//! # Handle webxdc messages. //! //! Internally status updates are stored in the `msgs_status_updates` SQL table. //! `msgs_status_updates` contains the following columns: //! - `id` - status update serial number //! - `msg_id` - ID of the message in the `msgs` table //! - `update_item` - JSON representation of the status update //! - `uid` - "id" field of the update, used for deduplication //! //! Status updates are scheduled for sending by adding a record //! to `smtp_status_updates_table` SQL table. //! `smtp_status_updates` contains the following columns: //! - `msg_id` - ID of the message in the `msgs` table //! - `first_serial` - serial number of the first status update to send //! - `last_serial` - serial number of the last status update to send //! - `descr` - not used, set to empty string mod integration; mod maps_integration; use std::cmp::max; use std::collections::HashMap; use std::path::Path; use anyhow::{anyhow, bail, ensure, format_err, Context as _, Result}; use async_zip::tokio::read::fs::ZipFileReader as FsZipFileReader; use deltachat_contact_tools::sanitize_bidi_characters; use deltachat_derive::FromSql; use lettre_email::PartBuilder; use rusqlite::OptionalExtension; use serde::{Deserialize, Serialize}; use serde_json::Value; use sha2::{Digest, Sha256}; use crate::chat::{self, Chat}; use crate::constants::Chattype; use crate::contact::ContactId; use crate::context::Context; use crate::events::EventType; use crate::key::{load_self_public_key, DcKey}; use crate::message::{Message, MessageState, MsgId, Viewtype}; use crate::mimefactory::wrapped_base64_encode; use crate::mimefactory::RECOMMENDED_FILE_SIZE; use crate::mimeparser::SystemMessage; use crate::param::Param; use crate::param::Params; use crate::tools::create_id; use crate::tools::{create_smeared_timestamp, get_abs_path}; /// The current API version. /// If `min_api` in manifest.toml is set to a larger value, /// the Webxdc's index.html is replaced by an error message. /// In the future, that may be useful to avoid new Webxdc being loaded on old Delta Chats. const WEBXDC_API_VERSION: u32 = 1; /// Suffix used to recognize webxdc files. pub const WEBXDC_SUFFIX: &str = "xdc"; const WEBXDC_DEFAULT_ICON: &str = "__webxdc__/default-icon.png"; /// Text shown to classic e-mail users in the visible e-mail body. const BODY_DESCR: &str = "Webxdc Status Update"; /// Raw information read from manifest.toml #[derive(Debug, Deserialize, Default)] #[non_exhaustive] pub struct WebxdcManifest { /// Webxdc name, used on icons or page titles. pub name: Option, /// Minimum API version required to run this webxdc. pub min_api: Option, /// Optional URL of webxdc source code. pub source_code_url: Option, /// Set to "map" to request integration. pub request_integration: Option, } /// Parsed information from WebxdcManifest and fallbacks. #[derive(Debug, Serialize)] pub struct WebxdcInfo { /// The name of the app. /// Defaults to filename if not set in the manifest. pub name: String, /// Filename of the app icon. pub icon: String, /// If the webxdc represents a document and allows to edit it, /// this is the document name. /// Otherwise an empty string. pub document: String, /// Short description of the webxdc state. /// For example, "7 votes". pub summary: String, /// URL of webxdc source code or an empty string. pub source_code_url: String, /// Set to "map" to request integration, otherwise an empty string. pub request_integration: String, /// If the webxdc is allowed to access the network. /// It should request access, be encrypted /// and sent to self for this. pub internet_access: bool, /// Address to be used for `window.webxdc.selfAddr` in JS land. pub self_addr: String, /// Milliseconds to wait before calling `sendUpdate()` again since the last call. /// Should be exposed to `window.sendUpdateInterval` in JS land. pub send_update_interval: usize, /// Maximum number of bytes accepted for a serialized update object. /// Should be exposed to `window.sendUpdateMaxSize` in JS land. pub send_update_max_size: usize, } /// Status Update ID. #[derive( Debug, Copy, Clone, Default, PartialEq, Eq, Hash, PartialOrd, Ord, Serialize, Deserialize, FromSql, FromPrimitive, )] pub struct StatusUpdateSerial(u32); impl StatusUpdateSerial { /// Create a new [StatusUpdateSerial]. pub fn new(id: u32) -> StatusUpdateSerial { StatusUpdateSerial(id) } /// Minimum value. pub const MIN: Self = Self(1); /// Maximum value. pub const MAX: Self = Self(u32::MAX - 1); /// Gets StatusUpdateSerial as untyped integer. /// Avoid using this outside ffi. pub fn to_u32(self) -> u32 { self.0 } } impl rusqlite::types::ToSql for StatusUpdateSerial { fn to_sql(&self) -> rusqlite::Result { let val = rusqlite::types::Value::Integer(i64::from(self.0)); let out = rusqlite::types::ToSqlOutput::Owned(val); Ok(out) } } // Array of update items as sent on the wire. #[derive(Debug, Deserialize)] struct StatusUpdates { updates: Vec, } /// Update items as sent on the wire and as stored in the database. #[derive(Debug, Serialize, Deserialize, Default)] pub struct StatusUpdateItem { /// The playload of the status update. pub payload: Value, /// Optional short info message that will be displayed in the chat. /// For example "Alice added an item" or "Bob voted for option x". #[serde(skip_serializing_if = "Option::is_none")] pub info: Option, /// Optional link the info message will point to. /// Used to set `window.location.href` in JS land. #[serde(skip_serializing_if = "Option::is_none")] pub href: Option, /// The new name of the editing document. /// This is not needed if the webxdc doesn't edit documents. #[serde(skip_serializing_if = "Option::is_none")] pub document: Option, /// Optional summary of the status update which will be shown next to the /// app icon. This should be short and can be something like "8 votes" /// for a voting app. #[serde(skip_serializing_if = "Option::is_none")] pub summary: Option, /// Unique ID for deduplication. /// This can be used if the message is sent over multiple transports. /// /// If there is no ID, message is always considered to be unique. #[serde(skip_serializing_if = "Option::is_none")] pub uid: Option, /// Array of other users `selfAddr` that should be notified about this update. #[serde(skip_serializing_if = "Option::is_none")] pub notify: Option>, } /// Update items as passed to the UIs. #[derive(Debug, Serialize, Deserialize)] pub(crate) struct StatusUpdateItemAndSerial { #[serde(flatten)] item: StatusUpdateItem, serial: StatusUpdateSerial, max_serial: StatusUpdateSerial, } /// Returns an entry index and a reference. fn find_zip_entry<'a>( file: &'a async_zip::ZipFile, name: &str, ) -> Option<(usize, &'a async_zip::StoredZipEntry)> { for (i, ent) in file.entries().iter().enumerate() { if ent.filename().as_bytes() == name.as_bytes() { return Some((i, ent)); } } None } /// Status update JSON size soft limit. const STATUS_UPDATE_SIZE_MAX: usize = 100 << 10; impl Context { /// check if a file is an acceptable webxdc for sending or receiving. pub(crate) async fn is_webxdc_file(&self, filename: &str, file: &[u8]) -> Result { if !filename.ends_with(WEBXDC_SUFFIX) { return Ok(false); } let archive = match async_zip::base::read::mem::ZipFileReader::new(file.to_vec()).await { Ok(archive) => archive, Err(_) => { info!(self, "{} cannot be opened as zip-file", &filename); return Ok(false); } }; if find_zip_entry(archive.file(), "index.html").is_none() { info!(self, "{} misses index.html", &filename); return Ok(false); } Ok(true) } /// Ensure that a file is an acceptable webxdc for sending. pub(crate) async fn ensure_sendable_webxdc_file(&self, path: &Path) -> Result<()> { let filename = path.to_str().unwrap_or_default(); if !filename.ends_with(WEBXDC_SUFFIX) { bail!("{} is not a valid webxdc file", filename); } let valid = match FsZipFileReader::new(path).await { Ok(archive) => { if find_zip_entry(archive.file(), "index.html").is_none() { warn!(self, "{} misses index.html", filename); false } else { true } } Err(_) => { warn!(self, "{} cannot be opened as zip-file", filename); false } }; if !valid { bail!("{} is not a valid webxdc file", filename); } Ok(()) } /// Check if the last message of a chat is an info message belonging to the given instance and sender. /// If so, the id of this message is returned. async fn get_overwritable_info_msg_id( &self, instance: &Message, from_id: ContactId, ) -> Result> { if let Some((last_msg_id, last_from_id, last_param, last_in_repl_to)) = self .sql .query_row_optional( r#"SELECT id, from_id, param, mime_in_reply_to FROM msgs WHERE chat_id=?1 AND hidden=0 ORDER BY timestamp DESC, id DESC LIMIT 1"#, (instance.chat_id,), |row| { let last_msg_id: MsgId = row.get(0)?; let last_from_id: ContactId = row.get(1)?; let last_param: Params = row.get::<_, String>(2)?.parse().unwrap_or_default(); let last_in_repl_to: String = row.get(3)?; Ok((last_msg_id, last_from_id, last_param, last_in_repl_to)) }, ) .await? { if last_from_id == from_id && last_param.get_cmd() == SystemMessage::WebxdcInfoMessage && last_in_repl_to == instance.rfc724_mid { return Ok(Some(last_msg_id)); } } Ok(None) } /// Takes an update-json as `{payload: PAYLOAD}` /// writes it to the database and handles events, info-messages, document name and summary. async fn create_status_update_record( &self, instance: &Message, status_update_item: StatusUpdateItem, timestamp: i64, can_info_msg: bool, from_id: ContactId, ) -> Result> { let Some(status_update_serial) = self .write_status_update_inner(&instance.id, &status_update_item, timestamp) .await? else { return Ok(None); }; let mut notify_msg_id = instance.id; let mut param_changed = false; let mut instance = instance.clone(); if let Some(ref document) = status_update_item.document { if instance .param .update_timestamp(Param::WebxdcDocumentTimestamp, timestamp)? { instance.param.set(Param::WebxdcDocument, document); param_changed = true; } } if let Some(ref summary) = status_update_item.summary { if instance .param .update_timestamp(Param::WebxdcSummaryTimestamp, timestamp)? { let summary = sanitize_bidi_characters(summary); instance.param.set(Param::WebxdcSummary, summary.clone()); param_changed = true; } } if can_info_msg { if let Some(ref info) = status_update_item.info { let info_msg_id = self .get_overwritable_info_msg_id(&instance, from_id) .await?; if let (Some(info_msg_id), None) = (info_msg_id, &status_update_item.href) { chat::update_msg_text_and_timestamp( self, instance.chat_id, info_msg_id, info.as_str(), timestamp, ) .await?; notify_msg_id = info_msg_id; } else { notify_msg_id = chat::add_info_msg_with_cmd( self, instance.chat_id, info.as_str(), SystemMessage::WebxdcInfoMessage, timestamp, None, Some(&instance), Some(from_id), ) .await?; } if let Some(ref href) = status_update_item.href { let mut notify_msg = Message::load_from_db(self, notify_msg_id).await?; notify_msg.param.set(Param::Arg, href); notify_msg.update_param(self).await?; } } } if param_changed { instance.update_param(self).await?; self.emit_msgs_changed(instance.chat_id, instance.id); } if instance.viewtype == Viewtype::Webxdc { self.emit_event(EventType::WebxdcStatusUpdate { msg_id: instance.id, status_update_serial, }); } if from_id != ContactId::SELF { if let Some(notify_list) = status_update_item.notify { let self_addr = instance.get_webxdc_self_addr(self).await?; if let Some(notify_text) = notify_list.get(&self_addr).or_else(|| notify_list.get("*")) { self.emit_event(EventType::IncomingWebxdcNotify { chat_id: instance.chat_id, contact_id: from_id, msg_id: notify_msg_id, text: notify_text.clone(), href: status_update_item.href, }); } } } Ok(Some(status_update_serial)) } /// Inserts a status update item into `msgs_status_updates` table. /// /// Returns serial ID of the status update if a new item is inserted. pub(crate) async fn write_status_update_inner( &self, instance_id: &MsgId, status_update_item: &StatusUpdateItem, timestamp: i64, ) -> Result> { let uid = status_update_item.uid.as_deref(); let status_update_item = serde_json::to_string(&status_update_item)?; let trans_fn = |t: &mut rusqlite::Transaction| { t.execute( "UPDATE msgs SET timestamp_rcvd=? WHERE id=?", (timestamp, instance_id), )?; let rowid = t .query_row( "INSERT INTO msgs_status_updates (msg_id, update_item, uid) VALUES(?, ?, ?) ON CONFLICT (uid) DO NOTHING RETURNING id", (instance_id, status_update_item, uid), |row| { let id: u32 = row.get(0)?; Ok(id) }, ) .optional()?; Ok(rowid) }; let Some(rowid) = self.sql.transaction(trans_fn).await? else { let uid = uid.unwrap_or("-"); info!(self, "Ignoring duplicate status update with uid={uid}"); return Ok(None); }; let status_update_serial = StatusUpdateSerial(rowid); Ok(Some(status_update_serial)) } /// Returns the update_item with `status_update_serial` from the webxdc with message id `msg_id`. pub async fn get_status_update( &self, msg_id: MsgId, status_update_serial: StatusUpdateSerial, ) -> Result { self.sql .query_get_value( "SELECT update_item FROM msgs_status_updates WHERE id=? AND msg_id=? ", (status_update_serial.0, msg_id), ) .await? .context("get_status_update: no update item found.") } /// Sends a status update for an webxdc instance. /// /// If the instance is a draft, /// the status update is sent once the instance is actually sent. /// Otherwise, the update is sent as soon as possible. pub async fn send_webxdc_status_update( &self, instance_msg_id: MsgId, update_str: &str, ) -> Result<()> { let status_update_item: StatusUpdateItem = serde_json::from_str(update_str) .with_context(|| format!("Failed to parse webxdc update item from {update_str:?}"))?; self.send_webxdc_status_update_struct(instance_msg_id, status_update_item) .await?; Ok(()) } /// Sends a status update for an webxdc instance. /// Also see [Self::send_webxdc_status_update] pub async fn send_webxdc_status_update_struct( &self, instance_msg_id: MsgId, mut status_update: StatusUpdateItem, ) -> Result<()> { let instance = Message::load_from_db(self, instance_msg_id) .await .with_context(|| { format!("Failed to load message {instance_msg_id} from the database") })?; let viewtype = instance.viewtype; if viewtype != Viewtype::Webxdc { bail!("send_webxdc_status_update: message {instance_msg_id} is not a webxdc message, but a {viewtype} message."); } if instance.param.get_int(Param::WebxdcIntegration).is_some() { return self .intercept_send_webxdc_status_update(instance, status_update) .await; } let chat_id = instance.chat_id; let chat = Chat::load_from_db(self, chat_id) .await .with_context(|| format!("Failed to load chat {chat_id} from the database"))?; if let Some(reason) = chat.why_cant_send(self).await.with_context(|| { format!("Failed to check if webxdc update can be sent to chat {chat_id}") })? { bail!("Cannot send to {chat_id}: {reason}."); } let send_now = !matches!( instance.state, MessageState::Undefined | MessageState::OutPreparing | MessageState::OutDraft ); status_update.uid = Some(create_id()); let status_update_serial: StatusUpdateSerial = self .create_status_update_record( &instance, status_update, create_smeared_timestamp(self), send_now, ContactId::SELF, ) .await .context("Failed to create status update")? .context("Duplicate status update UID was generated")?; if send_now { self.sql.insert( "INSERT INTO smtp_status_updates (msg_id, first_serial, last_serial, descr) VALUES(?, ?, ?, '') ON CONFLICT(msg_id) DO UPDATE SET last_serial=excluded.last_serial", (instance.id, status_update_serial, status_update_serial), ).await.context("Failed to insert webxdc update into SMTP queue")?; self.scheduler.interrupt_smtp().await; } Ok(()) } /// Returns one record of the queued webxdc status updates. async fn smtp_status_update_get(&self) -> Result> { let res = self .sql .query_row_optional( "SELECT msg_id, first_serial, last_serial \ FROM smtp_status_updates LIMIT 1", (), |row| { let instance_id: MsgId = row.get(0)?; let first_serial: i64 = row.get(1)?; let last_serial: StatusUpdateSerial = row.get(2)?; Ok((instance_id, first_serial, last_serial)) }, ) .await?; Ok(res) } async fn smtp_status_update_pop_serials( &self, msg_id: MsgId, first: i64, first_new: StatusUpdateSerial, ) -> Result<()> { if self .sql .execute( "DELETE FROM smtp_status_updates \ WHERE msg_id=? AND first_serial=? AND last_serial 0 { return Ok(()); } self.sql .execute( "UPDATE smtp_status_updates SET first_serial=? \ WHERE msg_id=? AND first_serial=?", (first_new, msg_id, first), ) .await?; Ok(()) } /// Attempts to send queued webxdc status updates. pub(crate) async fn flush_status_updates(&self) -> Result<()> { loop { let (instance_id, first, last) = match self.smtp_status_update_get().await? { Some(res) => res, None => return Ok(()), }; let (json, first_new) = self .render_webxdc_status_update_object( instance_id, StatusUpdateSerial(max(first, 1).try_into()?), last, Some(STATUS_UPDATE_SIZE_MAX), ) .await?; if let Some(json) = json { let instance = Message::load_from_db(self, instance_id).await?; let mut status_update = Message { chat_id: instance.chat_id, viewtype: Viewtype::Text, text: BODY_DESCR.to_string(), hidden: true, ..Default::default() }; status_update .param .set_cmd(SystemMessage::WebxdcStatusUpdate); status_update.param.set(Param::Arg, json); status_update.set_quote(self, Some(&instance)).await?; status_update.param.remove(Param::GuaranteeE2ee); // may be set by set_quote(), if #2985 is done, this line can be removed chat::send_msg(self, instance.chat_id, &mut status_update).await?; } self.smtp_status_update_pop_serials(instance_id, first, first_new) .await?; } } pub(crate) fn build_status_update_part(&self, json: &str) -> PartBuilder { let encoded_body = wrapped_base64_encode(json.as_bytes()); PartBuilder::new() .content_type(&"application/json".parse::().unwrap()) .header(( "Content-Disposition", "attachment; filename=\"status-update.json\"", )) .header(("Content-Transfer-Encoding", "base64")) .body(encoded_body) } /// Receives status updates from receive_imf to the database /// and sends out an event. /// /// `instance` is a webxdc instance. /// /// `from_id` is the sender. /// /// `timestamp` is the timestamp of the update. /// /// `json` is an array containing one or more update items as created by send_webxdc_status_update(), /// the array is parsed using serde, the single payloads are used as is. pub(crate) async fn receive_status_update( &self, from_id: ContactId, instance: &Message, timestamp: i64, can_info_msg: bool, json: &str, ) -> Result<()> { let chat_id = instance.chat_id; if from_id != ContactId::SELF && !chat::is_contact_in_chat(self, chat_id, from_id).await? { let chat_type: Chattype = self .sql .query_get_value("SELECT type FROM chats WHERE id=?", (chat_id,)) .await? .with_context(|| format!("Chat type for chat {chat_id} not found"))?; if chat_type != Chattype::Mailinglist { bail!("receive_status_update: status sender {from_id} is not a member of chat {chat_id}") } } let updates: StatusUpdates = serde_json::from_str(json)?; for update_item in updates.updates { self.create_status_update_record( instance, update_item, timestamp, can_info_msg, from_id, ) .await?; } Ok(()) } /// Returns status updates as an JSON-array, ready to be consumed by a webxdc. /// /// Example: `[{"serial":1, "max_serial":3, "payload":"any update data"}, /// {"serial":3, "max_serial":3, "payload":"another update data"}]` /// Updates with serials larger than `last_known_serial` are returned. /// If no last serial is known, set `last_known_serial` to 0. /// If no updates are available, an empty JSON-array is returned. pub async fn get_webxdc_status_updates( &self, instance_msg_id: MsgId, last_known_serial: StatusUpdateSerial, ) -> Result { let param = instance_msg_id.get_param(self).await?; if param.get_int(Param::WebxdcIntegration).is_some() { let instance = Message::load_from_db(self, instance_msg_id).await?; return self .intercept_get_webxdc_status_updates(instance, last_known_serial) .await; } let json = self .sql .query_map( "SELECT update_item, id FROM msgs_status_updates WHERE msg_id=? AND id>? ORDER BY id", (instance_msg_id, last_known_serial), |row| { let update_item_str = row.get::<_, String>(0)?; let serial = row.get::<_, StatusUpdateSerial>(1)?; Ok((update_item_str, serial)) }, |rows| { let mut rows_copy : Vec<(String, StatusUpdateSerial)> = Vec::new(); // `rows_copy` needed as `rows` cannot be iterated twice. let mut max_serial = StatusUpdateSerial(0); for row in rows { let row = row?; if row.1 > max_serial { max_serial = row.1; } rows_copy.push(row); } let mut json = String::default(); for row in rows_copy { let (update_item_str, serial) = row; let update_item = StatusUpdateItemAndSerial { item: StatusUpdateItem { uid: None, // Erase UIDs, apps, bots and tests don't need to know them. ..serde_json::from_str(&update_item_str)? }, serial, max_serial, }; if !json.is_empty() { json.push_str(",\n"); } json.push_str(&serde_json::to_string(&update_item)?); } Ok(json) }, ) .await?; Ok(format!("[{json}]")) } /// Renders JSON-object for status updates as used on the wire. /// /// Returns optional JSON and the first serial of updates not included due to a JSON size /// limit. If all requested updates are included, returns the first not requested serial. /// /// Example JSON: `{"updates": [{"payload":"any update data"}, /// {"payload":"another update data"}]}` /// /// * `(first, last)`: range of status update serials to send. pub(crate) async fn render_webxdc_status_update_object( &self, instance_msg_id: MsgId, first: StatusUpdateSerial, last: StatusUpdateSerial, size_max: Option, ) -> Result<(Option, StatusUpdateSerial)> { let (json, first_new) = self .sql .query_map( "SELECT id, update_item FROM msgs_status_updates \ WHERE msg_id=? AND id>=? AND id<=? ORDER BY id", (instance_msg_id, first, last), |row| { let id: StatusUpdateSerial = row.get(0)?; let update_item: String = row.get(1)?; Ok((id, update_item)) }, |rows| { let mut json = String::default(); for row in rows { let (id, update_item) = row?; if !json.is_empty() && json.len() + update_item.len() >= size_max.unwrap_or(usize::MAX) { return Ok((json, id)); } if !json.is_empty() { json.push_str(",\n"); } json.push_str(&update_item); } Ok(( json, // Too late to fail here if an overflow happens. It's still better to send // the updates. StatusUpdateSerial::new(last.to_u32().saturating_add(1)), )) }, ) .await?; let json = match json.is_empty() { true => None, false => Some(format!(r#"{{"updates":[{json}]}}"#)), }; Ok((json, first_new)) } } fn parse_webxdc_manifest(bytes: &[u8]) -> Result { let s = std::str::from_utf8(bytes)?; let manifest: WebxdcManifest = toml::from_str(s)?; Ok(manifest) } async fn get_blob(archive: &FsZipFileReader, name: &str) -> Result> { let (i, _) = find_zip_entry(archive.file(), name) .ok_or_else(|| anyhow!("no entry found for {}", name))?; let mut reader = archive.reader_with_entry(i).await?; let mut buf = Vec::new(); reader.read_to_end_checked(&mut buf).await?; Ok(buf) } impl Message { /// Get handle to a webxdc ZIP-archive. /// To check for file existence use archive.by_name(), to read a file, use get_blob(archive). async fn get_webxdc_archive(&self, context: &Context) -> Result { let path = self .get_file(context) .ok_or_else(|| format_err!("No webxdc instance file."))?; let path_abs = get_abs_path(context, &path); let archive = FsZipFileReader::new(path_abs).await?; Ok(archive) } /// Return file from inside an archive. /// Currently, this works only if the message is an webxdc instance. /// /// `name` is the filename within the archive, e.g. `index.html`. pub async fn get_webxdc_blob(&self, context: &Context, name: &str) -> Result> { ensure!(self.viewtype == Viewtype::Webxdc, "No webxdc instance."); if name == WEBXDC_DEFAULT_ICON { return Ok(include_bytes!("../assets/icon-webxdc.png").to_vec()); } // ignore first slash. // this way, files can be accessed absolutely (`/index.html`) as well as relatively (`index.html`) let name = if name.starts_with('/') { name.split_at(1).1 } else { name }; let archive = self.get_webxdc_archive(context).await?; if name == "index.html" { if let Ok(bytes) = get_blob(&archive, "manifest.toml").await { if let Ok(manifest) = parse_webxdc_manifest(&bytes) { if let Some(min_api) = manifest.min_api { if min_api > WEBXDC_API_VERSION { return Ok(Vec::from( "This Webxdc requires a newer Delta Chat version.", )); } } } } } get_blob(&archive, name).await } /// Return info from manifest.toml or from fallbacks. pub async fn get_webxdc_info(&self, context: &Context) -> Result { ensure!(self.viewtype == Viewtype::Webxdc, "No webxdc instance."); let archive = self.get_webxdc_archive(context).await?; let mut manifest = get_blob(&archive, "manifest.toml") .await .map(|bytes| parse_webxdc_manifest(&bytes).unwrap_or_default()) .unwrap_or_default(); if let Some(ref name) = manifest.name { let name = name.trim(); if name.is_empty() { warn!(context, "empty name given in manifest"); manifest.name = None; } } let request_integration = manifest.request_integration.unwrap_or_default(); let is_integrated = self.is_set_as_webxdc_integration(context).await?; let internet_access = is_integrated; let self_addr = self.get_webxdc_self_addr(context).await?; Ok(WebxdcInfo { name: if let Some(name) = manifest.name { name } else { self.get_filename().unwrap_or_default() }, icon: if find_zip_entry(archive.file(), "icon.png").is_some() { "icon.png".to_string() } else if find_zip_entry(archive.file(), "icon.jpg").is_some() { "icon.jpg".to_string() } else { WEBXDC_DEFAULT_ICON.to_string() }, document: self .param .get(Param::WebxdcDocument) .unwrap_or_default() .to_string(), summary: if is_integrated { "🌍 Used as map. Delete to use default. Do not enter sensitive data".to_string() } else if request_integration == "map" { "🌏 To use as map, forward to \"Saved Messages\" again. Do not enter sensitive data" .to_string() } else { self.param .get(Param::WebxdcSummary) .unwrap_or_default() .to_string() }, source_code_url: if let Some(url) = manifest.source_code_url { url } else { "".to_string() }, request_integration, internet_access, self_addr, send_update_interval: context.ratelimit.read().await.update_interval(), send_update_max_size: RECOMMENDED_FILE_SIZE as usize, }) } async fn get_webxdc_self_addr(&self, context: &Context) -> Result { let fingerprint = load_self_public_key(context).await?.dc_fingerprint().hex(); let data = format!("{}-{}", fingerprint, self.rfc724_mid); let hash = Sha256::digest(data.as_bytes()); Ok(format!("{:x}", hash)) } /// Get link attached to an info message. /// /// The info message needs to be of type SystemMessage::WebxdcInfoMessage. /// Typically, this is used to start the corresponding webxdc app /// with `window.location.href` set in JS land. pub fn get_webxdc_href(&self) -> Option { self.param.get(Param::Arg).map(|href| href.to_string()) } } #[cfg(test)] mod tests { use std::time::Duration; use regex::Regex; use serde_json::json; use super::*; use crate::chat::{ add_contact_to_chat, create_broadcast_list, create_group_chat, forward_msgs, remove_contact_from_chat, resend_msgs, send_msg, send_text_msg, ChatId, ProtectionStatus, }; use crate::chatlist::Chatlist; use crate::config::Config; use crate::contact::Contact; use crate::download::DownloadState; use crate::ephemeral; use crate::receive_imf::{receive_imf, receive_imf_from_inbox}; use crate::test_utils::{TestContext, TestContextManager}; use crate::tools::{self, SystemTime}; use crate::{message, sql}; #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_is_webxdc_file() -> Result<()> { let t = TestContext::new().await; assert!( !t.is_webxdc_file( "bad-ext-no-zip.txt", include_bytes!("../test-data/message/issue_523.txt") ) .await? ); assert!( !t.is_webxdc_file( "bad-ext-good-zip.txt", include_bytes!("../test-data/webxdc/minimal.xdc") ) .await? ); assert!( !t.is_webxdc_file( "good-ext-no-zip.xdc", include_bytes!("../test-data/message/issue_523.txt") ) .await? ); assert!( !t.is_webxdc_file( "good-ext-no-index-html.xdc", include_bytes!("../test-data/webxdc/no-index-html.xdc") ) .await? ); assert!( t.is_webxdc_file( "good-ext-good-zip.xdc", include_bytes!("../test-data/webxdc/minimal.xdc") ) .await? ); Ok(()) } async fn create_webxdc_instance(t: &TestContext, name: &str, bytes: &[u8]) -> Result { let mut instance = Message::new(Viewtype::File); instance.set_file_from_bytes(t, name, bytes, None).await?; Ok(instance) } async fn send_webxdc_instance(t: &TestContext, chat_id: ChatId) -> Result { let mut instance = create_webxdc_instance( t, "minimal.xdc", include_bytes!("../test-data/webxdc/minimal.xdc"), ) .await?; let instance_msg_id = send_msg(t, chat_id, &mut instance).await?; assert_eq!(instance.viewtype, Viewtype::Webxdc); Message::load_from_db(t, instance_msg_id).await } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_send_webxdc_instance() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; // send as .xdc file let instance = send_webxdc_instance(&t, chat_id).await?; assert_eq!(instance.viewtype, Viewtype::Webxdc); assert_eq!(instance.get_filename(), Some("minimal.xdc".to_string())); assert_eq!(instance.chat_id, chat_id); // sending using bad extension is not working, even when setting Viewtype to webxdc let mut instance = Message::new(Viewtype::Webxdc); instance .set_file_from_bytes(&t, "index.html", b"ola!", None) .await?; assert!(send_msg(&t, chat_id, &mut instance).await.is_err()); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_send_invalid_webxdc() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; // sending invalid .xdc as file is possible, but must not result in Viewtype::Webxdc let mut instance = create_webxdc_instance( &t, "invalid-no-zip-but-7z.xdc", include_bytes!("../test-data/webxdc/invalid-no-zip-but-7z.xdc"), ) .await?; let instance_id = send_msg(&t, chat_id, &mut instance).await?; assert_eq!(instance.viewtype, Viewtype::File); let test = Message::load_from_db(&t, instance_id).await?; assert_eq!(test.viewtype, Viewtype::File); // sending invalid .xdc as Viewtype::Webxdc should fail already on sending let mut instance = Message::new(Viewtype::Webxdc); instance .set_file_from_bytes( &t, "invalid2.xdc", include_bytes!("../test-data/webxdc/invalid-no-zip-but-7z.xdc"), None, ) .await?; assert!(send_msg(&t, chat_id, &mut instance).await.is_err()); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_send_special_webxdc_format() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; // chess.xdc is failing for some zip-versions, see #3476, if we know more details about why, we can have a nicer name for the test :) let mut instance = create_webxdc_instance( &t, "chess.xdc", include_bytes!("../test-data/webxdc/chess.xdc"), ) .await?; let instance_id = send_msg(&t, chat_id, &mut instance).await?; let instance = Message::load_from_db(&t, instance_id).await?; assert_eq!(instance.viewtype, Viewtype::Webxdc); let info = instance.get_webxdc_info(&t).await?; assert_eq!(info.name, "Chess Board"); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_forward_webxdc_instance() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; let instance = send_webxdc_instance(&t, chat_id).await?; t.send_webxdc_status_update( instance.id, r#"{"info": "foo", "summary":"bar", "document":"doc", "payload": 42}"#, ) .await?; assert!(!instance.is_forwarded()); assert_eq!( t.get_webxdc_status_updates(instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":42,"info":"foo","document":"doc","summary":"bar","serial":1,"max_serial":1}]"# ); assert_eq!(chat_id.get_msg_cnt(&t).await?, 2); // instance and info let info = Message::load_from_db(&t, instance.id) .await? .get_webxdc_info(&t) .await?; assert_eq!(info.summary, "bar".to_string()); assert_eq!(info.document, "doc".to_string()); // forwarding an instance creates a fresh instance; updates etc. are not forwarded forward_msgs(&t, &[instance.get_id()], chat_id).await?; let instance2 = t.get_last_msg_in(chat_id).await; assert!(instance2.is_forwarded()); assert_eq!( t.get_webxdc_status_updates(instance2.id, StatusUpdateSerial(0)) .await?, "[]" ); assert_eq!(chat_id.get_msg_cnt(&t).await?, 3); // two instances, only one info let info = Message::load_from_db(&t, instance2.id) .await? .get_webxdc_info(&t) .await?; assert_eq!(info.summary, "".to_string()); assert_eq!(info.document, "".to_string()); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_resend_webxdc_instance_and_info() -> Result<()> { let mut tcm = TestContextManager::new(); // Alice uses webxdc in a group let alice = tcm.alice().await; alice.set_config_bool(Config::BccSelf, false).await?; let alice_grp = create_group_chat(&alice, ProtectionStatus::Unprotected, "grp").await?; let alice_instance = send_webxdc_instance(&alice, alice_grp).await?; assert_eq!(alice_grp.get_msg_cnt(&alice).await?, 1); alice .send_webxdc_status_update( alice_instance.id, r#"{"payload":7,"info": "i","summary":"s"}"#, ) .await?; assert_eq!(alice_grp.get_msg_cnt(&alice).await?, 2); assert!(alice.get_last_msg_in(alice_grp).await.is_info()); // Alice adds Bob and resends already used webxdc add_contact_to_chat( &alice, alice_grp, Contact::create(&alice, "", "bob@example.net").await?, ) .await?; assert_eq!(alice_grp.get_msg_cnt(&alice).await?, 3); resend_msgs(&alice, &[alice_instance.id]).await?; let sent1 = alice.pop_sent_msg().await; alice.flush_status_updates().await?; let sent2 = alice.pop_sent_msg().await; // Bob receives webxdc, legacy info-messages updates are received and added to the chat. let bob = tcm.bob().await; let bob_instance = bob.recv_msg(&sent1).await; bob.recv_msg_trash(&sent2).await; assert_eq!(bob_instance.viewtype, Viewtype::Webxdc); assert!(!bob_instance.is_info()); assert_eq!( bob.get_webxdc_status_updates(bob_instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":7,"info":"i","summary":"s","serial":1,"max_serial":1}]"# ); let bob_grp = bob_instance.chat_id; assert_eq!(bob.get_last_msg_in(bob_grp).await.id, bob_instance.id); assert_eq!(bob_grp.get_msg_cnt(&bob).await?, 1); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_receive_webxdc_instance() -> Result<()> { let t = TestContext::new_alice().await; receive_imf( &t, include_bytes!("../test-data/message/webxdc_good_extension.eml"), false, ) .await?; let instance = t.get_last_msg().await; assert_eq!(instance.viewtype, Viewtype::Webxdc); assert_eq!(instance.get_filename().unwrap(), "minimal.xdc"); receive_imf( &t, include_bytes!("../test-data/message/webxdc_bad_extension.eml"), false, ) .await?; let instance = t.get_last_msg().await; assert_eq!(instance.viewtype, Viewtype::File); // we require the correct extension, only a mime type is not sufficient assert_eq!(instance.get_filename().unwrap(), "index.html"); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_contact_request() -> Result<()> { let alice = TestContext::new_alice().await; let bob = TestContext::new_bob().await; // Alice sends an webxdc instance to Bob let alice_chat = alice.create_chat(&bob).await; let _alice_instance = send_webxdc_instance(&alice, alice_chat.id).await?; bob.recv_msg(&alice.pop_sent_msg().await).await; // Bob can start the webxdc from a contact request (get index.html) // but cannot send updates to contact requests let bob_instance = bob.get_last_msg().await; let bob_chat = Chat::load_from_db(&bob, bob_instance.chat_id).await?; assert!(bob_chat.is_contact_request()); assert!(bob_instance .get_webxdc_blob(&bob, "index.html") .await .is_ok()); assert!(bob .send_webxdc_status_update(bob_instance.id, r#"{"payload":42}"#) .await .is_err()); assert_eq!( bob.get_webxdc_status_updates(bob_instance.id, StatusUpdateSerial(0)) .await?, "[]" ); // Once the contact request is accepted, Bob can send updates bob_chat.id.accept(&bob).await?; assert!(bob .send_webxdc_status_update(bob_instance.id, r#"{"payload":42}"#) .await .is_ok()); assert_eq!( bob.get_webxdc_status_updates(bob_instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":42,"serial":1,"max_serial":1}]"# ); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_update_for_not_downloaded_instance() -> Result<()> { // Alice sends a larger instance and an update let alice = TestContext::new_alice().await; let bob = TestContext::new_bob().await; let chat = alice.create_chat(&bob).await; bob.set_config(Config::DownloadLimit, Some("40000")).await?; let mut alice_instance = create_webxdc_instance( &alice, "chess.xdc", include_bytes!("../test-data/webxdc/chess.xdc"), ) .await?; let sent1 = alice.send_msg(chat.id, &mut alice_instance).await; let alice_instance = sent1.load_from_db().await; alice .send_webxdc_status_update( alice_instance.id, r#"{"payload": 7, "summary":"sum", "document":"doc"}"#, ) .await?; alice.flush_status_updates().await?; let sent2 = alice.pop_sent_msg().await; // Bob does not download instance but already receives update receive_imf_from_inbox( &bob, &alice_instance.rfc724_mid, sent1.payload().as_bytes(), false, Some(70790), false, ) .await?; let bob_instance = bob.get_last_msg().await; bob_instance.chat_id.accept(&bob).await?; bob.recv_msg_trash(&sent2).await; assert_eq!(bob_instance.download_state, DownloadState::Available); // Bob downloads instance, updates should be assigned correctly let received_msg = receive_imf_from_inbox( &bob, &alice_instance.rfc724_mid, sent1.payload().as_bytes(), false, None, false, ) .await? .unwrap(); assert_eq!(*received_msg.msg_ids.first().unwrap(), bob_instance.id); let bob_instance = bob.get_last_msg().await; assert_eq!(bob_instance.viewtype, Viewtype::Webxdc); assert_eq!(bob_instance.download_state, DownloadState::Done); assert_eq!( bob.get_webxdc_status_updates(bob_instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":7,"document":"doc","summary":"sum","serial":1,"max_serial":1}]"# ); let info = bob_instance.get_webxdc_info(&bob).await?; assert_eq!(info.document, "doc"); assert_eq!(info.summary, "sum"); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_delete_webxdc_instance() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; let instance = send_webxdc_instance(&t, chat_id).await?; let now = tools::time(); t.receive_status_update( ContactId::SELF, &instance, now, true, r#"{"updates":[{"payload":1}]}"#, ) .await?; assert_eq!( t.sql .count("SELECT COUNT(*) FROM msgs_status_updates;", ()) .await?, 1 ); message::delete_msgs(&t, &[instance.id]).await?; sql::housekeeping(&t).await?; assert_eq!( t.sql .count("SELECT COUNT(*) FROM msgs_status_updates;", ()) .await?, 0 ); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_delete_chat_with_webxdc() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; let instance = send_webxdc_instance(&t, chat_id).await?; let now = tools::time(); t.receive_status_update( ContactId::SELF, &instance, now, true, r#"{"updates":[{"payload":1}, {"payload":2}]}"#, ) .await?; assert_eq!( t.sql .count("SELECT COUNT(*) FROM msgs_status_updates;", ()) .await?, 2 ); chat_id.delete(&t).await?; sql::housekeeping(&t).await?; assert_eq!( t.sql .count("SELECT COUNT(*) FROM msgs_status_updates;", ()) .await?, 0 ); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_delete_webxdc_draft() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; let mut instance = create_webxdc_instance( &t, "minimal.xdc", include_bytes!("../test-data/webxdc/minimal.xdc"), ) .await?; chat_id.set_draft(&t, Some(&mut instance)).await?; let instance = chat_id.get_draft(&t).await?.unwrap(); t.send_webxdc_status_update(instance.id, r#"{"payload": 42}"#) .await?; assert_eq!( t.get_webxdc_status_updates(instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":42,"serial":1,"max_serial":1}]"#.to_string() ); // set_draft(None) deletes the message without the need to simulate network chat_id.set_draft(&t, None).await?; assert_eq!( t.get_webxdc_status_updates(instance.id, StatusUpdateSerial(0)) .await?, "[]".to_string() ); assert_eq!( t.sql .count("SELECT COUNT(*) FROM msgs_status_updates;", ()) .await?, 0 ); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_create_status_update_record() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; let instance = send_webxdc_instance(&t, chat_id).await?; assert_eq!( t.get_webxdc_status_updates(instance.id, StatusUpdateSerial(0)) .await?, "[]" ); let update_id1 = t .create_status_update_record( &instance, StatusUpdateItem { payload: json!({"foo": "bar"}), info: None, href: None, document: None, summary: None, uid: Some("iecie2Ze".to_string()), notify: None, }, 1640178619, true, ContactId::SELF, ) .await? .unwrap(); assert_eq!( t.get_webxdc_status_updates(instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":{"foo":"bar"},"serial":1,"max_serial":1}]"# ); // Update with duplicate update ID is received. // Whatever the payload is, update should be ignored just because ID is duplicate. let update_id1_duplicate = t .create_status_update_record( &instance, StatusUpdateItem { payload: json!({"nothing": "this should be ignored"}), info: None, href: None, document: None, summary: None, uid: Some("iecie2Ze".to_string()), notify: None, }, 1640178619, true, ContactId::SELF, ) .await?; assert_eq!(update_id1_duplicate, None); assert!(t .send_webxdc_status_update(instance.id, "\n\n\n") .await .is_err()); assert!(t .send_webxdc_status_update(instance.id, "bad json") .await .is_err()); assert_eq!( t.get_webxdc_status_updates(instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":{"foo":"bar"},"serial":1,"max_serial":1}]"# ); let update_id2 = t .create_status_update_record( &instance, StatusUpdateItem { payload: json!({"foo2": "bar2"}), info: None, href: None, document: None, summary: None, uid: None, notify: None, }, 1640178619, true, ContactId::SELF, ) .await? .unwrap(); assert_eq!( t.get_webxdc_status_updates(instance.id, update_id1).await?, r#"[{"payload":{"foo2":"bar2"},"serial":3,"max_serial":3}]"# ); t.create_status_update_record( &instance, StatusUpdateItem { payload: Value::Bool(true), info: None, href: None, document: None, summary: None, uid: None, notify: None, }, 1640178619, true, ContactId::SELF, ) .await?; assert_eq!( t.get_webxdc_status_updates(instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":{"foo":"bar"},"serial":1,"max_serial":4}, {"payload":{"foo2":"bar2"},"serial":3,"max_serial":4}, {"payload":true,"serial":4,"max_serial":4}]"# ); t.send_webxdc_status_update( instance.id, r#"{"payload" : 1, "sender": "that is not used"}"#, ) .await?; assert_eq!( t.get_webxdc_status_updates(instance.id, update_id2).await?, r#"[{"payload":true,"serial":4,"max_serial":5}, {"payload":1,"serial":5,"max_serial":5}]"# ); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_receive_status_update() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; let instance = send_webxdc_instance(&t, chat_id).await?; let now = tools::time(); assert!(t .receive_status_update(ContactId::SELF, &instance, now, true, r#"foo: bar"#) .await .is_err()); // no json assert!(t .receive_status_update( ContactId::SELF, &instance, now, true, r#"{"updada":[{"payload":{"foo":"bar"}}]}"# ) .await .is_err()); // "updates" object missing assert!(t .receive_status_update( ContactId::SELF, &instance, now, true, r#"{"updates":[{"foo":"bar"}]}"# ) .await .is_err()); // "payload" field missing assert!(t .receive_status_update( ContactId::SELF, &instance, now, true, r#"{"updates":{"payload":{"foo":"bar"}}}"# ) .await .is_err()); // not an array t.receive_status_update( ContactId::SELF, &instance, now, true, r#"{"updates":[{"payload":{"foo":"bar"}, "someTrash": "definitely TrAsH"}]}"#, ) .await?; assert_eq!( t.get_webxdc_status_updates(instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":{"foo":"bar"},"serial":1,"max_serial":1}]"# ); t.receive_status_update( ContactId::SELF, &instance, now, true, r#" {"updates": [ {"payload" :42} , {"payload": 23} ] } "#, ) .await?; assert_eq!( t.get_webxdc_status_updates(instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":{"foo":"bar"},"serial":1,"max_serial":3}, {"payload":42,"serial":2,"max_serial":3}, {"payload":23,"serial":3,"max_serial":3}]"# ); t.receive_status_update( ContactId::SELF, &instance, now, true, r#" {"updates": [ {"payload" :"ok", "future_item": "test"} ], "from": "future" } "#, ) .await?; // ignore members that may be added in the future assert_eq!( t.get_webxdc_status_updates(instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":{"foo":"bar"},"serial":1,"max_serial":4}, {"payload":42,"serial":2,"max_serial":4}, {"payload":23,"serial":3,"max_serial":4}, {"payload":"ok","serial":4,"max_serial":4}]"# ); Ok(()) } async fn expect_status_update_event(t: &TestContext, instance_id: MsgId) -> Result<()> { let event = t .evtracker .get_matching(|evt| matches!(evt, EventType::WebxdcStatusUpdate { .. })) .await; match event { EventType::WebxdcStatusUpdate { msg_id, status_update_serial: _, } => { assert_eq!(msg_id, instance_id); } _ => unreachable!(), } Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_send_webxdc_status_update() -> Result<()> { let alice = TestContext::new_alice().await; alice.set_config_bool(Config::BccSelf, true).await?; let bob = TestContext::new_bob().await; // Alice sends an webxdc instance and a status update let alice_chat = alice.create_chat(&bob).await; let alice_instance = send_webxdc_instance(&alice, alice_chat.id).await?; let sent1 = &alice.pop_sent_msg().await; assert_eq!(alice_instance.viewtype, Viewtype::Webxdc); assert!(!sent1.payload().contains("report-type=status-update")); alice .send_webxdc_status_update(alice_instance.id, r#"{"payload" : {"foo":"bar"}}"#) .await?; alice.flush_status_updates().await?; expect_status_update_event(&alice, alice_instance.id).await?; let sent2 = &alice.pop_sent_msg().await; let alice_update = sent2.load_from_db().await; assert!(alice_update.hidden); assert_eq!(alice_update.viewtype, Viewtype::Text); assert_eq!(alice_update.get_filename(), None); assert_eq!(alice_update.text, BODY_DESCR.to_string()); assert_eq!(alice_update.chat_id, alice_instance.chat_id); assert_eq!( alice_update.parent(&alice).await?.unwrap().id, alice_instance.id ); assert_eq!(alice_chat.id.get_msg_cnt(&alice).await?, 1); assert!(sent2.payload().contains("report-type=status-update")); assert!(sent2.payload().contains(BODY_DESCR)); assert_eq!( alice .get_webxdc_status_updates(alice_instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":{"foo":"bar"},"serial":1,"max_serial":1}]"# ); alice .send_webxdc_status_update(alice_instance.id, r#"{"payload":{"snipp":"snapp"}}"#) .await?; assert_eq!( alice .get_webxdc_status_updates(alice_instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":{"foo":"bar"},"serial":1,"max_serial":2}, {"payload":{"snipp":"snapp"},"serial":2,"max_serial":2}]"# ); // Bob receives all messages let bob_instance = bob.recv_msg(sent1).await; let bob_chat_id = bob_instance.chat_id; assert_eq!(bob_instance.rfc724_mid, alice_instance.rfc724_mid); assert_eq!(bob_instance.viewtype, Viewtype::Webxdc); assert_eq!(bob_chat_id.get_msg_cnt(&bob).await?, 1); let bob_received_update = bob.recv_msg_opt(sent2).await; assert!(bob_received_update.is_none()); expect_status_update_event(&bob, bob_instance.id).await?; assert_eq!(bob_chat_id.get_msg_cnt(&bob).await?, 1); assert_eq!( bob.get_webxdc_status_updates(bob_instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":{"foo":"bar"},"serial":1,"max_serial":1}]"# ); // Alice has a second device and also receives messages there let alice2 = TestContext::new_alice().await; alice2.recv_msg(sent1).await; alice2.recv_msg_trash(sent2).await; let alice2_instance = alice2.get_last_msg().await; let alice2_chat_id = alice2_instance.chat_id; assert_eq!(alice2_instance.viewtype, Viewtype::Webxdc); assert_eq!(alice2_chat_id.get_msg_cnt(&alice2).await?, 1); // To support the second device, Alice has enabled bcc_self and will receive their own messages; // these messages, however, should be ignored alice.recv_msg_opt(sent1).await; alice.recv_msg_opt(sent2).await; assert_eq!(alice_chat.id.get_msg_cnt(&alice).await?, 1); assert_eq!( alice .get_webxdc_status_updates(alice_instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":{"foo":"bar"},"serial":1,"max_serial":2}, {"payload":{"snipp":"snapp"},"serial":2,"max_serial":2}]"# ); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_send_big_webxdc_status_update() -> Result<()> { let alice = TestContext::new_alice().await; alice.set_config_bool(Config::BccSelf, true).await?; let bob = TestContext::new_bob().await; let alice_chat = alice.create_chat(&bob).await; let alice_instance = send_webxdc_instance(&alice, alice_chat.id).await?; let sent1 = &alice.pop_sent_msg().await; assert_eq!(alice_instance.viewtype, Viewtype::Webxdc); assert!(!sent1.payload().contains("report-type=status-update")); let update1_str = r#"{"payload":{"foo":""#.to_string() + &String::from_utf8(vec![b'a'; STATUS_UPDATE_SIZE_MAX])? + r#""}"#; alice .send_webxdc_status_update(alice_instance.id, &(update1_str.clone() + "}")) .await?; alice .send_webxdc_status_update(alice_instance.id, r#"{"payload" : {"foo":"bar2"}}"#) .await?; alice .send_webxdc_status_update(alice_instance.id, r#"{"payload" : {"foo":"bar3"}}"#) .await?; alice.flush_status_updates().await?; // There's the message stack, so we pop messages in the reverse order. let sent3 = &alice.pop_sent_msg().await; let alice_update = sent3.load_from_db().await; assert_eq!(alice_update.text, BODY_DESCR.to_string()); let sent2 = &alice.pop_sent_msg().await; let alice_update = sent2.load_from_db().await; assert_eq!(alice_update.text, BODY_DESCR.to_string()); assert_eq!(alice_chat.id.get_msg_cnt(&alice).await?, 1); // Bob receives the instance. let bob_instance = bob.recv_msg(sent1).await; let bob_chat_id = bob_instance.chat_id; assert_eq!(bob_instance.rfc724_mid, alice_instance.rfc724_mid); assert_eq!(bob_instance.viewtype, Viewtype::Webxdc); assert_eq!(bob_chat_id.get_msg_cnt(&bob).await?, 1); // Bob receives the status updates. bob.recv_msg_trash(sent2).await; expect_status_update_event(&bob, bob_instance.id).await?; assert_eq!( bob.get_webxdc_status_updates(bob_instance.id, StatusUpdateSerial(0)) .await?, "[".to_string() + &update1_str + r#","serial":1,"max_serial":1}]"# ); bob.recv_msg_trash(sent3).await; for _ in 0..2 { expect_status_update_event(&bob, bob_instance.id).await?; } assert_eq!( bob.get_webxdc_status_updates(bob_instance.id, StatusUpdateSerial(1)) .await?, r#"[{"payload":{"foo":"bar2"},"serial":2,"max_serial":3}, {"payload":{"foo":"bar3"},"serial":3,"max_serial":3}]"# ); assert_eq!(bob_chat_id.get_msg_cnt(&bob).await?, 1); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_render_webxdc_status_update_object() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "a chat").await?; let mut instance = create_webxdc_instance( &t, "minimal.xdc", include_bytes!("../test-data/webxdc/minimal.xdc"), ) .await?; chat_id.set_draft(&t, Some(&mut instance)).await?; let (first, last) = (StatusUpdateSerial(1), StatusUpdateSerial::MAX); assert_eq!( t.render_webxdc_status_update_object(instance.id, first, last, None) .await?, (None, StatusUpdateSerial(u32::MAX)) ); t.send_webxdc_status_update(instance.id, r#"{"payload": 1}"#) .await?; let (object, first_new) = t .render_webxdc_status_update_object(instance.id, first, last, None) .await?; assert!(object.is_some()); assert_eq!(first_new, StatusUpdateSerial(u32::MAX)); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_render_webxdc_status_update_object_range() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "a chat").await?; let instance = send_webxdc_instance(&t, chat_id).await?; t.send_webxdc_status_update(instance.id, r#"{"payload": 1}"#) .await?; t.send_webxdc_status_update(instance.id, r#"{"payload": 2}"#) .await?; t.send_webxdc_status_update(instance.id, r#"{"payload": 3}"#) .await?; t.send_webxdc_status_update(instance.id, r#"{"payload": 4}"#) .await?; let (json, first_new) = t .render_webxdc_status_update_object( instance.id, StatusUpdateSerial(2), StatusUpdateSerial(3), None, ) .await?; let json = json.unwrap(); assert_eq!(first_new, StatusUpdateSerial(4)); let json = Regex::new(r#""uid":"[^"]*""#) .unwrap() .replace_all(&json, "XXX"); assert_eq!( json, "{\"updates\":[{\"payload\":2,XXX},\n{\"payload\":3,XXX}]}" ); assert_eq!( t.sql .count("SELECT COUNT(*) FROM smtp_status_updates", ()) .await?, 1 ); t.flush_status_updates().await?; assert_eq!( t.sql .count("SELECT COUNT(*) FROM smtp_status_updates", ()) .await?, 0 ); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_pop_status_update() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "a chat").await?; let instance1 = send_webxdc_instance(&t, chat_id).await?; let instance2 = send_webxdc_instance(&t, chat_id).await?; let instance3 = send_webxdc_instance(&t, chat_id).await?; assert!(t.smtp_status_update_get().await?.is_none()); t.send_webxdc_status_update(instance1.id, r#"{"payload": "1a"}"#) .await?; t.send_webxdc_status_update(instance2.id, r#"{"payload": "2a"}"#) .await?; t.send_webxdc_status_update(instance2.id, r#"{"payload": "2b"}"#) .await?; t.send_webxdc_status_update(instance3.id, r#"{"payload": "3a"}"#) .await?; t.send_webxdc_status_update(instance3.id, r#"{"payload": "3b"}"#) .await?; t.send_webxdc_status_update(instance3.id, r#"{"payload": "3c"}"#) .await?; assert_eq!( t.sql .count("SELECT COUNT(*) FROM smtp_status_updates", ()) .await?, 3 ); // order of smtp_status_update_get() is not defined, therefore the more complicated test let mut instances_checked = 0; for i in 0..3 { let (instance, min_ser, max_ser) = t.smtp_status_update_get().await?.unwrap(); t.smtp_status_update_pop_serials( instance, min_ser, StatusUpdateSerial::new(max_ser.to_u32().checked_add(1).unwrap()), ) .await?; let min_ser: u32 = min_ser.try_into()?; if instance == instance1.id { assert_eq!(min_ser, max_ser.to_u32()); instances_checked += 1; } else if instance == instance2.id { assert_eq!(min_ser, max_ser.to_u32() - 1); instances_checked += 1; } else if instance == instance3.id { assert_eq!(min_ser, max_ser.to_u32() - 2); instances_checked += 1; } else { bail!("unexpected instance"); } assert_eq!( t.sql .count("SELECT COUNT(*) FROM smtp_status_updates", ()) .await?, 2 - i ); } assert_eq!(instances_checked, 3); assert!(t.smtp_status_update_get().await?.is_none()); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_draft_and_send_webxdc_status_update() -> Result<()> { let alice = TestContext::new_alice().await; let bob = TestContext::new_bob().await; let alice_chat_id = alice.create_chat(&bob).await.id; // prepare webxdc instance, // status updates are not sent for drafts, therefore send_webxdc_status_update() returns Ok(None) let mut alice_instance = create_webxdc_instance( &alice, "minimal.xdc", include_bytes!("../test-data/webxdc/minimal.xdc"), ) .await?; alice_chat_id .set_draft(&alice, Some(&mut alice_instance)) .await?; let mut alice_instance = alice_chat_id.get_draft(&alice).await?.unwrap(); alice .send_webxdc_status_update(alice_instance.id, r#"{"payload": {"foo":"bar"}}"#) .await?; expect_status_update_event(&alice, alice_instance.id).await?; alice .send_webxdc_status_update(alice_instance.id, r#"{"payload":42, "info":"i"}"#) .await?; expect_status_update_event(&alice, alice_instance.id).await?; assert_eq!( alice .sql .count("SELECT COUNT(*) FROM smtp_status_updates", ()) .await?, 0 ); assert!(!alice.get_last_msg().await.is_info()); // 'info: "i"' message not added in draft mode // send webxdc instance, // the initial status updates are sent together in the same message let alice_instance_id = send_msg(&alice, alice_chat_id, &mut alice_instance).await?; let sent1 = alice.pop_sent_msg().await; let alice_instance = Message::load_from_db(&alice, alice_instance_id).await?; assert_eq!(alice_instance.viewtype, Viewtype::Webxdc); assert_eq!( alice_instance.get_filename(), Some("minimal.xdc".to_string()) ); assert_eq!(alice_instance.chat_id, alice_chat_id); // bob receives the instance together with the initial updates in a single message let bob_instance = bob.recv_msg(&sent1).await; assert_eq!(bob_instance.viewtype, Viewtype::Webxdc); assert_eq!(bob_instance.get_filename().unwrap(), "minimal.xdc"); assert!(sent1.payload().contains("Content-Type: application/json")); assert!(sent1.payload().contains("status-update.json")); assert_eq!( bob.get_webxdc_status_updates(bob_instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":{"foo":"bar"},"serial":1,"max_serial":2}, {"payload":42,"info":"i","serial":2,"max_serial":2}]"# ); assert!(!bob.get_last_msg().await.is_info()); // 'info: "i"' message not added in draft mode Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_send_webxdc_status_update_to_non_webxdc() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; let msg_id = send_text_msg(&t, chat_id, "ho!".to_string()).await?; assert!(t .send_webxdc_status_update(msg_id, r#"{"foo":"bar"}"#) .await .is_err()); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_get_webxdc_blob() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; let instance = send_webxdc_instance(&t, chat_id).await?; let buf = instance.get_webxdc_blob(&t, "index.html").await?; assert_eq!(buf.len(), 188); assert!(String::from_utf8_lossy(&buf).contains("document.write")); assert!(instance .get_webxdc_blob(&t, "not-existent.html") .await .is_err()); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_get_webxdc_blob_default_icon() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; let instance = send_webxdc_instance(&t, chat_id).await?; let buf = instance.get_webxdc_blob(&t, WEBXDC_DEFAULT_ICON).await?; assert!(buf.len() > 100); assert!(String::from_utf8_lossy(&buf).contains("PNG\r\n")); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_get_webxdc_blob_with_absolute_paths() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; let instance = send_webxdc_instance(&t, chat_id).await?; let buf = instance.get_webxdc_blob(&t, "/index.html").await?; assert!(String::from_utf8_lossy(&buf).contains("document.write")); assert!(instance.get_webxdc_blob(&t, "/not-there").await.is_err()); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_get_webxdc_blob_with_subdirs() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; let mut instance = create_webxdc_instance( &t, "some-files.xdc", include_bytes!("../test-data/webxdc/some-files.xdc"), ) .await?; chat_id.set_draft(&t, Some(&mut instance)).await?; let buf = instance.get_webxdc_blob(&t, "index.html").await?; assert_eq!(buf.len(), 65); assert!(String::from_utf8_lossy(&buf).contains("many files")); let buf = instance.get_webxdc_blob(&t, "subdir/bla.txt").await?; assert_eq!(buf.len(), 4); assert!(String::from_utf8_lossy(&buf).starts_with("bla")); let buf = instance .get_webxdc_blob(&t, "subdir/subsubdir/text.md") .await?; assert_eq!(buf.len(), 24); assert!(String::from_utf8_lossy(&buf).starts_with("this is a markdown file")); let buf = instance .get_webxdc_blob(&t, "subdir/subsubdir/text2.md") .await?; assert_eq!(buf.len(), 22); assert!(String::from_utf8_lossy(&buf).starts_with("another markdown")); let buf = instance .get_webxdc_blob(&t, "anotherdir/anothersubsubdir/foo.txt") .await?; assert_eq!(buf.len(), 4); assert!(String::from_utf8_lossy(&buf).starts_with("foo")); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_parse_webxdc_manifest() -> Result<()> { let result = parse_webxdc_manifest(r#"key = syntax error"#.as_bytes()); assert!(result.is_err()); let manifest = parse_webxdc_manifest(r#"no_name = "no name, no icon""#.as_bytes())?; assert_eq!(manifest.name, None); let manifest = parse_webxdc_manifest(r#"name = "name, no icon""#.as_bytes())?; assert_eq!(manifest.name, Some("name, no icon".to_string())); let manifest = parse_webxdc_manifest( r#"name = "foo" icon = "bar""# .as_bytes(), )?; assert_eq!(manifest.name, Some("foo".to_string())); let manifest = parse_webxdc_manifest( r#"name = "foz" icon = "baz" add_item = "that should be just ignored" [section] sth_for_the = "future""# .as_bytes(), )?; assert_eq!(manifest.name, Some("foz".to_string())); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_parse_webxdc_manifest_min_api() -> Result<()> { let manifest = parse_webxdc_manifest(r#"min_api = 3"#.as_bytes())?; assert_eq!(manifest.min_api, Some(3)); let result = parse_webxdc_manifest(r#"min_api = "1""#.as_bytes()); assert!(result.is_err()); let result = parse_webxdc_manifest(r#"min_api = 1.2"#.as_bytes()); assert!(result.is_err()); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_parse_webxdc_manifest_source_code_url() -> Result<()> { let result = parse_webxdc_manifest(r#"source_code_url = 3"#.as_bytes()); assert!(result.is_err()); let manifest = parse_webxdc_manifest(r#"source_code_url = "https://foo.bar""#.as_bytes())?; assert_eq!( manifest.source_code_url, Some("https://foo.bar".to_string()) ); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_min_api_too_large() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "chat").await?; let mut instance = create_webxdc_instance( &t, "with-min-api-1001.xdc", include_bytes!("../test-data/webxdc/with-min-api-1001.xdc"), ) .await?; send_msg(&t, chat_id, &mut instance).await?; let instance = t.get_last_msg().await; let html = instance.get_webxdc_blob(&t, "index.html").await?; assert!(String::from_utf8_lossy(&html).contains("requires a newer Delta Chat version")); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_get_webxdc_info() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; let instance = send_webxdc_instance(&t, chat_id).await?; let info = instance.get_webxdc_info(&t).await?; assert_eq!(info.name, "minimal.xdc"); assert_eq!(info.icon, WEBXDC_DEFAULT_ICON.to_string()); assert_eq!(info.send_update_interval, 10000); assert_eq!(info.send_update_max_size, RECOMMENDED_FILE_SIZE as usize); let mut instance = create_webxdc_instance( &t, "with-manifest-empty-name.xdc", include_bytes!("../test-data/webxdc/with-manifest-empty-name.xdc"), ) .await?; chat_id.set_draft(&t, Some(&mut instance)).await?; let info = instance.get_webxdc_info(&t).await?; assert_eq!(info.name, "with-manifest-empty-name.xdc"); assert_eq!(info.icon, WEBXDC_DEFAULT_ICON.to_string()); let mut instance = create_webxdc_instance( &t, "with-manifest-no-name.xdc", include_bytes!("../test-data/webxdc/with-manifest-no-name.xdc"), ) .await?; chat_id.set_draft(&t, Some(&mut instance)).await?; let info = instance.get_webxdc_info(&t).await?; assert_eq!(info.name, "with-manifest-no-name.xdc"); assert_eq!(info.icon, WEBXDC_DEFAULT_ICON.to_string()); let mut instance = create_webxdc_instance( &t, "with-minimal-manifest.xdc", include_bytes!("../test-data/webxdc/with-minimal-manifest.xdc"), ) .await?; chat_id.set_draft(&t, Some(&mut instance)).await?; let info = instance.get_webxdc_info(&t).await?; assert_eq!(info.name, "nice app!"); assert_eq!(info.icon, WEBXDC_DEFAULT_ICON.to_string()); let mut instance = create_webxdc_instance( &t, "with-manifest-and-png-icon.xdc", include_bytes!("../test-data/webxdc/with-manifest-and-png-icon.xdc"), ) .await?; chat_id.set_draft(&t, Some(&mut instance)).await?; let info = instance.get_webxdc_info(&t).await?; assert_eq!(info.name, "with some icon"); assert_eq!(info.icon, "icon.png"); let mut instance = create_webxdc_instance( &t, "with-png-icon.xdc", include_bytes!("../test-data/webxdc/with-png-icon.xdc"), ) .await?; chat_id.set_draft(&t, Some(&mut instance)).await?; let info = instance.get_webxdc_info(&t).await?; assert_eq!(info.name, "with-png-icon.xdc"); assert_eq!(info.icon, "icon.png"); let mut instance = create_webxdc_instance( &t, "with-jpg-icon.xdc", include_bytes!("../test-data/webxdc/with-jpg-icon.xdc"), ) .await?; chat_id.set_draft(&t, Some(&mut instance)).await?; let info = instance.get_webxdc_info(&t).await?; assert_eq!(info.name, "with-jpg-icon.xdc"); assert_eq!(info.icon, "icon.jpg"); let msg_id = send_text_msg(&t, chat_id, "foo".to_string()).await?; let msg = Message::load_from_db(&t, msg_id).await?; let result = msg.get_webxdc_info(&t).await; assert!(result.is_err()); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_get_webxdc_self_addr() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "foo").await?; let instance = send_webxdc_instance(&t, chat_id).await?; let info1 = instance.get_webxdc_info(&t).await?; let instance = send_webxdc_instance(&t, chat_id).await?; let info2 = instance.get_webxdc_info(&t).await?; let real_addr = t.get_primary_self_addr().await?; assert!(!info1.self_addr.contains(&real_addr)); assert_ne!(info1.self_addr, info2.self_addr); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_info_summary() -> Result<()> { let alice = TestContext::new_alice().await; let bob = TestContext::new_bob().await; // Alice creates an webxdc instance and updates summary let alice_chat = alice.create_chat(&bob).await; let alice_instance = send_webxdc_instance(&alice, alice_chat.id).await?; let sent_instance = &alice.pop_sent_msg().await; let info = alice_instance.get_webxdc_info(&alice).await?; assert_eq!(info.summary, "".to_string()); alice .send_webxdc_status_update(alice_instance.id, r#"{"summary":"sum: 1", "payload":1}"#) .await?; alice.flush_status_updates().await?; let sent_update1 = &alice.pop_sent_msg().await; let info = Message::load_from_db(&alice, alice_instance.id) .await? .get_webxdc_info(&alice) .await?; assert_eq!(info.summary, "sum: 1".to_string()); alice .send_webxdc_status_update(alice_instance.id, r#"{"summary":"sum: 2", "payload":2}"#) .await?; alice.flush_status_updates().await?; let sent_update2 = &alice.pop_sent_msg().await; let info = Message::load_from_db(&alice, alice_instance.id) .await? .get_webxdc_info(&alice) .await?; assert_eq!(info.summary, "sum: 2".to_string()); // Bob receives the updates let bob_instance = bob.recv_msg(sent_instance).await; bob.recv_msg_trash(sent_update1).await; bob.recv_msg_trash(sent_update2).await; let info = Message::load_from_db(&bob, bob_instance.id) .await? .get_webxdc_info(&bob) .await?; assert_eq!(info.summary, "sum: 2".to_string()); // Alice has a second device and also receives the updates there let alice2 = TestContext::new_alice().await; let alice2_instance = alice2.recv_msg(sent_instance).await; alice2.recv_msg_trash(sent_update1).await; alice2.recv_msg_trash(sent_update2).await; let info = Message::load_from_db(&alice2, alice2_instance.id) .await? .get_webxdc_info(&alice2) .await?; assert_eq!(info.summary, "sum: 2".to_string()); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_document_name() -> Result<()> { let alice = TestContext::new_alice().await; let bob = TestContext::new_bob().await; // Alice creates an webxdc instance and updates document name let alice_chat = alice.create_chat(&bob).await; let alice_instance = send_webxdc_instance(&alice, alice_chat.id).await?; let sent_instance = &alice.pop_sent_msg().await; let info = alice_instance.get_webxdc_info(&alice).await?; assert_eq!(info.document, "".to_string()); assert_eq!(info.summary, "".to_string()); alice .send_webxdc_status_update( alice_instance.id, r#"{"document":"my file", "payload":1337}"#, ) .await?; alice.flush_status_updates().await?; let sent_update1 = &alice.pop_sent_msg().await; let info = Message::load_from_db(&alice, alice_instance.id) .await? .get_webxdc_info(&alice) .await?; assert_eq!(info.document, "my file".to_string()); assert_eq!(info.summary, "".to_string()); // Bob receives the updates let bob_instance = bob.recv_msg(sent_instance).await; bob.recv_msg_trash(sent_update1).await; let info = Message::load_from_db(&bob, bob_instance.id) .await? .get_webxdc_info(&bob) .await?; assert_eq!(info.document, "my file".to_string()); assert_eq!(info.summary, "".to_string()); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_info_msg() -> Result<()> { let alice = TestContext::new_alice().await; let bob = TestContext::new_bob().await; // Alice sends update with an info message let alice_chat = alice.create_chat(&bob).await; let alice_instance = send_webxdc_instance(&alice, alice_chat.id).await?; let sent1 = &alice.pop_sent_msg().await; assert_eq!(alice_chat.id.get_msg_cnt(&alice).await?, 1); alice .send_webxdc_status_update( alice_instance.id, r#"{"info":"this appears in-chat", "payload":"sth. else"}"#, ) .await?; alice.flush_status_updates().await?; let sent2 = &alice.pop_sent_msg().await; assert_eq!(alice_chat.id.get_msg_cnt(&alice).await?, 2); let info_msg = alice.get_last_msg().await; assert!(info_msg.is_info()); assert_eq!(info_msg.get_info_type(), SystemMessage::WebxdcInfoMessage); assert_eq!(info_msg.from_id, ContactId::SELF); assert_eq!(info_msg.get_text(), "this appears in-chat"); assert_eq!( info_msg.parent(&alice).await?.unwrap().id, alice_instance.id ); assert!(info_msg.quoted_message(&alice).await?.is_none()); assert_eq!( alice .get_webxdc_status_updates(alice_instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":"sth. else","info":"this appears in-chat","serial":1,"max_serial":1}]"# ); // Bob receives all messages let bob_instance = bob.recv_msg(sent1).await; let bob_chat_id = bob_instance.chat_id; bob.recv_msg_trash(sent2).await; assert_eq!(bob_chat_id.get_msg_cnt(&bob).await?, 2); let info_msg = bob.get_last_msg().await; assert!(info_msg.is_info()); assert_eq!(info_msg.get_info_type(), SystemMessage::WebxdcInfoMessage); assert!(!info_msg.from_id.is_special()); assert_eq!(info_msg.get_text(), "this appears in-chat"); assert_eq!(info_msg.parent(&bob).await?.unwrap().id, bob_instance.id); assert!(info_msg.quoted_message(&bob).await?.is_none()); assert_eq!( bob.get_webxdc_status_updates(bob_instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":"sth. else","info":"this appears in-chat","serial":1,"max_serial":1}]"# ); // Alice has a second device and also receives the info message there let alice2 = TestContext::new_alice().await; let alice2_instance = alice2.recv_msg(sent1).await; let alice2_chat_id = alice2_instance.chat_id; alice2.recv_msg_trash(sent2).await; assert_eq!(alice2_chat_id.get_msg_cnt(&alice2).await?, 2); let info_msg = alice2.get_last_msg().await; assert!(info_msg.is_info()); assert_eq!(info_msg.get_info_type(), SystemMessage::WebxdcInfoMessage); assert_eq!(info_msg.from_id, ContactId::SELF); assert_eq!(info_msg.get_text(), "this appears in-chat"); assert_eq!( info_msg.parent(&alice2).await?.unwrap().id, alice2_instance.id ); assert!(info_msg.quoted_message(&alice2).await?.is_none()); assert_eq!( alice2 .get_webxdc_status_updates(alice2_instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":"sth. else","info":"this appears in-chat","serial":1,"max_serial":1}]"# ); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_info_msg_cleanup_series() -> Result<()> { let alice = TestContext::new_alice().await; let bob = TestContext::new_bob().await; let alice_chat = alice.create_chat(&bob).await; let alice_instance = send_webxdc_instance(&alice, alice_chat.id).await?; let sent1 = &alice.pop_sent_msg().await; // Alice sends two info messages in a row; // the second one removes the first one as there is nothing in between alice .send_webxdc_status_update(alice_instance.id, r#"{"info":"i1", "payload":1}"#) .await?; alice.flush_status_updates().await?; let sent2 = &alice.pop_sent_msg().await; assert_eq!(alice_chat.id.get_msg_cnt(&alice).await?, 2); alice .send_webxdc_status_update(alice_instance.id, r#"{"info":"i2", "payload":2}"#) .await?; alice.flush_status_updates().await?; let sent3 = &alice.pop_sent_msg().await; assert_eq!(alice_chat.id.get_msg_cnt(&alice).await?, 2); let info_msg = alice.get_last_msg().await; assert_eq!(info_msg.get_text(), "i2"); // When Bob receives the messages, they should be cleaned up as well let bob_instance = bob.recv_msg(sent1).await; let bob_chat_id = bob_instance.chat_id; bob.recv_msg_trash(sent2).await; assert_eq!(bob_chat_id.get_msg_cnt(&bob).await?, 2); bob.recv_msg_trash(sent3).await; assert_eq!(bob_chat_id.get_msg_cnt(&bob).await?, 2); let info_msg = bob.get_last_msg().await; assert_eq!(info_msg.get_text(), "i2"); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_info_msg_no_cleanup_on_interrupted_series() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "c").await?; let instance = send_webxdc_instance(&t, chat_id).await?; t.send_webxdc_status_update(instance.id, r#"{"info":"i1", "payload":1}"#) .await?; assert_eq!(chat_id.get_msg_cnt(&t).await?, 2); send_text_msg(&t, chat_id, "msg between info".to_string()).await?; assert_eq!(chat_id.get_msg_cnt(&t).await?, 3); t.send_webxdc_status_update(instance.id, r#"{"info":"i2", "payload":2}"#) .await?; assert_eq!(chat_id.get_msg_cnt(&t).await?, 4); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_opportunistic_encryption() -> Result<()> { let alice = TestContext::new_alice().await; let bob = TestContext::new_bob().await; // Bob sends sth. to Alice, Alice has Bob's key let bob_chat_id = create_group_chat(&bob, ProtectionStatus::Unprotected, "chat").await?; add_contact_to_chat( &bob, bob_chat_id, Contact::create(&bob, "", "alice@example.org").await?, ) .await?; send_text_msg(&bob, bob_chat_id, "populate".to_string()).await?; alice.recv_msg(&bob.pop_sent_msg().await).await; // Alice sends instance+update to Bob let alice_chat_id = alice.get_last_msg().await.chat_id; alice_chat_id.accept(&alice).await?; let alice_instance = send_webxdc_instance(&alice, alice_chat_id).await?; let sent1 = &alice.pop_sent_msg().await; alice .send_webxdc_status_update(alice_instance.id, r#"{"payload":42}"#) .await?; alice.flush_status_updates().await?; let sent2 = &alice.pop_sent_msg().await; let update_msg = sent2.load_from_db().await; assert!(alice_instance.get_showpadlock()); assert!(update_msg.get_showpadlock()); // Bob receives instance+update let bob_instance = bob.recv_msg(sent1).await; bob.recv_msg_trash(sent2).await; assert!(bob_instance.get_showpadlock()); // Bob adds Claire with unknown key, update to Alice+Claire cannot be encrypted add_contact_to_chat( &bob, bob_chat_id, Contact::create(&bob, "", "claire@example.org").await?, ) .await?; bob.send_webxdc_status_update(bob_instance.id, r#"{"payload":43}"#) .await?; bob.flush_status_updates().await?; let sent3 = bob.pop_sent_msg().await; let update_msg = sent3.load_from_db().await; assert!(!update_msg.get_showpadlock()); Ok(()) } // check that `info.internet_access` is not set for normal, non-integrated webxdc - // even if they use the deprecated option `request_internet_access` in manifest.toml #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_no_internet_access() -> Result<()> { let t = TestContext::new_alice().await; let self_id = t.get_self_chat().await.id; let single_id = t.create_chat_with_contact("bob", "bob@e.com").await.id; let group_id = create_group_chat(&t, ProtectionStatus::Unprotected, "chat").await?; let broadcast_id = create_broadcast_list(&t).await?; for e2ee in ["1", "0"] { t.set_config(Config::E2eeEnabled, Some(e2ee)).await?; for chat_id in [self_id, single_id, group_id, broadcast_id] { for internet_xdc in [true, false] { let mut instance = create_webxdc_instance( &t, "foo.xdc", if internet_xdc { include_bytes!("../test-data/webxdc/request-internet-access.xdc") } else { include_bytes!("../test-data/webxdc/minimal.xdc") }, ) .await?; let instance_id = send_msg(&t, chat_id, &mut instance).await?; t.send_webxdc_status_update( instance_id, r#"{"summary":"real summary", "payload": 42}"#, ) .await?; let instance = Message::load_from_db(&t, instance_id).await?; let info = instance.get_webxdc_info(&t).await?; assert_eq!(info.internet_access, false); } } } Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_chatlist_summary() -> Result<()> { let t = TestContext::new_alice().await; let chat_id = create_group_chat(&t, ProtectionStatus::Unprotected, "chat").await?; let mut instance = create_webxdc_instance( &t, "with-minimal-manifest.xdc", include_bytes!("../test-data/webxdc/with-minimal-manifest.xdc"), ) .await?; send_msg(&t, chat_id, &mut instance).await?; let chatlist = Chatlist::try_load(&t, 0, None, None).await?; assert_eq!(chatlist.len(), 1); let summary = chatlist.get_summary(&t, 0, None).await?; assert_eq!(summary.text, "nice app!".to_string()); assert_eq!(summary.thumbnail_path.unwrap(), "webxdc-icon://last-msg-id"); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_and_text() -> Result<()> { let alice = TestContext::new_alice().await; let bob = TestContext::new_bob().await; // Alice sends instance and adds some text let alice_chat = alice.create_chat(&bob).await; let mut alice_instance = create_webxdc_instance( &alice, "minimal.xdc", include_bytes!("../test-data/webxdc/minimal.xdc"), ) .await?; alice_instance.set_text("user added text".to_string()); send_msg(&alice, alice_chat.id, &mut alice_instance).await?; let alice_instance = alice.get_last_msg().await; assert_eq!(alice_instance.get_text(), "user added text"); // Bob receives that instance let sent1 = alice.pop_sent_msg().await; let bob_instance = bob.recv_msg(&sent1).await; assert_eq!(bob_instance.get_text(), "user added text"); // Alice's second device receives the instance as well let alice2 = TestContext::new_alice().await; let alice2_instance = alice2.recv_msg(&sent1).await; assert_eq!(alice2_instance.get_text(), "user added text"); Ok(()) } async fn helper_send_receive_status_update( bob: &TestContext, alice: &TestContext, bob_instance: &Message, alice_instance: &Message, ) -> Result { bob.send_webxdc_status_update( bob_instance.id, r#"{"payload":7,"info": "i","summary":"s"}"#, ) .await?; bob.flush_status_updates().await?; let msg = bob.pop_sent_msg().await; alice.recv_msg_trash(&msg).await; alice .get_webxdc_status_updates(alice_instance.id, StatusUpdateSerial(0)) .await } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_reject_updates_from_non_groupmembers() -> Result<()> { let alice = TestContext::new_alice().await; let bob = TestContext::new_bob().await; let contact_bob = Contact::create(&alice, "Bob", "bob@example.net").await?; let chat_id = create_group_chat(&alice, ProtectionStatus::Unprotected, "Group").await?; add_contact_to_chat(&alice, chat_id, contact_bob).await?; let instance = send_webxdc_instance(&alice, chat_id).await?; bob.recv_msg(&alice.pop_sent_msg().await).await; let bob_instance = bob.get_last_msg().await; Chat::load_from_db(&bob, bob_instance.chat_id) .await? .id .accept(&bob) .await?; let status = helper_send_receive_status_update(&bob, &alice, &bob_instance, &instance).await?; assert_eq!( status, r#"[{"payload":7,"info":"i","summary":"s","serial":1,"max_serial":1}]"# ); remove_contact_from_chat(&alice, chat_id, contact_bob).await?; alice.pop_sent_msg().await; let status = helper_send_receive_status_update(&bob, &alice, &bob_instance, &instance).await?; assert_eq!( status, r#"[{"payload":7,"info":"i","summary":"s","serial":1,"max_serial":1}]"# ); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_delete_event() -> Result<()> { let alice = TestContext::new_alice().await; let chat_id = create_group_chat(&alice, ProtectionStatus::Unprotected, "foo").await?; let instance = send_webxdc_instance(&alice, chat_id).await?; message::delete_msgs(&alice, &[instance.id]).await?; alice .evtracker .get_matching(|evt| matches!(evt, EventType::WebxdcInstanceDeleted { .. })) .await; Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn change_logging_webxdc() -> Result<()> { let alice = TestContext::new_alice().await; let chat_id = ChatId::create_for_contact(&alice, ContactId::SELF).await?; assert_eq!( alice .sql .count("SELECT COUNT(*) FROM msgs_status_updates;", ()) .await?, 0 ); let mut instance = create_webxdc_instance( &alice, "debug_logging.xdc", include_bytes!("../test-data/webxdc/minimal.xdc"), ) .await?; assert!(alice.debug_logging.read().unwrap().is_none()); send_msg(&alice, chat_id, &mut instance).await?; assert!(alice.debug_logging.read().unwrap().is_some()); alice.emit_event(EventType::Info("hi".to_string())); alice .evtracker .get_matching(|ev| matches!(*ev, EventType::WebxdcStatusUpdate { .. })) .await; assert!( alice .sql .count("SELECT COUNT(*) FROM msgs_status_updates;", ()) .await? > 0 ); Ok(()) } /// Tests extensibility of WebXDC updates. /// /// If an update sent by WebXDC contains unknown properties, /// such as `aNewUnknownProperty` or a reserved property /// like `serial` or `max_serial`, /// they are silently dropped and are not sent over the wire. /// /// This ensures new WebXDC can try to send new properties /// added in later revisions of the WebXDC API /// and this will not result in a failure to send the whole update. #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_send_webxdc_status_update_extensibility() -> Result<()> { let alice = TestContext::new_alice().await; let bob = TestContext::new_bob().await; let alice_chat = alice.create_chat(&bob).await; let alice_instance = send_webxdc_instance(&alice, alice_chat.id).await?; let bob_instance = bob.recv_msg(&alice.pop_sent_msg().await).await; alice .send_webxdc_status_update( alice_instance.id, r#"{"payload":"p","info":"i","aNewUnknownProperty":"x","max_serial":123}"#, ) .await?; alice.flush_status_updates().await?; let received_update = bob.recv_msg_opt(&alice.pop_sent_msg().await).await; assert!(received_update.is_none()); assert_eq!( bob.get_webxdc_status_updates(bob_instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":"p","info":"i","serial":1,"max_serial":1}]"# ); Ok(()) } // NB: This test also checks that a contact is not marked as bot after receiving from it a // webxdc instance and status updates. #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_status_update_vs_delete_device_after() -> Result<()> { let alice = &TestContext::new_alice().await; let bob = &TestContext::new_bob().await; bob.set_config(Config::DeleteDeviceAfter, Some("3600")) .await?; let alice_chat = alice.create_chat(bob).await; let alice_instance = send_webxdc_instance(alice, alice_chat.id).await?; let bob_instance = bob.recv_msg(&alice.pop_sent_msg().await).await; assert_eq!(bob.add_or_lookup_contact(alice).await.is_bot(), false); SystemTime::shift(Duration::from_secs(1800)); let mut update = Message { chat_id: alice_chat.id, viewtype: Viewtype::Text, text: "I'm an update".to_string(), hidden: true, ..Default::default() }; update.param.set_cmd(SystemMessage::WebxdcStatusUpdate); update .param .set(Param::Arg, r#"{"updates":[{"payload":{"foo":"bar"}}]}"#); update.set_quote(alice, Some(&alice_instance)).await?; let sent_msg = alice.send_msg(alice_chat.id, &mut update).await; bob.recv_msg_trash(&sent_msg).await; assert_eq!(bob.add_or_lookup_contact(alice).await.is_bot(), false); assert_eq!( bob.get_webxdc_status_updates(bob_instance.id, StatusUpdateSerial(0)) .await?, r#"[{"payload":{"foo":"bar"},"serial":1,"max_serial":1}]"# ); assert_eq!(bob.add_or_lookup_contact(alice).await.is_bot(), false); SystemTime::shift(Duration::from_secs(2700)); ephemeral::delete_expired_messages(bob, tools::time()).await?; let bob_instance = Message::load_from_db(bob, bob_instance.id).await?; assert_eq!(bob_instance.chat_id.is_trash(), false); Ok(()) } async fn has_incoming_webxdc_event( t: &TestContext, expected_msg: Message, expected_text: &str, ) -> bool { t.evtracker .get_matching_opt(t, |evt| { if let EventType::IncomingWebxdcNotify { msg_id, text, .. } = evt { *msg_id == expected_msg.id && text == expected_text } else { false } }) .await .is_some() } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_notify_one() -> Result<()> { let mut tcm = TestContextManager::new(); let alice = tcm.alice().await; let bob = tcm.bob().await; let fiona = tcm.fiona().await; let grp_id = alice .create_group_with_members(ProtectionStatus::Unprotected, "grp", &[&bob, &fiona]) .await; let alice_instance = send_webxdc_instance(&alice, grp_id).await?; let sent1 = alice.pop_sent_msg().await; let bob_instance = bob.recv_msg(&sent1).await; let _fiona_instance = fiona.recv_msg(&sent1).await; alice .send_webxdc_status_update( alice_instance.id, &format!( "{{\"payload\":7,\"info\": \"Alice moved\",\"notify\":{{\"{}\": \"Your move!\"}} }}", bob_instance.get_webxdc_self_addr(&bob).await? ), ) .await?; alice.flush_status_updates().await?; let sent2 = alice.pop_sent_msg().await; let info_msg = alice.get_last_msg().await; assert!(info_msg.is_info()); assert_eq!(info_msg.text, "Alice moved"); assert!(!has_incoming_webxdc_event(&alice, info_msg, "").await); bob.recv_msg_trash(&sent2).await; let info_msg = bob.get_last_msg().await; assert!(info_msg.is_info()); assert_eq!(info_msg.text, "Alice moved"); assert!(has_incoming_webxdc_event(&bob, info_msg, "Your move!").await); fiona.recv_msg_trash(&sent2).await; let info_msg = fiona.get_last_msg().await; assert!(info_msg.is_info()); assert_eq!(info_msg.text, "Alice moved"); assert!(!has_incoming_webxdc_event(&fiona, info_msg, "").await); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_notify_multiple() -> Result<()> { let mut tcm = TestContextManager::new(); let alice = tcm.alice().await; let bob = tcm.bob().await; let fiona = tcm.fiona().await; let grp_id = alice .create_group_with_members(ProtectionStatus::Unprotected, "grp", &[&bob, &fiona]) .await; let alice_instance = send_webxdc_instance(&alice, grp_id).await?; let sent1 = alice.pop_sent_msg().await; let bob_instance = bob.recv_msg(&sent1).await; let fiona_instance = fiona.recv_msg(&sent1).await; alice .send_webxdc_status_update( alice_instance.id, &format!( "{{\"payload\":7,\"info\": \"moved\", \"summary\": \"move summary\", \"notify\":{{\"{}\":\"move, Bob\",\"{}\":\"move, Fiona\"}} }}", bob_instance.get_webxdc_self_addr(&bob).await?, fiona_instance.get_webxdc_self_addr(&fiona).await? ), ) .await?; alice.flush_status_updates().await?; let sent2 = alice.pop_sent_msg().await; let info_msg = alice.get_last_msg().await; assert!(info_msg.is_info()); assert!(!has_incoming_webxdc_event(&alice, info_msg, "").await); bob.recv_msg_trash(&sent2).await; let info_msg = bob.get_last_msg().await; assert!(info_msg.is_info()); assert!(has_incoming_webxdc_event(&bob, info_msg, "move, Bob").await); fiona.recv_msg_trash(&sent2).await; let info_msg = fiona.get_last_msg().await; assert!(info_msg.is_info()); assert!(has_incoming_webxdc_event(&fiona, info_msg, "move, Fiona").await); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_no_notify_self() -> Result<()> { let mut tcm = TestContextManager::new(); let alice = tcm.alice().await; let alice2 = tcm.alice().await; let grp_id = alice .create_group_with_members(ProtectionStatus::Unprotected, "grp", &[]) .await; let alice_instance = send_webxdc_instance(&alice, grp_id).await?; let sent1 = alice.pop_sent_msg().await; let alice2_instance = alice2.recv_msg(&sent1).await; assert_eq!( alice_instance.get_webxdc_self_addr(&alice).await?, alice2_instance.get_webxdc_self_addr(&alice2).await? ); alice .send_webxdc_status_update( alice_instance.id, &format!( "{{\"payload\":7,\"info\": \"moved\", \"notify\":{{\"{}\": \"bla\"}} }}", alice2_instance.get_webxdc_self_addr(&alice2).await? ), ) .await?; alice.flush_status_updates().await?; let sent2 = alice.pop_sent_msg().await; let info_msg = alice.get_last_msg().await; assert!(info_msg.is_info()); assert!(!has_incoming_webxdc_event(&alice, info_msg, "").await); alice2.recv_msg_trash(&sent2).await; let info_msg = alice2.get_last_msg().await; assert!(info_msg.is_info()); assert!(!has_incoming_webxdc_event(&alice2, info_msg, "").await); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_notify_all() -> Result<()> { let mut tcm = TestContextManager::new(); let alice = tcm.alice().await; let bob = tcm.bob().await; let fiona = tcm.fiona().await; let grp_id = alice .create_group_with_members(ProtectionStatus::Unprotected, "grp", &[&bob, &fiona]) .await; let alice_instance = send_webxdc_instance(&alice, grp_id).await?; let sent1 = alice.pop_sent_msg().await; bob.recv_msg(&sent1).await; fiona.recv_msg(&sent1).await; alice .send_webxdc_status_update( alice_instance.id, "{\"payload\":7,\"info\": \"go\", \"notify\":{\"*\":\"notify all\"} }", ) .await?; alice.flush_status_updates().await?; let sent2 = alice.pop_sent_msg().await; let info_msg = alice.get_last_msg().await; assert_eq!(info_msg.text, "go"); assert!(!has_incoming_webxdc_event(&alice, info_msg, "").await); bob.recv_msg_trash(&sent2).await; let info_msg = bob.get_last_msg().await; assert_eq!(info_msg.text, "go"); assert!(has_incoming_webxdc_event(&bob, info_msg, "notify all").await); fiona.recv_msg_trash(&sent2).await; let info_msg = fiona.get_last_msg().await; assert_eq!(info_msg.text, "go"); assert!(has_incoming_webxdc_event(&fiona, info_msg, "notify all").await); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_notify_bob_and_all() -> Result<()> { let mut tcm = TestContextManager::new(); let alice = tcm.alice().await; let bob = tcm.bob().await; let fiona = tcm.fiona().await; let grp_id = alice .create_group_with_members(ProtectionStatus::Unprotected, "grp", &[&bob, &fiona]) .await; let alice_instance = send_webxdc_instance(&alice, grp_id).await?; let sent1 = alice.pop_sent_msg().await; let bob_instance = bob.recv_msg(&sent1).await; let fiona_instance = fiona.recv_msg(&sent1).await; alice .send_webxdc_status_update( alice_instance.id, &format!( "{{\"payload\":7, \"notify\":{{\"{}\": \"notify bob\",\"*\": \"notify all\"}} }}", bob_instance.get_webxdc_self_addr(&bob).await? ), ) .await?; alice.flush_status_updates().await?; let sent2 = alice.pop_sent_msg().await; bob.recv_msg_trash(&sent2).await; fiona.recv_msg_trash(&sent2).await; assert!(has_incoming_webxdc_event(&bob, bob_instance, "notify bob").await); assert!(has_incoming_webxdc_event(&fiona, fiona_instance, "notify all").await); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_notify_all_and_bob() -> Result<()> { let mut tcm = TestContextManager::new(); let alice = tcm.alice().await; let bob = tcm.bob().await; let fiona = tcm.fiona().await; let grp_id = alice .create_group_with_members(ProtectionStatus::Unprotected, "grp", &[&bob, &fiona]) .await; let alice_instance = send_webxdc_instance(&alice, grp_id).await?; let sent1 = alice.pop_sent_msg().await; let bob_instance = bob.recv_msg(&sent1).await; let fiona_instance = fiona.recv_msg(&sent1).await; alice .send_webxdc_status_update( alice_instance.id, &format!( "{{\"payload\":7, \"notify\":{{\"*\": \"notify all\", \"{}\": \"notify bob\"}} }}", bob_instance.get_webxdc_self_addr(&bob).await? ), ) .await?; alice.flush_status_updates().await?; let sent2 = alice.pop_sent_msg().await; bob.recv_msg_trash(&sent2).await; fiona.recv_msg_trash(&sent2).await; assert!(has_incoming_webxdc_event(&bob, bob_instance, "notify bob").await); assert!(has_incoming_webxdc_event(&fiona, fiona_instance, "notify all").await); Ok(()) } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_webxdc_href() -> Result<()> { let mut tcm = TestContextManager::new(); let alice = tcm.alice().await; let bob = tcm.bob().await; let grp_id = alice .create_group_with_members(ProtectionStatus::Unprotected, "grp", &[&bob]) .await; let instance = send_webxdc_instance(&alice, grp_id).await?; let sent1 = alice.pop_sent_msg().await; alice .send_webxdc_status_update( instance.id, r##"{"payload": "my deeplink data", "info": "my move!", "href": "#foobar"}"##, ) .await?; alice.flush_status_updates().await?; let sent2 = alice.pop_sent_msg().await; let info_msg = alice.get_last_msg().await; assert!(info_msg.is_info()); assert_eq!(info_msg.get_webxdc_href(), Some("#foobar".to_string())); bob.recv_msg(&sent1).await; bob.recv_msg_trash(&sent2).await; let info_msg = bob.get_last_msg().await; assert!(info_msg.is_info()); assert_eq!(info_msg.get_webxdc_href(), Some("#foobar".to_string())); Ok(()) } }