/* This file is part of tgl-library This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA Copyright Vitaly Valtman 2013-2015 */ #include "tgl.h" #include "updates.h" #include "mtproto-common.h" #include "tgl-binlog.h" #include "auto.h" #include "auto/auto-types.h" #include "auto/auto-skip.h" #include "auto/auto-fetch-ds.h" #include "auto/auto-free-ds.h" #include "tgl-structures.h" #include "tgl-methods-in.h" #include "tree.h" #include void tgl_do_get_channel_difference (struct tgl_state *TLS, int channel_id, void (*callback)(struct tgl_state *TLS, void *callback_extra, int success), void *callback_extra); static void fetch_dc_option (struct tgl_state *TLS, struct tl_ds_dc_option *DS_DO) { vlogprintf (E_DEBUG, "id = %d, %.*s:%d\n", DS_LVAL (DS_DO->id), DS_RSTR (DS_DO->ip_address), DS_LVAL (DS_DO->port)); bl_do_dc_option (TLS, DS_LVAL (DS_DO->flags), DS_LVAL (DS_DO->id), NULL, 0, DS_STR (DS_DO->ip_address), DS_LVAL (DS_DO->port)); } int tgl_check_pts_diff (struct tgl_state *TLS, int pts, int pts_count) { vlogprintf (E_DEBUG - 1, "pts = %d, pts_count = %d\n", pts, pts_count); if (!TLS->pts) { return 1; } //assert (TLS->pts); if (pts < TLS->pts + pts_count) { vlogprintf (E_NOTICE, "Duplicate message with pts=%d\n", pts); return -1; } if (pts > TLS->pts + pts_count) { vlogprintf (E_NOTICE, "Hole in pts (pts = %d, count = %d, cur_pts = %d)\n", pts, pts_count, TLS->pts); tgl_do_get_difference (TLS, 0, 0, 0); return -1; } if (TLS->locks & TGL_LOCK_DIFF) { vlogprintf (E_DEBUG, "Update during get_difference. pts = %d\n", pts); return -1; } vlogprintf (E_DEBUG, "Ok update. pts = %d\n", pts); return 1; } int tgl_check_qts_diff (struct tgl_state *TLS, int qts, int qts_count) { vlogprintf (E_ERROR, "qts = %d, qts_count = %d\n", qts, qts_count); if (qts < TLS->qts + qts_count) { vlogprintf (E_NOTICE, "Duplicate message with qts=%d\n", qts); return -1; } if (qts > TLS->qts + qts_count) { vlogprintf (E_NOTICE, "Hole in qts (qts = %d, count = %d, cur_qts = %d)\n", qts, qts_count, TLS->qts); tgl_do_get_difference (TLS, 0, 0, 0); return -1; } if (TLS->locks & TGL_LOCK_DIFF) { vlogprintf (E_DEBUG, "Update during get_difference. qts = %d\n", qts); return -1; } vlogprintf (E_DEBUG, "Ok update. qts = %d\n", qts); return 1; } int tgl_check_channel_pts_diff (struct tgl_state *TLS, tgl_peer_t *_E, int pts, int pts_count) { struct tgl_channel *E = &_E->channel; vlogprintf (E_DEBUG - 1, "channel %d: pts = %d, pts_count = %d, current_pts = %d\n", tgl_get_peer_id (E->id), pts, pts_count, E->pts); if (!E->pts) { return 1; } //assert (TLS->pts); if (pts < E->pts + pts_count) { vlogprintf (E_NOTICE, "Duplicate message with pts=%d\n", pts); return -1; } if (pts > E->pts + pts_count) { vlogprintf (E_NOTICE, "Hole in pts (pts = %d, count = %d, cur_pts = %d)\n", pts, pts_count, E->pts); tgl_do_get_channel_difference (TLS, tgl_get_peer_id (E->id), 0, 0); return -1; } if (E->flags & TGLCHF_DIFF) { vlogprintf (E_DEBUG, "Update during get_difference. pts = %d\n", pts); return -1; } vlogprintf (E_DEBUG, "Ok update. pts = %d\n", pts); return 1; } static int do_skip_seq (struct tgl_state *TLS, int seq) { if (!seq) { vlogprintf (E_DEBUG, "Ok update. seq = %d\n", seq); return 0; } if (TLS->seq) { if (seq <= TLS->seq) { vlogprintf (E_NOTICE, "Duplicate message with seq=%d\n", seq); return -1; } if (seq > TLS->seq + 1) { vlogprintf (E_NOTICE, "Hole in seq (seq = %d, cur_seq = %d)\n", seq, TLS->seq); //vlogprintf (E_NOTICE, "lock_diff = %s\n", (TLS->locks & TGL_LOCK_DIFF) ? "true" : "false"); tgl_do_get_difference (TLS, 0, 0, 0); return -1; } if (TLS->locks & TGL_LOCK_DIFF) { vlogprintf (E_DEBUG, "Update during get_difference. seq = %d\n", seq); return -1; } vlogprintf (E_DEBUG, "Ok update. seq = %d\n", seq); return 0; } else { return -1; } } void tglu_work_update (struct tgl_state *TLS, int check_only, struct tl_ds_update *DS_U) { if (check_only > 0 || (TLS->locks & TGL_LOCK_DIFF)) { vlogprintf (E_DEBUG, "Update during get_difference. DROP\n"); return; } if (DS_U->pts) { assert (DS_U->pts_count); if (!check_only && tgl_check_pts_diff (TLS, DS_LVAL (DS_U->pts), DS_LVAL (DS_U->pts_count)) <= 0) { return; } } if (DS_U->qts) { if (!check_only && tgl_check_qts_diff (TLS, DS_LVAL (DS_U->qts), 1) <= 0) { return; } } if (DS_U->channel_pts) { assert (DS_U->channel_pts_count); int channel_id; if (DS_U->channel_id) { channel_id = DS_LVAL (DS_U->channel_id); } else { assert (DS_U->message); if (!DS_U->message->to_id) { return; } assert (DS_U->message->to_id); assert (DS_U->message->to_id->magic == CODE_peer_channel); channel_id = DS_LVAL (DS_U->message->to_id->channel_id); } tgl_peer_t *E = tgl_peer_get (TLS, TGL_MK_CHANNEL (channel_id)); if (!E) { return; } if (!check_only && tgl_check_channel_pts_diff (TLS, E, DS_LVAL (DS_U->channel_pts), DS_LVAL (DS_U->channel_pts_count)) <= 0) { return; } } vlogprintf (E_NOTICE, "update 0x%08x (check=%d)\n", DS_U->magic, check_only); if (check_only > 0 && DS_U->magic != CODE_update_message_i_d) { return; } switch (DS_U->magic) { case CODE_update_new_message: { //struct tgl_message *N = tgl_message_get (TLS, DS_LVAL (DS_U->id)); //int new = (!N || !(N->flags & TGLMF_CREATED)); int new_msg = 0; struct tgl_message *M = tglf_fetch_alloc_message (TLS, DS_U->message, &new_msg); assert (M); if (new_msg) { bl_do_msg_update (TLS, &M->permanent_id); } break; }; case CODE_update_message_i_d: { tgl_message_id_t msg_id; msg_id.peer_type = TGL_PEER_RANDOM_ID; msg_id.id = DS_LVAL (DS_U->random_id); struct tgl_message *M = tgl_message_get (TLS, &msg_id); if (M && (M->flags & TGLMF_PENDING)) { msg_id = M->permanent_id; msg_id.id = DS_LVAL (DS_U->id); bl_do_set_msg_id (TLS, &M->permanent_id, &msg_id); bl_do_msg_update (TLS, &msg_id); } } break; /* case CODE_update_read_messages: { int n = DS_LVAL (DS_U->messages->cnt); int i; for (i = 0; i < n; i++) { struct tgl_message *M = tgl_message_get (TLS, DS_LVAL (DS_U->messages->data[i])); if (M) { tgl_peer_t *P; if (M->flags & TGLMF_OUT) { P = tgl_peer_get (TLS, M->to_id); if (P && (P->flags & TGLMF_CREATED)) { if (tgl_get_peer_type (P->id) == TGL_PEER_USER) { bl_do_user (TLS, tgl_get_peer_id (P->id), NULL, NULL, 0, NULL, 0, NULL, 0, NULL, 0, NULL, NULL, 0, NULL, 0, NULL, NULL, (int *)&M->id, TGL_FLAGS_UNCHANGED); } else { bl_do_chat (TLS, tgl_get_peer_id (P->id), NULL, 0, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, (int *)&M->id, TGL_FLAGS_UNCHANGED); } } } else { if (tgl_get_peer_type (M->to_id) == TGL_PEER_USER) { P = tgl_peer_get (TLS, M->from_id); } else { P = tgl_peer_get (TLS, M->to_id); } if (P && (P->flags & TGLMF_CREATED)) { if (tgl_get_peer_type (P->id) == TGL_PEER_USER) { bl_do_user (TLS, tgl_get_peer_id (P->id), NULL, NULL, 0, NULL, 0, NULL, 0, NULL, 0, NULL, NULL, 0, NULL, 0, NULL, (int *)&M->id, NULL, TGL_FLAGS_UNCHANGED); } else { bl_do_chat (TLS, tgl_get_peer_id (P->id), NULL, 0, NULL, NULL, NULL, NULL, NULL, NULL, NULL, (int *)&M->id, NULL, TGL_FLAGS_UNCHANGED); } } } } } } break;*/ case CODE_update_user_typing: { tgl_peer_id_t id = TGL_MK_USER (DS_LVAL (DS_U->user_id)); tgl_peer_t *U = tgl_peer_get (TLS, id); enum tgl_typing_status status = tglf_fetch_typing (DS_U->action); if (TLS->callback.type_notification && U) { TLS->callback.type_notification (TLS, (void *)U, status); } } break; case CODE_update_chat_user_typing: { tgl_peer_id_t chat_id = TGL_MK_CHAT (DS_LVAL (DS_U->chat_id)); tgl_peer_id_t id = TGL_MK_USER (DS_LVAL (DS_U->user_id)); tgl_peer_t *C = tgl_peer_get (TLS, chat_id); tgl_peer_t *U = tgl_peer_get (TLS, id); enum tgl_typing_status status = tglf_fetch_typing (DS_U->action); if (U && C) { if (TLS->callback.type_in_chat_notification) { TLS->callback.type_in_chat_notification (TLS, (void *)U, (void *)C, status); } } } break; case CODE_update_user_status: { tgl_peer_id_t user_id = TGL_MK_USER (DS_LVAL (DS_U->user_id)); tgl_peer_t *U = tgl_peer_get (TLS, user_id); if (U) { tglf_fetch_user_status (TLS, &U->user.status, &U->user, DS_U->status); if (TLS->callback.status_notification) { TLS->callback.status_notification (TLS, (void *)U); } } } break; case CODE_update_user_name: { tgl_peer_id_t user_id = TGL_MK_USER (DS_LVAL (DS_U->user_id)); tgl_peer_t *UC = tgl_peer_get (TLS, user_id); if (UC && (UC->flags & TGLPF_CREATED)) { bl_do_user (TLS, tgl_get_peer_id (user_id), NULL, DS_STR (DS_U->first_name), DS_STR (DS_U->last_name), NULL, 0, DS_STR (DS_U->username), NULL, NULL, NULL, NULL, NULL, TGL_FLAGS_UNCHANGED); } } break; case CODE_update_user_photo: { tgl_peer_id_t user_id = TGL_MK_USER (DS_LVAL (DS_U->user_id)); tgl_peer_t *UC = tgl_peer_get (TLS, user_id); if (UC && (UC->flags & TGLUF_CREATED)) { bl_do_user (TLS, tgl_get_peer_id (user_id), NULL, NULL, 0, NULL, 0, NULL, 0, NULL, 0, NULL, DS_U->photo, NULL, NULL, NULL, TGL_FLAGS_UNCHANGED); } } break; case CODE_update_delete_messages: { } break; case CODE_update_chat_participants: { tgl_peer_id_t chat_id = TGL_MK_CHAT (DS_LVAL (DS_U->chat_id)); tgl_peer_t *C = tgl_peer_get (TLS, chat_id); if (C && (C->flags & TGLPF_CREATED) && DS_U->participants->magic == CODE_chat_participants) { bl_do_chat (TLS, tgl_get_peer_id (chat_id), NULL, 0, NULL, NULL, DS_U->participants->version, (struct tl_ds_vector *)DS_U->participants->participants, NULL, NULL, NULL, NULL, NULL, TGL_FLAGS_UNCHANGED); } } break; case CODE_update_contact_registered: { tgl_peer_id_t user_id = TGL_MK_USER (DS_LVAL (DS_U->user_id)); tgl_peer_t *U = tgl_peer_get (TLS, user_id); if (TLS->callback.user_registered && U) { TLS->callback.user_registered (TLS, (void *)U); } } break; case CODE_update_contact_link: { } break; /*case CODE_update_activation: { tgl_peer_id_t user_id = TGL_MK_USER (DS_LVAL (DS_U->user_id)); tgl_peer_t *U = tgl_peer_get (TLS, user_id); if (TLS->callback.user_activated && U) { TLS->callback.user_activated (TLS, (void *)U); } } break;*/ case CODE_update_new_authorization: { if (TLS->callback.new_authorization) { TLS->callback.new_authorization (TLS, DS_U->device->data, DS_U->location->data); } } break; /*case CODE_update_new_geo_chat_message: { } break;*/ case CODE_update_new_encrypted_message: { struct tgl_message *M = tglf_fetch_alloc_encrypted_message (TLS, DS_U->encr_message); if (M) { bl_do_msg_update (TLS, &M->permanent_id); } } break; case CODE_update_encryption: { struct tgl_secret_chat *E = tglf_fetch_alloc_encrypted_chat (TLS, DS_U->encr_chat); vlogprintf (E_DEBUG, "Secret chat state = %d\n", E->state); if (E->state == sc_ok) { tgl_do_send_encr_chat_layer (TLS, E); } } break; case CODE_update_encrypted_chat_typing: { tgl_peer_id_t id = TGL_MK_ENCR_CHAT (DS_LVAL (DS_U->chat_id)); tgl_peer_t *P = tgl_peer_get (TLS, id); if (P) { if (TLS->callback.type_in_secret_chat_notification) { TLS->callback.type_in_secret_chat_notification (TLS, (void *)P); } } } break; case CODE_update_encrypted_messages_read: { tgl_peer_id_t id = TGL_MK_ENCR_CHAT (DS_LVAL (DS_U->chat_id)); tgl_peer_t *P = tgl_peer_get (TLS, id); if (P && P->last) { struct tgl_message *M = P->last; while (M && (!(M->flags & TGLMF_OUT) || (M->flags & TGLMF_UNREAD))) { if (M->flags & TGLMF_OUT) { bl_do_edit_message_encr (TLS, &M->permanent_id, NULL, NULL, NULL, NULL, 0, NULL, NULL, NULL, M->flags & ~TGLMF_UNREAD); } M = M->next; } } } break; case CODE_update_chat_participant_add: { tgl_peer_id_t chat_id = TGL_MK_CHAT (DS_LVAL (DS_U->chat_id)); tgl_peer_id_t user_id = TGL_MK_USER (DS_LVAL (DS_U->user_id)); tgl_peer_id_t inviter_id = TGL_MK_USER (DS_LVAL (DS_U->inviter_id)); int version = DS_LVAL (DS_U->version); tgl_peer_t *C = tgl_peer_get (TLS, chat_id); if (C && (C->flags & TGLPF_CREATED)) { bl_do_chat_add_user (TLS, C->id, version, tgl_get_peer_id (user_id), tgl_get_peer_id (inviter_id), time (0)); } } break; case CODE_update_chat_participant_delete: { tgl_peer_id_t chat_id = TGL_MK_CHAT (DS_LVAL (DS_U->chat_id)); tgl_peer_id_t user_id = TGL_MK_USER (DS_LVAL (DS_U->user_id)); int version = DS_LVAL (DS_U->version); tgl_peer_t *C = tgl_peer_get (TLS, chat_id); if (C && (C->flags & TGLPF_CREATED)) { bl_do_chat_del_user (TLS, C->id, version, tgl_get_peer_id (user_id)); } } break; case CODE_update_dc_options: { int i; for (i = 0; i < DS_LVAL (DS_U->dc_options->cnt); i++) { fetch_dc_option (TLS, DS_U->dc_options->data[i]); } } break; case CODE_update_user_blocked: { int blocked = DS_BVAL (DS_U->blocked); tgl_peer_t *P = tgl_peer_get (TLS, TGL_MK_USER (DS_LVAL (DS_U->user_id))); if (P && (P->flags & TGLPF_CREATED)) { int flags = P->flags & 0xffff; if (blocked) { flags |= TGLUF_BLOCKED; } else { flags &= ~TGLUF_BLOCKED; } bl_do_user (TLS, tgl_get_peer_id (P->id), NULL, NULL, 0, NULL, 0, NULL, 0, NULL, 0, NULL, NULL, NULL, NULL, NULL, flags); } } break; case CODE_update_notify_settings: { } break; case CODE_update_service_notification: { vlogprintf (E_ERROR, "Notification %.*s: %.*s\n", DS_RSTR (DS_U->type), DS_RSTR (DS_U->message_text)); if (TLS->callback.notification) { TLS->callback.notification (TLS, DS_U->type->data, DS_U->message_text->data); } } break; case CODE_update_privacy: vlogprintf (E_NOTICE, "privacy change update\n"); break; case CODE_update_user_phone: { tgl_peer_t *U = tgl_peer_get (TLS, TGL_MK_USER (DS_LVAL (DS_U->user_id))); if (U && (U->flags & TGLPF_CREATED)) { bl_do_user (TLS, tgl_get_peer_id (U->id), NULL, NULL, 0, NULL, 0, DS_STR (DS_U->phone), NULL, 0, NULL, NULL, NULL, NULL, NULL, TGL_FLAGS_UNCHANGED); } } break; case CODE_update_read_history_inbox: { tgl_peer_id_t id = tglf_fetch_peer_id (TLS, DS_U->peer); tgl_peer_t *P = tgl_peer_get (TLS, id); if (P && (P->flags & TGLPF_CREATED)) { if (tgl_get_peer_type (P->id) == TGL_PEER_USER) { bl_do_user (TLS, tgl_get_peer_id (P->id), NULL, NULL, 0, NULL, 0, NULL, 0, NULL, 0, NULL, NULL, DS_U->max_id, NULL, NULL, TGL_FLAGS_UNCHANGED); } else { bl_do_chat (TLS, tgl_get_peer_id (P->id), NULL, 0, NULL, NULL, NULL, NULL, NULL, NULL, NULL, DS_U->max_id, NULL, TGL_FLAGS_UNCHANGED); } } } break; case CODE_update_read_history_outbox: { tgl_peer_id_t id = tglf_fetch_peer_id (TLS, DS_U->peer); tgl_peer_t *P = tgl_peer_get (TLS, id); if (P && (P->flags & TGLPF_CREATED)) { if (tgl_get_peer_type (P->id) == TGL_PEER_USER) { bl_do_user (TLS, tgl_get_peer_id (P->id), NULL, NULL, 0, NULL, 0, NULL, 0, NULL, 0, NULL, NULL, NULL, DS_U->max_id, NULL, TGL_FLAGS_UNCHANGED); } else { bl_do_chat (TLS, tgl_get_peer_id (P->id), NULL, 0, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, DS_U->max_id, TGL_FLAGS_UNCHANGED); } } } break; case CODE_update_web_page: { } break; /*case CODE_update_msg_update: { struct tgl_message *M = tgl_message_get (TLS, DS_LVAL (DS_U->id)); if (M) { bl_do_msg_update (TLS, M->id); } } break;*/ case CODE_update_read_messages_contents: break; case CODE_update_channel_too_long: { tgl_do_get_channel_difference (TLS, DS_LVAL (DS_U->channel_id), NULL, NULL); } break; case CODE_update_channel: break; case CODE_update_channel_group: break; case CODE_update_new_channel_message: { int new_msg = 0; struct tgl_message *M = tglf_fetch_alloc_message (TLS, DS_U->message, &new_msg); if (M && new_msg) { bl_do_msg_update (TLS, &M->permanent_id); } } break; case CODE_update_read_channel_inbox: break; case CODE_update_delete_channel_messages: break; case CODE_update_channel_message_views: break; case CODE_update_chat_admins: break; case CODE_update_chat_participant_admin: break; case CODE_update_new_sticker_set: break; case CODE_update_sticker_sets_order: break; case CODE_update_sticker_sets: break; case CODE_update_saved_gifs: break; case CODE_update_bot_inline_query: break; default: assert (0); } if (check_only) { return; } if (DS_U->pts) { assert (DS_U->pts_count); bl_do_set_pts (TLS, DS_LVAL (DS_U->pts)); } if (DS_U->qts) { bl_do_set_qts (TLS, DS_LVAL (DS_U->qts)); } if (DS_U->channel_pts) { assert (DS_U->channel_pts_count); int channel_id; if (DS_U->channel_id) { channel_id = DS_LVAL (DS_U->channel_id); } else { assert (DS_U->message); assert (DS_U->message->to_id); assert (DS_U->message->to_id->magic == CODE_peer_channel); channel_id = DS_LVAL (DS_U->message->to_id->channel_id); } bl_do_set_channel_pts (TLS, channel_id, DS_LVAL (DS_U->channel_pts)); } } void tglu_work_updates (struct tgl_state *TLS, int check_only, struct tl_ds_updates *DS_U) { if (check_only > 0 || (TLS->locks & TGL_LOCK_DIFF)) { return; } if (!check_only && do_skip_seq (TLS, DS_LVAL (DS_U->seq)) < 0) { return; } int i; if (DS_U->users) { for (i = 0; i < DS_LVAL (DS_U->users->cnt); i++) { tglf_fetch_alloc_user (TLS, DS_U->users->data[i]); } } if (DS_U->chats) { for (i = 0; i < DS_LVAL (DS_U->chats->cnt); i++) { tglf_fetch_alloc_chat (TLS, DS_U->chats->data[i]); } } if (DS_U->updates) { for (i = 0; i < DS_LVAL (DS_U->updates->cnt); i++) { tglu_work_update (TLS, check_only, DS_U->updates->data[i]); } } if (check_only) { return; } bl_do_set_date (TLS, DS_LVAL (DS_U->date)); bl_do_set_seq (TLS, DS_LVAL (DS_U->seq)); } void tglu_work_updates_combined (struct tgl_state *TLS, int check_only, struct tl_ds_updates *DS_U) { if (check_only > 0 || (TLS->locks & TGL_LOCK_DIFF)) { return; } if (!check_only && do_skip_seq (TLS, DS_LVAL (DS_U->seq_start)) < 0) { return; } int i; for (i = 0; i < DS_LVAL (DS_U->users->cnt); i++) { tglf_fetch_alloc_user (TLS, DS_U->users->data[i]); } for (i = 0; i < DS_LVAL (DS_U->chats->cnt); i++) { tglf_fetch_alloc_chat (TLS, DS_U->chats->data[i]); } for (i = 0; i < DS_LVAL (DS_U->updates->cnt); i++) { tglu_work_update (TLS, check_only, DS_U->updates->data[i]); } if (check_only) { return; } bl_do_set_date (TLS, DS_LVAL (DS_U->date)); bl_do_set_seq (TLS, DS_LVAL (DS_U->seq)); } void tglu_work_update_short_message (struct tgl_state *TLS, int check_only, struct tl_ds_updates *DS_U) { if (check_only > 0 || (TLS->locks & TGL_LOCK_DIFF)) { return; } if (!check_only && tgl_check_pts_diff (TLS, DS_LVAL (DS_U->pts), DS_LVAL (DS_U->pts_count)) <= 0) { return; } if (check_only > 0) { return; } //struct tgl_message *N = tgl_message_get (TLS, DS_LVAL (DS_U->id)); //int new = (!N || !(N->flags & TGLMF_CREATED)); struct tgl_message *M = tglf_fetch_alloc_message_short (TLS, DS_U); if (check_only > 0 || (TLS->locks & TGL_LOCK_DIFF)) { return; } assert (M); if (1) { bl_do_msg_update (TLS, &M->permanent_id); } if (check_only) { return; } bl_do_set_pts (TLS, DS_LVAL (DS_U->pts)); } void tglu_work_update_short_chat_message (struct tgl_state *TLS, int check_only, struct tl_ds_updates *DS_U) { if (check_only > 0 || (TLS->locks & TGL_LOCK_DIFF)) { return; } if (!check_only && tgl_check_pts_diff (TLS, DS_LVAL (DS_U->pts), DS_LVAL (DS_U->pts_count)) <= 0) { return; } if (check_only > 0) { return; } //struct tgl_message *N = tgl_message_get (TLS, DS_LVAL (DS_U->id)); //int new = (!N || !(N->flags & TGLMF_CREATED)); struct tgl_message *M = tglf_fetch_alloc_message_short_chat (TLS, DS_U); if (check_only > 0 || (TLS->locks & TGL_LOCK_DIFF)) { return; } assert (M); if (1) { bl_do_msg_update (TLS, &M->permanent_id); } if (check_only) { return; } bl_do_set_pts (TLS, DS_LVAL (DS_U->pts)); } void tglu_work_updates_too_long (struct tgl_state *TLS, int check_only, struct tl_ds_updates *DS_U) { if (check_only > 0 || (TLS->locks & TGL_LOCK_DIFF)) { return; } vlogprintf (E_NOTICE, "updates too long... Getting difference\n"); if (check_only) { return; } tgl_do_get_difference (TLS, 0, 0, 0); } void tglu_work_update_short (struct tgl_state *TLS, int check_only, struct tl_ds_updates *DS_U) { if (check_only > 0 || (TLS->locks & TGL_LOCK_DIFF)) { return; } tglu_work_update (TLS, check_only, DS_U->update); } void tglu_work_update_short_sent_message (struct tgl_state *TLS, int check_only, struct tl_ds_updates *DS_U, void *extra) { if (DS_U->pts) { assert (DS_U->pts_count); if (!check_only && tgl_check_pts_diff (TLS, DS_LVAL (DS_U->pts), DS_LVAL (DS_U->pts_count)) <= 0) { return; } } struct tgl_message *M = extra; if (!M) { return; } //long long random_id = M->permanent_id.id; tgl_message_id_t msg_id = M->permanent_id; msg_id.id = DS_LVAL (DS_U->id); bl_do_set_msg_id (TLS, &M->permanent_id, &msg_id); //tgls_insert_random2local (TLS, random_id, &msg_id); int f = DS_LVAL (DS_U->flags); unsigned flags = M->flags; if (f & 1) { flags |= TGLMF_UNREAD; } if (f & 2) { flags |= TGLMF_OUT; } if (f & 16) { flags |= TGLMF_MENTION; } bl_do_edit_message (TLS, &M->permanent_id, NULL, NULL, NULL, NULL, NULL, NULL, 0, DS_U->media, NULL, NULL, NULL, NULL, flags); if (check_only) { return; } bl_do_msg_update (TLS, &M->permanent_id); if (DS_U->pts) { bl_do_set_pts (TLS, DS_LVAL (DS_U->pts)); } } void tglu_work_any_updates (struct tgl_state *TLS, int check_only, struct tl_ds_updates *DS_U, void *extra) { if (check_only > 0 || (TLS->locks & TGL_LOCK_DIFF)) { return; } switch (DS_U->magic) { case CODE_updates_too_long: tglu_work_updates_too_long (TLS, check_only, DS_U); return; case CODE_update_short_message: tglu_work_update_short_message (TLS, check_only, DS_U); return; case CODE_update_short_chat_message: tglu_work_update_short_chat_message (TLS, check_only, DS_U); return; case CODE_update_short: tglu_work_update_short (TLS, check_only, DS_U); return; case CODE_updates_combined: tglu_work_updates_combined (TLS, check_only, DS_U); return; case CODE_updates: tglu_work_updates (TLS, check_only, DS_U); return; case CODE_update_short_sent_message: tglu_work_update_short_sent_message (TLS, check_only, DS_U, extra); return; default: assert (0); } } void tglu_work_any_updates_buf (struct tgl_state *TLS) { struct tl_ds_updates *DS_U = fetch_ds_type_updates (TYPE_TO_PARAM (updates)); assert (DS_U); tglu_work_any_updates (TLS, 1, DS_U, NULL); tglu_work_any_updates (TLS, 0, DS_U, NULL); free_ds_type_updates (DS_U, TYPE_TO_PARAM (updates)); } #define user_cmp(a,b) (tgl_get_peer_id ((a)->id) - tgl_get_peer_id ((b)->id)) DEFINE_TREE(user, struct tgl_user *,user_cmp,0) static void notify_status (struct tgl_user *U, void *ex) { struct tgl_state *TLS = ex; if (TLS->callback.user_status_update) { TLS->callback.user_status_update (TLS, U); } } static void status_notify (struct tgl_state *TLS, void *arg) { tree_act_ex_user (TLS->online_updates, notify_status, TLS); tree_clear_user (TLS->online_updates); TLS->online_updates = NULL; TLS->timer_methods->free (TLS->online_updates_timer); TLS->online_updates_timer = NULL; } void tgl_insert_status_update (struct tgl_state *TLS, struct tgl_user *U) { if (!tree_lookup_user (TLS->online_updates, U)) { TLS->online_updates = tree_insert_user (TLS->online_updates, U, rand ()); } if (!TLS->online_updates_timer) { TLS->online_updates_timer = TLS->timer_methods->alloc (TLS, status_notify, 0); TLS->timer_methods->insert (TLS->online_updates_timer, 0); } } static void user_expire (struct tgl_state *TLS, void *arg) { struct tgl_user *U = arg; TLS->timer_methods->free (U->status.ev); U->status.ev = 0; U->status.online = -1; U->status.when = tglt_get_double_time (); tgl_insert_status_update (TLS, U); } void tgl_insert_status_expire (struct tgl_state *TLS, struct tgl_user *U) { assert (!U->status.ev); U->status.ev = TLS->timer_methods->alloc (TLS, user_expire, U); TLS->timer_methods->insert (U->status.ev, U->status.when - tglt_get_double_time ()); } void tgl_remove_status_expire (struct tgl_state *TLS, struct tgl_user *U) { TLS->timer_methods->free (U->status.ev); U->status.ev = 0; }