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chatmail-core/src/job.rs
Hocuri 8350729cbb Improve errors
2020-06-13 10:18:11 +02:00

1247 lines
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//! # Job module
//!
//! This module implements a job queue maintained in the SQLite database
//! and job types.
use std::fmt;
use std::future::Future;
use deltachat_derive::{FromSql, ToSql};
use itertools::Itertools;
use rand::{thread_rng, Rng};
use async_smtp::smtp::response::Category;
use async_smtp::smtp::response::Code;
use async_smtp::smtp::response::Detail;
use crate::blob::BlobObject;
use crate::chat::{self, ChatId};
use crate::config::Config;
use crate::constants::*;
use crate::contact::Contact;
use crate::context::Context;
use crate::dc_tools::*;
use crate::error::{bail, ensure, format_err, Error, Result};
use crate::events::Event;
use crate::imap::*;
use crate::location;
use crate::login_param::LoginParam;
use crate::message::MsgId;
use crate::message::{self, Message, MessageState};
use crate::mimefactory::MimeFactory;
use crate::param::*;
use crate::smtp::Smtp;
use crate::{scheduler::InterruptInfo, sql};
// results in ~3 weeks for the last backoff timespan
const JOB_RETRIES: u32 = 17;
/// Thread IDs
#[derive(Debug, Display, Copy, Clone, PartialEq, Eq, FromPrimitive, ToPrimitive, FromSql, ToSql)]
#[repr(i32)]
pub(crate) enum Thread {
Unknown = 0,
Imap = 100,
Smtp = 5000,
}
/// Job try result.
#[derive(Debug, Display)]
pub enum Status {
Finished(std::result::Result<(), Error>),
RetryNow,
RetryLater,
}
#[macro_export]
macro_rules! job_try {
($expr:expr) => {
match $expr {
std::result::Result::Ok(val) => val,
std::result::Result::Err(err) => {
return $crate::job::Status::Finished(Err(err.into()));
}
}
};
($expr:expr,) => {
$crate::job_try!($expr)
};
}
impl Default for Thread {
fn default() -> Self {
Thread::Unknown
}
}
#[derive(
Debug,
Display,
Copy,
Clone,
PartialEq,
Eq,
PartialOrd,
FromPrimitive,
ToPrimitive,
FromSql,
ToSql,
)]
#[repr(i32)]
pub enum Action {
Unknown = 0,
// Jobs in the INBOX-thread, range from DC_IMAP_THREAD..DC_IMAP_THREAD+999
Housekeeping = 105, // low priority ...
EmptyServer = 107,
OldDeleteMsgOnImap = 110,
MarkseenMsgOnImap = 130,
// Moving message is prioritized lower than deletion so we don't
// bother moving message if it is already scheduled for deletion.
MoveMsg = 200,
DeleteMsgOnImap = 210,
// Jobs in the SMTP-thread, range from DC_SMTP_THREAD..DC_SMTP_THREAD+999
MaybeSendLocations = 5005, // low priority ...
MaybeSendLocationsEnded = 5007,
SendMdn = 5010,
SendMsgToSmtp = 5901, // ... high priority
}
impl Default for Action {
fn default() -> Self {
Action::Unknown
}
}
impl From<Action> for Thread {
fn from(action: Action) -> Thread {
use Action::*;
match action {
Unknown => Thread::Unknown,
Housekeeping => Thread::Imap,
OldDeleteMsgOnImap => Thread::Imap,
DeleteMsgOnImap => Thread::Imap,
EmptyServer => Thread::Imap,
MarkseenMsgOnImap => Thread::Imap,
MoveMsg => Thread::Imap,
MaybeSendLocations => Thread::Smtp,
MaybeSendLocationsEnded => Thread::Smtp,
SendMdn => Thread::Smtp,
SendMsgToSmtp => Thread::Smtp,
}
}
}
#[derive(Debug, Clone)]
pub struct Job {
pub job_id: u32,
pub action: Action,
pub foreign_id: u32,
pub desired_timestamp: i64,
pub added_timestamp: i64,
pub tries: u32,
pub param: Params,
pub pending_error: Option<String>,
}
impl fmt::Display for Job {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "#{}, action {}", self.job_id, self.action)
}
}
impl Job {
pub fn new(action: Action, foreign_id: u32, param: Params, delay_seconds: i64) -> Self {
let timestamp = time();
Self {
job_id: 0,
action,
foreign_id,
desired_timestamp: timestamp + delay_seconds,
added_timestamp: timestamp,
tries: 0,
param,
pending_error: None,
}
}
pub fn delay_seconds(&self) -> i64 {
self.desired_timestamp - self.added_timestamp
}
/// Deletes the job from the database.
async fn delete(self, context: &Context) -> Result<()> {
if self.job_id != 0 {
context
.sql
.execute("DELETE FROM jobs WHERE id=?;", paramsv![self.job_id as i32])
.await?;
}
Ok(())
}
/// Saves the job to the database, creating a new entry if necessary.
///
/// The Job is consumed by this method.
pub(crate) async fn save(self, context: &Context) -> Result<()> {
let thread: Thread = self.action.into();
info!(context, "saving job for {}-thread: {:?}", thread, self);
if self.job_id != 0 {
context
.sql
.execute(
"UPDATE jobs SET desired_timestamp=?, tries=?, param=? WHERE id=?;",
paramsv![
self.desired_timestamp,
self.tries as i64,
self.param.to_string(),
self.job_id as i32,
],
)
.await?;
} else {
context.sql.execute(
"INSERT INTO jobs (added_timestamp, thread, action, foreign_id, param, desired_timestamp) VALUES (?,?,?,?,?,?);",
paramsv![
self.added_timestamp,
thread,
self.action,
self.foreign_id,
self.param.to_string(),
self.desired_timestamp
]
).await?;
}
Ok(())
}
async fn smtp_send<F, Fut>(
&mut self,
context: &Context,
recipients: Vec<async_smtp::EmailAddress>,
message: Vec<u8>,
job_id: u32,
smtp: &mut Smtp,
success_cb: F,
) -> Status
where
F: FnOnce() -> Fut,
Fut: Future<Output = Result<()>>,
{
// hold the smtp lock during sending of a job and
// its ok/error response processing. Note that if a message
// was sent we need to mark it in the database ASAP as we
// otherwise might send it twice.
if std::env::var(crate::DCC_MIME_DEBUG).is_ok() {
info!(context, "smtp-sending out mime message:");
println!("{}", String::from_utf8_lossy(&message));
}
match smtp.send(context, recipients, message, job_id).await {
Err(crate::smtp::send::Error::SendError(err)) => {
// Remote error, retry later.
warn!(context, "SMTP failed to send: {}", err);
self.pending_error = Some(err.to_string());
let res = match err {
async_smtp::smtp::error::Error::Permanent(ref response) => {
match response.code {
// Sometimes servers send a permanent error when actually it is a temporary error
// For documentation see https://tools.ietf.org/html/rfc3463
// Code 5.5.0, see https://support.delta.chat/t/every-other-message-gets-stuck/877/2
Code {
category: Category::MailSystem,
detail: Detail::Zero,
..
} => Status::RetryLater,
_ => {
// If we do not retry, add an info message to the chat
// Error 5.7.1 should definitely go here: Yandex sends 5.7.1 with a link when it thinks that the email is SPAM.
match Message::load_from_db(context, MsgId::new(self.foreign_id))
.await
{
Ok(message) => {
chat::add_info_msg(
context,
message.chat_id,
err.to_string(),
)
.await
}
Err(e) => warn!(
context,
"couldn't load chat_id to inform user about SMTP error: {}",
e
),
};
Status::Finished(Err(format_err!("Permanent SMTP error: {}", err)))
}
}
}
async_smtp::smtp::error::Error::Transient(_) => {
// We got a transient 4xx response from SMTP server.
// Give some time until the server-side error maybe goes away.
Status::RetryLater
}
_ => {
if smtp.has_maybe_stale_connection().await {
info!(context, "stale connection? immediately reconnecting");
Status::RetryNow
} else {
Status::RetryLater
}
}
};
// this clears last_success info
smtp.disconnect().await;
res
}
Err(crate::smtp::send::Error::EnvelopeError(err)) => {
// Local error, job is invalid, do not retry.
smtp.disconnect().await;
warn!(context, "SMTP job is invalid: {}", err);
Status::Finished(Err(err.into()))
}
Err(crate::smtp::send::Error::NoTransport) => {
// Should never happen.
// It does not even make sense to disconnect here.
error!(context, "SMTP job failed because SMTP has no transport");
Status::Finished(Err(format_err!("SMTP has not transport")))
}
Ok(()) => {
job_try!(success_cb().await);
Status::Finished(Ok(()))
}
}
}
pub(crate) async fn send_msg_to_smtp(&mut self, context: &Context, smtp: &mut Smtp) -> Status {
// SMTP server, if not yet done
if !smtp.is_connected().await {
let loginparam = LoginParam::from_database(context, "configured_").await;
if let Err(err) = smtp.connect(context, &loginparam).await {
warn!(context, "SMTP connection failure: {:?}", err);
return Status::RetryLater;
}
}
let filename = job_try!(job_try!(self
.param
.get_path(Param::File, context)
.map_err(|_| format_err!("Can't get filename")))
.ok_or_else(|| format_err!("Can't get filename")));
let body = job_try!(dc_read_file(context, &filename).await);
let recipients = job_try!(self.param.get(Param::Recipients).ok_or_else(|| {
warn!(context, "Missing recipients for job {}", self.job_id);
format_err!("Missing recipients")
}));
let recipients_list = recipients
.split('\x1e')
.filter_map(
|addr| match async_smtp::EmailAddress::new(addr.to_string()) {
Ok(addr) => Some(addr),
Err(err) => {
warn!(context, "invalid recipient: {} {:?}", addr, err);
None
}
},
)
.collect::<Vec<_>>();
/* if there is a msg-id and it does not exist in the db, cancel sending.
this happends if dc_delete_msgs() was called
before the generated mime was sent out */
if 0 != self.foreign_id && !message::exists(context, MsgId::new(self.foreign_id)).await {
return Status::Finished(Err(format_err!(
"Not sending Message {} as it was deleted",
self.foreign_id
)));
};
let foreign_id = self.foreign_id;
self.smtp_send(context, recipients_list, body, self.job_id, smtp, || {
async move {
// smtp success, update db ASAP, then delete smtp file
if 0 != foreign_id {
set_delivered(context, MsgId::new(foreign_id)).await;
}
// now also delete the generated file
dc_delete_file(context, filename).await;
Ok(())
}
})
.await
}
/// Get `SendMdn` jobs with foreign_id equal to `contact_id` excluding the `job_id` job.
async fn get_additional_mdn_jobs(
&self,
context: &Context,
contact_id: u32,
) -> sql::Result<(Vec<u32>, Vec<String>)> {
// Extract message IDs from job parameters
let res: Vec<(u32, MsgId)> = context
.sql
.query_map(
"SELECT id, param FROM jobs WHERE foreign_id=? AND id!=?",
paramsv![contact_id, self.job_id],
|row| {
let job_id: u32 = row.get(0)?;
let params_str: String = row.get(1)?;
let params: Params = params_str.parse().unwrap_or_default();
Ok((job_id, params))
},
|jobs| {
let res = jobs
.filter_map(|row| {
let (job_id, params) = row.ok()?;
let msg_id = params.get_msg_id()?;
Some((job_id, msg_id))
})
.collect();
Ok(res)
},
)
.await?;
// Load corresponding RFC724 message IDs
let mut job_ids = Vec::new();
let mut rfc724_mids = Vec::new();
for (job_id, msg_id) in res {
if let Ok(Message { rfc724_mid, .. }) = Message::load_from_db(context, msg_id).await {
job_ids.push(job_id);
rfc724_mids.push(rfc724_mid);
}
}
Ok((job_ids, rfc724_mids))
}
async fn send_mdn(&mut self, context: &Context, smtp: &mut Smtp) -> Status {
if !context.get_config_bool(Config::MdnsEnabled).await {
// User has disabled MDNs after job scheduling but before
// execution.
return Status::Finished(Err(format_err!("MDNs are disabled")));
}
let contact_id = self.foreign_id;
let contact = job_try!(Contact::load_from_db(context, contact_id).await);
if contact.is_blocked() {
return Status::Finished(Err(format_err!("Contact is blocked")));
}
let msg_id = if let Some(msg_id) = self.param.get_msg_id() {
msg_id
} else {
return Status::Finished(Err(format_err!(
"SendMdn job has invalid parameters: {}",
self.param
)));
};
// Try to aggregate other SendMdn jobs and send a combined MDN.
let (additional_job_ids, additional_rfc724_mids) = self
.get_additional_mdn_jobs(context, contact_id)
.await
.unwrap_or_default();
if !additional_rfc724_mids.is_empty() {
info!(
context,
"SendMdn job: aggregating {} additional MDNs",
additional_rfc724_mids.len()
)
}
let msg = job_try!(Message::load_from_db(context, msg_id).await);
let mimefactory =
job_try!(MimeFactory::from_mdn(context, &msg, additional_rfc724_mids).await);
let rendered_msg = job_try!(mimefactory.render().await);
let body = rendered_msg.message;
let addr = contact.get_addr();
let recipient = job_try!(async_smtp::EmailAddress::new(addr.to_string())
.map_err(|err| format_err!("invalid recipient: {} {:?}", addr, err)));
let recipients = vec![recipient];
// connect to SMTP server, if not yet done
if !smtp.is_connected().await {
let loginparam = LoginParam::from_database(context, "configured_").await;
if let Err(err) = smtp.connect(context, &loginparam).await {
warn!(context, "SMTP connection failure: {:?}", err);
return Status::RetryLater;
}
}
self.smtp_send(context, recipients, body, self.job_id, smtp, || {
async move {
// Remove additional SendMdn jobs we have aggregated into this one.
kill_ids(context, &additional_job_ids).await?;
Ok(())
}
})
.await
}
async fn move_msg(&mut self, context: &Context, imap: &mut Imap) -> Status {
if let Err(err) = imap.connect_configured(context).await {
warn!(context, "could not connect: {:?}", err);
return Status::RetryLater;
}
let msg = job_try!(Message::load_from_db(context, MsgId::new(self.foreign_id)).await);
let dest_folder = context.get_config(Config::ConfiguredMvboxFolder).await;
if let Some(dest_folder) = dest_folder {
let server_folder = msg.server_folder.as_ref().unwrap();
match imap
.mv(context, server_folder, msg.server_uid, &dest_folder)
.await
{
ImapActionResult::RetryLater => Status::RetryLater,
ImapActionResult::Success => {
// Rust-Imap provides no target uid on mv, so just set it to 0, update again when precheck_imf() is called for the moved message
message::update_server_uid(context, &msg.rfc724_mid, &dest_folder, 0).await;
Status::Finished(Ok(()))
}
ImapActionResult::Failed => {
Status::Finished(Err(format_err!("IMAP action failed")))
}
ImapActionResult::AlreadyDone => Status::Finished(Ok(())),
}
} else {
Status::Finished(Err(format_err!("No mvbox folder configured")))
}
}
/// Deletes a message on the server.
///
/// foreign_id is a MsgId pointing to a message in the trash chat
/// or a hidden message.
///
/// This job removes the database record. If there are no more
/// records pointing to the same message on the server, the job
/// also removes the message on the server.
async fn delete_msg_on_imap(&mut self, context: &Context, imap: &mut Imap) -> Status {
if let Err(err) = imap.connect_configured(context).await {
warn!(context, "could not connect: {:?}", err);
return Status::RetryLater;
}
let msg = job_try!(Message::load_from_db(context, MsgId::new(self.foreign_id)).await);
if !msg.rfc724_mid.is_empty() {
let cnt = message::rfc724_mid_cnt(context, &msg.rfc724_mid).await;
info!(
context,
"Running delete job for message {} which has {} entries in the database",
&msg.rfc724_mid,
cnt
);
if cnt > 1 {
info!(
context,
"The message is deleted from the server when all parts are deleted.",
);
} else {
/* if this is the last existing part of the message,
we delete the message from the server */
let mid = msg.rfc724_mid;
let server_folder = msg.server_folder.as_ref().unwrap();
let res = if msg.server_uid == 0 {
// Message is already deleted on IMAP server.
ImapActionResult::AlreadyDone
} else {
imap.delete_msg(context, &mid, server_folder, msg.server_uid)
.await
};
match res {
ImapActionResult::AlreadyDone | ImapActionResult::Success => {}
ImapActionResult::RetryLater | ImapActionResult::Failed => {
// If job has failed, for example due to some
// IMAP bug, we postpone it instead of failing
// immediately. This will prevent adding it
// immediately again if user has enabled
// automatic message deletion. Without this,
// we might waste a lot of traffic constantly
// retrying message deletion.
return Status::RetryLater;
}
}
}
if msg.chat_id.is_trash() || msg.hidden {
// Messages are stored in trash chat only to keep
// their server UID and Message-ID. Once message is
// deleted from the server, database record can be
// removed as well.
//
// Hidden messages are similar to trashed, but are
// related to some chat. We also delete their
// database records.
job_try!(msg.id.delete_from_db(context).await)
} else {
// Remove server UID from the database record.
//
// We have either just removed the message from the
// server, in which case UID is not valid anymore, or
// we have more refernces to the same server UID, so
// we remove UID to reduce the number of messages
// pointing to the corresponding UID. Once the counter
// reaches zero, we will remove the message.
job_try!(msg.id.unlink(context).await);
}
Status::Finished(Ok(()))
} else {
/* eg. device messages have no Message-ID */
Status::Finished(Ok(()))
}
}
async fn empty_server(&mut self, context: &Context, imap: &mut Imap) -> Status {
if let Err(err) = imap.connect_configured(context).await {
warn!(context, "could not connect: {:?}", err);
return Status::RetryLater;
}
if self.foreign_id & DC_EMPTY_MVBOX > 0 {
if let Some(mvbox_folder) = &context.get_config(Config::ConfiguredMvboxFolder).await {
imap.empty_folder(context, &mvbox_folder).await;
}
}
if self.foreign_id & DC_EMPTY_INBOX > 0 {
imap.empty_folder(context, "INBOX").await;
}
Status::Finished(Ok(()))
}
async fn markseen_msg_on_imap(&mut self, context: &Context, imap: &mut Imap) -> Status {
if let Err(err) = imap.connect_configured(context).await {
warn!(context, "could not connect: {:?}", err);
return Status::RetryLater;
}
let msg = job_try!(Message::load_from_db(context, MsgId::new(self.foreign_id)).await);
let folder = msg.server_folder.as_ref().unwrap();
match imap.set_seen(context, folder, msg.server_uid).await {
ImapActionResult::RetryLater => Status::RetryLater,
ImapActionResult::AlreadyDone => Status::Finished(Ok(())),
ImapActionResult::Success | ImapActionResult::Failed => {
// XXX the message might just have been moved
// we want to send out an MDN anyway
// The job will not be retried so locally
// there is no risk of double-sending MDNs.
if msg.param.get_bool(Param::WantsMdn).unwrap_or_default()
&& context.get_config_bool(Config::MdnsEnabled).await
{
if let Err(err) = send_mdn(context, &msg).await {
warn!(context, "could not send out mdn for {}: {}", msg.id, err);
return Status::Finished(Err(err));
}
}
Status::Finished(Ok(()))
}
}
}
}
/// Delete all pending jobs with the given action.
pub async fn kill_action(context: &Context, action: Action) -> bool {
context
.sql
.execute("DELETE FROM jobs WHERE action=?;", paramsv![action])
.await
.is_ok()
}
/// Remove jobs with specified IDs.
async fn kill_ids(context: &Context, job_ids: &[u32]) -> sql::Result<()> {
context
.sql
.execute(
format!(
"DELETE FROM jobs WHERE id IN({})",
job_ids.iter().map(|_| "?").join(",")
),
job_ids.iter().map(|i| i as &dyn crate::ToSql).collect(),
)
.await?;
Ok(())
}
pub async fn action_exists(context: &Context, action: Action) -> bool {
context
.sql
.exists("SELECT id FROM jobs WHERE action=?;", paramsv![action])
.await
.unwrap_or_default()
}
async fn set_delivered(context: &Context, msg_id: MsgId) {
message::update_msg_state(context, msg_id, MessageState::OutDelivered).await;
let chat_id: ChatId = context
.sql
.query_get_value(
context,
"SELECT chat_id FROM msgs WHERE id=?",
paramsv![msg_id],
)
.await
.unwrap_or_default();
context.emit_event(Event::MsgDelivered { chat_id, msg_id });
}
/// Constructs a job for sending a message.
///
/// Returns `None` if no messages need to be sent out.
///
/// In order to be processed, must be `add`ded.
pub async fn send_msg_job(context: &Context, msg_id: MsgId) -> Result<Option<Job>> {
let mut msg = Message::load_from_db(context, msg_id).await?;
msg.try_calc_and_set_dimensions(context).await.ok();
/* create message */
let needs_encryption = msg.param.get_bool(Param::GuaranteeE2ee).unwrap_or_default();
let attach_selfavatar = match chat::shall_attach_selfavatar(context, msg.chat_id).await {
Ok(attach_selfavatar) => attach_selfavatar,
Err(err) => {
warn!(context, "job: cannot get selfavatar-state: {}", err);
false
}
};
let mimefactory = MimeFactory::from_msg(context, &msg, attach_selfavatar).await?;
let mut recipients = mimefactory.recipients();
let from = context
.get_config(Config::ConfiguredAddr)
.await
.unwrap_or_default();
let lowercase_from = from.to_lowercase();
// Send BCC to self if it is enabled and we are not going to
// delete it immediately.
if context.get_config_bool(Config::BccSelf).await
&& context.get_config_delete_server_after().await != Some(0)
&& !recipients
.iter()
.any(|x| x.to_lowercase() == lowercase_from)
{
recipients.push(from);
}
if recipients.is_empty() {
// may happen eg. for groups with only SELF and bcc_self disabled
info!(
context,
"message {} has no recipient, skipping smtp-send", msg_id
);
set_delivered(context, msg_id).await;
return Ok(None);
}
let rendered_msg = match mimefactory.render().await {
Ok(res) => Ok(res),
Err(err) => {
message::set_msg_failed(context, msg_id, Some(err.to_string())).await;
Err(err)
}
}?;
if needs_encryption && !rendered_msg.is_encrypted {
/* unrecoverable */
message::set_msg_failed(
context,
msg_id,
Some("End-to-end-encryption unavailable unexpectedly."),
)
.await;
bail!(
"e2e encryption unavailable {} - {:?}",
msg_id,
needs_encryption
);
}
if rendered_msg.is_gossiped {
chat::set_gossiped_timestamp(context, msg.chat_id, time()).await?;
}
if 0 != rendered_msg.last_added_location_id {
if let Err(err) = location::set_kml_sent_timestamp(context, msg.chat_id, time()).await {
error!(context, "Failed to set kml sent_timestamp: {:?}", err);
}
if !msg.hidden {
if let Err(err) =
location::set_msg_location_id(context, msg.id, rendered_msg.last_added_location_id)
.await
{
error!(context, "Failed to set msg_location_id: {:?}", err);
}
}
}
if attach_selfavatar {
if let Err(err) = msg.chat_id.set_selfavatar_timestamp(context, time()).await {
error!(context, "Failed to set selfavatar timestamp: {:?}", err);
}
}
if rendered_msg.is_encrypted && !needs_encryption {
msg.param.set_int(Param::GuaranteeE2ee, 1);
msg.update_param(context).await;
}
ensure!(!recipients.is_empty(), "no recipients for smtp job set");
let mut param = Params::new();
let bytes = &rendered_msg.message;
let blob = BlobObject::create(context, &rendered_msg.rfc724_mid, bytes).await?;
let recipients = recipients.join("\x1e");
param.set(Param::File, blob.as_name());
param.set(Param::Recipients, &recipients);
let job = create(Action::SendMsgToSmtp, msg_id.to_u32() as i32, param, 0)?;
Ok(Some(job))
}
pub(crate) enum Connection<'a> {
Inbox(&'a mut Imap),
Smtp(&'a mut Smtp),
}
async fn load_imap_deletion_msgid(context: &Context) -> sql::Result<Option<MsgId>> {
if let Some(delete_server_after) = context.get_config_delete_server_after().await {
let threshold_timestamp = time() - delete_server_after;
context
.sql
.query_row_optional(
"SELECT id FROM msgs \
WHERE timestamp < ? \
AND server_uid != 0",
paramsv![threshold_timestamp],
|row| row.get::<_, MsgId>(0),
)
.await
} else {
Ok(None)
}
}
async fn load_imap_deletion_job(context: &Context) -> sql::Result<Option<Job>> {
let res = if let Some(msg_id) = load_imap_deletion_msgid(context).await? {
Some(Job::new(
Action::DeleteMsgOnImap,
msg_id.to_u32(),
Params::new(),
0,
))
} else {
None
};
Ok(res)
}
impl<'a> fmt::Display for Connection<'a> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Connection::Inbox(_) => write!(f, "Inbox"),
Connection::Smtp(_) => write!(f, "Smtp"),
}
}
}
impl<'a> Connection<'a> {
fn inbox(&mut self) -> &mut Imap {
match self {
Connection::Inbox(imap) => imap,
_ => panic!("Not an inbox"),
}
}
fn smtp(&mut self) -> &mut Smtp {
match self {
Connection::Smtp(smtp) => smtp,
_ => panic!("Not a smtp"),
}
}
}
pub(crate) async fn perform_job(context: &Context, mut connection: Connection<'_>, mut job: Job) {
info!(context, "{}-job {} started...", &connection, &job);
let try_res = match perform_job_action(context, &mut job, &mut connection, 0).await {
Status::RetryNow => perform_job_action(context, &mut job, &mut connection, 1).await,
x => x,
};
match try_res {
Status::RetryNow | Status::RetryLater => {
let tries = job.tries + 1;
if tries < JOB_RETRIES {
info!(
context,
"{} thread increases job {} tries to {}", &connection, job, tries
);
job.tries = tries;
let time_offset = get_backoff_time_offset(tries);
job.desired_timestamp = time() + time_offset;
info!(
context,
"{}-job #{} not succeeded on try #{}, retry in {} seconds.",
&connection,
job.job_id as u32,
tries,
time_offset
);
job.save(context).await.unwrap_or_else(|err| {
error!(context, "failed to save job: {}", err);
});
} else {
info!(
context,
"{} thread removes job {} as it exhausted {} retries",
&connection,
job,
JOB_RETRIES
);
job.delete(context).await.unwrap_or_else(|err| {
error!(context, "failed to delete job: {}", err);
});
}
}
Status::Finished(res) => {
if let Err(err) = res {
warn!(
context,
"{} removes job {} as it failed with error {:?}", &connection, job, err
);
} else {
info!(
context,
"{} removes job {} as it succeeded", &connection, job
);
}
job.delete(context).await.unwrap_or_else(|err| {
error!(context, "failed to delete job: {}", err);
});
}
}
}
async fn perform_job_action(
context: &Context,
job: &mut Job,
connection: &mut Connection<'_>,
tries: u32,
) -> Status {
info!(
context,
"{} begin immediate try {} of job {}", &connection, tries, job
);
let try_res = match job.action {
Action::Unknown => Status::Finished(Err(format_err!("Unknown job id found"))),
Action::SendMsgToSmtp => job.send_msg_to_smtp(context, connection.smtp()).await,
Action::SendMdn => job.send_mdn(context, connection.smtp()).await,
Action::MaybeSendLocations => location::job_maybe_send_locations(context, job).await,
Action::MaybeSendLocationsEnded => {
location::job_maybe_send_locations_ended(context, job).await
}
Action::EmptyServer => job.empty_server(context, connection.inbox()).await,
Action::OldDeleteMsgOnImap => job.delete_msg_on_imap(context, connection.inbox()).await,
Action::DeleteMsgOnImap => job.delete_msg_on_imap(context, connection.inbox()).await,
Action::MarkseenMsgOnImap => job.markseen_msg_on_imap(context, connection.inbox()).await,
Action::MoveMsg => job.move_msg(context, connection.inbox()).await,
Action::Housekeeping => {
sql::housekeeping(context).await;
Status::Finished(Ok(()))
}
};
info!(
context,
"Inbox finished immediate try {} of job {}", tries, job
);
try_res
}
fn get_backoff_time_offset(tries: u32) -> i64 {
let n = 2_i32.pow(tries - 1) * 60;
let mut rng = thread_rng();
let r: i32 = rng.gen();
let mut seconds = r % (n + 1);
if seconds < 1 {
seconds = 1;
}
seconds as i64
}
async fn send_mdn(context: &Context, msg: &Message) -> Result<()> {
let mut param = Params::new();
param.set(Param::MsgId, msg.id.to_u32().to_string());
add(context, Job::new(Action::SendMdn, msg.from_id, param, 0)).await;
Ok(())
}
/// Creates a job.
pub fn create(action: Action, foreign_id: i32, param: Params, delay_seconds: i64) -> Result<Job> {
ensure!(
action != Action::Unknown,
"Invalid action passed to job_add"
);
Ok(Job::new(action, foreign_id as u32, param, delay_seconds))
}
/// Adds a job to the database, scheduling it.
pub async fn add(context: &Context, job: Job) {
let action = job.action;
let delay_seconds = job.delay_seconds();
job.save(context).await.unwrap_or_else(|err| {
error!(context, "failed to save job: {}", err);
});
if delay_seconds == 0 {
match action {
Action::Unknown => unreachable!(),
Action::Housekeeping
| Action::EmptyServer
| Action::OldDeleteMsgOnImap
| Action::DeleteMsgOnImap
| Action::MarkseenMsgOnImap
| Action::MoveMsg => {
info!(context, "interrupt: imap");
context
.interrupt_inbox(InterruptInfo::new(false, None))
.await;
}
Action::MaybeSendLocations
| Action::MaybeSendLocationsEnded
| Action::SendMdn
| Action::SendMsgToSmtp => {
info!(context, "interrupt: smtp");
context
.interrupt_smtp(InterruptInfo::new(false, None))
.await;
}
}
}
}
/// Load jobs from the database.
///
/// Load jobs for this "[Thread]", i.e. either load SMTP jobs or load
/// IMAP jobs. The `probe_network` parameter decides how to query
/// jobs, this is tricky and probably wrong currently. Look at the
/// SQL queries for details.
pub(crate) async fn load_next(
context: &Context,
thread: Thread,
info: &InterruptInfo,
) -> Option<Job> {
info!(context, "loading job for {}-thread", thread);
let query;
let params;
let t = time();
let m;
let thread_i = thread as i64;
if let Some(msg_id) = info.msg_id {
query = r#"
SELECT id, action, foreign_id, param, added_timestamp, desired_timestamp, tries
FROM jobs
WHERE thread=? AND foreign_id=?
ORDER BY action DESC, added_timestamp
LIMIT 1;
"#;
m = msg_id;
params = paramsv![thread_i, m];
} else if !info.probe_network {
// processing for first-try and after backoff-timeouts:
// process jobs in the order they were added.
query = r#"
SELECT id, action, foreign_id, param, added_timestamp, desired_timestamp, tries
FROM jobs
WHERE thread=? AND desired_timestamp<=?
ORDER BY action DESC, added_timestamp
LIMIT 1;
"#;
params = paramsv![thread_i, t];
} else {
// processing after call to dc_maybe_network():
// process _all_ pending jobs that failed before
// in the order of their backoff-times.
query = r#"
SELECT id, action, foreign_id, param, added_timestamp, desired_timestamp, tries
FROM jobs
WHERE thread=? AND tries>0
ORDER BY desired_timestamp, action DESC
LIMIT 1;
"#;
params = paramsv![thread_i];
};
let job = loop {
let job_res = context
.sql
.query_row_optional(query, params.clone(), |row| {
let job = Job {
job_id: row.get("id")?,
action: row.get("action")?,
foreign_id: row.get("foreign_id")?,
desired_timestamp: row.get("desired_timestamp")?,
added_timestamp: row.get("added_timestamp")?,
tries: row.get("tries")?,
param: row.get::<_, String>("param")?.parse().unwrap_or_default(),
pending_error: None,
};
Ok(job)
})
.await;
match job_res {
Ok(job) => break job,
Err(err) => {
// Remove invalid job from the DB
info!(context, "cleaning up job, because of {}", err);
// TODO: improve by only doing a single query
match context
.sql
.query_row(query, params.clone(), |row| row.get::<_, i32>(0))
.await
{
Ok(id) => {
context
.sql
.execute("DELETE FROM jobs WHERE id=?;", paramsv![id])
.await
.ok();
}
Err(err) => {
error!(context, "failed to retrieve invalid job from DB: {}", err);
break None;
}
}
}
}
};
match thread {
Thread::Unknown => {
error!(context, "unknown thread for job");
None
}
Thread::Imap => {
if let Some(job) = job {
if job.action < Action::DeleteMsgOnImap {
load_imap_deletion_job(context)
.await
.unwrap_or_default()
.or(Some(job))
} else {
Some(job)
}
} else {
load_imap_deletion_job(context).await.unwrap_or_default()
}
}
Thread::Smtp => job,
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::test_utils::*;
async fn insert_job(context: &Context, foreign_id: i64) {
let now = time();
context
.sql
.execute(
"INSERT INTO jobs
(added_timestamp, thread, action, foreign_id, param, desired_timestamp)
VALUES (?, ?, ?, ?, ?, ?);",
paramsv![
now,
Thread::from(Action::MoveMsg),
Action::MoveMsg,
foreign_id,
Params::new().to_string(),
now
],
)
.await
.unwrap();
}
#[async_std::test]
async fn test_load_next_job_two() {
// We want to ensure that loading jobs skips over jobs which
// fails to load from the database instead of failing to load
// all jobs.
let t = dummy_context().await;
insert_job(&t.ctx, -1).await; // This can not be loaded into Job struct.
let jobs = load_next(
&t.ctx,
Thread::from(Action::MoveMsg),
&InterruptInfo::new(false, None),
)
.await;
assert!(jobs.is_none());
insert_job(&t.ctx, 1).await;
let jobs = load_next(
&t.ctx,
Thread::from(Action::MoveMsg),
&InterruptInfo::new(false, None),
)
.await;
assert!(jobs.is_some());
}
#[async_std::test]
async fn test_load_next_job_one() {
let t = dummy_context().await;
insert_job(&t.ctx, 1).await;
let jobs = load_next(
&t.ctx,
Thread::from(Action::MoveMsg),
&InterruptInfo::new(false, None),
)
.await;
assert!(jobs.is_some());
}
}
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