/*
* meli - accounts module.
*
* Copyright 2017 Manos Pitsidianakis
*
* This file is part of meli.
*
* meli is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* meli is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with meli. If not, see .
*/
/*!
* Account management from user configuration.
*/
use super::{AccountConf, FileFolderConf};
use fnv::FnvHashMap;
use melib::async_workers::{Async, AsyncBuilder, AsyncStatus, WorkContext};
use melib::backends::{
BackendOp, Backends, Folder, FolderHash, FolderOperation, MailBackend, NotifyFn, ReadOnlyOp,
RefreshEvent, RefreshEventConsumer, RefreshEventKind, SpecialUsageMailbox,
};
use melib::error::{MeliError, Result};
use melib::mailbox::*;
use melib::text_processing::GlobMatch;
use melib::thread::{SortField, SortOrder, ThreadNode, ThreadNodeHash, Threads};
use melib::AddressBook;
use smallvec::SmallVec;
use crate::types::UIEvent::{self, EnvelopeRemove, EnvelopeRename, EnvelopeUpdate, Notification};
use crate::{StatusEvent, ThreadEvent};
use crossbeam::Sender;
use std::collections::VecDeque;
use std::fs;
use std::io;
use std::ops::{Index, IndexMut};
use std::os::unix::fs::PermissionsExt;
use std::result;
use std::sync::{Arc, RwLock};
pub type Worker = Option>>>;
macro_rules! mailbox {
($idx:expr, $folders:expr) => {
$folders.get_mut(&$idx).unwrap().unwrap_mut()
};
}
#[derive(Serialize, Debug)]
pub enum MailboxEntry {
Available(Mailbox),
Failed(MeliError),
/// first argument is done work, and second is total work
Parsing(Mailbox, usize, usize),
}
impl Default for MailboxEntry {
fn default() -> Self {
MailboxEntry::Parsing(Mailbox::default(), 0, 0)
}
}
impl std::fmt::Display for MailboxEntry {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
write!(
f,
"{}",
match self {
MailboxEntry::Available(ref m) => m.name().to_string(),
MailboxEntry::Failed(ref e) => e.to_string(),
MailboxEntry::Parsing(_, done, total) => {
format!("Parsing messages. [{}/{}]", done, total)
}
}
)
}
}
impl MailboxEntry {
pub fn is_available(&self) -> bool {
if let MailboxEntry::Available(_) = self {
true
} else {
false
}
}
pub fn is_parsing(&self) -> bool {
if let MailboxEntry::Parsing(_, _, _) = self {
true
} else {
false
}
}
pub fn as_result(&self) -> Result<&Mailbox> {
match self {
MailboxEntry::Available(ref m) => Ok(m),
MailboxEntry::Parsing(ref m, _, _) => Ok(m),
MailboxEntry::Failed(ref e) => Err(MeliError::new(format!(
"Mailbox is not available: {}",
e.to_string()
))),
}
}
pub fn as_mut_result(&mut self) -> Result<&mut Mailbox> {
match self {
MailboxEntry::Available(ref mut m) => Ok(m),
MailboxEntry::Parsing(ref mut m, _, _) => Ok(m),
MailboxEntry::Failed(ref e) => Err(MeliError::new(format!(
"Mailbox is not available: {}",
e.to_string()
))),
}
}
pub fn unwrap_mut(&mut self) -> &mut Mailbox {
match self {
MailboxEntry::Available(ref mut m) => m,
MailboxEntry::Parsing(ref mut m, _, _) => m,
e => panic!(format!("mailbox is not available! {:#}", e)),
}
}
pub fn unwrap(&self) -> &Mailbox {
match self {
MailboxEntry::Available(ref m) => m,
MailboxEntry::Parsing(ref m, _, _) => m,
e => panic!(format!("mailbox is not available! {:#}", e)),
}
}
}
#[derive(Debug)]
pub struct Account {
pub index: usize,
name: String,
pub is_online: bool,
pub(crate) folders: FnvHashMap,
pub(crate) ref_folders: FnvHashMap,
pub(crate) folder_confs: FnvHashMap,
pub(crate) folders_order: Vec,
pub(crate) folder_names: FnvHashMap,
tree: Vec,
sent_folder: Option,
pub(crate) collection: Collection,
pub(crate) address_book: AddressBook,
pub(crate) workers: FnvHashMap,
pub(crate) work_context: WorkContext,
pub(crate) settings: AccountConf,
pub(crate) runtime_settings: AccountConf,
pub(crate) backend: Arc>>,
sender: Sender,
event_queue: VecDeque<(FolderHash, RefreshEvent)>,
notify_fn: Arc,
}
impl Drop for Account {
fn drop(&mut self) {
if let Ok(data_dir) = xdg::BaseDirectories::with_profile("meli", &self.name) {
if let Ok(data) = data_dir.place_data_file("addressbook") {
/* place result in cache directory */
let f = match fs::File::create(data) {
Ok(f) => f,
Err(e) => {
eprintln!("{}", e);
return;
}
};
let metadata = f.metadata().unwrap();
let mut permissions = metadata.permissions();
permissions.set_mode(0o600); // Read/write for owner only.
f.set_permissions(permissions).unwrap();
let writer = io::BufWriter::new(f);
if let Err(err) = serde_json::to_writer(writer, &self.address_book) {
eprintln!("{}", err);
return;
};
};
if let Ok(data) = data_dir.place_data_file("mailbox") {
/* place result in cache directory */
let f = match fs::File::create(data) {
Ok(f) => f,
Err(e) => {
eprintln!("{}", e);
return;
}
};
let metadata = f.metadata().unwrap();
let mut permissions = metadata.permissions();
permissions.set_mode(0o600); // Read/write for owner only.
f.set_permissions(permissions).unwrap();
let writer = io::BufWriter::new(f);
if let Err(err) = bincode::serialize_into(writer, &self.folders) {
eprintln!("{}", err);
};
};
}
}
}
pub struct MailboxIterator<'a> {
folders_order: &'a [FolderHash],
folders: &'a FnvHashMap,
pos: usize,
}
impl<'a> Iterator for MailboxIterator<'a> {
type Item = &'a MailboxEntry;
fn next(&mut self) -> Option<&'a MailboxEntry> {
if self.pos == self.folders.len() {
return None;
}
let fh = &self.folders_order[self.pos];
self.pos += 1;
Some(&self.folders[&fh])
}
}
#[derive(Serialize, Debug, Default)]
struct FolderNode {
hash: FolderHash,
kids: Vec,
}
impl Account {
pub fn new(
index: usize,
name: String,
mut settings: AccountConf,
map: &Backends,
work_context: WorkContext,
sender: Sender,
notify_fn: NotifyFn,
) -> Result {
let s = settings.clone();
let backend = map.get(settings.account().format())(
settings.account(),
Box::new(move |path: &str| {
(s.folder_confs.contains_key(path)
&& s.folder_confs[path].folder_conf().subscribe.is_true())
|| s.account
.subscribed_folders
.iter()
.any(|m| path.matches_glob(m))
}),
)?;
let notify_fn = Arc::new(notify_fn);
let data_dir = xdg::BaseDirectories::with_profile("meli", &name).unwrap();
let mut address_book = AddressBook::with_account(&settings.account());
if let Ok(data) = data_dir.place_data_file("addressbook") {
if data.exists() {
let reader = io::BufReader::new(fs::File::open(data).unwrap());
let result: result::Result = serde_json::from_reader(reader);
if let Ok(data_t) = result {
for (id, c) in data_t.cards {
if !address_book.card_exists(id) && !c.external_resource() {
address_book.add_card(c);
}
}
}
}
};
if settings.account().format() == "imap" {
settings.conf.cache_type = crate::conf::CacheType::None;
}
Ok(Account {
index,
name,
is_online: false,
folders: Default::default(),
ref_folders: Default::default(),
folder_confs: Default::default(),
folders_order: Default::default(),
folder_names: Default::default(),
tree: Default::default(),
address_book,
sent_folder: Default::default(),
collection: Default::default(),
workers: Default::default(),
work_context,
runtime_settings: settings.clone(),
settings,
backend: Arc::new(RwLock::new(backend)),
notify_fn,
sender,
event_queue: VecDeque::with_capacity(8),
})
}
fn init(&mut self) {
let mut ref_folders: FnvHashMap =
match self.backend.read().unwrap().folders() {
Ok(f) => f,
Err(err) => {
debug!(&err);
return;
}
};
let mut folders: FnvHashMap =
FnvHashMap::with_capacity_and_hasher(ref_folders.len(), Default::default());
let mut folders_order: Vec = Vec::with_capacity(ref_folders.len());
let mut workers: FnvHashMap = FnvHashMap::default();
let mut folder_names = FnvHashMap::default();
let mut folder_confs = FnvHashMap::default();
let mut sent_folder = None;
for f in ref_folders.values_mut() {
if !((self.settings.folder_confs.contains_key(f.path())
&& self.settings.folder_confs[f.path()]
.folder_conf()
.subscribe
.is_true())
|| self
.settings
.account
.subscribed_folders
.iter()
.any(|m| f.path().matches_glob(m)))
{
/* Skip unsubscribed folder */
continue;
}
if let Some(conf) = self.settings.folder_confs.get_mut(f.path()) {
conf.folder_conf.usage = if f.special_usage() != SpecialUsageMailbox::Normal {
Some(f.special_usage())
} else {
let tmp = SpecialUsageMailbox::detect_usage(f.name());
if tmp != Some(SpecialUsageMailbox::Normal) && tmp != None {
let _ = f.set_special_usage(tmp.unwrap());
}
tmp
};
match conf.folder_conf.usage {
Some(SpecialUsageMailbox::Sent) => {
sent_folder = Some(f.hash());
}
None => {
if f.special_usage() == SpecialUsageMailbox::Sent {
sent_folder = Some(f.hash());
}
}
_ => {}
}
folder_confs.insert(f.hash(), conf.clone());
} else {
let mut new = FileFolderConf::default();
new.folder_conf.subscribe = super::ToggleFlag::InternalVal(true);
new.folder_conf.usage = if f.special_usage() != SpecialUsageMailbox::Normal {
Some(f.special_usage())
} else {
let tmp = SpecialUsageMailbox::detect_usage(f.name());
if tmp != Some(SpecialUsageMailbox::Normal) && tmp != None {
let _ = f.set_special_usage(tmp.unwrap());
}
tmp
};
folder_confs.insert(f.hash(), new);
}
folder_names.insert(f.hash(), f.path().to_string());
}
let mut tree: Vec = Vec::new();
let mut collection: Collection = Collection::new(Default::default());
for (h, f) in ref_folders.iter() {
if !folder_confs.contains_key(&h) {
/* Skip unsubscribed folder */
continue;
}
folders.insert(
*h,
MailboxEntry::Parsing(Mailbox::new(f.clone(), &FnvHashMap::default()), 0, 0),
);
workers.insert(
*h,
Account::new_worker(
f.clone(),
&mut self.backend,
&self.work_context,
self.notify_fn.clone(),
),
);
collection.threads.insert(*h, Threads::default());
}
build_folders_order(&folder_confs, &mut tree, &ref_folders, &mut folders_order);
self.folders = folders;
self.ref_folders = ref_folders;
self.folder_confs = folder_confs;
self.folders_order = folders_order;
self.folder_names = folder_names;
self.tree = tree;
self.sent_folder = sent_folder;
self.collection = collection;
self.workers = workers;
}
fn new_worker(
folder: Folder,
backend: &Arc>>,
work_context: &WorkContext,
notify_fn: Arc,
) -> Worker {
let mut mailbox_handle = backend.write().unwrap().get(&folder);
let mut builder = AsyncBuilder::new();
let our_tx = builder.tx();
let folder_hash = folder.hash();
let priority = match folder.special_usage() {
SpecialUsageMailbox::Inbox => 0,
SpecialUsageMailbox::Sent => 1,
SpecialUsageMailbox::Drafts | SpecialUsageMailbox::Trash => 2,
_ => {
3 * folder
.path()
.split(if folder.path().contains('/') {
'/'
} else {
'.'
})
.count() as u64
}
};
/* This polling closure needs to be 'static', that is to spawn its own thread instead of
* being assigned to a worker thread. Otherwise the polling closures could fill up the
* workers causing no actual parsing to be done. If we could yield from within the worker
* threads' closures this could be avoided, but it requires green threads.
*/
builder.set_priority(priority).set_is_static(true);
let mut w = builder.build(Box::new(move |work_context| {
let name = format!("Parsing {}", folder.path());
let work = mailbox_handle.work().unwrap();
work_context.new_work.send(work).unwrap();
let thread_id = std::thread::current().id();
work_context.set_name.send((thread_id, name)).unwrap();
work_context
.set_status
.send((thread_id, "Waiting for subworkers..".to_string()))
.unwrap();
loop {
match debug!(mailbox_handle.poll_block()) {
Ok(s @ AsyncStatus::Payload(_)) => {
our_tx.send(s).unwrap();
debug!("notifying for {}", folder_hash);
notify_fn.notify(folder_hash);
}
Ok(s @ AsyncStatus::Finished) => {
our_tx.send(s).unwrap();
notify_fn.notify(folder_hash);
debug!("exiting");
work_context.finished.send(thread_id).unwrap();
return;
}
Ok(s) => {
our_tx.send(s).unwrap();
}
Err(_) => {
debug!("poll error");
return;
}
}
}
}));
if let Some(w) = w.work() {
work_context.new_work.send(w).unwrap();
}
Some(w)
}
pub fn reload(&mut self, event: RefreshEvent, folder_hash: FolderHash) -> Option {
if !self.folders[&folder_hash].is_available() {
self.event_queue.push_back((folder_hash, event));
return None;
}
let kind = event.kind();
{
//let mailbox: &mut Mailbox = self.folders[idx].as_mut().unwrap().as_mut().unwrap();
match kind {
RefreshEventKind::Update(old_hash, envelope) => {
mailbox!(&folder_hash, self.folders).rename(old_hash, envelope.hash());
#[cfg(feature = "sqlite3")]
{
if let Err(err) = crate::sqlite3::remove(old_hash).and_then(|_| {
crate::sqlite3::insert(&envelope, &self.backend, &self.name)
}) {
melib::log(
format!(
"Failed to update envelope {} in cache: {}",
envelope.message_id_display(),
err.to_string()
),
melib::ERROR,
);
}
}
self.collection.update(old_hash, *envelope, folder_hash);
return Some(EnvelopeUpdate(old_hash));
}
RefreshEventKind::Rename(old_hash, new_hash) => {
debug!("rename {} to {}", old_hash, new_hash);
mailbox!(&folder_hash, self.folders).rename(old_hash, new_hash);
self.collection.rename(old_hash, new_hash, folder_hash);
#[cfg(feature = "sqlite3")]
{
let envelopes = self.collection.envelopes.read();
let envelopes = envelopes.unwrap();
if let Err(err) = crate::sqlite3::remove(old_hash).and_then(|_| {
crate::sqlite3::insert(&envelopes[&new_hash], &self.backend, &self.name)
}) {
melib::log(
format!(
"Failed to update envelope {} in cache: {}",
&envelopes[&new_hash].message_id_display(),
err.to_string()
),
melib::ERROR,
);
}
}
return Some(EnvelopeRename(old_hash, new_hash));
}
RefreshEventKind::Create(envelope) => {
let env_hash = envelope.hash();
if self.collection.contains_key(&env_hash)
&& mailbox!(&folder_hash, self.folders)
.envelopes
.contains(&env_hash)
{
return None;
}
mailbox!(&folder_hash, self.folders).insert(env_hash);
let (is_seen, is_draft) =
{ (envelope.is_seen(), envelope.flags().contains(Flag::DRAFT)) };
let (subject, from) = {
(
envelope.subject().into_owned(),
envelope.field_from_to_string(),
)
};
#[cfg(feature = "sqlite3")]
{
if let Err(err) =
crate::sqlite3::insert(&envelope, &self.backend, &self.name)
{
melib::log(
format!(
"Failed to insert envelope {} in cache: {}",
envelope.message_id_display(),
err.to_string()
),
melib::ERROR,
);
}
}
self.collection.insert(*envelope, folder_hash);
if self
.sent_folder
.as_ref()
.map(|h| *h == folder_hash)
.unwrap_or(false)
{
self.collection.insert_reply(env_hash);
}
let ref_folders: FnvHashMap =
self.backend.read().unwrap().folders().unwrap();
let folder_conf = &self.folder_confs[&folder_hash];
if folder_conf.folder_conf().ignore.is_true() {
return Some(UIEvent::MailboxUpdate((self.index, folder_hash)));
}
let thread = {
let thread_hash = self.collection.get_env(env_hash).thread();
self.collection.threads[&folder_hash]
.find_group(self.collection.threads[&folder_hash][&thread_hash].group)
};
if self.collection.threads[&folder_hash]
.thread_ref(thread)
.snoozed()
{
return Some(UIEvent::MailboxUpdate((self.index, folder_hash)));
}
if is_seen || is_draft {
return Some(UIEvent::MailboxUpdate((self.index, folder_hash)));
}
return Some(Notification(
Some(format!("new e-mail from: {}", from)),
format!(
"{}\n{} {}",
subject,
self.name,
ref_folders[&folder_hash].name(),
),
Some(crate::types::NotificationType::NewMail),
));
}
RefreshEventKind::Remove(envelope_hash) => {
mailbox!(&folder_hash, self.folders).remove(envelope_hash);
#[cfg(feature = "sqlite3")]
{
let envelopes = self.collection.envelopes.read();
let envelopes = envelopes.unwrap();
if let Err(err) = crate::sqlite3::remove(envelope_hash) {
melib::log(
format!(
"Failed to remove envelope {} [{}] in cache: {}",
&envelopes[&envelope_hash].message_id_display(),
envelope_hash,
err.to_string()
),
melib::ERROR,
);
}
}
self.collection.remove(envelope_hash, folder_hash);
return Some(EnvelopeRemove(envelope_hash));
}
RefreshEventKind::Rescan => {
let ref_folders: FnvHashMap =
self.backend.read().unwrap().folders().unwrap();
let handle = Account::new_worker(
ref_folders[&folder_hash].clone(),
&mut self.backend,
&self.work_context,
self.notify_fn.clone(),
);
self.workers.insert(folder_hash, handle);
}
RefreshEventKind::Failure(e) => {
debug!("RefreshEvent Failure: {}", e.to_string());
/*
context
.1
.send(ThreadEvent::UIEvent(UIEvent::Notification(
Some(format!("{} watcher exited with error", &self.name)),
e.to_string(),
Some(crate::types::NotificationType::ERROR),
)))
.expect("Could not send event on main channel");
*/
self.watch();
}
}
}
None
}
pub fn refresh(&mut self, folder_hash: FolderHash) -> Result<()> {
if let Some(ref refresh_command) = self.settings.conf().refresh_command {
let parts = crate::split_command!(refresh_command);
let (cmd, args) = (parts[0], &parts[1..]);
std::process::Command::new(cmd)
.args(args)
.stdin(std::process::Stdio::null())
.stdout(std::process::Stdio::null())
.stderr(std::process::Stdio::piped())
.spawn()?;
return Ok(());
}
let sender_ = self.sender.clone();
let r = RefreshEventConsumer::new(Box::new(move |r| {
sender_.send(ThreadEvent::from(r)).unwrap();
}));
let mut h = self.backend.write().unwrap().refresh(folder_hash, r)?;
self.work_context.new_work.send(h.work().unwrap()).unwrap();
Ok(())
}
pub fn watch(&self) {
if self.settings.account().manual_refresh {
return;
}
let sender_ = self.sender.clone();
let r = RefreshEventConsumer::new(Box::new(move |r| {
sender_.send(ThreadEvent::from(r)).unwrap();
}));
match self
.backend
.read()
.unwrap()
.watch(r, self.work_context.clone())
{
Ok(id) => {
self.sender
.send(ThreadEvent::NewThread(
id,
format!("watching {}", self.name()).into(),
))
.unwrap();
}
Err(e) => {
self.sender
.send(ThreadEvent::UIEvent(UIEvent::StatusEvent(
StatusEvent::DisplayMessage(e.to_string()),
)))
.unwrap();
}
}
}
pub fn len(&self) -> usize {
self.folders.len()
}
pub fn is_empty(&self) -> bool {
self.folders.is_empty()
}
pub fn list_folders(&self) -> Vec {
let mut folders = self.ref_folders.clone();
let folder_confs = &self.folder_confs;
//debug!("folder renames: {:?}", folder_renames);
for f in folders.values_mut() {
if let Some(r) = folder_confs.get(&f.hash()) {
if let Some(rename) = r.folder_conf().alias() {
f.change_name(rename);
}
}
}
/*
if let Some(pos) = folders
.iter()
.position(|f| f.name().eq_ignore_ascii_case("INBOX"))
{
folders.swap(pos, 0);
}
*/
let order: FnvHashMap = self
.folders_order
.iter()
.enumerate()
.map(|(i, &fh)| (fh, i))
.collect();
let mut folders: Vec = folders
.drain()
.map(|(_, f)| f)
.filter(|f| {
self.folders.contains_key(&f.hash())
|| self
.settings
.account
.subscribed_folders
.iter()
.any(|m| f.path().matches_glob(m))
})
.collect();
if order.is_empty() {
return Vec::new();
}
folders.sort_unstable_by(|a, b| order[&a.hash()].partial_cmp(&order[&b.hash()]).unwrap());
folders
}
pub fn folders_order(&self) -> &Vec {
&self.folders_order
}
pub fn name(&self) -> &str {
&self.name
}
pub fn workers(&mut self) -> &mut FnvHashMap {
&mut self.workers
}
fn load_mailbox(&mut self, folder_hash: FolderHash, payload: Result>) {
if payload.is_err() {
self.folders
.insert(folder_hash, MailboxEntry::Failed(payload.unwrap_err()));
self.sender
.send(ThreadEvent::UIEvent(UIEvent::StartupCheck(folder_hash)))
.unwrap();
return;
}
let envelopes = payload
.unwrap()
.into_iter()
.map(|e| (e.hash(), e))
.collect::>();
match self.folders.entry(folder_hash).or_default() {
MailboxEntry::Failed(_) => {}
MailboxEntry::Parsing(ref mut m, _, _) | MailboxEntry::Available(ref mut m) => {
m.merge(&envelopes);
if let Some(updated_folders) =
self.collection
.merge(envelopes, folder_hash, self.sent_folder)
{
for f in updated_folders {
self.sender
.send(ThreadEvent::UIEvent(UIEvent::StartupCheck(f)))
.unwrap();
}
}
}
}
self.sender
.send(ThreadEvent::UIEvent(UIEvent::StartupCheck(folder_hash)))
.unwrap();
}
pub fn status(&mut self, folder_hash: FolderHash) -> result::Result<(), usize> {
loop {
match self.workers.get_mut(&folder_hash).unwrap() {
None => {
return if self.folders[&folder_hash].is_available()
|| (self.folders[&folder_hash].is_parsing()
&& self.collection.threads.contains_key(&folder_hash))
{
Ok(())
} else {
Err(0)
};
}
Some(ref mut w) => match debug!(w.poll()) {
Ok(AsyncStatus::NoUpdate) => {
break;
}
Ok(AsyncStatus::Payload(envs)) => {
debug!("got payload in status for {}", folder_hash);
self.load_mailbox(folder_hash, envs);
}
Ok(AsyncStatus::Finished) => {
debug!("got finished in status for {}", folder_hash);
self.folders.entry(folder_hash).and_modify(|f| {
let m = if let MailboxEntry::Parsing(m, _, _) = f {
std::mem::replace(m, Mailbox::default())
} else {
return;
};
*f = MailboxEntry::Available(m);
});
self.sender
.send(ThreadEvent::UIEvent(UIEvent::MailboxUpdate((
self.index,
folder_hash,
))))
.unwrap();
self.workers.insert(folder_hash, None);
}
Ok(AsyncStatus::ProgressReport(n)) => {
self.folders.entry(folder_hash).and_modify(|f| {
if let MailboxEntry::Parsing(_, ref mut d, _) = f {
*d += n;
}
});
//return Err(n);
}
_ => {
break;
}
},
};
}
if self.folders[&folder_hash].is_available()
|| (self.folders[&folder_hash].is_parsing()
&& self.collection.threads.contains_key(&folder_hash))
{
Ok(())
} else {
Err(0)
}
}
pub fn save_special(
&self,
bytes: &[u8],
folder_type: SpecialUsageMailbox,
flags: Flag,
) -> Result<()> {
let mut failure = true;
for folder in &[
self.special_use_folder(folder_type),
self.special_use_folder(SpecialUsageMailbox::Inbox),
self.special_use_folder(SpecialUsageMailbox::Normal),
] {
if folder.is_none() {
continue;
}
let folder = folder.unwrap();
if let Err(e) = self.save(bytes, folder, Some(flags)) {
debug!("{:?} could not save msg", e);
melib::log(
format!("Could not save in '{}' folder: {}.", folder, e.to_string()),
melib::ERROR,
);
} else {
failure = false;
break;
}
}
if failure {
let file = crate::types::create_temp_file(bytes, None, None, false);
debug!("message saved in {}", file.path.display());
melib::log(
format!(
"Message was stored in {} so that you can restore it manually.",
file.path.display()
),
melib::INFO,
);
return Err(MeliError::new(format!(
"Message was stored in {} so that you can restore it manually.",
file.path.display()
))
.set_summary("Could not save in any folder"));
}
Ok(())
}
pub fn save(&self, bytes: &[u8], folder: &str, flags: Option) -> Result<()> {
if self.settings.account.read_only() {
return Err(MeliError::new(format!(
"Account {} is read-only.",
self.name.as_str()
)));
}
self.backend.write().unwrap().save(bytes, folder, flags)
}
pub fn iter_mailboxes(&self) -> MailboxIterator {
MailboxIterator {
folders_order: &self.folders_order,
folders: &self.folders,
pos: 0,
}
}
pub fn contains_key(&self, h: EnvelopeHash) -> bool {
self.collection.contains_key(&h)
}
pub fn operation(&self, h: EnvelopeHash) -> Box {
let operation = self.backend.read().unwrap().operation(h);
if self.settings.account.read_only() {
ReadOnlyOp::new(operation)
} else {
operation
}
}
pub fn thread(&self, h: ThreadNodeHash, f: FolderHash) -> &ThreadNode {
&self.collection.threads[&f].thread_nodes()[&h]
}
pub fn folder_operation(&mut self, path: &str, op: FolderOperation) -> Result<()> {
match op {
FolderOperation::Create => {
if self.settings.account.read_only() {
Err(MeliError::new("Account is read-only."))
} else {
let mut folder = self
.backend
.write()
.unwrap()
.create_folder(path.to_string())?;
let mut new = FileFolderConf::default();
new.folder_conf.subscribe = super::ToggleFlag::InternalVal(true);
new.folder_conf.usage = if folder.special_usage() != SpecialUsageMailbox::Normal
{
Some(folder.special_usage())
} else {
let tmp = SpecialUsageMailbox::detect_usage(folder.name());
if tmp != Some(SpecialUsageMailbox::Normal) && tmp != None {
let _ = folder.set_special_usage(tmp.unwrap());
}
tmp
};
self.folder_confs.insert(folder.hash(), new);
self.folder_names
.insert(folder.hash(), folder.path().to_string());
self.folders.insert(
folder.hash(),
MailboxEntry::Parsing(
Mailbox::new(folder.clone(), &FnvHashMap::default()),
0,
0,
),
);
self.workers.insert(
folder.hash(),
Account::new_worker(
folder.clone(),
&mut self.backend,
&self.work_context,
self.notify_fn.clone(),
),
);
self.collection
.threads
.insert(folder.hash(), Threads::default());
self.ref_folders.insert(folder.hash(), folder);
build_folders_order(
&self.folder_confs,
&mut self.tree,
&self.ref_folders,
&mut self.folders_order,
);
Ok(())
}
}
FolderOperation::Delete => Err(MeliError::new("Not implemented.")),
FolderOperation::Subscribe => Err(MeliError::new("Not implemented.")),
FolderOperation::Unsubscribe => Err(MeliError::new("Not implemented.")),
FolderOperation::Rename(_) => Err(MeliError::new("Not implemented.")),
FolderOperation::SetPermissions(_) => Err(MeliError::new("Not implemented.")),
}
}
pub fn folder_confs(&self, folder_hash: FolderHash) -> &FileFolderConf {
&self.folder_confs[&folder_hash]
}
pub fn sent_folder(&self) -> &str {
let sent_folder = self
.folder_confs
.iter()
.find(|(_, f)| f.folder_conf().usage == Some(SpecialUsageMailbox::Sent));
if let Some(sent_folder) = sent_folder.as_ref() {
&self.folder_names[&sent_folder.0]
} else {
""
}
}
pub fn special_use_folder(&self, special_use: SpecialUsageMailbox) -> Option<&str> {
let ret = self
.folder_confs
.iter()
.find(|(_, f)| f.folder_conf().usage == Some(special_use));
if let Some(ret) = ret.as_ref() {
Some(&self.folder_names[&ret.0])
} else {
None
}
}
/* Call only in Context::is_online, since only Context can launch the watcher threads if an
* account goes from offline to online. */
pub fn is_online(&mut self) -> Result<()> {
if !self.is_online {
self.backend.write().unwrap().connect();
}
let ret = self.backend.read().unwrap().is_online();
if ret.is_ok() != self.is_online && ret.is_ok() {
self.init();
}
self.is_online = ret.is_ok();
ret
}
pub fn search(
&self,
search_term: &str,
sort: (SortField, SortOrder),
folder_hash: FolderHash,
) -> Result> {
if self.settings.account().format() == "imap" {
return crate::cache::imap_search(search_term, sort, folder_hash, &self.backend);
}
#[cfg(feature = "notmuch")]
{
if self.settings.account().format() == "notmuch" {
let backend_lck = self.backend.read().unwrap();
let b = (*backend_lck).as_any();
return if let Some(notmuch_backend) = b.downcast_ref::()
{
notmuch_backend.search(search_term)
} else {
Err(MeliError::new(
"Internal error: Could not downcast backend to NotmuchDb",
))
};
}
}
#[cfg(feature = "sqlite3")]
{
crate::sqlite3::search(search_term, sort)
}
#[cfg(not(feature = "sqlite3"))]
{
let mut ret = SmallVec::new();
let envelopes = self.collection.envelopes.read().unwrap();
for &env_hash in &self.folders[&folder_hash].as_result()?.envelopes {
let envelope = &envelopes[&env_hash];
if envelope.subject().contains(&search_term) {
ret.push(env_hash);
continue;
}
if envelope.field_from_to_string().contains(&search_term) {
ret.push(env_hash);
continue;
}
let op = self.operation(env_hash);
let body = envelope.body(op)?;
let decoded = decode_rec(&body, None);
let body_text = String::from_utf8_lossy(&decoded);
if body_text.contains(&search_term) {
ret.push(env_hash);
}
}
Ok(ret)
}
}
}
impl Index for Account {
type Output = MailboxEntry;
fn index(&self, index: FolderHash) -> &MailboxEntry {
&self.folders[&index]
}
}
impl IndexMut for Account {
fn index_mut(&mut self, index: FolderHash) -> &mut MailboxEntry {
self.folders.get_mut(&index).unwrap()
}
}
impl Index for Account {
type Output = MailboxEntry;
fn index(&self, index: usize) -> &MailboxEntry {
&self.folders[&self.folders_order[index]]
}
}
/// Will panic if mailbox hasn't loaded, ask `status()` first.
impl IndexMut for Account {
fn index_mut(&mut self, index: usize) -> &mut MailboxEntry {
self.folders.get_mut(&self.folders_order[index]).unwrap()
}
}
fn build_folders_order(
folder_confs: &FnvHashMap,
tree: &mut Vec,
ref_folders: &FnvHashMap,
folders_order: &mut Vec,
) {
let mut stack: SmallVec<[FolderHash; 8]> = SmallVec::new();
tree.clear();
folders_order.clear();
for (h, f) in ref_folders.iter() {
if !folder_confs.contains_key(&h) {
continue;
}
if f.parent().is_none() {
fn rec(h: FolderHash, ref_folders: &FnvHashMap) -> FolderNode {
let mut node = FolderNode {
hash: h,
kids: Vec::new(),
};
for &c in ref_folders[&h].children() {
node.kids.push(rec(c, ref_folders));
}
node
};
tree.push(rec(*h, &ref_folders));
for &c in f.children() {
stack.push(c);
}
while let Some(next) = stack.pop() {
for c in ref_folders[&next].children() {
stack.push(*c);
}
}
}
}
tree.sort_unstable_by(|a, b| {
if ref_folders[&b.hash].path().eq_ignore_ascii_case("INBOX") {
std::cmp::Ordering::Greater
} else if ref_folders[&a.hash].path().eq_ignore_ascii_case("INBOX") {
std::cmp::Ordering::Less
} else {
ref_folders[&a.hash]
.path()
.cmp(&ref_folders[&b.hash].path())
}
});
let mut stack: SmallVec<[Option<&FolderNode>; 8]> = SmallVec::new();
for n in tree.iter_mut() {
folders_order.push(n.hash);
n.kids.sort_unstable_by(|a, b| {
if ref_folders[&b.hash].path().eq_ignore_ascii_case("INBOX") {
std::cmp::Ordering::Greater
} else if ref_folders[&a.hash].path().eq_ignore_ascii_case("INBOX") {
std::cmp::Ordering::Less
} else {
ref_folders[&a.hash]
.path()
.cmp(&ref_folders[&b.hash].path())
}
});
stack.extend(n.kids.iter().rev().map(Some));
while let Some(Some(next)) = stack.pop() {
folders_order.push(next.hash);
stack.extend(next.kids.iter().rev().map(Some));
}
}
}