIG) { int a = fetch_int (); int l = prefetch_strlen (); assert (l == 256); char *s = fetch_str (l); int v = fetch_int (); bl_do_set_dh_params (a, (void *)s, v); BIGNUM *p = BN_bin2bn ((void *)s, 256, 0); ensure_ptr (p); assert (check_DH_params (p, a) >= 0); BN_free (p); } if (x == LOG_DH_CONFIG) { return 0; } int l = prefetch_strlen (); assert (l == 256); unsigned char *random = talloc (256); memcpy (random, fetch_str (256), 256); if (q->extra) { void **x = q->extra; ((void (*)(void *, void *))(*x))(x[1], random); tfree (x, 2 * sizeof (void *)); tfree_secure (random, 256); } else { tfree_secure (random, 256); } return 0; } struct query_methods get_dh_config_methods = { .on_answer = get_dh_config_on_answer }; void do_accept_encr_chat_request (struct secret_chat *E) { assert (E->state == sc_request); clear_packet (); out_int (CODE_messages_get_dh_config); out_int (encr_param_version); out_int (256); void **x = talloc (2 * sizeof (void *)); x[0] = do_send_accept_encr_chat; x[1] = E; send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &get_dh_config_methods, x); } void do_create_encr_chat_request (int user_id) { clear_packet (); out_int (CODE_messages_get_dh_config); out_int (encr_param_version); out_int (256); void **x = talloc (2 * sizeof (void *)); x[0] = do_send_create_encr_chat; x[1] = (void *)(long)(user_id); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &get_dh_config_methods, x); } /* }}} */ /* {{{ Get difference */ int unread_messages; int difference_got; int seq, pts, qts, last_date; int get_state_on_answer (struct query *q UU) { assert (fetch_int () == (int)CODE_updates_state); bl_do_set_pts (fetch_int ()); bl_do_set_qts (fetch_int ()); bl_do_set_date (fetch_int ()); bl_do_set_seq (fetch_int ()); unread_messages = fetch_int (); write_state_file (); difference_got = 1; return 0; } int get_difference_active; int get_difference_on_answer (struct query *q UU) { get_difference_active = 0; unsigned x = fetch_int (); if (x == CODE_updates_difference_empty) { bl_do_set_date (fetch_int ()); bl_do_set_seq (fetch_int ()); difference_got = 1; } else if (x == CODE_updates_difference || x == CODE_updates_difference_slice) { int n, i; assert (fetch_int () == CODE_vector); n = fetch_int (); static struct message *ML[10000]; int ml_pos = 0; for (i = 0; i < n; i++) { if (ml_pos < 10000) { ML[ml_pos ++] = fetch_alloc_message (); } else { fetch_alloc_message (); } } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n; i++) { if (ml_pos < 10000) { ML[ml_pos ++] = fetch_alloc_encrypted_message (); } else { fetch_alloc_encrypted_message (); } } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n; i++) { work_update (0, 0); } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n; i++) { fetch_alloc_chat (); } assert (fetch_int () == CODE_vector); n = fetch_int (); for (i = 0; i < n; i++) { fetch_alloc_user (); } assert (fetch_int () == (int)CODE_updates_state); bl_do_set_pts (fetch_int ()); bl_do_set_qts (fetch_int ()); bl_do_set_date (fetch_int ()); bl_do_set_seq (fetch_int ()); unread_messages = fetch_int (); write_state_file (); for (i = 0; i < ml_pos; i++) { print_message (ML[i]); } if (x == CODE_updates_difference_slice) { do_get_difference (); } else { difference_got = 1; } } else { assert (0); } return 0; } struct query_methods get_state_methods = { .on_answer = get_state_on_answer }; struct query_methods get_difference_methods = { .on_answer = get_difference_on_answer }; void do_get_difference (void) { get_difference_active = 1; difference_got = 0; clear_packet (); do_insert_header (); if (seq > 0 || sync_from_start) { if (pts == 0) { pts = 1; } if (qts == 0) { qts = 1; } if (last_date == 0) { last_date = 1; } out_int (CODE_updates_get_difference); out_int (pts); out_int (last_date); out_int (qts); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &get_difference_methods, 0); } else { out_int (CODE_updates_get_state); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &get_state_methods, 0); } } /* }}} */ /* {{{ Visualize key */ char *colors[4] = {COLOR_GREY, COLOR_CYAN, COLOR_BLUE, COLOR_GREEN}; void do_visualize_key (peer_id_t id) { assert (get_peer_type (id) == PEER_ENCR_CHAT); peer_t *P = user_chat_get (id); assert (P); if (P->encr_chat.state != sc_ok) { rprintf ("Chat is not initialized yet\n"); return; } unsigned char buf[20]; SHA1 ((void *)P->encr_chat.key, 256, buf); print_start (); int i; for (i = 0; i < 16; i++) { int x = buf[i]; int j; for (j = 0; j < 4; j ++) { push_color (colors[x & 3]); push_color (COLOR_INVERSE); printf (" "); pop_color (); pop_color (); x = x >> 2; } if (i & 1) { printf ("\n"); } } print_end (); } /* }}} */ /* {{{ Get suggested */ int get_suggested_on_answer (struct query *q UU) { assert (fetch_int () == CODE_contacts_suggested); assert (fetch_int () == CODE_vector); int n = fetch_int (); logprintf ("n = %d\n", n); assert (n <= 200); int l[400]; int i; for (i = 0; i < n; i++) { assert (fetch_int () == CODE_contact_suggested); l[2 * i] = fetch_int (); l[2 * i + 1] = fetch_int (); } assert (fetch_int () == CODE_vector); int m = fetch_int (); assert (n == m); print_start (); push_color (COLOR_YELLOW); for (i = 0; i < m; i++) { peer_t *U = (void *)fetch_alloc_user (); assert (get_peer_id (U->id) == l[2 * i]); print_user_name (U->id, U); printf (" phone %s: %d mutual friends\n", U->user.phone, l[2 * i + 1]); } pop_color (); print_end (); return 0; } struct query_methods get_suggested_methods = { .on_answer = get_suggested_on_answer }; void do_get_suggested (void) { clear_packet (); out_int (CODE_contacts_get_suggested); out_int (100); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &get_suggested_methods, 0); } /* }}} */ /* {{{ Add user to chat */ struct query_methods add_user_to_chat_methods = { .on_answer = fwd_msg_on_answer }; void do_add_user_to_chat (peer_id_t chat_id, peer_id_t id, int limit) { clear_packet (); out_int (CODE_messages_add_chat_user); out_int (get_peer_id (chat_id)); assert (get_peer_type (id) == PEER_USER); peer_t *U = user_chat_get (id); if (U && U->user.access_hash) { out_int (CODE_input_user_foreign); out_int (get_peer_id (id)); out_long (U->user.access_hash); } else { out_int (CODE_input_user_contact); out_int (get_peer_id (id)); } out_int (limit); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &add_user_to_chat_methods, 0); } void do_del_user_from_chat (peer_id_t chat_id, peer_id_t id) { clear_packet (); out_int (CODE_messages_delete_chat_user); out_int (get_peer_id (chat_id)); assert (get_peer_type (id) == PEER_USER); peer_t *U = user_chat_get (id); if (U && U->user.access_hash) { out_int (CODE_input_user_foreign); out_int (get_peer_id (id)); out_long (U->user.access_hash); } else { out_int (CODE_input_user_contact); out_int (get_peer_id (id)); } send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &add_user_to_chat_methods, 0); } /* }}} */ /* {{{ Create secret chat */ char *create_print_name (peer_id_t id, const char *a1, const char *a2, const char *a3, const char *a4); void do_create_secret_chat (peer_id_t id) { assert (get_peer_type (id) == PEER_USER); peer_t *U = user_chat_get (id); if (!U) { rprintf ("Can not create chat with unknown user\n"); return; } do_create_encr_chat_request (get_peer_id (id)); } /* }}} */ /* {{{ Delete msg */ int delete_msg_on_answer (struct query *q UU) { assert (fetch_int () == CODE_vector); int n = fetch_int (); fetch_skip (n); logprintf ("Deleted %d messages\n", n); return 0; } struct query_methods delete_msg_methods = { .on_answer = delete_msg_on_answer }; void do_delete_msg (long long id) { clear_packet (); out_int (CODE_messages_delete_messages); out_int (CODE_vector); out_int (1); out_int (id); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &delete_msg_methods, 0); } /* }}} */ /* {{{ Restore msg */ int restore_msg_on_answer (struct query *q UU) { assert (fetch_int () == CODE_vector); int n = fetch_int (); fetch_skip (n); logprintf ("Restored %d messages\n", n); return 0; } struct query_methods restore_msg_methods = { .on_answer = restore_msg_on_answer }; void do_restore_msg (long long id) { clear_packet (); out_int (CODE_messages_restore_messages); out_int (CODE_vector); out_int (1); out_int (id); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &restore_msg_methods, 0); } /* }}} */ int update_status_on_answer (struct query *q UU) { fetch_bool (); return 0; } struct query_methods update_status_methods = { .on_answer = update_status_on_answer }; void do_update_status (int online UU) { clear_packet (); out_int (CODE_account_update_status); out_int (online ? CODE_bool_false : CODE_bool_true); send_query (DC_working, packet_ptr - packet_buffer, packet_buffer, &update_status_methods, 0); }