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queries-encrypted.c
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queries-encrypted.c
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/* {{{ Encrypt decrypted */
static int *encr_extra;
static int *encr_ptr;
static int *encr_end;
static char *encrypt_decrypted_message (struct tgl_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));
TGLC_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);
TGLC_sha1 (buf, 48, sha1a_buffer);
memcpy (buf, E->key + 8, 16);
memcpy (buf + 16, msg_key, 16);
memcpy (buf + 32, E->key + 12, 16);
TGLC_sha1 (buf, 48, sha1b_buffer);
memcpy (buf, E->key + 16, 32);
memcpy (buf + 32, msg_key, 16);
TGLC_sha1 (buf, 48, sha1c_buffer);
memcpy (buf, msg_key, 16);
memcpy (buf + 16, E->key + 24, 32);
TGLC_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);
TGLC_aes_key aes_key;
TGLC_aes_set_encrypt_key (key, 256, &aes_key);
TGLC_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;
}
static 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
}
static void encr_finish (struct tgl_secret_chat *E) {
int l = packet_ptr - (encr_extra + 8);
while (((packet_ptr - encr_extra) - 3) & 3) {
int t;
tglt_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);
}
/* }}} */
void tgl_do_send_encr_action (struct tgl_state *TLS, struct tgl_secret_chat *E, struct tl_ds_decrypted_message_action *A) {
long long t;
tglt_secure_random (&t, 8);
int date = time (0);
struct tgl_message_id id = tgl_peer_id_to_random_msg_id (E->id);
tgl_peer_id_t from_id = TLS->our_id;
bl_do_edit_message_encr (TLS, &id, &from_id, &E->id, &date, NULL, 0, NULL, A, NULL, TGLMF_PENDING | TGLMF_OUT | TGLMF_UNREAD | TGLMF_CREATE | TGLMF_CREATED | TGLMF_ENCRYPTED);
struct tgl_message *M = tgl_message_get (TLS, &id);
assert (M);
tgl_do_send_msg (TLS, M, 0, 0);
}
void tgl_do_send_encr_chat_layer (struct tgl_state *TLS, struct tgl_secret_chat *E) {
static struct tl_ds_decrypted_message_action A;
A.magic = CODE_decrypted_message_action_notify_layer;
int layer = TGL_ENCRYPTED_LAYER;
A.layer = &layer;
tgl_do_send_encr_action (TLS, E, &A);
}
void tgl_do_set_encr_chat_ttl (struct tgl_state *TLS, struct tgl_secret_chat *E, int ttl, void (*callback)(struct tgl_state *TLS, void *callback_extra, int success, struct tgl_message *M), void *callback_extra) {
static struct tl_ds_decrypted_message_action A;
A.magic = CODE_decrypted_message_action_set_message_t_t_l;
A.layer = &ttl;
tgl_do_send_encr_action (TLS, E, &A);
}
/* {{{ Seng msg (plain text, encrypted) */
static int msg_send_encr_on_answer (struct tgl_state *TLS, struct query *q, void *D) {
struct tgl_message *M = q->extra;
assert (M->flags & TGLMF_ENCRYPTED);
if (M->flags & TGLMF_PENDING) {
bl_do_edit_message_encr (TLS, &M->permanent_id, NULL, NULL,
&M->date,
NULL, 0, NULL, NULL, NULL, M->flags ^ TGLMF_PENDING);
bl_do_msg_update (TLS, &M->permanent_id);
}
if (q->callback) {
((void (*)(struct tgl_state *TLS, void *, int, struct tgl_message *))q->callback) (TLS, q->callback_extra, 1, M);
}
return 0;
}
static int msg_send_encr_on_error (struct tgl_state *TLS, struct query *q, int error_code, int error_len, const char *error) {
struct tgl_message *M = q->extra;
tgl_peer_t *P = tgl_peer_get (TLS, M->to_id);
if (P && P->encr_chat.state != sc_deleted && error_code == 400) {
if (strncmp (error, "ENCRYPTION_DECLINED", 19) == 0) {
bl_do_peer_delete (TLS, P->id);
}
}
if (q->callback) {
((void (*)(struct tgl_state *TLS, void *, int, struct tgl_message *))q->callback) (TLS, q->callback_extra, 0, M);
}
if (M) {
bl_do_message_delete (TLS, &M->permanent_id);
}
return 0;
}
static struct query_methods msg_send_encr_methods = {
.on_answer = msg_send_encr_on_answer,
.on_error = msg_send_encr_on_error,
.type = TYPE_TO_PARAM(messages_sent_encrypted_message),
.name = "send encrypted (message)",
.timeout = 0,
};
/* }}} */
void tgl_do_send_encr_msg_action (struct tgl_state *TLS, struct tgl_message *M, void (*callback)(struct tgl_state *TLS, void *callback_extra, int success, struct tgl_message *M), void *callback_extra) {
tgl_peer_t *P = tgl_peer_get (TLS, M->to_id);
if (!P || P->encr_chat.state != sc_ok) {
vlogprintf (E_WARNING, "Unknown encrypted chat\n");
if (callback) {
callback (TLS, callback_extra, 0, 0);
}
return;
}
assert (M->flags & TGLMF_ENCRYPTED);
clear_packet ();
out_int (CODE_messages_send_encrypted_service);
out_int (CODE_input_encrypted_chat);
out_int (M->permanent_id.peer_id);
out_long (M->permanent_id.access_hash);
out_long (M->permanent_id.id);
encr_start ();
out_int (CODE_decrypted_message_layer);
out_random (15 + 4 * (rand () % 3));
out_int (TGL_ENCRYPTED_LAYER);
out_int (2 * P->encr_chat.in_seq_no + (P->encr_chat.admin_id != tgl_get_peer_id (TLS->our_id)));
out_int (2 * P->encr_chat.out_seq_no + (P->encr_chat.admin_id == tgl_get_peer_id (TLS->our_id)) - 2);
out_int (CODE_decrypted_message_service);
out_long (M->permanent_id.id);
switch (M->action.type) {
case tgl_message_action_notify_layer:
out_int (CODE_decrypted_message_action_notify_layer);
out_int (M->action.layer);
break;
case tgl_message_action_set_message_ttl:
out_int (CODE_decrypted_message_action_set_message_t_t_l);
out_int (M->action.ttl);
break;
case tgl_message_action_request_key:
out_int (CODE_decrypted_message_action_request_key);
out_long (M->action.exchange_id);
out_cstring ((void *)M->action.g_a, 256);
break;
case tgl_message_action_accept_key:
out_int (CODE_decrypted_message_action_accept_key);
out_long (M->action.exchange_id);
out_cstring ((void *)M->action.g_a, 256);
out_long (M->action.key_fingerprint);
break;
case tgl_message_action_commit_key:
out_int (CODE_decrypted_message_action_commit_key);
out_long (M->action.exchange_id);
out_long (M->action.key_fingerprint);
break;
case tgl_message_action_abort_key:
out_int (CODE_decrypted_message_action_abort_key);
out_long (M->action.exchange_id);
break;
case tgl_message_action_noop:
out_int (CODE_decrypted_message_action_noop);
break;
default:
assert (0);
}
encr_finish (&P->encr_chat);
tglq_send_query (TLS, TLS->DC_working, packet_ptr - packet_buffer, packet_buffer, &msg_send_encr_methods, M, callback, callback_extra);
}
void tgl_do_send_encr_msg (struct tgl_state *TLS, struct tgl_message *M, void (*callback)(struct tgl_state *TLS, void *callback_extra, int success, struct tgl_message *M), void *callback_extra) {
if (M->flags & TGLMF_SERVICE) {
tgl_do_send_encr_msg_action (TLS, M, callback, callback_extra);
return;
}
tgl_peer_t *P = tgl_peer_get (TLS, M->to_id);
if (!P || P->encr_chat.state != sc_ok) {
vlogprintf (E_WARNING, "Unknown encrypted chat\n");
if (callback) {
callback (TLS, callback_extra, 0, M);
}
return;
}
assert (M->flags & TGLMF_ENCRYPTED);
clear_packet ();
out_int (CODE_messages_send_encrypted);
out_int (CODE_input_encrypted_chat);
out_int (tgl_get_peer_id (M->to_id));
out_long (P->encr_chat.access_hash);
out_long (M->permanent_id.id);
encr_start ();
out_int (CODE_decrypted_message_layer);
out_random (15 + 4 * (rand () % 3));
out_int (TGL_ENCRYPTED_LAYER);
out_int (2 * P->encr_chat.in_seq_no + (P->encr_chat.admin_id != tgl_get_peer_id (TLS->our_id)));
out_int (2 * P->encr_chat.out_seq_no + (P->encr_chat.admin_id == tgl_get_peer_id (TLS->our_id)) - 2);
out_int (CODE_decrypted_message);
out_long (M->permanent_id.id);
out_int (P->encr_chat.ttl);
out_cstring ((void *)M->message, M->message_len);
switch (M->media.type) {
case tgl_message_media_none:
out_int (CODE_decrypted_message_media_empty);
break;
case tgl_message_media_geo:
out_int (CODE_decrypted_message_media_geo_point);
out_double (M->media.geo.latitude);
out_double (M->media.geo.longitude);
break;
default:
assert (0);
}
encr_finish (&P->encr_chat);
tglq_send_query (TLS, TLS->DC_working, packet_ptr - packet_buffer, packet_buffer, &msg_send_encr_methods, M, callback, callback_extra);
}
static int mark_read_encr_on_receive (struct tgl_state *TLS, struct query *q, void *D) {
if (q->callback) {
((void (*)(struct tgl_state *, void *, int))q->callback)(TLS, q->callback_extra, 1);
}
return 0;
}
static int mark_read_encr_on_error (struct tgl_state *TLS, struct query *q, int error_code, int error_len, const char *error) {
tgl_peer_t *P = q->extra;
if (P && P->encr_chat.state != sc_deleted && error_code == 400) {
if (strncmp (error, "ENCRYPTION_DECLINED", 19) == 0) {
bl_do_peer_delete (TLS, P->id);
}
}
return 0;
}
static struct query_methods mark_read_encr_methods = {
.on_answer = mark_read_encr_on_receive,
.on_error = mark_read_encr_on_error,
.type = TYPE_TO_PARAM(bool),
.name = "read encrypted",
.timeout = 0,
};
void tgl_do_messages_mark_read_encr (struct tgl_state *TLS, tgl_peer_id_t id, long long access_hash, int last_time, void (*callback)(struct tgl_state *TLS, void *callback_extra, int), void *callback_extra) {
clear_packet ();
out_int (CODE_messages_read_encrypted_history);
out_int (CODE_input_encrypted_chat);
out_int (tgl_get_peer_id (id));
out_long (access_hash);
out_int (last_time);
tglq_send_query (TLS, TLS->DC_working, packet_ptr - packet_buffer, packet_buffer, &mark_read_encr_methods, tgl_peer_get (TLS, id), callback, callback_extra);
}
static int send_encr_file_on_answer (struct tgl_state *TLS, struct query *q, void *D) {
struct tl_ds_messages_sent_encrypted_message *DS_MSEM = D;
struct tgl_message *M = q->extra;
if (M->flags & TGLMF_PENDING) {
bl_do_edit_message_encr (TLS, &M->permanent_id, NULL, NULL, DS_MSEM->date,
NULL, 0, NULL, NULL, DS_MSEM->file, M->flags ^ TGLMF_PENDING);
bl_do_msg_update (TLS, &M->permanent_id);
}
if (q->callback) {
((void (*)(struct tgl_state *, void *, int, struct tgl_message *))q->callback)(TLS, q->callback_extra, 1, M);
}
return 0;
}
static struct query_methods send_encr_file_methods = {
.on_answer = send_encr_file_on_answer,
.on_error = msg_send_encr_on_error,
.type = TYPE_TO_PARAM(messages_sent_encrypted_message),
.name = "send encrypted (file)",
.timeout = 0,
};
static void send_file_encrypted_end (struct tgl_state *TLS, struct send_file *f, void *callback, void *callback_extra) {
out_int (CODE_messages_send_encrypted_file);
out_int (CODE_input_encrypted_chat);
out_int (tgl_get_peer_id (f->to_id));
tgl_peer_t *P = tgl_peer_get (TLS, f->to_id);
assert (P);
out_long (P->encr_chat.access_hash);
long long r;
tglt_secure_random (&r, 8);
out_long (r);
encr_start ();
out_int (CODE_decrypted_message_layer);
out_random (15 + 4 * (rand () % 3));
out_int (TGL_ENCRYPTED_LAYER);
out_int (2 * P->encr_chat.in_seq_no + (P->encr_chat.admin_id != tgl_get_peer_id (TLS->our_id)));
out_int (2 * P->encr_chat.out_seq_no + (P->encr_chat.admin_id == tgl_get_peer_id (TLS->our_id)));
out_int (CODE_decrypted_message);
out_long (r);
out_int (P->encr_chat.ttl);
out_string ("");
int *save_ptr = packet_ptr;
if (f->flags == -1) {
out_int (CODE_decrypted_message_media_photo);
} else if ((f->flags & TGLDF_VIDEO)) {
out_int (CODE_decrypted_message_media_video);
} else if ((f->flags & TGLDF_AUDIO)) {
out_int (CODE_decrypted_message_media_audio);
} else {
out_int (CODE_decrypted_message_media_document);
}
if (f->flags == -1 || !(f->flags & TGLDF_AUDIO)) {
out_cstring ("", 0);
out_int (90);
out_int (90);
}
if (f->flags == -1) {
out_int (f->w);
out_int (f->h);
} else if (f->flags & TGLDF_VIDEO) {
out_int (f->duration);
out_string (tg_mime_by_filename (f->file_name));
out_int (f->w);
out_int (f->h);
} else if (f->flags & TGLDF_AUDIO) {
out_int (f->duration);
out_string (tg_mime_by_filename (f->file_name));
} else {
out_string ("");
out_string (tg_mime_by_filename (f->file_name));
// document
}
out_int (f->size);
out_cstring ((void *)f->key, 32);
out_cstring ((void *)f->init_iv, 32);
int *save_in_ptr = in_ptr;
int *save_in_end = in_end;
in_ptr = save_ptr;
in_end = packet_ptr;
assert (skip_type_any (TYPE_TO_PARAM(decrypted_message_media)) >= 0);
assert (in_ptr == in_end);
in_ptr = save_ptr;
in_end = packet_ptr;
struct tl_ds_decrypted_message_media *DS_DMM = fetch_ds_type_decrypted_message_media (TYPE_TO_PARAM (decrypted_message_media));
in_end = save_in_ptr;
in_ptr = save_in_end;
int date = time (NULL);
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);
TGLC_md5 (str, 64, md5);
out_int ((*(int *)md5) ^ (*(int *)(md5 + 4)));
tfree_secure (f->iv, 32);
tgl_peer_id_t from_id = TLS->our_id;
struct tgl_message_id id = tgl_peer_id_to_msg_id (P->id, r);
bl_do_edit_message_encr (TLS, &id, &from_id, &f->to_id, &date, NULL, 0, DS_DMM, NULL, NULL, TGLMF_OUT | TGLMF_UNREAD | TGLMF_ENCRYPTED | TGLMF_CREATE | TGLMF_CREATED);
free_ds_type_decrypted_message_media (DS_DMM, TYPE_TO_PARAM (decrypted_message_media));
struct tgl_message *M = tgl_message_get (TLS, &id);
assert (M);
tglq_send_query (TLS, TLS->DC_working, packet_ptr - packet_buffer, packet_buffer, &send_encr_file_methods, M, callback, callback_extra);
tfree_str (f->file_name);
tfree (f, sizeof (*f));
}
void tgl_do_send_location_encr (struct tgl_state *TLS, tgl_peer_id_t peer_id, double latitude, double longitude, unsigned long long flags, void (*callback)(struct tgl_state *TLS, void *callback_extra, int success, struct tgl_message *M), void *callback_extra) {
struct tl_ds_decrypted_message_media TDSM;
TDSM.magic = CODE_decrypted_message_media_geo_point;
TDSM.latitude = talloc (sizeof (double));
*TDSM.latitude = latitude;
TDSM.longitude = talloc (sizeof (double));
*TDSM.longitude = longitude;
int date = time (0);
tgl_peer_id_t from_id = TLS->our_id;
tgl_peer_t *P = tgl_peer_get (TLS, peer_id);
struct tgl_message_id id = tgl_peer_id_to_random_msg_id (P->id);;
bl_do_edit_message_encr (TLS, &id, &from_id, &peer_id, &date, NULL, 0, &TDSM, NULL, NULL, TGLMF_UNREAD | TGLMF_OUT | TGLMF_PENDING | TGLMF_CREATE | TGLMF_CREATED | TGLMF_ENCRYPTED);
tfree (TDSM.latitude, sizeof (double));
tfree (TDSM.longitude, sizeof (double));
struct tgl_message *M = tgl_message_get (TLS, &id);
tgl_do_send_encr_msg (TLS, M, callback, callback_extra);
}
/* {{{ Encr accept */
static int send_encr_accept_on_answer (struct tgl_state *TLS, struct query *q, void *D) {
struct tgl_secret_chat *E = tglf_fetch_alloc_encrypted_chat (TLS, D);
if (E->state == sc_ok) {
tgl_do_send_encr_chat_layer (TLS, E);
}
if (q->callback) {
((void (*)(struct tgl_state *, void *, int, struct tgl_secret_chat *))q->callback) (TLS, q->callback_extra, E->state == sc_ok, E);
}
return 0;
}
static int send_encr_request_on_answer (struct tgl_state *TLS, struct query *q, void *D) {
struct tgl_secret_chat *E = tglf_fetch_alloc_encrypted_chat (TLS, D);
if (q->callback) {
((void (*)(struct tgl_state *, void *, int, struct tgl_secret_chat *))q->callback) (TLS, q->callback_extra, E->state != sc_deleted, E);
}
return 0;
}
static int encr_accept_on_error (struct tgl_state *TLS, struct query *q, int error_code, int error_len, const char *error) {
tgl_peer_t *P = q->extra;
if (P && P->encr_chat.state != sc_deleted && error_code == 400) {
if (strncmp (error, "ENCRYPTION_DECLINED", 19) == 0) {
bl_do_peer_delete (TLS, P->id);
}
}
if (q->callback) {
((void (*)(struct tgl_state *, void *, int, struct tgl_secret_chat *))q->callback) (TLS, q->callback_extra, 0, NULL);
}
return 0;
}
static struct query_methods send_encr_accept_methods = {
.on_answer = send_encr_accept_on_answer,
.on_error = encr_accept_on_error,
.type = TYPE_TO_PARAM(encrypted_chat),
.name = "send encrypted (chat accept)",
.timeout = 0,
};
static struct query_methods send_encr_request_methods = {
.on_answer = send_encr_request_on_answer,
.on_error = q_ptr_on_error,
.type = TYPE_TO_PARAM(encrypted_chat),
.name = "send encrypted (chat request)",
.timeout = 0,
};
//int encr_root;
//unsigned char *encr_prime;
//int encr_param_version;
//static TGLC_bn_ctx *ctx;
void tgl_do_send_accept_encr_chat (struct tgl_state *TLS, struct tgl_secret_chat *E, unsigned char *random, void (*callback)(struct tgl_state *TLS,void *callback_extra, int success, struct tgl_secret_chat *E), void *callback_extra) {
int i;
int ok = 0;
for (i = 0; i < 64; i++) {
if (E->key[i]) {
ok = 1;
break;
}
}
if (ok) {
if (callback) {
callback (TLS, callback_extra, 1, E);
}
return;
} // Already generated key for this chat
assert (E->g_key);
assert (TLS->TGLC_bn_ctx);
unsigned char random_here[256];
tglt_secure_random (random_here, 256);
for (i = 0; i < 256; i++) {
random[i] ^= random_here[i];
}
TGLC_bn *b = TGLC_bn_bin2bn (random, 256, 0);
ensure_ptr (b);
TGLC_bn *g_a = TGLC_bn_bin2bn (E->g_key, 256, 0);
ensure_ptr (g_a);
assert (tglmp_check_g_a (TLS, TLS->encr_prime_bn, g_a) >= 0);
//if (!ctx) {
// ctx = TGLC_bn_ctx_new ();
// ensure_ptr (ctx);
//}
TGLC_bn *p = TLS->encr_prime_bn;
TGLC_bn *r = TGLC_bn_new ();
ensure_ptr (r);
ensure (TGLC_bn_mod_exp (r, g_a, b, p, TLS->TGLC_bn_ctx));
static unsigned char kk[256];
memset (kk, 0, sizeof (kk));
TGLC_bn_bn2bin (r, kk + (256 - TGLC_bn_num_bytes (r)));
static unsigned char sha_buffer[20];
TGLC_sha1 (kk, 256, sha_buffer);
long long fingerprint = *(long long *)(sha_buffer + 12);
//bl_do_encr_chat_set_key (TLS, E, kk, *(long long *)(sha_buffer + 12));
//bl_do_encr_chat_set_sha (TLS, E, sha_buffer);
int state = sc_ok;
bl_do_encr_chat (TLS, tgl_get_peer_id (E->id),
NULL, NULL, NULL, NULL,
kk, NULL, sha_buffer, &state,
NULL, NULL, NULL, NULL, NULL,
&fingerprint,
TGL_FLAGS_UNCHANGED,
NULL, 0
);
clear_packet ();
out_int (CODE_messages_accept_encryption);
out_int (CODE_input_encrypted_chat);
out_int (tgl_get_peer_id (E->id));
out_long (E->access_hash);
ensure (TGLC_bn_set_word (g_a, TLS->encr_root));
ensure (TGLC_bn_mod_exp (r, g_a, b, p, TLS->TGLC_bn_ctx));
static unsigned char buf[256];
memset (buf, 0, sizeof (buf));
TGLC_bn_bn2bin (r, buf + (256 - TGLC_bn_num_bytes (r)));
out_cstring ((void *)buf, 256);
out_long (E->key_fingerprint);
TGLC_bn_clear_free (b);
TGLC_bn_clear_free (g_a);
TGLC_bn_clear_free (r);
tglq_send_query (TLS, TLS->DC_working, packet_ptr - packet_buffer, packet_buffer, &send_encr_accept_methods, E, callback, callback_extra);
}
void tgl_do_create_keys_end (struct tgl_state *TLS, struct tgl_secret_chat *U) {
assert (TLS->encr_prime);
TGLC_bn *g_b = TGLC_bn_bin2bn (U->g_key, 256, 0);
ensure_ptr (g_b);
assert (tglmp_check_g_a (TLS, TLS->encr_prime_bn, g_b) >= 0);
TGLC_bn *p = TLS->encr_prime_bn;
ensure_ptr (p);
TGLC_bn *r = TGLC_bn_new ();
ensure_ptr (r);
TGLC_bn *a = TGLC_bn_bin2bn ((void *)U->key, 256, 0);
ensure_ptr (a);
ensure (TGLC_bn_mod_exp (r, g_b, a, p, TLS->TGLC_bn_ctx));
unsigned char *t = talloc (256);
memcpy (t, U->key, 256);
memset (U->key, 0, sizeof (U->key));
TGLC_bn_bn2bin (r, (void *)(((char *)(U->key)) + (256 - TGLC_bn_num_bytes (r))));
static unsigned char sha_buffer[20];
TGLC_sha1 ((void *)U->key, 256, sha_buffer);
long long k = *(long long *)(sha_buffer + 12);
if (k != U->key_fingerprint) {
vlogprintf (E_WARNING, "Key fingerprint mismatch (my 0x%" INT64_PRINTF_MODIFIER "x 0x%" INT64_PRINTF_MODIFIER "x)\n", (unsigned long long)k, (unsigned long long)U->key_fingerprint);
U->state = sc_deleted;
}
memcpy (U->first_key_sha, sha_buffer, 20);
tfree_secure (t, 256);
TGLC_bn_clear_free (g_b);
TGLC_bn_clear_free (r);
TGLC_bn_clear_free (a);
}
void tgl_do_send_create_encr_chat (struct tgl_state *TLS, void *x, unsigned char *random, void (*callback)(struct tgl_state *TLS, void *callback_extra, int success, struct tgl_secret_chat *E), void *callback_extra) {
int user_id = (long)x;
int i;
unsigned char random_here[256];
tglt_secure_random (random_here, 256);
for (i = 0; i < 256; i++) {
random[i] ^= random_here[i];
}
TGLC_bn *a = TGLC_bn_bin2bn (random, 256, 0);
ensure_ptr (a);
TGLC_bn *p = TGLC_bn_bin2bn (TLS->encr_prime, 256, 0);
ensure_ptr (p);
TGLC_bn *g = TGLC_bn_new ();
ensure_ptr (g);
ensure (TGLC_bn_set_word (g, TLS->encr_root));
TGLC_bn *r = TGLC_bn_new ();
ensure_ptr (r);
ensure (TGLC_bn_mod_exp (r, g, a, p, TLS->TGLC_bn_ctx));
TGLC_bn_clear_free (a);
static char g_a[256];
memset (g_a, 0, 256);
TGLC_bn_bn2bin (r, (void *)(g_a + (256 - TGLC_bn_num_bytes (r))));
int t = rand ();
while (tgl_peer_get (TLS, TGL_MK_ENCR_CHAT (t))) {
t = rand ();
}
//bl_do_encr_chat_init (TLS, t, user_id, (void *)random, (void *)g_a);
int state = sc_waiting;
int our_id = tgl_get_peer_id (TLS->our_id);
bl_do_encr_chat (TLS, t, NULL, NULL, &our_id, &user_id, random, NULL, NULL, &state, NULL, NULL, NULL, NULL, NULL, NULL, TGLPF_CREATE | TGLPF_CREATED, NULL, 0);
tgl_peer_t *_E = tgl_peer_get (TLS, TGL_MK_ENCR_CHAT (t));
assert (_E);
struct tgl_secret_chat *E = &_E->encr_chat;
clear_packet ();
out_int (CODE_messages_request_encryption);
tgl_peer_t *U = tgl_peer_get (TLS, TGL_MK_USER (E->user_id));
assert (U);
out_int (CODE_input_user);
out_int (E->user_id);
out_long (U ? U->user.access_hash : 0);
out_int (tgl_get_peer_id (E->id));
out_cstring (g_a, 256);
//write_secret_chat_file ();
TGLC_bn_clear_free (g);
TGLC_bn_clear_free (p);
TGLC_bn_clear_free (r);
tglq_send_query (TLS, TLS->DC_working, packet_ptr - packet_buffer, packet_buffer, &send_encr_request_methods, E, callback, callback_extra);
}
static int send_encr_discard_on_answer (struct tgl_state *TLS, struct query *q, void *D) {
struct tgl_secret_chat *E = q->extra;
bl_do_peer_delete (TLS, E->id);
if (q->callback) {
((void (*)(struct tgl_state *, void *, int, struct tgl_secret_chat *))q->callback) (TLS, q->callback_extra, 1, E);
}
return 0;
}
static struct query_methods send_encr_discard_methods = {
.on_answer = send_encr_discard_on_answer,
.on_error = q_ptr_on_error,
.type = TYPE_TO_PARAM(bool),
.name = "send encrypted (chat discard)",
.timeout = 0,
};
void tgl_do_discard_secret_chat (struct tgl_state *TLS, struct tgl_secret_chat *E, void (*callback)(struct tgl_state *TLS, void *callback_extra, int success, struct tgl_secret_chat *E), void *callback_extra) {
assert (E);
assert (tgl_get_peer_id (E->id) > 0);
if (E->state == sc_deleted || E->state == sc_none) {
if (callback) {
callback (TLS, callback_extra, 0, E);
}
return;
}
clear_packet ();
out_int (CODE_messages_discard_encryption);
out_int (tgl_get_peer_id (E->id));
tglq_send_query (TLS, TLS->DC_working, packet_ptr - packet_buffer, packet_buffer, &send_encr_discard_methods, E, callback, callback_extra);
}
static int get_dh_config_on_answer (struct tgl_state *TLS, struct query *q, void *D) {
struct tl_ds_messages_dh_config *DS_MDC = D;
if (DS_MDC->magic == CODE_messages_dh_config) {
assert (DS_MDC->p->len == 256);
bl_do_set_dh_params (TLS, DS_LVAL (DS_MDC->g), (void *)DS_MDC->p->data, DS_LVAL (DS_MDC->version));
} else {
assert (TLS->encr_param_version);
}
unsigned char *random = talloc (256);
assert (DS_MDC->random->len == 256);
memcpy (random, DS_MDC->random->data, 256);
if (q->extra) {
void **x = q->extra;
((void (*)(struct tgl_state *, void *, void *, void *, void *))(*x))(TLS, x[1], random, q->callback, q->callback_extra);
tfree (x, 2 * sizeof (void *));
tfree_secure (random, 256);
} else {
tfree_secure (random, 256);
}
return 0;
}
static struct query_methods get_dh_config_methods = {
.on_answer = get_dh_config_on_answer,
.on_error = q_void_on_error,
.type = TYPE_TO_PARAM(messages_dh_config),
.name = "dh config",
.timeout = 0,
};
void tgl_do_accept_encr_chat_request (struct tgl_state *TLS, struct tgl_secret_chat *E, void (*callback)(struct tgl_state *TLS, void *callback_extra, int success, struct tgl_secret_chat *E), void *callback_extra) {
if (E->state != sc_request) {
if (callback) {
callback (TLS, callback_extra, 0, E);
}
return;
}
assert (E->state == sc_request);
clear_packet ();
out_int (CODE_messages_get_dh_config);
out_int (TLS->encr_param_version);
out_int (256);
void **x = talloc (2 * sizeof (void *));
x[0] = tgl_do_send_accept_encr_chat;
x[1] = E;
tglq_send_query (TLS, TLS->DC_working, packet_ptr - packet_buffer, packet_buffer, &get_dh_config_methods, x, callback, callback_extra);
}
void tgl_do_create_encr_chat_request (struct tgl_state *TLS, int user_id, void (*callback)(struct tgl_state *TLS, void *callback_extra, int success, struct tgl_secret_chat *E), void *callback_extra) {
clear_packet ();
out_int (CODE_messages_get_dh_config);
out_int (TLS->encr_param_version);
out_int (256);
void **x = talloc (2 * sizeof (void *));
x[0] = tgl_do_send_create_encr_chat;
x[1] = (void *)(long)(user_id);
tglq_send_query (TLS, TLS->DC_working, packet_ptr - packet_buffer, packet_buffer, &get_dh_config_methods, x, callback, callback_extra);
}
/* }}} */