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tg/binlog.c
Vysheng 9ebb3f7370 Added chat_with_peer command
2013-12-06 21:14:41 +04:00

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/*
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 <http://www.gnu.org/licenses/>.
Copyright Vitaly Valtman 2013
*/
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/file.h>
#include <stdlib.h>
#include <fcntl.h>
#include <errno.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include "binlog.h"
#include "mtproto-common.h"
#include "net.h"
#include "include.h"
#include "mtproto-client.h"
#include <openssl/sha.h>
#define BINLOG_BUFFER_SIZE (1 << 20)
int binlog_buffer[BINLOG_BUFFER_SIZE];
int *rptr;
int *wptr;
extern int test_dc;
extern int pts;
extern int qts;
extern int last_date;
extern int seq;
#define MAX_LOG_EVENT_SIZE (1 << 17)
char *get_binlog_file_name (void);
extern struct dc *DC_list[];
extern struct dc *DC_working;
extern int dc_working_num;
extern int our_id;
extern int binlog_enabled;
extern int encr_root;
extern unsigned char *encr_prime;
extern int encr_param_version;
extern int messages_allocated;
int in_replay_log;
void *alloc_log_event (int l UU) {
return binlog_buffer;
}
long long binlog_pos;
void replay_log_event (void) {
int *start = rptr;
in_replay_log = 1;
assert (rptr < wptr);
int op = *rptr;
if (verbosity >= 2) {
logprintf ("log_pos %lld, op 0x%08x\n", binlog_pos, op);
}
in_ptr = rptr;
in_end = wptr;
switch (op) {
case LOG_START:
rptr ++;
break;
case CODE_binlog_dc_option:
in_ptr ++;
{
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);
}
alloc_dc (id, strndup (ip, l2), port);
}
rptr = in_ptr;
break;
case LOG_AUTH_KEY:
rptr ++;
{
int num = *(rptr ++);
assert (num >= 0 && num <= MAX_DC_ID);
assert (DC_list[num]);
DC_list[num]->auth_key_id = *(long long *)rptr;
rptr += 2;
memcpy (DC_list[num]->auth_key, rptr, 256);
rptr += 64;
DC_list[num]->flags |= 1;
};
break;
case LOG_DEFAULT_DC:
rptr ++;
{
int num = *(rptr ++);
assert (num >= 0 && num <= MAX_DC_ID);
DC_working = DC_list[num];
dc_working_num = num;
}
break;
case LOG_OUR_ID:
rptr ++;
{
our_id = *(rptr ++);
}
break;
case LOG_DC_SIGNED:
rptr ++;
{
int num = *(rptr ++);
assert (num >= 0 && num <= MAX_DC_ID);
assert (DC_list[num]);
DC_list[num]->has_auth = 1;
}
break;
case LOG_DC_SALT:
rptr ++;
{
int num = *(rptr ++);
assert (num >= 0 && num <= MAX_DC_ID);
assert (DC_list[num]);
DC_list[num]->server_salt = *(long long *)rptr;
rptr += 2;
};
break;
/* case CODE_user_empty:
case CODE_user_self:
case CODE_user_contact:
case CODE_user_request:
case CODE_user_foreign:
case CODE_user_deleted:
fetch_alloc_user ();
rptr = in_ptr;
break;*/
case LOG_DH_CONFIG:
get_dh_config_on_answer (0);
rptr = in_ptr;
break;
case LOG_ENCR_CHAT_KEY:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
struct secret_chat *U = (void *)user_chat_get (id);
assert (U);
U->key_fingerprint = *(long long *)rptr;
rptr += 2;
memcpy (U->key, rptr, 256);
rptr += 64;
};
break;
case LOG_ENCR_CHAT_SEND_ACCEPT:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
struct secret_chat *U = (void *)user_chat_get (id);
assert (U);
U->key_fingerprint = *(long long *)rptr;
rptr += 2;
memcpy (U->key, rptr, 256);
rptr += 64;
if (!U->g_key) {
U->g_key = malloc (256);
}
memcpy (U->g_key, rptr, 256);
rptr += 64;
};
break;
case LOG_ENCR_CHAT_SEND_CREATE:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
struct secret_chat *U = (void *)user_chat_get (id);
assert (!U || !(U->flags & FLAG_CREATED));
if (!U) {
U = malloc (sizeof (peer_t));
memset (U, 0, sizeof (peer_t));
U->id = id;
insert_encrypted_chat ((void *)U);
}
U->flags |= FLAG_CREATED;
U->user_id = *(rptr ++);
memcpy (U->key, rptr, 256);
rptr += 64;
if (!U->print_name) {
peer_t *P = user_chat_get (MK_USER (U->user_id));
if (P) {
U->print_name = create_print_name (U->id, "!", P->user.first_name, P->user.last_name, 0);
} else {
static char buf[100];
sprintf (buf, "user#%d", U->user_id);
U->print_name = create_print_name (U->id, "!", buf, 0, 0);
}
}
};
break;
case LOG_ENCR_CHAT_DELETED:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
struct secret_chat *U = (void *)user_chat_get (id);
if (!U) {
U = malloc (sizeof (peer_t));
memset (U, 0, sizeof (peer_t));
U->id = id;
insert_encrypted_chat ((void *)U);
}
U->flags |= FLAG_CREATED;
U->state = sc_deleted;
};
break;
case LOG_ENCR_CHAT_WAITING:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
struct secret_chat *U = (void *)user_chat_get (id);
assert (U);
U->state = sc_waiting;
U->date = *(rptr ++);
U->admin_id = *(rptr ++);
U->user_id = *(rptr ++);
U->access_hash = *(long long *)rptr;
rptr += 2;
};
break;
case LOG_ENCR_CHAT_REQUESTED:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
struct secret_chat *U = (void *)user_chat_get (id);
if (!U) {
U = malloc (sizeof (peer_t));
memset (U, 0, sizeof (peer_t));
U->id = id;
insert_encrypted_chat ((void *)U);
}
U->flags |= FLAG_CREATED;
U->state = sc_request;
U->date = *(rptr ++);
U->admin_id = *(rptr ++);
U->user_id = *(rptr ++);
U->access_hash = *(long long *)rptr;
if (!U->print_name) {
peer_t *P = user_chat_get (MK_USER (U->user_id));
if (P) {
U->print_name = create_print_name (U->id, "!", P->user.first_name, P->user.last_name, 0);
} else {
static char buf[100];
sprintf (buf, "user#%d", U->user_id);
U->print_name = create_print_name (U->id, "!", buf, 0, 0);
}
}
rptr += 2;
};
break;
case LOG_ENCR_CHAT_OK:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
struct secret_chat *U = (void *)user_chat_get (id);
assert (U);
U->state = sc_ok;
}
break;
case CODE_binlog_new_user:
in_ptr ++;
{
peer_id_t id = MK_USER (fetch_int ());
peer_t *_U = user_chat_get (id);
if (!_U) {
_U = malloc (sizeof (*_U));
memset (_U, 0, sizeof (*_U));
_U->id = id;
insert_user (_U);
} else {
assert (!(_U->flags & FLAG_CREATED));
}
struct user *U = (void *)_U;
U->flags |= FLAG_CREATED;
if (get_peer_id (id) == our_id) {
U->flags |= FLAG_USER_SELF;
}
U->first_name = fetch_str_dup ();
U->last_name = fetch_str_dup ();
U->print_name = create_print_name (U->id, U->first_name, U->last_name, 0, 0);
U->access_hash = fetch_long ();
U->phone = fetch_str_dup ();
if (fetch_int ()) {
U->flags |= FLAG_USER_CONTACT;
}
}
rptr = in_ptr;
break;
case CODE_binlog_user_delete:
rptr ++;
{
peer_id_t id = MK_USER (*(rptr ++));
peer_t *U = user_chat_get (id);
assert (U);
U->flags |= FLAG_DELETED;
}
break;
case CODE_binlog_set_user_access_token:
rptr ++;
{
peer_id_t id = MK_USER (*(rptr ++));
peer_t *U = user_chat_get (id);
assert (U);
U->user.access_hash = *(long long *)rptr;
rptr += 2;
}
break;
case CODE_binlog_set_user_phone:
in_ptr ++;
{
peer_id_t id = MK_USER (fetch_int ());
peer_t *U = user_chat_get (id);
assert (U);
if (U->user.phone) { free (U->user.phone); }
U->user.phone = fetch_str_dup ();
}
rptr = in_ptr;
break;
case CODE_binlog_set_user_friend:
rptr ++;
{
peer_id_t id = MK_USER (*(rptr ++));
peer_t *U = user_chat_get (id);
assert (U);
int friend = *(rptr ++);
if (friend) { U->flags |= FLAG_USER_CONTACT; }
else { U->flags &= ~FLAG_USER_CONTACT; }
}
break;
case CODE_binlog_user_full_photo:
in_ptr ++;
{
peer_id_t id = MK_USER (fetch_int ());
peer_t *U = user_chat_get (id);
assert (U);
if (U->flags & FLAG_HAS_PHOTO) {
free_photo (&U->user.photo);
}
fetch_photo (&U->user.photo);
}
rptr = in_ptr;
break;
case CODE_binlog_user_blocked:
rptr ++;
{
peer_id_t id = MK_USER (*(rptr ++));
peer_t *U = user_chat_get (id);
assert (U);
U->user.blocked = *(rptr ++);
}
break;
case CODE_binlog_set_user_full_name:
in_ptr ++;
{
peer_id_t id = MK_USER (fetch_int ());
peer_t *U = user_chat_get (id);
assert (U);
if (U->user.real_first_name) { free (U->user.real_first_name); }
if (U->user.real_last_name) { free (U->user.real_last_name); }
U->user.real_first_name = fetch_str_dup ();
U->user.real_last_name = fetch_str_dup ();
}
rptr = in_ptr;
break;
case CODE_binlog_encr_chat_delete:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
peer_t *_U = user_chat_get (id);
assert (_U);
struct secret_chat *U = &_U->encr_chat;
memset (U->key, 0, sizeof (U->key));
U->flags |= FLAG_DELETED;
U->state = sc_deleted;
if (U->nonce) {
memset (U->nonce, 0, 256);
free (U->nonce);
U->nonce = 0;
}
if (U->g_key) {
memset (U->g_key, 0, 256);
free (U->g_key);
U->g_key = 0;
}
}
break;
case CODE_binlog_encr_chat_requested:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
peer_t *_U = user_chat_get (id);
if (!_U) {
_U = malloc (sizeof (*_U));
memset (_U, 0, sizeof (*_U));
_U->id = id;
insert_encrypted_chat (_U);
} else {
assert (!(_U->flags & FLAG_CREATED));
}
struct secret_chat *U = (void *)_U;
U->access_hash = *(long long *)rptr;
rptr += 2;
U->date = *(rptr ++);
U->admin_id = *(rptr ++);
U->user_id = *(rptr ++);
peer_t *Us = user_chat_get (MK_USER (U->user_id));
if (Us) {
U->print_name = create_print_name (id, "!", Us->user.first_name, Us->user.last_name, 0);
} else {
static char buf[20];
sprintf (buf, "user#%d", U->user_id);
U->print_name = create_print_name (id, "!", buf, 0, 0);
}
U->g_key = malloc (256);
U->nonce = malloc (256);
memcpy (U->g_key, rptr, 256);
rptr += 64;
memcpy (U->nonce, rptr, 256);
rptr += 64;
U->flags |= FLAG_CREATED;
U->state = sc_request;
}
break;
case CODE_binlog_set_encr_chat_access_hash:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
peer_t *U = user_chat_get (id);
assert (U);
U->encr_chat.access_hash = *(long long *)rptr;
rptr += 2;
}
break;
case CODE_binlog_set_encr_chat_date:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
peer_t *U = user_chat_get (id);
assert (U);
U->encr_chat.date = *(rptr ++);
}
break;
case CODE_binlog_set_encr_chat_state:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
peer_t *U = user_chat_get (id);
assert (U);
U->encr_chat.state = *(rptr ++);
}
break;
case CODE_binlog_encr_chat_accepted:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
peer_t *_U = user_chat_get (id);
assert (_U);
struct secret_chat *U = &_U->encr_chat;
if (!U->g_key) {
U->g_key = malloc (256);
}
if (!U->nonce) {
U->nonce = malloc (256);
}
memcpy (U->g_key, rptr, 256);
rptr += 64;
memcpy (U->nonce, rptr, 256);
rptr += 64;
U->key_fingerprint = *(long long *)rptr;
rptr += 2;
if (U->state == sc_waiting) {
do_create_keys_end (U);
}
U->state = sc_ok;
}
break;
case CODE_binlog_set_encr_chat_key:
rptr ++;
{
peer_id_t id = MK_ENCR_CHAT (*(rptr ++));
peer_t *_U = user_chat_get (id);
assert (_U);
struct secret_chat *U = &_U->encr_chat;
memcpy (U->key, rptr, 256);
rptr += 64;
U->key_fingerprint = *(long long *)rptr;
rptr += 2;
}
break;
case CODE_binlog_set_dh_params:
rptr ++;
{
if (encr_prime) { free (encr_prime); }
encr_root = *(rptr ++);
encr_prime = malloc (256);
memcpy (encr_prime, rptr, 256);
rptr += 64;
encr_param_version = *(rptr ++);
}
break;
case CODE_binlog_encr_chat_init:
rptr ++;
{
peer_t *P = malloc (sizeof (*P));
memset (P, 0, sizeof (*P));
P->id = MK_ENCR_CHAT (*(rptr ++));
assert (!user_chat_get (P->id));
P->encr_chat.user_id = *(rptr ++);
P->encr_chat.admin_id = our_id;
insert_encrypted_chat (P);
peer_t *Us = user_chat_get (MK_USER (P->encr_chat.user_id));
assert (Us);
P->print_name = create_print_name (P->id, "!", Us->user.first_name, Us->user.last_name, 0);
memcpy (P->encr_chat.key, rptr, 256);
rptr += 64;
P->encr_chat.g_key = malloc (256);
memcpy (P->encr_chat.g_key, rptr, 256);
rptr += 64;
P->flags |= FLAG_CREATED;
}
break;
case CODE_binlog_set_pts:
rptr ++;
pts = *(rptr ++);
break;
case CODE_binlog_set_qts:
rptr ++;
qts = *(rptr ++);
break;
case CODE_binlog_set_date:
rptr ++;
last_date = *(rptr ++);
break;
case CODE_binlog_set_seq:
rptr ++;
seq = *(rptr ++);
break;
case CODE_binlog_chat_create:
in_ptr ++;
{
peer_id_t id = MK_CHAT (fetch_int ());
peer_t *_C = user_chat_get (id);
if (!_C) {
_C = malloc (sizeof (*_C));
memset (_C, 0, sizeof (*_C));
_C->id = id;
insert_chat (_C);
} else {
assert (!(_C->flags & FLAG_CREATED));
}
struct chat *C = &_C->chat;
C->flags = FLAG_CREATED | fetch_int ();
C->title = fetch_str_dup ();
C->print_title = create_print_name (id, C->title, 0, 0, 0);
C->users_num = fetch_int ();
C->date = fetch_int ();
C->version = fetch_int ();
fetch_data (&C->photo_big, sizeof (struct file_location));
fetch_data (&C->photo_small, sizeof (struct file_location));
};
rptr = in_ptr;
break;
case CODE_binlog_chat_change_flags:
rptr ++;
{
peer_t *C = user_chat_get (MK_CHAT (*(rptr ++)));
assert (C && (C->flags & FLAG_CREATED));
C->flags |= *(rptr ++);
C->flags &= ~*(rptr ++);
};
break;
case CODE_binlog_set_chat_title:
in_ptr ++;
{
peer_t *_C = user_chat_get (MK_CHAT (fetch_int ()));
assert (_C && (_C->flags & FLAG_CREATED));
struct chat *C = &_C->chat;
if (C->title) { free (C->title); }
C->title = fetch_str_dup ();
C->print_title = create_print_name (C->id, C->title, 0, 0, 0);
};
rptr = in_ptr;
break;
case CODE_binlog_set_chat_photo:
in_ptr ++;
{
peer_t *C = user_chat_get (MK_CHAT (fetch_int ()));
assert (C && (C->flags & FLAG_CREATED));
fetch_data (&C->photo_big, sizeof (struct file_location));
fetch_data (&C->photo_small, sizeof (struct file_location));
};
rptr = in_ptr;
break;
case CODE_binlog_set_chat_date:
rptr ++;
{
peer_t *C = user_chat_get (MK_CHAT (*(rptr ++)));
assert (C && (C->flags & FLAG_CREATED));
C->chat.date = *(rptr ++);
};
break;
case CODE_binlog_set_chat_version:
rptr ++;
{
peer_t *C = user_chat_get (MK_CHAT (*(rptr ++)));
assert (C && (C->flags & FLAG_CREATED));
C->chat.version = *(rptr ++);
C->chat.users_num = *(rptr ++);
};
break;
case CODE_binlog_set_chat_admin:
rptr ++;
{
peer_t *C = user_chat_get (MK_CHAT (*(rptr ++)));
assert (C && (C->flags & FLAG_CREATED));
C->chat.admin_id = *(rptr ++);
};
break;
case CODE_binlog_set_chat_participants:
rptr ++;
{
peer_t *C = user_chat_get (MK_CHAT (*(rptr ++)));
assert (C && (C->flags & FLAG_CREATED));
C->chat.user_list_version = *(rptr ++);
C->chat.user_list_size = *(rptr ++);
if (C->chat.user_list) { free (C->chat.user_list); }
C->chat.user_list = malloc (12 * C->chat.user_list_size);
memcpy (C->chat.user_list, rptr, 12 * C->chat.user_list_size);
rptr += 3 * C->chat.user_list_size;
};
break;
case CODE_binlog_chat_full_photo:
in_ptr ++;
{
peer_id_t id = MK_CHAT (fetch_int ());
peer_t *U = user_chat_get (id);
assert (U && (U->flags & FLAG_CREATED));
if (U->flags & FLAG_HAS_PHOTO) {
free_photo (&U->chat.photo);
}
fetch_photo (&U->chat.photo);
}
rptr = in_ptr;
break;
case CODE_binlog_add_chat_participant:
rptr ++;
{
peer_id_t id = MK_CHAT (*(rptr ++));
peer_t *_C = user_chat_get (id);
assert (_C && (_C->flags & FLAG_CREATED));
struct chat *C = &_C->chat;
int version = *(rptr ++);
int user = *(rptr ++);
int inviter = *(rptr ++);
int date = *(rptr ++);
assert (C->user_list_version < version);
int i;
for (i = 0; i < C->user_list_size; i++) {
assert (C->user_list[i].user_id != user);
}
C->user_list_size ++;
C->user_list = realloc (C->user_list, 12 * C->user_list_size);
C->user_list[C->user_list_size - 1].user_id = user;
C->user_list[C->user_list_size - 1].inviter_id = inviter;
C->user_list[C->user_list_size - 1].date = date;
C->user_list_version = version;
}
break;
case CODE_binlog_del_chat_participant:
rptr ++;
{
peer_id_t id = MK_CHAT (*(rptr ++));
peer_t *_C = user_chat_get (id);
assert (_C && (_C->flags & FLAG_CREATED));
struct chat *C = &_C->chat;
int version = *(rptr ++);
int user = *(rptr ++);
assert (C->user_list_version < version);
int i;
for (i = 0; i < C->user_list_size; i++) {
if (C->user_list[i].user_id == user) {
struct chat_user t;
t = C->user_list[i];
C->user_list[i] = C->user_list[C->user_list_size - 1];
C->user_list[C->user_list_size - 1] = t;
}
}
assert (C->user_list[C->user_list_size - 1].user_id == user);
C->user_list_size --;
C->user_list = realloc (C->user_list, 12 * C->user_list_size);
C->user_list_version = version;
}
break;
case CODE_binlog_create_message_text:
case CODE_binlog_send_message_text:
in_ptr ++;
{
long long id;
if (op == CODE_binlog_create_message_text) {
id = fetch_int ();
} else {
id = fetch_long ();
}
struct message *M = message_get (id);
if (!M) {
M = malloc (sizeof (*M));
memset (M, 0, sizeof (*M));
M->id = id;
message_insert_tree (M);
messages_allocated ++;
} else {
assert (!(M->flags & FLAG_CREATED));
}
M->flags |= FLAG_CREATED;
M->from_id = MK_USER (fetch_int ());
int t = fetch_int ();
if (t == PEER_ENCR_CHAT) {
M->flags |= FLAG_ENCRYPTED;
}
M->to_id = set_peer_id (t, fetch_int ());
M->date = fetch_int ();
int l = prefetch_strlen ();
M->message = malloc (l + 1);
memcpy (M->message, fetch_str (l), l);
M->message[l] = 0;
M->message_len = l;
if (t == PEER_ENCR_CHAT) {
M->media.type = CODE_decrypted_message_media_empty;
} else {
M->media.type = CODE_message_media_empty;
}
M->unread = 1;
M->out = get_peer_id (M->from_id) == our_id;
message_insert (M);
if (op == CODE_binlog_send_message_text) {
message_insert_unsent (M);
M->flags |= FLAG_PENDING;
}
}
rptr = in_ptr;
break;
case CODE_binlog_create_message_text_fwd:
in_ptr ++;
{
int id = fetch_int ();
struct message *M = message_get (id);
if (!M) {
M = malloc (sizeof (*M));
memset (M, 0, sizeof (*M));
M->id = id;
message_insert_tree (M);
messages_allocated ++;
} else {
assert (!(M->flags & FLAG_CREATED));
}
M->flags |= FLAG_CREATED;
M->from_id = MK_USER (fetch_int ());
int t = fetch_int ();
M->to_id = set_peer_id (t, fetch_int ());
M->date = fetch_int ();
M->fwd_from_id = MK_USER (fetch_int ());
M->fwd_date = fetch_int ();
int l = prefetch_strlen ();
M->message = malloc (l + 1);
memcpy (M->message, fetch_str (l), l);
M->message[l] = 0;
M->message_len = l;
M->media.type = CODE_message_media_empty;
M->unread = 1;
M->out = get_peer_id (M->from_id) == our_id;
message_insert (M);
}
rptr = in_ptr;
break;
case CODE_binlog_create_message_media:
in_ptr ++;
{
int id = fetch_int ();
struct message *M = message_get (id);
if (!M) {
M = malloc (sizeof (*M));
memset (M, 0, sizeof (*M));
M->id = id;
message_insert_tree (M);
messages_allocated ++;
} else {
assert (!(M->flags & FLAG_CREATED));
}
M->flags |= FLAG_CREATED;
M->from_id = MK_USER (fetch_int ());
int t = fetch_int ();
M->to_id = set_peer_id (t, fetch_int ());
M->date = fetch_int ();
int l = prefetch_strlen ();
M->message = malloc (l + 1);
memcpy (M->message, fetch_str (l), l);
M->message[l] = 0;
M->message_len = l;
fetch_message_media (&M->media);
M->unread = 1;
M->out = get_peer_id (M->from_id) == our_id;
message_insert (M);
}
rptr = in_ptr;
break;
case CODE_binlog_create_message_media_encr:
in_ptr ++;
{
long long id = fetch_long ();
struct message *M = message_get (id);
if (!M) {
M = malloc (sizeof (*M));
memset (M, 0, sizeof (*M));
M->id = id;
message_insert_tree (M);
messages_allocated ++;
} else {
assert (!(M->flags & FLAG_CREATED));
}
M->flags |= FLAG_CREATED | FLAG_ENCRYPTED;
M->from_id = MK_USER (fetch_int ());
int t = fetch_int ();
M->to_id = set_peer_id (t, fetch_int ());
M->date = fetch_int ();
int l = prefetch_strlen ();
M->message = malloc (l + 1);
memcpy (M->message, fetch_str (l), l);
M->message[l] = 0;
M->message_len = l;
fetch_message_media_encrypted (&M->media);
fetch_encrypted_message_file (&M->media);
M->unread = 1;
M->out = get_peer_id (M->from_id) == our_id;
message_insert (M);
}
rptr = in_ptr;
break;
case CODE_binlog_create_message_media_fwd:
in_ptr ++;
{
int id = fetch_int ();
struct message *M = message_get (id);
if (!M) {
M = malloc (sizeof (*M));
memset (M, 0, sizeof (*M));
M->id = id;
message_insert_tree (M);
messages_allocated ++;
} else {
assert (!(M->flags & FLAG_CREATED));
}
M->flags |= FLAG_CREATED;
M->from_id = MK_USER (fetch_int ());
int t = fetch_int ();
M->to_id = set_peer_id (t, fetch_int ());
M->date = fetch_int ();
M->fwd_from_id = MK_USER (fetch_int ());
M->fwd_date = fetch_int ();
int l = prefetch_strlen ();
M->message = malloc (l + 1);
memcpy (M->message, fetch_str (l), l);
M->message[l] = 0;
M->message_len = l;
fetch_message_media (&M->media);
M->unread = 1;
M->out = get_peer_id (M->from_id) == our_id;
message_insert (M);
}
rptr = in_ptr;
break;
case CODE_binlog_create_message_service:
in_ptr ++;
{
int id = fetch_int ();
struct message *M = message_get (id);
if (!M) {
M = malloc (sizeof (*M));
memset (M, 0, sizeof (*M));
M->id = id;
message_insert_tree (M);
messages_allocated ++;
} else {
assert (!(M->flags & FLAG_CREATED));
}
M->flags |= FLAG_CREATED;
M->from_id = MK_USER (fetch_int ());
int t = fetch_int ();
M->to_id = set_peer_id (t, fetch_int ());
M->date = fetch_int ();
fetch_message_action (&M->action);
M->unread = 1;
M->out = get_peer_id (M->from_id) == our_id;
M->service = 1;
message_insert (M);
}
rptr = in_ptr;
break;
case CODE_binlog_create_message_service_encr:
in_ptr ++;
{
long long id = fetch_long ();
struct message *M = message_get (id);
if (!M) {
M = malloc (sizeof (*M));
memset (M, 0, sizeof (*M));
M->id = id;
message_insert_tree (M);
messages_allocated ++;
} else {
assert (!(M->flags & FLAG_CREATED));
}
M->flags |= FLAG_CREATED | FLAG_ENCRYPTED;
M->from_id = MK_USER (fetch_int ());
int t = fetch_int ();
M->to_id = set_peer_id (t, fetch_int ());
M->date = fetch_int ();
fetch_message_action_encrypted (&M->action);
M->unread = 1;
M->out = get_peer_id (M->from_id) == our_id;
M->service = 1;
message_insert (M);
}
rptr = in_ptr;
break;
case CODE_binlog_create_message_service_fwd:
in_ptr ++;
{
int id = fetch_int ();
struct message *M = message_get (id);
if (!M) {
M = malloc (sizeof (*M));
memset (M, 0, sizeof (*M));
M->id = id;
message_insert_tree (M);
messages_allocated ++;
} else {
assert (!(M->flags & FLAG_CREATED));
}
M->flags |= FLAG_CREATED;
M->from_id = MK_USER (fetch_int ());
int t = fetch_int ();
M->to_id = set_peer_id (t, fetch_int ());
M->date = fetch_int ();
M->fwd_from_id = MK_USER (fetch_int ());
M->fwd_date = fetch_int ();
fetch_message_action (&M->action);
M->unread = 1;
M->out = get_peer_id (M->from_id) == our_id;
M->service = 1;
message_insert (M);
}
rptr = in_ptr;
break;
case CODE_binlog_set_unread:
rptr ++;
{
struct message *M = message_get (*(rptr ++));
assert (M);
M->unread = 0;
}
break;
case CODE_binlog_set_message_sent:
rptr ++;
{
struct message *M = message_get (*(long long *)rptr);
rptr += 2;
assert (M);
message_remove_unsent (M);
M->flags &= ~FLAG_PENDING;
}
break;
case CODE_binlog_set_msg_id:
rptr ++;
{
struct message *M = message_get (*(long long *)rptr);
rptr += 2;
assert (M);
if (M->flags & FLAG_PENDING) {
message_remove_unsent (M);
M->flags &= ~FLAG_PENDING;
}
message_remove_tree (M);
message_del_peer (M);
M->id = *(rptr ++);
if (message_get (M->id)) {
free_message (M);
free (M);
} else {
message_insert_tree (M);
message_add_peer (M);
}
}
break;
case CODE_binlog_delete_msg:
rptr ++;
{
struct message *M = message_get (*(long long *)rptr);
rptr += 2;
assert (M);
if (M->flags & FLAG_PENDING) {
message_remove_unsent (M);
M->flags &= ~FLAG_PENDING;
}
message_remove_tree (M);
message_del_peer (M);
free_message (M);
free (M);
}
break;
case CODE_update_user_photo:
case CODE_update_user_name:
work_update_binlog ();
rptr = in_ptr;
break;
default:
logprintf ("Unknown logevent [0x%08x] 0x%08x [0x%08x] at %lld\n", *(rptr - 1), op, *(rptr + 1), binlog_pos);
assert (0);
}
if (verbosity >= 2) {
logprintf ("Event end\n");
}
in_replay_log = 0;
binlog_pos += (rptr - start) * 4;
}
void create_new_binlog (void) {
static int s[1000];
packet_ptr = s;
out_int (LOG_START);
out_int (CODE_binlog_dc_option);
out_int (1);
out_string ("");
out_string (test_dc ? TG_SERVER_TEST : TG_SERVER);
out_int (443);
out_int (LOG_DEFAULT_DC);
out_int (1);
int fd = open (get_binlog_file_name (), O_WRONLY | O_EXCL | O_CREAT, 0600);
if (fd < 0) {
perror ("Write new binlog");
exit (2);
}
assert (write (fd, s, (packet_ptr - s) * 4) == (packet_ptr - s) * 4);
close (fd);
}
void replay_log (void) {
if (access (get_binlog_file_name (), F_OK) < 0) {
printf ("No binlog found. Creating new one\n");
create_new_binlog ();
}
int fd = open (get_binlog_file_name (), O_RDONLY);
if (fd < 0) {
perror ("binlog open");
exit (2);
}
int end = 0;
while (1) {
if (!end && wptr - rptr < MAX_LOG_EVENT_SIZE / 4) {
if (wptr == rptr) {
wptr = rptr = binlog_buffer;
} else {
int x = wptr - rptr;
memcpy (binlog_buffer, rptr, 4 * x);
wptr -= (rptr - binlog_buffer);
rptr = binlog_buffer;
}
int l = (binlog_buffer + BINLOG_BUFFER_SIZE - wptr) * 4;
int k = read (fd, wptr, l);
if (k < 0) {
perror ("read binlog");
exit (2);
}
assert (!(k & 3));
if (k < l) {
end = 1;
}
wptr += (k / 4);
}
if (wptr == rptr) { break; }
replay_log_event ();
}
close (fd);
}
int binlog_fd;
void write_binlog (void) {
binlog_fd = open (get_binlog_file_name (), O_WRONLY);
if (binlog_fd < 0) {
perror ("binlog open");
exit (2);
}
assert (lseek (binlog_fd, binlog_pos, SEEK_SET) == binlog_pos);
if (flock (binlog_fd, LOCK_EX | LOCK_NB) < 0) {
perror ("get lock");
exit (2);
}
}
void add_log_event (const int *data, int len) {
if (verbosity) {
logprintf ("Add log event: magic = 0x%08x, len = %d\n", data[0], len);
}
assert (!(len & 3));
if (in_replay_log) { return; }
rptr = (void *)data;
wptr = rptr + (len / 4);
int *in = in_ptr;
int *end = in_end;
replay_log_event ();
if (rptr != wptr) {
logprintf ("Unread %lld ints. Len = %d\n", (long long)(wptr - rptr), len);
assert (rptr == wptr);
}
if (binlog_enabled) {
assert (binlog_fd > 0);
assert (write (binlog_fd, data, len) == len);
}
in_ptr = in;
in_end = end;
}
void bl_do_set_auth_key_id (int num, unsigned char *buf) {
static unsigned char sha1_buffer[20];
SHA1 (buf, 256, sha1_buffer);
long long fingerprint = *(long long *)(sha1_buffer + 12);
int *ev = alloc_log_event (8 + 8 + 256);
ev[0] = LOG_AUTH_KEY;
ev[1] = num;
*(long long *)(ev + 2) = fingerprint;
memcpy (ev + 4, buf, 256);
add_log_event (ev, 8 + 8 + 256);
}
void bl_do_set_our_id (int id) {
int *ev = alloc_log_event (8);
ev[0] = LOG_OUR_ID;
ev[1] = id;
add_log_event (ev, 8);
}
void bl_do_new_user (int id, const char *f, int fl, const char *l, int ll, long long access_token, const char *p, int pl, int contact) {
clear_packet ();
out_int (CODE_binlog_new_user);
out_int (id);
out_cstring (f ? f : "", fl);
out_cstring (l ? l : "", ll);
out_long (access_token);
out_cstring (p ? p : "", pl);
out_int (contact);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_user_delete (struct user *U) {
if (U->flags & FLAG_DELETED) { return; }
int *ev = alloc_log_event (8);
ev[0] = CODE_binlog_user_delete;
ev[1] = get_peer_id (U->id);
add_log_event (ev, 8);
}
extern int last_date;
void bl_do_set_user_profile_photo (struct user *U, long long photo_id, struct file_location *big, struct file_location *small) {
if (photo_id == U->photo_id) { return; }
if (!photo_id) {
int *ev = alloc_log_event (20);
ev[0] = CODE_update_user_photo;
ev[1] = get_peer_id (U->id);
ev[2] = last_date;
ev[3] = CODE_user_profile_photo_empty;
ev[4] = CODE_bool_false;
add_log_event (ev, 20);
} else {
clear_packet ();
out_int (CODE_update_user_photo);
out_int (get_peer_id (U->id));
out_int (last_date);
out_int (CODE_user_profile_photo);
out_long (photo_id);
if (small->dc >= 0) {
out_int (CODE_file_location);
out_int (small->dc);
out_long (small->volume);
out_int (small->local_id);
out_long (small->secret);
} else {
out_int (CODE_file_location_unavailable);
out_long (small->volume);
out_int (small->local_id);
out_long (small->secret);
}
if (big->dc >= 0) {
out_int (CODE_file_location);
out_int (big->dc);
out_long (big->volume);
out_int (big->local_id);
out_long (big->secret);
} else {
out_int (CODE_file_location_unavailable);
out_long (big->volume);
out_int (big->local_id);
out_long (big->secret);
}
out_int (CODE_bool_false);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
}
void bl_do_set_user_name (struct user *U, const char *f, int fl, const char *l, int ll) {
if ((U->first_name && (int)strlen (U->first_name) == fl && !strncmp (U->first_name, f, fl)) &&
(U->last_name && (int)strlen (U->last_name) == ll && !strncmp (U->last_name, l, ll))) {
return;
}
clear_packet ();
out_int (CODE_update_user_name);
out_int (get_peer_id (U->id));
out_cstring (f, fl);
out_cstring (l, ll);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_set_user_access_token (struct user *U, long long access_token) {
if (U->access_hash == access_token) { return; }
int *ev = alloc_log_event (16);
ev[0] = CODE_binlog_set_user_access_token;
ev[1] = get_peer_id (U->id);
*(long long *)(ev + 2) = access_token;
add_log_event (ev, 16);
}
void bl_do_set_user_phone (struct user *U, const char *p, int pl) {
if (U->phone && (int)strlen (U->phone) == pl && !strncmp (U->phone, p, pl)) {
return;
}
clear_packet ();
out_int (CODE_binlog_set_user_phone);
out_int (get_peer_id (U->id));
out_cstring (p, pl);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_set_user_friend (struct user *U, int friend) {
if (friend == ((U->flags & FLAG_USER_CONTACT) != 0)) { return ; }
int *ev = alloc_log_event (12);
ev[0] = CODE_binlog_set_user_friend;
ev[1] = get_peer_id (U->id);
ev[2] = friend;
add_log_event (ev, 12);
}
void bl_do_dc_option (int id, int l1, const char *name, int l2, const char *ip, int port) {
struct dc *DC = DC_list[id];
if (DC) { return; }
clear_packet ();
out_int (CODE_binlog_dc_option);
out_int (id);
out_cstring (name, l1);
out_cstring (ip, l2);
out_int (port);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_dc_signed (int id) {
int *ev = alloc_log_event (8);
ev[0] = LOG_DC_SIGNED;
ev[1] = id;
add_log_event (ev, 8);
}
void bl_do_set_working_dc (int num) {
int *ev = alloc_log_event (8);
ev[0] = LOG_DEFAULT_DC;
ev[1] = num;
add_log_event (ev, 8);
}
void bl_do_set_user_full_photo (struct user *U, const int *start, int len) {
if (U->photo.id == *(long long *)(start + 1)) { return; }
int *ev = alloc_log_event (len + 8);
ev[0] = CODE_binlog_user_full_photo;
ev[1] = get_peer_id (U->id);
memcpy (ev + 2, start, len);
add_log_event (ev, len + 8);
}
void bl_do_set_user_blocked (struct user *U, int blocked) {
if (U->blocked == blocked) { return; }
int *ev = alloc_log_event (12);
ev[0] = CODE_binlog_user_blocked;
ev[1] = get_peer_id (U->id);
ev[2] = blocked;
add_log_event (ev, 12);
}
void bl_do_set_user_real_name (struct user *U, const char *f, int fl, const char *l, int ll) {
if ((U->real_first_name && (int)strlen (U->real_first_name) == fl && !strncmp (U->real_first_name, f, fl)) &&
(U->real_last_name && (int)strlen (U->real_last_name) == ll && !strncmp (U->real_last_name, l, ll))) {
return;
}
clear_packet ();
out_int (CODE_binlog_set_user_full_name);
out_int (get_peer_id (U->id));
out_cstring (f, fl);
out_cstring (l, ll);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_encr_chat_delete (struct secret_chat *U) {
if (!(U->flags & FLAG_CREATED) || U->state == sc_deleted || U->state == sc_none) { return; }
int *ev = alloc_log_event (8);
ev[0] = CODE_binlog_encr_chat_delete;
ev[1] = get_peer_id (U->id);
add_log_event (ev, 8);
}
void bl_do_encr_chat_requested (struct secret_chat *U, long long access_hash, int date, int admin_id, int user_id, unsigned char g_key[], unsigned char nonce[]) {
if (U->state != sc_none) { return; }
int *ev = alloc_log_event (540);
ev[0] = CODE_binlog_encr_chat_requested;
ev[1] = get_peer_id (U->id);
*(long long *)(ev + 2) = access_hash;
ev[4] = date;
ev[5] = admin_id;
ev[6] = user_id;
memcpy (ev + 7, g_key, 256);
memcpy (ev + 7 + 64, nonce, 256);
add_log_event (ev, 540);
}
void bl_do_set_encr_chat_access_hash (struct secret_chat *U, long long access_hash) {
if (U->access_hash == access_hash) { return; }
int *ev = alloc_log_event (16);
ev[0] = CODE_binlog_set_encr_chat_access_hash;
ev[1] = get_peer_id (U->id);
*(long long *)(ev + 2) = access_hash;
add_log_event (ev, 16);
}
void bl_do_set_encr_chat_date (struct secret_chat *U, int date) {
if (U->date == date) { return; }
int *ev = alloc_log_event (12);
ev[0] = CODE_binlog_set_encr_chat_date;
ev[1] = get_peer_id (U->id);
ev[2] = date;
add_log_event (ev, 12);
}
void bl_do_set_encr_chat_state (struct secret_chat *U, enum secret_chat_state state) {
if (U->state == state) { return; }
int *ev = alloc_log_event (12);
ev[0] = CODE_binlog_set_encr_chat_state;
ev[1] = get_peer_id (U->id);
ev[2] = state;
add_log_event (ev, 12);
}
void bl_do_encr_chat_accepted (struct secret_chat *U, const unsigned char g_key[], const unsigned char nonce[], long long key_fingerprint) {
if (U->state != sc_waiting && U->state != sc_request) { return; }
int *ev = alloc_log_event (528);
ev[0] = CODE_binlog_encr_chat_accepted;
ev[1] = get_peer_id (U->id);
memcpy (ev + 2, g_key, 256);
memcpy (ev + 66, nonce, 256);
*(long long *)(ev + 130) = key_fingerprint;
add_log_event (ev, 528);
}
void bl_do_set_encr_chat_key (struct secret_chat *E, unsigned char key[], long long key_fingerprint) {
int *ev = alloc_log_event (272);
ev[0] = CODE_binlog_set_encr_chat_key;
ev[1] = get_peer_id (E->id);
memcpy (ev + 2, key, 256);
*(long long *)(ev + 66) = key_fingerprint;
add_log_event (ev, 272);
}
void bl_do_set_dh_params (int root, unsigned char prime[], int version) {
int *ev = alloc_log_event (268);
ev[0] = CODE_binlog_set_dh_params;
ev[1] = root;
memcpy (ev + 2, prime, 256);
ev[66] = version;
add_log_event (ev, 268);
}
void bl_do_encr_chat_init (int id, int user_id, unsigned char random[], unsigned char g_a[]) {
int *ev = alloc_log_event (524);
ev[0] = CODE_binlog_encr_chat_init;
ev[1] = id;
ev[2] = user_id;
memcpy (ev + 3, random, 256);
memcpy (ev + 67, g_a, 256);
add_log_event (ev, 524);
}
void bl_do_set_pts (int pts) {
int *ev = alloc_log_event (8);
ev[0] = CODE_binlog_set_pts;
ev[1] = pts;
add_log_event (ev, 8);
}
void bl_do_set_qts (int qts) {
int *ev = alloc_log_event (8);
ev[0] = CODE_binlog_set_qts;
ev[1] = qts;
add_log_event (ev, 8);
}
void bl_do_set_date (int date) {
int *ev = alloc_log_event (8);
ev[0] = CODE_binlog_set_date;
ev[1] = date;
add_log_event (ev, 8);
}
void bl_do_set_seq (int seq) {
int *ev = alloc_log_event (8);
ev[0] = CODE_binlog_set_seq;
ev[1] = seq;
add_log_event (ev, 8);
}
void bl_do_create_chat (struct chat *C, int y, const char *s, int l, int users_num, int date, int version, struct file_location *big, struct file_location *small) {
clear_packet ();
out_int (CODE_binlog_chat_create);
out_int (get_peer_id (C->id));
out_int (y);
out_cstring (s, l);
out_int (users_num);
out_int (date);
out_int (version);
out_data (big, sizeof (struct file_location));
out_data (small, sizeof (struct file_location));
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_chat_forbid (struct chat *C, int on) {
if (on) {
if (C->flags & FLAG_FORBIDDEN) { return; }
int *ev = alloc_log_event (16);
ev[0] = CODE_binlog_chat_change_flags;
ev[1] = get_peer_id (C->id);
ev[2] = FLAG_FORBIDDEN;
ev[3] = 0;
add_log_event (ev, 16);
} else {
if (!(C->flags & FLAG_FORBIDDEN)) { return; }
int *ev = alloc_log_event (16);
ev[0] = CODE_binlog_chat_change_flags;
ev[1] = get_peer_id (C->id);
ev[2] = 0;
ev[3] = FLAG_FORBIDDEN;
add_log_event (ev, 16);
}
}
void bl_do_set_chat_title (struct chat *C, const char *s, int l) {
if (C->title && (int)strlen (C->title) == l && !strncmp (C->title, s, l)) { return; }
clear_packet ();
out_int (CODE_binlog_set_chat_title);
out_int (get_peer_id (C->id));
out_cstring (s, l);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_set_chat_photo (struct chat *C, struct file_location *big, struct file_location *small) {
if (!memcmp (&C->photo_small, small, sizeof (struct file_location)) &&
!memcmp (&C->photo_big, big, sizeof (struct file_location))) { return; }
clear_packet ();
out_int (CODE_binlog_set_chat_photo);
out_int (get_peer_id (C->id));
out_data (big, sizeof (struct file_location));
out_data (small, sizeof (struct file_location));
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_set_chat_date (struct chat *C, int date) {
if (C->date == date) { return; }
int *ev = alloc_log_event (12);
ev[0] = CODE_binlog_set_chat_date;
ev[1] = get_peer_id (C->id);
ev[2] = date;
add_log_event (ev, 12);
}
void bl_do_set_chat_set_in_chat (struct chat *C, int on) {
if (on) {
if (C->flags & FLAG_CHAT_IN_CHAT) { return; }
int *ev = alloc_log_event (16);
ev[0] = CODE_binlog_chat_change_flags;
ev[1] = get_peer_id (C->id);
ev[2] = FLAG_CHAT_IN_CHAT;
ev[3] = 0;
add_log_event (ev, 16);
} else {
if (!(C->flags & FLAG_CHAT_IN_CHAT)) { return; }
int *ev = alloc_log_event (16);
ev[0] = CODE_binlog_chat_change_flags;
ev[1] = get_peer_id (C->id);
ev[2] = 0;
ev[3] = FLAG_CHAT_IN_CHAT;
add_log_event (ev, 16);
}
}
void bl_do_set_chat_version (struct chat *C, int version, int user_num) {
if (C->version >= version) { return; }
int *ev = alloc_log_event (16);
ev[0] = CODE_binlog_set_chat_version;
ev[1] = get_peer_id (C->id);
ev[2] = version;
ev[3] = user_num;
add_log_event (ev, 16);
}
void bl_do_set_chat_admin (struct chat *C, int admin) {
if (C->admin_id == admin) { return; }
int *ev = alloc_log_event (12);
ev[0] = CODE_binlog_set_chat_admin;
ev[1] = get_peer_id (C->id);
ev[2] = admin;
add_log_event (ev, 12);
}
void bl_do_set_chat_participants (struct chat *C, int version, int user_num, struct chat_user *users) {
if (C->user_list_version >= version) { return; }
int *ev = alloc_log_event (12 * user_num + 16);
ev[0] = CODE_binlog_set_chat_participants;
ev[1] = get_peer_id (C->id);
ev[2] = version;
ev[3] = user_num;
memcpy (ev + 4, users, 12 * user_num);
add_log_event (ev, 12 * user_num + 16);
}
void bl_do_set_chat_full_photo (struct chat *U, const int *start, int len) {
if (U->photo.id == *(long long *)(start + 1)) { return; }
int *ev = alloc_log_event (len + 8);
ev[0] = CODE_binlog_chat_full_photo;
ev[1] = get_peer_id (U->id);
memcpy (ev + 2, start, len);
add_log_event (ev, len + 8);
}
void bl_do_chat_add_user (struct chat *C, int version, int user, int inviter, int date) {
if (C->user_list_version >= version || !C->user_list_version) { return; }
int *ev = alloc_log_event (24);
ev[0] = CODE_binlog_add_chat_participant;
ev[1] = get_peer_id (C->id);
ev[2] = version;
ev[3] = user;
ev[4] = inviter;
ev[5] = date;
add_log_event (ev, 24);
}
void bl_do_chat_del_user (struct chat *C, int version, int user) {
if (C->user_list_version >= version || !C->user_list_version) { return; }
int *ev = alloc_log_event (16);
ev[0] = CODE_binlog_add_chat_participant;
ev[1] = get_peer_id (C->id);
ev[2] = version;
ev[3] = user;
add_log_event (ev, 16);
}
void bl_do_create_message_text (int msg_id, int from_id, int to_type, int to_id, int date, int l, const char *s) {
clear_packet ();
out_int (CODE_binlog_create_message_text);
out_int (msg_id);
out_int (from_id);
out_int (to_type);
out_int (to_id);
out_int (date);
out_cstring (s, l);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_send_message_text (long long msg_id, int from_id, int to_type, int to_id, int date, int l, const char *s) {
clear_packet ();
out_int (CODE_binlog_send_message_text);
out_long (msg_id);
out_int (from_id);
out_int (to_type);
out_int (to_id);
out_int (date);
out_cstring (s, l);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_create_message_text_fwd (int msg_id, int from_id, int to_type, int to_id, int date, int fwd, int fwd_date, int l, const char *s) {
clear_packet ();
out_int (CODE_binlog_create_message_text_fwd);
out_int (msg_id);
out_int (from_id);
out_int (to_type);
out_int (to_id);
out_int (date);
out_int (fwd);
out_int (fwd_date);
out_cstring (s, l);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_create_message_media (int msg_id, int from_id, int to_type, int to_id, int date, int l, const char *s, const int *data, int len) {
clear_packet ();
out_int (CODE_binlog_create_message_media);
out_int (msg_id);
out_int (from_id);
out_int (to_type);
out_int (to_id);
out_int (date);
out_cstring (s, l);
out_ints (data, len);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_create_message_media_encr (long long msg_id, int from_id, int to_type, int to_id, int date, int l, const char *s, const int *data, int len, const int *data2, int len2) {
clear_packet ();
out_int (CODE_binlog_create_message_media_encr);
out_long (msg_id);
out_int (from_id);
out_int (to_type);
out_int (to_id);
out_int (date);
out_cstring (s, l);
out_ints (data, len);
out_ints (data2, len2);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_create_message_media_fwd (int msg_id, int from_id, int to_type, int to_id, int date, int fwd, int fwd_date, int l, const char *s, const int *data, int len) {
clear_packet ();
out_int (CODE_binlog_create_message_media_fwd);
out_int (msg_id);
out_int (from_id);
out_int (to_type);
out_int (to_id);
out_int (date);
out_int (fwd);
out_int (fwd_date);
out_cstring (s, l);
out_ints (data, len);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_create_message_service (int msg_id, int from_id, int to_type, int to_id, int date, const int *data, int len) {
clear_packet ();
out_int (CODE_binlog_create_message_service);
out_int (msg_id);
out_int (from_id);
out_int (to_type);
out_int (to_id);
out_int (date);
out_ints (data, len);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_create_message_service_encr (long long msg_id, int from_id, int to_type, int to_id, int date, const int *data, int len) {
clear_packet ();
out_int (CODE_binlog_create_message_service_encr);
out_long (msg_id);
out_int (from_id);
out_int (to_type);
out_int (to_id);
out_int (date);
out_ints (data, len);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_create_message_service_fwd (int msg_id, int from_id, int to_type, int to_id, int date, int fwd, int fwd_date, const int *data, int len) {
clear_packet ();
out_int (CODE_binlog_create_message_service_fwd);
out_int (msg_id);
out_int (from_id);
out_int (to_type);
out_int (to_id);
out_int (date);
out_int (fwd);
out_int (fwd_date);
out_ints (data, len);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_set_unread (struct message *M, int unread) {
if (unread || !M->unread) { return; }
clear_packet ();
out_int (CODE_binlog_set_unread);
out_int (M->id);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_set_message_sent (struct message *M) {
if (!(M->flags & FLAG_PENDING)) { return; }
clear_packet ();
out_int (CODE_binlog_set_message_sent);
out_long (M->id);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_set_msg_id (struct message *M, int id) {
if (M->id == id) { return; }
clear_packet ();
out_int (CODE_binlog_set_msg_id);
out_long (M->id);
out_int (id);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
void bl_do_delete_msg (struct message *M) {
clear_packet ();
out_int (CODE_binlog_delete_msg);
out_long (M->id);
add_log_event (packet_buffer, 4 * (packet_ptr - packet_buffer));
}
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