ipc_channel/ipc.rs
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// Copyright 2015 The Servo Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use crate::platform::{self, OsIpcChannel, OsIpcReceiver, OsIpcReceiverSet, OsIpcSender};
use crate::platform::{
OsIpcOneShotServer, OsIpcSelectionResult, OsIpcSharedMemory, OsOpaqueIpcChannel,
};
use bincode;
use serde::{Deserialize, Deserializer, Serialize, Serializer};
use std::cell::RefCell;
use std::cmp::min;
use std::error::Error as StdError;
use std::fmt::{self, Debug, Formatter};
use std::io;
use std::marker::PhantomData;
use std::mem;
use std::ops::Deref;
use std::time::Duration;
thread_local! {
static OS_IPC_CHANNELS_FOR_DESERIALIZATION: RefCell<Vec<OsOpaqueIpcChannel>> =
RefCell::new(Vec::new())
}
thread_local! {
static OS_IPC_SHARED_MEMORY_REGIONS_FOR_DESERIALIZATION:
RefCell<Vec<Option<OsIpcSharedMemory>>> = RefCell::new(Vec::new())
}
thread_local! {
static OS_IPC_CHANNELS_FOR_SERIALIZATION: RefCell<Vec<OsIpcChannel>> = RefCell::new(Vec::new())
}
thread_local! {
static OS_IPC_SHARED_MEMORY_REGIONS_FOR_SERIALIZATION: RefCell<Vec<OsIpcSharedMemory>> =
RefCell::new(Vec::new())
}
#[derive(Debug)]
pub enum IpcError {
Bincode(bincode::Error),
Io(io::Error),
Disconnected,
}
impl fmt::Display for IpcError {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
match *self {
IpcError::Bincode(ref err) => write!(fmt, "bincode error: {}", err),
IpcError::Io(ref err) => write!(fmt, "io error: {}", err),
IpcError::Disconnected => write!(fmt, "disconnected"),
}
}
}
impl StdError for IpcError {
fn source(&self) -> Option<&(dyn StdError + 'static)> {
match *self {
IpcError::Bincode(ref err) => Some(err),
IpcError::Io(ref err) => Some(err),
IpcError::Disconnected => None,
}
}
}
#[derive(Debug)]
pub enum TryRecvError {
IpcError(IpcError),
Empty,
}
impl fmt::Display for TryRecvError {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
match *self {
TryRecvError::IpcError(ref err) => write!(fmt, "ipc error: {}", err),
TryRecvError::Empty => write!(fmt, "empty"),
}
}
}
impl StdError for TryRecvError {
fn source(&self) -> Option<&(dyn StdError + 'static)> {
match *self {
TryRecvError::IpcError(ref err) => Some(err),
TryRecvError::Empty => None,
}
}
}
/// Create a connected [IpcSender] and [IpcReceiver] that
/// transfer messages of a given type provided by type `T`
/// or inferred by the types of messages sent by the sender.
///
/// Messages sent by the sender will be available to the
/// receiver even if the sender or receiver has been moved
/// to a different process. In addition, receivers and senders
/// may be sent over an existing channel.
///
/// # Examples
///
/// ```
/// # use ipc_channel::ipc;
///
/// let payload = "Hello, World!".to_owned();
///
/// // Create a channel
/// let (tx, rx) = ipc::channel().unwrap();
///
/// // Send data
/// tx.send(payload).unwrap();
///
/// // Receive the data
/// let response = rx.recv().unwrap();
///
/// assert_eq!(response, "Hello, World!".to_owned());
/// ```
///
/// [IpcSender]: struct.IpcSender.html
/// [IpcReceiver]: struct.IpcReceiver.html
pub fn channel<T>() -> Result<(IpcSender<T>, IpcReceiver<T>), io::Error>
where
T: for<'de> Deserialize<'de> + Serialize,
{
let (os_sender, os_receiver) = platform::channel()?;
let ipc_receiver = IpcReceiver {
os_receiver,
phantom: PhantomData,
};
let ipc_sender = IpcSender {
os_sender,
phantom: PhantomData,
};
Ok((ipc_sender, ipc_receiver))
}
/// Create a connected [IpcBytesSender] and [IpcBytesReceiver].
///
/// Note: The [IpcBytesSender] transfers messages of the type `[u8]`
/// and the [IpcBytesReceiver] receives a `Vec<u8>`. This sender/receiver
/// type does not serialize/deserialize messages through `serde`, making
/// it more efficient where applicable.
///
/// # Examples
///
/// ```
/// # use ipc_channel::ipc;
///
/// let payload = b"'Tis but a scratch!!";
///
/// // Create a channel
/// let (tx, rx) = ipc::bytes_channel().unwrap();
///
/// // Send data
/// tx.send(payload).unwrap();
///
/// // Receive the data
/// let response = rx.recv().unwrap();
///
/// assert_eq!(response, payload);
/// ```
///
/// [IpcBytesReceiver]: struct.IpcBytesReceiver.html
/// [IpcBytesSender]: struct.IpcBytesSender.html
pub fn bytes_channel() -> Result<(IpcBytesSender, IpcBytesReceiver), io::Error> {
let (os_sender, os_receiver) = platform::channel()?;
let ipc_bytes_receiver = IpcBytesReceiver { os_receiver };
let ipc_bytes_sender = IpcBytesSender { os_sender };
Ok((ipc_bytes_sender, ipc_bytes_receiver))
}
/// Receiving end of a channel using serialized messages.
///
/// # Examples
///
/// ## Blocking IO
///
/// ```
/// # use ipc_channel::ipc;
/// #
/// # let (tx, rx) = ipc::channel().unwrap();
/// #
/// # let q = "Answer to the ultimate question of life, the universe, and everything";
/// #
/// # tx.send(q.to_owned()).unwrap();
/// let response = rx.recv().unwrap();
/// println!("Received data...");
/// # assert_eq!(response, q);
/// ```
///
/// ## Non-blocking IO
///
/// ```
/// # use ipc_channel::ipc;
/// #
/// # let (tx, rx) = ipc::channel().unwrap();
/// #
/// # let answer = "42";
/// #
/// # tx.send(answer.to_owned()).unwrap();
/// loop {
/// match rx.try_recv() {
/// Ok(res) => {
/// // Do something interesting with your result
/// println!("Received data...");
/// break;
/// },
/// Err(_) => {
/// // Do something else useful while we wait
/// println!("Still waiting...");
/// }
/// }
/// }
/// ```
///
/// ## Embedding Receivers
///
/// ```
/// # use ipc_channel::ipc;
/// #
/// let (tx, rx) = ipc::channel().unwrap();
/// let (embedded_tx, embedded_rx) = ipc::channel().unwrap();
/// # let data = [0x45, 0x6d, 0x62, 0x65, 0x64, 0x64, 0x65, 0x64, 0x00];
/// // Send the IpcReceiver
/// tx.send(embedded_rx).unwrap();
/// # embedded_tx.send(data.to_owned()).unwrap();
/// // Receive the sent IpcReceiver
/// let received_rx = rx.recv().unwrap();
/// // Receive any data sent to the received IpcReceiver
/// let rx_data = received_rx.recv().unwrap();
/// # assert_eq!(rx_data, data);
/// ```
///
/// # Implementation details
///
/// Each [IpcReceiver] is backed by the OS specific implementations of `OsIpcReceiver`.
///
/// [IpcReceiver]: struct.IpcReceiver.html
#[derive(Debug)]
pub struct IpcReceiver<T> {
os_receiver: OsIpcReceiver,
phantom: PhantomData<T>,
}
impl<T> IpcReceiver<T>
where
T: for<'de> Deserialize<'de> + Serialize,
{
/// Blocking receive.
pub fn recv(&self) -> Result<T, IpcError> {
let (data, os_ipc_channels, os_ipc_shared_memory_regions) = self.os_receiver.recv()?;
OpaqueIpcMessage::new(data, os_ipc_channels, os_ipc_shared_memory_regions)
.to()
.map_err(IpcError::Bincode)
}
/// Non-blocking receive
pub fn try_recv(&self) -> Result<T, TryRecvError> {
let (data, os_ipc_channels, os_ipc_shared_memory_regions) = self.os_receiver.try_recv()?;
OpaqueIpcMessage::new(data, os_ipc_channels, os_ipc_shared_memory_regions)
.to()
.map_err(IpcError::Bincode)
.map_err(TryRecvError::IpcError)
}
/// Blocks for up to the specified duration attempting to receive a message.
///
/// This may block for longer than the specified duration if the channel is busy. If your timeout
/// exceeds the duration that your operating system can represent in milliseconds, this may
/// block forever. At the time of writing, the smallest duration that may trigger this behavior
/// is over 24 days.
pub fn try_recv_timeout(&self, duration: Duration) -> Result<T, TryRecvError> {
let (data, os_ipc_channels, os_ipc_shared_memory_regions) =
self.os_receiver.try_recv_timeout(duration)?;
OpaqueIpcMessage::new(data, os_ipc_channels, os_ipc_shared_memory_regions)
.to()
.map_err(IpcError::Bincode)
.map_err(TryRecvError::IpcError)
}
/// Erase the type of the channel.
///
/// Useful for adding routes to a `RouterProxy`.
pub fn to_opaque(self) -> OpaqueIpcReceiver {
OpaqueIpcReceiver {
os_receiver: self.os_receiver,
}
}
}
impl<'de, T> Deserialize<'de> for IpcReceiver<T> {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let os_receiver = deserialize_os_ipc_receiver(deserializer)?;
Ok(IpcReceiver {
os_receiver,
phantom: PhantomData,
})
}
}
impl<T> Serialize for IpcReceiver<T> {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
serialize_os_ipc_receiver(&self.os_receiver, serializer)
}
}
/// Sending end of a channel using serialized messages.
///
///
/// ## Embedding Senders
///
/// ```
/// # use ipc_channel::ipc;
/// #
/// # let (tx, rx) = ipc::channel().unwrap();
/// # let (embedded_tx, embedded_rx) = ipc::channel().unwrap();
/// # let data = [0x45, 0x6d, 0x62, 0x65, 0x64, 0x64, 0x65, 0x64, 0x00];
/// // Send the IpcSender
/// tx.send(embedded_tx).unwrap();
/// // Receive the sent IpcSender
/// let received_tx = rx.recv().unwrap();
/// // Send data from the received IpcSender
/// received_tx.send(data.clone()).unwrap();
/// # let rx_data = embedded_rx.recv().unwrap();
/// # assert_eq!(rx_data, data);
/// ```
#[derive(Debug)]
pub struct IpcSender<T> {
os_sender: OsIpcSender,
phantom: PhantomData<T>,
}
impl<T> Clone for IpcSender<T>
where
T: Serialize,
{
fn clone(&self) -> IpcSender<T> {
IpcSender {
os_sender: self.os_sender.clone(),
phantom: PhantomData,
}
}
}
impl<T> IpcSender<T>
where
T: Serialize,
{
/// Create an [IpcSender] connected to a previously defined [IpcOneShotServer].
///
/// [IpcSender]: struct.IpcSender.html
/// [IpcOneShotServer]: struct.IpcOneShotServer.html
pub fn connect(name: String) -> Result<IpcSender<T>, io::Error> {
Ok(IpcSender {
os_sender: OsIpcSender::connect(name)?,
phantom: PhantomData,
})
}
/// Send data across the channel to the receiver.
pub fn send(&self, data: T) -> Result<(), bincode::Error> {
let mut bytes = Vec::with_capacity(4096);
OS_IPC_CHANNELS_FOR_SERIALIZATION.with(|os_ipc_channels_for_serialization| {
OS_IPC_SHARED_MEMORY_REGIONS_FOR_SERIALIZATION.with(
|os_ipc_shared_memory_regions_for_serialization| {
let old_os_ipc_channels =
mem::take(&mut *os_ipc_channels_for_serialization.borrow_mut());
let old_os_ipc_shared_memory_regions = mem::take(
&mut *os_ipc_shared_memory_regions_for_serialization.borrow_mut(),
);
let os_ipc_shared_memory_regions;
let os_ipc_channels;
{
bincode::serialize_into(&mut bytes, &data)?;
os_ipc_channels = mem::replace(
&mut *os_ipc_channels_for_serialization.borrow_mut(),
old_os_ipc_channels,
);
os_ipc_shared_memory_regions = mem::replace(
&mut *os_ipc_shared_memory_regions_for_serialization.borrow_mut(),
old_os_ipc_shared_memory_regions,
);
};
Ok(self.os_sender.send(
&bytes[..],
os_ipc_channels,
os_ipc_shared_memory_regions,
)?)
},
)
})
}
pub fn to_opaque(self) -> OpaqueIpcSender {
OpaqueIpcSender {
os_sender: self.os_sender,
}
}
}
impl<'de, T> Deserialize<'de> for IpcSender<T> {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let os_sender = deserialize_os_ipc_sender(deserializer)?;
Ok(IpcSender {
os_sender,
phantom: PhantomData,
})
}
}
impl<T> Serialize for IpcSender<T> {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
serialize_os_ipc_sender(&self.os_sender, serializer)
}
}
/// Collection of [IpcReceiver]s moved into the set; thus creating a common
/// (and exclusive) endpoint for receiving messages on any of the added
/// channels.
///
/// # Examples
///
/// ```
/// # use ipc_channel::ipc::{self, IpcReceiverSet, IpcSelectionResult};
/// let data = vec![0x52, 0x75, 0x73, 0x74, 0x00];
/// let (tx, rx) = ipc::channel().unwrap();
/// let mut rx_set = IpcReceiverSet::new().unwrap();
///
/// // Add the receiver to the receiver set and send the data
/// // from the sender
/// let rx_id = rx_set.add(rx).unwrap();
/// tx.send(data.clone()).unwrap();
///
/// // Poll the receiver set for any readable events
/// for event in rx_set.select().unwrap() {
/// match event {
/// IpcSelectionResult::MessageReceived(id, message) => {
/// let rx_data: Vec<u8> = message.to().unwrap();
/// assert_eq!(id, rx_id);
/// assert_eq!(data, rx_data);
/// println!("Received: {:?} from {}...", data, id);
/// },
/// IpcSelectionResult::ChannelClosed(id) => {
/// assert_eq!(id, rx_id);
/// println!("No more data from {}...", id);
/// }
/// }
/// }
/// ```
/// [IpcReceiver]: struct.IpcReceiver.html
pub struct IpcReceiverSet {
os_receiver_set: OsIpcReceiverSet,
}
impl IpcReceiverSet {
/// Create a new empty [IpcReceiverSet].
///
/// Receivers may then be added to the set with the [add]
/// method.
///
/// [add]: #method.add
/// [IpcReceiverSet]: struct.IpcReceiverSet.html
pub fn new() -> Result<IpcReceiverSet, io::Error> {
Ok(IpcReceiverSet {
os_receiver_set: OsIpcReceiverSet::new()?,
})
}
/// Add and consume the [IpcReceiver] to the set of receivers to be polled.
/// [IpcReceiver]: struct.IpcReceiver.html
pub fn add<T>(&mut self, receiver: IpcReceiver<T>) -> Result<u64, io::Error>
where
T: for<'de> Deserialize<'de> + Serialize,
{
Ok(self.os_receiver_set.add(receiver.os_receiver)?)
}
/// Add an [OpaqueIpcReceiver] to the set of receivers to be polled.
/// [OpaqueIpcReceiver]: struct.OpaqueIpcReceiver.html
pub fn add_opaque(&mut self, receiver: OpaqueIpcReceiver) -> Result<u64, io::Error> {
Ok(self.os_receiver_set.add(receiver.os_receiver)?)
}
/// Wait for IPC messages received on any of the receivers in the set. The
/// method will return multiple events. An event may be either a message
/// received or a channel closed event.
///
/// [IpcReceiver]: struct.IpcReceiver.html
pub fn select(&mut self) -> Result<Vec<IpcSelectionResult>, io::Error> {
let results = self.os_receiver_set.select()?;
Ok(results
.into_iter()
.map(|result| match result {
OsIpcSelectionResult::DataReceived(
os_receiver_id,
data,
os_ipc_channels,
os_ipc_shared_memory_regions,
) => IpcSelectionResult::MessageReceived(
os_receiver_id,
OpaqueIpcMessage {
data,
os_ipc_channels,
os_ipc_shared_memory_regions: os_ipc_shared_memory_regions
.into_iter()
.map(Some)
.collect(),
},
),
OsIpcSelectionResult::ChannelClosed(os_receiver_id) => {
IpcSelectionResult::ChannelClosed(os_receiver_id)
},
})
.collect())
}
}
/// Shared memory descriptor that will be made accessible to the receiver
/// of an IPC message that contains the discriptor.
///
/// # Examples
/// ```
/// # use ipc_channel::ipc::{self, IpcSharedMemory};
/// # let (tx, rx) = ipc::channel().unwrap();
/// # let data = [0x76, 0x69, 0x6d, 0x00];
/// let shmem = IpcSharedMemory::from_bytes(&data);
/// tx.send(shmem.clone()).unwrap();
/// # let rx_shmem = rx.recv().unwrap();
/// # #[cfg(any(not(target_os = "windows"), all(target_os = "windows", feature = "windows-shared-memory-equality")))]
/// # assert_eq!(shmem, rx_shmem);
/// ```
#[derive(Clone, Debug)]
#[cfg_attr(
any(
not(target_os = "windows"),
all(target_os = "windows", feature = "windows-shared-memory-equality")
),
derive(PartialEq)
)]
pub struct IpcSharedMemory {
/// None represents no data (empty slice)
os_shared_memory: Option<OsIpcSharedMemory>,
}
impl Deref for IpcSharedMemory {
type Target = [u8];
#[inline]
fn deref(&self) -> &[u8] {
if let Some(os_shared_memory) = &self.os_shared_memory {
os_shared_memory
} else {
&[]
}
}
}
impl<'de> Deserialize<'de> for IpcSharedMemory {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let index: usize = Deserialize::deserialize(deserializer)?;
if index == usize::MAX {
Ok(IpcSharedMemory::empty())
} else {
let os_shared_memory = OS_IPC_SHARED_MEMORY_REGIONS_FOR_DESERIALIZATION.with(
|os_ipc_shared_memory_regions_for_deserialization| {
// FIXME(pcwalton): This could panic if the data was corrupt and the index was out
// of bounds. We should return an `Err` result instead.
os_ipc_shared_memory_regions_for_deserialization.borrow_mut()[index]
.take()
.unwrap()
},
);
Ok(IpcSharedMemory {
os_shared_memory: Some(os_shared_memory),
})
}
}
}
impl Serialize for IpcSharedMemory {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
if let Some(os_shared_memory) = &self.os_shared_memory {
let index = OS_IPC_SHARED_MEMORY_REGIONS_FOR_SERIALIZATION.with(
|os_ipc_shared_memory_regions_for_serialization| {
let mut os_ipc_shared_memory_regions_for_serialization =
os_ipc_shared_memory_regions_for_serialization.borrow_mut();
let index = os_ipc_shared_memory_regions_for_serialization.len();
os_ipc_shared_memory_regions_for_serialization.push(os_shared_memory.clone());
index
},
);
debug_assert!(index < usize::MAX);
index
} else {
usize::MAX
}
.serialize(serializer)
}
}
impl IpcSharedMemory {
const fn empty() -> Self {
Self {
os_shared_memory: None,
}
}
/// Create shared memory initialized with the bytes provided.
pub fn from_bytes(bytes: &[u8]) -> IpcSharedMemory {
if bytes.is_empty() {
IpcSharedMemory::empty()
} else {
IpcSharedMemory {
os_shared_memory: Some(OsIpcSharedMemory::from_bytes(bytes)),
}
}
}
/// Create a chunk of shared memory that is filled with the byte
/// provided.
pub fn from_byte(byte: u8, length: usize) -> IpcSharedMemory {
if length == 0 {
IpcSharedMemory::empty()
} else {
IpcSharedMemory {
os_shared_memory: Some(OsIpcSharedMemory::from_byte(byte, length)),
}
}
}
}
/// Result for readable events returned from [IpcReceiverSet::select].
///
/// [IpcReceiverSet::select]: struct.IpcReceiverSet.html#method.select
pub enum IpcSelectionResult {
/// A message received from the [IpcReceiver] in the [opaque] form,
/// identified by the `u64` value.
///
/// [IpcReceiver]: struct.IpcReceiver.html
/// [opaque]: struct.OpaqueIpcMessage.html
MessageReceived(u64, OpaqueIpcMessage),
/// The channel has been closed for the [IpcReceiver] identified by the `u64` value.
/// [IpcReceiver]: struct.IpcReceiver.html
ChannelClosed(u64),
}
impl IpcSelectionResult {
/// Helper method to move the value out of the [IpcSelectionResult] if it
/// is [MessageReceived].
///
/// # Panics
///
/// If the result is [ChannelClosed] this call will panic.
///
/// [IpcSelectionResult]: enum.IpcSelectionResult.html
/// [MessageReceived]: enum.IpcSelectionResult.html#variant.MessageReceived
/// [ChannelClosed]: enum.IpcSelectionResult.html#variant.ChannelClosed
pub fn unwrap(self) -> (u64, OpaqueIpcMessage) {
match self {
IpcSelectionResult::MessageReceived(id, message) => (id, message),
IpcSelectionResult::ChannelClosed(id) => {
panic!("IpcSelectionResult::unwrap(): channel {} closed", id)
},
}
}
}
/// Structure used to represent a raw message from an [IpcSender].
///
/// Use the [to] method to deserialize the raw result into the requested type.
///
/// [IpcSender]: struct.IpcSender.html
/// [to]: #method.to
pub struct OpaqueIpcMessage {
data: Vec<u8>,
os_ipc_channels: Vec<OsOpaqueIpcChannel>,
os_ipc_shared_memory_regions: Vec<Option<OsIpcSharedMemory>>,
}
impl Debug for OpaqueIpcMessage {
fn fmt(&self, formatter: &mut Formatter) -> Result<(), fmt::Error> {
match String::from_utf8(self.data.clone()) {
Ok(string) => string.chars().take(256).collect::<String>().fmt(formatter),
Err(..) => self.data[0..min(self.data.len(), 256)].fmt(formatter),
}
}
}
impl OpaqueIpcMessage {
fn new(
data: Vec<u8>,
os_ipc_channels: Vec<OsOpaqueIpcChannel>,
os_ipc_shared_memory_regions: Vec<OsIpcSharedMemory>,
) -> OpaqueIpcMessage {
OpaqueIpcMessage {
data,
os_ipc_channels,
os_ipc_shared_memory_regions: os_ipc_shared_memory_regions
.into_iter()
.map(Some)
.collect(),
}
}
/// Deserialize the raw data in the contained message into the inferred type.
pub fn to<T>(mut self) -> Result<T, bincode::Error>
where
T: for<'de> Deserialize<'de> + Serialize,
{
OS_IPC_CHANNELS_FOR_DESERIALIZATION.with(|os_ipc_channels_for_deserialization| {
OS_IPC_SHARED_MEMORY_REGIONS_FOR_DESERIALIZATION.with(
|os_ipc_shared_memory_regions_for_deserialization| {
mem::swap(
&mut *os_ipc_channels_for_deserialization.borrow_mut(),
&mut self.os_ipc_channels,
);
mem::swap(
&mut *os_ipc_shared_memory_regions_for_deserialization.borrow_mut(),
&mut self.os_ipc_shared_memory_regions,
);
let result = bincode::deserialize(&self.data[..]);
mem::swap(
&mut *os_ipc_shared_memory_regions_for_deserialization.borrow_mut(),
&mut self.os_ipc_shared_memory_regions,
);
mem::swap(
&mut *os_ipc_channels_for_deserialization.borrow_mut(),
&mut self.os_ipc_channels,
);
/* Error check comes after doing cleanup,
* since we need the cleanup both in the success and the error cases. */
result
},
)
})
}
}
#[derive(Clone, Debug)]
pub struct OpaqueIpcSender {
os_sender: OsIpcSender,
}
impl OpaqueIpcSender {
pub fn to<'de, T>(self) -> IpcSender<T>
where
T: Deserialize<'de> + Serialize,
{
IpcSender {
os_sender: self.os_sender,
phantom: PhantomData,
}
}
}
impl<'de> Deserialize<'de> for OpaqueIpcSender {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let os_sender = deserialize_os_ipc_sender(deserializer)?;
Ok(OpaqueIpcSender { os_sender })
}
}
impl Serialize for OpaqueIpcSender {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
serialize_os_ipc_sender(&self.os_sender, serializer)
}
}
#[derive(Debug)]
pub struct OpaqueIpcReceiver {
os_receiver: OsIpcReceiver,
}
impl OpaqueIpcReceiver {
pub fn to<'de, T>(self) -> IpcReceiver<T>
where
T: Deserialize<'de> + Serialize,
{
IpcReceiver {
os_receiver: self.os_receiver,
phantom: PhantomData,
}
}
}
impl<'de> Deserialize<'de> for OpaqueIpcReceiver {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let os_receiver = deserialize_os_ipc_receiver(deserializer)?;
Ok(OpaqueIpcReceiver { os_receiver })
}
}
impl Serialize for OpaqueIpcReceiver {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
serialize_os_ipc_receiver(&self.os_receiver, serializer)
}
}
/// A server associated with a given name.
///
/// # Examples
///
/// ## Basic Usage
///
/// ```
/// use ipc_channel::ipc::{self, IpcOneShotServer, IpcSender, IpcReceiver};
///
/// let (server, server_name) = IpcOneShotServer::new().unwrap();
/// let tx: IpcSender<Vec<u8>> = IpcSender::connect(server_name).unwrap();
///
/// tx.send(vec![0x10, 0x11, 0x12, 0x13]).unwrap();
/// let (_, data): (_, Vec<u8>) = server.accept().unwrap();
/// assert_eq!(data, vec![0x10, 0x11, 0x12, 0x13]);
/// ```
///
/// ## Sending an [IpcSender]
/// ```
/// use ipc_channel::ipc::{self, IpcOneShotServer, IpcSender, IpcReceiver};
/// let (server, name) = IpcOneShotServer::new().unwrap();
///
/// let (tx1, rx1): (IpcSender<Vec<u8>>, IpcReceiver<Vec<u8>>) = ipc::channel().unwrap();
/// let tx0 = IpcSender::connect(name).unwrap();
/// tx0.send(tx1).unwrap();
///
/// let (_, tx1): (_, IpcSender<Vec<u8>>) = server.accept().unwrap();
/// tx1.send(vec![0x48, 0x65, 0x6b, 0x6b, 0x6f, 0x00]).unwrap();
///
/// let data = rx1.recv().unwrap();
/// assert_eq!(data, vec![0x48, 0x65, 0x6b, 0x6b, 0x6f, 0x00]);
/// ```
/// [IpcSender]: struct.IpcSender.html
pub struct IpcOneShotServer<T> {
os_server: OsIpcOneShotServer,
phantom: PhantomData<T>,
}
impl<T> IpcOneShotServer<T>
where
T: for<'de> Deserialize<'de> + Serialize,
{
pub fn new() -> Result<(IpcOneShotServer<T>, String), io::Error> {
let (os_server, name) = OsIpcOneShotServer::new()?;
Ok((
IpcOneShotServer {
os_server,
phantom: PhantomData,
},
name,
))
}
pub fn accept(self) -> Result<(IpcReceiver<T>, T), bincode::Error> {
let (os_receiver, data, os_channels, os_shared_memory_regions) = self.os_server.accept()?;
let value = OpaqueIpcMessage {
data,
os_ipc_channels: os_channels,
os_ipc_shared_memory_regions: os_shared_memory_regions.into_iter().map(Some).collect(),
}
.to()?;
Ok((
IpcReceiver {
os_receiver,
phantom: PhantomData,
},
value,
))
}
}
/// Receiving end of a channel that does not used serialized messages.
#[derive(Debug)]
pub struct IpcBytesReceiver {
os_receiver: OsIpcReceiver,
}
impl IpcBytesReceiver {
/// Blocking receive.
#[inline]
pub fn recv(&self) -> Result<Vec<u8>, IpcError> {
match self.os_receiver.recv() {
Ok((data, _, _)) => Ok(data),
Err(err) => Err(err.into()),
}
}
/// Non-blocking receive
pub fn try_recv(&self) -> Result<Vec<u8>, TryRecvError> {
match self.os_receiver.try_recv() {
Ok((data, _, _)) => Ok(data),
Err(err) => Err(err.into()),
}
}
}
impl<'de> Deserialize<'de> for IpcBytesReceiver {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let os_receiver = deserialize_os_ipc_receiver(deserializer)?;
Ok(IpcBytesReceiver { os_receiver })
}
}
impl Serialize for IpcBytesReceiver {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
serialize_os_ipc_receiver(&self.os_receiver, serializer)
}
}
/// Sending end of a channel that does not used serialized messages.
#[derive(Debug)]
pub struct IpcBytesSender {
os_sender: OsIpcSender,
}
impl Clone for IpcBytesSender {
fn clone(&self) -> IpcBytesSender {
IpcBytesSender {
os_sender: self.os_sender.clone(),
}
}
}
impl<'de> Deserialize<'de> for IpcBytesSender {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let os_sender = deserialize_os_ipc_sender(deserializer)?;
Ok(IpcBytesSender { os_sender })
}
}
impl Serialize for IpcBytesSender {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
serialize_os_ipc_sender(&self.os_sender, serializer)
}
}
impl IpcBytesSender {
#[inline]
pub fn send(&self, data: &[u8]) -> Result<(), io::Error> {
self.os_sender
.send(data, vec![], vec![])
.map_err(io::Error::from)
}
}
fn serialize_os_ipc_sender<S>(os_ipc_sender: &OsIpcSender, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
let index = OS_IPC_CHANNELS_FOR_SERIALIZATION.with(|os_ipc_channels_for_serialization| {
let mut os_ipc_channels_for_serialization = os_ipc_channels_for_serialization.borrow_mut();
let index = os_ipc_channels_for_serialization.len();
os_ipc_channels_for_serialization.push(OsIpcChannel::Sender(os_ipc_sender.clone()));
index
});
index.serialize(serializer)
}
fn deserialize_os_ipc_sender<'de, D>(deserializer: D) -> Result<OsIpcSender, D::Error>
where
D: Deserializer<'de>,
{
let index: usize = Deserialize::deserialize(deserializer)?;
OS_IPC_CHANNELS_FOR_DESERIALIZATION.with(|os_ipc_channels_for_deserialization| {
// FIXME(pcwalton): This could panic if the data was corrupt and the index was out of
// bounds. We should return an `Err` result instead.
Ok(os_ipc_channels_for_deserialization.borrow_mut()[index].to_sender())
})
}
fn serialize_os_ipc_receiver<S>(
os_receiver: &OsIpcReceiver,
serializer: S,
) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
let index = OS_IPC_CHANNELS_FOR_SERIALIZATION.with(|os_ipc_channels_for_serialization| {
let mut os_ipc_channels_for_serialization = os_ipc_channels_for_serialization.borrow_mut();
let index = os_ipc_channels_for_serialization.len();
os_ipc_channels_for_serialization.push(OsIpcChannel::Receiver(os_receiver.consume()));
index
});
index.serialize(serializer)
}
fn deserialize_os_ipc_receiver<'de, D>(deserializer: D) -> Result<OsIpcReceiver, D::Error>
where
D: Deserializer<'de>,
{
let index: usize = Deserialize::deserialize(deserializer)?;
OS_IPC_CHANNELS_FOR_DESERIALIZATION.with(|os_ipc_channels_for_deserialization| {
// FIXME(pcwalton): This could panic if the data was corrupt and the index was out
// of bounds. We should return an `Err` result instead.
Ok(os_ipc_channels_for_deserialization.borrow_mut()[index].to_receiver())
})
}