Nagram/TMessagesProj/jni/tgnet/ApiScheme.cpp
2023-03-24 15:38:14 +04:00

1346 lines
46 KiB
C++

/*
* This is the source code of tgnet library v. 1.1
* It is licensed under GNU GPL v. 2 or later.
* You should have received a copy of the license in this archive (see LICENSE).
*
* Copyright Nikolai Kudashov, 2015-2018.
*/
#include "ApiScheme.h"
#include "ByteArray.h"
#include "NativeByteBuffer.h"
#include "FileLog.h"
Bool *Bool::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
Bool *result = nullptr;
switch (constructor) {
case 0x997275b5:
result = new TL_boolTrue();
break;
case 0xbc799737:
result = new TL_boolFalse();
break;
default:
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in Bool", constructor);
return nullptr;
}
result->readParams(stream, instanceNum, error);
return result;
}
void TL_boolTrue::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
void TL_boolFalse::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
TL_dcOption *TL_dcOption::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
if (TL_dcOption::constructor != constructor) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in TL_dcOption", constructor);
return nullptr;
}
TL_dcOption *result = new TL_dcOption();
result->readParams(stream, instanceNum, error);
return result;
}
void TL_dcOption::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
flags = stream->readInt32(&error);
ipv6 = (flags & 1) != 0;
media_only = (flags & 2) != 0;
tcpo_only = (flags & 4) != 0;
cdn = (flags & 8) != 0;
isStatic = (flags & 16) != 0;
thisPortOnly = (flags & 32) != 0;
force_try_ipv6 = (flags & 16384) != 0;
id = stream->readInt32(&error);
ip_address = stream->readString(&error);
port = stream->readInt32(&error);
if ((flags & 1024) != 0) {
secret = std::unique_ptr<ByteArray>(stream->readByteArray(&error));
}
}
void TL_dcOption::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
flags = ipv6 ? (flags | 1) : (flags &~ 1);
flags = media_only ? (flags | 2) : (flags &~ 2);
flags = tcpo_only ? (flags | 4) : (flags &~ 4);
flags = cdn ? (flags | 8) : (flags &~ 8);
flags = isStatic ? (flags | 16) : (flags &~ 16);
flags = thisPortOnly ? (flags | 32) : (flags &~ 32);
flags = force_try_ipv6 ? (flags | 16384) : (flags &~ 16384);
stream->writeInt32(flags);
stream->writeInt32(id);
stream->writeString(ip_address);
stream->writeInt32(port);
if ((flags & 1024) != 0) {
stream->writeByteArray(secret.get());
}
}
TL_cdnPublicKey *TL_cdnPublicKey::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
if (TL_cdnPublicKey::constructor != constructor) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in TL_cdnPublicKey", constructor);
return nullptr;
}
TL_cdnPublicKey *result = new TL_cdnPublicKey();
result->readParams(stream, instanceNum, error);
return result;
}
void TL_cdnPublicKey::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
dc_id = stream->readInt32(&error);
public_key = stream->readString(&error);
}
void TL_cdnPublicKey::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(dc_id);
stream->writeString(public_key);
}
TL_cdnConfig *TL_cdnConfig::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
if (TL_cdnConfig::constructor != constructor) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in TL_cdnConfig", constructor);
return nullptr;
}
TL_cdnConfig *result = new TL_cdnConfig();
result->readParams(stream, instanceNum, error);
return result;
}
void TL_cdnConfig::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
int magic = stream->readInt32(&error);
if (magic != 0x1cb5c415) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("wrong Vector magic in TL_cdnConfig, got %x", magic);
return;
}
int count = stream->readInt32(&error);
for (int32_t a = 0; a < count; a++) {
TL_cdnPublicKey *object = TL_cdnPublicKey::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error);
if (object == nullptr) {
return;
}
public_keys.push_back(std::unique_ptr<TL_cdnPublicKey>(object));
}
}
void TL_cdnConfig::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(0x1cb5c415);
int32_t count = (int32_t) public_keys.size();
stream->writeInt32(count);
for (int32_t a = 0; a < count; a++) {
public_keys[a]->serializeToStream(stream);
}
}
bool TL_help_getCdnConfig::isNeedLayer() {
return true;
}
TLObject *TL_help_getCdnConfig::deserializeResponse(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
return TL_cdnConfig::TLdeserialize(stream, constructor, instanceNum, error);
}
void TL_help_getCdnConfig::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
TL_config *TL_config::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
if (TL_config::constructor != constructor) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in TL_config", constructor);
return nullptr;
}
TL_config *result = new TL_config();
result->readParams(stream, instanceNum, error);
return result;
}
void TL_config::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
flags = stream->readInt32(&error);
date = stream->readInt32(&error);
expires = stream->readInt32(&error);
test_mode = stream->readBool(&error);
this_dc = stream->readInt32(&error);
uint32_t magic = stream->readUint32(&error);
if (magic != 0x1cb5c415) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("wrong Vector magic in TL_config, got %x", magic);
return;
}
int32_t count = stream->readInt32(&error);
for (int32_t a = 0; a < count; a++) {
TL_dcOption *object = TL_dcOption::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error);
if (object == nullptr) {
return;
}
dc_options.push_back(std::unique_ptr<TL_dcOption>(object));
}
dc_txt_domain_name = stream->readString(&error);
chat_size_max = stream->readInt32(&error);
megagroup_size_max = stream->readInt32(&error);
forwarded_count_max = stream->readInt32(&error);
online_update_period_ms = stream->readInt32(&error);
offline_blur_timeout_ms = stream->readInt32(&error);
offline_idle_timeout_ms = stream->readInt32(&error);
online_cloud_timeout_ms = stream->readInt32(&error);
notify_cloud_delay_ms = stream->readInt32(&error);
notify_default_delay_ms = stream->readInt32(&error);
push_chat_period_ms = stream->readInt32(&error);
push_chat_limit = stream->readInt32(&error);
// saved_gifs_limit = stream->readInt32(&error);
edit_time_limit = stream->readInt32(&error);
revoke_time_limit = stream->readInt32(&error);
revoke_pm_time_limit = stream->readInt32(&error);
rating_e_decay = stream->readInt32(&error);
stickers_recent_limit = stream->readInt32(&error);
// stickers_faved_limit = stream->readInt32(&error);
channels_read_media_period = stream->readInt32(&error);
if ((flags & 1) != 0) {
tmp_sessions = stream->readInt32(&error);
}
// pinned_dialogs_count_max = stream->readInt32(&error);
// pinned_infolder_count_max = stream->readInt32(&error);
call_receive_timeout_ms = stream->readInt32(&error);
call_ring_timeout_ms = stream->readInt32(&error);
call_connect_timeout_ms = stream->readInt32(&error);
call_packet_timeout_ms = stream->readInt32(&error);
me_url_prefix = stream->readString(&error);
if ((flags & 128) != 0) {
autoupdate_url_prefix = stream->readString(&error);
}
if ((flags & 512) != 0) {
gif_search_username = stream->readString(&error);
}
if ((flags & 1024) != 0) {
venue_search_username = stream->readString(&error);
}
if ((flags & 2048) != 0) {
img_search_username = stream->readString(&error);
}
if ((flags & 4096) != 0) {
static_maps_provider = stream->readString(&error);
}
caption_length_max = stream->readInt32(&error);
message_length_max = stream->readInt32(&error);
webfile_dc_id = stream->readInt32(&error);
if ((flags & 4) != 0) {
suggested_lang_code = stream->readString(&error);
}
if ((flags & 4) != 0) {
lang_pack_version = stream->readInt32(&error);
}
if ((flags & 4) != 0) {
base_lang_pack_version = stream->readInt32(&error);
}
if ((flags & 32768) != 0) {
reactions_default = std::unique_ptr<Reaction>(Reaction::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error));
}
if ((flags & 65536) != 0) {
autologin_token = stream->readString(&error);
}
}
void TL_config::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(flags);
stream->writeInt32(date);
stream->writeInt32(expires);
stream->writeBool(test_mode);
stream->writeInt32(this_dc);
stream->writeInt32(0x1cb5c415);
uint32_t count = (uint32_t) dc_options.size();
stream->writeInt32(count);
for (uint32_t a = 0; a < count; a++) {
dc_options[a]->serializeToStream(stream);
}
stream->writeString(dc_txt_domain_name);
stream->writeInt32(chat_size_max);
stream->writeInt32(megagroup_size_max);
stream->writeInt32(forwarded_count_max);
stream->writeInt32(online_update_period_ms);
stream->writeInt32(offline_blur_timeout_ms);
stream->writeInt32(offline_idle_timeout_ms);
stream->writeInt32(online_cloud_timeout_ms);
stream->writeInt32(notify_cloud_delay_ms);
stream->writeInt32(notify_default_delay_ms);
stream->writeInt32(push_chat_period_ms);
stream->writeInt32(push_chat_limit);
// stream->writeInt32(saved_gifs_limit);
stream->writeInt32(edit_time_limit);
stream->writeInt32(revoke_time_limit);
stream->writeInt32(revoke_pm_time_limit);
stream->writeInt32(rating_e_decay);
stream->writeInt32(stickers_recent_limit);
// stream->writeInt32(stickers_faved_limit);
stream->writeInt32(channels_read_media_period);
if ((flags & 1) != 0) {
stream->writeInt32(tmp_sessions);
}
// stream->writeInt32(pinned_dialogs_count_max);
// stream->writeInt32(pinned_infolder_count_max);
stream->writeInt32(call_receive_timeout_ms);
stream->writeInt32(call_ring_timeout_ms);
stream->writeInt32(call_connect_timeout_ms);
stream->writeInt32(call_packet_timeout_ms);
stream->writeString(me_url_prefix);
if ((flags & 128) != 0) {
stream->writeString(autoupdate_url_prefix);
}
if ((flags & 512) != 0) {
stream->writeString(gif_search_username);
}
if ((flags & 1024) != 0) {
stream->writeString(venue_search_username);
}
if ((flags & 2048) != 0) {
stream->writeString(img_search_username);
}
if ((flags & 4096) != 0) {
stream->writeString(static_maps_provider);
}
stream->writeInt32(caption_length_max);
stream->writeInt32(message_length_max);
stream->writeInt32(webfile_dc_id);
if ((flags & 4) != 0) {
stream->writeString(suggested_lang_code);
}
if ((flags & 4) != 0) {
stream->writeInt32(lang_pack_version);
}
if ((flags & 4) != 0) {
stream->writeInt32(base_lang_pack_version);
}
if ((flags & 32768) != 0 && reactions_default != nullptr) {
reactions_default->serializeToStream(stream);
}
if ((flags & 65536) != 0) {
stream->writeString(autologin_token);
}
}
TLObject *TL_help_getConfig::deserializeResponse(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
return TL_config::TLdeserialize(stream, constructor, instanceNum, error);
}
void TL_help_getConfig::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
bool TL_help_getConfig::isNeedLayer() {
return true;
}
bool TL_account_registerDevice::isNeedLayer() {
return true;
}
TLObject *TL_account_registerDevice::deserializeResponse(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
return Bool::TLdeserialize(stream, constructor, instanceNum, error);
}
void TL_account_registerDevice::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(token_type);
stream->writeString(token);
}
TL_restrictionReason *TL_restrictionReason::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
if (TL_restrictionReason::constructor != constructor) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in TL_restrictionReason", constructor);
return nullptr;
}
TL_restrictionReason *result = new TL_restrictionReason();
result->readParams(stream, instanceNum, error);
return result;
}
TL_username *TL_username::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
if (TL_username::constructor != constructor) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in TL_username", constructor);
return nullptr;
}
TL_username *result = new TL_username();
result->readParams(stream, instanceNum, error);
return result;
}
void TL_restrictionReason::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
platform = stream->readString(&error);
reason = stream->readString(&error);
text = stream->readString(&error);
}
void TL_restrictionReason::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeString(platform);
stream->writeString(reason);
stream->writeString(text);
}
void TL_username::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
flags = stream->readInt32(&error);
editable = (flags & 1) != 0;
active = (flags & 2) != 0;
username = stream->readString(&error);
}
void TL_username::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
flags = editable ? (flags | 1) : (flags &~ 1);
flags = active ? (flags | 2) : (flags &~ 2);
stream->writeInt32(flags);
stream->writeString(username);
}
User *User::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
User *result = nullptr;
switch (constructor) {
case TL_userEmpty::constructor:
result = new TL_userEmpty();
break;
case TL_user::constructor:
result = new TL_user();
break;
default:
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in User", constructor);
return nullptr;
}
result->readParams(stream, instanceNum, error);
return result;
}
void TL_userEmpty::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
id = stream->readInt64(&error);
}
void TL_userEmpty::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt64(id);
}
void TL_user::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
flags = stream->readInt32(&error);
flags2 = stream->readInt32(&error);
id = stream->readInt64(&error);
if ((flags & 1) != 0) {
access_hash = stream->readInt64(&error);
}
if ((flags & 2) != 0) {
first_name = stream->readString(&error);
}
if ((flags & 4) != 0) {
last_name = stream->readString(&error);
}
if ((flags & 8) != 0) {
username = stream->readString(&error);
}
if ((flags & 16) != 0) {
phone = stream->readString(&error);
}
if ((flags & 32) != 0) {
photo = std::unique_ptr<UserProfilePhoto>(UserProfilePhoto::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error));
}
if ((flags & 64) != 0) {
status = std::unique_ptr<UserStatus>(UserStatus::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error));
}
if ((flags & 16384) != 0) {
bot_info_version = stream->readInt32(&error);
}
if ((flags & 262144) != 0) {
uint32_t magic = stream->readUint32(&error);
if (magic != 0x1cb5c415) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("wrong Vector magic in TL_user, got %x", magic);
return;
}
int32_t count = stream->readInt32(&error);
for (int32_t a = 0; a < count; a++) {
TL_restrictionReason *object = TL_restrictionReason::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error);
if (object == nullptr) {
return;
}
restriction_reason.push_back(std::unique_ptr<TL_restrictionReason>(object));
}
}
if ((flags & 524288) != 0) {
bot_inline_placeholder = stream->readString(&error);
}
if ((flags & 4194304) != 0) {
lang_code = stream->readString(&error);
}
if ((flags & 1073741824) != 0) {
uint32_t magic = stream->readUint32(&error);
if (magic == 0x2de11aae) {
// emojiStatusEmpty
} else if (magic == 0x929b619d) {
// emojiStatus
int64_t document_id = stream->readInt64(&error);
} else if (magic == 0xfa30a8c7) {
// emojiStatusUntil
int64_t document_id = stream->readInt64(&error);
int until = stream->readInt32(&error);
} else {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("wrong EmojiStatus magic, got %x", magic);
return;
}
}
if ((flags2 & 1) != 0) {
uint32_t magic = stream->readUint32(&error);
if (magic != 0x1cb5c415) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("wrong Vector magic in TL_user (2), got %x", magic);
return;
}
int32_t count = stream->readInt32(&error);
for (int32_t a = 0; a < count; a++) {
TL_username *object = TL_username::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error);
if (object == nullptr) {
return;
}
usernames.push_back(std::unique_ptr<TL_username>(object));
}
}
}
void TL_user::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(flags);
stream->writeInt64(id);
if ((flags & 1) != 0) {
stream->writeInt64(access_hash);
}
if ((flags & 2) != 0) {
stream->writeString(first_name);
}
if ((flags & 4) != 0) {
stream->writeString(last_name);
}
if ((flags & 8) != 0) {
stream->writeString(username);
}
if ((flags & 16) != 0) {
stream->writeString(phone);
}
if ((flags & 32) != 0) {
photo->serializeToStream(stream);
}
if ((flags & 64) != 0) {
status->serializeToStream(stream);
}
if ((flags & 16384) != 0) {
stream->writeInt32(bot_info_version);
}
if ((flags & 262144) != 0) {
stream->writeInt32(0x1cb5c415);
uint32_t count = (uint32_t) restriction_reason.size();
stream->writeInt32(count);
for (int a = 0; a < count; a++) {
restriction_reason[a]->serializeToStream(stream);
}
}
if ((flags & 524288) != 0) {
stream->writeString(bot_inline_placeholder);
}
if ((flags & 4194304) != 0) {
stream->writeString(lang_code);
}
}
InputPeer *InputPeer::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
InputPeer *result = nullptr;
switch (constructor) {
case 0x7da07ec9:
result = new TL_inputPeerSelf();
break;
case 0xdde8a54c:
result = new TL_inputPeerUser();
break;
case 0x35a95cb9:
result = new TL_inputPeerChat();
break;
case 0xa87b0a1c:
result = new TL_inputPeerUserFromMessage();
break;
case 0xbd2a0840:
result = new TL_inputPeerChannelFromMessage();
break;
case 0x27bcbbfc:
result = new TL_inputPeerChannel();
break;
case 0x7f3b18ea:
result = new TL_inputPeerEmpty();
break;
default:
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in InputPeer", constructor);
return nullptr;
}
result->readParams(stream, instanceNum, error);
return result;
}
void TL_inputPeerSelf::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
void TL_inputPeerUser::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
user_id = stream->readInt64(&error);
access_hash = stream->readInt64(&error);
}
void TL_inputPeerUser::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt64(user_id);
stream->writeInt64(access_hash);
}
void TL_inputPeerChat::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
chat_id = stream->readInt64(&error);
}
void TL_inputPeerChat::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt64(chat_id);
}
void TL_inputPeerUserFromMessage::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
peer = std::unique_ptr<InputPeer>(InputPeer::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error));
msg_id = stream->readInt32(&error);
user_id = stream->readInt64(&error);
}
void TL_inputPeerUserFromMessage::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
peer->serializeToStream(stream);
stream->writeInt32(msg_id);
stream->writeInt64(user_id);
}
void TL_inputPeerChannelFromMessage::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
peer = std::unique_ptr<InputPeer>(InputPeer::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error));
msg_id = stream->readInt32(&error);
channel_id = stream->readInt64(&error);
}
void TL_inputPeerChannelFromMessage::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
peer->serializeToStream(stream);
stream->writeInt32(msg_id);
stream->writeInt64(channel_id);
}
void TL_inputPeerChannel::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
channel_id = stream->readInt64(&error);
access_hash = stream->readInt64(&error);
}
void TL_inputPeerChannel::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt64(channel_id);
stream->writeInt64(access_hash);
}
void TL_inputPeerEmpty::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
InputUser *InputUser::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
InputUser *result = nullptr;
switch (constructor) {
case 0xf7c1b13f:
result = new TL_inputUserSelf();
break;
case 0xf21158c6:
result = new TL_inputUser();
break;
case 0xb98886cf:
result = new TL_inputUserEmpty();
break;
case 0x1da448e2:
result = new TL_inputUserFromMessage();
break;
default:
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in InputUser", constructor);
return nullptr;
}
result->readParams(stream, instanceNum, error);
return result;
}
void TL_inputUserSelf::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
void TL_inputUser::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
user_id = stream->readInt64(&error);
access_hash = stream->readInt64(&error);
}
void TL_inputUser::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt64(user_id);
stream->writeInt64(access_hash);
}
void TL_inputUserEmpty::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
void TL_inputUserFromMessage::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
peer = std::unique_ptr<InputPeer>(InputPeer::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error));
msg_id = stream->readInt32(&error);
user_id = stream->readInt64(&error);
}
void TL_inputUserFromMessage::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
peer->serializeToStream(stream);
stream->writeInt32(msg_id);
stream->writeInt64(user_id);
}
MessageEntity *MessageEntity::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
MessageEntity *result = nullptr;
switch (constructor) {
case 0x76a6d327:
result = new TL_messageEntityTextUrl();
break;
case 0x6cef8ac7:
result = new TL_messageEntityBotCommand();
break;
case 0x64e475c2:
result = new TL_messageEntityEmail();
break;
case 0x73924be0:
result = new TL_messageEntityPre();
break;
case 0xbb92ba95:
result = new TL_messageEntityUnknown();
break;
case 0x6ed02538:
result = new TL_messageEntityUrl();
break;
case 0x826f8b60:
result = new TL_messageEntityItalic();
break;
case 0xfa04579d:
result = new TL_messageEntityMention();
break;
case 0xdc7b1140:
result = new TL_messageEntityMentionName();
break;
case 0x208e68c9:
result = new TL_inputMessageEntityMentionName();
break;
case 0x4c4e743f:
result = new TL_messageEntityCashtag();
break;
case 0xbd610bc9:
result = new TL_messageEntityBold();
break;
case 0x6f635b0d:
result = new TL_messageEntityHashtag();
break;
case 0x28a20571:
result = new TL_messageEntityCode();
break;
case 0xbf0693d4:
result = new TL_messageEntityStrike();
break;
case 0x20df5d0:
result = new TL_messageEntityBlockquote();
break;
case 0x9c4e7e8b:
result = new TL_messageEntityUnderline();
break;
case 0x9b69e34b:
result = new TL_messageEntityPhone();
break;
default:
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in MessageEntity", constructor);
return nullptr;
}
result->readParams(stream, instanceNum, error);
return result;
}
void TL_messageEntityTextUrl::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
url = stream->readString(&error);
}
void TL_messageEntityTextUrl::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
stream->writeString(url);
}
void TL_messageEntityBotCommand::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityBotCommand::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
void TL_messageEntityEmail::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityEmail::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
void TL_messageEntityPre::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
language = stream->readString(&error);
}
void TL_messageEntityPre::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
stream->writeString(language);
}
void TL_messageEntityUnknown::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityUnknown::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
void TL_messageEntityUrl::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityUrl::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
void TL_messageEntityItalic::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityItalic::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
void TL_messageEntityMention::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityMention::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
void TL_messageEntityMentionName::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
user_id = stream->readInt64(&error);
}
void TL_messageEntityMentionName::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
stream->writeInt64(user_id);
}
void TL_inputMessageEntityMentionName::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
user_id = std::unique_ptr<InputUser>(InputUser::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error));
}
void TL_inputMessageEntityMentionName::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
user_id->serializeToStream(stream);
}
void TL_messageEntityCashtag::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityCashtag::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
void TL_messageEntityBold::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityBold::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
void TL_messageEntityHashtag::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityHashtag::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
void TL_messageEntityCode::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityCode::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
void TL_messageEntityStrike::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityStrike::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
void TL_messageEntityBlockquote::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityBlockquote::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
void TL_messageEntityUnderline::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityUnderline::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
void TL_messageEntityPhone::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
offset = stream->readInt32(&error);
length = stream->readInt32(&error);
}
void TL_messageEntityPhone::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(offset);
stream->writeInt32(length);
}
TL_dataJSON *TL_dataJSON::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
if (TL_dataJSON::constructor != constructor) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in TL_dataJSON", constructor);
return nullptr;
}
TL_dataJSON *result = new TL_dataJSON();
result->readParams(stream, instanceNum, error);
return result;
}
void TL_dataJSON::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
data = stream->readString(&error);
}
void TL_dataJSON::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeString(data);
}
TL_help_termsOfService *TL_help_termsOfService::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
if (TL_help_termsOfService::constructor != constructor) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in TL_help_termsOfService", constructor);
return nullptr;
}
TL_help_termsOfService *result = new TL_help_termsOfService();
result->readParams(stream, instanceNum, error);
return result;
}
void TL_help_termsOfService::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
flags = stream->readInt32(&error);
popup = (flags & 1) != 0;
id = std::unique_ptr<TL_dataJSON>(TL_dataJSON::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error));
text = stream->readString(&error);
int magic = stream->readInt32(&error);
if (magic != 0x1cb5c415) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("wrong Vector magic in TL_help_termsOfService, got %x", magic);
return;
}
int count = stream->readInt32(&error);
for (int a = 0; a < count; a++) {
MessageEntity *object = MessageEntity::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error);
if (object == nullptr) {
return;
}
entities.push_back(std::unique_ptr<MessageEntity>(object));
}
if ((flags & 2) != 0) {
min_age_confirm = stream->readInt32(&error);
}
}
void TL_help_termsOfService::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
flags = popup ? (flags | 1) : (flags & ~1);
stream->writeInt32(flags);
id->serializeToStream(stream);
stream->writeString(text);
stream->writeInt32(0x1cb5c415);
int32_t count = (int32_t) entities.size();
stream->writeInt32(count);
for (int a = 0; a < count; a++) {
entities[a]->serializeToStream(stream);
}
if ((flags & 2) != 0) {
stream->writeInt32(min_age_confirm);
}
}
auth_Authorization *auth_Authorization::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
auth_Authorization *result = nullptr;
switch (constructor) {
case 0x44747e9a:
result = new TL_auth_authorizationSignUpRequired();
break;
case 0x2ea2c0d4:
result = new TL_auth_authorization();
break;
default:
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in auth_Authorization", constructor);
return nullptr;
}
result->readParams(stream, instanceNum, error);
return result;
}
void TL_auth_authorizationSignUpRequired::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
flags = stream->readInt32(&error);
if ((flags & 1) != 0) {
terms_of_service = std::unique_ptr<TL_help_termsOfService>(TL_help_termsOfService::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error));
}
}
void TL_auth_authorizationSignUpRequired::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(flags);
if ((flags & 1) != 0) {
terms_of_service->serializeToStream(stream);
}
}
void TL_auth_authorization::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
flags = stream->readInt32(&error);
if ((flags & 2) != 0) {
otherwise_relogin_days = stream->readInt32(&error);
}
if ((flags & 1) != 0) {
tmp_sessions = stream->readInt32(&error);
}
if ((flags & 4) != 0) {
future_auth_token = std::unique_ptr<ByteArray>(stream->readByteArray(&error));
}
user = std::unique_ptr<User>(User::TLdeserialize(stream, stream->readUint32(&error), instanceNum, error));
}
void TL_auth_authorization::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(flags);
if ((flags & 1) != 0) {
stream->writeInt32(tmp_sessions);
}
user->serializeToStream(stream);
}
TL_auth_exportedAuthorization *TL_auth_exportedAuthorization::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
if (TL_auth_exportedAuthorization::constructor != constructor) {
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in TL_auth_exportedAuthorization", constructor);
return nullptr;
}
TL_auth_exportedAuthorization *result = new TL_auth_exportedAuthorization();
result->readParams(stream, instanceNum, error);
return result;
}
void TL_auth_exportedAuthorization::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
id = stream->readInt64(&error);
bytes = std::unique_ptr<ByteArray>(stream->readByteArray(&error));
}
bool TL_auth_exportAuthorization::isNeedLayer() {
return true;
}
TLObject *TL_auth_exportAuthorization::deserializeResponse(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
return TL_auth_exportedAuthorization::TLdeserialize(stream, constructor, instanceNum, error);
}
void TL_auth_exportAuthorization::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(dc_id);
}
bool TL_auth_importAuthorization::isNeedLayer() {
return true;
}
TLObject *TL_auth_importAuthorization::deserializeResponse(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
return auth_Authorization::TLdeserialize(stream, constructor, instanceNum, error);
}
void TL_auth_importAuthorization::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt64(id);
stream->writeByteArray(bytes.get());
}
UserStatus *UserStatus::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
UserStatus *result = nullptr;
switch (constructor) {
case 0x8c703f:
result = new TL_userStatusOffline();
break;
case 0x7bf09fc:
result = new TL_userStatusLastWeek();
break;
case 0x9d05049:
result = new TL_userStatusEmpty();
break;
case 0x77ebc742:
result = new TL_userStatusLastMonth();
break;
case 0xedb93949:
result = new TL_userStatusOnline();
break;
case 0xe26f42f1:
result = new TL_userStatusRecently();
break;
default:
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in UserStatus", constructor);
return nullptr;
}
result->readParams(stream, instanceNum, error);
return result;
}
void TL_userStatusOffline::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
expires = stream->readInt32(&error);
}
void TL_userStatusOffline::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(expires);
}
void TL_userStatusLastWeek::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
void TL_userStatusEmpty::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
void TL_userStatusLastMonth::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
void TL_userStatusOnline::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
expires = stream->readInt32(&error);
}
void TL_userStatusOnline::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt32(expires);
}
void TL_userStatusRecently::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
FileLocation *FileLocation::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
FileLocation *result = nullptr;
switch (constructor) {
case 0xbc7fc6cd:
result = new TL_fileLocationToBeDeprecated();
break;
default:
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in FileLocation", constructor);
return nullptr;
}
result->readParams(stream, instanceNum, error);
return result;
}
void TL_fileLocationToBeDeprecated::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
volume_id = stream->readInt64(&error);
local_id = stream->readInt32(&error);
}
void TL_fileLocationToBeDeprecated::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt64(volume_id);
stream->writeInt32(local_id);
}
UserProfilePhoto *UserProfilePhoto::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
UserProfilePhoto *result = nullptr;
switch (constructor) {
case 0x4f11bae1:
result = new TL_userProfilePhotoEmpty();
break;
case 0x82d1f706:
result = new TL_userProfilePhoto();
break;
default:
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in UserProfilePhoto", constructor);
return nullptr;
}
result->readParams(stream, instanceNum, error);
return result;
}
void TL_userProfilePhotoEmpty::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
void TL_userProfilePhoto::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
flags = stream->readInt32(&error);
has_video = (flags & 1) != 0;
photo_id = stream->readInt64(&error);
if ((flags & 2) != 0) {
stripped_thumb = std::unique_ptr<ByteArray>(stream->readByteArray(&error));
}
dc_id = stream->readInt32(&error);
}
void TL_userProfilePhoto::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
flags = has_video ? (flags | 1) : (flags &~ 1);
stream->writeInt32(flags);
stream->writeInt64(photo_id);
if ((flags & 2) != 0) {
stream->writeByteArray(stripped_thumb.get());
}
stream->writeInt32(dc_id);
}
void TL_updatesTooLong::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
Reaction *Reaction::TLdeserialize(NativeByteBuffer *stream, uint32_t constructor, int32_t instanceNum, bool &error) {
Reaction *result = nullptr;
switch (constructor) {
case 0x79f5d419:
result = new TL_reactionEmpty();
break;
case 0x8935fc73:
result = new TL_reactionCustomEmoji();
break;
case 0x1b2286b8:
result = new TL_reactionEmoji();
break;
default:
error = true;
if (LOGS_ENABLED) DEBUG_FATAL("can't parse magic %x in Reaction", constructor);
return nullptr;
}
result->readParams(stream, instanceNum, error);
return result;
}
void TL_reactionEmpty::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
}
void TL_reactionEmpty::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
}
void TL_reactionCustomEmoji::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
document_id = stream->readInt64(&error);
}
void TL_reactionCustomEmoji::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeInt64(document_id);
}
void TL_reactionEmoji::readParams(NativeByteBuffer *stream, int32_t instanceNum, bool &error) {
emoticon = stream->readString(&error);
}
void TL_reactionEmoji::serializeToStream(NativeByteBuffer *stream) {
stream->writeInt32(constructor);
stream->writeString(emoticon);
}