use std::{process::Command, thread, time}; use aya::{ include_bytes_aligned, maps::{Array, MapRefMut}, programs::{links::FdLink, TracePoint, Xdp, XdpFlags}, Bpf, }; use super::{integration_test, IntegrationTest}; #[integration_test] fn long_name() -> anyhow::Result<()> { let bytes = include_bytes_aligned!("../../../../target/bpfel-unknown-none/debug/name_test"); let mut bpf = Bpf::load(bytes)?; let name_prog: &mut Xdp = bpf.program_mut("ihaveaverylongname").unwrap().try_into()?; name_prog.load().unwrap(); name_prog.attach("lo", XdpFlags::default())?; // We used to be able to assert with bpftool that the program name was short. // It seem though that it now uses the name from the ELF symbol table instead. // Therefore, as long as we were able to load the program, this is good enough. Ok(()) } #[integration_test] fn multiple_maps() -> anyhow::Result<()> { let bytes = include_bytes_aligned!("../../../../target/bpfel-unknown-none/debug/multimap.bpf.o"); let mut bpf = Bpf::load(bytes)?; let pass: &mut Xdp = bpf.program_mut("stats").unwrap().try_into().unwrap(); pass.load().unwrap(); pass.attach("lo", XdpFlags::default()).unwrap(); Ok(()) } #[integration_test] fn multiple_btf_maps() -> anyhow::Result<()> { let bytes = include_bytes_aligned!("../../../../target/bpfel-unknown-none/debug/multimap-btf.bpf.o"); let mut bpf = Bpf::load(bytes)?; let map_1: Array = Array::try_from(bpf.map_mut("map_1")?)?; let map_2: Array = Array::try_from(bpf.map_mut("map_2")?)?; let prog: &mut TracePoint = bpf.program_mut("tracepoint").unwrap().try_into().unwrap(); prog.load().unwrap(); prog.attach("sched", "sched_switch").unwrap(); thread::sleep(time::Duration::from_secs(3)); let key = 0; let val_1 = map_1.get(&key, 0)?; let val_2 = map_2.get(&key, 0)?; assert_eq!(val_1, 24); assert_eq!(val_2, 42); Ok(()) } fn is_loaded() -> bool { let output = Command::new("bpftool").args(["prog"]).output().unwrap(); let stdout = String::from_utf8(output.stdout).unwrap(); stdout.contains("test_unload") } fn assert_loaded(loaded: bool) { let state = is_loaded(); if state == loaded { return; } panic!("Expected loaded: {} but was loaded: {}", loaded, state); } #[integration_test] fn unload() -> anyhow::Result<()> { let bytes = include_bytes_aligned!("../../../../target/bpfel-unknown-none/debug/test"); let mut bpf = Bpf::load(bytes)?; let prog: &mut Xdp = bpf.program_mut("test_unload").unwrap().try_into().unwrap(); prog.load().unwrap(); let link = prog.attach("lo", XdpFlags::default()).unwrap(); { let _link_owned = prog.take_link(link); prog.unload().unwrap(); assert_loaded(true); }; assert_loaded(false); prog.load().unwrap(); assert_loaded(true); prog.attach("lo", XdpFlags::default()).unwrap(); assert_loaded(true); prog.unload().unwrap(); assert_loaded(false); Ok(()) } #[integration_test] fn pin_link() -> anyhow::Result<()> { let bytes = include_bytes_aligned!("../../../../target/bpfel-unknown-none/debug/test"); let mut bpf = Bpf::load(bytes)?; let prog: &mut Xdp = bpf.program_mut("test_unload").unwrap().try_into().unwrap(); prog.load().unwrap(); let link_id = prog.attach("lo", XdpFlags::default()).unwrap(); let link = prog.take_link(link_id)?; assert_loaded(true); let fd_link: FdLink = link.try_into()?; let pinned = fd_link.pin("/sys/fs/bpf/aya-xdp-test-lo")?; // because of the pin, the program is still attached prog.unload()?; assert_loaded(true); // delete the pin, but the program is still attached let new_link = pinned.unpin()?; println!("third assert"); assert_loaded(true); // finally when new_link is dropped we're detached drop(new_link); println!("final assert"); assert_loaded(false); Ok(()) }