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// SPDX-License-Identifier: MIT
//! `netlink-packet-core` provides a generic netlink message
//! `NetlinkMessage<T>` that is independant of the sub-protocol. Such
//! messages are not very useful by themselves, since they are just
//! used to carry protocol-dependant messages. That is what the `T`
//! represent: `T` is the `NetlinkMessage`'s protocol-dependant
//! message. This can be any type that implements
//! `NetlinkSerializable` and `NetlinkDeserializable`.
//!
//! For instance, the `netlink-packet-route` crate provides rtnetlink
//! messages via `netlink_packet_route::RtnlMessage`, and
//! `netlink-packet-audit` provides audit messages via
//! `netlink_packet_audit::AuditMessage`.
//!
//! By itself, the `netlink-packet-core` crate is not very
//! useful. However, it is used in `netlink-proto` to provide an
//! asynchronous implementation of the netlink protocol for any
//! sub-protocol. Thus, a crate that defines messages for a given
//! netlink sub-protocol could integrate with `netlink-packet-core`
//! and would get an asynchronous implementation for free. See the
//! second example below for such an integration, via the
//! `NetlinkSerializable` and `NetlinkDeserializable` traits.
//!
//! # Example: usage with `netlink-packet-route`
//!
//! This example shows how to serialize and deserialize netlink packet
//! for the rtnetlink sub-protocol. It requires
//! `netlink-packet-route`.
//!
//! ```rust
//! use netlink_packet_core::{NLM_F_DUMP, NLM_F_REQUEST};
//! use netlink_packet_route::{LinkMessage, RtnlMessage, NetlinkMessage,
//! NetlinkHeader};
//!
//! // Create the netlink message, that contains the rtnetlink
//! // message
//! let mut packet = NetlinkMessage {
//! header: NetlinkHeader {
//! sequence_number: 1,
//! flags: NLM_F_DUMP | NLM_F_REQUEST,
//! ..Default::default()
//! },
//! payload: RtnlMessage::GetLink(LinkMessage::default()).into(),
//! };
//!
//! // Before serializing the packet, it is important to call
//! // finalize() to ensure the header of the message is consistent
//! // with its payload. Otherwise, a panic may occur when calling
//! // serialize()
//! packet.finalize();
//!
//! // Prepare a buffer to serialize the packet. Note that we never
//! // set explicitely `packet.header.length` above. This was done
//! // automatically when we called `finalize()`
//! let mut buf = vec![0; packet.header.length as usize];
//! // Serialize the packet
//! packet.serialize(&mut buf[..]);
//!
//! // Deserialize the packet
//! let deserialized_packet =
//! NetlinkMessage::<RtnlMessage>::deserialize(&buf).expect("Failed to deserialize message");
//!
//! // Normally, the deserialized packet should be exactly the same
//! // than the serialized one.
//! assert_eq!(deserialized_packet, packet);
//!
//! println!("{:?}", packet);
//! ```
//!
//! # Example: adding messages for new netlink sub-protocol
//!
//! Let's assume we have a netlink protocol called "ping pong" that
//! defines two types of messages: "ping" messages, which payload can
//! be any sequence of bytes, and "pong" message, which payload is
//! also a sequence of bytes. The protocol works as follow: when an
//! enpoint receives a "ping" message, it answers with a "pong", with
//! the payload of the "ping" it's answering to.
//!
//! "ping" messages have type 18 and "pong" have type "20". Here is
//! what a "ping" message that would look like if its payload is `[0,
//! 1, 2, 3]`:
//!
//! ```no_rust
//! 0 8 16 24 32
//! +----------------+----------------+----------------+----------------+
//! | packet length (including header) = 16 + 4 = 20 |
//! +----------------+----------------+----------------+----------------+
//! | message type = 18 (ping) | flags |
//! +----------------+----------------+----------------+----------------+
//! | sequence number |
//! +----------------+----------------+----------------+----------------+
//! | port number |
//! +----------------+----------------+----------------+----------------+
//! | 0 | 1 | 2 | 3 |
//! +----------------+----------------+----------------+----------------+
//! ```
//!
//! And the "pong" response would be:
//!
//! ```no_rust
//! 0 8 16 24 32
//! +----------------+----------------+----------------+----------------+
//! | packet length (including header) = 16 + 4 = 20 |
//! +----------------+----------------+----------------+----------------+
//! | message type = 20 (pong) | flags |
//! +----------------+----------------+----------------+----------------+
//! | sequence number |
//! +----------------+----------------+----------------+----------------+
//! | port number |
//! +----------------+----------------+----------------+----------------+
//! | 0 | 1 | 2 | 3 |
//! +----------------+----------------+----------------+----------------+
//! ```
//!
//! Here is how we could implement the messages for such a protocol
//! and integrate this implementation with `netlink-packet-core`:
//!
//! ```rust
//! use netlink_packet_core::{
//! NetlinkDeserializable, NetlinkHeader, NetlinkMessage, NetlinkPayload, NetlinkSerializable,
//! };
//! use std::error::Error;
//! use std::fmt;
//!
//! // PingPongMessage represent the messages for the "ping-pong" netlink
//! // protocol. There are only two types of messages.
//! #[derive(Debug, Clone, Eq, PartialEq)]
//! pub enum PingPongMessage {
//! Ping(Vec<u8>),
//! Pong(Vec<u8>),
//! }
//!
//! // The netlink header contains a "message type" field that identifies
//! // the message it carries. Some values are reserved, and we
//! // arbitrarily decided that "ping" type is 18 and "pong" type is 20.
//! pub const PING_MESSAGE: u16 = 18;
//! pub const PONG_MESSAGE: u16 = 20;
//!
//! // A custom error type for when deserialization fails. This is
//! // required because `NetlinkDeserializable::Error` must implement
//! // `std::error::Error`, so a simple `String` won't cut it.
//! #[derive(Debug, Clone, Eq, PartialEq)]
//! pub struct DeserializeError(&'static str);
//!
//! impl Error for DeserializeError {
//! fn description(&self) -> &str {
//! self.0
//! }
//! fn source(&self) -> Option<&(dyn Error + 'static)> {
//! None
//! }
//! }
//!
//! impl fmt::Display for DeserializeError {
//! fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
//! write!(f, "{}", self.0)
//! }
//! }
//!
//! // NetlinkDeserializable implementation
//! impl NetlinkDeserializable for PingPongMessage {
//! type Error = DeserializeError;
//!
//! fn deserialize(header: &NetlinkHeader, payload: &[u8]) -> Result<Self, Self::Error> {
//! match header.message_type {
//! PING_MESSAGE => Ok(PingPongMessage::Ping(payload.to_vec())),
//! PONG_MESSAGE => Ok(PingPongMessage::Pong(payload.to_vec())),
//! _ => Err(DeserializeError(
//! "invalid ping-pong message: invalid message type",
//! )),
//! }
//! }
//! }
//!
//! // NetlinkSerializable implementation
//! impl NetlinkSerializable for PingPongMessage {
//! fn message_type(&self) -> u16 {
//! match self {
//! PingPongMessage::Ping(_) => PING_MESSAGE,
//! PingPongMessage::Pong(_) => PONG_MESSAGE,
//! }
//! }
//!
//! fn buffer_len(&self) -> usize {
//! match self {
//! PingPongMessage::Ping(vec) | PingPongMessage::Pong(vec) => vec.len(),
//! }
//! }
//!
//! fn serialize(&self, buffer: &mut [u8]) {
//! match self {
//! PingPongMessage::Ping(vec) | PingPongMessage::Pong(vec) => {
//! buffer.copy_from_slice(&vec[..])
//! }
//! }
//! }
//! }
//!
//! // It can be convenient to be able to create a NetlinkMessage directly
//! // from a PingPongMessage. Since NetlinkMessage<T> already implements
//! // From<NetlinkPayload<T>>, we just need to implement
//! // From<NetlinkPayload<PingPongMessage>> for this to work.
//! impl From<PingPongMessage> for NetlinkPayload<PingPongMessage> {
//! fn from(message: PingPongMessage) -> Self {
//! NetlinkPayload::InnerMessage(message)
//! }
//! }
//!
//! fn main() {
//! let ping_pong_message = PingPongMessage::Ping(vec![0, 1, 2, 3]);
//! let mut packet = NetlinkMessage::from(ping_pong_message);
//!
//! // Before serializing the packet, it is very important to call
//! // finalize() to ensure the header of the message is consistent
//! // with its payload. Otherwise, a panic may occur when calling
//! // `serialize()`
//! packet.finalize();
//!
//! // Prepare a buffer to serialize the packet. Note that we never
//! // set explicitely `packet.header.length` above. This was done
//! // automatically when we called `finalize()`
//! let mut buf = vec![0; packet.header.length as usize];
//! // Serialize the packet
//! packet.serialize(&mut buf[..]);
//!
//! // Deserialize the packet
//! let deserialized_packet = NetlinkMessage::<PingPongMessage>::deserialize(&buf)
//! .expect("Failed to deserialize message");
//!
//! // Normally, the deserialized packet should be exactly the same
//! // than the serialized one.
//! assert_eq!(deserialized_packet, packet);
//!
//! // This should print:
//! // NetlinkMessage { header: NetlinkHeader { length: 20, message_type: 18, flags: 0, sequence_number: 0, port_number: 0 }, payload: InnerMessage(Ping([0, 1, 2, 3])) }
//! println!("{:?}", packet);
//! }
//! ```
use core::ops::{Range, RangeFrom};
/// Represent a multi-bytes field with a fixed size in a packet
pub(crate) type Field = Range<usize>;
/// Represent a field that starts at a given index in a packet
pub(crate) type Rest = RangeFrom<usize>;
pub mod done;
pub use self::done::*;
pub mod error;
pub use self::error::*;
pub mod buffer;
pub use self::buffer::*;
pub mod header;
pub use self::header::*;
mod traits;
pub use self::traits::*;
mod payload;
pub use self::payload::*;
mod message;
pub use self::message::*;
pub mod constants;
pub use self::constants::*;
pub(crate) use self::utils::traits::*;
pub(crate) use netlink_packet_utils as utils;