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	//! # Get message as HTML.
	//!
	//! Use `Message.has_html()` to check if the UI shall render a
	//! corresponding button and `MsgId.get_html()` to get the full message.
	//!
	//! Even when the original mime-message is not HTML,
	//! `MsgId.get_html()` will return HTML -
	//! this allows nice quoting, handling linebreaks properly etc.

	use anyhow::{Context as _, Result};
	use base64::Engine as _;
	use lettre_email::mime::Mime;
	use lettre_email::PartBuilder;
	use mailparse::ParsedContentType;

	use crate::context::Context;
	use crate::headerdef::{HeaderDef, HeaderDefMap};
	use crate::message::{self, Message, MsgId};
	use crate::mimeparser::parse_message_id;
	use crate::param::Param::SendHtml;
	use crate::plaintext::PlainText;

	impl Message {
	/// Check if the message can be retrieved as HTML.
	/// Typically, this is the case, when the mime structure of a Message is modified,
	/// meaning that some text is cut or the original message
	/// is in HTML and `simplify()` may hide some maybe important information.
	/// The corresponding ffi-function is `dc_msg_has_html()`.
	/// To get the HTML-code of the message, use `MsgId.get_html()`.
	pub fn has_html(&self) -> bool {
	self.mime_modified
	}

	/// Set HTML-part part of a message that is about to be sent.
	/// The HTML-part is written to the database before sending and
	/// used as the `text/html` part in the MIME-structure.
	///
	/// Received HTML parts are handled differently,
	/// they are saved together with the whole MIME-structure
	/// in `mime_headers` and the HTML-part is extracted using `MsgId::get_html()`.
	/// (To underline this asynchronicity, we are using the wording "SendHtml")
	pub fn set_html(&mut self, html: Option<String>) {
	if let Some(html) = html {
	self.param.set(SendHtml, html);
	self.mime_modified = true;
	} else {
	self.param.remove(SendHtml);
	self.mime_modified = false;
	}
	}
	}

	/// Type defining a rough mime-type.
	/// This is mainly useful on iterating
	/// to decide whether a mime-part has subtypes.
	enum MimeMultipartType {
	Multiple,
	Single,
	Message,
	}

	/// Function takes a content type from a ParsedMail structure
	/// and checks and returns the rough mime-type.
	fn get_mime_multipart_type(ctype: &ParsedContentType) -> MimeMultipartType {
	let mimetype = ctype.mimetype.to_lowercase();
	if mimetype.starts_with("multipart") && ctype.params.contains_key("boundary") {
	MimeMultipartType::Multiple
	} else if mimetype == "message/rfc822" {
	MimeMultipartType::Message
	} else {
	MimeMultipartType::Single
	}
	}

	/// HtmlMsgParser converts a mime-message to HTML.
	#[derive(Debug)]
	struct HtmlMsgParser {
	pub html: String,
	pub plain: Option<PlainText>,
	}

	impl HtmlMsgParser {
	/// Function takes a raw mime-message string,
	/// searches for the main-text part
	/// and returns that as parser.html
	pub async fn from_bytes(context: &Context, rawmime: &[u8]) -> Result<Self> {
	let mut parser = HtmlMsgParser {
	html: "".to_string(),
	plain: None,
	};

	let parsedmail = mailparse::parse_mail(rawmime)?;

	parser.collect_texts_recursive(&parsedmail).await?;

	if parser.html.is_empty() {
	if let Some(plain) = &parser.plain {
	parser.html = plain.to_html();
	}
	} else {
	parser.cid_to_data_recursive(context, &parsedmail).await?;
	}

	Ok(parser)
	}

	/// Function iterates over all mime-parts
	/// and searches for text/plain and text/html parts and saves the
	/// first one found.
	/// in the corresponding structure fields.
	///
	/// Usually, there is at most one plain-text and one HTML-text part,
	/// multiple plain-text parts might be used for mailinglist-footers,
	/// therefore we use the first one.
	async fn collect_texts_recursive<'a>(
	&'a mut self,
	mail: &'a mailparse::ParsedMail<'a>,
	) -> Result<()> {
	match get_mime_multipart_type(&mail.ctype) {
	MimeMultipartType::Multiple => {
	for cur_data in &mail.subparts {
	Box::pin(self.collect_texts_recursive(cur_data)).await?
	}
	Ok(())
	}
	MimeMultipartType::Message => {
	let raw = mail.get_body_raw()?;
	if raw.is_empty() {
	return Ok(());
	}
	let mail = mailparse::parse_mail(&raw).context("failed to parse mail")?;
	Box::pin(self.collect_texts_recursive(&mail)).await
	}
	MimeMultipartType::Single => {
	let mimetype = mail.ctype.mimetype.parse::<Mime>()?;
	if mimetype == mime::TEXT_HTML {
	if self.html.is_empty() {
	if let Ok(decoded_data) = mail.get_body() {
	self.html = decoded_data;
	}
	}
	} else if mimetype == mime::TEXT_PLAIN && self.plain.is_none() {
	if let Ok(decoded_data) = mail.get_body() {
	self.plain = Some(PlainText {
	text: decoded_data,
	flowed: if let Some(format) = mail.ctype.params.get("format") {
	format.as_str().to_ascii_lowercase() == "flowed"
	} else {
	false
	},
	delsp: if let Some(delsp) = mail.ctype.params.get("delsp") {
	delsp.as_str().to_ascii_lowercase() == "yes"
	} else {
	false
	},
	});
	}
	}
	Ok(())
	}
	}
	}

	/// Replace cid:-protocol by the data:-protocol where appropriate.
	/// This allows the final html-file to be self-contained.
	async fn cid_to_data_recursive<'a>(
	&'a mut self,
	context: &'a Context,
	mail: &'a mailparse::ParsedMail<'a>,
	) -> Result<()> {
	match get_mime_multipart_type(&mail.ctype) {
	MimeMultipartType::Multiple => {
	for cur_data in &mail.subparts {
	Box::pin(self.cid_to_data_recursive(context, cur_data)).await?;
	}
	Ok(())
	}
	MimeMultipartType::Message => {
	let raw = mail.get_body_raw()?;
	if raw.is_empty() {
	return Ok(());
	}
	let mail = mailparse::parse_mail(&raw).context("failed to parse mail")?;
	Box::pin(self.cid_to_data_recursive(context, &mail)).await
	}
	MimeMultipartType::Single => {
	let mimetype = mail.ctype.mimetype.parse::<Mime>()?;
	if mimetype.type_() == mime::IMAGE {
	if let Some(cid) = mail.headers.get_header_value(HeaderDef::ContentId) {
	if let Ok(cid) = parse_message_id(&cid) {
	if let Ok(replacement) = mimepart_to_data_url(mail) {
	let re_string = format!(
	"(<img[^>]src[^>]=[^>])(cid:{})([^>]>)",
	regex::escape(&cid)
	);
	match regex::Regex::new(&re_string) {
	Ok(re) => {
	self.html = re
	.replace_all(
	&self.html,
	format!("${{1}}{replacement}${{3}}").as_str(),
	)
	.as_ref()
	.to_string()
	}
	Err(e) => warn!(
	context,
	"Cannot create regex for cid: {} throws {}", re_string, e
	),
	}
	}
	}
	}
	}
	Ok(())
	}
	}
	}
	}

	/// Convert a mime part to a data: url as defined in [RFC 2397](https://tools.ietf.org/html/rfc2397).
	fn mimepart_to_data_url(mail: &mailparse::ParsedMail<'_>) -> Result<String> {
	let data = mail.get_body_raw()?;
	let data = base64::engine::general_purpose::STANDARD.encode(data);
	Ok(format!("data:{};base64,{}", mail.ctype.mimetype, data))
	}

	impl MsgId {
	/// Get HTML by database message id.
	/// This requires `mime_headers` field to be set for the message;
	/// this is the case at least when `Message.has_html()` returns true
	/// (we do not save raw mime unconditionally in the database to save space).
	/// The corresponding ffi-function is `dc_get_msg_html()`.
	pub async fn get_html(self, context: &Context) -> Result<Option<String>> {
	let rawmime = message::get_mime_headers(context, self).await?;

	if !rawmime.is_empty() {
	match HtmlMsgParser::from_bytes(context, &rawmime).await {
	Err(err) => {
	warn!(context, "get_html: parser error: {:#}", err);
	Ok(None)
	}
	Ok(parser) => Ok(Some(parser.html)),
	}
	} else {
	warn!(context, "get_html: no mime for {}", self);
	Ok(None)
	}
	}
	}

	/// Wraps HTML text into a new text/html mimepart structure.
	///
	/// Used on forwarding messages to avoid leaking the original mime structure
	/// and also to avoid sending too much, maybe large data.
	pub fn new_html_mimepart(html: String) -> PartBuilder {
	PartBuilder::new()
	.content_type(&"text/html; charset=utf-8".parse::<mime::Mime>().unwrap())
	.body(html)
	}

	#[cfg(test)]
	mod tests {
	use super::*;
	use crate::chat;
	use crate::chat::forward_msgs;
	use crate::config::Config;
	use crate::contact::ContactId;
	use crate::message::{MessengerMessage, Viewtype};
	use crate::receive_imf::receive_imf;
	use crate::test_utils::TestContext;

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_htmlparse_plain_unspecified() {
	let t = TestContext::new().await;
	let raw = include_bytes!("../test-data/message/text_plain_unspecified.eml");
	let parser = HtmlMsgParser::from_bytes(&t.ctx, raw).await.unwrap();
	assert_eq!(
	parser.html,
	r#"<!DOCTYPE html>
	<html><head>
	<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
	<meta name="color-scheme" content="light dark" />
	</head><body>
	This message does not have Content-Type nor Subject.<br/>
	<br/>
	</body></html>
	"#
	);
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_htmlparse_plain_iso88591() {
	let t = TestContext::new().await;
	let raw = include_bytes!("../test-data/message/text_plain_iso88591.eml");
	let parser = HtmlMsgParser::from_bytes(&t.ctx, raw).await.unwrap();
	assert_eq!(
	parser.html,
	r#"<!DOCTYPE html>
	<html><head>
	<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
	<meta name="color-scheme" content="light dark" />
	</head><body>
	message with a non-UTF-8 encoding: äöüßÄÖÜ<br/>
	<br/>
	</body></html>
	"#
	);
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_htmlparse_plain_flowed() {
	let t = TestContext::new().await;
	let raw = include_bytes!("../test-data/message/text_plain_flowed.eml");
	let parser = HtmlMsgParser::from_bytes(&t.ctx, raw).await.unwrap();
	assert!(parser.plain.unwrap().flowed);
	assert_eq!(
	parser.html,
	r#"<!DOCTYPE html>
	<html><head>
	<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
	<meta name="color-scheme" content="light dark" />
	</head><body>
	This line ends with a space and will be merged with the next one due to format=flowed.<br/>
	<br/>
	This line does not end with a space<br/>
	and will be wrapped as usual.<br/>
	<br/>
	</body></html>
	"#
	);
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_htmlparse_alt_plain() {
	let t = TestContext::new().await;
	let raw = include_bytes!("../test-data/message/text_alt_plain.eml");
	let parser = HtmlMsgParser::from_bytes(&t.ctx, raw).await.unwrap();
	assert_eq!(
	parser.html,
	r#"<!DOCTYPE html>
	<html><head>
	<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
	<meta name="color-scheme" content="light dark" />
	</head><body>
	mime-modified should not be set set as there is no html and no special stuff;<br/>
	although not being a delta-message.<br/>
	test some special html-characters as < > and & but also " and ' :)<br/>
	<br/>
	<br/>
	</body></html>
	"#
	);
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_htmlparse_html() {
	let t = TestContext::new().await;
	let raw = include_bytes!("../test-data/message/text_html.eml");
	let parser = HtmlMsgParser::from_bytes(&t.ctx, raw).await.unwrap();

	// on windows, `\r\n` linends are returned from mimeparser,
	// however, rust multiline-strings use just `\n`;
	// therefore, we just remove `\r` before comparison.
	assert_eq!(
	parser.html.replace('\r', ""),
	r##"
	<html>
	<p>mime-modified <b>set</b>; simplify is always regarded as lossy.</p>
	</html>"##
	);
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_htmlparse_alt_html() {
	let t = TestContext::new().await;
	let raw = include_bytes!("../test-data/message/text_alt_html.eml");
	let parser = HtmlMsgParser::from_bytes(&t.ctx, raw).await.unwrap();
	assert_eq!(
	parser.html.replace('\r', ""), // see comment in test_htmlparse_html()
	r##"<html>
	<p>mime-modified <b>set</b>; simplify is always regarded as lossy.</p>
	</html>

	"##
	);
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_htmlparse_alt_plain_html() {
	let t = TestContext::new().await;
	let raw = include_bytes!("../test-data/message/text_alt_plain_html.eml");
	let parser = HtmlMsgParser::from_bytes(&t.ctx, raw).await.unwrap();
	assert_eq!(
	parser.html.replace('\r', ""), // see comment in test_htmlparse_html()
	r##"<html>
	<p>
	this is <b>html</b>
	</p>
	</html>

	"##
	);
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_htmlparse_apple_cid_jpg() {
	// load raw mime html-data with related image-part (cid:)
	// and make sure, Content-Id has angle-brackets that are removed correctly.
	let t = TestContext::new().await;
	let raw = include_bytes!("../test-data/message/apple_cid_jpg.eml");
	let test = String::from_utf8_lossy(raw);
	assert!(test.contains("Content-Id: <8AE052EF-BC90-486F-BB78-58D3590308EC@fritz.box>"));
	assert!(test.contains("cid:8AE052EF-BC90-486F-BB78-58D3590308EC@fritz.box"));
	assert!(test.find("data:").is_none());

	// parsing converts cid: to data:
	let parser = HtmlMsgParser::from_bytes(&t.ctx, raw).await.unwrap();
	assert!(parser.html.contains("<html>"));
	assert!(!parser.html.contains("Content-Id:"));
	assert!(parser.html.contains("data:image/jpeg;base64,/9j/4AAQ"));
	assert!(!parser.html.contains("cid:"));
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_get_html_invalid_msgid() {
	let t = TestContext::new().await;
	let msg_id = MsgId::new(100);
	assert!(msg_id.get_html(&t).await.is_err())
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_html_forwarding() {
	// alice receives a non-delta html-message
	let alice = TestContext::new_alice().await;
	let chat = alice
	.create_chat_with_contact("", "sender@testrun.org")
	.await;
	let raw = include_bytes!("../test-data/message/text_alt_plain_html.eml");
	receive_imf(&alice, raw, false).await.unwrap();
	let msg = alice.get_last_msg_in(chat.get_id()).await;
	assert_ne!(msg.get_from_id(), ContactId::SELF);
	assert_eq!(msg.is_dc_message, MessengerMessage::No);
	assert!(!msg.is_forwarded());
	assert!(msg.get_text().contains("this is plain"));
	assert!(msg.has_html());
	let html = msg.get_id().get_html(&alice).await.unwrap().unwrap();
	assert!(html.contains("this is <b>html</b>"));

	// alice: create chat with bob and forward received html-message there
	let chat = alice.create_chat_with_contact("", "bob@example.net").await;
	forward_msgs(&alice, &[msg.get_id()], chat.get_id())
	.await
	.unwrap();
	let msg = alice.get_last_msg_in(chat.get_id()).await;
	assert_eq!(msg.get_from_id(), ContactId::SELF);
	assert_eq!(msg.is_dc_message, MessengerMessage::Yes);
	assert!(msg.is_forwarded());
	assert!(msg.get_text().contains("this is plain"));
	assert!(msg.has_html());
	let html = msg.get_id().get_html(&alice).await.unwrap().unwrap();
	assert!(html.contains("this is <b>html</b>"));

	// bob: check that bob also got the html-part of the forwarded message
	let bob = TestContext::new_bob().await;
	let chat = bob.create_chat_with_contact("", "alice@example.org").await;
	let msg = bob.recv_msg(&alice.pop_sent_msg().await).await;
	assert_eq!(chat.id, msg.chat_id);
	assert_ne!(msg.get_from_id(), ContactId::SELF);
	assert_eq!(msg.is_dc_message, MessengerMessage::Yes);
	assert!(msg.is_forwarded());
	assert!(msg.get_text().contains("this is plain"));
	assert!(msg.has_html());
	let html = msg.get_id().get_html(&bob).await.unwrap().unwrap();
	assert!(html.contains("this is <b>html</b>"));
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_html_forwarding_encrypted() {
	// Alice receives a non-delta html-message
	// (`ShowEmails=AcceptedContacts` lets Alice actually receive non-delta messages for known
	// contacts, the contact is marked as known by creating a chat using `chat_with_contact()`)
	let alice = TestContext::new_alice().await;
	alice
	.set_config(Config::ShowEmails, Some("1"))
	.await
	.unwrap();
	let chat = alice
	.create_chat_with_contact("", "sender@testrun.org")
	.await;
	let raw = include_bytes!("../test-data/message/text_alt_plain_html.eml");
	receive_imf(&alice, raw, false).await.unwrap();
	let msg = alice.get_last_msg_in(chat.get_id()).await;

	// forward the message to saved-messages,
	// this will encrypt the message as new_alice() has set up keys
	let chat = alice.get_self_chat().await;
	forward_msgs(&alice, &[msg.get_id()], chat.get_id())
	.await
	.unwrap();
	let msg = alice.pop_sent_msg().await;

	// receive the message on another device
	let alice = TestContext::new_alice().await;
	alice
	.set_config(Config::ShowEmails, Some("0"))
	.await
	.unwrap();
	let msg = alice.recv_msg(&msg).await;
	assert_eq!(msg.chat_id, alice.get_self_chat().await.id);
	assert_eq!(msg.get_from_id(), ContactId::SELF);
	assert_eq!(msg.is_dc_message, MessengerMessage::Yes);
	assert!(msg.get_showpadlock());
	assert!(msg.is_forwarded());
	assert!(msg.get_text().contains("this is plain"));
	assert!(msg.has_html());
	let html = msg.get_id().get_html(&alice).await.unwrap().unwrap();
	assert!(html.contains("this is <b>html</b>"));
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_set_html() {
	let alice = TestContext::new_alice().await;
	let bob = TestContext::new_bob().await;

	// alice sends a message with html-part to bob
	let chat_id = alice.create_chat(&bob).await.id;
	let mut msg = Message::new(Viewtype::Text);
	msg.set_text("plain text".to_string());
	msg.set_html(Some("<b>html</b> text".to_string()));
	assert!(msg.mime_modified);
	chat::send_msg(&alice, chat_id, &mut msg).await.unwrap();

	// check the message is written correctly to alice's db
	let msg = alice.get_last_msg_in(chat_id).await;
	assert_eq!(msg.get_text(), "plain text");
	assert!(!msg.is_forwarded());
	assert!(msg.mime_modified);
	let html = msg.get_id().get_html(&alice).await.unwrap().unwrap();
	assert!(html.contains("<b>html</b> text"));

	// let bob receive the message
	let chat_id = bob.create_chat(&alice).await.id;
	let msg = bob.recv_msg(&alice.pop_sent_msg().await).await;
	assert_eq!(msg.chat_id, chat_id);
	assert_eq!(msg.get_text(), "plain text");
	assert!(!msg.is_forwarded());
	assert!(msg.mime_modified);
	let html = msg.get_id().get_html(&bob).await.unwrap().unwrap();
	assert!(html.contains("<b>html</b> text"));
	}

	#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
	async fn test_cp1252_html() -> Result<()> {
	let t = TestContext::new_alice().await;
	receive_imf(
	&t,
	include_bytes!("../test-data/message/cp1252-html.eml"),
	false,
	)
	.await?;
	let msg = t.get_last_msg().await;
	assert_eq!(msg.viewtype, Viewtype::Text);
	assert!(msg.text.contains("foo bar ä ö ü ß"));
	assert!(msg.has_html());
	let html = msg.get_id().get_html(&t).await?.unwrap();
	println!("{html}");
	assert!(html.contains("foo bar ä ö ü ß"));
	Ok(())
	}
	}