aya/test/integration-test/src/tests/load.rs

use std::{convert::TryInto as _, fs::remove_file, path::Path, thread, time::Duration};

use aya::{
    Ebpf,
    maps::Array,
    programs::{
        FlowDissector, KProbe, Program, ProgramError, TracePoint, UProbe, Xdp, XdpFlags,
        flow_dissector::{FlowDissectorLink, FlowDissectorLinkId},
        kprobe::{KProbeLink, KProbeLinkId},
        links::{FdLink, PinnedLink},
        loaded_links, loaded_programs,
        trace_point::{TracePointLink, TracePointLinkId},
        uprobe::{UProbeLink, UProbeLinkId},
        xdp::{XdpLink, XdpLinkId},
    },
    util::KernelVersion,
};
use aya_obj::programs::XdpAttachType;

const MAX_RETRIES: usize = 100;
pub(crate) const RETRY_DURATION: Duration = Duration::from_millis(10);

#[test_log::test]
fn long_name() {
    let mut bpf = Ebpf::load(crate::NAME_TEST).unwrap();
    let name_prog: &mut Xdp = bpf
        .program_mut("ihaveaverylongname")
        .unwrap()
        .try_into()
        .unwrap();
    name_prog.load().unwrap();
    name_prog.attach("lo", XdpFlags::default()).unwrap();

    // 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.
}

#[test_log::test]
fn memmove() {
    let mut bpf = Ebpf::load(crate::MEMMOVE_TEST).unwrap();
    let prog: &mut Xdp = bpf.program_mut("do_dnat").unwrap().try_into().unwrap();
    prog.load().unwrap();
}

#[test_log::test]
fn multiple_btf_maps() {
    let mut bpf = Ebpf::load(crate::MULTIMAP_BTF).unwrap();

    let map_1: Array<_, u64> = bpf.take_map("map_1").unwrap().try_into().unwrap();
    let map_2: Array<_, u64> = bpf.take_map("map_2").unwrap().try_into().unwrap();
    let map_pin_by_name: Array<_, u64> =
        bpf.take_map("map_pin_by_name").unwrap().try_into().unwrap();

    let prog: &mut UProbe = bpf.program_mut("bpf_prog").unwrap().try_into().unwrap();
    prog.load().unwrap();
    prog.attach("trigger_bpf_program", "/proc/self/exe", None, None)
        .unwrap();

    trigger_bpf_program();

    let key = 0;
    let val_1 = map_1.get(&key, 0).unwrap();
    let val_2 = map_2.get(&key, 0).unwrap();
    let val_3 = map_pin_by_name.get(&key, 0).unwrap();

    assert_eq!(val_1, 24);
    assert_eq!(val_2, 42);
    assert_eq!(val_3, 44);
    let map_pin = Path::new("/sys/fs/bpf/map_pin_by_name");
    assert!(&map_pin.exists());

    remove_file(map_pin).unwrap();
}

#[test_log::test]
fn pin_lifecycle_multiple_btf_maps() {
    let mut bpf = Ebpf::load(crate::MULTIMAP_BTF).unwrap();

    // "map_pin_by_name" should already be pinned, unpin and pin again later
    let map_pin_by_name_path = Path::new("/sys/fs/bpf/map_pin_by_name");

    assert!(map_pin_by_name_path.exists());
    remove_file(map_pin_by_name_path).unwrap();

    // pin and unpin all maps before casting to explicit types
    for (i, (name, map)) in bpf.maps_mut().enumerate() {
        // Don't pin system maps or the map that's already pinned by name.
        if name.contains(".rodata") || name.contains(".bss") {
            continue;
        }
        let map_pin_path = &Path::new("/sys/fs/bpf/").join(i.to_string());

        map.pin(map_pin_path).unwrap();

        assert!(map_pin_path.exists());
        remove_file(map_pin_path).unwrap();
    }

    let map_1: Array<_, u64> = bpf.take_map("map_1").unwrap().try_into().unwrap();
    let map_2: Array<_, u64> = bpf.take_map("map_2").unwrap().try_into().unwrap();
    let map_pin_by_name: Array<_, u64> =
        bpf.take_map("map_pin_by_name").unwrap().try_into().unwrap();

    let prog: &mut UProbe = bpf.program_mut("bpf_prog").unwrap().try_into().unwrap();
    prog.load().unwrap();
    prog.attach("trigger_bpf_program", "/proc/self/exe", None, None)
        .unwrap();

    trigger_bpf_program();

    let key = 0;
    let val_1 = map_1.get(&key, 0).unwrap();
    let val_2 = map_2.get(&key, 0).unwrap();
    let val_3 = map_pin_by_name.get(&key, 0).unwrap();

    assert_eq!(val_1, 24);
    assert_eq!(val_2, 42);
    assert_eq!(val_3, 44);

    let map_1_pin_path = Path::new("/sys/fs/bpf/map_1");
    let map_2_pin_path = Path::new("/sys/fs/bpf/map_2");

    map_1.pin(map_1_pin_path).unwrap();
    map_2.pin(map_2_pin_path).unwrap();
    map_pin_by_name.pin(map_pin_by_name_path).unwrap();
    assert!(map_1_pin_path.exists());
    assert!(map_2_pin_path.exists());
    assert!(map_pin_by_name_path.exists());

    remove_file(map_1_pin_path).unwrap();
    remove_file(map_2_pin_path).unwrap();
    remove_file(map_pin_by_name_path).unwrap();
}

#[unsafe(no_mangle)]
#[inline(never)]
extern "C" fn trigger_bpf_program() {
    core::hint::black_box(trigger_bpf_program);
}

fn poll_loaded_program_id(name: &str) -> impl Iterator<Item = Option<u32>> + '_ {
    std::iter::once(true)
        .chain(std::iter::repeat(false))
        .map(|first| {
            if !first {
                thread::sleep(RETRY_DURATION);
            }
            // Ignore race failures which can happen when the tests delete a
            // program in the middle of a `loaded_programs()` call.
            loaded_programs()
                .filter_map(|prog| prog.ok())
                .find_map(|prog| (prog.name() == name.as_bytes()).then(|| prog.id()))
        })
}

#[track_caller]
fn assert_loaded_and_linked(name: &str) {
    let (attempts_used, prog_id) = poll_loaded_program_id(name)
        .take(MAX_RETRIES)
        .enumerate()
        .find_map(|(i, id)| id.map(|id| (i, id)))
        .unwrap_or_else(|| panic!("{name} not loaded after {MAX_RETRIES}"));
    let poll_loaded_link_id = std::iter::once(true)
        .chain(std::iter::repeat(false))
        .map(|first| {
            if !first {
                thread::sleep(RETRY_DURATION);
            }
            // Ignore race failures which can happen when the tests delete a
            // program in the middle of a `loaded_programs()` call.
            loaded_links()
                .filter_map(|link| link.ok())
                .find_map(|link| (link.program_id() == prog_id).then_some(link.id()))
        });
    assert!(
        poll_loaded_link_id
            .take(MAX_RETRIES)
            .skip(attempts_used)
            .any(|id| id.is_some()),
        "{name} not linked after {MAX_RETRIES}"
    );
}

#[track_caller]
fn assert_loaded(name: &str) {
    assert!(
        poll_loaded_program_id(name)
            .take(MAX_RETRIES)
            .any(|id| id.is_some()),
        "{name} not loaded after {MAX_RETRIES}"
    )
}

#[track_caller]
fn assert_unloaded(name: &str) {
    assert!(
        poll_loaded_program_id(name)
            .take(MAX_RETRIES)
            .any(|id| id.is_none()),
        "{name} still loaded after {MAX_RETRIES}"
    )
}

trait UnloadProgramOps {
    type LinkId;
    type OwnedLink;

    fn load(&mut self) -> Result<(), ProgramError>;
    fn unload(&mut self) -> Result<(), ProgramError>;
    fn take_link(&mut self, id: Self::LinkId) -> Result<Self::OwnedLink, ProgramError>;
}

macro_rules! impl_unload_program_ops {
    ($program:ty, $link_id:ty, $link:ty) => {
        impl UnloadProgramOps for $program {
            type LinkId = $link_id;
            type OwnedLink = $link;

            fn load(&mut self) -> Result<(), ProgramError> {
                <$program>::load(self)
            }

            fn unload(&mut self) -> Result<(), ProgramError> {
                <$program>::unload(self)
            }

            fn take_link(&mut self, id: Self::LinkId) -> Result<Self::OwnedLink, ProgramError> {
                <$program>::take_link(self, id)
            }
        }
    };
}

impl_unload_program_ops!(Xdp, XdpLinkId, XdpLink);
impl_unload_program_ops!(KProbe, KProbeLinkId, KProbeLink);
impl_unload_program_ops!(TracePoint, TracePointLinkId, TracePointLink);
impl_unload_program_ops!(UProbe, UProbeLinkId, UProbeLink);
impl_unload_program_ops!(FlowDissector, FlowDissectorLinkId, FlowDissectorLink);

#[test_log::test]
fn unload_xdp() {
    type P = Xdp;

    let program_name = "pass";
    let attach = |prog: &mut P| prog.attach("lo", XdpFlags::default()).unwrap();
    run_unload_program_test(crate::TEST, program_name, attach);
}

fn run_unload_program_test<P>(bpf_image: &[u8], program_name: &str, attach: fn(&mut P) -> P::LinkId)
where
    P: UnloadProgramOps,
    for<'a> &'a mut Program: TryInto<&'a mut P, Error = ProgramError>,
{
    let mut bpf = Ebpf::load(bpf_image).unwrap();
    let prog: &mut P = bpf.program_mut(program_name).unwrap().try_into().unwrap();
    prog.load().unwrap();
    assert_loaded(program_name);
    let link = attach(prog);
    {
        let _link_owned: P::OwnedLink = prog.take_link(link).unwrap();
        prog.unload().unwrap();
        assert_loaded_and_linked(program_name);
    }

    assert_unloaded(program_name);
    prog.load().unwrap();

    assert_loaded(program_name);
    attach(prog);

    assert_loaded(program_name);
    prog.unload().unwrap();

    assert_unloaded(program_name);
}

#[test_log::test]
fn unload_kprobe() {
    type P = KProbe;

    let program_name = "test_kprobe";
    let attach = |prog: &mut P| prog.attach("try_to_wake_up", 0).unwrap();
    run_unload_program_test(crate::TEST, program_name, attach);
}

#[test_log::test]
fn basic_tracepoint() {
    type P = TracePoint;

    let program_name = "test_tracepoint";
    let attach = |prog: &mut P| prog.attach("syscalls", "sys_enter_kill").unwrap();
    run_unload_program_test(crate::TEST, program_name, attach);
}

#[test_log::test]
fn basic_uprobe() {
    type P = UProbe;

    let program_name = "test_uprobe";
    let attach = |prog: &mut P| {
        prog.attach("uprobe_function", "/proc/self/exe", None, None)
            .unwrap()
    };
    run_unload_program_test(crate::TEST, program_name, attach);
}

#[test_log::test]
fn basic_flow_dissector() {
    type P = FlowDissector;

    let program_name = "test_flow";
    let attach = |prog: &mut P| {
        let net_ns = std::fs::File::open("/proc/self/ns/net").unwrap();
        prog.attach(net_ns).unwrap()
    };
    run_unload_program_test(crate::TEST, program_name, attach);
}

#[test_log::test]
fn pin_link() {
    type P = Xdp;

    let program_name = "pass";
    let attach = |prog: &mut P| prog.attach("lo", XdpFlags::default()).unwrap();

    let kernel_version = KernelVersion::current().unwrap();
    if kernel_version < KernelVersion::new(5, 9, 0) {
        eprintln!("skipping test on kernel {kernel_version:?}, XDP uses netlink");
        return;
    }

    let mut bpf = Ebpf::load(crate::TEST).unwrap();
    let prog: &mut P = bpf.program_mut(program_name).unwrap().try_into().unwrap();
    prog.load().unwrap();
    let link_id = attach(prog);
    let link = prog.take_link(link_id).unwrap();
    assert_loaded(program_name);

    let fd_link: FdLink = link.try_into().unwrap();
    let pinned = fd_link.pin("/sys/fs/bpf/aya-xdp-test-lo").unwrap();

    // because of the pin, the program is still attached
    prog.unload().unwrap();
    assert_loaded(program_name);

    // delete the pin, but the program is still attached
    let new_link = pinned.unpin().unwrap();
    assert_loaded(program_name);

    // finally when new_link is dropped we're detached
    drop(new_link);
    assert_unloaded(program_name);
}

#[test_log::test]
fn pin_lifecycle() {
    type P = Xdp;

    let program_name = "pass";
    let attach = |prog: &mut P| prog.attach("lo", XdpFlags::default()).unwrap();
    let program_pin = "/sys/fs/bpf/aya-xdp-test-prog";
    let link_pin = "/sys/fs/bpf/aya-xdp-test-lo";

    let kernel_version = KernelVersion::current().unwrap();
    if kernel_version < KernelVersion::new(5, 18, 0) {
        eprintln!(
            "skipping test on kernel {kernel_version:?}, support for BPF_F_XDP_HAS_FRAGS was added in 5.18.0; see https://github.com/torvalds/linux/commit/c2f2cdb"
        );
        return;
    }

    // 1. Load Program and Pin
    {
        let mut bpf = Ebpf::load(crate::PASS).unwrap();
        let prog: &mut P = bpf.program_mut(program_name).unwrap().try_into().unwrap();
        prog.load().unwrap();
        prog.pin(program_pin).unwrap();
    }

    // should still be loaded since prog was pinned
    assert_loaded(program_name);

    // 2. Load program from bpffs but don't attach it
    {
        let _ = P::from_pin(program_pin, XdpAttachType::Interface).unwrap();
    }

    // should still be loaded since prog was pinned
    assert_loaded(program_name);

    // 3. Load program from bpffs and attach
    {
        let mut prog = P::from_pin(program_pin, XdpAttachType::Interface).unwrap();
        let link_id = attach(&mut prog);
        let link = prog.take_link(link_id).unwrap();
        let fd_link: FdLink = link.try_into().unwrap();
        fd_link.pin(link_pin).unwrap();

        // Unpin the program. It will stay attached since its links were pinned.
        prog.unpin().unwrap();
    }

    // should still be loaded since link was pinned
    assert_loaded_and_linked(program_name);

    // 4. Load a new version of the program, unpin link, and atomically replace old program
    {
        let mut bpf = Ebpf::load(crate::PASS).unwrap();
        let prog: &mut P = bpf.program_mut(program_name).unwrap().try_into().unwrap();
        prog.load().unwrap();

        let link = PinnedLink::from_pin(link_pin).unwrap().unpin().unwrap();
        prog.attach_to_link(link.try_into().unwrap()).unwrap();
        assert_loaded(program_name);
    }

    // program should be unloaded
    assert_unloaded(program_name);
}

#[test_log::test]
fn pin_lifecycle_tracepoint() {
    type P = TracePoint;

    let program_name = "test_tracepoint";
    let attach = |prog: &mut P| prog.attach("syscalls", "sys_enter_kill").unwrap();
    let program_pin = "/sys/fs/bpf/aya-tracepoint-test-prog";
    let link_pin = "/sys/fs/bpf/aya-tracepoint-test-sys-enter-kill";

    // 1. Load Program and Pin
    {
        let mut bpf = Ebpf::load(crate::TEST).unwrap();
        let prog: &mut P = bpf.program_mut(program_name).unwrap().try_into().unwrap();
        prog.load().unwrap();
        prog.pin(program_pin).unwrap();
    }

    // should still be loaded since prog was pinned
    assert_loaded(program_name);

    // 2. Load program from bpffs but don't attach it
    {
        let _ = P::from_pin(program_pin).unwrap();
    }

    // should still be loaded since prog was pinned
    assert_loaded(program_name);

    // 3. Load program from bpffs and attach
    {
        let mut prog = P::from_pin(program_pin).unwrap();
        let link_id = attach(&mut prog);
        let link = prog.take_link(link_id).unwrap();
        let fd_link: FdLink = link.try_into().unwrap();
        fd_link.pin(link_pin).unwrap();

        // Unpin the program. It will stay attached since its links were pinned.
        prog.unpin().unwrap();
    }

    // should still be loaded since link was pinned
    assert_loaded_and_linked(program_name);

    // 4. unpin link, and make sure everything is unloaded
    {
        PinnedLink::from_pin(link_pin).unwrap().unpin().unwrap();
    }

    // program should be unloaded
    assert_unloaded(program_name);
}

#[test_log::test]
fn pin_lifecycle_kprobe() {
    type P = KProbe;

    let program_name = "test_kprobe";
    let attach = |prog: &mut P| prog.attach("try_to_wake_up", 0).unwrap();
    let program_pin = "/sys/fs/bpf/aya-kprobe-test-prog";
    let link_pin = "/sys/fs/bpf/aya-kprobe-test-try-to-wake-up";

    // 1. Load Program and Pin
    {
        let mut bpf = Ebpf::load(crate::TEST).unwrap();
        let prog: &mut P = bpf.program_mut(program_name).unwrap().try_into().unwrap();
        prog.load().unwrap();
        prog.pin(program_pin).unwrap();
    }

    // should still be loaded since prog was pinned
    assert_loaded(program_name);

    // 2. Load program from bpffs but don't attach it
    {
        let _ = P::from_pin(program_pin, aya::programs::ProbeKind::KProbe).unwrap();
    }

    // should still be loaded since prog was pinned
    assert_loaded(program_name);

    // 3. Load program from bpffs and attach
    {
        let mut prog = P::from_pin(program_pin, aya::programs::ProbeKind::KProbe).unwrap();
        let link_id = attach(&mut prog);
        let link = prog.take_link(link_id).unwrap();
        let fd_link: FdLink = link.try_into().unwrap();
        fd_link.pin(link_pin).unwrap();

        // Unpin the program. It will stay attached since its links were pinned.
        prog.unpin().unwrap();
    }

    // should still be loaded since link was pinned
    assert_loaded_and_linked(program_name);

    // 4. unpin link, and make sure everything is unloaded
    {
        PinnedLink::from_pin(link_pin).unwrap().unpin().unwrap();
    }

    // program should be unloaded
    assert_unloaded(program_name);
}

#[unsafe(no_mangle)]
#[inline(never)]
extern "C" fn uprobe_function() {
    core::hint::black_box(uprobe_function);
}

#[test_log::test]
fn pin_lifecycle_uprobe() {
    type P = UProbe;

    let program_name = "test_uprobe";
    let attach = |prog: &mut P| {
        prog.attach("uprobe_function", "/proc/self/exe", None, None)
            .unwrap()
    };
    let program_pin = "/sys/fs/bpf/aya-uprobe-test-prog";
    let link_pin = "/sys/fs/bpf/aya-uprobe-test-uprobe-function";

    // 1. Load Program and Pin
    {
        let mut bpf = Ebpf::load(crate::TEST).unwrap();
        let prog: &mut P = bpf.program_mut(program_name).unwrap().try_into().unwrap();
        prog.load().unwrap();
        prog.pin(program_pin).unwrap();
    }

    // should still be loaded since prog was pinned
    assert_loaded(program_name);

    // 2. Load program from bpffs but don't attach it
    {
        let _ = P::from_pin(program_pin, aya::programs::ProbeKind::UProbe).unwrap();
    }

    // should still be loaded since prog was pinned
    assert_loaded(program_name);

    // 3. Load program from bpffs and attach
    {
        let mut prog = P::from_pin(program_pin, aya::programs::ProbeKind::UProbe).unwrap();
        let link_id = attach(&mut prog);
        let link = prog.take_link(link_id).unwrap();
        let fd_link: FdLink = link.try_into().unwrap();
        fd_link.pin(link_pin).unwrap();

        // Unpin the program. It will stay attached since its links were pinned.
        prog.unpin().unwrap();
    }

    // should still be loaded since link was pinned
    assert_loaded_and_linked(program_name);

    // 4. unpin link, and make sure everything is unloaded
    {
        PinnedLink::from_pin(link_pin).unwrap().unpin().unwrap();
    }

    // program should be unloaded
    assert_unloaded(program_name);

    // Make sure the function isn't optimized out.
    uprobe_function();
}