/* 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 Nikolay Durov, Andrey Lopatin 2012-2013 Copyright Vitaly Valtman 2013 */ #ifndef __MTPROTO_COMMON_H__ #define __MTPROTO_COMMON_H__ #include #include #include #include #include #include "interface.h" #include "constants.h" /* DH key exchange protocol data structures */ #define CODE_req_pq 0x60469778 #define CODE_resPQ 0x05162463 #define CODE_req_DH_params 0xd712e4be #define CODE_p_q_inner_data 0x83c95aec #define CODE_server_DH_inner_data 0xb5890dba #define CODE_server_DH_params_fail 0x79cb045d #define CODE_server_DH_params_ok 0xd0e8075c #define CODE_set_client_DH_params 0xf5045f1f #define CODE_client_DH_inner_data 0x6643b654 #define CODE_dh_gen_ok 0x3bcbf734 #define CODE_dh_gen_retry 0x46dc1fb9 #define CODE_dh_gen_fail 0xa69dae02 /* service messages */ #define CODE_rpc_result 0xf35c6d01 #define CODE_rpc_error 0x2144ca19 #define CODE_msg_container 0x73f1f8dc #define CODE_msg_copy 0xe06046b2 #define CODE_msgs_ack 0x62d6b459 #define CODE_bad_msg_notification 0xa7eff811 #define CODE_bad_server_salt 0xedab447b #define CODE_msgs_state_req 0xda69fb52 #define CODE_msgs_state_info 0x04deb57d #define CODE_msgs_all_info 0x8cc0d131 #define CODE_new_session_created 0x9ec20908 #define CODE_msg_resend_req 0x7d861a08 #define CODE_ping 0x7abe77ec #define CODE_pong 0x347773c5 #define CODE_destroy_session 0xe7512126 #define CODE_destroy_session_ok 0xe22045fc #define CODE_destroy_session_none 0x62d350c9 #define CODE_destroy_sessions 0x9a6face8 #define CODE_destroy_sessions_res 0xa8164668 #define CODE_get_future_salts 0xb921bd04 #define CODE_future_salt 0x0949d9dc #define CODE_future_salts 0xae500895 #define CODE_rpc_drop_answer 0x58e4a740 #define CODE_rpc_answer_unknown 0x5e2ad36e #define CODE_rpc_answer_dropped_running 0xcd78e586 #define CODE_rpc_answer_dropped 0xa43ad8b7 #define CODE_msg_detailed_info 0x276d3ec6 #define CODE_msg_new_detailed_info 0x809db6df #define CODE_ping_delay_disconnect 0xf3427b8c #define CODE_gzip_packed 0x3072cfa1 #define CODE_input_peer_notify_settings_old 0x3cf4b1be #define CODE_peer_notify_settings_old 0xddbcd4a5 #define CODE_user_profile_photo_old 0x990d1493 #define CODE_msg_new_detailed_info 0x809db6df #define CODE_msg_detailed_info 0x276d3ec6 /* not really a limit, for struct encrypted_message only */ // #define MAX_MESSAGE_INTS 16384 #define MAX_MESSAGE_INTS 1048576 #define MAX_PROTO_MESSAGE_INTS 1048576 #define PACKET_BUFFER_SIZE (16384 * 100 + 16) // temp fix #pragma pack(push,4) struct encrypted_message { // unencrypted header long long auth_key_id; char msg_key[16]; // encrypted part, starts with encrypted header long long server_salt; long long session_id; // long long auth_key_id2; // removed // first message follows long long msg_id; int seq_no; int msg_len; // divisible by 4 int message[MAX_MESSAGE_INTS]; }; struct worker_descr { int addr; int port; int pid; int start_time; int id; }; struct rpc_ready_packet { int len; int seq_num; int type; struct worker_descr worker; int worker_ready_cnt; int crc32; }; struct front_descr { int addr; int port; int pid; int start_time; int id; }; struct rpc_front_packet { int len; int seq_num; int type; struct front_descr front; long long hash_mult; int rem, mod; int crc32; }; struct middle_descr { int addr; int port; int pid; int start_time; int id; }; struct rpc_front_ack { int len; int seq_num; int type; struct middle_descr middle; int crc32; }; struct rpc_front_err { int len; int seq_num; int type; int errcode; struct middle_descr middle; long long hash_mult; int rem, mod; int crc32; }; struct rpc_proxy_req { int len; int seq_num; int type; int flags; long long ext_conn_id; unsigned char remote_ipv6[16]; int remote_port; unsigned char our_ipv6[16]; int our_port; int data[]; }; #define PROXY_HDR(__x) ((struct rpc_proxy_req *)((__x) - offsetof(struct rpc_proxy_req, data))) struct rpc_proxy_ans { int len; int seq_num; int type; int flags; // +16 = small error packet, +8 = flush immediately long long ext_conn_id; int data[]; }; struct rpc_close_conn { int len; int seq_num; int type; long long ext_conn_id; int crc32; }; struct rpc_close_ext { int len; int seq_num; int type; long long ext_conn_id; int crc32; }; struct rpc_simple_ack { int len; int seq_num; int type; long long ext_conn_id; int confirm_key; int crc32; }; #pragma pack(pop) BN_CTX *BN_ctx; void prng_seed (const char *password_filename, int password_length); int serialize_bignum (BIGNUM *b, char *buffer, int maxlen); long long compute_rsa_key_fingerprint (RSA *key); extern int *packet_buffer; extern int *packet_ptr; static inline void out_ints (int *what, int len) { assert (packet_ptr + len <= packet_buffer + PACKET_BUFFER_SIZE); memcpy (packet_ptr, what, len * 4); packet_ptr += len; } static inline void out_int (int x) { assert (packet_ptr + 1 <= packet_buffer + PACKET_BUFFER_SIZE); *packet_ptr++ = x; } static inline void out_long (long long x) { assert (packet_ptr + 2 <= packet_buffer + PACKET_BUFFER_SIZE); *(long long *)packet_ptr = x; packet_ptr += 2; } static inline void clear_packet (void) { packet_ptr = packet_buffer; } void out_cstring (const char *str, long len); void out_cstring_careful (const char *str, long len); void out_data (const void *data, long len); static inline void out_string (const char *str) { out_cstring (str, strlen (str)); } static inline void out_bignum (BIGNUM *n) { int l = serialize_bignum (n, (char *)packet_ptr, (PACKET_BUFFER_SIZE - (packet_ptr - packet_buffer)) * 4); assert (l > 0); packet_ptr += l >> 2; } extern int *in_ptr, *in_end; void fetch_pts (void); void fetch_qts (void); void fetch_date (void); void fetch_seq (void); static inline int prefetch_strlen (void) { if (in_ptr >= in_end) { return -1; } unsigned l = *in_ptr; if ((l & 0xff) < 0xfe) { l &= 0xff; return (in_end >= in_ptr + (l >> 2) + 1) ? (int)l : -1; } else if ((l & 0xff) == 0xfe) { l >>= 8; return (l >= 254 && in_end >= in_ptr + ((l + 7) >> 2)) ? (int)l : -1; } else { return -1; } } extern int verbosity; static inline char *fetch_str (int len) { assert (len >= 0); if (verbosity > 6) { logprintf ("fetch_string: len = %d\n", len); } if (len < 254) { char *str = (char *) in_ptr + 1; in_ptr += 1 + (len >> 2); return str; } else { char *str = (char *) in_ptr + 4; in_ptr += (len + 7) >> 2; return str; } } static inline char *fetch_str_dup (void) { int l = prefetch_strlen (); char *s = malloc (l + 1); memcpy (s, fetch_str (l), l); s[l] = 0; return s; } static inline int fetch_update_str (char **s) { if (!*s) { *s = fetch_str_dup (); return 1; } int l = prefetch_strlen (); char *r = fetch_str (l); if (memcmp (*s, r, l) || (*s)[l]) { free (*s); *s = malloc (l + 1); memcpy (*s, r, l); (*s)[l] = 0; return 1; } return 0; } static inline int fetch_update_int (int *value) { if (*value == *in_ptr) { in_ptr ++; return 0; } else { *value = *(in_ptr ++); return 1; } } static inline int fetch_update_long (long long *value) { if (*value == *(long long *)in_ptr) { in_ptr += 2; return 0; } else { *value = *(long long *)(in_ptr); in_ptr += 2; return 1; } } static inline int set_update_int (int *value, int new_value) { if (*value == new_value) { return 0; } else { *value = new_value; return 1; } } static inline void fetch_skip (int n) { in_ptr += n; } static __inline__ unsigned long long rdtsc(void) { unsigned hi, lo; __asm__ __volatile__ ("rdtsc" : "=a"(lo), "=d"(hi)); return ( (unsigned long long)lo)|( ((unsigned long long)hi)<<32 ); } static inline long have_prefetch_ints (void) { return in_end - in_ptr; } int fetch_bignum (BIGNUM *x); static inline int fetch_int (void) { if (verbosity > 6) { logprintf ("fetch_int: 0x%08x (%d)\n", *in_ptr, *in_ptr); } return *(in_ptr ++); } static inline int fetch_bool (void) { if (verbosity > 6) { logprintf ("fetch_bool: 0x%08x (%d)\n", *in_ptr, *in_ptr); } assert (*(in_ptr) == (int)CODE_bool_true || *(in_ptr) == (int)CODE_bool_false); return *(in_ptr ++) == (int)CODE_bool_true; } static inline int prefetch_int (void) { return *(in_ptr); } static inline void prefetch_data (void *data, int size) { memcpy (data, in_ptr, size); } static inline void fetch_data (void *data, int size) { memcpy (data, in_ptr, size); assert (!(size & 3)); in_ptr += (size >> 2); } static inline long long fetch_long (void) { long long r = *(long long *)in_ptr; in_ptr += 2; return r; } static inline double fetch_double (void) { double r = *(double *)in_ptr; in_ptr += 2; return r; } static inline void fetch_ints (void *data, int count) { memcpy (data, in_ptr, 4 * count); in_ptr += count; } int get_random_bytes (void *buf, int n); int pad_rsa_encrypt (char *from, int from_len, char *to, int size, BIGNUM *N, BIGNUM *E); int pad_rsa_decrypt (char *from, int from_len, char *to, int size, BIGNUM *N, BIGNUM *D); extern long long rsa_encrypted_chunks, rsa_decrypted_chunks; extern unsigned char aes_key_raw[32], aes_iv[32]; extern AES_KEY aes_key; void init_aes_unauth (const char server_nonce[16], const char hidden_client_nonce[32], int encrypt); void init_aes_auth (char auth_key[192], char msg_key[16], int encrypt); int pad_aes_encrypt (char *from, int from_len, char *to, int size); int pad_aes_decrypt (char *from, int from_len, char *to, int size); static inline void hexdump_in (void) { hexdump (in_ptr, in_end); } static inline void hexdump_out (void) { hexdump (packet_buffer, packet_ptr); } #ifdef __MACH__ #define CLOCK_REALTIME 0 #define CLOCK_MONOTONIC 1 #endif void my_clock_gettime (int clock_id, struct timespec *T); #endif