Struct DeviceImpl 

pub struct DeviceImpl { /* private fields */ }

A TUN device using the TUN/TAP Linux driver.

Implementations

impl DeviceImpl

pub fn if_index(&self) -> Result<u32>

Available on Unix and (Linux and non-target_env=ohos, or macOS, or FreeBSD, or OpenBSD, or NetBSD) only.

Retrieves the interface index for the network interface.

This function converts the interface name (obtained via self.name()) into a C-compatible string (CString) and then calls the libc function if_nametoindex to retrieve the corresponding interface index.

pub fn addresses(&self) -> Result<Vec<IpAddr>>

Available on Unix and (Linux and non-target_env=ohos, or macOS, or FreeBSD, or OpenBSD, or NetBSD) only.

Retrieves all IP addresses associated with the network interface.

This function calls getifaddrs with the interface name, then iterates over the returned list of interface addresses, extracting and collecting the IP addresses into a vector.

impl DeviceImpl

pub fn udp_gso(&self) -> bool

Available on Linux and non-target_env=ohos only.

Returns whether UDP Generic Segmentation Offload (GSO) is enabled.

This is determined by the udp_gso flag in the device.

pub fn tcp_gso(&self) -> bool

Available on Linux and non-target_env=ohos only.

Returns whether TCP Generic Segmentation Offload (GSO) is enabled.

In this implementation, this is represented by the vnet_hdr flag.

pub fn set_tx_queue_len(&self, tx_queue_len: u32) -> Result<()>

Available on Linux and non-target_env=ohos only.

Sets the transmit queue length for the network interface.

This method constructs an interface request (ifreq) structure, assigns the desired transmit queue length to the ifru_metric field, and calls the change_tx_queue_len function using the control file descriptor. If the underlying operation fails, an I/O error is returned.

pub fn tx_queue_len(&self) -> Result<u32>

Available on Linux and non-target_env=ohos only.

Retrieves the current transmit queue length for the network interface.

This function constructs an interface request structure and calls tx_queue_len to populate it with the current transmit queue length. The value is then returned.

pub fn persist(&self) -> Result<()>

Available on Linux and non-target_env=ohos only.

Make the device persistent.

By default, TUN/TAP devices are destroyed when the process exits. Calling this method makes the device persist after the program terminates, allowing it to be reused by other processes.

Example

use tun_rs::DeviceBuilder;

let dev = DeviceBuilder::new()
    .name("persistent-tun")
    .ipv4("10.0.0.1", 24, None)
    .build_sync()?;

// Make the device persistent so it survives after program exit
dev.persist()?;
println!("Device will persist after program exits");

pub fn user(&self, value: i32) -> Result<()>

Available on Linux and non-target_env=ohos only.

Set the owner (UID) of the device.

This allows non-root users to access the TUN/TAP device.

Example

use tun_rs::DeviceBuilder;

let dev = DeviceBuilder::new()
    .ipv4("10.0.0.1", 24, None)
    .build_sync()?;

// Set ownership to UID 1000 (typical first user on Linux)
dev.user(1000)?;
println!("Device ownership set to UID 1000");

pub fn group(&self, value: i32) -> Result<()>

Available on Linux and non-target_env=ohos only.

Set the group (GID) of the device.

This allows members of a specific group to access the TUN/TAP device.

Example

use tun_rs::DeviceBuilder;

let dev = DeviceBuilder::new()
    .ipv4("10.0.0.1", 24, None)
    .build_sync()?;

// Set group ownership to GID 1000
dev.group(1000)?;
println!("Device group ownership set to GID 1000");

pub fn send_multiple<B: ExpandBuffer>( &self, gro_table: &mut GROTable, bufs: &mut [B], offset: usize, ) -> Result<usize>

Available on Linux and non-target_env=ohos only.

send multiple fragmented data packets. GROTable can be reused, as it is used to assist in data merging. Offset is the starting position of the data. Need to meet offset>=10.

pub fn recv_multiple<B: AsRef<[u8]> + AsMut<[u8]>>( &self, original_buffer: &mut [u8], bufs: &mut [B], sizes: &mut [usize], offset: usize, ) -> Result<usize>

Available on Linux and non-target_env=ohos only.

Recv a packet from tun device. If offload is enabled. This method can be used to obtain processed data.

original_buffer is used to store raw data, including the VirtioNetHdr and the unsplit IP packet. The recommended size is 10 + 65535. bufs and sizes are used to store the segmented IP packets. bufs.len == sizes.len > 65535/MTU offset: Starting position

pub fn remove_address_v6_impl(&self, addr: Ipv6Addr, prefix: u8) -> Result<()>

Available on Linux and non-target_env=ohos only.

impl DeviceImpl

pub fn name(&self) -> Result<String>

Available on Linux and non-target_env=ohos only.

Retrieves the name of the network interface.

pub fn remove_address_v6(&self, addr: Ipv6Addr, prefix: u8) -> Result<()>

Available on Linux and non-target_env=ohos only.

pub fn set_name(&self, value: &str) -> Result<()>

Available on Linux and non-target_env=ohos only.

Sets a new name for the network interface.

This function converts the provided name into a C-compatible string, checks that its length does not exceed the maximum allowed (IFNAMSIZ), and then copies it into an interface request structure. It then uses a system call (via siocsifname) to apply the new name.

Example

use tun_rs::DeviceBuilder;

let dev = DeviceBuilder::new()
    .name("tun0")
    .ipv4("10.0.0.1", 24, None)
    .build_sync()?;

// Rename the device
dev.set_name("vpn-tun")?;
println!("Device renamed to vpn-tun");

pub fn is_running(&self) -> Result<bool>

Available on Linux and non-target_env=ohos only.

Checks whether the network interface is currently running.

The interface is considered running if both the IFF_UP and IFF_RUNNING flags are set.

pub fn enabled(&self, value: bool) -> Result<()>

Available on Linux and non-target_env=ohos only.

Enables or disables the network interface.

If value is true, the interface is enabled by setting the IFF_UP and IFF_RUNNING flags. If false, the IFF_UP flag is cleared. The change is applied using a system call.

pub fn broadcast(&self) -> Result<IpAddr>

Available on Linux and non-target_env=ohos only.

Retrieves the broadcast address of the network interface.

This function populates an interface request with the broadcast address via a system call, converts it into a sockaddr structure, and then extracts the IP address.

Example

use tun_rs::DeviceBuilder;

let dev = DeviceBuilder::new()
    .ipv4("10.0.0.1", 24, None)
    .build_sync()?;

// Get the broadcast address
let broadcast = dev.broadcast()?;
println!("Broadcast address: {}", broadcast);

pub fn set_broadcast(&self, value: IpAddr) -> Result<()>

Available on Linux and non-target_env=ohos only.

Sets the broadcast address of the network interface.

This function converts the given IP address into a sockaddr structure (with a specified overwrite size) and then applies it to the interface via a system call.

pub fn set_network_address<IPv4: ToIpv4Address, Netmask: ToIpv4Netmask>( &self, address: IPv4, netmask: Netmask, destination: Option<IPv4>, ) -> Result<()>

Available on Linux and non-target_env=ohos only.

Sets the IPv4 network address, netmask, and an optional destination address. Remove all previous set IPv4 addresses and set the specified address.

Example

use tun_rs::DeviceBuilder;

let dev = DeviceBuilder::new()
    .ipv4("10.0.0.1", 24, None)
    .build_sync()?;

// Change the primary IPv4 address
dev.set_network_address("10.1.0.1", 24, None)?;
println!("Updated device address to 10.1.0.1/24");

pub fn add_address_v4<IPv4: ToIpv4Address, Netmask: ToIpv4Netmask>( &self, address: IPv4, netmask: Netmask, ) -> Result<()>

Available on Linux and non-target_env=ohos only.

Add IPv4 network address and netmask to the interface.

This allows multiple IPv4 addresses on a single TUN/TAP device.

Example

use tun_rs::DeviceBuilder;

let dev = DeviceBuilder::new()
    .ipv4("10.0.0.1", 24, None)
    .build_sync()?;

// Add additional IPv4 addresses
dev.add_address_v4("10.0.1.1", 24)?;
dev.add_address_v4("10.0.2.1", 24)?;
println!("Added multiple IPv4 addresses");

pub fn remove_address(&self, addr: IpAddr) -> Result<()>

Available on Linux and non-target_env=ohos only.

Removes an IP address from the interface.

For IPv4 addresses, it iterates over the current addresses and if a match is found, resets the address to 0.0.0.0 (unspecified). For IPv6 addresses, it retrieves the interface addresses by name and removes the matching address, taking into account its prefix length.

Example

use std::net::IpAddr;
use tun_rs::DeviceBuilder;

let dev = DeviceBuilder::new()
    .ipv4("10.0.0.1", 24, None)
    .build_sync()?;

// Add an additional address
dev.add_address_v4("10.0.1.1", 24)?;

// Later, remove it
dev.remove_address("10.0.1.1".parse::<IpAddr>().unwrap())?;
println!("Removed address 10.0.1.1");

pub fn add_address_v6<IPv6: ToIpv6Address, Netmask: ToIpv6Netmask>( &self, addr: IPv6, netmask: Netmask, ) -> Result<()>

Available on Linux and non-target_env=ohos only.

Adds an IPv6 address to the interface.

This function creates an in6_ifreq structure, fills in the interface index, prefix length, and IPv6 address (converted into a sockaddr structure), and then applies it using a system call.

Example

use tun_rs::DeviceBuilder;

let dev = DeviceBuilder::new()
    .ipv4("10.0.0.1", 24, None)
    .build_sync()?;

// Add IPv6 addresses
dev.add_address_v6("fd00::1", 64)?;
dev.add_address_v6("fd00::2", 64)?;
println!("Added IPv6 addresses");

pub fn mtu(&self) -> Result<u16>

Available on Linux and non-target_env=ohos only.

Retrieves the current MTU (Maximum Transmission Unit) for the interface.

This function constructs an interface request and uses a system call (via siocgifmtu) to obtain the MTU. The result is then converted to a u16.

pub fn set_mtu(&self, value: u16) -> Result<()>

Available on Linux and non-target_env=ohos only.

Sets the MTU (Maximum Transmission Unit) for the interface.

This function creates an interface request, sets the ifru_mtu field to the new value, and then applies it via a system call.

Example

use tun_rs::DeviceBuilder;

let dev = DeviceBuilder::new()
    .ipv4("10.0.0.1", 24, None)
    .mtu(1400)
    .build_sync()?;

// Change MTU to accommodate larger packets
dev.set_mtu(9000)?; // Jumbo frames
println!("MTU set to 9000 bytes");

pub fn set_mac_address(&self, eth_addr: [u8; 6]) -> Result<()>

Available on Linux and non-target_env=ohos only.

Sets the MAC (hardware) address for the interface.

This function constructs an interface request and copies the provided MAC address into the hardware address field. It then applies the change via a system call. This operation is typically supported only for TAP devices.

pub fn mac_address(&self) -> Result<[u8; 6]>

Available on Linux and non-target_env=ohos only.

Retrieves the MAC (hardware) address of the interface.

This function queries the MAC address by the interface name using a helper function. An error is returned if the MAC address cannot be found.

Trait Implementations

impl AsFd for DeviceImpl

Available on Unix only.

fn as_fd(&self) -> BorrowedFd<'_>

Borrows the file descriptor.

impl AsRawFd for DeviceImpl

Available on Unix only.

fn as_raw_fd(&self) -> RawFd

Extracts the raw file descriptor.

impl FromRawFd for DeviceImpl

Available on Unix only.

unsafe fn from_raw_fd(fd: RawFd) -> Self

Safety

The caller must ensure that fd is a valid, open file descriptor for a TUN/TAP device.

Panics

This function will panic if the provided file descriptor is invalid or cannot be used to create a TUN/TAP device. This is acceptable because providing an invalid fd violates the safety contract of FromRawFd.

impl IntoRawFd for DeviceImpl

Available on Unix and neither FreeBSD nor NetBSD nor OpenBSD only.

fn into_raw_fd(self) -> RawFd

Consumes this object, returning the raw underlying file descriptor.