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rust-imap/src/client.rs
Michael Bøcker-Larsen cdf320fb0c
refactor: use AppendCmd instead of AppendOptions
2020-12-17 11:02:48 +08:00

1979 lines
81 KiB
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use base64;
use bufstream::BufStream;
use chrono::{DateTime, FixedOffset};
#[cfg(feature = "tls")]
use native_tls::{TlsConnector, TlsStream};
use nom;
use std::collections::HashSet;
use std::io::{Read, Write};
use std::net::{TcpStream, ToSocketAddrs};
use std::ops::{Deref, DerefMut};
use std::str;
use std::sync::mpsc;
use super::authenticator::Authenticator;
use super::error::{Error, ParseError, Result, ValidateError};
use super::extensions;
use super::parse::*;
use super::types::*;
static TAG_PREFIX: &str = "a";
const INITIAL_TAG: u32 = 0;
const CR: u8 = 0x0d;
const LF: u8 = 0x0a;
macro_rules! quote {
($x:expr) => {
format!("\"{}\"", $x.replace(r"\", r"\\").replace("\"", "\\\""))
};
}
fn validate_str(value: &str) -> Result<String> {
let quoted = quote!(value);
if quoted.find('\n').is_some() {
return Err(Error::Validate(ValidateError('\n')));
}
if quoted.find('\r').is_some() {
return Err(Error::Validate(ValidateError('\r')));
}
Ok(quoted)
}
/// An authenticated IMAP session providing the usual IMAP commands. This type is what you get from
/// a succesful login attempt.
///
/// Note that the server *is* allowed to unilaterally send things to the client for messages in
/// a selected mailbox whose status has changed. See the note on [unilateral server responses
/// in RFC 3501](https://tools.ietf.org/html/rfc3501#section-7). Any such messages are parsed out
/// and sent on `Session::unsolicited_responses`.
// Both `Client` and `Session` deref to [`Connection`](struct.Connection.html), the underlying
// primitives type.
#[derive(Debug)]
pub struct Session<T: Read + Write> {
conn: Connection<T>,
unsolicited_responses_tx: mpsc::Sender<UnsolicitedResponse>,
/// Server responses that are not related to the current command. See also the note on
/// [unilateral server responses in RFC 3501](https://tools.ietf.org/html/rfc3501#section-7).
pub unsolicited_responses: mpsc::Receiver<UnsolicitedResponse>,
}
/// An (unauthenticated) handle to talk to an IMAP server. This is what you get when first
/// connecting. A succesfull call to [`Client::login`] or [`Client::authenticate`] will return a
/// [`Session`] instance that provides the usual IMAP methods.
// Both `Client` and `Session` deref to [`Connection`](struct.Connection.html), the underlying
// primitives type.
#[derive(Debug)]
pub struct Client<T: Read + Write> {
conn: Connection<T>,
}
/// The underlying primitives type. Both `Client`(unauthenticated) and `Session`(after succesful
/// login) use a `Connection` internally for the TCP stream primitives.
#[derive(Debug)]
#[doc(hidden)]
pub struct Connection<T: Read + Write> {
pub(crate) stream: BufStream<T>,
tag: u32,
/// Enable debug mode for this connection so that all client-server interactions are printed to
/// `STDERR`.
pub debug: bool,
/// Tracks if we have read a greeting.
pub greeting_read: bool,
}
/// A builder for the append command
pub struct AppendCmd<'a, T: Read + Write> {
session: &'a Session<T>,
content: &'a [u8],
mailbox: &'a str,
flags: Vec<&'a Flag<'a>>,
date: Option<DateTime<FixedOffset>>,
}
impl<'a, T: Read + Write> AppendCmd<'a, T> {
/// Append a flag
pub fn flag(&mut self, flag: &'a Flag<'a>) -> &mut Self {
self.flags.push(flag);
self
}
/// Set the internal date
pub fn internal_date(&mut self, date: DateTime<FixedOffset>) -> &mut Self {
self.date = Some(date);
self
}
/// Run command when set up
#[must_use]
pub fn run(&self) -> Result<()> {
let flagstr = self
.flags
.into_iter()
.filter(|f| **f != Flag::Recent)
.map(|f| f.to_string())
.collect::<Vec<String>>()
.join(" ");
let datestr = if let Some(date) = self.date {
format!(" \"{}\"", date.format("%d-%h-%Y %T %z"))
} else {
"".to_string()
};
self.session.run_command(&format!(
"APPEND \"{}\" ({}){} {{{}}}",
self.mailbox,
flagstr,
datestr,
self.content.len()
))?;
let mut v = Vec::new();
self.session.readline(&mut v)?;
if !v.starts_with(b"+") {
return Err(Error::Append);
}
self.session.stream.write_all(self.content)?;
self.session.stream.write_all(b"\r\n")?;
self.session.stream.flush()?;
self.session.read_response().map(|_| ())
}
}
// `Deref` instances are so we can make use of the same underlying primitives in `Client` and
// `Session`
impl<T: Read + Write> Deref for Client<T> {
type Target = Connection<T>;
fn deref(&self) -> &Connection<T> {
&self.conn
}
}
impl<T: Read + Write> DerefMut for Client<T> {
fn deref_mut(&mut self) -> &mut Connection<T> {
&mut self.conn
}
}
impl<T: Read + Write> Deref for Session<T> {
type Target = Connection<T>;
fn deref(&self) -> &Connection<T> {
&self.conn
}
}
impl<T: Read + Write> DerefMut for Session<T> {
fn deref_mut(&mut self) -> &mut Connection<T> {
&mut self.conn
}
}
/// Connect to a server using a TLS-encrypted connection.
///
/// The returned [`Client`] is unauthenticated; to access session-related methods (through
/// [`Session`]), use [`Client::login`] or [`Client::authenticate`].
///
/// The domain must be passed in separately from the `TlsConnector` so that the certificate of the
/// IMAP server can be validated.
///
/// # Examples
///
/// ```no_run
/// # extern crate native_tls;
/// # extern crate imap;
/// # use std::io;
/// # use native_tls::TlsConnector;
/// # fn main() {
/// let tls = TlsConnector::builder().build().unwrap();
/// let client = imap::connect(("imap.example.org", 993), "imap.example.org", &tls).unwrap();
/// # }
/// ```
#[cfg(feature = "tls")]
pub fn connect<A: ToSocketAddrs, S: AsRef<str>>(
addr: A,
domain: S,
ssl_connector: &TlsConnector,
) -> Result<Client<TlsStream<TcpStream>>> {
match TcpStream::connect(addr) {
Ok(stream) => {
let ssl_stream = match TlsConnector::connect(ssl_connector, domain.as_ref(), stream) {
Ok(s) => s,
Err(e) => return Err(Error::TlsHandshake(e)),
};
let mut socket = Client::new(ssl_stream);
socket.read_greeting()?;
Ok(socket)
}
Err(e) => Err(Error::Io(e)),
}
}
/// Connect to a server and upgrade to a TLS-encrypted connection.
///
/// This is the [STARTTLS](https://tools.ietf.org/html/rfc2595) equivalent to [`connect`]. All
/// notes there also apply here.
///
/// # Examples
///
/// ```no_run
/// # extern crate native_tls;
/// # extern crate imap;
/// # use std::io;
/// # use native_tls::TlsConnector;
/// # fn main() {
/// let tls = TlsConnector::builder().build().unwrap();
/// let client = imap::connect_starttls(("imap.example.org", 143), "imap.example.org", &tls).unwrap();
/// # }
/// ```
#[cfg(feature = "tls")]
pub fn connect_starttls<A: ToSocketAddrs, S: AsRef<str>>(
addr: A,
domain: S,
ssl_connector: &TlsConnector,
) -> Result<Client<TlsStream<TcpStream>>> {
match TcpStream::connect(addr) {
Ok(stream) => {
let mut socket = Client::new(stream);
socket.read_greeting()?;
socket.run_command_and_check_ok("STARTTLS")?;
TlsConnector::connect(
ssl_connector,
domain.as_ref(),
socket.conn.stream.into_inner()?,
)
.map(Client::new)
.map_err(Error::TlsHandshake)
}
Err(e) => Err(Error::Io(e)),
}
}
impl Client<TcpStream> {
/// This will upgrade an IMAP client from using a regular TCP connection to use TLS.
///
/// The domain parameter is required to perform hostname verification.
#[cfg(feature = "tls")]
pub fn secure<S: AsRef<str>>(
mut self,
domain: S,
ssl_connector: &TlsConnector,
) -> Result<Client<TlsStream<TcpStream>>> {
// TODO This needs to be tested
self.run_command_and_check_ok("STARTTLS")?;
TlsConnector::connect(
ssl_connector,
domain.as_ref(),
self.conn.stream.into_inner()?,
)
.map(Client::new)
.map_err(Error::TlsHandshake)
}
}
// As the pattern of returning the unauthenticated `Client` (a.k.a. `self`) back with a login error
// is relatively common, it's abstacted away into a macro here.
//
// Note: 1) using `.map_err(|e| (e, self))` or similar here makes the closure own self, so we can't
// do that.
// 2) in theory we wouldn't need the second parameter, and could just use the identifier
// `self` from the surrounding function, but being explicit here seems a lot cleaner.
macro_rules! ok_or_unauth_client_err {
($r:expr, $self:expr) => {
match $r {
Ok(o) => o,
Err(e) => return Err((e, $self)),
}
};
}
impl<T: Read + Write> Client<T> {
/// Creates a new client over the given stream.
///
/// For an example of how to use this method to provide a pure-Rust TLS integration, see the
/// rustls.rs in the examples/ directory.
///
/// This method primarily exists for writing tests that mock the underlying transport, but can
/// also be used to support IMAP over custom tunnels.
///
/// **Note:** In case you do need to use `Client::new` over `imap::connect`, you will need to
/// listen for the IMAP protocol server greeting before authenticating:
///
/// ```rust,no_run
/// # extern crate imap;
/// # extern crate native_tls;
/// # use imap::Client;
/// # use native_tls::TlsConnector;
/// # use std::io;
/// # use std::net::TcpStream;
/// # fn main() {
/// # let server = "imap.example.com";
/// # let username = "";
/// # let password = "";
/// # let tcp = TcpStream::connect((server, 993)).unwrap();
/// # let ssl_connector = TlsConnector::builder().build().unwrap();
/// # let tls = TlsConnector::connect(&ssl_connector, server.as_ref(), tcp).unwrap();
/// let mut client = Client::new(tls);
/// client.read_greeting().unwrap();
/// let session = client.login(username, password).unwrap();
/// # }
/// ```
pub fn new(stream: T) -> Client<T> {
Client {
conn: Connection {
stream: BufStream::new(stream),
tag: INITIAL_TAG,
debug: false,
greeting_read: false,
},
}
}
/// Log in to the IMAP server. Upon success a [`Session`](struct.Session.html) instance is
/// returned; on error the original `Client` instance is returned in addition to the error.
/// This is because `login` takes ownership of `self`, so in order to try again (e.g. after
/// prompting the user for credetials), ownership of the original `Client` needs to be
/// transferred back to the caller.
///
/// ```rust,no_run
/// # extern crate imap;
/// # extern crate native_tls;
/// # use std::io;
/// # use native_tls::TlsConnector;
/// # fn main() {
/// # let tls_connector = TlsConnector::builder().build().unwrap();
/// let client = imap::connect(
/// ("imap.example.org", 993),
/// "imap.example.org",
/// &tls_connector).unwrap();
///
/// match client.login("user", "pass") {
/// Ok(s) => {
/// // you are successfully authenticated!
/// },
/// Err((e, orig_client)) => {
/// eprintln!("error logging in: {}", e);
/// // prompt user and try again with orig_client here
/// return;
/// }
/// }
/// # }
/// ```
pub fn login<U: AsRef<str>, P: AsRef<str>>(
mut self,
username: U,
password: P,
) -> ::std::result::Result<Session<T>, (Error, Client<T>)> {
let u = ok_or_unauth_client_err!(validate_str(username.as_ref()), self);
let p = ok_or_unauth_client_err!(validate_str(password.as_ref()), self);
ok_or_unauth_client_err!(
self.run_command_and_check_ok(&format!("LOGIN {} {}", u, p)),
self
);
Ok(Session::new(self.conn))
}
/// Authenticate with the server using the given custom `authenticator` to handle the server's
/// challenge.
///
/// ```no_run
/// extern crate imap;
/// extern crate native_tls;
/// use native_tls::TlsConnector;
///
/// struct OAuth2 {
/// user: String,
/// access_token: String,
/// }
///
/// impl imap::Authenticator for OAuth2 {
/// type Response = String;
/// fn process(&self, _: &[u8]) -> Self::Response {
/// format!(
/// "user={}\x01auth=Bearer {}\x01\x01",
/// self.user, self.access_token
/// )
/// }
/// }
///
/// fn main() {
/// let auth = OAuth2 {
/// user: String::from("me@example.com"),
/// access_token: String::from("<access_token>"),
/// };
/// let domain = "imap.example.com";
/// let tls = TlsConnector::builder().build().unwrap();
/// let client = imap::connect((domain, 993), domain, &tls).unwrap();
/// match client.authenticate("XOAUTH2", &auth) {
/// Ok(session) => {
/// // you are successfully authenticated!
/// },
/// Err((e, orig_client)) => {
/// eprintln!("error authenticating: {}", e);
/// // prompt user and try again with orig_client here
/// return;
/// }
/// };
/// }
/// ```
pub fn authenticate<A: Authenticator, S: AsRef<str>>(
mut self,
auth_type: S,
authenticator: &A,
) -> ::std::result::Result<Session<T>, (Error, Client<T>)> {
ok_or_unauth_client_err!(
self.run_command(&format!("AUTHENTICATE {}", auth_type.as_ref())),
self
);
self.do_auth_handshake(authenticator)
}
/// This func does the handshake process once the authenticate command is made.
fn do_auth_handshake<A: Authenticator>(
mut self,
authenticator: &A,
) -> ::std::result::Result<Session<T>, (Error, Client<T>)> {
// TODO Clean up this code
loop {
let mut line = Vec::new();
// explicit match blocks neccessary to convert error to tuple and not bind self too
// early (see also comment on `login`)
ok_or_unauth_client_err!(self.readline(&mut line), self);
// ignore server comments
if line.starts_with(b"* ") {
continue;
}
// Some servers will only send `+\r\n`.
if line.starts_with(b"+ ") || &line == b"+\r\n" {
let challenge = if &line == b"+\r\n" {
Vec::new()
} else {
let line_str = ok_or_unauth_client_err!(
match str::from_utf8(line.as_slice()) {
Ok(line_str) => Ok(line_str),
Err(e) => Err(Error::Parse(ParseError::DataNotUtf8(line, e))),
},
self
);
let data =
ok_or_unauth_client_err!(parse_authenticate_response(line_str), self);
ok_or_unauth_client_err!(
base64::decode(data).map_err(|e| Error::Parse(ParseError::Authentication(
data.to_string(),
Some(e)
))),
self
)
};
let raw_response = &authenticator.process(&challenge);
let auth_response = base64::encode(raw_response);
ok_or_unauth_client_err!(
self.write_line(auth_response.into_bytes().as_slice()),
self
);
} else {
ok_or_unauth_client_err!(self.read_response_onto(&mut line), self);
return Ok(Session::new(self.conn));
}
}
}
}
impl<T: Read + Write> Session<T> {
// not public, just to avoid duplicating the channel creation code
fn new(conn: Connection<T>) -> Self {
let (tx, rx) = mpsc::channel();
Session {
conn,
unsolicited_responses: rx,
unsolicited_responses_tx: tx,
}
}
/// Selects a mailbox
///
/// The `SELECT` command selects a mailbox so that messages in the mailbox can be accessed.
/// Note that earlier versions of this protocol only required the FLAGS, EXISTS, and RECENT
/// untagged data; consequently, client implementations SHOULD implement default behavior for
/// missing data as discussed with the individual item.
///
/// Only one mailbox can be selected at a time in a connection; simultaneous access to multiple
/// mailboxes requires multiple connections. The `SELECT` command automatically deselects any
/// currently selected mailbox before attempting the new selection. Consequently, if a mailbox
/// is selected and a `SELECT` command that fails is attempted, no mailbox is selected.
///
/// Note that the server *is* allowed to unilaterally send things to the client for messages in
/// a selected mailbox whose status has changed. See the note on [unilateral server responses
/// in RFC 3501](https://tools.ietf.org/html/rfc3501#section-7). This means that if you use
/// [`Connection::run_command_and_read_response`], you *may* see additional untagged `RECENT`,
/// `EXISTS`, `FETCH`, and `EXPUNGE` responses. You can get them from the
/// `unsolicited_responses` channel of the [`Session`](struct.Session.html).
pub fn select<S: AsRef<str>>(&mut self, mailbox_name: S) -> Result<Mailbox> {
// TODO: also note READ/WRITE vs READ-only mode!
self.run_command_and_read_response(&format!(
"SELECT {}",
validate_str(mailbox_name.as_ref())?
))
.and_then(|lines| parse_mailbox(&lines[..], &mut self.unsolicited_responses_tx))
}
/// The `EXAMINE` command is identical to [`Session::select`] and returns the same output;
/// however, the selected mailbox is identified as read-only. No changes to the permanent state
/// of the mailbox, including per-user state, will happen in a mailbox opened with `examine`;
/// in particular, messagess cannot lose [`Flag::Recent`] in an examined mailbox.
pub fn examine<S: AsRef<str>>(&mut self, mailbox_name: S) -> Result<Mailbox> {
self.run_command_and_read_response(&format!(
"EXAMINE {}",
validate_str(mailbox_name.as_ref())?
))
.and_then(|lines| parse_mailbox(&lines[..], &mut self.unsolicited_responses_tx))
}
/// Fetch retrieves data associated with a set of messages in the mailbox.
///
/// Note that the server *is* allowed to unilaterally include `FETCH` responses for other
/// messages in the selected mailbox whose status has changed. See the note on [unilateral
/// server responses in RFC 3501](https://tools.ietf.org/html/rfc3501#section-7).
///
/// `query` is a list of "data items" (space-separated in parentheses if `>1`). There are three
/// "macro items" which specify commonly-used sets of data items, and can be used instead of
/// data items. A macro must be used by itself, and not in conjunction with other macros or
/// data items. They are:
///
/// - `ALL`: equivalent to: `(FLAGS INTERNALDATE RFC822.SIZE ENVELOPE)`
/// - `FAST`: equivalent to: `(FLAGS INTERNALDATE RFC822.SIZE)`
///
/// The currently defined data items that can be fetched are listen [in the
/// RFC](https://tools.ietf.org/html/rfc3501#section-6.4.5), but here are some common ones:
///
/// - `FLAGS`: The flags that are set for this message.
/// - `INTERNALDATE`: The internal date of the message.
/// - `BODY[<section>]`:
///
/// The text of a particular body section. The section specification is a set of zero or
/// more part specifiers delimited by periods. A part specifier is either a part number
/// (see RFC) or one of the following: `HEADER`, `HEADER.FIELDS`, `HEADER.FIELDS.NOT`,
/// `MIME`, and `TEXT`. An empty section specification (i.e., `BODY[]`) refers to the
/// entire message, including the header.
///
/// The `HEADER`, `HEADER.FIELDS`, and `HEADER.FIELDS.NOT` part specifiers refer to the
/// [RFC-2822](https://tools.ietf.org/html/rfc2822) header of the message or of an
/// encapsulated [MIME-IMT](https://tools.ietf.org/html/rfc2046)
/// MESSAGE/[RFC822](https://tools.ietf.org/html/rfc822) message. `HEADER.FIELDS` and
/// `HEADER.FIELDS.NOT` are followed by a list of field-name (as defined in
/// [RFC-2822](https://tools.ietf.org/html/rfc2822)) names, and return a subset of the
/// header. The subset returned by `HEADER.FIELDS` contains only those header fields with
/// a field-name that matches one of the names in the list; similarly, the subset returned
/// by `HEADER.FIELDS.NOT` contains only the header fields with a non-matching field-name.
/// The field-matching is case-insensitive but otherwise exact. Subsetting does not
/// exclude the [RFC-2822](https://tools.ietf.org/html/rfc2822) delimiting blank line
/// between the header and the body; the blank line is included in all header fetches,
/// except in the case of a message which has no body and no blank line.
///
/// The `MIME` part specifier refers to the [MIME-IMB](https://tools.ietf.org/html/rfc2045)
/// header for this part.
///
/// The `TEXT` part specifier refers to the text body of the message,
/// omitting the [RFC-2822](https://tools.ietf.org/html/rfc2822) header.
///
/// [`Flag::Seen`] is implicitly set when `BODY` is fetched; if this causes the flags to
/// change, they will generally be included as part of the `FETCH` responses.
/// - `BODY.PEEK[<section>]`: An alternate form of `BODY[<section>]` that does not implicitly
/// set [`Flag::Seen`].
/// - `ENVELOPE`: The envelope structure of the message. This is computed by the server by
/// parsing the [RFC-2822](https://tools.ietf.org/html/rfc2822) header into the component
/// parts, defaulting various fields as necessary.
/// - `RFC822`: Functionally equivalent to `BODY[]`.
/// - `RFC822.HEADER`: Functionally equivalent to `BODY.PEEK[HEADER]`.
/// - `RFC822.SIZE`: The [RFC-2822](https://tools.ietf.org/html/rfc2822) size of the message.
/// - `UID`: The unique identifier for the message.
pub fn fetch<S1, S2>(&mut self, sequence_set: S1, query: S2) -> ZeroCopyResult<Vec<Fetch>>
where
S1: AsRef<str>,
S2: AsRef<str>,
{
self.run_command_and_read_response(&format!(
"FETCH {} {}",
sequence_set.as_ref(),
query.as_ref()
))
.and_then(|lines| parse_fetches(lines, &mut self.unsolicited_responses_tx))
}
/// Equivalent to [`Session::fetch`], except that all identifiers in `uid_set` are
/// [`Uid`]s. See also the [`UID` command](https://tools.ietf.org/html/rfc3501#section-6.4.8).
pub fn uid_fetch<S1, S2>(&mut self, uid_set: S1, query: S2) -> ZeroCopyResult<Vec<Fetch>>
where
S1: AsRef<str>,
S2: AsRef<str>,
{
self.run_command_and_read_response(&format!(
"UID FETCH {} {}",
uid_set.as_ref(),
query.as_ref()
))
.and_then(|lines| parse_fetches(lines, &mut self.unsolicited_responses_tx))
}
/// Noop always succeeds, and it does nothing.
pub fn noop(&mut self) -> Result<()> {
self.run_command_and_read_response("NOOP")
.and_then(|lines| parse_noop(lines, &mut self.unsolicited_responses_tx))
}
/// Logout informs the server that the client is done with the connection.
pub fn logout(&mut self) -> Result<()> {
self.run_command_and_check_ok("LOGOUT")
}
/// The [`CREATE` command](https://tools.ietf.org/html/rfc3501#section-6.3.3) creates a mailbox
/// with the given name. `Ok` is returned only if a new mailbox with that name has been
/// created. It is an error to attempt to create `INBOX` or a mailbox with a name that
/// refers to an extant mailbox. Any error in creation will return [`Error::No`].
///
/// If the mailbox name is suffixed with the server's hierarchy separator character (as
/// returned from the server by [`Session::list`]), this is a declaration that the client
/// intends to create mailbox names under this name in the hierarchy. Servers that do not
/// require this declaration will ignore the declaration. In any case, the name created is
/// without the trailing hierarchy delimiter.
///
/// If the server's hierarchy separator character appears elsewhere in the name, the server
/// will generally create any superior hierarchical names that are needed for the `CREATE`
/// command to be successfully completed. In other words, an attempt to create `foo/bar/zap`
/// on a server in which `/` is the hierarchy separator character will usually create `foo/`
/// and `foo/bar/` if they do not already exist.
///
/// If a new mailbox is created with the same name as a mailbox which was deleted, its unique
/// identifiers will be greater than any unique identifiers used in the previous incarnation of
/// the mailbox UNLESS the new incarnation has a different unique identifier validity value.
/// See the description of the [`UID`
/// command](https://tools.ietf.org/html/rfc3501#section-6.4.8) for more detail.
pub fn create<S: AsRef<str>>(&mut self, mailbox_name: S) -> Result<()> {
self.run_command_and_check_ok(&format!("CREATE {}", validate_str(mailbox_name.as_ref())?))
}
/// The [`DELETE` command](https://tools.ietf.org/html/rfc3501#section-6.3.4) permanently
/// removes the mailbox with the given name. `Ok` is returned only if the mailbox has been
/// deleted. It is an error to attempt to delete `INBOX` or a mailbox name that does not
/// exist.
///
/// The `DELETE` command will not remove inferior hierarchical names. For example, if a mailbox
/// `foo` has an inferior `foo.bar` (assuming `.` is the hierarchy delimiter character),
/// removing `foo` will not remove `foo.bar`. It is an error to attempt to delete a name that
/// has inferior hierarchical names and also has [`NameAttribute::NoSelect`].
///
/// It is permitted to delete a name that has inferior hierarchical names and does not have
/// [`NameAttribute::NoSelect`]. In this case, all messages in that mailbox are removed, and
/// the name will acquire [`NameAttribute::NoSelect`].
///
/// The value of the highest-used unique identifier of the deleted mailbox will be preserved so
/// that a new mailbox created with the same name will not reuse the identifiers of the former
/// incarnation, UNLESS the new incarnation has a different unique identifier validity value.
/// See the description of the [`UID`
/// command](https://tools.ietf.org/html/rfc3501#section-6.4.8) for more detail.
pub fn delete<S: AsRef<str>>(&mut self, mailbox_name: S) -> Result<()> {
self.run_command_and_check_ok(&format!("DELETE {}", validate_str(mailbox_name.as_ref())?))
}
/// The [`RENAME` command](https://tools.ietf.org/html/rfc3501#section-6.3.5) changes the name
/// of a mailbox. `Ok` is returned only if the mailbox has been renamed. It is an error to
/// attempt to rename from a mailbox name that does not exist or to a mailbox name that already
/// exists. Any error in renaming will return [`Error::No`].
///
/// If the name has inferior hierarchical names, then the inferior hierarchical names will also
/// be renamed. For example, a rename of `foo` to `zap` will rename `foo/bar` (assuming `/` is
/// the hierarchy delimiter character) to `zap/bar`.
///
/// If the server's hierarchy separator character appears in the name, the server will
/// generally create any superior hierarchical names that are needed for the `RENAME` command
/// to complete successfully. In other words, an attempt to rename `foo/bar/zap` to
/// `baz/rag/zowie` on a server in which `/` is the hierarchy separator character will
/// generally create `baz/` and `baz/rag/` if they do not already exist.
///
/// The value of the highest-used unique identifier of the old mailbox name will be preserved
/// so that a new mailbox created with the same name will not reuse the identifiers of the
/// former incarnation, UNLESS the new incarnation has a different unique identifier validity
/// value. See the description of the [`UID`
/// command](https://tools.ietf.org/html/rfc3501#section-6.4.8) for more detail.
///
/// Renaming `INBOX` is permitted, and has special behavior. It moves all messages in `INBOX`
/// to a new mailbox with the given name, leaving `INBOX` empty. If the server implementation
/// supports inferior hierarchical names of `INBOX`, these are unaffected by a rename of
/// `INBOX`.
pub fn rename<S1: AsRef<str>, S2: AsRef<str>>(&mut self, from: S1, to: S2) -> Result<()> {
self.run_command_and_check_ok(&format!(
"RENAME {} {}",
quote!(from.as_ref()),
quote!(to.as_ref())
))
}
/// The [`SUBSCRIBE` command](https://tools.ietf.org/html/rfc3501#section-6.3.6) adds the
/// specified mailbox name to the server's set of "active" or "subscribed" mailboxes as
/// returned by [`Session::lsub`]. This command returns `Ok` only if the subscription is
/// successful.
///
/// The server may validate the mailbox argument to `SUBSCRIBE` to verify that it exists.
/// However, it will not unilaterally remove an existing mailbox name from the subscription
/// list even if a mailbox by that name no longer exists.
pub fn subscribe<S: AsRef<str>>(&mut self, mailbox: S) -> Result<()> {
self.run_command_and_check_ok(&format!("SUBSCRIBE {}", quote!(mailbox.as_ref())))
}
/// The [`UNSUBSCRIBE` command](https://tools.ietf.org/html/rfc3501#section-6.3.7) removes the
/// specified mailbox name from the server's set of "active" or "subscribed" mailboxes as
/// returned by [`Session::lsub`]. This command returns `Ok` only if the unsubscription is
/// successful.
pub fn unsubscribe<S: AsRef<str>>(&mut self, mailbox: S) -> Result<()> {
self.run_command_and_check_ok(&format!("UNSUBSCRIBE {}", quote!(mailbox.as_ref())))
}
/// The [`CAPABILITY` command](https://tools.ietf.org/html/rfc3501#section-6.1.1) requests a
/// listing of capabilities that the server supports. The server will include "IMAP4rev1" as
/// one of the listed capabilities. See [`Capabilities`] for further details.
pub fn capabilities(&mut self) -> ZeroCopyResult<Capabilities> {
self.run_command_and_read_response("CAPABILITY")
.and_then(|lines| parse_capabilities(lines, &mut self.unsolicited_responses_tx))
}
/// The [`EXPUNGE` command](https://tools.ietf.org/html/rfc3501#section-6.4.3) permanently
/// removes all messages that have [`Flag::Deleted`] set from the currently selected mailbox.
/// The message sequence number of each message that is removed is returned.
pub fn expunge(&mut self) -> Result<Vec<Seq>> {
self.run_command_and_read_response("EXPUNGE")
.and_then(|lines| parse_expunge(lines, &mut self.unsolicited_responses_tx))
}
/// The [`UID EXPUNGE` command](https://tools.ietf.org/html/rfc4315#section-2.1) permanently
/// removes all messages that both have [`Flag::Deleted`] set and have a [`Uid`] that is
/// included in the specified sequence set from the currently selected mailbox. If a message
/// either does not have [`Flag::Deleted`] set or has a [`Uid`] that is not included in the
/// specified sequence set, it is not affected.
///
/// This command is particularly useful for disconnected use clients. By using [`uid_expunge`]
/// instead of [`expunge`] when resynchronizing with the server, the client can ensure that it
/// does not inadvertantly remove any messages that have been marked as [`Flag::Deleted`] by
/// other clients between the time that the client was last connected and the time the client
/// resynchronizes.
///
/// This command requires that the server supports [RFC
/// 4315](https://tools.ietf.org/html/rfc4315) as indicated by the `UIDPLUS` capability (see
/// [`Session::capabilities`]). If the server does not support the `UIDPLUS` capability, the
/// client should fall back to using [`Session::store`] to temporarily remove [`Flag::Deleted`]
/// from messages it does not want to remove, then invoking [`Session::expunge`]. Finally, the
/// client should use [`Session::store`] to restore [`Flag::Deleted`] on the messages in which
/// it was temporarily removed.
///
/// Alternatively, the client may fall back to using just [`Session::expunge`], risking the
/// unintended removal of some messages.
pub fn uid_expunge<S: AsRef<str>>(&mut self, uid_set: S) -> Result<Vec<Uid>> {
self.run_command_and_read_response(&format!("UID EXPUNGE {}", uid_set.as_ref()))
.and_then(|lines| parse_expunge(lines, &mut self.unsolicited_responses_tx))
}
/// The [`CHECK` command](https://tools.ietf.org/html/rfc3501#section-6.4.1) requests a
/// checkpoint of the currently selected mailbox. A checkpoint refers to any
/// implementation-dependent housekeeping associated with the mailbox (e.g., resolving the
/// server's in-memory state of the mailbox with the state on its disk) that is not normally
/// executed as part of each command. A checkpoint MAY take a non-instantaneous amount of real
/// time to complete. If a server implementation has no such housekeeping considerations,
/// [`Session::check`] is equivalent to [`Session::noop`].
///
/// There is no guarantee that an `EXISTS` untagged response will happen as a result of
/// `CHECK`. [`Session::noop`] SHOULD be used for new message polling.
pub fn check(&mut self) -> Result<()> {
self.run_command_and_check_ok("CHECK")
}
/// The [`CLOSE` command](https://tools.ietf.org/html/rfc3501#section-6.4.2) permanently
/// removes all messages that have [`Flag::Deleted`] set from the currently selected mailbox,
/// and returns to the authenticated state from the selected state. No `EXPUNGE` responses are
/// sent.
///
/// No messages are removed, and no error is given, if the mailbox is selected by
/// [`Session::examine`] or is otherwise selected read-only.
///
/// Even if a mailbox is selected, [`Session::select`], [`Session::examine`], or
/// [`Session::logout`] command MAY be issued without previously invoking [`Session::close`].
/// [`Session::select`], [`Session::examine`], and [`Session::logout`] implicitly close the
/// currently selected mailbox without doing an expunge. However, when many messages are
/// deleted, a `CLOSE-LOGOUT` or `CLOSE-SELECT` sequence is considerably faster than an
/// `EXPUNGE-LOGOUT` or `EXPUNGE-SELECT` because no `EXPUNGE` responses (which the client would
/// probably ignore) are sent.
pub fn close(&mut self) -> Result<()> {
self.run_command_and_check_ok("CLOSE")
}
/// The [`STORE` command](https://tools.ietf.org/html/rfc3501#section-6.4.6) alters data
/// associated with a message in the mailbox. Normally, `STORE` will return the updated value
/// of the data with an untagged FETCH response. A suffix of `.SILENT` in `query` prevents the
/// untagged `FETCH`, and the server assumes that the client has determined the updated value
/// itself or does not care about the updated value.
///
/// The currently defined data items that can be stored are:
///
/// - `FLAGS <flag list>`:
///
/// Replace the flags for the message (other than [`Flag::Recent`]) with the argument. The
/// new value of the flags is returned as if a `FETCH` of those flags was done.
///
/// - `FLAGS.SILENT <flag list>`: Equivalent to `FLAGS`, but without returning a new value.
///
/// - `+FLAGS <flag list>`
///
/// Add the argument to the flags for the message. The new value of the flags is returned
/// as if a `FETCH` of those flags was done.
/// - `+FLAGS.SILENT <flag list>`: Equivalent to `+FLAGS`, but without returning a new value.
///
/// - `-FLAGS <flag list>`
///
/// Remove the argument from the flags for the message. The new value of the flags is
/// returned as if a `FETCH` of those flags was done.
///
/// - `-FLAGS.SILENT <flag list>`: Equivalent to `-FLAGS`, but without returning a new value.
///
/// In all cases, `<flag list>` is a space-separated list enclosed in parentheses.
///
/// # Examples
///
/// Delete a message:
///
/// ```rust,no_run
/// # extern crate imap;
/// # use imap::{self, Session};
/// # use std::net::TcpStream;
/// fn delete(seq: imap::types::Seq, s: &mut Session<TcpStream>) -> imap::error::Result<()> {
/// s.store(format!("{}", seq), "+FLAGS (\\Deleted)")?;
/// s.expunge()?;
/// Ok(())
/// }
/// ```
pub fn store<S1, S2>(&mut self, sequence_set: S1, query: S2) -> ZeroCopyResult<Vec<Fetch>>
where
S1: AsRef<str>,
S2: AsRef<str>,
{
self.run_command_and_read_response(&format!(
"STORE {} {}",
sequence_set.as_ref(),
query.as_ref()
))
.and_then(|lines| parse_fetches(lines, &mut self.unsolicited_responses_tx))
}
/// Equivalent to [`Session::store`], except that all identifiers in `sequence_set` are
/// [`Uid`]s. See also the [`UID` command](https://tools.ietf.org/html/rfc3501#section-6.4.8).
pub fn uid_store<S1, S2>(&mut self, uid_set: S1, query: S2) -> ZeroCopyResult<Vec<Fetch>>
where
S1: AsRef<str>,
S2: AsRef<str>,
{
self.run_command_and_read_response(&format!(
"UID STORE {} {}",
uid_set.as_ref(),
query.as_ref()
))
.and_then(|lines| parse_fetches(lines, &mut self.unsolicited_responses_tx))
}
/// The [`COPY` command](https://tools.ietf.org/html/rfc3501#section-6.4.7) copies the
/// specified message(s) to the end of the specified destination mailbox. The flags and
/// internal date of the message(s) will generally be preserved, and [`Flag::Recent`] will
/// generally be set, in the copy.
///
/// If the `COPY` command is unsuccessful for any reason, the server restores the destination
/// mailbox to its state before the `COPY` attempt.
pub fn copy<S1: AsRef<str>, S2: AsRef<str>>(
&mut self,
sequence_set: S1,
mailbox_name: S2,
) -> Result<()> {
self.run_command_and_check_ok(&format!(
"COPY {} {}",
sequence_set.as_ref(),
mailbox_name.as_ref()
))
}
/// Equivalent to [`Session::copy`], except that all identifiers in `sequence_set` are
/// [`Uid`]s. See also the [`UID` command](https://tools.ietf.org/html/rfc3501#section-6.4.8).
pub fn uid_copy<S1: AsRef<str>, S2: AsRef<str>>(
&mut self,
uid_set: S1,
mailbox_name: S2,
) -> Result<()> {
self.run_command_and_check_ok(&format!(
"UID COPY {} {}",
uid_set.as_ref(),
mailbox_name.as_ref()
))
}
/// The [`MOVE` command](https://tools.ietf.org/html/rfc6851#section-3.1) takes two
/// arguments: a sequence set and a named mailbox. Each message included in the set is moved,
/// rather than copied, from the selected (source) mailbox to the named (target) mailbox.
///
/// This means that a new message is created in the target mailbox with a
/// new [`Uid`], the original message is removed from the source mailbox, and
/// it appears to the client as a single action. This has the same
/// effect for each message as this sequence:
///
/// 1. COPY
/// 2. STORE +FLAGS.SILENT \DELETED
/// 3. EXPUNGE
///
/// This command requires that the server supports [RFC
/// 6851](https://tools.ietf.org/html/rfc6851) as indicated by the `MOVE` capability (see
/// [`Session::capabilities`]).
///
/// Although the effect of the `MOVE` is the same as the preceding steps, the semantics are not
/// identical: The intermediate states produced by those steps do not occur, and the response
/// codes are different. In particular, though the `COPY` and `EXPUNGE` response codes will be
/// returned, response codes for a `store` will not be generated and [`Flag::Deleted`] will not
/// be set for any message.
///
/// Because a `MOVE` applies to a set of messages, it might fail partway through the set.
/// Regardless of whether the command is successful in moving the entire set, each individual
/// message will either be moved or unaffected. The server will leave each message in a state
/// where it is in at least one of the source or target mailboxes (no message can be lost or
/// orphaned). The server will generally not leave any message in both mailboxes (it would be
/// bad for a partial failure to result in a bunch of duplicate messages). This is true even
/// if the server returns with [`Error::No`].
pub fn mv<S1: AsRef<str>, S2: AsRef<str>>(
&mut self,
sequence_set: S1,
mailbox_name: S2,
) -> Result<()> {
self.run_command_and_check_ok(&format!(
"MOVE {} {}",
sequence_set.as_ref(),
validate_str(mailbox_name.as_ref())?
))
}
/// Equivalent to [`Session::copy`], except that all identifiers in `sequence_set` are
/// [`Uid`]s. See also the [`UID` command](https://tools.ietf.org/html/rfc3501#section-6.4.8)
/// and the [semantics of `MOVE` and `UID
/// MOVE`](https://tools.ietf.org/html/rfc6851#section-3.3).
pub fn uid_mv<S1: AsRef<str>, S2: AsRef<str>>(
&mut self,
uid_set: S1,
mailbox_name: S2,
) -> Result<()> {
self.run_command_and_check_ok(&format!(
"UID MOVE {} {}",
uid_set.as_ref(),
validate_str(mailbox_name.as_ref())?
))
}
/// The [`LIST` command](https://tools.ietf.org/html/rfc3501#section-6.3.8) returns a subset of
/// names from the complete set of all names available to the client. It returns the name
/// attributes, hierarchy delimiter, and name of each such name; see [`Name`] for more detail.
///
/// If `reference_name` is `None` (or `""`), the currently selected mailbox is used.
/// The returned mailbox names must match the supplied `mailbox_pattern`. A non-empty
/// reference name argument is the name of a mailbox or a level of mailbox hierarchy, and
/// indicates the context in which the mailbox name is interpreted.
///
/// If `mailbox_pattern` is `None` (or `""`), it is a special request to return the hierarchy
/// delimiter and the root name of the name given in the reference. The value returned as the
/// root MAY be the empty string if the reference is non-rooted or is an empty string. In all
/// cases, a hierarchy delimiter (or `NIL` if there is no hierarchy) is returned. This permits
/// a client to get the hierarchy delimiter (or find out that the mailbox names are flat) even
/// when no mailboxes by that name currently exist.
///
/// The reference and mailbox name arguments are interpreted into a canonical form that
/// represents an unambiguous left-to-right hierarchy. The returned mailbox names will be in
/// the interpreted form.
///
/// The character `*` is a wildcard, and matches zero or more characters at this position. The
/// character `%` is similar to `*`, but it does not match a hierarchy delimiter. If the `%`
/// wildcard is the last character of a mailbox name argument, matching levels of hierarchy are
/// also returned. If these levels of hierarchy are not also selectable mailboxes, they are
/// returned with [`NameAttribute::NoSelect`].
///
/// The special name `INBOX` is included if `INBOX` is supported by this server for this user
/// and if the uppercase string `INBOX` matches the interpreted reference and mailbox name
/// arguments with wildcards. The criteria for omitting `INBOX` is whether `SELECT INBOX` will
/// return failure; it is not relevant whether the user's real `INBOX` resides on this or some
/// other server.
pub fn list(
&mut self,
reference_name: Option<&str>,
mailbox_pattern: Option<&str>,
) -> ZeroCopyResult<Vec<Name>> {
self.run_command_and_read_response(&format!(
"LIST {} {}",
quote!(reference_name.unwrap_or("")),
mailbox_pattern.unwrap_or("\"\"")
))
.and_then(|lines| parse_names(lines, &mut self.unsolicited_responses_tx))
}
/// The [`LSUB` command](https://tools.ietf.org/html/rfc3501#section-6.3.9) returns a subset of
/// names from the set of names that the user has declared as being "active" or "subscribed".
/// The arguments to this method the same as for [`Session::list`].
///
/// The returned [`Name`]s MAY contain different mailbox flags from response to
/// [`Session::list`]. If this should happen, the flags returned by [`Session::list`] are
/// considered more authoritative.
///
/// A special situation occurs when invoking `lsub` with the `%` wildcard. Consider what
/// happens if `foo/bar` (with a hierarchy delimiter of `/`) is subscribed but `foo` is not. A
/// `%` wildcard to `lsub` must return `foo`, not `foo/bar`, and it will be flagged with
/// [`NameAttribute::NoSelect`].
///
/// The server will not unilaterally remove an existing mailbox name from the subscription list
/// even if a mailbox by that name no longer exists.
pub fn lsub(
&mut self,
reference_name: Option<&str>,
mailbox_pattern: Option<&str>,
) -> ZeroCopyResult<Vec<Name>> {
self.run_command_and_read_response(&format!(
"LSUB {} {}",
quote!(reference_name.unwrap_or("")),
mailbox_pattern.unwrap_or("")
))
.and_then(|lines| parse_names(lines, &mut self.unsolicited_responses_tx))
}
/// The [`STATUS` command](https://tools.ietf.org/html/rfc3501#section-6.3.10) requests the
/// status of the indicated mailbox. It does not change the currently selected mailbox, nor
/// does it affect the state of any messages in the queried mailbox (in particular, `status`
/// will not cause messages to lose [`Flag::Recent`]).
///
/// `status` provides an alternative to opening a second [`Session`] and using
/// [`Session::examine`] on a mailbox to query that mailbox's status without deselecting the
/// current mailbox in the first `Session`.
///
/// Unlike [`Session::list`], `status` is not guaranteed to be fast in its response. Under
/// certain circumstances, it can be quite slow. In some implementations, the server is
/// obliged to open the mailbox read-only internally to obtain certain status information.
/// Also unlike [`Session::list`], `status` does not accept wildcards.
///
/// > Note: `status` is intended to access the status of mailboxes other than the currently
/// > selected mailbox. Because `status` can cause the mailbox to be opened internally, and
/// > because this information is available by other means on the selected mailbox, `status`
/// > SHOULD NOT be used on the currently selected mailbox.
///
/// The STATUS command MUST NOT be used as a "check for new messages in the selected mailbox"
/// operation (refer to sections [7](https://tools.ietf.org/html/rfc3501#section-7),
/// [7.3.1](https://tools.ietf.org/html/rfc3501#section-7.3.1), and
/// [7.3.2](https://tools.ietf.org/html/rfc3501#section-7.3.2) for more information about the
/// proper method for new message checking).
///
/// The currently defined status data items that can be requested are:
///
/// - `MESSAGES`: The number of messages in the mailbox.
/// - `RECENT`: The number of messages with [`Flag::Recent`] set.
/// - `UIDNEXT`: The next [`Uid`] of the mailbox.
/// - `UIDVALIDITY`: The unique identifier validity value of the mailbox (see [`Uid`]).
/// - `UNSEEN`: The number of messages which do not have [`Flag::Seen`] set.
///
/// `data_items` is a space-separated list enclosed in parentheses.
pub fn status<S1: AsRef<str>, S2: AsRef<str>>(
&mut self,
mailbox_name: S1,
data_items: S2,
) -> Result<Mailbox> {
self.run_command_and_read_response(&format!(
"STATUS {} {}",
validate_str(mailbox_name.as_ref())?,
data_items.as_ref()
))
.and_then(|lines| parse_mailbox(&lines[..], &mut self.unsolicited_responses_tx))
}
/// This method returns a handle that lets you use the [`IDLE`
/// command](https://tools.ietf.org/html/rfc2177#section-3) to listen for changes to the
/// currently selected mailbox.
///
/// It's often more desirable to have the server transmit updates to the client in real time.
/// This allows a user to see new mail immediately. It also helps some real-time applications
/// based on IMAP, which might otherwise need to poll extremely often (such as every few
/// seconds). While the spec actually does allow a server to push `EXISTS` responses
/// aysynchronously, a client can't expect this behaviour and must poll. This method provides
/// you with such a mechanism.
///
/// `idle` may be used with any server that returns `IDLE` as one of the supported capabilities
/// (see [`Session::capabilities`]). If the server does not advertise the `IDLE` capability,
/// the client MUST NOT use `idle` and must instead poll for mailbox updates. In particular,
/// the client MUST continue to be able to accept unsolicited untagged responses to ANY
/// command, as specified in the base IMAP specification.
///
/// See [`extensions::idle::Handle`] for details.
pub fn idle(&mut self) -> Result<extensions::idle::Handle<'_, T>> {
extensions::idle::Handle::make(self)
}
/// The [`APPEND` command](https://tools.ietf.org/html/rfc3501#section-6.3.11) appends
/// `content` as a new message to the end of the specified destination `mailbox`. This
/// argument SHOULD be in the format of an [RFC-2822](https://tools.ietf.org/html/rfc2822)
/// message.
///
/// > Note: There MAY be exceptions, e.g., draft messages, in which required RFC-2822 header
/// > lines are omitted in the message literal argument to `append`. The full implications of
/// > doing so MUST be understood and carefully weighed.
///
/// If the append is unsuccessful for any reason, the mailbox is restored to its state before
/// the append attempt; no partial appending will happen.
///
/// If the destination `mailbox` does not exist, the server returns an error, and does not
/// automatically create the mailbox.
///
/// If the mailbox is currently selected, the normal new message actions will generally occur.
/// Specifically, the server will generally notify the client immediately via an untagged
/// `EXISTS` response. If the server does not do so, the client MAY issue a `NOOP` command (or
/// failing that, a `CHECK` command) after one or more `APPEND` commands.
///
/// -- TODO merge docs possibly move to AppendOptions
///
/// The [`APPEND` command](https://tools.ietf.org/html/rfc3501#section-6.3.11) can take
/// an optional FLAGS parameter to set the flags on the new message.
///
/// > If a flag parenthesized list is specified, the flags SHOULD be set
/// > in the resulting message; otherwise, the flag list of the
/// > resulting message is set to empty by default. In either case, the
/// > Recent flag is also set.
///
/// The [`\Recent` flag](https://tools.ietf.org/html/rfc3501#section-2.3.2) is not
/// allowed as an argument to `APPEND` and will be filtered out if present in `flags`.
///
/// -- TODO merge docs possibly move to AppendOptions
///
/// Pass a date in order to set the date that the message was originally sent.
///
/// > If a date-time is specified, the internal date SHOULD be set in
/// > the resulting message; otherwise, the internal date of the
/// > resulting message is set to the current date and time by default.
pub fn append<'a, S: AsRef<str>, B: AsRef<[u8]>>(
&mut self,
mailbox: S,
content: B,
) -> AppendCmd<'a, T> {
AppendCmd {
session: &self,
content: content.as_ref(),
mailbox: mailbox.as_ref(),
flags: Vec::new(),
date: None,
}
}
/// The [`SEARCH` command](https://tools.ietf.org/html/rfc3501#section-6.4.4) searches the
/// mailbox for messages that match the given `query`. `query` consist of one or more search
/// keys separated by spaces. The response from the server contains a listing of [`Seq`]s
/// corresponding to those messages that match the searching criteria.
///
/// When multiple search keys are specified, the result is the intersection of all the messages
/// that match those keys. Or, in other words, only messages that match *all* the keys. For
/// example, the criteria
///
/// ```text
/// DELETED FROM "SMITH" SINCE 1-Feb-1994
/// ```
///
/// refers to all deleted messages from Smith that were placed in the mailbox since February 1,
/// 1994. A search key can also be a parenthesized list of one or more search keys (e.g., for
/// use with the `OR` and `NOT` keys).
///
/// In all search keys that use strings, a message matches the key if the string is a substring
/// of the field. The matching is case-insensitive.
///
/// Below is a selection of common search keys. The full list can be found in the
/// specification of the [`SEARCH command`](https://tools.ietf.org/html/rfc3501#section-6.4.4).
///
/// - `NEW`: Messages that have [`Flag::Recent`] set but not [`Flag::Seen`]. This is functionally equivalent to `(RECENT UNSEEN)`.
/// - `OLD`: Messages that do not have [`Flag::Recent`] set. This is functionally equivalent to `NOT RECENT` (as opposed to `NOT NEW`).
/// - `RECENT`: Messages that have [`Flag::Recent`] set.
/// - `ANSWERED`: Messages with [`Flag::Answered`] set.
/// - `DELETED`: Messages with [`Flag::Deleted`] set.
/// - `DRAFT`: Messages with [`Flag::Draft`] set.
/// - `FLAGGED`: Messages with [`Flag::Flagged`] set.
/// - `SEEN`: Messages that have [`Flag::Seen`] set.
/// - `<sequence set>`: Messages with message sequence numbers corresponding to the specified message sequence number set.
/// - `UID <sequence set>`: Messages with [`Uid`] corresponding to the specified unique identifier set. Sequence set ranges are permitted.
///
/// - `SUBJECT <string>`: Messages that contain the specified string in the envelope structure's `SUBJECT` field.
/// - `BODY <string>`: Messages that contain the specified string in the body of the message.
/// - `FROM <string>`: Messages that contain the specified string in the envelope structure's `FROM` field.
/// - `TO <string>`: Messages that contain the specified string in the envelope structure's `TO` field.
///
/// - `NOT <search-key>`: Messages that do not match the specified search key.
/// - `OR <search-key1> <search-key2>`: Messages that match either search key.
///
/// - `BEFORE <date>`: Messages whose internal date (disregarding time and timezone) is earlier than the specified date.
/// - `SINCE <date>`: Messages whose internal date (disregarding time and timezone) is within or later than the specified date.
pub fn search<S: AsRef<str>>(&mut self, query: S) -> Result<HashSet<Seq>> {
self.run_command_and_read_response(&format!("SEARCH {}", query.as_ref()))
.and_then(|lines| parse_ids(&lines, &mut self.unsolicited_responses_tx))
}
/// Equivalent to [`Session::search`], except that the returned identifiers
/// are [`Uid`] instead of [`Seq`]. See also the [`UID`
/// command](https://tools.ietf.org/html/rfc3501#section-6.4.8).
pub fn uid_search<S: AsRef<str>>(&mut self, query: S) -> Result<HashSet<Uid>> {
self.run_command_and_read_response(&format!("UID SEARCH {}", query.as_ref()))
.and_then(|lines| parse_ids(&lines, &mut self.unsolicited_responses_tx))
}
// these are only here because they are public interface, the rest is in `Connection`
/// Runs a command and checks if it returns OK.
pub fn run_command_and_check_ok<S: AsRef<str>>(&mut self, command: S) -> Result<()> {
self.run_command_and_read_response(command).map(|_| ())
}
/// Runs any command passed to it.
pub fn run_command<S: AsRef<str>>(&mut self, untagged_command: S) -> Result<()> {
self.conn.run_command(untagged_command.as_ref())
}
/// Run a raw IMAP command and read back its response.
///
/// Note that the server *is* allowed to unilaterally send things to the client for messages in
/// a selected mailbox whose status has changed. See the note on [unilateral server responses
/// in RFC 3501](https://tools.ietf.org/html/rfc3501#section-7). This means that you *may* see
/// additional untagged `RECENT`, `EXISTS`, `FETCH`, and `EXPUNGE` responses!
pub fn run_command_and_read_response<S: AsRef<str>>(
&mut self,
untagged_command: S,
) -> Result<Vec<u8>> {
self.conn
.run_command_and_read_response(untagged_command.as_ref())
}
}
impl<T: Read + Write> Connection<T> {
/// Read the greeting from the connection. Needs to be done after `connect`ing.
///
/// Panics if called more than once on the same `Connection`.
pub fn read_greeting(&mut self) -> Result<Vec<u8>> {
assert!(!self.greeting_read, "Greeting can only be read once");
let mut v = Vec::new();
self.readline(&mut v)?;
self.greeting_read = true;
Ok(v)
}
fn run_command_and_check_ok(&mut self, command: &str) -> Result<()> {
self.run_command_and_read_response(command).map(|_| ())
}
fn run_command(&mut self, untagged_command: &str) -> Result<()> {
let command = self.create_command(untagged_command);
self.write_line(command.into_bytes().as_slice())
}
fn run_command_and_read_response(&mut self, untagged_command: &str) -> Result<Vec<u8>> {
self.run_command(untagged_command)?;
self.read_response()
}
pub(crate) fn read_response(&mut self) -> Result<Vec<u8>> {
let mut v = Vec::new();
self.read_response_onto(&mut v)?;
Ok(v)
}
pub(crate) fn read_response_onto(&mut self, data: &mut Vec<u8>) -> Result<()> {
let mut continue_from = None;
let mut try_first = !data.is_empty();
let match_tag = format!("{}{}", TAG_PREFIX, self.tag);
loop {
let line_start = if try_first {
try_first = false;
0
} else {
let start_new = data.len();
self.readline(data)?;
continue_from.take().unwrap_or(start_new)
};
let break_with = {
use imap_proto::{parse_response, Response, Status};
let line = &data[line_start..];
match parse_response(line) {
Ok((
_,
Response::Done {
tag,
status,
information,
..
},
)) => {
assert_eq!(tag.as_bytes(), match_tag.as_bytes());
Some(match status {
Status::Bad | Status::No => {
Err((status, information.map(ToString::to_string)))
}
Status::Ok => Ok(()),
status => Err((status, None)),
})
}
Ok((..)) => None,
Err(nom::Err::Incomplete(..)) => {
continue_from = Some(line_start);
None
}
_ => Some(Err((Status::Bye, None))),
}
};
match break_with {
Some(Ok(_)) => {
data.truncate(line_start);
break Ok(());
}
Some(Err((status, expl))) => {
use imap_proto::Status;
match status {
Status::Bad => {
break Err(Error::Bad(
expl.unwrap_or_else(|| "no explanation given".to_string()),
));
}
Status::No => {
break Err(Error::No(
expl.unwrap_or_else(|| "no explanation given".to_string()),
));
}
_ => break Err(Error::Parse(ParseError::Invalid(data.split_off(0)))),
}
}
None => {}
}
}
}
pub(crate) fn readline(&mut self, into: &mut Vec<u8>) -> Result<usize> {
use std::io::BufRead;
let read = self.stream.read_until(LF, into)?;
if read == 0 {
return Err(Error::ConnectionLost);
}
if self.debug {
// Remove CRLF
let len = into.len();
let line = &into[(len - read)..(len - 2)];
eprint!("S: {}\n", String::from_utf8_lossy(line));
}
Ok(read)
}
fn create_command(&mut self, command: &str) -> String {
self.tag += 1;
format!("{}{} {}", TAG_PREFIX, self.tag, command)
}
pub(crate) fn write_line(&mut self, buf: &[u8]) -> Result<()> {
self.stream.write_all(buf)?;
self.stream.write_all(&[CR, LF])?;
self.stream.flush()?;
if self.debug {
eprint!("C: {}\n", String::from_utf8(buf.to_vec()).unwrap());
}
Ok(())
}
}
#[cfg(test)]
mod tests {
use super::super::error::Result;
use super::super::mock_stream::MockStream;
use super::*;
macro_rules! mock_session {
($s:expr) => {
Session::new(Client::new($s).conn)
};
}
#[test]
fn read_response() {
let response = "a0 OK Logged in.\r\n";
let mock_stream = MockStream::new(response.as_bytes().to_vec());
let mut client = Client::new(mock_stream);
let actual_response = client.read_response().unwrap();
assert_eq!(Vec::<u8>::new(), actual_response);
}
#[test]
fn fetch_body() {
let response = "a0 OK Logged in.\r\n\
* 2 FETCH (BODY[TEXT] {3}\r\nfoo)\r\n\
a0 OK FETCH completed\r\n";
let mock_stream = MockStream::new(response.as_bytes().to_vec());
let mut session = mock_session!(mock_stream);
session.read_response().unwrap();
session.read_response().unwrap();
}
#[test]
fn read_greeting() {
let greeting = "* OK Dovecot ready.\r\n";
let mock_stream = MockStream::new(greeting.as_bytes().to_vec());
let mut client = Client::new(mock_stream);
client.read_greeting().unwrap();
}
#[test]
fn readline_delay_read() {
let greeting = "* OK Dovecot ready.\r\n";
let expected_response: String = greeting.to_string();
let mock_stream = MockStream::default()
.with_buf(greeting.as_bytes().to_vec())
.with_delay();
let mut client = Client::new(mock_stream);
let mut v = Vec::new();
client.readline(&mut v).unwrap();
let actual_response = String::from_utf8(v).unwrap();
assert_eq!(expected_response, actual_response);
}
#[test]
fn readline_eof() {
let mock_stream = MockStream::default().with_eof();
let mut client = Client::new(mock_stream);
let mut v = Vec::new();
if let Err(Error::ConnectionLost) = client.readline(&mut v) {
} else {
unreachable!("EOF read did not return connection lost");
}
}
#[test]
#[should_panic]
fn readline_err() {
// TODO Check the error test
let mock_stream = MockStream::default().with_err();
let mut client = Client::new(mock_stream);
let mut v = Vec::new();
client.readline(&mut v).unwrap();
}
#[test]
fn create_command() {
let base_command = "CHECK";
let mock_stream = MockStream::default();
let mut imap_stream = Client::new(mock_stream);
let expected_command = format!("a1 {}", base_command);
let command = imap_stream.create_command(&base_command);
assert!(
command == expected_command,
"expected command doesn't equal actual command"
);
let expected_command2 = format!("a2 {}", base_command);
let command2 = imap_stream.create_command(&base_command);
assert!(
command2 == expected_command2,
"expected command doesn't equal actual command"
);
}
#[test]
fn authenticate() {
let response = b"+ YmFy\r\n\
a1 OK Logged in\r\n"
.to_vec();
let command = "a1 AUTHENTICATE PLAIN\r\n\
Zm9v\r\n";
let mock_stream = MockStream::new(response);
let client = Client::new(mock_stream);
enum Authenticate {
Auth,
};
impl Authenticator for Authenticate {
type Response = Vec<u8>;
fn process(&self, challenge: &[u8]) -> Self::Response {
assert!(challenge == b"bar", "Invalid authenticate challenge");
b"foo".to_vec()
}
}
let session = client.authenticate("PLAIN", &Authenticate::Auth).unwrap();
assert!(
session.stream.get_ref().written_buf == command.as_bytes().to_vec(),
"Invalid authenticate command"
);
}
#[test]
fn login() {
let response = b"a1 OK Logged in\r\n".to_vec();
let username = "username";
let password = "password";
let command = format!("a1 LOGIN {} {}\r\n", quote!(username), quote!(password));
let mock_stream = MockStream::new(response);
let client = Client::new(mock_stream);
let session = client.login(username, password).unwrap();
assert!(
session.stream.get_ref().written_buf == command.as_bytes().to_vec(),
"Invalid login command"
);
}
#[test]
fn logout() {
let response = b"a1 OK Logout completed.\r\n".to_vec();
let command = format!("a1 LOGOUT\r\n");
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
session.logout().unwrap();
assert!(
session.stream.get_ref().written_buf == command.as_bytes().to_vec(),
"Invalid logout command"
);
}
#[test]
fn rename() {
let response = b"a1 OK RENAME completed\r\n".to_vec();
let current_mailbox_name = "INBOX";
let new_mailbox_name = "NEWINBOX";
let command = format!(
"a1 RENAME {} {}\r\n",
quote!(current_mailbox_name),
quote!(new_mailbox_name)
);
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
session
.rename(current_mailbox_name, new_mailbox_name)
.unwrap();
assert!(
session.stream.get_ref().written_buf == command.as_bytes().to_vec(),
"Invalid rename command"
);
}
#[test]
fn subscribe() {
let response = b"a1 OK SUBSCRIBE completed\r\n".to_vec();
let mailbox = "INBOX";
let command = format!("a1 SUBSCRIBE {}\r\n", quote!(mailbox));
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
session.subscribe(mailbox).unwrap();
assert!(
session.stream.get_ref().written_buf == command.as_bytes().to_vec(),
"Invalid subscribe command"
);
}
#[test]
fn unsubscribe() {
let response = b"a1 OK UNSUBSCRIBE completed\r\n".to_vec();
let mailbox = "INBOX";
let command = format!("a1 UNSUBSCRIBE {}\r\n", quote!(mailbox));
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
session.unsubscribe(mailbox).unwrap();
assert!(
session.stream.get_ref().written_buf == command.as_bytes().to_vec(),
"Invalid unsubscribe command"
);
}
#[test]
fn expunge() {
let response = b"a1 OK EXPUNGE completed\r\n".to_vec();
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
session.expunge().unwrap();
assert!(
session.stream.get_ref().written_buf == b"a1 EXPUNGE\r\n".to_vec(),
"Invalid expunge command"
);
}
#[test]
fn uid_expunge() {
let response = b"* 2 EXPUNGE\r\n\
* 3 EXPUNGE\r\n\
* 4 EXPUNGE\r\n\
a1 OK UID EXPUNGE completed\r\n"
.to_vec();
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
session.uid_expunge("2:4").unwrap();
assert!(
session.stream.get_ref().written_buf == b"a1 UID EXPUNGE 2:4\r\n".to_vec(),
"Invalid expunge command"
);
}
#[test]
fn check() {
let response = b"a1 OK CHECK completed\r\n".to_vec();
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
session.check().unwrap();
assert!(
session.stream.get_ref().written_buf == b"a1 CHECK\r\n".to_vec(),
"Invalid check command"
);
}
#[test]
fn examine() {
let response = b"* FLAGS (\\Answered \\Flagged \\Deleted \\Seen \\Draft)\r\n\
* OK [PERMANENTFLAGS ()] Read-only mailbox.\r\n\
* 1 EXISTS\r\n\
* 1 RECENT\r\n\
* OK [UNSEEN 1] First unseen.\r\n\
* OK [UIDVALIDITY 1257842737] UIDs valid\r\n\
* OK [UIDNEXT 2] Predicted next UID\r\n\
a1 OK [READ-ONLY] Select completed.\r\n"
.to_vec();
let expected_mailbox = Mailbox {
flags: vec![
Flag::Answered,
Flag::Flagged,
Flag::Deleted,
Flag::Seen,
Flag::Draft,
],
exists: 1,
recent: 1,
unseen: Some(1),
permanent_flags: vec![],
uid_next: Some(2),
uid_validity: Some(1257842737),
};
let mailbox_name = "INBOX";
let command = format!("a1 EXAMINE {}\r\n", quote!(mailbox_name));
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
let mailbox = session.examine(mailbox_name).unwrap();
assert!(
session.stream.get_ref().written_buf == command.as_bytes().to_vec(),
"Invalid examine command"
);
assert_eq!(mailbox, expected_mailbox);
}
#[test]
fn select() {
let response = b"* FLAGS (\\Answered \\Flagged \\Deleted \\Seen \\Draft)\r\n\
* OK [PERMANENTFLAGS (\\* \\Answered \\Flagged \\Deleted \\Draft \\Seen)] \
Read-only mailbox.\r\n\
* 1 EXISTS\r\n\
* 1 RECENT\r\n\
* OK [UNSEEN 1] First unseen.\r\n\
* OK [UIDVALIDITY 1257842737] UIDs valid\r\n\
* OK [UIDNEXT 2] Predicted next UID\r\n\
a1 OK [READ-ONLY] Select completed.\r\n"
.to_vec();
let expected_mailbox = Mailbox {
flags: vec![
Flag::Answered,
Flag::Flagged,
Flag::Deleted,
Flag::Seen,
Flag::Draft,
],
exists: 1,
recent: 1,
unseen: Some(1),
permanent_flags: vec![
Flag::MayCreate,
Flag::Answered,
Flag::Flagged,
Flag::Deleted,
Flag::Draft,
Flag::Seen,
],
uid_next: Some(2),
uid_validity: Some(1257842737),
};
let mailbox_name = "INBOX";
let command = format!("a1 SELECT {}\r\n", quote!(mailbox_name));
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
let mailbox = session.select(mailbox_name).unwrap();
assert!(
session.stream.get_ref().written_buf == command.as_bytes().to_vec(),
"Invalid select command"
);
assert_eq!(mailbox, expected_mailbox);
}
#[test]
fn search() {
let response = b"* SEARCH 1 2 3 4 5\r\n\
a1 OK Search completed\r\n"
.to_vec();
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
let ids = session.search("Unseen").unwrap();
let ids: HashSet<u32> = ids.iter().cloned().collect();
assert!(
session.stream.get_ref().written_buf == b"a1 SEARCH Unseen\r\n".to_vec(),
"Invalid search command"
);
assert_eq!(ids, [1, 2, 3, 4, 5].iter().cloned().collect());
}
#[test]
fn uid_search() {
let response = b"* SEARCH 1 2 3 4 5\r\n\
a1 OK Search completed\r\n"
.to_vec();
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
let ids = session.uid_search("Unseen").unwrap();
let ids: HashSet<Uid> = ids.iter().cloned().collect();
assert!(
session.stream.get_ref().written_buf == b"a1 UID SEARCH Unseen\r\n".to_vec(),
"Invalid search command"
);
assert_eq!(ids, [1, 2, 3, 4, 5].iter().cloned().collect());
}
#[test]
fn capability() {
let response = b"* CAPABILITY IMAP4rev1 STARTTLS AUTH=GSSAPI LOGINDISABLED\r\n\
a1 OK CAPABILITY completed\r\n"
.to_vec();
let expected_capabilities = vec!["IMAP4rev1", "STARTTLS", "AUTH=GSSAPI", "LOGINDISABLED"];
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
let capabilities = session.capabilities().unwrap();
assert!(
session.stream.get_ref().written_buf == b"a1 CAPABILITY\r\n".to_vec(),
"Invalid capability command"
);
assert_eq!(capabilities.len(), 4);
for e in expected_capabilities {
assert!(capabilities.has_str(e));
}
}
#[test]
fn create() {
let response = b"a1 OK CREATE completed\r\n".to_vec();
let mailbox_name = "INBOX";
let command = format!("a1 CREATE {}\r\n", quote!(mailbox_name));
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
session.create(mailbox_name).unwrap();
assert!(
session.stream.get_ref().written_buf == command.as_bytes().to_vec(),
"Invalid create command"
);
}
#[test]
fn delete() {
let response = b"a1 OK DELETE completed\r\n".to_vec();
let mailbox_name = "INBOX";
let command = format!("a1 DELETE {}\r\n", quote!(mailbox_name));
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
session.delete(mailbox_name).unwrap();
assert!(
session.stream.get_ref().written_buf == command.as_bytes().to_vec(),
"Invalid delete command"
);
}
#[test]
fn noop() {
let response = b"a1 OK NOOP completed\r\n".to_vec();
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
session.noop().unwrap();
assert!(
session.stream.get_ref().written_buf == b"a1 NOOP\r\n".to_vec(),
"Invalid noop command"
);
}
#[test]
fn close() {
let response = b"a1 OK CLOSE completed\r\n".to_vec();
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
session.close().unwrap();
assert!(
session.stream.get_ref().written_buf == b"a1 CLOSE\r\n".to_vec(),
"Invalid close command"
);
}
#[test]
fn store() {
generic_store(" ", |c, set, query| c.store(set, query));
}
#[test]
fn uid_store() {
generic_store(" UID ", |c, set, query| c.uid_store(set, query));
}
fn generic_store<F, T>(prefix: &str, op: F)
where
F: FnOnce(&mut Session<MockStream>, &str, &str) -> Result<T>,
{
let res = "* 2 FETCH (FLAGS (\\Deleted \\Seen))\r\n\
* 3 FETCH (FLAGS (\\Deleted))\r\n\
* 4 FETCH (FLAGS (\\Deleted \\Flagged \\Seen))\r\n\
a1 OK STORE completed\r\n";
generic_with_uid(res, "STORE", "2.4", "+FLAGS (\\Deleted)", prefix, op);
}
#[test]
fn copy() {
generic_copy(" ", |c, set, query| c.copy(set, query))
}
#[test]
fn uid_copy() {
generic_copy(" UID ", |c, set, query| c.uid_copy(set, query))
}
fn generic_copy<F, T>(prefix: &str, op: F)
where
F: FnOnce(&mut Session<MockStream>, &str, &str) -> Result<T>,
{
generic_with_uid(
"OK COPY completed\r\n",
"COPY",
"2:4",
"MEETING",
prefix,
op,
);
}
#[test]
fn mv() {
let response = b"* OK [COPYUID 1511554416 142,399 41:42] Moved UIDs.\r\n\
* 2 EXPUNGE\r\n\
* 1 EXPUNGE\r\n\
a1 OK Move completed\r\n"
.to_vec();
let mailbox_name = "MEETING";
let command = format!("a1 MOVE 1:2 {}\r\n", quote!(mailbox_name));
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
session.mv("1:2", mailbox_name).unwrap();
assert!(
session.stream.get_ref().written_buf == command.as_bytes().to_vec(),
"Invalid move command"
);
}
#[test]
fn uid_mv() {
let response = b"* OK [COPYUID 1511554416 142,399 41:42] Moved UIDs.\r\n\
* 2 EXPUNGE\r\n\
* 1 EXPUNGE\r\n\
a1 OK Move completed\r\n"
.to_vec();
let mailbox_name = "MEETING";
let command = format!("a1 UID MOVE 41:42 {}\r\n", quote!(mailbox_name));
let mock_stream = MockStream::new(response);
let mut session = mock_session!(mock_stream);
session.uid_mv("41:42", mailbox_name).unwrap();
assert!(
session.stream.get_ref().written_buf == command.as_bytes().to_vec(),
"Invalid uid move command"
);
}
#[test]
fn fetch() {
generic_fetch(" ", |c, seq, query| c.fetch(seq, query))
}
#[test]
fn uid_fetch() {
generic_fetch(" UID ", |c, seq, query| c.uid_fetch(seq, query))
}
fn generic_fetch<F, T>(prefix: &str, op: F)
where
F: FnOnce(&mut Session<MockStream>, &str, &str) -> Result<T>,
{
generic_with_uid("OK FETCH completed\r\n", "FETCH", "1", "BODY[]", prefix, op);
}
fn generic_with_uid<F, T>(res: &str, cmd: &str, seq: &str, query: &str, prefix: &str, op: F)
where
F: FnOnce(&mut Session<MockStream>, &str, &str) -> Result<T>,
{
let resp = format!("a1 {}\r\n", res).as_bytes().to_vec();
let line = format!("a1{}{} {} {}\r\n", prefix, cmd, seq, query);
let mut session = mock_session!(MockStream::new(resp));
let _ = op(&mut session, seq, query);
assert!(
session.stream.get_ref().written_buf == line.as_bytes().to_vec(),
"Invalid command"
);
}
#[test]
fn quote_backslash() {
assert_eq!("\"test\\\\text\"", quote!(r"test\text"));
}
#[test]
fn quote_dquote() {
assert_eq!("\"test\\\"text\"", quote!("test\"text"));
}
#[test]
fn validate_random() {
assert_eq!(
"\"~iCQ_k;>[&\\\"sVCvUW`e<<P!wJ\"",
&validate_str("~iCQ_k;>[&\"sVCvUW`e<<P!wJ").unwrap()
);
}
#[test]
fn validate_newline() {
if let Err(ref e) = validate_str("test\nstring") {
if let &Error::Validate(ref ve) = e {
if ve.0 == '\n' {
return;
}
}
panic!("Wrong error: {:?}", e);
}
panic!("No error");
}
#[test]
#[allow(unreachable_patterns)]
fn validate_carriage_return() {
if let Err(ref e) = validate_str("test\rstring") {
if let &Error::Validate(ref ve) = e {
if ve.0 == '\r' {
return;
}
}
panic!("Wrong error: {:?}", e);
}
panic!("No error");
}
}
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