@ -13,7 +13,7 @@ pub use aya_bpf_bindings::helpers as gen;
#[ doc(hidden) ] #[ doc(hidden) ]
pub use gen ::* ; pub use gen ::* ;
use crate ::cty ::{ c_long , c_void ; use crate ::cty ::{ c_long , c_void , c_char };
/// Read bytes stored at `src` and store them as a `T`.
/// Read bytes stored at `src` and store them as a `T`.
///
///
@ -701,3 +701,146 @@ pub fn bpf_get_current_pid_tgid() -> u64 {
pub fn bpf_get_current_uid_gid ( ) -> u64 { pub fn bpf_get_current_uid_gid ( ) -> u64 {
unsafe { gen ::bpf_get_current_uid_gid ( ) } unsafe { gen ::bpf_get_current_uid_gid ( ) }
} }
/// Prints a debug message to the BPF debugging pipe.
///
/// The [format string syntax][fmt] is the same as that of the `printk` kernel
/// function. It is passed in as a fixed-size byte array (`&[u8; N]`), so you
/// will have to prefix your string literal with a `b`. A terminating zero byte
/// is appended automatically.
///
/// The macro can read from arbitrary pointers, so it must be used in an `unsafe`
/// scope in order to compile.
///
/// Invocations with less than 4 arguments call the `bpf_trace_printk` helper,
/// otherwise the `bpf_trace_vprintk` function is called. The latter function
/// requires a kernel version >= 5.16 whereas the former has been around since
/// the dawn of eBPF. The return value of the BPF helper is also returned from
/// this macro.
///
/// Messages can be read by executing the following command in a second terminal:
///
/// ```bash
/// sudo cat /sys/kernel/debug/tracing/trace_pipe
/// ```
///
/// If no messages are printed when calling [`bpf_printk!`] after executing the
/// above command, it is possible that tracing must first be enabled by running:
///
/// ```bash
/// echo 1 | sudo tee /sys/kernel/debug/tracing/tracing_on
/// ```
///
/// # Example
///
/// ```no_run
/// # use aya_bpf::helpers::bpf_printk;
/// bpf_printk!(b"hi there! dec: %d, hex: 0x%08X", 42, 0x1234);
/// ```
///
/// [fmt]: https://www.kernel.org/doc/html/latest/core-api/printk-formats.html#printk-specifiers
#[ macro_export ]
macro_rules! bpf_printk {
( $fmt :literal $(, ) ? $( $arg :expr ) , * $(, ) ? ) = > { {
use $crate ::helpers ::PrintkArg ;
// Arguments must be placed on the stack to pass the verifier.
let fmt = unsafe {
// `concat_bytes!` is still unstable, so we have to emulate it manually.
let mut fmt = ::core ::mem ::MaybeUninit ::< [ u8 ; $fmt . len ( ) + 1 ] > ::uninit ( ) ;
::core ::ptr ::copy_nonoverlapping ( $fmt . as_ptr ( ) , fmt . as_mut_ptr ( ) as _ , 1 ) ;
( * fmt . as_mut_ptr ( ) ) . as_mut_ptr ( ) . add ( $fmt . len ( ) ) . write ( 0 ) ;
fmt . assume_init ( )
} ;
let data = [ $( PrintkArg ::from ( $arg ) ) , * ] ;
$crate ::helpers ::bpf_printk_impl ( & fmt , & data )
} } ;
}
// Macros are always exported from the crate root. Also export it from `helpers`.
#[ doc(inline) ]
pub use bpf_printk as bpf_printk ;
/// Argument ready to be passed to `printk` BPF helper.
#[ repr(transparent) ]
#[ derive(Copy, Clone) ]
pub struct PrintkArg ( u64 ) ;
impl PrintkArg {
/// Manually construct a `printk` BPF helper argument.
#[ inline ]
pub fn from_raw ( x : u64 ) -> Self {
Self ( x )
}
}
macro_rules! impl_integer_promotion {
( $( $ty :ty : via $via :ty ) , * $(, ) ? ) = > { $(
/// Create `printk` arguments from integer types.
impl From < $ty > for PrintkArg {
#[ inline ]
fn from ( x : $ty ) -> PrintkArg {
PrintkArg ( x as $via as u64 )
}
}
) * }
}
impl_integer_promotion ! (
char : via u64 ,
u8 : via u64 ,
u16 : via u64 ,
u32 : via u64 ,
u64 : via u64 ,
usize : via u64 ,
i8 : via i64 ,
i16 : via i64 ,
i32 : via i64 ,
i64 : via i64 ,
isize : via i64 ,
) ;
/// Construct `printk` BPF helper arguments from constant pointers.
impl < T > From < * const T > for PrintkArg {
#[ inline ]
fn from ( x : * const T ) -> Self {
PrintkArg ( x as usize as u64 )
}
}
/// Construct `printk` BPF helper arguments from mutable pointers.
impl < T > From < * mut T > for PrintkArg {
#[ inline ]
fn from ( x : * mut T ) -> Self {
PrintkArg ( x as usize as u64 )
}
}
/// Internal helper function for the [`bpf_printk!`] macro.
///
/// The BPF helpers require the length for both the format string as well as
/// the argument array to be of constant size to pass the verifier. Const
/// generics are used to represent this requirement in Rust.
#[ inline ]
#[ doc(hidden) ]
pub unsafe fn bpf_printk_impl < const FMT_LEN : usize , const NUM_ARGS : usize > (
fmt : & [ u8 ; FMT_LEN ] ,
args : & [ PrintkArg ; NUM_ARGS ] ,
) -> i64 {
// This function can't be wrapped in `helpers.rs` because it has variadic
// arguments. We also can't turn the definitions in `helpers.rs` into
// `const`s because MIRI believes casting arbitrary integers to function
// pointers to be an error.
let printk : unsafe extern "C" fn ( fmt : * const c_char , fmt_size : u32 , .. . ) -> c_long =
mem ::transmute ( 6 usize ) ;
let fmt_ptr = fmt . as_ptr ( ) as * const c_char ;
let fmt_size = fmt . len ( ) as u32 ;
match NUM_ARGS {
0 = > printk ( fmt_ptr , fmt_size ) ,
1 = > printk ( fmt_ptr , fmt_size , args [ 0 ] ) ,
2 = > printk ( fmt_ptr , fmt_size , args [ 0 ] , args [ 1 ] ) ,
3 = > printk ( fmt_ptr , fmt_size , args [ 0 ] , args [ 1 ] , args [ 2 ] ) ,
_ = > gen ::bpf_trace_vprintk ( fmt_ptr , fmt_size , args . as_ptr ( ) as _ , ( NUM_ARGS * 8 ) as _ ) ,
}
}
Joel Höner
2 years ago