This works now that build.rs does the right thing.
Update the `miri test` command in the lint job so it has the proper
exclusions; it is now in line with the invocations in the build-test job.
The ebpf probes require a nightly compiler. Before this change, if you
ran `cargo xtask integration-test` with a stable compiler toolchain as
default, or you ran `cargo +stable xtask integration-test`, you would
have seen an error like the one below. This is now fixed by running the
cargo build command in the integration-ebpf directory and making sure
to clear the RUSTUP_TOOLCHAIN env var.
```
--- stderr
/home/ajwerner/src/github.com/aya-rs/aya/test/integration-test/bpf/ring_buf_sched_tracepoint.bpf.c:18:21: warning: declaration of 'struct switch_args' will not be visible outside of this function [-Wvisibility]
int bpf_prog(struct switch_args* ctx)
^
1 warning generated.
error: the `-Z` flag is only accepted on the nightly channel of Cargo, but this is the `stable` channel
See https://doc.rust-lang.org/book/appendix-07-nightly-rust.html for more information about Rust release channels.
thread 'main' panicked at '"cargo" "build" "-p" "integration-ebpf" "-Z" "build-std=core" "--release" "--message-format=json" "--target" "bpfel-unknown-none" "--target-dir" "/home/ajwerner/src/github.com/aya-rs/aya/target/debug/build/integration-test-9bbcb3db5e9f8f57/out/integration-ebpf" exited
with status code 101:
', test/integration-test/build.rs:219:25
note: run with `RUST_BACKTRACE=1` environment variable to display a backtrace
Error: error while building userspace application
Caused by:
Child { stdin: None, stdout: None, stderr: None, .. } exited with status code 101:
```
Libbpf is used by xtasks, in the command, ensure that the submodules
are initialized. This eases the user-experience so that users don't
need to think about the submodule, while retaining all the benefits
of using a submodule vs forcing the user to manually check out libbpf
and stick it in some pre-defined place.
We use the symbol pointing to libbpf in xtask in the build script
to avoid repeating this constant.
Also, we install git in the vm so that we can init the submodule
when we build in the vm.
Emit "cargo:rerun-if-changed={}" for each transitive dependency on
integration-ebpf. In a normal world we'd just add integration-ebpf to
our build-dependencies, but cargo ignores this because integration-ebpf
has no library targets.
The matches crate has been archived now that `matches!` is in std.
However `assert_matches!` is still unstable in std, and the
assert_matches crate provides a more expressive form:
```
assert_matches!(foo, Ok(bar) => {
assert_eq!(bar, baz);
});
```
This feature is equivalent to async_tokio || async_std; removing it
avoids warnings emitted during `cargo hack check --feature-powerset`
where async is selected without either of the other features.
Use cargo hack to ensure clippy runs on the powerset of features.
This slightly changes the site layout: crate documentation is now flat
rather than being nested under "user" and "bpf".
- Run `cargo clean --doc` before generating docs to ensure hermiticity.
- Generate header.html into a temporary directory.
- Remove "site" on each run to ensure hermiticity.
- Invoke cargo only once.
- Avoid editing sources.
So to build/check things using the bpf target one can:
cd bpf && cargo check && cargo build
without having to manually pass --target=bpfel-unknown-none -Z
build-std=core.
It also fixes cargo xtask docs, since the command relies on bpf docs
being built with the bpfel-unknown-none target.
in the integration tests we recenctly switched to using
our internal api to list programs. I was seeing times when
this would race and panic internally (program fd was deleted
by aya WHILE we were trying to get it). This ensures that
the list succeeded without panicking.
Signed-off-by: Andrew Stoycos <astoycos@redhat.com>