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use super::{DeserializationError, Expression, Register, Rule, ToSlice};
use rustables_sys as sys;
use std::ffi::c_void;
use std::os::raw::c_char;
/// An immediate expression. Used to set immediate data.
/// Verdicts are handled separately by [crate::expr::Verdict].
#[derive(Debug, Clone, Eq, PartialEq, Hash)]
pub struct Immediate<T> {
pub data: T,
pub register: Register,
}
impl<T> Immediate<T> {
pub fn new(data: T, register: Register) -> Self {
Self { data, register }
}
}
impl<T: ToSlice> Expression for Immediate<T> {
fn get_raw_name() -> *const c_char {
b"immediate\0" as *const _ as *const c_char
}
fn to_expr(&self, _rule: &Rule) -> *mut sys::nftnl_expr {
unsafe {
let expr = try_alloc!(sys::nftnl_expr_alloc(Self::get_raw_name()));
sys::nftnl_expr_set_u32(
expr,
sys::NFTNL_EXPR_IMM_DREG as u16,
self.register.to_raw(),
);
let data = self.data.to_slice();
sys::nftnl_expr_set(
expr,
sys::NFTNL_EXPR_IMM_DATA as u16,
data.as_ptr() as *const c_void,
data.len() as u32,
);
expr
}
}
}
impl<const N: usize> Expression for Immediate<[u8; N]> {
fn get_raw_name() -> *const c_char {
Immediate::<u8>::get_raw_name()
}
// As casting bytes to any type of the same size as the input would
// be *extremely* dangerous in terms of memory safety,
// rustables only accept to deserialize expressions with variable-size data
// to arrays of bytes, so that the memory layout cannot be invalid.
fn from_expr(expr: *const sys::nftnl_expr) -> Result<Self, DeserializationError> {
unsafe {
let ref_len = std::mem::size_of::<[u8; N]>() as u32;
let mut data_len = 0;
let data = sys::nftnl_expr_get(
expr,
sys::NFTNL_EXPR_IMM_DATA as u16,
&mut data_len as *mut u32,
);
if data.is_null() {
return Err(DeserializationError::NullPointer);
} else if data_len != ref_len {
return Err(DeserializationError::InvalidDataSize);
}
let data = *(data as *const [u8; N]);
let register = Register::from_raw(sys::nftnl_expr_get_u32(
expr,
sys::NFTNL_EXPR_IMM_DREG as u16,
))?;
Ok(Immediate { data, register })
}
}
// call to the other implementation to generate the expression
fn to_expr(&self, rule: &Rule) -> *mut sys::nftnl_expr {
Immediate {
register: self.register,
data: &self.data as &[u8],
}
.to_expr(rule)
}
}
#[macro_export]
macro_rules! nft_expr_immediate {
(data $value:expr) => {
$crate::expr::Immediate {
data: $value,
register: $crate::expr::Register::Reg1,
}
};
}
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