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	//! # IMAP handling module.
	//!
	//! uses [async-email/async-imap](https://github.com/async-email/async-imap)
	//! to implement connect, fetch, delete functionality with standard IMAP servers.

	use std::{
	cmp::max,
	cmp::min,
	collections::{BTreeMap, BTreeSet, HashMap},
	iter::Peekable,
	mem::take,
	sync::atomic::Ordering,
	time::{Duration, UNIX_EPOCH},
	};

	use anyhow::{bail, format_err, Context as _, Result};
	use async_channel::Receiver;
	use async_imap::types::{Fetch, Flag, Name, NameAttribute, UnsolicitedResponse};
	use deltachat_contact_tools::{normalize_name, ContactAddress};
	use futures::{FutureExt as _, StreamExt, TryStreamExt};
	use futures_lite::FutureExt;
	use num_traits::FromPrimitive;
	use rand::Rng;
	use ratelimit::Ratelimit;
	use url::Url;

	use crate::chat::{self, ChatId, ChatIdBlocked};
	use crate::chatlist_events;
	use crate::config::Config;
	use crate::constants::{self, Blocked, Chattype, ShowEmails};
	use crate::contact::{Contact, ContactId, Modifier, Origin};
	use crate::context::Context;
	use crate::events::EventType;
	use crate::headerdef::{HeaderDef, HeaderDefMap};
	use crate::login_param::{CertificateChecks, LoginParam, ServerLoginParam};
	use crate::message::{self, Message, MessageState, MessengerMessage, MsgId, Viewtype};
	use crate::mimeparser;
	use crate::oauth2::get_oauth2_access_token;
	use crate::provider::Socket;
	use crate::receive_imf::{
	from_field_to_contact_id, get_prefetch_parent_message, receive_imf_inner, ReceivedMsg,
	};
	use crate::scheduler::connectivity::ConnectivityStore;
	use crate::socks::Socks5Config;
	use crate::sql;
	use crate::stock_str;
	use crate::tools::{self, create_id, duration_to_str};

	pub(crate) mod capabilities;
	mod client;
	mod idle;
	pub mod scan_folders;
	pub mod select_folder;
	pub(crate) mod session;

	use client::Client;
	use mailparse::SingleInfo;
	use session::Session;

	pub(crate) const GENERATED_PREFIX: &str = "GEN_";

	const RFC724MID_UID: &str = "(UID BODY.PEEK[HEADER.FIELDS (\
	MESSAGE-ID \
	X-MICROSOFT-ORIGINAL-MESSAGE-ID\
	)])";
	const BODY_FULL: &str = "(FLAGS BODY.PEEK[])";
	const BODY_PARTIAL: &str = "(FLAGS RFC822.SIZE BODY.PEEK[HEADER])";

	#[derive(Debug)]
	pub(crate) struct Imap {
	pub(crate) idle_interrupt_receiver: Receiver<()>,

	/// Email address.
	addr: String,

	/// Login parameters.
	lp: ServerLoginParam,

	/// SOCKS 5 configuration.
	socks5_config: Option<Socks5Config>,
	strict_tls: bool,

	login_failed_once: bool,

	pub(crate) connectivity: ConnectivityStore,

	conn_last_try: tools::Time,
	conn_backoff_ms: u64,

	/// Rate limit for successful IMAP connections.
	///
	/// This rate limit prevents busy loop in case the server refuses logins
	/// or in case connection gets dropped over and over due to IMAP bug,
	/// e.g. the server returning invalid response to SELECT command
	/// immediately after logging in or returning an error in response to LOGIN command
	/// due to internal server error.
	ratelimit: Ratelimit,
	}

	#[derive(Debug)]
	struct OAuth2 {
	user: String,
	access_token: String,
	}

	#[derive(Debug)]
	pub(crate) struct ServerMetadata {
	/// IMAP METADATA `/shared/comment` as defined in
	/// <https://www.rfc-editor.org/rfc/rfc5464#section-6.2.1>.
	pub comment: Option<String>,

	/// IMAP METADATA `/shared/admin` as defined in
	/// <https://www.rfc-editor.org/rfc/rfc5464#section-6.2.2>.
	pub admin: Option<String>,

	pub iroh_relay: Option<Url>,
	}

	impl async_imap::Authenticator for OAuth2 {
	type Response = String;

	fn process(&mut self, _data: &[u8]) -> Self::Response {
	format!(
	"user={}\x01auth=Bearer {}\x01\x01",
	self.user, self.access_token
	)
	}
	}

	#[derive(Debug, Display, PartialEq, Eq, Clone, Copy)]
	pub enum FolderMeaning {
	Unknown,

	/// Spam folder.
	Spam,
	Inbox,
	Mvbox,
	Sent,
	Trash,
	Drafts,

	/// Virtual folders.
	///
	/// On Gmail there are virtual folders marked as \\All, \\Important and \\Flagged.
	/// Delta Chat ignores these folders because the same messages can be fetched
	/// from the real folder and the result of moving and deleting messages via
	/// virtual folder is unclear.
	Virtual,
	}

	impl FolderMeaning {
	pub fn to_config(self) -> Option<Config> {
	match self {
	FolderMeaning::Unknown => None,
	FolderMeaning::Spam => None,
	FolderMeaning::Inbox => Some(Config::ConfiguredInboxFolder),
	FolderMeaning::Mvbox => Some(Config::ConfiguredMvboxFolder),
	FolderMeaning::Sent => Some(Config::ConfiguredSentboxFolder),
	FolderMeaning::Trash => Some(Config::ConfiguredTrashFolder),
	FolderMeaning::Drafts => None,
	FolderMeaning::Virtual => None,
	}
	}
	}

	struct UidGrouper<T: Iterator<Item = (i64, u32, String)>> {
	inner: Peekable<T>,
	}

	impl<T, I> From<I> for UidGrouper<T>
	where
	T: Iterator<Item = (i64, u32, String)>,
	I: IntoIterator<IntoIter = T>,
	{
	fn from(inner: I) -> Self {
	Self {
	inner: inner.into_iter().peekable(),
	}
	}
	}

	impl<T: Iterator<Item = (i64, u32, String)>> Iterator for UidGrouper<T> {
	// Tuple of folder, row IDs, and UID range as a string.
	type Item = (String, Vec<i64>, String);

	fn next(&mut self) -> Option<Self::Item> {
	let (_, _, folder) = self.inner.peek().cloned()?;

	let mut uid_set = String::new();
	let mut rowid_set = Vec::new();

	while uid_set.len() < 1000 {
	// Construct a new range.
	if let Some((start_rowid, start_uid, _)) = self
	.inner
	.next_if(\|(_, _, start_folder)\| start_folder == &folder)
	{
	rowid_set.push(start_rowid);
	let mut end_uid = start_uid;

	while let Some((next_rowid, next_uid, _)) =
	self.inner.next_if(\|(_, next_uid, next_folder)\| {
	next_folder == &folder && (next_uid == end_uid + 1 \|\| next_uid == end_uid)
	})
	{
	end_uid = next_uid;
	rowid_set.push(next_rowid);
	}

	let uid_range = UidRange {
	start: start_uid,
	end: end_uid,
	};
	if !uid_set.is_empty() {
	uid_set.push(',');
	}
	uid_set.push_str(&uid_range.to_string());
	} else {
	break;
	}
	}

	Some((folder, rowid_set, uid_set))
	}
	}

	impl Imap {
	/// Creates new disconnected IMAP client using the specific login parameters.
	///
	/// `addr` is used to renew token if OAuth2 authentication is used.
	pub fn new(
	lp: &ServerLoginParam,
	socks5_config: Option<Socks5Config>,
	addr: &str,
	provider_strict_tls: bool,
	idle_interrupt_receiver: Receiver<()>,
	) -> Result<Self> {
	if lp.server.is_empty() \|\| lp.user.is_empty() \|\| lp.password.is_empty() {
	bail!("Incomplete IMAP connection parameters");
	}

	let strict_tls = match lp.certificate_checks {
	CertificateChecks::Automatic => provider_strict_tls,
	CertificateChecks::Strict => true,
	CertificateChecks::AcceptInvalidCertificates
	\| CertificateChecks::AcceptInvalidCertificates2 => false,
	};

	let imap = Imap {
	idle_interrupt_receiver,
	addr: addr.to_string(),
	lp: lp.clone(),
	socks5_config,
	strict_tls,
	login_failed_once: false,
	connectivity: Default::default(),
	conn_last_try: UNIX_EPOCH,
	conn_backoff_ms: 0,
	// 1 connection per minute + a burst of 2.
	ratelimit: Ratelimit::new(Duration::new(120, 0), 2.0),
	};

	Ok(imap)
	}

	/// Creates new disconnected IMAP client using configured parameters.
	pub async fn new_configured(
	context: &Context,
	idle_interrupt_receiver: Receiver<()>,
	) -> Result<Self> {
	if !context.is_configured().await? {
	bail!("IMAP Connect without configured params");
	}

	let param = LoginParam::load_configured_params(context).await?;
	// the trailing underscore is correct

	let imap = Self::new(
	&param.imap,
	param.socks5_config.clone(),
	&param.addr,
	param
	.provider
	.map_or(param.socks5_config.is_some(), \|provider\| {
	provider.opt.strict_tls
	}),
	idle_interrupt_receiver,
	)?;
	Ok(imap)
	}

	/// Connects or reconnects if needed.
	///
	/// It is safe to call this function if already connected, actions are performed only as needed.
	///
	/// Calling this function is not enough to perform IMAP operations. Use [`Imap::prepare`]
	/// instead if you are going to actually use connection rather than trying connection
	/// parameters.
	pub(crate) async fn connect(&mut self, context: &Context) -> Result<Session> {
	if self.lp.server.is_empty() {
	bail!("IMAP operation attempted while it is torn down");
	}

	let now = tools::Time::now();
	let until_can_send = max(
	min(self.conn_last_try, now)
	.checked_add(Duration::from_millis(self.conn_backoff_ms))
	.unwrap_or(now),
	now,
	)
	.duration_since(now)?;
	let ratelimit_duration = max(until_can_send, self.ratelimit.until_can_send());
	if !ratelimit_duration.is_zero() {
	warn!(
	context,
	"IMAP got rate limited, waiting for {} until can connect",
	duration_to_str(ratelimit_duration),
	);
	let interrupted = async {
	tokio::time::sleep(ratelimit_duration).await;
	false
	}
	.race(self.idle_interrupt_receiver.recv().map(\|_\| true))
	.await;
	if interrupted {
	info!(
	context,
	"Connecting to IMAP without waiting for ratelimit due to interrupt."
	);
	}
	}

	info!(context, "Connecting to IMAP server");
	self.connectivity.set_connecting(context).await;

	self.conn_last_try = tools::Time::now();
	const BACKOFF_MIN_MS: u64 = 2000;
	const BACKOFF_MAX_MS: u64 = 80_000;
	self.conn_backoff_ms = min(self.conn_backoff_ms, BACKOFF_MAX_MS / 2);
	self.conn_backoff_ms = self.conn_backoff_ms.saturating_add(
	rand::thread_rng().gen_range((self.conn_backoff_ms / 2)..=self.conn_backoff_ms),
	);
	self.conn_backoff_ms = max(BACKOFF_MIN_MS, self.conn_backoff_ms);

	let connection_res: Result<Client> =
	if self.lp.security == Socket::Starttls \|\| self.lp.security == Socket::Plain {
	let imap_server: &str = self.lp.server.as_ref();
	let imap_port = self.lp.port;

	if let Some(socks5_config) = &self.socks5_config {
	if self.lp.security == Socket::Starttls {
	Client::connect_starttls_socks5(
	context,
	imap_server,
	imap_port,
	socks5_config.clone(),
	self.strict_tls,
	)
	.await
	} else {
	Client::connect_insecure_socks5(
	context,
	imap_server,
	imap_port,
	socks5_config.clone(),
	)
	.await
	}
	} else if self.lp.security == Socket::Starttls {
	Client::connect_starttls(context, imap_server, imap_port, self.strict_tls).await
	} else {
	Client::connect_insecure(context, imap_server, imap_port).await
	}
	} else {
	let imap_server: &str = self.lp.server.as_ref();
	let imap_port = self.lp.port;

	if let Some(socks5_config) = &self.socks5_config {
	Client::connect_secure_socks5(
	context,
	imap_server,
	imap_port,
	self.strict_tls,
	socks5_config.clone(),
	)
	.await
	} else {
	Client::connect_secure(context, imap_server, imap_port, self.strict_tls).await
	}
	};
	let client = connection_res?;
	self.conn_backoff_ms = BACKOFF_MIN_MS;
	self.ratelimit.send();

	let imap_user: &str = self.lp.user.as_ref();
	let imap_pw: &str = self.lp.password.as_ref();
	let oauth2 = self.lp.oauth2;

	let login_res = if oauth2 {
	info!(context, "Logging into IMAP server with OAuth 2");
	let addr: &str = self.addr.as_ref();

	let token = get_oauth2_access_token(context, addr, imap_pw, true)
	.await?
	.context("IMAP could not get OAUTH token")?;
	let auth = OAuth2 {
	user: imap_user.into(),
	access_token: token,
	};
	client.authenticate("XOAUTH2", auth).await
	} else {
	info!(context, "Logging into IMAP server with LOGIN");
	client.login(imap_user, imap_pw).await
	};

	match login_res {
	Ok(session) => {
	// Store server ID in the context to display in account info.
	let mut lock = context.server_id.write().await;
	lock.clone_from(&session.capabilities.server_id);

	self.login_failed_once = false;
	context.emit_event(EventType::ImapConnected(format!(
	"IMAP-LOGIN as {}",
	self.lp.user
	)));
	self.connectivity.set_connected(context).await;
	info!(context, "Successfully logged into IMAP server");
	Ok(session)
	}

	Err(err) => {
	let imap_user = self.lp.user.to_owned();
	let message = stock_str::cannot_login(context, &imap_user).await;

	warn!(context, "{} ({:#})", message, err);

	let lock = context.wrong_pw_warning_mutex.lock().await;
	if self.login_failed_once
	&& err.to_string().to_lowercase().contains("authentication")
	&& context.get_config_bool(Config::NotifyAboutWrongPw).await?
	{
	if let Err(e) = context
	.set_config_internal(Config::NotifyAboutWrongPw, None)
	.await
	{
	warn!(context, "{:#}", e);
	}
	drop(lock);

	let mut msg = Message::new(Viewtype::Text);
	msg.text.clone_from(&message);
	if let Err(e) =
	chat::add_device_msg_with_importance(context, None, Some(&mut msg), true)
	.await
	{
	warn!(context, "{:#}", e);
	}
	} else {
	self.login_failed_once = true;
	}

	Err(format_err!("{}\n\n{:#}", message, err))
	}
	}
	}

	/// Prepare for IMAP operation.
	///
	/// Ensure that IMAP client is connected, folders are created and IMAP capabilities are
	/// determined.
	pub(crate) async fn prepare(&mut self, context: &Context) -> Result<Session> {
	let mut session = match self.connect(context).await {
	Ok(session) => session,
	Err(err) => {
	self.connectivity.set_err(context, &err).await;
	return Err(err);
	}
	};

	let folders_configured = context
	.sql
	.get_raw_config_int(constants::DC_FOLDERS_CONFIGURED_KEY)
	.await?;
	if folders_configured.unwrap_or_default() < constants::DC_FOLDERS_CONFIGURED_VERSION {
	let create_mvbox = true;
	self.configure_folders(context, &mut session, create_mvbox)
	.await?;
	}

	Ok(session)
	}

	/// FETCH-MOVE-DELETE iteration.
	///
	/// Prefetches headers and downloads new message from the folder, moves messages away from the
	/// folder and deletes messages in the folder.
	pub async fn fetch_move_delete(
	&mut self,
	context: &Context,
	session: &mut Session,
	watch_folder: &str,
	folder_meaning: FolderMeaning,
	) -> Result<()> {
	if !context.sql.is_open().await {
	// probably shutdown
	bail!("IMAP operation attempted while it is torn down");
	}

	let msgs_fetched = self
	.fetch_new_messages(context, session, watch_folder, folder_meaning, false)
	.await
	.context("fetch_new_messages")?;
	if msgs_fetched && context.get_config_delete_device_after().await?.is_some() {
	// New messages were fetched and shall be deleted later, restart ephemeral loop.
	// Note that the `Config::DeleteDeviceAfter` timer starts as soon as the messages are
	// fetched while the per-chat ephemeral timers start as soon as the messages are marked
	// as noticed.
	context.scheduler.interrupt_ephemeral_task().await;
	}

	session
	.move_delete_messages(context, watch_folder)
	.await
	.context("move_delete_messages")?;

	Ok(())
	}

	/// Fetches new messages.
	///
	/// Returns true if at least one message was fetched.
	pub(crate) async fn fetch_new_messages(
	&mut self,
	context: &Context,
	session: &mut Session,
	folder: &str,
	folder_meaning: FolderMeaning,
	fetch_existing_msgs: bool,
	) -> Result<bool> {
	if should_ignore_folder(context, folder, folder_meaning).await? {
	info!(context, "Not fetching from {folder:?}.");
	return Ok(false);
	}

	let new_emails = session
	.select_with_uidvalidity(context, folder)
	.await
	.with_context(\|\| format!("Failed to select folder {folder:?}"))?;

	if !new_emails && !fetch_existing_msgs {
	info!(context, "No new emails in folder {folder:?}.");
	return Ok(false);
	}

	let uid_validity = get_uidvalidity(context, folder).await?;
	let old_uid_next = get_uid_next(context, folder).await?;

	let msgs = if fetch_existing_msgs {
	session
	.prefetch_existing_msgs()
	.await
	.context("prefetch_existing_msgs")?
	} else {
	session.prefetch(old_uid_next).await.context("prefetch")?
	};
	let read_cnt = msgs.len();

	let download_limit = context.download_limit().await?;
	let mut uids_fetch = Vec::<(_, bool /* partially? */)>::with_capacity(msgs.len() + 1);
	let mut uid_message_ids = BTreeMap::new();
	let mut largest_uid_skipped = None;
	let delete_target = context.get_delete_msgs_target().await?;

	// Store the info about IMAP messages in the database.
	for (uid, ref fetch_response) in msgs {
	let headers = match get_fetch_headers(fetch_response) {
	Ok(headers) => headers,
	Err(err) => {
	warn!(context, "Failed to parse FETCH headers: {err:#}.");
	continue;
	}
	};

	let message_id = prefetch_get_message_id(&headers);

	// Determine the target folder where the message should be moved to.
	//
	// If we have seen the message on the IMAP server before, do not move it.
	// This is required to avoid infinite MOVE loop on IMAP servers
	// that alias `DeltaChat` folder to other names.
	// For example, some Dovecot servers alias `DeltaChat` folder to `INBOX.DeltaChat`.
	// In this case Delta Chat configured with `DeltaChat` as the destination folder
	// would detect messages in the `INBOX.DeltaChat` folder
	// and try to move them to the `DeltaChat` folder.
	// Such move to the same folder results in the messages
	// getting a new UID, so the messages will be detected as new
	// in the `INBOX.DeltaChat` folder again.
	let _target;
	let target = if let Some(message_id) = &message_id {
	let is_dup = if let Some((_, ts_sent_old)) =
	message::rfc724_mid_exists(context, message_id).await?
	{
	let is_chat_msg = headers.get_header_value(HeaderDef::ChatVersion).is_some();
	let ts_sent = headers
	.get_header_value(HeaderDef::Date)
	.and_then(\|v\| mailparse::dateparse(&v).ok())
	.unwrap_or_default();
	is_dup_msg(is_chat_msg, ts_sent, ts_sent_old)
	} else {
	false
	};
	if is_dup {
	info!(context, "Deleting duplicate message {message_id}.");
	&delete_target
	} else if context
	.sql
	.exists(
	"SELECT COUNT (*) FROM imap WHERE rfc724_mid=?",
	(message_id,),
	)
	.await?
	{
	info!(
	context,
	"Not moving the message {} that we have seen before.", &message_id
	);
	folder
	} else {
	_target = target_folder(context, folder, folder_meaning, &headers).await?;
	&_target
	}
	} else {
	// Do not move the messages without Message-ID.
	// We cannot reliably determine if we have seen them before,
	// so it is safer not to move them.
	warn!(
	context,
	"Not moving the message that does not have a Message-ID."
	);
	folder
	};

	// Generate a fake Message-ID to identify the message in the database
	// if the message has no real Message-ID.
	let message_id = message_id.unwrap_or_else(create_message_id);

	context
	.sql
	.execute(
	"INSERT INTO imap (rfc724_mid, folder, uid, uidvalidity, target)
	VALUES (?1, ?2, ?3, ?4, ?5)
	ON CONFLICT(folder, uid, uidvalidity)
	DO UPDATE SET rfc724_mid=excluded.rfc724_mid,
	target=excluded.target",
	(&message_id, &folder, uid, uid_validity, target),
	)
	.await?;

	// Download only the messages which have reached their target folder if there are
	// multiple devices. This prevents race conditions in multidevice case, where one
	// device tries to download the message while another device moves the message at the
	// same time. Even in single device case it is possible to fail downloading the first
	// message, move it to the movebox and then download the second message before
	// downloading the first one, if downloading from inbox before moving is allowed.
	if folder == target
	// Never download messages directly from the spam folder.
	// If the sender is known, the message will be moved to the Inbox or Mvbox
	// and then we download the message from there.
	// Also see `spam_target_folder_cfg()`.
	&& folder_meaning != FolderMeaning::Spam
	&& prefetch_should_download(
	context,
	&headers,
	&message_id,
	fetch_response.flags(),
	)
	.await.context("prefetch_should_download")?
	{
	match download_limit {
	Some(download_limit) => uids_fetch.push((
	uid,
	fetch_response.size.unwrap_or_default() > download_limit,
	)),
	None => uids_fetch.push((uid, false)),
	}
	uid_message_ids.insert(uid, message_id);
	} else {
	largest_uid_skipped = Some(uid);
	}
	}

	if !uids_fetch.is_empty() {
	self.connectivity.set_working(context).await;
	}

	// Actually download messages.
	let mut largest_uid_fetched: u32 = 0;
	let mut received_msgs = Vec::with_capacity(uids_fetch.len());
	let mut uids_fetch_in_batch = Vec::with_capacity(max(uids_fetch.len(), 1));
	let mut fetch_partially = false;
	uids_fetch.push((0, !uids_fetch.last().unwrap_or(&(0, false)).1));
	for (uid, fp) in uids_fetch {
	if fp != fetch_partially {
	let (largest_uid_fetched_in_batch, received_msgs_in_batch) = session
	.fetch_many_msgs(
	context,
	folder,
	uid_validity,
	uids_fetch_in_batch.split_off(0),
	&uid_message_ids,
	fetch_partially,
	fetch_existing_msgs,
	)
	.await
	.context("fetch_many_msgs")?;
	received_msgs.extend(received_msgs_in_batch);
	largest_uid_fetched = max(
	largest_uid_fetched,
	largest_uid_fetched_in_batch.unwrap_or(0),
	);
	fetch_partially = fp;
	}
	uids_fetch_in_batch.push(uid);
	}

	// Advance uid_next to the maximum of the largest known UID plus 1
	// and mailbox UIDNEXT.
	// Largest known UID is normally less than UIDNEXT,
	// but a message may have arrived between determining UIDNEXT
	// and executing the FETCH command.
	let mailbox_uid_next = session
	.selected_mailbox
	.as_ref()
	.with_context(\|\| format!("Expected {folder:?} to be selected"))?
	.uid_next
	.unwrap_or_default();
	let new_uid_next = max(
	max(largest_uid_fetched, largest_uid_skipped.unwrap_or(0)) + 1,
	mailbox_uid_next,
	);

	if new_uid_next > old_uid_next {
	set_uid_next(context, folder, new_uid_next).await?;
	}

	info!(context, "{} mails read from \"{}\".", read_cnt, folder);

	if !received_msgs.is_empty() {
	context.emit_event(EventType::IncomingMsgBunch);
	}

	chat::mark_old_messages_as_noticed(context, received_msgs).await?;

	Ok(read_cnt > 0)
	}

	/// Read the recipients from old emails sent by the user and add them as contacts.
	/// This way, we can already offer them some email addresses they can write to.
	///
	/// Then, Fetch the last messages DC_FETCH_EXISTING_MSGS_COUNT emails from the server
	/// and show them in the chat list.
	pub(crate) async fn fetch_existing_msgs(
	&mut self,
	context: &Context,
	session: &mut Session,
	) -> Result<()> {
	if context.get_config_bool(Config::Bot).await? {
	return Ok(()); // Bots don't want those messages
	}

	add_all_recipients_as_contacts(context, session, Config::ConfiguredSentboxFolder)
	.await
	.context("failed to get recipients from the sentbox")?;
	add_all_recipients_as_contacts(context, session, Config::ConfiguredMvboxFolder)
	.await
	.context("failed to get recipients from the movebox")?;
	add_all_recipients_as_contacts(context, session, Config::ConfiguredInboxFolder)
	.await
	.context("failed to get recipients from the inbox")?;

	if context.get_config_bool(Config::FetchExistingMsgs).await? {
	for meaning in [
	FolderMeaning::Mvbox,
	FolderMeaning::Inbox,
	FolderMeaning::Sent,
	] {
	let config = match meaning.to_config() {
	Some(c) => c,
	None => continue,
	};
	if let Some(folder) = context.get_config(config).await? {
	info!(
	context,
	"Fetching existing messages from folder {folder:?}."
	);
	self.fetch_new_messages(context, session, &folder, meaning, true)
	.await
	.context("could not fetch existing messages")?;
	}
	}
	}

	info!(context, "Done fetching existing messages.");
	Ok(())
	}
	}

	impl Session {
	/// Synchronizes UIDs for all folders.
	pub(crate) async fn resync_folders(&mut self, context: &Context) -> Result<()> {
	let all_folders = self
	.list_folders()
	.await
	.context("listing folders for resync")?;
	for folder in all_folders {
	let folder_meaning = get_folder_meaning(&folder);
	if folder_meaning != FolderMeaning::Virtual {
	self.resync_folder_uids(context, folder.name(), folder_meaning)
	.await?;
	}
	}
	Ok(())
	}

	/// Synchronizes UIDs in the database with UIDs on the server.
	///
	/// It is assumed that no operations are taking place on the same
	/// folder at the moment. Make sure to run it in the same
	/// thread/task as other network operations on this folder to
	/// avoid race conditions.
	pub(crate) async fn resync_folder_uids(
	&mut self,
	context: &Context,
	folder: &str,
	folder_meaning: FolderMeaning,
	) -> Result<()> {
	// Collect pairs of UID and Message-ID.
	let mut msgs = BTreeMap::new();

	self.select_folder(context, Some(folder)).await?;

	let mut list = self
	.uid_fetch("1:*", RFC724MID_UID)
	.await
	.with_context(\|\| format!("can't resync folder {folder}"))?;
	while let Some(fetch) = list.try_next().await? {
	let headers = match get_fetch_headers(&fetch) {
	Ok(headers) => headers,
	Err(err) => {
	warn!(context, "Failed to parse FETCH headers: {}", err);
	continue;
	}
	};
	let message_id = prefetch_get_message_id(&headers);

	if let (Some(uid), Some(rfc724_mid)) = (fetch.uid, message_id) {
	msgs.insert(
	uid,
	(
	rfc724_mid,
	target_folder(context, folder, folder_meaning, &headers).await?,
	),
	);
	}
	}

	info!(
	context,
	"Resync: collected {} message IDs in folder {}",
	msgs.len(),
	folder,
	);

	let uid_validity = get_uidvalidity(context, folder).await?;

	// Write collected UIDs to SQLite database.
	context
	.sql
	.transaction(move \|transaction\| {
	transaction.execute("DELETE FROM imap WHERE folder=?", (folder,))?;
	for (uid, (rfc724_mid, target)) in &msgs {
	// This may detect previously undetected moved
	// messages, so we update server_folder too.
	transaction.execute(
	"INSERT INTO imap (rfc724_mid, folder, uid, uidvalidity, target)
	VALUES (?1, ?2, ?3, ?4, ?5)
	ON CONFLICT(folder, uid, uidvalidity)
	DO UPDATE SET rfc724_mid=excluded.rfc724_mid,
	target=excluded.target",
	(rfc724_mid, folder, uid, uid_validity, target),
	)?;
	}
	Ok(())
	})
	.await?;
	Ok(())
	}

	/// Deletes batch of messages identified by their UID from the currently
	/// selected folder.
	async fn delete_message_batch(
	&mut self,
	context: &Context,
	uid_set: &str,
	row_ids: Vec<i64>,
	) -> Result<()> {
	// mark the message for deletion
	self.add_flag_finalized_with_set(uid_set, "\\Deleted")
	.await?;
	context
	.sql
	.execute(
	&format!(
	"DELETE FROM imap WHERE id IN ({})",
	sql::repeat_vars(row_ids.len())
	),
	rusqlite::params_from_iter(row_ids),
	)
	.await
	.context("cannot remove deleted messages from imap table")?;

	context.emit_event(EventType::ImapMessageDeleted(format!(
	"IMAP messages {uid_set} marked as deleted"
	)));
	Ok(())
	}

	/// Moves batch of messages identified by their UID from the currently
	/// selected folder to the target folder.
	async fn move_message_batch(
	&mut self,
	context: &Context,
	set: &str,
	row_ids: Vec<i64>,
	target: &str,
	) -> Result<()> {
	if self.can_move() {
	match self.uid_mv(set, &target).await {
	Ok(()) => {
	// Messages are moved or don't exist, IMAP returns OK response in both cases.
	context
	.sql
	.execute(
	&format!(
	"DELETE FROM imap WHERE id IN ({})",
	sql::repeat_vars(row_ids.len())
	),
	rusqlite::params_from_iter(row_ids),
	)
	.await
	.context("cannot delete moved messages from imap table")?;
	context.emit_event(EventType::ImapMessageMoved(format!(
	"IMAP messages {set} moved to {target}"
	)));
	return Ok(());
	}
	Err(err) => {
	if context.should_delete_to_trash().await? {
	error!(
	context,
	"Cannot move messages {} to {}, no fallback to COPY/DELETE because \
	delete_to_trash is set. Error: {:#}",
	set,
	target,
	err,
	);
	return Err(err.into());
	}
	warn!(
	context,
	"Cannot move messages, fallback to COPY/DELETE {} to {}: {}",
	set,
	target,
	err
	);
	}
	}
	}

	// Server does not support MOVE or MOVE failed.
	// Copy messages to the destination folder if needed and mark records for deletion.
	let copy = !context.is_trash(target).await?;
	if copy {
	info!(
	context,
	"Server does not support MOVE, fallback to COPY/DELETE {} to {}", set, target
	);
	self.uid_copy(&set, &target).await?;
	} else {
	error!(
	context,
	"Server does not support MOVE, fallback to DELETE {} to {}", set, target,
	);
	}
	context
	.sql
	.execute(
	&format!(
	"UPDATE imap SET target='' WHERE id IN ({})",
	sql::repeat_vars(row_ids.len())
	),
	rusqlite::params_from_iter(row_ids),
	)
	.await
	.context("cannot plan deletion of messages")?;
	if copy {
	context.emit_event(EventType::ImapMessageMoved(format!(
	"IMAP messages {set} copied to {target}"
	)));
	}
	Ok(())
	}

	/// Moves and deletes messages as planned in the `imap` table.
	///
	/// This is the only place where messages are moved or deleted on the IMAP server.
	async fn move_delete_messages(&mut self, context: &Context, folder: &str) -> Result<()> {
	let rows = context
	.sql
	.query_map(
	"SELECT id, uid, target FROM imap
	WHERE folder = ?
	AND target != folder
	ORDER BY target, uid",
	(folder,),
	\|row\| {
	let rowid: i64 = row.get(0)?;
	let uid: u32 = row.get(1)?;
	let target: String = row.get(2)?;
	Ok((rowid, uid, target))
	},
	\|rows\| rows.collect::<Result<Vec<_>, _>>().map_err(Into::into),
	)
	.await?;

	for (target, rowid_set, uid_set) in UidGrouper::from(rows) {
	// Select folder inside the loop to avoid selecting it if there are no pending
	// MOVE/DELETE operations. This does not result in multiple SELECT commands
	// being sent because `select_folder()` does nothing if the folder is already
	// selected.
	self.select_folder(context, Some(folder)).await?;

	// Empty target folder name means messages should be deleted.
	if target.is_empty() {
	self.delete_message_batch(context, &uid_set, rowid_set)
	.await
	.with_context(\|\| format!("cannot delete batch of messages {:?}", &uid_set))?;
	} else {
	self.move_message_batch(context, &uid_set, rowid_set, &target)
	.await
	.with_context(\|\| {
	format!(
	"cannot move batch of messages {:?} to folder {:?}",
	&uid_set, target
	)
	})?;
	}
	}

	// Expunge folder if needed, e.g. if some jobs have
	// deleted messages on the server.
	if let Err(err) = self.maybe_close_folder(context).await {
	warn!(context, "failed to close folder: {:?}", err);
	}

	Ok(())
	}

	/// Stores pending `\Seen` flags for messages in `imap_markseen` table.
	pub(crate) async fn store_seen_flags_on_imap(&mut self, context: &Context) -> Result<()> {
	let rows = context
	.sql
	.query_map(
	"SELECT imap.id, uid, folder FROM imap, imap_markseen
	WHERE imap.id = imap_markseen.id AND target = folder
	ORDER BY folder, uid",
	[],
	\|row\| {
	let rowid: i64 = row.get(0)?;
	let uid: u32 = row.get(1)?;
	let folder: String = row.get(2)?;
	Ok((rowid, uid, folder))
	},
	\|rows\| rows.collect::<Result<Vec<_>, _>>().map_err(Into::into),
	)
	.await?;

	for (folder, rowid_set, uid_set) in UidGrouper::from(rows) {
	self.select_folder(context, Some(&folder))
	.await
	.context("failed to select folder")?;

	if let Err(err) = self.add_flag_finalized_with_set(&uid_set, "\\Seen").await {
	warn!(
	context,
	"Cannot mark messages {} in folder {} as seen, will retry later: {}.",
	uid_set,
	folder,
	err
	);
	} else {
	info!(
	context,
	"Marked messages {} in folder {} as seen.", uid_set, folder
	);
	context
	.sql
	.execute(
	&format!(
	"DELETE FROM imap_markseen WHERE id IN ({})",
	sql::repeat_vars(rowid_set.len())
	),
	rusqlite::params_from_iter(rowid_set),
	)
	.await
	.context("cannot remove messages marked as seen from imap_markseen table")?;
	}
	}

	Ok(())
	}

	/// Synchronizes `\Seen` flags using `CONDSTORE` extension.
	pub(crate) async fn sync_seen_flags(&mut self, context: &Context, folder: &str) -> Result<()> {
	if !self.can_condstore() {
	info!(
	context,
	"Server does not support CONDSTORE, skipping flag synchronization."
	);
	return Ok(());
	}

	self.select_folder(context, Some(folder))
	.await
	.context("failed to select folder")?;

	let mailbox = self
	.selected_mailbox
	.as_ref()
	.with_context(\|\| format!("No mailbox selected, folder: {folder}"))?;

	// Check if the mailbox supports MODSEQ.
	// We are not interested in actual value of HIGHESTMODSEQ.
	if mailbox.highest_modseq.is_none() {
	info!(
	context,
	"Mailbox {} does not support mod-sequences, skipping flag synchronization.", folder
	);
	return Ok(());
	}

	let mut updated_chat_ids = BTreeSet::new();
	let uid_validity = get_uidvalidity(context, folder)
	.await
	.with_context(\|\| format!("failed to get UID validity for folder {folder}"))?;
	let mut highest_modseq = get_modseq(context, folder)
	.await
	.with_context(\|\| format!("failed to get MODSEQ for folder {folder}"))?;
	let mut list = self
	.uid_fetch("1:*", format!("(FLAGS) (CHANGEDSINCE {highest_modseq})"))
	.await
	.context("failed to fetch flags")?;

	while let Some(fetch) = list
	.try_next()
	.await
	.context("failed to get FETCH result")?
	{
	let uid = if let Some(uid) = fetch.uid {
	uid
	} else {
	info!(context, "FETCH result contains no UID, skipping");
	continue;
	};
	let is_seen = fetch.flags().any(\|flag\| flag == Flag::Seen);
	if is_seen {
	if let Some(chat_id) = mark_seen_by_uid(context, folder, uid_validity, uid)
	.await
	.with_context(\|\| {
	format!("failed to update seen status for msg {folder}/{uid}")
	})?
	{
	updated_chat_ids.insert(chat_id);
	}
	}

	if let Some(modseq) = fetch.modseq {
	if modseq > highest_modseq {
	highest_modseq = modseq;
	}
	} else {
	warn!(context, "FETCH result contains no MODSEQ");
	}
	}

	set_modseq(context, folder, highest_modseq)
	.await
	.with_context(\|\| format!("failed to set MODSEQ for folder {folder}"))?;
	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(())
	}

	/// Gets the from, to and bcc addresses from all existing outgoing emails.
	pub async fn get_all_recipients(&mut self, context: &Context) -> Result<Vec<SingleInfo>> {
	let mut uids: Vec<_> = self
	.uid_search(get_imap_self_sent_search_command(context).await?)
	.await?
	.into_iter()
	.collect();
	uids.sort_unstable();

	let mut result = Vec::new();
	for (_, uid_set) in build_sequence_sets(&uids)? {
	let mut list = self
	.uid_fetch(uid_set, "(UID BODY.PEEK[HEADER.FIELDS (FROM TO CC BCC)])")
	.await
	.context("IMAP Could not fetch")?;

	while let Some(msg) = list.try_next().await? {
	match get_fetch_headers(&msg) {
	Ok(headers) => {
	if let Some(from) = mimeparser::get_from(&headers) {
	if context.is_self_addr(&from.addr).await? {
	result.extend(mimeparser::get_recipients(&headers));
	}
	}
	}
	Err(err) => {
	warn!(context, "{}", err);
	continue;
	}
	};
	}
	}
	Ok(result)
	}

	/// Fetches a list of messages by server UID.
	///
	/// Returns the last UID fetched successfully and the info about each downloaded message.
	/// If the message is incorrect or there is a failure to write a message to the database,
	/// it is skipped and the error is logged.
	#[allow(clippy::too_many_arguments)]
	pub(crate) async fn fetch_many_msgs(
	&mut self,
	context: &Context,
	folder: &str,
	uidvalidity: u32,
	request_uids: Vec<u32>,
	uid_message_ids: &BTreeMap<u32, String>,
	fetch_partially: bool,
	fetching_existing_messages: bool,
	) -> Result<(Option<u32>, Vec<ReceivedMsg>)> {
	let mut last_uid = None;
	let mut received_msgs = Vec::new();

	if request_uids.is_empty() {
	return Ok((last_uid, received_msgs));
	}

	for (request_uids, set) in build_sequence_sets(&request_uids)? {
	info!(
	context,
	"Starting a {} FETCH of message set \"{}\".",
	if fetch_partially { "partial" } else { "full" },
	set
	);
	let mut fetch_responses = self
	.uid_fetch(
	&set,
	if fetch_partially {
	BODY_PARTIAL
	} else {
	BODY_FULL
	},
	)
	.await
	.with_context(\|\| {
	format!("fetching messages {} from folder \"{}\"", &set, folder)
	})?;

	// Map from UIDs to unprocessed FETCH results. We put unprocessed FETCH results here
	// when we want to process other messages first.
	let mut uid_msgs = HashMap::with_capacity(request_uids.len());

	let mut count = 0;
	for &request_uid in &request_uids {
	// Check if FETCH response is already in `uid_msgs`.
	let mut fetch_response = uid_msgs.remove(&request_uid);

	// Try to find a requested UID in returned FETCH responses.
	while fetch_response.is_none() {
	let next_fetch_response =
	if let Some(next_fetch_response) = fetch_responses.next().await {
	next_fetch_response
	} else {
	// No more FETCH responses received from the server.
	break;
	};

	let next_fetch_response =
	next_fetch_response.context("Failed to process IMAP FETCH result")?;

	if let Some(next_uid) = next_fetch_response.uid {
	if next_uid == request_uid {
	fetch_response = Some(next_fetch_response);
	} else if !request_uids.contains(&next_uid) {
	// (size of `request_uids` is bounded by IMAP command length limit,
	// search in this vector is always fast)

	// Unwanted UIDs are possible because of unsolicited responses, e.g. if
	// another client changes \Seen flag on a message after we do a prefetch but
	// before fetch. It's not an error if we receive such unsolicited response.
	info!(
	context,
	"Skipping not requested FETCH response for UID {}.", next_uid
	);
	} else if uid_msgs.insert(next_uid, next_fetch_response).is_some() {
	warn!(context, "Got duplicated UID {}.", next_uid);
	}
	} else {
	info!(context, "Skipping FETCH response without UID.");
	}
	}

	let fetch_response = match fetch_response {
	Some(fetch) => fetch,
	None => {
	warn!(
	context,
	"Missed UID {} in the server response.", request_uid
	);
	continue;
	}
	};
	count += 1;

	let is_deleted = fetch_response.flags().any(\|flag\| flag == Flag::Deleted);
	let (body, partial) = if fetch_partially {
	(fetch_response.header(), fetch_response.size) // `BODY.PEEK[HEADER]` goes to header() ...
	} else {
	(fetch_response.body(), None) // ... while `BODY.PEEK[]` goes to body() - and includes header()
	};

	if is_deleted {
	info!(context, "Not processing deleted msg {}.", request_uid);
	last_uid = Some(request_uid);
	continue;
	}

	let body = if let Some(body) = body {
	body
	} else {
	info!(
	context,
	"Not processing message {} without a BODY.", request_uid
	);
	last_uid = Some(request_uid);
	continue;
	};

	let is_seen = fetch_response.flags().any(\|flag\| flag == Flag::Seen);

	let rfc724_mid = if let Some(rfc724_mid) = uid_message_ids.get(&request_uid) {
	rfc724_mid
	} else {
	error!(
	context,
	"No Message-ID corresponding to UID {} passed in uid_messsage_ids.",
	request_uid
	);
	continue;
	};

	info!(
	context,
	"Passing message UID {} to receive_imf().", request_uid
	);
	match receive_imf_inner(
	context,
	folder,
	uidvalidity,
	request_uid,
	rfc724_mid,
	body,
	is_seen,
	partial,
	fetching_existing_messages,
	)
	.await
	{
	Ok(received_msg) => {
	if let Some(m) = received_msg {
	received_msgs.push(m);
	}
	}
	Err(err) => {
	warn!(context, "receive_imf error: {:#}.", err);
	}
	};
	last_uid = Some(request_uid)
	}

	// If we don't process the whole response, IMAP client is left in a broken state where
	// it will try to process the rest of response as the next response.
	while fetch_responses.next().await.is_some() {}

	if count != request_uids.len() {
	warn!(
	context,
	"Failed to fetch all UIDs: got {}, requested {}, we requested the UIDs {:?}.",
	count,
	request_uids.len(),
	request_uids,
	);
	} else {
	info!(
	context,
	"Successfully received {} UIDs.",
	request_uids.len()
	);
	}
	}

	Ok((last_uid, received_msgs))
	}

	/// Retrieves server metadata if it is supported.
	///
	/// We get [`/shared/comment`](https://www.rfc-editor.org/rfc/rfc5464#section-6.2.1)
	/// and [`/shared/admin`](https://www.rfc-editor.org/rfc/rfc5464#section-6.2.2)
	/// metadata.
	pub(crate) async fn fetch_metadata(&mut self, context: &Context) -> Result<()> {
	if !self.can_metadata() {
	return Ok(());
	}

	let mut lock = context.metadata.write().await;
	if (*lock).is_some() {
	return Ok(());
	}

	info!(
	context,
	"Server supports metadata, retrieving server comment and admin contact."
	);

	let mut comment = None;
	let mut admin = None;
	let mut iroh_relay = None;

	let mailbox = "";
	let options = "";
	let metadata = self
	.get_metadata(
	mailbox,
	options,
	"(/shared/comment /shared/admin /shared/vendor/deltachat/irohrelay)",
	)
	.await?;
	for m in metadata {
	match m.entry.as_ref() {
	"/shared/comment" => {
	comment = m.value;
	}
	"/shared/admin" => {
	admin = m.value;
	}
	"/shared/vendor/deltachat/irohrelay" => {
	if let Some(value) = m.value {
	if let Ok(url) = Url::parse(&value) {
	iroh_relay = Some(url);
	} else {
	warn!(
	context,
	"Got invalid URL from iroh relay metadata: {:?}.", value
	);
	}
	}
	}
	_ => {}
	}
	}
	*lock = Some(ServerMetadata {
	comment,
	admin,
	iroh_relay,
	});
	Ok(())
	}

	/// Stores device token into /private/devicetoken IMAP METADATA of the Inbox.
	pub(crate) async fn register_token(&mut self, context: &Context) -> Result<()> {
	if context.push_subscribed.load(Ordering::Relaxed) {
	return Ok(());
	}

	let Some(device_token) = context.push_subscriber.device_token().await else {
	return Ok(());
	};

	if self.can_metadata() && self.can_push() {
	let folder = context
	.get_config(Config::ConfiguredInboxFolder)
	.await?
	.context("INBOX is not configured")?;

	self.run_command_and_check_ok(format!(
	"SETMETADATA \"{folder}\" (/private/devicetoken \"{device_token}\")"
	))
	.await
	.context("SETMETADATA command failed")?;
	context.push_subscribed.store(true, Ordering::Relaxed);
	} else if !context.push_subscriber.heartbeat_subscribed().await {
	let context = context.clone();
	// Subscribe for heartbeat notifications.
	tokio::spawn(async move { context.push_subscriber.subscribe().await });
	}

	Ok(())
	}
	}

	impl Session {
	/// Returns success if we successfully set the flag or we otherwise
	/// think add_flag should not be retried: Disconnection during setting
	/// the flag, or other imap-errors, returns true as well.
	///
	/// Returning error means that the operation can be retried.
	async fn add_flag_finalized_with_set(&mut self, uid_set: &str, flag: &str) -> Result<()> {
	if flag == "\\Deleted" {
	self.selected_folder_needs_expunge = true;
	}
	let query = format!("+FLAGS ({flag})");
	let mut responses = self
	.uid_store(uid_set, &query)
	.await
	.with_context(\|\| format!("IMAP failed to store: ({uid_set}, {query})"))?;
	while let Some(_response) = responses.next().await {
	// Read all the responses
	}
	Ok(())
	}

	/// Attempts to configure mvbox.
	///
	/// Tries to find any folder in the given list of `folders`. If none is found, tries to create
	/// `folders[0]`. This method does not use LIST command to ensure that
	/// configuration works even if mailbox lookup is forbidden via Access Control List (see
	/// <https://datatracker.ietf.org/doc/html/rfc4314>).
	///
	/// Returns first found or created folder name.
	async fn configure_mvbox<'a>(
	&mut self,
	context: &Context,
	folders: &[&'a str],
	create_mvbox: bool,
	) -> Result<Option<&'a str>> {
	// Close currently selected folder if needed.
	// We are going to select folders using low-level EXAMINE operations below.
	self.select_folder(context, None).await?;

	for folder in folders {
	info!(context, "Looking for MVBOX-folder \"{}\"...", &folder);
	let res = self.examine(&folder).await;
	if res.is_ok() {
	info!(
	context,
	"MVBOX-folder {:?} successfully selected, using it.", &folder
	);
	self.close().await?;
	// Before moving emails to the mvbox we need to remember its UIDVALIDITY, otherwise
	// emails moved before that wouldn't be fetched but considered "old" instead.
	self.select_with_uidvalidity(context, folder).await?;
	return Ok(Some(folder));
	}
	}

	if !create_mvbox {
	return Ok(None);
	}
	let Some(folder) = folders.first() else {
	return Ok(None);
	};
	match self.select_with_uidvalidity(context, folder).await {
	Ok(_) => {
	info!(context, "MVBOX-folder {} created.", folder);
	return Ok(Some(folder));
	}
	Err(err) => {
	warn!(context, "Cannot create MVBOX-folder {:?}: {}", folder, err);
	}
	}
	Ok(None)
	}
	}

	impl Imap {
	pub(crate) async fn configure_folders(
	&mut self,
	context: &Context,
	session: &mut Session,
	create_mvbox: bool,
	) -> Result<()> {
	let mut folders = session
	.list(Some(""), Some("*"))
	.await
	.context("list_folders failed")?;
	let mut delimiter = ".".to_string();
	let mut delimiter_is_default = true;
	let mut folder_configs = BTreeMap::new();

	while let Some(folder) = folders.try_next().await? {
	info!(context, "Scanning folder: {:?}", folder);

	// Update the delimiter iff there is a different one, but only once.
	if let Some(d) = folder.delimiter() {
	if delimiter_is_default && !d.is_empty() && delimiter != d {
	delimiter = d.to_string();
	delimiter_is_default = false;
	}
	}

	let folder_meaning = get_folder_meaning_by_attrs(folder.attributes());
	let folder_name_meaning = get_folder_meaning_by_name(folder.name());
	if let Some(config) = folder_meaning.to_config() {
	// Always takes precedence
	folder_configs.insert(config, folder.name().to_string());
	} else if let Some(config) = folder_name_meaning.to_config() {
	// only set if none has been already set
	folder_configs
	.entry(config)
	.or_insert_with(\|\| folder.name().to_string());
	}
	}
	drop(folders);

	info!(context, "Using \"{}\" as folder-delimiter.", delimiter);

	let fallback_folder = format!("INBOX{delimiter}DeltaChat");
	let mvbox_folder = session
	.configure_mvbox(context, &["DeltaChat", &fallback_folder], create_mvbox)
	.await
	.context("failed to configure mvbox")?;

	context
	.set_config_internal(Config::ConfiguredInboxFolder, Some("INBOX"))
	.await?;
	if let Some(mvbox_folder) = mvbox_folder {
	info!(context, "Setting MVBOX FOLDER TO {}", &mvbox_folder);
	context
	.set_config_internal(Config::ConfiguredMvboxFolder, Some(mvbox_folder))
	.await?;
	}
	for (config, name) in folder_configs {
	context.set_config_internal(config, Some(&name)).await?;
	}
	context
	.sql
	.set_raw_config_int(
	constants::DC_FOLDERS_CONFIGURED_KEY,
	constants::DC_FOLDERS_CONFIGURED_VERSION,
	)
	.await?;

	info!(context, "FINISHED configuring IMAP-folders.");
	Ok(())
	}
	}

	impl Session {
	/// Return whether the server sent an unsolicited EXISTS response.
	/// Drains all responses from `session.unsolicited_responses` in the process.
	/// If this returns `true`, this means that new emails arrived and you should
	/// fetch again, even if you just fetched.
	fn server_sent_unsolicited_exists(&self, context: &Context) -> Result<bool> {
	use async_imap::imap_proto::Response;
	use async_imap::imap_proto::ResponseCode;
	use UnsolicitedResponse::*;

	let folder = self.selected_folder.as_deref().unwrap_or_default();
	let mut unsolicited_exists = false;
	while let Ok(response) = self.unsolicited_responses.try_recv() {
	match response {
	Exists(_) => {
	info!(
	context,
	"Need to refetch {folder:?}, got unsolicited EXISTS {response:?}"
	);
	unsolicited_exists = true;
	}

	// We are not interested in the following responses and they are are
	// sent quite frequently, so, we ignore them without logging them
	Expunge(_) \| Recent(_) => {}
	Other(response_data)
	if matches!(
	response_data.parsed(),
	Response::Fetch { .. }
	\| Response::Done {
	code: Some(ResponseCode::CopyUid(_, _, _)),
	..
	}
	) => {}

	_ => {
	info!(context, "{folder:?}: got unsolicited response {response:?}")
	}
	}
	}
	Ok(unsolicited_exists)
	}
	}

	async fn should_move_out_of_spam(
	context: &Context,
	headers: &[mailparse::MailHeader<'_>],
	) -> Result<bool> {
	if headers.get_header_value(HeaderDef::ChatVersion).is_some() {
	// If this is a chat message (i.e. has a ChatVersion header), then this might be
	// a securejoin message. We can't find out at this point as we didn't prefetch
	// the SecureJoin header. So, we always move chat messages out of Spam.
	// Two possibilities to change this would be:
	// 1. Remove the `&& !context.is_spam_folder(folder).await?` check from
	// `fetch_new_messages()`, and then let `receive_imf()` check
	// if it's a spam message and should be hidden.
	// 2. Or add a flag to the ChatVersion header that this is a securejoin
	// request, and return `true` here only if the message has this flag.
	// `receive_imf()` can then check if the securejoin request is valid.
	return Ok(true);
	}

	if let Some(msg) = get_prefetch_parent_message(context, headers).await? {
	if msg.chat_blocked != Blocked::Not {
	// Blocked or contact request message in the spam folder, leave it there.
	return Ok(false);
	}
	} else {
	let from = match mimeparser::get_from(headers) {
	Some(f) => f,
	None => return Ok(false),
	};
	// No chat found.
	let (from_id, blocked_contact, _origin) =
	match from_field_to_contact_id(context, &from, true)
	.await
	.context("from_field_to_contact_id")?
	{
	Some(res) => res,
	None => {
	warn!(
	context,
	"Contact with From address {:?} cannot exist, not moving out of spam", from
	);
	return Ok(false);
	}
	};
	if blocked_contact {
	// Contact is blocked, leave the message in spam.
	return Ok(false);
	}

	if let Some(chat_id_blocked) = ChatIdBlocked::lookup_by_contact(context, from_id).await? {
	if chat_id_blocked.blocked != Blocked::Not {
	return Ok(false);
	}
	} else if from_id != ContactId::SELF {
	// No chat with this contact found.
	return Ok(false);
	}
	}

	Ok(true)
	}

	/// Returns target folder for a message found in the Spam folder.
	/// If this returns None, the message will not be moved out of the
	/// Spam folder, and as `fetch_new_messages()` doesn't download
	/// messages from the Spam folder, the message will be ignored.
	async fn spam_target_folder_cfg(
	context: &Context,
	headers: &[mailparse::MailHeader<'_>],
	) -> Result<Option<Config>> {
	if !should_move_out_of_spam(context, headers).await? {
	return Ok(None);
	}

	if needs_move_to_mvbox(context, headers).await?
	// If OnlyFetchMvbox is set, we don't want to move the message to
	// the inbox or sentbox where we wouldn't fetch it again:
	\|\| context.get_config_bool(Config::OnlyFetchMvbox).await?
	{
	Ok(Some(Config::ConfiguredMvboxFolder))
	} else {
	Ok(Some(Config::ConfiguredInboxFolder))
	}
	}

	/// Returns `ConfiguredInboxFolder`, `ConfiguredMvboxFolder` or `ConfiguredSentboxFolder` if
	/// the message needs to be moved from `folder`. Otherwise returns `None`.
	pub async fn target_folder_cfg(
	context: &Context,
	folder: &str,
	folder_meaning: FolderMeaning,
	headers: &[mailparse::MailHeader<'_>],
	) -> Result<Option<Config>> {
	if context.is_mvbox(folder).await? {
	return Ok(None);
	}

	if folder_meaning == FolderMeaning::Spam {
	spam_target_folder_cfg(context, headers).await
	} else if needs_move_to_mvbox(context, headers).await? {
	Ok(Some(Config::ConfiguredMvboxFolder))
	} else {
	Ok(None)
	}
	}

	pub async fn target_folder(
	context: &Context,
	folder: &str,
	folder_meaning: FolderMeaning,
	headers: &[mailparse::MailHeader<'_>],
	) -> Result<String> {
	match target_folder_cfg(context, folder, folder_meaning, headers).await? {
	Some(config) => match context.get_config(config).await? {
	Some(target) => Ok(target),
	None => Ok(folder.to_string()),
	},
	None => Ok(folder.to_string()),
	}
	}

	async fn needs_move_to_mvbox(
	context: &Context,
	headers: &[mailparse::MailHeader<'_>],
	) -> Result<bool> {
	if !context.get_config_bool(Config::MvboxMove).await? {
	return Ok(false);
	}

	if headers
	.get_header_value(HeaderDef::AutocryptSetupMessage)
	.is_some()
	{
	// do not move setup messages;
	// there may be a non-delta device that wants to handle it
	return Ok(false);
	}

	if headers.get_header_value(HeaderDef::ChatVersion).is_some() {
	Ok(true)
	} else if let Some(parent) = get_prefetch_parent_message(context, headers).await? {
	match parent.is_dc_message {
	MessengerMessage::No => Ok(false),
	MessengerMessage::Yes \| MessengerMessage::Reply => Ok(true),
	}
	} else {
	Ok(false)
	}
	}

	/// Try to get the folder meaning by the name of the folder only used if the server does not support XLIST.
	// TODO: lots languages missing - maybe there is a list somewhere on other MUAs?
	// however, if we fail to find out the sent-folder,
	// only watching this folder is not working. at least, this is no show stopper.
	// CAVE: if possible, take care not to add a name here that is "sent" in one language
	// but sth. different in others - a hard job.
	fn get_folder_meaning_by_name(folder_name: &str) -> FolderMeaning {
	// source: <https://stackoverflow.com/questions/2185391/localized-gmail-imap-folders>
	const SENT_NAMES: &[&str] = &[
	"sent",
	"sentmail",
	"sent objects",
	"gesendet",
	"Sent Mail",
	"Sendte e-mails",
	"Enviados",
	"Messages envoyés",
	"Messages envoyes",
	"Posta inviata",
	"Verzonden berichten",
	"Wyslane",
	"E-mails enviados",
	"Correio enviado",
	"Enviada",
	"Enviado",
	"Gönderildi",
	"Inviati",
	"Odeslaná pošta",
	"Sendt",
	"Skickat",
	"Verzonden",
	"Wysłane",
	"Éléments envoyés",
	"Απεσταλμένα",
	"Отправленные",
	"寄件備份",
	"已发送邮件",
	"送信済み",
	"보낸편지함",
	];
	const SPAM_NAMES: &[&str] = &[
	"spam",
	"junk",
	"Correio electrónico não solicitado",
	"Correo basura",
	"Lixo",
	"Nettsøppel",
	"Nevyžádaná pošta",
	"No solicitado",
	"Ongewenst",
	"Posta indesiderata",
	"Skräp",
	"Wiadomości-śmieci",
	"Önemsiz",
	"Ανεπιθύμητα",
	"Спам",
	"垃圾邮件",
	"垃圾郵件",
	"迷惑メール",
	"스팸",
	];
	const DRAFT_NAMES: &[&str] = &[
	"Drafts",
	"Kladder",
	"Entw?rfe",
	"Borradores",
	"Brouillons",
	"Bozze",
	"Concepten",
	"Wersje robocze",
	"Rascunhos",
	"Entwürfe",
	"Koncepty",
	"Kopie robocze",
	"Taslaklar",
	"Utkast",
	"Πρόχειρα",
	"Черновики",
	"下書き",
	"草稿",
	"임시보관함",
	];
	const TRASH_NAMES: &[&str] = &[
	"Trash",
	"Bin",
	"Caixote do lixo",
	"Cestino",
	"Corbeille",
	"Papelera",
	"Papierkorb",
	"Papirkurv",
	"Papperskorgen",
	"Prullenbak",
	"Rubujo",
	"Κάδος απορριμμάτων",
	"Корзина",
	"Кошик",
	"ゴミ箱",
	"垃圾桶",
	"已删除邮件",
	"휴지통",
	];
	let lower = folder_name.to_lowercase();

	if SENT_NAMES.iter().any(\|s\| s.to_lowercase() == lower) {
	FolderMeaning::Sent
	} else if SPAM_NAMES.iter().any(\|s\| s.to_lowercase() == lower) {
	FolderMeaning::Spam
	} else if DRAFT_NAMES.iter().any(\|s\| s.to_lowercase() == lower) {
	FolderMeaning::Drafts
	} else if TRASH_NAMES.iter().any(\|s\| s.to_lowercase() == lower) {
	FolderMeaning::Trash
	} else {
	FolderMeaning::Unknown
	}
	}

	fn get_folder_meaning_by_attrs(folder_attrs: &[NameAttribute]) -> FolderMeaning {
	for attr in folder_attrs {
	match attr {
	NameAttribute::Trash => return FolderMeaning::Trash,
	NameAttribute::Sent => return FolderMeaning::Sent,
	NameAttribute::Junk => return FolderMeaning::Spam,
	NameAttribute::Drafts => return FolderMeaning::Drafts,
	NameAttribute::All \| NameAttribute::Flagged => return FolderMeaning::Virtual,
	NameAttribute::Extension(ref label) => {
	match label.as_ref() {
	"\\Spam" => return FolderMeaning::Spam,
	"\\Important" => return FolderMeaning::Virtual,
	_ => {}
	};
	}
	_ => {}
	}
	}
	FolderMeaning::Unknown
	}

	pub(crate) fn get_folder_meaning(folder: &Name) -> FolderMeaning {
	match get_folder_meaning_by_attrs(folder.attributes()) {
	FolderMeaning::Unknown => get_folder_meaning_by_name(folder.name()),
	meaning => meaning,
	}
	}

	/// Parses the headers from the FETCH result.
	fn get_fetch_headers(prefetch_msg: &Fetch) -> Result<Vec<mailparse::MailHeader>> {
	match prefetch_msg.header() {
	Some(header_bytes) => {
	let (headers, _) = mailparse::parse_headers(header_bytes)?;
	Ok(headers)
	}
	None => Ok(Vec::new()),
	}
	}

	pub(crate) fn prefetch_get_message_id(headers: &[mailparse::MailHeader]) -> Option<String> {
	headers
	.get_header_value(HeaderDef::XMicrosoftOriginalMessageId)
	.or_else(\|\| headers.get_header_value(HeaderDef::MessageId))
	.and_then(\|msgid\| mimeparser::parse_message_id(&msgid).ok())
	}

	pub(crate) fn create_message_id() -> String {
	format!("{}{}", GENERATED_PREFIX, create_id())
	}

	/// Returns chat by prefetched headers.
	async fn prefetch_get_chat(
	context: &Context,
	headers: &[mailparse::MailHeader<'_>],
	) -> Result<Option<chat::Chat>> {
	let parent = get_prefetch_parent_message(context, headers).await?;
	if let Some(parent) = &parent {
	return Ok(Some(
	chat::Chat::load_from_db(context, parent.get_chat_id()).await?,
	));
	}

	Ok(None)
	}

	/// Determines whether the message should be downloaded based on prefetched headers.
	pub(crate) async fn prefetch_should_download(
	context: &Context,
	headers: &[mailparse::MailHeader<'_>],
	message_id: &str,
	mut flags: impl Iterator<Item = Flag<'_>>,
	) -> Result<bool> {
	if message::rfc724_mid_exists(context, message_id)
	.await?
	.is_some()
	{
	markseen_on_imap_table(context, message_id).await?;
	return Ok(false);
	}

	// We do not know the Message-ID or the Message-ID is missing (in this case, we create one in
	// the further process).

	if let Some(chat) = prefetch_get_chat(context, headers).await? {
	if chat.typ == Chattype::Group && !chat.id.is_special() {
	// This might be a group command, like removing a group member.
	// We really need to fetch this to avoid inconsistent group state.
	return Ok(true);
	}
	}

	let maybe_ndn = if let Some(from) = headers.get_header_value(HeaderDef::From_) {
	let from = from.to_ascii_lowercase();
	from.contains("mailer-daemon") \|\| from.contains("mail-daemon")
	} else {
	false
	};

	// Autocrypt Setup Message should be shown even if it is from non-chat client.
	let is_autocrypt_setup_message = headers
	.get_header_value(HeaderDef::AutocryptSetupMessage)
	.is_some();

	let from = match mimeparser::get_from(headers) {
	Some(f) => f,
	None => return Ok(false),
	};
	let (_from_id, blocked_contact, origin) =
	match from_field_to_contact_id(context, &from, true).await? {
	Some(res) => res,
	None => return Ok(false),
	};
	// prevent_rename=true as this might be a mailing list message and in this case it would be bad if we rename the contact.
	// (prevent_rename is the last argument of from_field_to_contact_id())

	if flags.any(\|f\| f == Flag::Draft) {
	info!(context, "Ignoring draft message");
	return Ok(false);
	}

	let is_chat_message = headers.get_header_value(HeaderDef::ChatVersion).is_some();
	let accepted_contact = origin.is_known();
	let is_reply_to_chat_message = get_prefetch_parent_message(context, headers)
	.await?
	.map(\|parent\| match parent.is_dc_message {
	MessengerMessage::No => false,
	MessengerMessage::Yes \| MessengerMessage::Reply => true,
	})
	.unwrap_or_default();

	let show_emails =
	ShowEmails::from_i32(context.get_config_int(Config::ShowEmails).await?).unwrap_or_default();

	let show = is_autocrypt_setup_message
	\|\| match show_emails {
	ShowEmails::Off => is_chat_message \|\| is_reply_to_chat_message,
	ShowEmails::AcceptedContacts => {
	is_chat_message \|\| is_reply_to_chat_message \|\| accepted_contact
	}
	ShowEmails::All => true,
	};

	let should_download = (show && !blocked_contact) \|\| maybe_ndn;
	Ok(should_download)
	}

	/// Returns whether a message is a duplicate (resent message).
	pub(crate) fn is_dup_msg(is_chat_msg: bool, ts_sent: i64, ts_sent_old: i64) -> bool {
	// If the existing message has timestamp_sent == 0, that means we don't know its actual sent
	// timestamp, so don't delete the new message. E.g. outgoing messages have zero timestamp_sent
	// because they are stored to the db before sending. Also consider as duplicates only messages
	// with greater timestamp to avoid deleting both messages in a multi-device setting.
	is_chat_msg && ts_sent_old != 0 && ts_sent > ts_sent_old
	}

	/// Marks messages in `msgs` table as seen, searching for them by UID.
	///
	/// Returns updated chat ID if any message was marked as seen.
	async fn mark_seen_by_uid(
	context: &Context,
	folder: &str,
	uid_validity: u32,
	uid: u32,
	) -> Result<Option<ChatId>> {
	if let Some((msg_id, chat_id)) = context
	.sql
	.query_row_optional(
	"SELECT id, chat_id FROM msgs
	WHERE id > 9 AND rfc724_mid IN (
	SELECT rfc724_mid FROM imap
	WHERE folder=?1
	AND uidvalidity=?2
	AND uid=?3
	LIMIT 1
	)",
	(&folder, uid_validity, uid),
	\|row\| {
	let msg_id: MsgId = row.get(0)?;
	let chat_id: ChatId = row.get(1)?;
	Ok((msg_id, chat_id))
	},
	)
	.await
	.with_context(\|\| format!("failed to get msg and chat ID for IMAP message {folder}/{uid}"))?
	{
	let updated = context
	.sql
	.execute(
	"UPDATE msgs SET state=?1
	WHERE (state=?2 OR state=?3)
	AND id=?4",
	(
	MessageState::InSeen,
	MessageState::InFresh,
	MessageState::InNoticed,
	msg_id,
	),
	)
	.await
	.with_context(\|\| format!("failed to update msg {msg_id} state"))?
	> 0;

	if updated {
	msg_id
	.start_ephemeral_timer(context)
	.await
	.with_context(\|\| format!("failed to start ephemeral timer for message {msg_id}"))?;
	Ok(Some(chat_id))
	} else {
	// Message state has not changed.
	Ok(None)
	}
	} else {
	// There is no message is `msgs` table matching the given UID.
	Ok(None)
	}
	}

	/// Schedule marking the message as Seen on IMAP by adding all known IMAP messages corresponding to
	/// the given Message-ID to `imap_markseen` table.
	pub(crate) async fn markseen_on_imap_table(context: &Context, message_id: &str) -> Result<()> {
	context
	.sql
	.execute(
	"INSERT OR IGNORE INTO imap_markseen (id)
	SELECT id FROM imap WHERE rfc724_mid=?",
	(message_id,),
	)
	.await?;
	context.scheduler.interrupt_inbox().await;

	Ok(())
	}

	/// uid_next is the next unique identifier value from the last time we fetched a folder
	/// See <https://tools.ietf.org/html/rfc3501#section-2.3.1.1>
	/// This function is used to update our uid_next after fetching messages.
	pub(crate) async fn set_uid_next(context: &Context, folder: &str, uid_next: u32) -> Result<()> {
	context
	.sql
	.execute(
	"INSERT INTO imap_sync (folder, uid_next) VALUES (?,?)
	ON CONFLICT(folder) DO UPDATE SET uid_next=excluded.uid_next",
	(folder, uid_next),
	)
	.await?;
	Ok(())
	}

	/// uid_next is the next unique identifier value from the last time we fetched a folder
	/// See <https://tools.ietf.org/html/rfc3501#section-2.3.1.1>
	/// This method returns the uid_next from the last time we fetched messages.
	/// We can compare this to the current uid_next to find out whether there are new messages
	/// and fetch from this value on to get all new messages.
	async fn get_uid_next(context: &Context, folder: &str) -> Result<u32> {
	Ok(context
	.sql
	.query_get_value("SELECT uid_next FROM imap_sync WHERE folder=?;", (folder,))
	.await?
	.unwrap_or(0))
	}

	pub(crate) async fn set_uidvalidity(
	context: &Context,
	folder: &str,
	uidvalidity: u32,
	) -> Result<()> {
	context
	.sql
	.execute(
	"INSERT INTO imap_sync (folder, uidvalidity) VALUES (?,?)
	ON CONFLICT(folder) DO UPDATE SET uidvalidity=excluded.uidvalidity",
	(folder, uidvalidity),
	)
	.await?;
	Ok(())
	}

	async fn get_uidvalidity(context: &Context, folder: &str) -> Result<u32> {
	Ok(context
	.sql
	.query_get_value(
	"SELECT uidvalidity FROM imap_sync WHERE folder=?;",
	(folder,),
	)
	.await?
	.unwrap_or(0))
	}

	pub(crate) async fn set_modseq(context: &Context, folder: &str, modseq: u64) -> Result<()> {
	context
	.sql
	.execute(
	"INSERT INTO imap_sync (folder, modseq) VALUES (?,?)
	ON CONFLICT(folder) DO UPDATE SET modseq=excluded.modseq",
	(folder, modseq),
	)
	.await?;
	Ok(())
	}

	async fn get_modseq(context: &Context, folder: &str) -> Result<u64> {
	Ok(context
	.sql
	.query_get_value("SELECT modseq FROM imap_sync WHERE folder=?;", (folder,))
	.await?
	.unwrap_or(0))
	}

	/// Compute the imap search expression for all self-sent mails (for all self addresses)
	pub(crate) async fn get_imap_self_sent_search_command(context: &Context) -> Result<String> {
	// See https://www.rfc-editor.org/rfc/rfc3501#section-6.4.4 for syntax of SEARCH and OR
	let mut search_command = format!("FROM \"{}\"", context.get_primary_self_addr().await?);

	for item in context.get_secondary_self_addrs().await? {
	search_command = format!("OR ({search_command}) (FROM \"{item}\")");
	}

	Ok(search_command)
	}

	/// Deprecated, use get_uid_next() and get_uidvalidity()
	pub async fn get_config_last_seen_uid(context: &Context, folder: &str) -> Result<(u32, u32)> {
	let key = format!("imap.mailbox.{folder}");
	if let Some(entry) = context.sql.get_raw_config(&key).await? {
	// the entry has the format `imap.mailbox.<folder>=<uidvalidity>:<lastseenuid>`
	let mut parts = entry.split(':');
	Ok((
	parts.next().unwrap_or_default().parse().unwrap_or(0),
	parts.next().unwrap_or_default().parse().unwrap_or(0),
	))
	} else {
	Ok((0, 0))
	}
	}

	/// Whether to ignore fetching messages from a folder.
	///
	/// This caters for the [`Config::OnlyFetchMvbox`] setting which means mails from folders
	/// not explicitly watched should not be fetched.
	async fn should_ignore_folder(
	context: &Context,
	folder: &str,
	folder_meaning: FolderMeaning,
	) -> Result<bool> {
	if !context.get_config_bool(Config::OnlyFetchMvbox).await? {
	return Ok(false);
	}
	if context.is_sentbox(folder).await? {
	// Still respect the SentboxWatch setting.
	return Ok(!context.get_config_bool(Config::SentboxWatch).await?);
	}
	Ok(!(context.is_mvbox(folder).await? \|\| folder_meaning == FolderMeaning::Spam))
	}

	/// Builds a list of sequence/uid sets. The returned sets have each no more than around 1000
	/// characters because according to <https://tools.ietf.org/html/rfc2683#section-3.2.1.5>
	/// command lines should not be much more than 1000 chars (servers should allow at least 8000 chars)
	fn build_sequence_sets(uids: &[u32]) -> Result<Vec<(Vec<u32>, String)>> {
	// first, try to find consecutive ranges:
	let mut ranges: Vec<UidRange> = vec![];

	for &current in uids {
	if let Some(last) = ranges.last_mut() {
	if last.end + 1 == current {
	last.end = current;
	continue;
	}
	}

	ranges.push(UidRange {
	start: current,
	end: current,
	});
	}

	// Second, sort the uids into uid sets that are each below ~1000 characters
	let mut result = vec![];
	let (mut last_uids, mut last_str) = (Vec::new(), String::new());
	for range in ranges {
	last_uids.reserve((range.end - range.start + 1).try_into()?);
	(range.start..=range.end).for_each(\|u\| last_uids.push(u));
	if !last_str.is_empty() {
	last_str.push(',');
	}
	last_str.push_str(&range.to_string());

	if last_str.len() > 990 {
	result.push((take(&mut last_uids), take(&mut last_str)));
	}
	}
	result.push((last_uids, last_str));

	result.retain(\|(_, s)\| !s.is_empty());
	Ok(result)
	}

	struct UidRange {
	start: u32,
	end: u32,
	// If start == end, then this range represents a single number
	}

	impl std::fmt::Display for UidRange {
	fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
	if self.start == self.end {
	write!(f, "{}", self.start)
	} else {
	write!(f, "{}:{}", self.start, self.end)
	}
	}
	}
	async fn add_all_recipients_as_contacts(
	context: &Context,
	session: &mut Session,
	folder: Config,
	) -> Result<()> {
	let mailbox = if let Some(m) = context.get_config(folder).await? {
	m
	} else {
	info!(
	context,
	"Folder {} is not configured, skipping fetching contacts from it.", folder
	);
	return Ok(());
	};
	session
	.select_with_uidvalidity(context, &mailbox)
	.await
	.with_context(\|\| format!("could not select {mailbox}"))?;

	let recipients = session
	.get_all_recipients(context)
	.await
	.context("could not get recipients")?;

	let mut any_modified = false;
	for recipient in recipients {
	let display_name_normalized = recipient
	.display_name
	.as_ref()
	.map(\|s\| normalize_name(s))
	.unwrap_or_default();

	let recipient_addr = match ContactAddress::new(&recipient.addr) {
	Err(err) => {
	warn!(
	context,
	"Could not add contact for recipient with address {:?}: {:#}",
	recipient.addr,
	err
	);
	continue;
	}
	Ok(recipient_addr) => recipient_addr,
	};

	let (_, modified) = Contact::add_or_lookup(
	context,
	&display_name_normalized,
	&recipient_addr,
	Origin::OutgoingTo,
	)
	.await?;
	if modified != Modifier::None {
	any_modified = true;
	}
	}
	if any_modified {
	context.emit_event(EventType::ContactsChanged(None));
	}

	Ok(())
	}

	#[cfg(test)]
	mod tests {
	use super::*;
	use crate::test_utils::TestContext;

	#[test]
	fn test_get_folder_meaning_by_name() {
	assert_eq!(get_folder_meaning_by_name("Gesendet"), FolderMeaning::Sent);
	assert_eq!(get_folder_meaning_by_name("GESENDET"), FolderMeaning::Sent);
	assert_eq!(get_folder_meaning_by_name("gesendet"), FolderMeaning::Sent);
	assert_eq!(
	get_folder_meaning_by_name("Messages envoyés"),
	FolderMeaning::Sent
	);
	assert_eq!(
	get_folder_meaning_by_name("mEsSaGes envoyÉs"),
	FolderMeaning::Sent
	);
	assert_eq!(get_folder_meaning_by_name("xxx"), FolderMeaning::Unknown);
	assert_eq!(get_folder_meaning_by_name("SPAM"), FolderMeaning::Spam);
	assert_eq!(get_folder_meaning_by_name("Trash"), FolderMeaning::Trash);
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_set_uid_next_validity() {
	let t = TestContext::new_alice().await;
	assert_eq!(get_uid_next(&t.ctx, "Inbox").await.unwrap(), 0);
	assert_eq!(get_uidvalidity(&t.ctx, "Inbox").await.unwrap(), 0);

	set_uidvalidity(&t.ctx, "Inbox", 7).await.unwrap();
	assert_eq!(get_uidvalidity(&t.ctx, "Inbox").await.unwrap(), 7);
	assert_eq!(get_uid_next(&t.ctx, "Inbox").await.unwrap(), 0);

	set_uid_next(&t.ctx, "Inbox", 5).await.unwrap();
	set_uidvalidity(&t.ctx, "Inbox", 6).await.unwrap();
	assert_eq!(get_uid_next(&t.ctx, "Inbox").await.unwrap(), 5);
	assert_eq!(get_uidvalidity(&t.ctx, "Inbox").await.unwrap(), 6);
	}

	#[test]
	fn test_build_sequence_sets() {
	assert_eq!(build_sequence_sets(&[]).unwrap(), vec![]);

	let cases = vec![
	(vec![1], "1"),
	(vec![3291], "3291"),
	(vec![1, 3, 5, 7, 9, 11], "1,3,5,7,9,11"),
	(vec![1, 2, 3], "1:3"),
	(vec![1, 4, 5, 6], "1,4:6"),
	((1..=500).collect(), "1:500"),
	(vec![3, 4, 8, 9, 10, 11, 39, 50, 2], "3:4,8:11,39,50,2"),
	];
	for (input, s) in cases {
	assert_eq!(
	build_sequence_sets(&input).unwrap(),
	vec![(input, s.into())]
	);
	}

	let has_number = \|(uids, s): &(Vec<u32>, String), number\| {
	uids.iter().any(\|&n\| n == number)
	&& s.split(',').any(\|n\| n.parse::<u32>().unwrap() == number)
	};

	let numbers: Vec<_> = (2..=500).step_by(2).collect();
	let result = build_sequence_sets(&numbers).unwrap();
	for (_, set) in &result {
	assert!(set.len() < 1010);
	assert!(!set.ends_with(','));
	assert!(!set.starts_with(','));
	}
	assert!(result.len() == 1); // these UIDs fit in one set
	for &number in &numbers {
	assert!(result.iter().any(\|r\| has_number(r, number)));
	}

	let numbers: Vec<_> = (1..=1000).step_by(3).collect();
	let result = build_sequence_sets(&numbers).unwrap();
	for (_, set) in &result {
	assert!(set.len() < 1010);
	assert!(!set.ends_with(','));
	assert!(!set.starts_with(','));
	}
	let (last_uids, last_str) = result.last().unwrap();
	assert_eq!(
	last_uids.get((last_uids.len() - 2)..).unwrap(),
	&[997, 1000]
	);
	assert!(last_str.ends_with("997,1000"));
	assert!(result.len() == 2); // This time we need 2 sets
	for &number in &numbers {
	assert!(result.iter().any(\|r\| has_number(r, number)));
	}

	let numbers: Vec<_> = (30000000..=30002500).step_by(4).collect();
	let result = build_sequence_sets(&numbers).unwrap();
	for (_, set) in &result {
	assert!(set.len() < 1010);
	assert!(!set.ends_with(','));
	assert!(!set.starts_with(','));
	}
	assert_eq!(result.len(), 6);
	for &number in &numbers {
	assert!(result.iter().any(\|r\| has_number(r, number)));
	}
	}

	#[allow(clippy::too_many_arguments)]
	async fn check_target_folder_combination(
	folder: &str,
	mvbox_move: bool,
	chat_msg: bool,
	expected_destination: &str,
	accepted_chat: bool,
	outgoing: bool,
	setupmessage: bool,
	) -> Result<()> {
	println!("Testing: For folder {folder}, mvbox_move {mvbox_move}, chat_msg {chat_msg}, accepted {accepted_chat}, outgoing {outgoing}, setupmessage {setupmessage}");

	let t = TestContext::new_alice().await;
	t.ctx
	.set_config(Config::ConfiguredMvboxFolder, Some("DeltaChat"))
	.await?;
	t.ctx
	.set_config(Config::ConfiguredSentboxFolder, Some("Sent"))
	.await?;
	t.ctx
	.set_config(Config::MvboxMove, Some(if mvbox_move { "1" } else { "0" }))
	.await?;

	if accepted_chat {
	let contact_id = Contact::create(&t.ctx, "", "bob@example.net").await?;
	ChatId::create_for_contact(&t.ctx, contact_id).await?;
	}
	let temp;

	let bytes = if setupmessage {
	include_bytes!("../test-data/message/AutocryptSetupMessage.eml")
	} else {
	temp = format!(
	"Received: (Postfix, from userid 1000); Mon, 4 Dec 2006 14:51:39 +0100 (CET)\n\
	{}\
	Subject: foo\n\
	Message-ID: <abc@example.com>\n\
	{}\
	Date: Sun, 22 Mar 2020 22:37:57 +0000\n\
	\n\
	hello\n",
	if outgoing {
	"From: alice@example.org\nTo: bob@example.net\n"
	} else {
	"From: bob@example.net\nTo: alice@example.org\n"
	},
	if chat_msg { "Chat-Version: 1.0\n" } else { "" },
	);
	temp.as_bytes()
	};

	let (headers, _) = mailparse::parse_headers(bytes)?;
	let actual = if let Some(config) =
	target_folder_cfg(&t, folder, get_folder_meaning_by_name(folder), &headers).await?
	{
	t.get_config(config).await?
	} else {
	None
	};

	let expected = if expected_destination == folder {
	None
	} else {
	Some(expected_destination)
	};
	assert_eq!(expected, actual.as_deref(), "For folder {folder}, mvbox_move {mvbox_move}, chat_msg {chat_msg}, accepted {accepted_chat}, outgoing {outgoing}, setupmessage {setupmessage}: expected {expected:?}, got {actual:?}");
	Ok(())
	}

	// chat_msg means that the message was sent by Delta Chat
	// The tuples are (folder, mvbox_move, chat_msg, expected_destination)
	const COMBINATIONS_ACCEPTED_CHAT: &[(&str, bool, bool, &str)] = &[
	("INBOX", false, false, "INBOX"),
	("INBOX", false, true, "INBOX"),
	("INBOX", true, false, "INBOX"),
	("INBOX", true, true, "DeltaChat"),
	("Sent", false, false, "Sent"),
	("Sent", false, true, "Sent"),
	("Sent", true, false, "Sent"),
	("Sent", true, true, "DeltaChat"),
	("Spam", false, false, "INBOX"), // Move classical emails in accepted chats from Spam to Inbox, not 100% sure on this, we could also just never move non-chat-msgs
	("Spam", false, true, "INBOX"),
	("Spam", true, false, "INBOX"), // Move classical emails in accepted chats from Spam to Inbox, not 100% sure on this, we could also just never move non-chat-msgs
	("Spam", true, true, "DeltaChat"),
	];

	// These are the same as above, but non-chat messages in Spam stay in Spam
	const COMBINATIONS_REQUEST: &[(&str, bool, bool, &str)] = &[
	("INBOX", false, false, "INBOX"),
	("INBOX", false, true, "INBOX"),
	("INBOX", true, false, "INBOX"),
	("INBOX", true, true, "DeltaChat"),
	("Sent", false, false, "Sent"),
	("Sent", false, true, "Sent"),
	("Sent", true, false, "Sent"),
	("Sent", true, true, "DeltaChat"),
	("Spam", false, false, "Spam"),
	("Spam", false, true, "INBOX"),
	("Spam", true, false, "Spam"),
	("Spam", true, true, "DeltaChat"),
	];

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_target_folder_incoming_accepted() -> Result<()> {
	for (folder, mvbox_move, chat_msg, expected_destination) in COMBINATIONS_ACCEPTED_CHAT {
	check_target_folder_combination(
	folder,
	*mvbox_move,
	*chat_msg,
	expected_destination,
	true,
	false,
	false,
	)
	.await?;
	}
	Ok(())
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_target_folder_incoming_request() -> Result<()> {
	for (folder, mvbox_move, chat_msg, expected_destination) in COMBINATIONS_REQUEST {
	check_target_folder_combination(
	folder,
	*mvbox_move,
	*chat_msg,
	expected_destination,
	false,
	false,
	false,
	)
	.await?;
	}
	Ok(())
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_target_folder_outgoing() -> Result<()> {
	// Test outgoing emails
	for (folder, mvbox_move, chat_msg, expected_destination) in COMBINATIONS_ACCEPTED_CHAT {
	check_target_folder_combination(
	folder,
	*mvbox_move,
	*chat_msg,
	expected_destination,
	true,
	true,
	false,
	)
	.await?;
	}
	Ok(())
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_target_folder_setupmsg() -> Result<()> {
	// Test setupmessages
	for (folder, mvbox_move, chat_msg, _expected_destination) in COMBINATIONS_ACCEPTED_CHAT {
	check_target_folder_combination(
	folder,
	*mvbox_move,
	*chat_msg,
	if folder == &"Spam" { "INBOX" } else { folder }, // Never move setup messages, except if they are in "Spam"
	false,
	true,
	true,
	)
	.await?;
	}
	Ok(())
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_get_imap_search_command() -> Result<()> {
	let t = TestContext::new_alice().await;
	assert_eq!(
	get_imap_self_sent_search_command(&t.ctx).await?,
	r#"FROM "alice@example.org""#
	);

	t.ctx.set_primary_self_addr("alice@another.com").await?;
	assert_eq!(
	get_imap_self_sent_search_command(&t.ctx).await?,
	r#"OR (FROM "alice@another.com") (FROM "alice@example.org")"#
	);

	t.ctx.set_primary_self_addr("alice@third.com").await?;
	assert_eq!(
	get_imap_self_sent_search_command(&t.ctx).await?,
	r#"OR (OR (FROM "alice@third.com") (FROM "alice@another.com")) (FROM "alice@example.org")"#
	);

	Ok(())
	}

	#[test]
	fn test_uid_grouper() {
	// Input: sequence of (rowid: i64, uid: u32, target: String)
	// Output: sequence of (target: String, rowid_set: Vec<i64>, uid_set: String)
	let grouper = UidGrouper::from([(1, 2, "INBOX".to_string())]);
	let res: Vec<(String, Vec<i64>, String)> = grouper.into_iter().collect();
	assert_eq!(res, vec![("INBOX".to_string(), vec![1], "2".to_string())]);

	let grouper = UidGrouper::from([(1, 2, "INBOX".to_string()), (2, 3, "INBOX".to_string())]);
	let res: Vec<(String, Vec<i64>, String)> = grouper.into_iter().collect();
	assert_eq!(
	res,
	vec![("INBOX".to_string(), vec![1, 2], "2:3".to_string())]
	);

	let grouper = UidGrouper::from([
	(1, 2, "INBOX".to_string()),
	(2, 2, "INBOX".to_string()),
	(3, 3, "INBOX".to_string()),
	]);
	let res: Vec<(String, Vec<i64>, String)> = grouper.into_iter().collect();
	assert_eq!(
	res,
	vec![("INBOX".to_string(), vec![1, 2, 3], "2:3".to_string())]
	);
	}
	}