First cloud test

This commit is contained in:
Dennis Schwerdel 2019-02-26 01:21:15 +01:00
parent 452a022bc3
commit c750947ab0
6 changed files with 181 additions and 68 deletions

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@ -201,7 +201,7 @@ pub struct ReconnectEntry {
} }
pub struct GenericCloud<P: Protocol, T: Table, S: Socket, TS: TimeSource> { pub struct GenericCloud<D: Device, P: Protocol, T: Table, S: Socket, TS: TimeSource> {
config: Config, config: Config,
magic: HeaderMagic, magic: HeaderMagic,
node_id: NodeId, node_id: NodeId,
@ -214,7 +214,7 @@ pub struct GenericCloud<P: Protocol, T: Table, S: Socket, TS: TimeSource> {
table: T, table: T,
socket4: S, socket4: S,
socket6: S, socket6: S,
device: Device, device: D,
crypto: Crypto, crypto: Crypto,
next_peerlist: Time, next_peerlist: Time,
update_freq: Duration, update_freq: Duration,
@ -229,8 +229,8 @@ pub struct GenericCloud<P: Protocol, T: Table, S: Socket, TS: TimeSource> {
_dummy_ts: PhantomData<TS> _dummy_ts: PhantomData<TS>
} }
impl<P: Protocol, T: Table, S: Socket, TS: TimeSource> GenericCloud<P, T, S, TS> { impl<D: Device, P: Protocol, T: Table, S: Socket, TS: TimeSource> GenericCloud<D, P, T, S, TS> {
pub fn new(config: &Config, device: Device, table: T, pub fn new(config: &Config, device: D, table: T,
learning: bool, broadcast: bool, addresses: Vec<Range>, learning: bool, broadcast: bool, addresses: Vec<Range>,
crypto: Crypto, port_forwarding: Option<PortForwarding> crypto: Crypto, port_forwarding: Option<PortForwarding>
) -> Self { ) -> Self {
@ -712,6 +712,10 @@ impl<P: Protocol, T: Table, S: Socket, TS: TimeSource> GenericCloud<P, T, S, TS>
} }
} }
fn decode_message<'a>(&self, msg: &'a mut [u8]) -> Result<Message<'a>, Error> {
decode(msg, self.magic, &self.crypto)
}
fn handle_socket_data(&mut self, src: SocketAddr, data: &mut [u8]) { fn handle_socket_data(&mut self, src: SocketAddr, data: &mut [u8]) {
let size = data.len(); let size = data.len();
if let Err(e) = decode(data, self.magic, &mut self.crypto).and_then(|msg| { if let Err(e) = decode(data, self.magic, &mut self.crypto).and_then(|msg| {
@ -782,3 +786,44 @@ impl<P: Protocol, T: Table, S: Socket, TS: TimeSource> GenericCloud<P, T, S, TS>
self.broadcast_msg(&mut Message::Close).ok(); self.broadcast_msg(&mut Message::Close).ok();
} }
} }
#[cfg(test)] use super::ethernet::{self, SwitchTable};
#[cfg(test)] use super::util::MockTimeSource;
#[cfg(test)] use super::net::MockSocket;
#[cfg(test)] use super::device::MockDevice;
#[cfg(test)]
impl<P: Protocol, T: Table, TS: TimeSource> GenericCloud<MockDevice, P, T, MockSocket, TS> {
fn is_empty(&self) -> bool {
self.device.is_empty() && self.socket4.is_empty() && self.socket6.is_empty()
}
}
#[cfg(test)]
type TestNode = GenericCloud<MockDevice, ethernet::Frame, SwitchTable<MockTimeSource>, MockSocket, MockTimeSource>;
#[cfg(test)]
fn create_node() -> TestNode {
TestNode::new(
&Config::default(),
MockDevice::new(),
SwitchTable::new(1800, 10),
true, true, vec![], Crypto::None, None
)
}
#[test]
fn connect() {
let mut node = create_node();
assert!(node.is_empty());
node.connect("1.2.3.4:5678").unwrap();
assert!(node.device.is_empty());
assert!(node.socket6.is_empty());
let (addr, mut message) = node.socket4.pop_outbound().unwrap();
assert_eq!("1.2.3.4:5678".to_socket_addrs().unwrap().next().unwrap(), addr);
let message = node.decode_message(&mut message).unwrap();
assert_eq!(Message::Init(0, node.node_id, vec![]), message);
}

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@ -3,9 +3,10 @@
// This software is licensed under GPL-3 or newer (see LICENSE.md) // This software is licensed under GPL-3 or newer (see LICENSE.md)
use std::os::unix::io::{AsRawFd, RawFd}; use std::os::unix::io::{AsRawFd, RawFd};
use std::io::{self, Error as IoError, Read, Write}; use std::io::{self, Error as IoError, ErrorKind, Read, Write};
use std::fs; use std::fs;
use std::fmt; use std::fmt;
use std::collections::VecDeque;
use super::types::Error; use super::types::Error;
@ -40,15 +41,48 @@ impl fmt::Display for Type {
} }
pub trait Device: AsRawFd {
/// Returns the type of this device
fn get_type(&self) -> Type;
/// Returns the interface name of this device.
fn ifname(&self) -> &str;
/// Reads a packet/frame from the device
///
/// This method reads one packet or frame (depending on the device type) into the `buffer`.
/// The `buffer` must be large enough to hold a packet/frame of maximum size, otherwise the
/// packet/frame will be split.
/// The method will block until a packet/frame is ready to be read.
/// On success, the method will return the starting position and the amount of bytes read into
/// the buffer.
///
/// # Errors
/// This method will return an error if the underlying read call fails.
fn read(&mut self, buffer: &mut [u8]) -> Result<(usize, usize), Error>;
/// Writes a packet/frame to the device
///
/// This method writes one packet or frame (depending on the device type) from `data` to the
/// device. The data starts at the position `start` in the buffer. The buffer should have at
/// least 4 bytes of space before the start of the packet.
/// The method will block until the packet/frame has been written.
///
/// # Errors
/// This method will return an error if the underlying read call fails.
fn write(&mut self, data: &mut [u8], start: usize) -> Result<(), Error>;
}
/// Represents a tun/tap device /// Represents a tun/tap device
pub struct Device { pub struct TunTapDevice {
fd: fs::File, fd: fs::File,
ifname: String, ifname: String,
type_: Type, type_: Type,
} }
impl Device { impl TunTapDevice {
/// Creates a new tun/tap device /// Creates a new tun/tap device
/// ///
/// This method creates a new device of the `type_` kind with the name `ifname`. /// This method creates a new device of the `type_` kind with the name `ifname`.
@ -91,7 +125,7 @@ impl Device {
while ifname_c.last() == Some(&0) { while ifname_c.last() == Some(&0) {
ifname_c.pop(); ifname_c.pop();
} }
Ok(Device{fd, ifname: String::from_utf8(ifname_c).unwrap(), type_}) Ok(Self{fd, ifname: String::from_utf8(ifname_c).unwrap(), type_})
}, },
_ => Err(IoError::last_os_error()) _ => Err(IoError::last_os_error())
} }
@ -106,19 +140,6 @@ impl Device {
} }
} }
/// Returns the interface name of this device.
#[inline]
pub fn ifname(&self) -> &str {
&self.ifname
}
/// Returns the type of this device
#[allow(dead_code)]
#[inline]
pub fn get_type(&self) -> Type {
self.type_
}
/// Creates a dummy device based on an existing file /// Creates a dummy device based on an existing file
/// ///
/// This method opens a regular or special file and reads from it to receive packets and /// This method opens a regular or special file and reads from it to receive packets and
@ -134,31 +155,13 @@ impl Device {
/// This method will return an error if the file can not be opened for reading and writing. /// This method will return an error if the file can not be opened for reading and writing.
#[allow(dead_code)] #[allow(dead_code)]
pub fn dummy(ifname: &str, path: &str, type_: Type) -> io::Result<Self> { pub fn dummy(ifname: &str, path: &str, type_: Type) -> io::Result<Self> {
Ok(Device{ Ok(TunTapDevice{
fd: try!(fs::OpenOptions::new().create(true).read(true).write(true).open(path)), fd: try!(fs::OpenOptions::new().create(true).read(true).write(true).open(path)),
ifname: ifname.to_string(), ifname: ifname.to_string(),
type_ type_
}) })
} }
/// Reads a packet/frame from the device
///
/// This method reads one packet or frame (depending on the device type) into the `buffer`.
/// The `buffer` must be large enough to hold a packet/frame of maximum size, otherwise the
/// packet/frame will be split.
/// The method will block until a packet/frame is ready to be read.
/// On success, the method will return the starting position and the amount of bytes read into
/// the buffer.
///
/// # Errors
/// This method will return an error if the underlying read call fails.
#[inline]
pub fn read(&mut self, mut buffer: &mut [u8]) -> Result<(usize, usize), Error> {
let read = try!(self.fd.read(&mut buffer).map_err(|e| Error::TunTapDev("Read error", e)));
let (start, read) = self.correct_data_after_read(&mut buffer, 0, read);
Ok((start, read))
}
#[cfg(any(target_os = "linux", target_os = "android"))] #[cfg(any(target_os = "linux", target_os = "android"))]
#[inline] #[inline]
fn correct_data_after_read(&mut self, _buffer: &mut [u8], start: usize, read: usize) -> (usize, usize) { fn correct_data_after_read(&mut self, _buffer: &mut [u8], start: usize, read: usize) -> (usize, usize) {
@ -179,24 +182,6 @@ impl Device {
} }
} }
/// Writes a packet/frame to the device
///
/// This method writes one packet or frame (depending on the device type) from `data` to the
/// device. The data starts at the position `start` in the buffer. The buffer should have at
/// least 4 bytes of space before the start of the packet.
/// The method will block until the packet/frame has been written.
///
/// # Errors
/// This method will return an error if the underlying read call fails.
#[inline]
pub fn write(&mut self, mut data: &mut [u8], start: usize) -> Result<(), Error> {
let start = self.correct_data_before_write(&mut data, start);
match self.fd.write_all(&data[start..]) {
Ok(_) => self.fd.flush().map_err(|e| Error::TunTapDev("Flush error", e)),
Err(e) => Err(Error::TunTapDev("Write error", e))
}
}
#[cfg(any(target_os = "linux", target_os = "android"))] #[cfg(any(target_os = "linux", target_os = "android"))]
#[inline] #[inline]
fn correct_data_before_write(&mut self, _buffer: &mut [u8], start: usize) -> usize { fn correct_data_before_write(&mut self, _buffer: &mut [u8], start: usize) -> usize {
@ -223,9 +208,89 @@ impl Device {
} }
} }
impl AsRawFd for Device { impl Device for TunTapDevice {
fn get_type(&self) -> Type {
self.type_
}
fn ifname(&self) -> &str {
&self.ifname
}
fn read(&mut self, mut buffer: &mut [u8]) -> Result<(usize, usize), Error> {
let read = try!(self.fd.read(&mut buffer).map_err(|e| Error::TunTapDev("Read error", e)));
let (start, read) = self.correct_data_after_read(&mut buffer, 0, read);
Ok((start, read))
}
fn write(&mut self, mut data: &mut [u8], start: usize) -> Result<(), Error> {
let start = self.correct_data_before_write(&mut data, start);
match self.fd.write_all(&data[start..]) {
Ok(_) => self.fd.flush().map_err(|e| Error::TunTapDev("Flush error", e)),
Err(e) => Err(Error::TunTapDev("Write error", e))
}
}
}
impl AsRawFd for TunTapDevice {
#[inline] #[inline]
fn as_raw_fd(&self) -> RawFd { fn as_raw_fd(&self) -> RawFd {
self.fd.as_raw_fd() self.fd.as_raw_fd()
} }
} }
pub struct MockDevice {
inbound: VecDeque<Vec<u8>>,
outbound: VecDeque<Vec<u8>>
}
impl MockDevice {
pub fn new() -> Self {
Self { outbound: VecDeque::new(), inbound: VecDeque::new() }
}
pub fn put_inbound(&mut self, data: Vec<u8>) {
self.inbound.push_back(data)
}
pub fn pop_outbound(&mut self) -> Option<Vec<u8>> {
self.outbound.pop_front()
}
pub fn is_empty(&self) -> bool {
self.inbound.is_empty() && self.outbound.is_empty()
}
}
impl Device for MockDevice {
fn get_type(&self) -> Type {
Type::Dummy
}
fn ifname(&self) -> &str {
unimplemented!()
}
fn read(&mut self, buffer: &mut [u8]) -> Result<(usize, usize), Error> {
if let Some(data) = self.inbound.pop_front() {
buffer[0..data.len()].copy_from_slice(&data);
Ok((0, data.len()))
} else {
Err(Error::TunTapDev("empty", io::Error::from(ErrorKind::UnexpectedEof)))
}
}
fn write(&mut self, data: &mut [u8], start: usize) -> Result<(), Error> {
self.outbound.push_back(data[start..].to_owned());
Ok(())
}
}
impl AsRawFd for MockDevice {
#[inline]
fn as_raw_fd(&self) -> RawFd {
unimplemented!()
}
}

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@ -50,7 +50,7 @@ use std::path::Path;
use std::io::{self, Write}; use std::io::{self, Write};
use std::net::UdpSocket; use std::net::UdpSocket;
use device::{Device, Type}; use device::{TunTapDevice, Device, Type};
use ethernet::SwitchTable; use ethernet::SwitchTable;
use ip::RoutingTable; use ip::RoutingTable;
use types::{Mode, Range, Protocol, HeaderMagic, Error}; use types::{Mode, Range, Protocol, HeaderMagic, Error};
@ -161,20 +161,20 @@ enum AnyTable {
} }
enum AnyCloud<P: Protocol> { enum AnyCloud<P: Protocol> {
Switch(GenericCloud<P, SwitchTable<SystemTimeSource>, UdpSocket, SystemTimeSource>), Switch(GenericCloud<TunTapDevice, P, SwitchTable<SystemTimeSource>, UdpSocket, SystemTimeSource>),
Routing(GenericCloud<P, RoutingTable, UdpSocket, SystemTimeSource>) Routing(GenericCloud<TunTapDevice, P, RoutingTable, UdpSocket, SystemTimeSource>)
} }
impl<P: Protocol> AnyCloud<P> { impl<P: Protocol> AnyCloud<P> {
#[allow(unknown_lints, clippy::too_many_arguments)] #[allow(unknown_lints, clippy::too_many_arguments)]
fn new(config: &Config, device: Device, table: AnyTable, fn new(config: &Config, device: TunTapDevice, table: AnyTable,
learning: bool, broadcast: bool, addresses: Vec<Range>, learning: bool, broadcast: bool, addresses: Vec<Range>,
crypto: Crypto, port_forwarding: Option<PortForwarding>) -> Self { crypto: Crypto, port_forwarding: Option<PortForwarding>) -> Self {
match table { match table {
AnyTable::Switch(t) => AnyCloud::Switch(GenericCloud::<P, SwitchTable<SystemTimeSource>, UdpSocket, SystemTimeSource>::new( AnyTable::Switch(t) => AnyCloud::Switch(GenericCloud::<TunTapDevice, P, SwitchTable<SystemTimeSource>, UdpSocket, SystemTimeSource>::new(
config, device,t, learning, broadcast, addresses, crypto, port_forwarding config, device,t, learning, broadcast, addresses, crypto, port_forwarding
)), )),
AnyTable::Routing(t) => AnyCloud::Routing(GenericCloud::<P, RoutingTable, UdpSocket, SystemTimeSource>::new( AnyTable::Routing(t) => AnyCloud::Routing(GenericCloud::<TunTapDevice, P, RoutingTable, UdpSocket, SystemTimeSource>::new(
config, device,t, learning, broadcast, addresses, crypto, port_forwarding config, device,t, learning, broadcast, addresses, crypto, port_forwarding
)) ))
} }
@ -211,7 +211,7 @@ impl<P: Protocol> AnyCloud<P> {
fn run<P: Protocol> (config: Config) { fn run<P: Protocol> (config: Config) {
let device = try_fail!(Device::new(&config.device_name, config.device_type, config.device_path.as_ref().map(|s| s as &str)), let device = try_fail!(TunTapDevice::new(&config.device_name, config.device_type, config.device_path.as_ref().map(|s| s as &str)),
"Failed to open virtual {} interface {}: {}", config.device_type, config.device_name); "Failed to open virtual {} interface {}: {}", config.device_type, config.device_name);
info!("Opened device {}", device.ifname()); info!("Opened device {}", device.ifname());
let mut ranges = Vec::with_capacity(config.subnets.len()); let mut ranges = Vec::with_capacity(config.subnets.len());

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@ -54,6 +54,10 @@ impl MockSocket {
pub fn pop_outbound(&mut self) -> Option<(SocketAddr, Vec<u8>)> { pub fn pop_outbound(&mut self) -> Option<(SocketAddr, Vec<u8>)> {
self.outbound.pop_front() self.outbound.pop_front()
} }
pub fn is_empty(&self) -> bool {
self.inbound.is_empty() && self.outbound.is_empty()
}
} }
impl AsRawFd for MockSocket { impl AsRawFd for MockSocket {

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@ -7,7 +7,6 @@ use libc;
use std::os::unix::io::RawFd; use std::os::unix::io::RawFd;
use std::io; use std::io;
use device::Device; use device::Device;
use std::os::unix::io::AsRawFd;
use super::WaitResult; use super::WaitResult;
use ::device::Type; use ::device::Type;

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@ -78,7 +78,7 @@ impl<'a> fmt::Debug for Message<'a> {
} }
#[allow(unknown_lints,clippy::needless_range_loop)] #[allow(unknown_lints,clippy::needless_range_loop)]
pub fn decode<'a>(data: &'a mut [u8], magic: HeaderMagic, crypto: &mut Crypto) -> Result<Message<'a>, Error> { pub fn decode<'a>(data: &'a mut [u8], magic: HeaderMagic, crypto: &Crypto) -> Result<Message<'a>, Error> {
let mut end = data.len(); let mut end = data.len();
let (header, mut pos) = try!(TopHeader::read_from(&data[..end])); let (header, mut pos) = try!(TopHeader::read_from(&data[..end]));
if header.magic != magic { if header.magic != magic {