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initial

f0f4f2b 11 months ago

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	//! # Messages and their identifiers.

	use std::collections::BTreeSet;
	use std::path::{Path, PathBuf};

	use anyhow::{ensure, format_err, Context as _, Result};
	use deltachat_contact_tools::{parse_vcard, VcardContact};
	use deltachat_derive::{FromSql, ToSql};
	use serde::{Deserialize, Serialize};
	use tokio::{fs, io};

	use crate::blob::BlobObject;
	use crate::chat::{Chat, ChatId, ChatIdBlocked};
	use crate::chatlist_events;
	use crate::config::Config;
	use crate::constants::{
	Blocked, Chattype, VideochatType, DC_CHAT_ID_TRASH, DC_DESIRED_TEXT_LEN, DC_MSG_ID_LAST_SPECIAL,
	};
	use crate::contact::{Contact, ContactId};
	use crate::context::Context;
	use crate::debug_logging::set_debug_logging_xdc;
	use crate::download::DownloadState;
	use crate::ephemeral::{start_ephemeral_timers_msgids, Timer as EphemeralTimer};
	use crate::events::EventType;
	use crate::imap::markseen_on_imap_table;
	use crate::location::delete_poi_location;
	use crate::mimeparser::{parse_message_id, SystemMessage};
	use crate::param::{Param, Params};
	use crate::pgp::split_armored_data;
	use crate::reaction::get_msg_reactions;
	use crate::sql;
	use crate::summary::Summary;
	use crate::tools::{
	buf_compress, buf_decompress, get_filebytes, get_filemeta, gm2local_offset, read_file, time,
	timestamp_to_str, truncate,
	};

	/// Message ID, including reserved IDs.
	///
	/// Some message IDs are reserved to identify special message types.
	/// This type can represent both the special as well as normal
	/// messages.
	#[derive(
	Debug, Copy, Clone, Default, PartialEq, Eq, Hash, PartialOrd, Ord, Serialize, Deserialize,
	)]
	pub struct MsgId(u32);

	impl MsgId {
	/// Create a new [MsgId].
	pub fn new(id: u32) -> MsgId {
	MsgId(id)
	}

	/// Create a new unset [MsgId].
	pub fn new_unset() -> MsgId {
	MsgId(0)
	}

	/// Whether the message ID signifies a special message.
	///
	/// This kind of message ID can not be used for real messages.
	pub fn is_special(self) -> bool {
	self.0 <= DC_MSG_ID_LAST_SPECIAL
	}

	/// Whether the message ID is unset.
	///
	/// When a message is created it initially has a ID of `0`, which
	/// is filled in by a real message ID once the message is saved in
	/// the database. This returns true while the message has not
	/// been saved and thus not yet been given an actual message ID.
	///
	/// When this is `true`, [MsgId::is_special] will also always be
	/// `true`.
	pub fn is_unset(self) -> bool {
	self.0 == 0
	}

	/// Returns message state.
	pub async fn get_state(self, context: &Context) -> Result<MessageState> {
	let result = context
	.sql
	.query_get_value("SELECT state FROM msgs WHERE id=?", (self,))
	.await?
	.unwrap_or_default();
	Ok(result)
	}

	pub(crate) async fn get_param(self, context: &Context) -> Result<Params> {
	let res: Option<String> = context
	.sql
	.query_get_value("SELECT param FROM msgs WHERE id=?", (self,))
	.await?;
	Ok(res
	.map(\|s\| s.parse().unwrap_or_default())
	.unwrap_or_default())
	}

	/// Put message into trash chat and delete message text.
	///
	/// It means the message is deleted locally, but not on the server.
	/// We keep some infos to
	/// 1. not download the same message again
	/// 2. be able to delete the message on the server if we want to
	pub async fn trash(self, context: &Context) -> Result<()> {
	let chat_id = DC_CHAT_ID_TRASH;
	context
	.sql
	.execute(
	// If you change which information is removed here, also change delete_expired_messages() and
	// which information receive_imf::add_parts() still adds to the db if the chat_id is TRASH
	r#"
	UPDATE msgs
	SET
	chat_id=?, txt='',
	subject='', txt_raw='',
	mime_headers='',
	from_id=0, to_id=0,
	param=''
	WHERE id=?;
	"#,
	(chat_id, self),
	)
	.await?;

	Ok(())
	}

	/// Deletes a message, corresponding MDNs and unsent SMTP messages from the database.
	pub(crate) async fn delete_from_db(self, context: &Context) -> Result<()> {
	context
	.sql
	.transaction(move \|transaction\| {
	transaction.execute("DELETE FROM smtp WHERE msg_id=?", (self,))?;
	transaction.execute("DELETE FROM msgs_mdns WHERE msg_id=?", (self,))?;
	transaction.execute("DELETE FROM msgs_status_updates WHERE msg_id=?", (self,))?;
	transaction.execute("DELETE FROM msgs WHERE id=?", (self,))?;
	Ok(())
	})
	.await?;
	Ok(())
	}

	pub(crate) async fn set_delivered(self, context: &Context) -> Result<()> {
	update_msg_state(context, self, MessageState::OutDelivered).await?;
	let chat_id: ChatId = context
	.sql
	.query_get_value("SELECT chat_id FROM msgs WHERE id=?", (self,))
	.await?
	.unwrap_or_default();
	context.emit_event(EventType::MsgDelivered {
	chat_id,
	msg_id: self,
	});
	chatlist_events::emit_chatlist_item_changed(context, chat_id);
	Ok(())
	}

	/// Bad evil escape hatch.
	///
	/// Avoid using this, eventually types should be cleaned up enough
	/// that it is no longer necessary.
	pub fn to_u32(self) -> u32 {
	self.0
	}

	/// Returns raw text of a message, used for message info
	pub async fn rawtext(self, context: &Context) -> Result<String> {
	Ok(context
	.sql
	.query_get_value("SELECT txt_raw FROM msgs WHERE id=?", (self,))
	.await?
	.unwrap_or_default())
	}

	/// Returns server foldernames and UIDs of a message, used for message info
	pub async fn get_info_server_urls(
	context: &Context,
	rfc724_mid: String,
	) -> Result<Vec<String>> {
	context
	.sql
	.query_map(
	"SELECT folder, uid FROM imap WHERE rfc724_mid=?",
	(rfc724_mid,),
	\|row\| {
	let folder: String = row.get("folder")?;
	let uid: u32 = row.get("uid")?;
	Ok(format!("</{folder}/;UID={uid}>"))
	},
	\|rows\| {
	rows.collect::<std::result::Result<Vec<_>, _>>()
	.map_err(Into::into)
	},
	)
	.await
	}

	/// Returns information about hops of a message, used for message info
	pub async fn hop_info(self, context: &Context) -> Result<Option<String>> {
	context
	.sql
	.query_get_value("SELECT hop_info FROM msgs WHERE id=?", (self,))
	.await
	}

	/// Returns detailed message information in a multi-line text form.
	pub async fn get_info(self, context: &Context) -> Result<String> {
	let msg = Message::load_from_db(context, self).await?;
	let rawtxt: String = self.rawtext(context).await?;

	let mut ret = String::new();

	let rawtxt = truncate(rawtxt.trim(), DC_DESIRED_TEXT_LEN);

	let fts = timestamp_to_str(msg.get_timestamp());
	ret += &format!("Sent: {fts}");

	let from_contact = Contact::get_by_id(context, msg.from_id).await?;
	let name = from_contact.get_name_n_addr();
	if let Some(override_sender_name) = msg.get_override_sender_name() {
	let addr = from_contact.get_addr();
	ret += &format!(" by ~{override_sender_name} ({addr})");
	} else {
	ret += &format!(" by {name}");
	}
	ret += "\n";

	if msg.from_id != ContactId::SELF {
	let s = timestamp_to_str(if 0 != msg.timestamp_rcvd {
	msg.timestamp_rcvd
	} else {
	msg.timestamp_sort
	});
	ret += &format!("Received: {}", &s);
	ret += "\n";
	}

	if let EphemeralTimer::Enabled { duration } = msg.ephemeral_timer {
	ret += &format!("Ephemeral timer: {duration}\n");
	}

	if msg.ephemeral_timestamp != 0 {
	ret += &format!("Expires: {}\n", timestamp_to_str(msg.ephemeral_timestamp));
	}

	if msg.from_id == ContactId::INFO \|\| msg.to_id == ContactId::INFO {
	// device-internal message, no further details needed
	return Ok(ret);
	}

	if let Ok(rows) = context
	.sql
	.query_map(
	"SELECT contact_id, timestamp_sent FROM msgs_mdns WHERE msg_id=?",
	(self,),
	\|row\| {
	let contact_id: ContactId = row.get(0)?;
	let ts: i64 = row.get(1)?;
	Ok((contact_id, ts))
	},
	\|rows\| rows.collect::<Result<Vec<_>, _>>().map_err(Into::into),
	)
	.await
	{
	for (contact_id, ts) in rows {
	let fts = timestamp_to_str(ts);
	ret += &format!("Read: {fts}");

	let name = Contact::get_by_id(context, contact_id)
	.await
	.map(\|contact\| contact.get_name_n_addr())
	.unwrap_or_default();

	ret += &format!(" by {name}");
	ret += "\n";
	}
	}

	ret += &format!("State: {}", msg.state);

	if msg.has_location() {
	ret += ", Location sent";
	}

	let e2ee_errors = msg.param.get_int(Param::ErroneousE2ee).unwrap_or_default();

	if 0 != e2ee_errors {
	if 0 != e2ee_errors & 0x2 {
	ret += ", Encrypted, no valid signature";
	}
	} else if 0 != msg.param.get_int(Param::GuaranteeE2ee).unwrap_or_default() {
	ret += ", Encrypted";
	}

	ret += "\n";

	let reactions = get_msg_reactions(context, self).await?;
	if !reactions.is_empty() {
	ret += &format!("Reactions: {reactions}\n");
	}

	if let Some(error) = msg.error.as_ref() {
	ret += &format!("Error: {error}");
	}

	if let Some(path) = msg.get_file(context) {
	let bytes = get_filebytes(context, &path).await?;
	ret += &format!("\nFile: {}, {} bytes\n", path.display(), bytes);
	}

	if msg.viewtype != Viewtype::Text {
	ret += "Type: ";
	ret += &format!("{}", msg.viewtype);
	ret += "\n";
	ret += &format!("Mimetype: {}\n", &msg.get_filemime().unwrap_or_default());
	}
	let w = msg.param.get_int(Param::Width).unwrap_or_default();
	let h = msg.param.get_int(Param::Height).unwrap_or_default();
	if w != 0 \|\| h != 0 {
	ret += &format!("Dimension: {w} x {h}\n",);
	}
	let duration = msg.param.get_int(Param::Duration).unwrap_or_default();
	if duration != 0 {
	ret += &format!("Duration: {duration} ms\n",);
	}
	if !rawtxt.is_empty() {
	ret += &format!("\n{rawtxt}\n");
	}
	if !msg.rfc724_mid.is_empty() {
	ret += &format!("\nMessage-ID: {}", msg.rfc724_mid);

	let server_urls = Self::get_info_server_urls(context, msg.rfc724_mid).await?;
	for server_url in server_urls {
	// Format as RFC 5092 relative IMAP URL.
	ret += &format!("\n{server_url}");
	}
	}
	let hop_info = self.hop_info(context).await?;

	ret += "\n\n";
	ret += &hop_info.unwrap_or_else(\|\| "No Hop Info".to_owned());

	Ok(ret)
	}
	}

	impl std::fmt::Display for MsgId {
	fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
	write!(f, "Msg#{}", self.0)
	}
	}

	/// Allow converting [MsgId] to an SQLite type.
	///
	/// This allows you to directly store [MsgId] into the database.
	///
	/// # Errors
	///
	/// This does ensure that no special message IDs are written into
	/// the database and the conversion will fail if this is not the case.
	impl rusqlite::types::ToSql for MsgId {
	fn to_sql(&self) -> rusqlite::Result<rusqlite::types::ToSqlOutput> {
	if self.0 <= DC_MSG_ID_LAST_SPECIAL {
	return Err(rusqlite::Error::ToSqlConversionFailure(
	format_err!("Invalid MsgId {}", self.0).into(),
	));
	}
	let val = rusqlite::types::Value::Integer(i64::from(self.0));
	let out = rusqlite::types::ToSqlOutput::Owned(val);
	Ok(out)
	}
	}

	/// Allow converting an SQLite integer directly into [MsgId].
	impl rusqlite::types::FromSql for MsgId {
	fn column_result(value: rusqlite::types::ValueRef) -> rusqlite::types::FromSqlResult<Self> {
	// Would be nice if we could use match here, but alas.
	i64::column_result(value).and_then(\|val\| {
	if 0 <= val && val <= i64::from(u32::MAX) {
	Ok(MsgId::new(val as u32))
	} else {
	Err(rusqlite::types::FromSqlError::OutOfRange(val))
	}
	})
	}
	}

	#[derive(
	Debug,
	Copy,
	Clone,
	PartialEq,
	FromPrimitive,
	ToPrimitive,
	FromSql,
	ToSql,
	Serialize,
	Deserialize,
	)]
	#[repr(u8)]
	pub(crate) enum MessengerMessage {
	No = 0,
	Yes = 1,

	/// No, but reply to messenger message.
	Reply = 2,
	}

	impl Default for MessengerMessage {
	fn default() -> Self {
	Self::No
	}
	}

	/// An object representing a single message in memory.
	/// The message object is not updated.
	/// If you want an update, you have to recreate the object.
	#[derive(Debug, Clone, Default, Serialize, Deserialize)]
	pub struct Message {
	/// Message ID.
	pub(crate) id: MsgId,

	/// `From:` contact ID.
	pub(crate) from_id: ContactId,

	/// ID of the first contact in the `To:` header.
	pub(crate) to_id: ContactId,

	/// ID of the chat message belongs to.
	pub(crate) chat_id: ChatId,

	/// Type of the message.
	pub(crate) viewtype: Viewtype,

	/// State of the message.
	pub(crate) state: MessageState,
	pub(crate) download_state: DownloadState,

	/// Whether the message is hidden.
	pub(crate) hidden: bool,
	pub(crate) timestamp_sort: i64,
	pub(crate) timestamp_sent: i64,
	pub(crate) timestamp_rcvd: i64,
	pub(crate) ephemeral_timer: EphemeralTimer,
	pub(crate) ephemeral_timestamp: i64,
	pub(crate) text: String,

	/// Message subject.
	///
	/// If empty, a default subject will be generated when sending.
	pub(crate) subject: String,

	/// `Message-ID` header value.
	pub(crate) rfc724_mid: String,

	/// `In-Reply-To` header value.
	pub(crate) in_reply_to: Option<String>,
	pub(crate) is_dc_message: MessengerMessage,
	pub(crate) mime_modified: bool,
	pub(crate) chat_blocked: Blocked,
	pub(crate) location_id: u32,
	pub(crate) error: Option<String>,
	pub(crate) param: Params,
	}

	impl Message {
	/// Creates a new message with given view type.
	pub fn new(viewtype: Viewtype) -> Self {
	Message {
	viewtype,
	..Default::default()
	}
	}

	/// Loads message with given ID from the database.
	///
	/// Returns an error if the message does not exist.
	pub async fn load_from_db(context: &Context, id: MsgId) -> Result<Message> {
	let message = Self::load_from_db_optional(context, id)
	.await?
	.with_context(\|\| format!("Message {id} does not exist"))?;
	Ok(message)
	}

	/// Loads message with given ID from the database.
	///
	/// Returns `None` if the message does not exist.
	pub async fn load_from_db_optional(context: &Context, id: MsgId) -> Result<Option<Message>> {
	ensure!(
	!id.is_special(),
	"Can not load special message ID {} from DB",
	id
	);
	let msg = context
	.sql
	.query_row_optional(
	concat!(
	"SELECT",
	" m.id AS id,",
	" rfc724_mid AS rfc724mid,",
	" m.mime_in_reply_to AS mime_in_reply_to,",
	" m.chat_id AS chat_id,",
	" m.from_id AS from_id,",
	" m.to_id AS to_id,",
	" m.timestamp AS timestamp,",
	" m.timestamp_sent AS timestamp_sent,",
	" m.timestamp_rcvd AS timestamp_rcvd,",
	" m.ephemeral_timer AS ephemeral_timer,",
	" m.ephemeral_timestamp AS ephemeral_timestamp,",
	" m.type AS type,",
	" m.state AS state,",
	" m.download_state AS download_state,",
	" m.error AS error,",
	" m.msgrmsg AS msgrmsg,",
	" m.mime_modified AS mime_modified,",
	" m.txt AS txt,",
	" m.subject AS subject,",
	" m.param AS param,",
	" m.hidden AS hidden,",
	" m.location_id AS location,",
	" c.blocked AS blocked",
	" FROM msgs m LEFT JOIN chats c ON c.id=m.chat_id",
	" WHERE m.id=? AND chat_id!=3;"
	),
	(id,),
	\|row\| {
	let text = match row.get_ref("txt")? {
	rusqlite::types::ValueRef::Text(buf) => {
	match String::from_utf8(buf.to_vec()) {
	Ok(t) => t,
	Err(_) => {
	warn!(
	context,
	concat!(
	"dc_msg_load_from_db: could not get ",
	"text column as non-lossy utf8 id {}"
	),
	id
	);
	String::from_utf8_lossy(buf).into_owned()
	}
	}
	}
	_ => String::new(),
	};
	let msg = Message {
	id: row.get("id")?,
	rfc724_mid: row.get::<_, String>("rfc724mid")?,
	in_reply_to: row
	.get::<_, Option<String>>("mime_in_reply_to")?
	.and_then(\|in_reply_to\| parse_message_id(&in_reply_to).ok()),
	chat_id: row.get("chat_id")?,
	from_id: row.get("from_id")?,
	to_id: row.get("to_id")?,
	timestamp_sort: row.get("timestamp")?,
	timestamp_sent: row.get("timestamp_sent")?,
	timestamp_rcvd: row.get("timestamp_rcvd")?,
	ephemeral_timer: row.get("ephemeral_timer")?,
	ephemeral_timestamp: row.get("ephemeral_timestamp")?,
	viewtype: row.get("type")?,
	state: row.get("state")?,
	download_state: row.get("download_state")?,
	error: Some(row.get::<_, String>("error")?)
	.filter(\|error\| !error.is_empty()),
	is_dc_message: row.get("msgrmsg")?,
	mime_modified: row.get("mime_modified")?,
	text,
	subject: row.get("subject")?,
	param: row.get::<_, String>("param")?.parse().unwrap_or_default(),
	hidden: row.get("hidden")?,
	location_id: row.get("location")?,
	chat_blocked: row
	.get::<_, Option<Blocked>>("blocked")?
	.unwrap_or_default(),
	};
	Ok(msg)
	},
	)
	.await
	.with_context(\|\| format!("failed to load message {id} from the database"))?;

	Ok(msg)
	}

	/// Returns the MIME type of an attached file if it exists.
	///
	/// If the MIME type is not known, the function guesses the MIME type
	/// from the extension. `application/octet-stream` is used as a fallback
	/// if MIME type is not known, but `None` is only returned if no file
	/// is attached.
	pub fn get_filemime(&self) -> Option<String> {
	if let Some(m) = self.param.get(Param::MimeType) {
	return Some(m.to_string());
	} else if let Some(file) = self.param.get(Param::File) {
	if let Some((_, mime)) = guess_msgtype_from_suffix(Path::new(file)) {
	return Some(mime.to_string());
	}
	// we have a file but no mimetype, let's use a generic one
	return Some("application/octet-stream".to_string());
	}
	// no mimetype and no file
	None
	}

	/// Returns the full path to the file associated with a message.
	pub fn get_file(&self, context: &Context) -> Option<PathBuf> {
	self.param.get_path(Param::File, context).unwrap_or(None)
	}

	/// Returns vector of vcards if the file has a vCard attachment.
	pub async fn vcard_contacts(&self, context: &Context) -> Result<Vec<VcardContact>> {
	if self.viewtype != Viewtype::Vcard {
	return Ok(Vec::new());
	}

	let path = self
	.get_file(context)
	.context("vCard message does not have an attachment")?;
	let bytes = tokio::fs::read(path).await?;
	let vcard_contents = std::str::from_utf8(&bytes).context("vCard is not a valid UTF-8")?;
	Ok(parse_vcard(vcard_contents))
	}

	/// Save file copy at the user-provided path.
	pub async fn save_file(&self, context: &Context, path: &Path) -> Result<()> {
	let path_src = self.get_file(context).context("No file")?;
	let mut src = fs::OpenOptions::new().read(true).open(path_src).await?;
	let mut dst = fs::OpenOptions::new()
	.write(true)
	.create_new(true)
	.open(path)
	.await?;
	io::copy(&mut src, &mut dst).await?;
	Ok(())
	}

	/// If message is an image or gif, set Param::Width and Param::Height
	pub(crate) async fn try_calc_and_set_dimensions(&mut self, context: &Context) -> Result<()> {
	if self.viewtype.has_file() {
	let file_param = self.param.get_path(Param::File, context)?;
	if let Some(path_and_filename) = file_param {
	if (self.viewtype == Viewtype::Image \|\| self.viewtype == Viewtype::Gif)
	&& !self.param.exists(Param::Width)
	{
	let buf = read_file(context, &path_and_filename).await?;

	match get_filemeta(&buf) {
	Ok((width, height)) => {
	self.param.set_int(Param::Width, width as i32);
	self.param.set_int(Param::Height, height as i32);
	}
	Err(err) => {
	self.param.set_int(Param::Width, 0);
	self.param.set_int(Param::Height, 0);
	warn!(
	context,
	"Failed to get width and height for {}: {err:#}.",
	path_and_filename.display()
	);
	}
	}

	if !self.id.is_unset() {
	self.update_param(context).await?;
	}
	}
	}
	}
	Ok(())
	}

	/// Check if a message has a POI location bound to it.
	/// These locations are also returned by [`location::get_range()`].
	/// The UI may decide to display a special icon beside such messages.
	///
	/// [`location::get_range()`]: crate::location::get_range
	pub fn has_location(&self) -> bool {
	self.location_id != 0
	}

	/// Set any location that should be bound to the message object.
	/// The function is useful to add a marker to the map
	/// at a position different from the self-location.
	/// You should not call this function
	/// if you want to bind the current self-location to a message;
	/// this is done by [`location::set()`] and [`send_locations_to_chat()`].
	///
	/// Typically results in the event [`LocationChanged`] with
	/// `contact_id` set to [`ContactId::SELF`].
	///
	/// `latitude` is the North-south position of the location.
	/// `longitutde` is the East-west position of the location.
	///
	/// [`location::set()`]: crate::location::set
	/// [`send_locations_to_chat()`]: crate::location::send_locations_to_chat
	/// [`LocationChanged`]: crate::events::EventType::LocationChanged
	pub fn set_location(&mut self, latitude: f64, longitude: f64) {
	if latitude == 0.0 && longitude == 0.0 {
	return;
	}

	self.param.set_float(Param::SetLatitude, latitude);
	self.param.set_float(Param::SetLongitude, longitude);
	}

	/// Returns the message timestamp for display in the UI
	/// as a unix timestamp in seconds.
	pub fn get_timestamp(&self) -> i64 {
	if 0 != self.timestamp_sent {
	self.timestamp_sent
	} else {
	self.timestamp_sort
	}
	}

	/// Returns the message ID.
	pub fn get_id(&self) -> MsgId {
	self.id
	}

	/// Returns the rfc724 message ID
	/// May be empty
	pub fn rfc724_mid(&self) -> &str {
	&self.rfc724_mid
	}

	/// Returns the ID of the contact who wrote the message.
	pub fn get_from_id(&self) -> ContactId {
	self.from_id
	}

	/// Returns the chat ID.
	pub fn get_chat_id(&self) -> ChatId {
	self.chat_id
	}

	/// Returns the type of the message.
	pub fn get_viewtype(&self) -> Viewtype {
	self.viewtype
	}

	/// Forces the message to keep [Viewtype::Sticker]
	/// e.g the message will not be converted to a [Viewtype::Image].
	pub fn force_sticker(&mut self) {
	self.param.set_int(Param::ForceSticker, 1);
	}

	/// Returns the state of the message.
	pub fn get_state(&self) -> MessageState {
	self.state
	}

	/// Returns the message receive time as a unix timestamp in seconds.
	pub fn get_received_timestamp(&self) -> i64 {
	self.timestamp_rcvd
	}

	/// Returns the timestamp of the message for sorting.
	pub fn get_sort_timestamp(&self) -> i64 {
	self.timestamp_sort
	}

	/// Returns the text of the message.
	pub fn get_text(&self) -> String {
	self.text.clone()
	}

	/// Returns message subject.
	pub fn get_subject(&self) -> &str {
	&self.subject
	}

	/// Returns original filename (as shown in chat).
	///
	/// To get the full path, use [`Self::get_file()`].
	pub fn get_filename(&self) -> Option<String> {
	if let Some(name) = self.param.get(Param::Filename) {
	return Some(name.to_string());
	}
	self.param
	.get(Param::File)
	.and_then(\|file\| Path::new(file).file_name())
	.map(\|name\| name.to_string_lossy().to_string())
	}

	/// Returns the size of the file in bytes, if applicable.
	pub async fn get_filebytes(&self, context: &Context) -> Result<Option<u64>> {
	if let Some(path) = self.param.get_path(Param::File, context)? {
	Ok(Some(get_filebytes(context, &path).await.with_context(
	\|\| format!("failed to get {} size in bytes", path.display()),
	)?))
	} else {
	Ok(None)
	}
	}

	/// Returns width of associated image or video file.
	pub fn get_width(&self) -> i32 {
	self.param.get_int(Param::Width).unwrap_or_default()
	}

	/// Returns height of associated image or video file.
	pub fn get_height(&self) -> i32 {
	self.param.get_int(Param::Height).unwrap_or_default()
	}

	/// Returns duration of associated audio or video file.
	pub fn get_duration(&self) -> i32 {
	self.param.get_int(Param::Duration).unwrap_or_default()
	}

	/// Returns true if padlock indicating message encryption should be displayed in the UI.
	pub fn get_showpadlock(&self) -> bool {
	self.param.get_int(Param::GuaranteeE2ee).unwrap_or_default() != 0
	}

	/// Returns true if message is auto-generated.
	pub fn is_bot(&self) -> bool {
	self.param.get_bool(Param::Bot).unwrap_or_default()
	}

	/// Return the ephemeral timer duration for a message.
	pub fn get_ephemeral_timer(&self) -> EphemeralTimer {
	self.ephemeral_timer
	}

	/// Returns the timestamp of the epehemeral message removal.
	pub fn get_ephemeral_timestamp(&self) -> i64 {
	self.ephemeral_timestamp
	}

	/// Returns message summary for display in the search results.
	pub async fn get_summary(&self, context: &Context, chat: Option<&Chat>) -> Result<Summary> {
	let chat_loaded: Chat;
	let chat = if let Some(chat) = chat {
	chat
	} else {
	let chat = Chat::load_from_db(context, self.chat_id).await?;
	chat_loaded = chat;
	&chat_loaded
	};

	let contact = if self.from_id != ContactId::SELF {
	match chat.typ {
	Chattype::Group \| Chattype::Broadcast \| Chattype::Mailinglist => {
	Some(Contact::get_by_id(context, self.from_id).await?)
	}
	Chattype::Single => None,
	}
	} else {
	None
	};

	Summary::new(context, self, chat, contact.as_ref()).await
	}

	// It's a little unfortunate that the UI has to first call `dc_msg_get_override_sender_name` and then if it was `NULL`, call
	// `dc_contact_get_display_name` but this was the best solution:
	// - We could load a Contact struct from the db here to call `dc_get_display_name` instead of returning `None`, but then we had a db
	// call every time (and this fn is called a lot while the user is scrolling through a group), so performance would be bad
	// - We could pass both a Contact struct and a Message struct in the FFI, but at least on Android we would need to handle raw
	// C-data in the Java code (i.e. a `long` storing a C pointer)
	// - We can't make a param `SenderDisplayname` for messages as sometimes the display name of a contact changes, and we want to show
	// the same display name over all messages from the same sender.
	/// Returns the name that should be shown over the message instead of the contact display ame.
	pub fn get_override_sender_name(&self) -> Option<String> {
	self.param
	.get(Param::OverrideSenderDisplayname)
	.map(\|name\| name.to_string())
	}

	// Exposing this function over the ffi instead of get_override_sender_name() would mean that at least Android Java code has
	// to handle raw C-data (as it is done for msg_get_summary())
	pub(crate) fn get_sender_name(&self, contact: &Contact) -> String {
	self.get_override_sender_name()
	.unwrap_or_else(\|\| contact.get_display_name().to_string())
	}

	/// Returns true if a message has a deviating timestamp.
	///
	/// A message has a deviating timestamp when it is sent on
	/// another day as received/sorted by.
	pub fn has_deviating_timestamp(&self) -> bool {
	let cnv_to_local = gm2local_offset();
	let sort_timestamp = self.get_sort_timestamp() + cnv_to_local;
	let send_timestamp = self.get_timestamp() + cnv_to_local;

	sort_timestamp / 86400 != send_timestamp / 86400
	}

	/// Returns true if the message was successfully delivered to the outgoing server or even
	/// received a read receipt.
	pub fn is_sent(&self) -> bool {
	self.state >= MessageState::OutDelivered
	}

	/// Returns true if the message is a forwarded message.
	pub fn is_forwarded(&self) -> bool {
	0 != self.param.get_int(Param::Forwarded).unwrap_or_default()
	}

	/// Returns true if the message is an informational message.
	pub fn is_info(&self) -> bool {
	let cmd = self.param.get_cmd();
	self.from_id == ContactId::INFO
	\|\| self.to_id == ContactId::INFO
	\|\| cmd != SystemMessage::Unknown && cmd != SystemMessage::AutocryptSetupMessage
	}

	/// Returns the type of an informational message.
	pub fn get_info_type(&self) -> SystemMessage {
	self.param.get_cmd()
	}

	/// Returns true if the message is a system message.
	pub fn is_system_message(&self) -> bool {
	let cmd = self.param.get_cmd();
	cmd != SystemMessage::Unknown
	}

	/// Whether the message is still being created.
	///
	/// Messages with attachments might be created before the
	/// attachment is ready. In this case some more restrictions on
	/// the attachment apply, e.g. if the file to be attached is still
	/// being written to or otherwise will still change it can not be
	/// copied to the blobdir. Thus those attachments need to be
	/// created immediately in the blobdir with a valid filename.
	pub fn is_increation(&self) -> bool {
	self.viewtype.has_file() && self.state == MessageState::OutPreparing
	}

	/// Returns true if the message is an Autocrypt Setup Message.
	pub fn is_setupmessage(&self) -> bool {
	if self.viewtype != Viewtype::File {
	return false;
	}

	self.param.get_cmd() == SystemMessage::AutocryptSetupMessage
	}

	/// Returns the first characters of the setup code.
	///
	/// This is used to pre-fill the first entry field of the setup code.
	pub async fn get_setupcodebegin(&self, context: &Context) -> Option<String> {
	if !self.is_setupmessage() {
	return None;
	}

	if let Some(filename) = self.get_file(context) {
	if let Ok(ref buf) = read_file(context, filename).await {
	if let Ok((typ, headers, _)) = split_armored_data(buf) {
	if typ == pgp::armor::BlockType::Message {
	return headers.get(crate::pgp::HEADER_SETUPCODE).cloned();
	}
	}
	}
	}

	None
	}

	// add room to a webrtc_instance as defined by the corresponding config-value;
	// the result may still be prefixed by the type
	pub(crate) fn create_webrtc_instance(instance: &str, room: &str) -> String {
	let (videochat_type, mut url) = Message::parse_webrtc_instance(instance);

	// make sure, there is a scheme in the url
	if !url.contains(':') {
	url = format!("https://{url}");
	}

	// add/replace room
	let url = if url.contains("$ROOM") {
	url.replace("$ROOM", room)
	} else if url.contains("$NOROOM") {
	// there are some usecases where a separate room is not needed to use a service
	// eg. if you let in people manually anyway, see discussion at
	// <https://support.delta.chat/t/videochat-with-webex/1412/4>.
	// hacks as hiding the room behind `#` are not reliable, therefore,
	// these services are supported by adding the string `$NOROOM` to the url.
	url.replace("$NOROOM", "")
	} else {
	// if there nothing that would separate the room, add a slash as a separator;
	// this way, urls can be given as "https://meet.jit.si" as well as "https://meet.jit.si/"
	let maybe_slash = if url.ends_with('/')
	\|\| url.ends_with('?')
	\|\| url.ends_with('#')
	\|\| url.ends_with('=')
	{
	""
	} else {
	"/"
	};
	format!("{url}{maybe_slash}{room}")
	};

	// re-add and normalize type
	match videochat_type {
	VideochatType::BasicWebrtc => format!("basicwebrtc:{url}"),
	VideochatType::Jitsi => format!("jitsi:{url}"),
	VideochatType::Unknown => url,
	}
	}

	/// split a webrtc_instance as defined by the corresponding config-value into a type and a url
	pub fn parse_webrtc_instance(instance: &str) -> (VideochatType, String) {
	let instance: String = instance.split_whitespace().collect();
	let mut split = instance.splitn(2, ':');
	let type_str = split.next().unwrap_or_default().to_lowercase();
	let url = split.next();
	match type_str.as_str() {
	"basicwebrtc" => (
	VideochatType::BasicWebrtc,
	url.unwrap_or_default().to_string(),
	),
	"jitsi" => (VideochatType::Jitsi, url.unwrap_or_default().to_string()),
	_ => (VideochatType::Unknown, instance.to_string()),
	}
	}

	/// Returns videochat URL if the message is a videochat invitation.
	pub fn get_videochat_url(&self) -> Option<String> {
	if self.viewtype == Viewtype::VideochatInvitation {
	if let Some(instance) = self.param.get(Param::WebrtcRoom) {
	return Some(Message::parse_webrtc_instance(instance).1);
	}
	}
	None
	}

	/// Returns videochat type if the message is a videochat invitation.
	pub fn get_videochat_type(&self) -> Option<VideochatType> {
	if self.viewtype == Viewtype::VideochatInvitation {
	if let Some(instance) = self.param.get(Param::WebrtcRoom) {
	return Some(Message::parse_webrtc_instance(instance).0);
	}
	}
	None
	}

	/// Sets or unsets message text.
	pub fn set_text(&mut self, text: String) {
	self.text = text;
	}

	/// Sets the email's subject. If it's empty, a default subject
	/// will be used (e.g. `Message from Alice` or `Re: <last subject>`).
	pub fn set_subject(&mut self, subject: String) {
	self.subject = subject;
	}

	/// Sets the file associated with a message.
	///
	/// This function does not use the file or check if it exists,
	/// the file will only be used when the message is prepared
	/// for sending.
	pub fn set_file(&mut self, file: impl ToString, filemime: Option<&str>) {
	if let Some(name) = Path::new(&file.to_string()).file_name() {
	if let Some(name) = name.to_str() {
	self.param.set(Param::Filename, name);
	}
	}
	self.param.set(Param::File, file);
	self.param.set_optional(Param::MimeType, filemime);
	}

	/// Creates a new blob and sets it as a file associated with a message.
	pub async fn set_file_from_bytes(
	&mut self,
	context: &Context,
	suggested_name: &str,
	data: &[u8],
	filemime: Option<&str>,
	) -> Result<()> {
	let blob = BlobObject::create(context, suggested_name, data).await?;
	self.param.set(Param::Filename, suggested_name);
	self.param.set(Param::File, blob.as_name());
	self.param.set_optional(Param::MimeType, filemime);
	Ok(())
	}

	/// Set different sender name for a message.
	/// This overrides the name set by the `set_config()`-option `displayname`.
	pub fn set_override_sender_name(&mut self, name: Option<String>) {
	self.param
	.set_optional(Param::OverrideSenderDisplayname, name);
	}

	/// Sets the dimensions of associated image or video file.
	pub fn set_dimension(&mut self, width: i32, height: i32) {
	self.param.set_int(Param::Width, width);
	self.param.set_int(Param::Height, height);
	}

	/// Sets the duration of associated audio or video file.
	pub fn set_duration(&mut self, duration: i32) {
	self.param.set_int(Param::Duration, duration);
	}

	/// Marks the message as reaction.
	pub(crate) fn set_reaction(&mut self) {
	self.param.set_int(Param::Reaction, 1);
	}

	/// Changes the message width, height or duration,
	/// and stores it into the database.
	pub async fn latefiling_mediasize(
	&mut self,
	context: &Context,
	width: i32,
	height: i32,
	duration: i32,
	) -> Result<()> {
	if width > 0 && height > 0 {
	self.param.set_int(Param::Width, width);
	self.param.set_int(Param::Height, height);
	}
	if duration > 0 {
	self.param.set_int(Param::Duration, duration);
	}
	self.update_param(context).await?;
	Ok(())
	}

	/// Sets message quote.
	///
	/// Message-Id is used to set Reply-To field, message text is used for quote.
	///
	/// Encryption is required if quoted message was encrypted.
	///
	/// The message itself is not required to exist in the database,
	/// it may even be deleted from the database by the time the message is prepared.
	pub async fn set_quote(&mut self, context: &Context, quote: Option<&Message>) -> Result<()> {
	if let Some(quote) = quote {
	ensure!(
	!quote.rfc724_mid.is_empty(),
	"Message without Message-Id cannot be quoted"
	);
	self.in_reply_to = Some(quote.rfc724_mid.clone());

	if quote
	.param
	.get_bool(Param::GuaranteeE2ee)
	.unwrap_or_default()
	{
	self.param.set(Param::ProtectQuote, "1");
	}

	let text = quote.get_text();
	self.param.set(
	Param::Quote,
	if text.is_empty() {
	// Use summary, similar to "Image" to avoid sending empty quote.
	quote
	.get_summary(context, None)
	.await?
	.truncated_text(500)
	.to_string()
	} else {
	text
	},
	);
	} else {
	self.in_reply_to = None;
	self.param.remove(Param::Quote);
	}

	Ok(())
	}

	/// Returns quoted message text, if any.
	pub fn quoted_text(&self) -> Option<String> {
	self.param.get(Param::Quote).map(\|s\| s.to_string())
	}

	/// Returns quoted message, if any.
	pub async fn quoted_message(&self, context: &Context) -> Result<Option<Message>> {
	if self.param.get(Param::Quote).is_some() && !self.is_forwarded() {
	return self.parent(context).await;
	}
	Ok(None)
	}

	/// Returns parent message according to the `In-Reply-To` header
	/// if it exists in the database and is not trashed.
	///
	/// `References` header is not taken into account.
	pub async fn parent(&self, context: &Context) -> Result<Option<Message>> {
	if let Some(in_reply_to) = &self.in_reply_to {
	if let Some((msg_id, _ts_sent)) = rfc724_mid_exists(context, in_reply_to).await? {
	let msg = Message::load_from_db_optional(context, msg_id).await?;
	return Ok(msg);
	}
	}
	Ok(None)
	}

	/// Force the message to be sent in plain text.
	pub fn force_plaintext(&mut self) {
	self.param.set_int(Param::ForcePlaintext, 1);
	}

	/// Updates `param` column of the message in the database without changing other columns.
	pub async fn update_param(&self, context: &Context) -> Result<()> {
	context
	.sql
	.execute(
	"UPDATE msgs SET param=? WHERE id=?;",
	(self.param.to_string(), self.id),
	)
	.await?;
	Ok(())
	}

	pub(crate) async fn update_subject(&self, context: &Context) -> Result<()> {
	context
	.sql
	.execute(
	"UPDATE msgs SET subject=? WHERE id=?;",
	(&self.subject, self.id),
	)
	.await?;
	Ok(())
	}

	/// Gets the error status of the message.
	///
	/// A message can have an associated error status if something went wrong when sending or
	/// receiving message itself. The error status is free-form text and should not be further parsed,
	/// rather it's presence is meant to indicate something went wrong with the message and the
	/// text of the error is detailed information on what.
	///
	/// Some common reasons error can be associated with messages are:
	/// * Lack of valid signature on an e2ee message, usually for received messages.
	/// * Failure to decrypt an e2ee message, usually for received messages.
	/// * When a message could not be delivered to one or more recipients the non-delivery
	/// notification text can be stored in the error status.
	pub fn error(&self) -> Option<String> {
	self.error.clone()
	}
	}

	/// State of the message.
	/// For incoming messages, stores the information on whether the message was read or not.
	/// For outgoing message, the message could be pending, already delivered or confirmed.
	#[derive(
	Debug,
	Default,
	Clone,
	Copy,
	PartialEq,
	Eq,
	PartialOrd,
	Ord,
	FromPrimitive,
	ToPrimitive,
	ToSql,
	FromSql,
	Serialize,
	Deserialize,
	)]
	#[repr(u32)]
	pub enum MessageState {
	/// Undefined message state.
	#[default]
	Undefined = 0,

	/// Incoming fresh message. Fresh messages are neither noticed
	/// nor seen and are typically shown in notifications.
	InFresh = 10,

	/// Incoming noticed message. E.g. chat opened but message not
	/// yet read - noticed messages are not counted as unread but did
	/// not marked as read nor resulted in MDNs.
	InNoticed = 13,

	/// Incoming message, really seen by the user. Marked as read on
	/// IMAP and MDN may be sent.
	InSeen = 16,

	/// For files which need time to be prepared before they can be
	/// sent, the message enters this state before
	/// OutPending.
	OutPreparing = 18,

	/// Message saved as draft.
	OutDraft = 19,

	/// The user has pressed the "send" button but the message is not
	/// yet sent and is pending in some way. Maybe we're offline (no
	/// checkmark).
	OutPending = 20,

	/// Unrecoverable error (recoverable errors result in pending
	/// messages).
	OutFailed = 24,

	/// Outgoing message successfully delivered to server (one
	/// checkmark). Note, that already delivered messages may get into
	/// the OutFailed state if we get such a hint from the server.
	OutDelivered = 26,

	/// Outgoing message read by the recipient (two checkmarks; this
	/// requires goodwill on the receiver's side)
	OutMdnRcvd = 28,
	}

	impl std::fmt::Display for MessageState {
	fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
	write!(
	f,
	"{}",
	match self {
	Self::Undefined => "Undefined",
	Self::InFresh => "Fresh",
	Self::InNoticed => "Noticed",
	Self::InSeen => "Seen",
	Self::OutPreparing => "Preparing",
	Self::OutDraft => "Draft",
	Self::OutPending => "Pending",
	Self::OutFailed => "Failed",
	Self::OutDelivered => "Delivered",
	Self::OutMdnRcvd => "Read",
	}
	)
	}
	}

	impl MessageState {
	/// Returns true if the message can transition to `OutFailed` state from the current state.
	pub fn can_fail(self) -> bool {
	use MessageState::*;
	matches!(
	self,
	OutPreparing \| OutPending \| OutDelivered \| OutMdnRcvd // OutMdnRcvd can still fail because it could be a group message and only some recipients failed.
	)
	}

	/// Returns true for any outgoing message states.
	pub fn is_outgoing(self) -> bool {
	use MessageState::*;
	matches!(
	self,
	OutPreparing \| OutDraft \| OutPending \| OutFailed \| OutDelivered \| OutMdnRcvd
	)
	}
	}

	/// Returns contacts that sent read receipts and the time of reading.
	pub async fn get_msg_read_receipts(
	context: &Context,
	msg_id: MsgId,
	) -> Result<Vec<(ContactId, i64)>> {
	context
	.sql
	.query_map(
	"SELECT contact_id, timestamp_sent FROM msgs_mdns WHERE msg_id=?",
	(msg_id,),
	\|row\| {
	let contact_id: ContactId = row.get(0)?;
	let ts: i64 = row.get(1)?;
	Ok((contact_id, ts))
	},
	\|rows\| rows.collect::<Result<Vec<_>, _>>().map_err(Into::into),
	)
	.await
	}

	pub(crate) fn guess_msgtype_from_suffix(path: &Path) -> Option<(Viewtype, &str)> {
	let extension: &str = &path.extension()?.to_str()?.to_lowercase();
	let info = match extension {
	// before using viewtype other than Viewtype::File,
	// make sure, all target UIs support that type in the context of the used viewer/player.
	// if in doubt, it is better to default to Viewtype::File that passes handing to an external app.
	// (cmp. <https://developer.android.com/guide/topics/media/media-formats>)
	"3gp" => (Viewtype::Video, "video/3gpp"),
	"aac" => (Viewtype::Audio, "audio/aac"),
	"avi" => (Viewtype::Video, "video/x-msvideo"),
	"avif" => (Viewtype::File, "image/avif"), // supported since Android 12 / iOS 16
	"doc" => (Viewtype::File, "application/msword"),
	"docx" => (
	Viewtype::File,
	"application/vnd.openxmlformats-officedocument.wordprocessingml.document",
	),
	"epub" => (Viewtype::File, "application/epub+zip"),
	"flac" => (Viewtype::Audio, "audio/flac"),
	"gif" => (Viewtype::Gif, "image/gif"),
	"heic" => (Viewtype::File, "image/heic"), // supported since Android 10 / iOS 11
	"heif" => (Viewtype::File, "image/heif"), // supported since Android 10 / iOS 11
	"html" => (Viewtype::File, "text/html"),
	"htm" => (Viewtype::File, "text/html"),
	"ico" => (Viewtype::File, "image/vnd.microsoft.icon"),
	"jar" => (Viewtype::File, "application/java-archive"),
	"jpeg" => (Viewtype::Image, "image/jpeg"),
	"jpe" => (Viewtype::Image, "image/jpeg"),
	"jpg" => (Viewtype::Image, "image/jpeg"),
	"json" => (Viewtype::File, "application/json"),
	"mov" => (Viewtype::Video, "video/quicktime"),
	"m4a" => (Viewtype::Audio, "audio/m4a"),
	"mp3" => (Viewtype::Audio, "audio/mpeg"),
	"mp4" => (Viewtype::Video, "video/mp4"),
	"odp" => (
	Viewtype::File,
	"application/vnd.oasis.opendocument.presentation",
	),
	"ods" => (
	Viewtype::File,
	"application/vnd.oasis.opendocument.spreadsheet",
	),
	"odt" => (Viewtype::File, "application/vnd.oasis.opendocument.text"),
	"oga" => (Viewtype::Audio, "audio/ogg"),
	"ogg" => (Viewtype::Audio, "audio/ogg"),
	"ogv" => (Viewtype::File, "video/ogg"),
	"opus" => (Viewtype::File, "audio/ogg"), // supported since Android 10
	"otf" => (Viewtype::File, "font/otf"),
	"pdf" => (Viewtype::File, "application/pdf"),
	"png" => (Viewtype::Image, "image/png"),
	"ppt" => (Viewtype::File, "application/vnd.ms-powerpoint"),
	"pptx" => (
	Viewtype::File,
	"application/vnd.openxmlformats-officedocument.presentationml.presentation",
	),
	"rar" => (Viewtype::File, "application/vnd.rar"),
	"rtf" => (Viewtype::File, "application/rtf"),
	"spx" => (Viewtype::File, "audio/ogg"), // Ogg Speex Profile
	"svg" => (Viewtype::File, "image/svg+xml"),
	"tgs" => (Viewtype::Sticker, "application/x-tgsticker"),
	"tiff" => (Viewtype::File, "image/tiff"),
	"tif" => (Viewtype::File, "image/tiff"),
	"ttf" => (Viewtype::File, "font/ttf"),
	"txt" => (Viewtype::File, "text/plain"),
	"vcard" => (Viewtype::Vcard, "text/vcard"),
	"vcf" => (Viewtype::Vcard, "text/vcard"),
	"wav" => (Viewtype::Audio, "audio/wav"),
	"weba" => (Viewtype::File, "audio/webm"),
	"webm" => (Viewtype::Video, "video/webm"),
	"webp" => (Viewtype::Image, "image/webp"), // iOS via SDWebImage, Android since 4.0
	"wmv" => (Viewtype::Video, "video/x-ms-wmv"),
	"xdc" => (Viewtype::Webxdc, "application/webxdc+zip"),
	"xhtml" => (Viewtype::File, "application/xhtml+xml"),
	"xls" => (Viewtype::File, "application/vnd.ms-excel"),
	"xlsx" => (
	Viewtype::File,
	"application/vnd.openxmlformats-officedocument.spreadsheetml.sheet",
	),
	"xml" => (Viewtype::File, "application/xml"),
	"zip" => (Viewtype::File, "application/zip"),
	_ => {
	return None;
	}
	};
	Some(info)
	}

	/// Get the raw mime-headers of the given message.
	/// Raw headers are saved for incoming messages
	/// only if `set_config(context, "save_mime_headers", "1")`
	/// was called before.
	///
	/// Returns an empty vector if there are no headers saved for the given message,
	/// e.g. because of save_mime_headers is not set
	/// or the message is not incoming.
	pub async fn get_mime_headers(context: &Context, msg_id: MsgId) -> Result<Vec<u8>> {
	let (headers, compressed) = context
	.sql
	.query_row(
	"SELECT mime_headers, mime_compressed FROM msgs WHERE id=?",
	(msg_id,),
	\|row\| {
	let headers = sql::row_get_vec(row, 0)?;
	let compressed: bool = row.get(1)?;
	Ok((headers, compressed))
	},
	)
	.await?;
	if compressed {
	return buf_decompress(&headers);
	}

	let headers2 = headers.clone();
	let compressed = match tokio::task::block_in_place(move \|\| buf_compress(&headers2)) {
	Err(e) => {
	warn!(context, "get_mime_headers: buf_compress() failed: {}", e);
	return Ok(headers);
	}
	Ok(o) => o,
	};
	let update = \|conn: &mut rusqlite::Connection\| {
	match conn.execute(
	"\
	UPDATE msgs SET mime_headers=?, mime_compressed=1 \
	WHERE id=? AND mime_headers!='' AND mime_compressed=0",
	(compressed, msg_id),
	) {
	Ok(rows_updated) => ensure!(rows_updated <= 1),
	Err(e) => {
	warn!(context, "get_mime_headers: UPDATE failed: {}", e);
	return Err(e.into());
	}
	}
	Ok(())
	};
	if let Err(e) = context.sql.call_write(update).await {
	warn!(
	context,
	"get_mime_headers: failed to update mime_headers: {}", e
	);
	}

	Ok(headers)
	}

	/// Deletes requested messages
	/// by moving them to the trash chat
	/// and scheduling for deletion on IMAP.
	pub async fn delete_msgs(context: &Context, msg_ids: &[MsgId]) -> Result<()> {
	let mut modified_chat_ids = BTreeSet::new();
	let mut res = Ok(());

	for &msg_id in msg_ids {
	let msg = Message::load_from_db(context, msg_id).await?;
	if msg.location_id > 0 {
	delete_poi_location(context, msg.location_id).await?;
	}
	msg_id
	.trash(context)
	.await
	.with_context(\|\| format!("Unable to trash message {msg_id}"))?;

	context.emit_event(EventType::MsgDeleted {
	chat_id: msg.chat_id,
	msg_id,
	});

	if msg.viewtype == Viewtype::Webxdc {
	context.emit_event(EventType::WebxdcInstanceDeleted { msg_id });
	}

	modified_chat_ids.insert(msg.chat_id);

	let target = context.get_delete_msgs_target().await?;
	let update_db = \|conn: &mut rusqlite::Connection\| {
	conn.execute(
	"UPDATE imap SET target=? WHERE rfc724_mid=?",
	(target, msg.rfc724_mid),
	)?;
	conn.execute("DELETE FROM smtp WHERE msg_id=?", (msg_id,))?;
	Ok(())
	};
	if let Err(e) = context.sql.call_write(update_db).await {
	error!(context, "delete_msgs: failed to update db: {e:#}.");
	res = Err(e);
	continue;
	}

	let logging_xdc_id = context
	.debug_logging
	.read()
	.expect("RwLock is poisoned")
	.as_ref()
	.map(\|dl\| dl.msg_id);

	if let Some(id) = logging_xdc_id {
	if id == msg_id {
	set_debug_logging_xdc(context, None).await?;
	}
	}
	}
	res?;

	for modified_chat_id in modified_chat_ids {
	context.emit_msgs_changed(modified_chat_id, MsgId::new(0));
	chatlist_events::emit_chatlist_item_changed(context, modified_chat_id);
	}

	if !msg_ids.is_empty() {
	context.emit_msgs_changed_without_ids();
	chatlist_events::emit_chatlist_changed(context);
	// Run housekeeping to delete unused blobs.
	context
	.set_config_internal(Config::LastHousekeeping, None)
	.await?;
	}

	// Interrupt Inbox loop to start message deletion and run housekeeping.
	context.scheduler.interrupt_inbox().await;
	Ok(())
	}

	/// Marks requested messages as seen.
	pub async fn markseen_msgs(context: &Context, msg_ids: Vec<MsgId>) -> Result<()> {
	if msg_ids.is_empty() {
	return Ok(());
	}

	let old_last_msg_id = MsgId::new(context.get_config_u32(Config::LastMsgId).await?);
	let last_msg_id = msg_ids.iter().fold(&old_last_msg_id, std::cmp::max);
	context
	.set_config_internal(Config::LastMsgId, Some(&last_msg_id.to_u32().to_string()))
	.await?;

	let msgs = context
	.sql
	.query_map(
	&format!(
	"SELECT
	m.id AS id,
	m.chat_id AS chat_id,
	m.state AS state,
	m.ephemeral_timer AS ephemeral_timer,
	m.param AS param,
	m.from_id AS from_id,
	m.rfc724_mid AS rfc724_mid,
	c.blocked AS blocked
	FROM msgs m LEFT JOIN chats c ON c.id=m.chat_id
	WHERE m.id IN ({}) AND m.chat_id>9",
	sql::repeat_vars(msg_ids.len())
	),
	rusqlite::params_from_iter(&msg_ids),
	\|row\| {
	let id: MsgId = row.get("id")?;
	let chat_id: ChatId = row.get("chat_id")?;
	let state: MessageState = row.get("state")?;
	let param: Params = row.get::<_, String>("param")?.parse().unwrap_or_default();
	let from_id: ContactId = row.get("from_id")?;
	let rfc724_mid: String = row.get("rfc724_mid")?;
	let blocked: Option<Blocked> = row.get("blocked")?;
	let ephemeral_timer: EphemeralTimer = row.get("ephemeral_timer")?;
	Ok((
	id,
	chat_id,
	state,
	param,
	from_id,
	rfc724_mid,
	blocked.unwrap_or_default(),
	ephemeral_timer,
	))
	},
	\|rows\| rows.collect::<Result<Vec<_>, _>>().map_err(Into::into),
	)
	.await?;

	if msgs.iter().any(
	\|(_id, _chat_id, _state, _param, _from_id, _rfc724_mid, _blocked, ephemeral_timer)\| {
	*ephemeral_timer != EphemeralTimer::Disabled
	},
	) {
	start_ephemeral_timers_msgids(context, &msg_ids)
	.await
	.context("failed to start ephemeral timers")?;
	}

	let mut updated_chat_ids = BTreeSet::new();
	for (
	id,
	curr_chat_id,
	curr_state,
	curr_param,
	curr_from_id,
	curr_rfc724_mid,
	curr_blocked,
	_curr_ephemeral_timer,
	) in msgs
	{
	if curr_state == MessageState::InFresh \|\| curr_state == MessageState::InNoticed {
	update_msg_state(context, id, MessageState::InSeen).await?;
	info!(context, "Seen message {}.", id);

	markseen_on_imap_table(context, &curr_rfc724_mid).await?;

	// Read receipts for system messages are never sent. These messages have no place to
	// display received read receipt anyway. And since their text is locally generated,
	// quoting them is dangerous as it may contain contact names. E.g., for original message
	// "Group left by me", a read receipt will quote "Group left by <name>", and the name can
	// be a display name stored in address book rather than the name sent in the From field by
	// the user.
	//
	// We also don't send read receipts for contact requests.
	// Read receipts will not be sent even after accepting the chat.
	if curr_blocked == Blocked::Not
	&& curr_param.get_bool(Param::WantsMdn).unwrap_or_default()
	&& curr_param.get_cmd() == SystemMessage::Unknown
	{
	let mdns_enabled = context.get_config_bool(Config::MdnsEnabled).await?;
	if mdns_enabled {
	context
	.sql
	.execute(
	"INSERT INTO smtp_mdns (msg_id, from_id, rfc724_mid) VALUES(?, ?, ?)",
	(id, curr_from_id, curr_rfc724_mid),
	)
	.await
	.context("failed to insert into smtp_mdns")?;
	context.scheduler.interrupt_smtp().await;
	}
	}
	updated_chat_ids.insert(curr_chat_id);
	}
	}

	for updated_chat_id in updated_chat_ids {
	context.emit_event(EventType::MsgsNoticed(updated_chat_id));
	chatlist_events::emit_chatlist_item_changed(context, updated_chat_id);
	}

	Ok(())
	}

	pub(crate) async fn update_msg_state(
	context: &Context,
	msg_id: MsgId,
	state: MessageState,
	) -> Result<()> {
	ensure!(state != MessageState::OutFailed, "use set_msg_failed()!");
	let error_subst = match state >= MessageState::OutPending {
	true => ", error=''",
	false => "",
	};
	context
	.sql
	.execute(
	&format!("UPDATE msgs SET state=?1 {error_subst} WHERE id=?2 AND (?1!=?3 OR state<?3)"),
	(state, msg_id, MessageState::OutDelivered),
	)
	.await?;
	Ok(())
	}

	// as we do not cut inside words, this results in about 32-42 characters.
	// Do not use too long subjects - we add a tag after the subject which gets truncated by the clients otherwise.
	// It should also be very clear, the subject is _not_ the whole message.
	// The value is also used for CC:-summaries

	// Context functions to work with messages

	pub(crate) async fn set_msg_failed(
	context: &Context,
	msg: &mut Message,
	error: &str,
	) -> Result<()> {
	if msg.state.can_fail() {
	msg.state = MessageState::OutFailed;
	warn!(context, "{} failed: {}", msg.id, error);
	} else {
	warn!(
	context,
	"{} seems to have failed ({}), but state is {}", msg.id, error, msg.state
	)
	}
	msg.error = Some(error.to_string());

	context
	.sql
	.execute(
	"UPDATE msgs SET state=?, error=? WHERE id=?;",
	(msg.state, error, msg.id),
	)
	.await?;

	context.emit_event(EventType::MsgFailed {
	chat_id: msg.chat_id,
	msg_id: msg.id,
	});
	chatlist_events::emit_chatlist_item_changed(context, msg.chat_id);

	Ok(())
	}

	/// The number of messages assigned to unblocked chats
	pub async fn get_unblocked_msg_cnt(context: &Context) -> usize {
	match context
	.sql
	.count(
	"SELECT COUNT(*) \
	FROM msgs m LEFT JOIN chats c ON c.id=m.chat_id \
	WHERE m.id>9 AND m.chat_id>9 AND c.blocked=0;",
	(),
	)
	.await
	{
	Ok(res) => res,
	Err(err) => {
	error!(context, "get_unblocked_msg_cnt() failed. {:#}", err);
	0
	}
	}
	}

	/// Returns the number of messages in contact request chats.
	pub async fn get_request_msg_cnt(context: &Context) -> usize {
	match context
	.sql
	.count(
	"SELECT COUNT(*) \
	FROM msgs m LEFT JOIN chats c ON c.id=m.chat_id \
	WHERE c.blocked=2;",
	(),
	)
	.await
	{
	Ok(res) => res,
	Err(err) => {
	error!(context, "get_request_msg_cnt() failed. {:#}", err);
	0
	}
	}
	}

	/// Estimates the number of messages that will be deleted
	/// by the options `delete_device_after` or `delete_server_after`.
	/// This is typically used to show the estimated impact to the user
	/// before actually enabling deletion of old messages.
	///
	/// If `from_server` is true,
	/// estimate deletion count for server,
	/// otherwise estimate deletion count for device.
	///
	/// Count messages older than the given number of `seconds`.
	///
	/// Returns the number of messages that are older than the given number of seconds.
	/// This includes e-mails downloaded due to the `show_emails` option.
	/// Messages in the "saved messages" folder are not counted as they will not be deleted automatically.
	pub async fn estimate_deletion_cnt(
	context: &Context,
	from_server: bool,
	seconds: i64,
	) -> Result<usize> {
	let self_chat_id = ChatIdBlocked::lookup_by_contact(context, ContactId::SELF)
	.await?
	.map(\|c\| c.id)
	.unwrap_or_default();
	let threshold_timestamp = time() - seconds;

	let cnt = if from_server {
	context
	.sql
	.count(
	"SELECT COUNT(*)
	FROM msgs m
	WHERE m.id > ?
	AND timestamp < ?
	AND chat_id != ?
	AND EXISTS (SELECT * FROM imap WHERE rfc724_mid=m.rfc724_mid);",
	(DC_MSG_ID_LAST_SPECIAL, threshold_timestamp, self_chat_id),
	)
	.await?
	} else {
	context
	.sql
	.count(
	"SELECT COUNT(*)
	FROM msgs m
	WHERE m.id > ?
	AND timestamp < ?
	AND chat_id != ?
	AND chat_id != ? AND hidden = 0;",
	(
	DC_MSG_ID_LAST_SPECIAL,
	threshold_timestamp,
	self_chat_id,
	DC_CHAT_ID_TRASH,
	),
	)
	.await?
	};
	Ok(cnt)
	}

	/// See [`rfc724_mid_exists_and()`].
	pub(crate) async fn rfc724_mid_exists(
	context: &Context,
	rfc724_mid: &str,
	) -> Result<Option<(MsgId, i64)>> {
	rfc724_mid_exists_and(context, rfc724_mid, "1").await
	}

	/// Returns [MsgId] and "sent" timestamp of the message with given `rfc724_mid` (Message-ID header)
	/// if it exists in the db.
	///
	/// @param cond SQL subexpression for filtering messages.
	pub(crate) async fn rfc724_mid_exists_and(
	context: &Context,
	rfc724_mid: &str,
	cond: &str,
	) -> Result<Option<(MsgId, i64)>> {
	let rfc724_mid = rfc724_mid.trim_start_matches('<').trim_end_matches('>');
	if rfc724_mid.is_empty() {
	warn!(context, "Empty rfc724_mid passed to rfc724_mid_exists");
	return Ok(None);
	}

	let res = context
	.sql
	.query_row_optional(
	&("SELECT id, timestamp_sent FROM msgs WHERE rfc724_mid=? AND ".to_string() + cond),
	(rfc724_mid,),
	\|row\| {
	let msg_id: MsgId = row.get(0)?;
	let timestamp_sent: i64 = row.get(1)?;

	Ok((msg_id, timestamp_sent))
	},
	)
	.await?;

	Ok(res)
	}

	/// Given a list of Message-IDs, returns the latest message found in the database.
	///
	/// Only messages that are not in the trash chat are considered.
	pub(crate) async fn get_latest_by_rfc724_mids(
	context: &Context,
	mids: &[String],
	) -> Result<Option<Message>> {
	for id in mids.iter().rev() {
	if let Some((msg_id, _)) = rfc724_mid_exists(context, id).await? {
	if let Some(msg) = Message::load_from_db_optional(context, msg_id).await? {
	return Ok(Some(msg));
	}
	}
	}
	Ok(None)
	}

	/// How a message is primarily displayed.
	#[derive(
	Debug,
	Default,
	Display,
	Clone,
	Copy,
	PartialEq,
	Eq,
	FromPrimitive,
	ToPrimitive,
	FromSql,
	ToSql,
	Serialize,
	Deserialize,
	)]
	#[repr(u32)]
	pub enum Viewtype {
	/// Unknown message type.
	#[default]
	Unknown = 0,

	/// Text message.
	/// The text of the message is set using dc_msg_set_text() and retrieved with dc_msg_get_text().
	Text = 10,

	/// Image message.
	/// If the image is a GIF and has the appropriate extension, the viewtype is auto-changed to
	/// `Gif` when sending the message.
	/// File, width and height are set via dc_msg_set_file(), dc_msg_set_dimension
	/// and retrieved via dc_msg_set_file(), dc_msg_set_dimension().
	Image = 20,

	/// Animated GIF message.
	/// File, width and height are set via dc_msg_set_file(), dc_msg_set_dimension()
	/// and retrieved via dc_msg_get_file(), dc_msg_get_width(), dc_msg_get_height().
	Gif = 21,

	/// Message containing a sticker, similar to image.
	/// If possible, the ui should display the image without borders in a transparent way.
	/// A click on a sticker will offer to install the sticker set in some future.
	Sticker = 23,

	/// Message containing an Audio file.
	/// File and duration are set via dc_msg_set_file(), dc_msg_set_duration()
	/// and retrieved via dc_msg_get_file(), dc_msg_get_duration().
	Audio = 40,

	/// A voice message that was directly recorded by the user.
	/// For all other audio messages, the type #DC_MSG_AUDIO should be used.
	/// File and duration are set via dc_msg_set_file(), dc_msg_set_duration()
	/// and retrieved via dc_msg_get_file(), dc_msg_get_duration()
	Voice = 41,

	/// Video messages.
	/// File, width, height and durarion
	/// are set via dc_msg_set_file(), dc_msg_set_dimension(), dc_msg_set_duration()
	/// and retrieved via
	/// dc_msg_get_file(), dc_msg_get_width(),
	/// dc_msg_get_height(), dc_msg_get_duration().
	Video = 50,

	/// Message containing any file, eg. a PDF.
	/// The file is set via dc_msg_set_file()
	/// and retrieved via dc_msg_get_file().
	File = 60,

	/// Message is an invitation to a videochat.
	VideochatInvitation = 70,

	/// Message is an webxdc instance.
	Webxdc = 80,

	/// Message containing shared contacts represented as a vCard (virtual contact file)
	/// with email addresses and possibly other fields.
	/// Use `parse_vcard()` to retrieve them.
	Vcard = 90,
	}

	impl Viewtype {
	/// Whether a message with this [`Viewtype`] should have a file attachment.
	pub fn has_file(&self) -> bool {
	match self {
	Viewtype::Unknown => false,
	Viewtype::Text => false,
	Viewtype::Image => true,
	Viewtype::Gif => true,
	Viewtype::Sticker => true,
	Viewtype::Audio => true,
	Viewtype::Voice => true,
	Viewtype::Video => true,
	Viewtype::File => true,
	Viewtype::VideochatInvitation => false,
	Viewtype::Webxdc => true,
	Viewtype::Vcard => true,
	}
	}
	}

	#[cfg(test)]
	mod tests {
	use num_traits::FromPrimitive;

	use super::*;
	use crate::chat::{
	self, add_contact_to_chat, marknoticed_chat, send_text_msg, ChatItem, ProtectionStatus,
	};
	use crate::chatlist::Chatlist;
	use crate::config::Config;
	use crate::reaction::send_reaction;
	use crate::receive_imf::receive_imf;
	use crate::test_utils as test;
	use crate::test_utils::{TestContext, TestContextManager};

	#[test]
	fn test_guess_msgtype_from_suffix() {
	assert_eq!(
	guess_msgtype_from_suffix(Path::new("foo/bar-sth.mp3")),
	Some((Viewtype::Audio, "audio/mpeg"))
	);
	assert_eq!(
	guess_msgtype_from_suffix(Path::new("foo/file.html")),
	Some((Viewtype::File, "text/html"))
	);
	assert_eq!(
	guess_msgtype_from_suffix(Path::new("foo/file.xdc")),
	Some((Viewtype::Webxdc, "application/webxdc+zip"))
	);
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_prepare_message_and_send() {
	let d = test::TestContext::new().await;
	let ctx = &d.ctx;

	ctx.set_config(Config::ConfiguredAddr, Some("self@example.com"))
	.await
	.unwrap();

	let chat = d.create_chat_with_contact("", "dest@example.com").await;

	let mut msg = Message::new(Viewtype::Text);

	let msg_id = chat::prepare_msg(ctx, chat.id, &mut msg).await.unwrap();

	let _msg2 = Message::load_from_db(ctx, msg_id).await.unwrap();
	assert_eq!(_msg2.get_filemime(), None);
	}

	/// Tests that message can be prepared even if account has no configured address.
	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_prepare_not_configured() {
	let d = test::TestContext::new().await;
	let ctx = &d.ctx;

	let chat = d.create_chat_with_contact("", "dest@example.com").await;

	let mut msg = Message::new(Viewtype::Text);

	assert!(chat::prepare_msg(ctx, chat.id, &mut msg).await.is_ok());
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_parse_webrtc_instance() {
	let (webrtc_type, url) = Message::parse_webrtc_instance("basicwebrtc:https://foo/bar");
	assert_eq!(webrtc_type, VideochatType::BasicWebrtc);
	assert_eq!(url, "https://foo/bar");

	let (webrtc_type, url) = Message::parse_webrtc_instance("bAsIcwEbrTc:url");
	assert_eq!(webrtc_type, VideochatType::BasicWebrtc);
	assert_eq!(url, "url");

	let (webrtc_type, url) = Message::parse_webrtc_instance("https://foo/bar?key=val#key=val");
	assert_eq!(webrtc_type, VideochatType::Unknown);
	assert_eq!(url, "https://foo/bar?key=val#key=val");

	let (webrtc_type, url) = Message::parse_webrtc_instance("jitsi:https://j.si/foo");
	assert_eq!(webrtc_type, VideochatType::Jitsi);
	assert_eq!(url, "https://j.si/foo");
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_create_webrtc_instance() {
	// webrtc_instance may come from an input field of the ui, be pretty tolerant on input
	let instance = Message::create_webrtc_instance("https://meet.jit.si/", "123");
	assert_eq!(instance, "https://meet.jit.si/123");

	let instance = Message::create_webrtc_instance("https://meet.jit.si", "456");
	assert_eq!(instance, "https://meet.jit.si/456");

	let instance = Message::create_webrtc_instance("meet.jit.si", "789");
	assert_eq!(instance, "https://meet.jit.si/789");

	let instance = Message::create_webrtc_instance("bla.foo?", "123");
	assert_eq!(instance, "https://bla.foo?123");

	let instance = Message::create_webrtc_instance("jitsi:bla.foo#", "456");
	assert_eq!(instance, "jitsi:https://bla.foo#456");

	let instance = Message::create_webrtc_instance("bla.foo#room=", "789");
	assert_eq!(instance, "https://bla.foo#room=789");

	let instance = Message::create_webrtc_instance("https://bla.foo#room", "123");
	assert_eq!(instance, "https://bla.foo#room/123");

	let instance = Message::create_webrtc_instance("bla.foo#room$ROOM", "123");
	assert_eq!(instance, "https://bla.foo#room123");

	let instance = Message::create_webrtc_instance("bla.foo#room=$ROOM&after=cont", "234");
	assert_eq!(instance, "https://bla.foo#room=234&after=cont");

	let instance = Message::create_webrtc_instance(" meet.jit .si ", "789");
	assert_eq!(instance, "https://meet.jit.si/789");

	let instance = Message::create_webrtc_instance(" basicwebrtc: basic . stuff\n ", "12345ab");
	assert_eq!(instance, "basicwebrtc:https://basic.stuff/12345ab");
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_create_webrtc_instance_noroom() {
	// webrtc_instance may come from an input field of the ui, be pretty tolerant on input
	let instance = Message::create_webrtc_instance("bla.foo$NOROOM", "123");
	assert_eq!(instance, "https://bla.foo");

	let instance = Message::create_webrtc_instance(" bla . foo $NOROOM ", "456");
	assert_eq!(instance, "https://bla.foo");

	let instance = Message::create_webrtc_instance(" $NOROOM bla . foo ", "789");
	assert_eq!(instance, "https://bla.foo");

	let instance = Message::create_webrtc_instance(" bla.foo / $NOROOM ? a = b ", "123");
	assert_eq!(instance, "https://bla.foo/?a=b");

	// $ROOM has a higher precedence
	let instance = Message::create_webrtc_instance("bla.foo/?$NOROOM=$ROOM", "123");
	assert_eq!(instance, "https://bla.foo/?$NOROOM=123");
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_get_width_height() {
	let t = test::TestContext::new().await;

	// test that get_width() and get_height() are returning some dimensions for images;
	// (as the device-chat contains a welcome-images, we check that)
	t.update_device_chats().await.ok();
	let device_chat_id = ChatId::get_for_contact(&t, ContactId::DEVICE)
	.await
	.unwrap();

	let mut has_image = false;
	let chatitems = chat::get_chat_msgs(&t, device_chat_id).await.unwrap();
	for chatitem in chatitems {
	if let ChatItem::Message { msg_id } = chatitem {
	if let Ok(msg) = Message::load_from_db(&t, msg_id).await {
	if msg.get_viewtype() == Viewtype::Image {
	has_image = true;
	// just check that width/height are inside some reasonable ranges
	assert!(msg.get_width() > 100);
	assert!(msg.get_height() > 100);
	assert!(msg.get_width() < 4000);
	assert!(msg.get_height() < 4000);
	}
	}
	}
	}
	assert!(has_image);
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_quote() {
	let d = test::TestContext::new().await;
	let ctx = &d.ctx;

	ctx.set_config(Config::ConfiguredAddr, Some("self@example.com"))
	.await
	.unwrap();

	let chat = d.create_chat_with_contact("", "dest@example.com").await;

	let mut msg = Message::new(Viewtype::Text);
	msg.set_text("Quoted message".to_string());

	// Prepare message for sending, so it gets a Message-Id.
	assert!(msg.rfc724_mid.is_empty());
	let msg_id = chat::prepare_msg(ctx, chat.id, &mut msg).await.unwrap();
	let msg = Message::load_from_db(ctx, msg_id).await.unwrap();
	assert!(!msg.rfc724_mid.is_empty());

	let mut msg2 = Message::new(Viewtype::Text);
	msg2.set_quote(ctx, Some(&msg))
	.await
	.expect("can't set quote");
	assert_eq!(msg2.quoted_text().unwrap(), msg.get_text());

	let quoted_msg = msg2
	.quoted_message(ctx)
	.await
	.expect("error while retrieving quoted message")
	.expect("quoted message not found");
	assert_eq!(quoted_msg.get_text(), msg2.quoted_text().unwrap());
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_unencrypted_quote_encrypted_message() -> Result<()> {
	let mut tcm = TestContextManager::new();

	let alice = &tcm.alice().await;
	let bob = &tcm.bob().await;

	let alice_group = alice
	.create_group_with_members(ProtectionStatus::Unprotected, "Group chat", &[bob])
	.await;
	let sent = alice.send_text(alice_group, "Hi! I created a group").await;
	let bob_received_message = bob.recv_msg(&sent).await;

	let bob_group = bob_received_message.chat_id;
	bob_group.accept(bob).await?;
	let sent = bob.send_text(bob_group, "Encrypted message").await;
	let alice_received_message = alice.recv_msg(&sent).await;
	assert!(alice_received_message.get_showpadlock());

	// Alice adds contact without key so chat becomes unencrypted.
	let alice_flubby_contact_id =
	Contact::create(alice, "Flubby", "flubby@example.org").await?;
	add_contact_to_chat(alice, alice_group, alice_flubby_contact_id).await?;

	// Alice quotes encrypted message in unencrypted chat.
	let mut msg = Message::new(Viewtype::Text);
	msg.set_quote(alice, Some(&alice_received_message)).await?;
	chat::send_msg(alice, alice_group, &mut msg).await?;

	let bob_received_message = bob.recv_msg(&alice.pop_sent_msg().await).await;
	assert_eq!(bob_received_message.quoted_text().unwrap(), "...");
	assert_eq!(bob_received_message.get_showpadlock(), false);

	Ok(())
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_get_chat_id() {
	// Alice receives a message that pops up as a contact request
	let alice = TestContext::new_alice().await;
	receive_imf(
	&alice,
	b"From: Bob <bob@example.com>\n\
	To: alice@example.org\n\
	Chat-Version: 1.0\n\
	Message-ID: <123@example.com>\n\
	Date: Fri, 29 Jan 2021 21:37:55 +0000\n\
	\n\
	hello\n",
	false,
	)
	.await
	.unwrap();

	// check chat-id of this message
	let msg = alice.get_last_msg().await;
	assert!(!msg.get_chat_id().is_special());
	assert_eq!(msg.get_text(), "hello".to_string());
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_set_override_sender_name() {
	// send message with overridden sender name
	let alice = TestContext::new_alice().await;
	let alice2 = TestContext::new_alice().await;
	let bob = TestContext::new_bob().await;
	let chat = alice.create_chat(&bob).await;
	let contact_id = *chat::get_chat_contacts(&alice, chat.id)
	.await
	.unwrap()
	.first()
	.unwrap();
	let contact = Contact::get_by_id(&alice, contact_id).await.unwrap();

	let mut msg = Message::new(Viewtype::Text);
	msg.set_text("bla blubb".to_string());
	msg.set_override_sender_name(Some("over ride".to_string()));
	assert_eq!(
	msg.get_override_sender_name(),
	Some("over ride".to_string())
	);
	assert_eq!(msg.get_sender_name(&contact), "over ride".to_string());
	assert_ne!(contact.get_display_name(), "over ride".to_string());
	chat::send_msg(&alice, chat.id, &mut msg).await.unwrap();
	let sent_msg = alice.pop_sent_msg().await;

	// bob receives that message
	let chat = bob.create_chat(&alice).await;
	let contact_id = *chat::get_chat_contacts(&bob, chat.id)
	.await
	.unwrap()
	.first()
	.unwrap();
	let contact = Contact::get_by_id(&bob, contact_id).await.unwrap();
	let msg = bob.recv_msg(&sent_msg).await;
	assert_eq!(msg.chat_id, chat.id);
	assert_eq!(msg.text, "bla blubb");
	assert_eq!(
	msg.get_override_sender_name(),
	Some("over ride".to_string())
	);
	assert_eq!(msg.get_sender_name(&contact), "over ride".to_string());
	assert_ne!(contact.get_display_name(), "over ride".to_string());

	// explicitly check that the message does not create a mailing list
	// (mailing lists may also use `Sender:`-header)
	let chat = Chat::load_from_db(&bob, msg.chat_id).await.unwrap();
	assert_ne!(chat.typ, Chattype::Mailinglist);

	// Alice receives message on another device.
	let msg = alice2.recv_msg(&sent_msg).await;
	assert_eq!(
	msg.get_override_sender_name(),
	Some("over ride".to_string())
	);
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_markseen_msgs() -> Result<()> {
	let alice = TestContext::new_alice().await;
	let bob = TestContext::new_bob().await;
	let alice_chat = alice.create_chat(&bob).await;
	let mut msg = Message::new(Viewtype::Text);
	msg.set_text("this is the text!".to_string());

	// alice sends to bob,
	assert_eq!(Chatlist::try_load(&bob, 0, None, None).await?.len(), 0);
	let sent1 = alice.send_msg(alice_chat.id, &mut msg).await;
	let msg1 = bob.recv_msg(&sent1).await;
	let bob_chat_id = msg1.chat_id;
	let sent2 = alice.send_msg(alice_chat.id, &mut msg).await;
	let msg2 = bob.recv_msg(&sent2).await;
	assert_eq!(msg1.chat_id, msg2.chat_id);
	let chats = Chatlist::try_load(&bob, 0, None, None).await?;
	assert_eq!(chats.len(), 1);
	let msgs = chat::get_chat_msgs(&bob, bob_chat_id).await?;
	assert_eq!(msgs.len(), 2);
	assert_eq!(bob.get_fresh_msgs().await?.len(), 0);

	// that has no effect in contact request
	markseen_msgs(&bob, vec![msg1.id, msg2.id]).await?;

	assert_eq!(Chatlist::try_load(&bob, 0, None, None).await?.len(), 1);
	let bob_chat = Chat::load_from_db(&bob, bob_chat_id).await?;
	assert_eq!(bob_chat.blocked, Blocked::Request);

	let msgs = chat::get_chat_msgs(&bob, bob_chat_id).await?;
	assert_eq!(msgs.len(), 2);
	bob_chat_id.accept(&bob).await.unwrap();

	// bob sends to alice,
	// alice knows bob and messages appear in normal chat
	let msg1 = alice
	.recv_msg(&bob.send_msg(bob_chat_id, &mut msg).await)
	.await;
	let msg2 = alice
	.recv_msg(&bob.send_msg(bob_chat_id, &mut msg).await)
	.await;
	let chats = Chatlist::try_load(&alice, 0, None, None).await?;
	assert_eq!(chats.len(), 1);
	assert_eq!(chats.get_chat_id(0)?, alice_chat.id);
	assert_eq!(chats.get_chat_id(0)?, msg1.chat_id);
	assert_eq!(chats.get_chat_id(0)?, msg2.chat_id);
	assert_eq!(alice_chat.id.get_fresh_msg_cnt(&alice).await?, 2);
	assert_eq!(alice.get_fresh_msgs().await?.len(), 2);

	// no message-ids, that should have no effect
	markseen_msgs(&alice, vec![]).await?;

	// bad message-id, that should have no effect
	markseen_msgs(&alice, vec![MsgId::new(123456)]).await?;

	assert_eq!(alice_chat.id.get_fresh_msg_cnt(&alice).await?, 2);
	assert_eq!(alice.get_fresh_msgs().await?.len(), 2);

	// mark the most recent as seen
	markseen_msgs(&alice, vec![msg2.id]).await?;

	assert_eq!(alice_chat.id.get_fresh_msg_cnt(&alice).await?, 1);
	assert_eq!(alice.get_fresh_msgs().await?.len(), 1);

	// user scrolled up - mark both as seen
	markseen_msgs(&alice, vec![msg1.id, msg2.id]).await?;

	assert_eq!(alice_chat.id.get_fresh_msg_cnt(&alice).await?, 0);
	assert_eq!(alice.get_fresh_msgs().await?.len(), 0);

	Ok(())
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_get_state() -> Result<()> {
	let alice = TestContext::new_alice().await;
	let bob = TestContext::new_bob().await;
	let alice_chat = alice.create_chat(&bob).await;
	let bob_chat = bob.create_chat(&alice).await;

	// check both get_state() functions,
	// the one requiring a id and the one requiring an object
	async fn assert_state(t: &Context, msg_id: MsgId, state: MessageState) {
	assert_eq!(msg_id.get_state(t).await.unwrap(), state);
	assert_eq!(
	Message::load_from_db(t, msg_id).await.unwrap().get_state(),
	state
	);
	}

	// check outgoing messages states on sender side
	let mut alice_msg = Message::new(Viewtype::Text);
	alice_msg.set_text("hi!".to_string());
	assert_eq!(alice_msg.get_state(), MessageState::Undefined); // message not yet in db, assert_state() won't work

	alice_chat
	.id
	.set_draft(&alice, Some(&mut alice_msg))
	.await?;
	let mut alice_msg = alice_chat.id.get_draft(&alice).await?.unwrap();
	assert_state(&alice, alice_msg.id, MessageState::OutDraft).await;

	let msg_id = chat::send_msg(&alice, alice_chat.id, &mut alice_msg).await?;
	assert_eq!(msg_id, alice_msg.id);
	assert_state(&alice, alice_msg.id, MessageState::OutPending).await;

	let payload = alice.pop_sent_msg().await;
	assert_state(&alice, alice_msg.id, MessageState::OutDelivered).await;

	update_msg_state(&alice, alice_msg.id, MessageState::OutMdnRcvd).await?;
	assert_state(&alice, alice_msg.id, MessageState::OutMdnRcvd).await;

	set_msg_failed(&alice, &mut alice_msg, "badly failed").await?;
	assert_state(&alice, alice_msg.id, MessageState::OutFailed).await;

	// check incoming message states on receiver side
	let bob_msg = bob.recv_msg(&payload).await;
	assert_eq!(bob_chat.id, bob_msg.chat_id);
	assert_state(&bob, bob_msg.id, MessageState::InFresh).await;

	marknoticed_chat(&bob, bob_msg.chat_id).await?;
	assert_state(&bob, bob_msg.id, MessageState::InNoticed).await;

	markseen_msgs(&bob, vec![bob_msg.id]).await?;
	assert_state(&bob, bob_msg.id, MessageState::InSeen).await;

	Ok(())
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_is_bot() -> Result<()> {
	let alice = TestContext::new_alice().await;

	// Alice receives a message from Bob the bot.
	receive_imf(
	&alice,
	b"From: Bob <bob@example.com>\n\
	To: alice@example.org\n\
	Chat-Version: 1.0\n\
	Message-ID: <123@example.com>\n\
	Auto-Submitted: auto-generated\n\
	Date: Fri, 29 Jan 2021 21:37:55 +0000\n\
	\n\
	hello\n",
	false,
	)
	.await?;
	let msg = alice.get_last_msg().await;
	assert_eq!(msg.get_text(), "hello".to_string());
	assert!(msg.is_bot());
	let contact = Contact::get_by_id(&alice, msg.from_id).await?;
	assert!(contact.is_bot());

	// Alice receives a message from Bob who is not the bot anymore.
	receive_imf(
	&alice,
	b"From: Bob <bob@example.com>\n\
	To: alice@example.org\n\
	Chat-Version: 1.0\n\
	Message-ID: <456@example.com>\n\
	Date: Fri, 29 Jan 2021 21:37:55 +0000\n\
	\n\
	hello again\n",
	false,
	)
	.await?;
	let msg = alice.get_last_msg().await;
	assert_eq!(msg.get_text(), "hello again".to_string());
	assert!(!msg.is_bot());
	let contact = Contact::get_by_id(&alice, msg.from_id).await?;
	assert!(!contact.is_bot());

	Ok(())
	}

	#[test]
	fn test_viewtype_derive_display_works_as_expected() {
	assert_eq!(format!("{}", Viewtype::Audio), "Audio");
	}

	#[test]
	fn test_viewtype_values() {
	// values may be written to disk and must not change
	assert_eq!(Viewtype::Unknown, Viewtype::default());
	assert_eq!(Viewtype::Unknown, Viewtype::from_i32(0).unwrap());
	assert_eq!(Viewtype::Text, Viewtype::from_i32(10).unwrap());
	assert_eq!(Viewtype::Image, Viewtype::from_i32(20).unwrap());
	assert_eq!(Viewtype::Gif, Viewtype::from_i32(21).unwrap());
	assert_eq!(Viewtype::Sticker, Viewtype::from_i32(23).unwrap());
	assert_eq!(Viewtype::Audio, Viewtype::from_i32(40).unwrap());
	assert_eq!(Viewtype::Voice, Viewtype::from_i32(41).unwrap());
	assert_eq!(Viewtype::Video, Viewtype::from_i32(50).unwrap());
	assert_eq!(Viewtype::File, Viewtype::from_i32(60).unwrap());
	assert_eq!(
	Viewtype::VideochatInvitation,
	Viewtype::from_i32(70).unwrap()
	);
	assert_eq!(Viewtype::Webxdc, Viewtype::from_i32(80).unwrap());
	assert_eq!(Viewtype::Vcard, Viewtype::from_i32(90).unwrap());
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_send_quotes() -> Result<()> {
	let alice = TestContext::new_alice().await;
	let bob = TestContext::new_bob().await;
	let chat = alice.create_chat(&bob).await;

	let sent = alice.send_text(chat.id, "> First quote").await;
	let received = bob.recv_msg(&sent).await;
	assert_eq!(received.text, "> First quote");
	assert!(received.quoted_text().is_none());
	assert!(received.quoted_message(&bob).await?.is_none());

	let sent = alice.send_text(chat.id, "> Second quote").await;
	let received = bob.recv_msg(&sent).await;
	assert_eq!(received.text, "> Second quote");
	assert!(received.quoted_text().is_none());
	assert!(received.quoted_message(&bob).await?.is_none());

	Ok(())
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_get_message_summary_text() -> Result<()> {
	let t = TestContext::new_alice().await;
	let chat = t.get_self_chat().await;
	let msg_id = send_text_msg(&t, chat.id, "foo".to_string()).await?;
	let msg = Message::load_from_db(&t, msg_id).await?;
	let summary = msg.get_summary(&t, None).await?;
	assert_eq!(summary.text, "foo");

	// message summary does not change when reactions are applied (in contrast to chatlist summary)
	send_reaction(&t, msg_id, "🫵").await?;
	let msg = Message::load_from_db(&t, msg_id).await?;
	let summary = msg.get_summary(&t, None).await?;
	assert_eq!(summary.text, "foo");

	Ok(())
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_format_flowed_round_trip() -> Result<()> {
	let mut tcm = TestContextManager::new();
	let alice = tcm.alice().await;
	let bob = tcm.bob().await;
	let chat = alice.create_chat(&bob).await;

	let text = " Foo bar";
	let sent = alice.send_text(chat.id, text).await;
	let received = bob.recv_msg(&sent).await;
	assert_eq!(received.text, text);

	let text = "Foo bar baz";
	let sent = alice.send_text(chat.id, text).await;
	let received = bob.recv_msg(&sent).await;
	assert_eq!(received.text, text);

	let text = "> xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx > A";
	let sent = alice.send_text(chat.id, text).await;
	let received = bob.recv_msg(&sent).await;
	assert_eq!(received.text, text);

	let python_program = "\
	def hello():
	return 'Hello, world!'";
	let sent = alice.send_text(chat.id, python_program).await;
	let received = bob.recv_msg(&sent).await;
	assert_eq!(received.text, python_program);

	Ok(())
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_delete_msgs_offline() -> Result<()> {
	let alice = TestContext::new_alice().await;
	let chat = alice
	.create_chat_with_contact("Bob", "bob@example.org")
	.await;
	let mut msg = Message::new(Viewtype::Text);
	msg.set_text("hi".to_string());
	assert!(chat::send_msg_sync(&alice, chat.id, &mut msg)
	.await
	.is_err());
	let stmt = "SELECT COUNT(*) FROM smtp WHERE msg_id=?";
	assert!(alice.sql.exists(stmt, (msg.id,)).await?);
	delete_msgs(&alice, &[msg.id]).await?;
	assert!(!alice.sql.exists(stmt, (msg.id,)).await?);

	Ok(())
	}
	}