Add support for test suites emulated in QEMU

This commit adds support to the build system to execute test suites that cannot
run natively but can instead run inside of a QEMU emulator. A proof-of-concept
builder was added for the `arm-unknown-linux-gnueabihf` target to show off how
this might work.

In general the architecture is to have a server running inside of the emulator
which a local client connects to. The protocol between the server/client
supports compiling tests on the host and running them on the target inside the
emulator.

Closes #33114
This commit is contained in:
Alex Crichton 2017-01-28 13:38:06 -08:00
parent 4be49e1937
commit 1747ce25ad
23 changed files with 3772 additions and 49 deletions

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@ -13,6 +13,7 @@ matrix:
include:
# Linux builders, all docker images
- env: IMAGE=android DEPLOY=1
- env: IMAGE=armhf-gnu
- env: IMAGE=cross DEPLOY=1
- env: IMAGE=linux-tested-targets DEPLOY=1
- env: IMAGE=dist-arm-linux DEPLOY=1

1
configure vendored
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@ -684,6 +684,7 @@ valopt musl-root-arm "" "arm-unknown-linux-musleabi install directory"
valopt musl-root-armhf "" "arm-unknown-linux-musleabihf install directory"
valopt musl-root-armv7 "" "armv7-unknown-linux-musleabihf install directory"
valopt extra-filename "" "Additional data that is hashed and passed to the -C extra-filename flag"
valopt qemu-armhf-rootfs "" "rootfs in qemu testing, you probably don't want to use this"
if [ -e ${CFG_SRC_DIR}.git ]
then

8
src/Cargo.lock generated
View File

@ -221,6 +221,14 @@ dependencies = [
"syntax_pos 0.0.0",
]
[[package]]
name = "qemu-test-client"
version = "0.1.0"
[[package]]
name = "qemu-test-server"
version = "0.1.0"
[[package]]
name = "rand"
version = "0.0.0"

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@ -11,6 +11,8 @@ members = [
"tools/rustbook",
"tools/tidy",
"tools/build-manifest",
"tools/qemu-test-client",
"tools/qemu-test-server",
]
# Curiously, compiletest will segfault if compiled with opt-level=3 on 64-bit

View File

@ -26,7 +26,7 @@ use build_helper::output;
use {Build, Compiler, Mode};
use dist;
use util::{self, dylib_path, dylib_path_var};
use util::{self, dylib_path, dylib_path_var, exe};
const ADB_TEST_DIR: &'static str = "/data/tmp";
@ -221,6 +221,12 @@ pub fn compiletest(build: &Build,
.arg("--llvm-cxxflags").arg("");
}
if build.qemu_rootfs(target).is_some() {
cmd.arg("--qemu-test-client")
.arg(build.tool(&Compiler::new(0, &build.config.build),
"qemu-test-client"));
}
// Running a C compiler on MSVC requires a few env vars to be set, to be
// sure to set them here.
//
@ -403,9 +409,9 @@ pub fn krate(build: &Build,
dylib_path.insert(0, build.sysroot_libdir(&compiler, target));
cargo.env(dylib_path_var(), env::join_paths(&dylib_path).unwrap());
if target.contains("android") {
cargo.arg("--no-run");
} else if target.contains("emscripten") {
if target.contains("android") ||
target.contains("emscripten") ||
build.qemu_rootfs(target).is_some() {
cargo.arg("--no-run");
}
@ -423,6 +429,9 @@ pub fn krate(build: &Build,
} else if target.contains("emscripten") {
build.run(&mut cargo);
krate_emscripten(build, &compiler, target, mode);
} else if build.qemu_rootfs(target).is_some() {
build.run(&mut cargo);
krate_qemu(build, &compiler, target, mode);
} else {
cargo.args(&build.flags.cmd.test_args());
build.run(&mut cargo);
@ -496,7 +505,30 @@ fn krate_emscripten(build: &Build,
}
build.run(&mut cmd);
}
}
fn krate_qemu(build: &Build,
compiler: &Compiler,
target: &str,
mode: Mode) {
let mut tests = Vec::new();
let out_dir = build.cargo_out(compiler, mode, target);
find_tests(&out_dir, target, &mut tests);
find_tests(&out_dir.join("deps"), target, &mut tests);
let tool = build.tool(&Compiler::new(0, &build.config.build),
"qemu-test-client");
for test in tests {
let mut cmd = Command::new(&tool);
cmd.arg("run")
.arg(&test);
if build.config.quiet_tests {
cmd.arg("--quiet");
}
cmd.args(&build.flags.cmd.test_args());
build.run(&mut cmd);
}
}
fn find_tests(dir: &Path,
@ -516,13 +548,15 @@ fn find_tests(dir: &Path,
}
}
pub fn android_copy_libs(build: &Build,
compiler: &Compiler,
target: &str) {
if !target.contains("android") {
return
pub fn emulator_copy_libs(build: &Build, compiler: &Compiler, target: &str) {
if target.contains("android") {
android_copy_libs(build, compiler, target)
} else if let Some(s) = build.qemu_rootfs(target) {
qemu_copy_libs(build, compiler, target, s)
}
}
fn android_copy_libs(build: &Build, compiler: &Compiler, target: &str) {
println!("Android copy libs to emulator ({})", target);
build.run(Command::new("adb").arg("wait-for-device"));
build.run(Command::new("adb").arg("remount"));
@ -548,6 +582,39 @@ pub fn android_copy_libs(build: &Build,
}
}
fn qemu_copy_libs(build: &Build,
compiler: &Compiler,
target: &str,
rootfs: &Path) {
println!("QEMU copy libs to emulator ({})", target);
assert!(target.starts_with("arm"), "only works with arm for now");
t!(fs::create_dir_all(build.out.join("tmp")));
// Copy our freshly compiled test server over to the rootfs
let server = build.cargo_out(compiler, Mode::Tool, target)
.join(exe("qemu-test-server", target));
t!(fs::copy(&server, rootfs.join("testd")));
// Spawn the emulator and wait for it to come online
let tool = build.tool(&Compiler::new(0, &build.config.build),
"qemu-test-client");
build.run(Command::new(&tool)
.arg("spawn-emulator")
.arg(rootfs)
.arg(build.out.join("tmp")));
// Push all our dylibs to the emulator
for f in t!(build.sysroot_libdir(compiler, target).read_dir()) {
let f = t!(f);
let name = f.file_name().into_string().unwrap();
if util::is_dylib(&name) {
build.run(Command::new(&tool)
.arg("push")
.arg(f.path()));
}
}
}
/// Run "distcheck", a 'make check' from a tarball
pub fn distcheck(build: &Build) {
if build.config.build != "x86_64-unknown-linux-gnu" {

View File

@ -382,10 +382,10 @@ fn add_to_sysroot(out_dir: &Path, sysroot_dst: &Path) {
///
/// This will build the specified tool with the specified `host` compiler in
/// `stage` into the normal cargo output directory.
pub fn tool(build: &Build, stage: u32, host: &str, tool: &str) {
println!("Building stage{} tool {} ({})", stage, tool, host);
pub fn tool(build: &Build, stage: u32, target: &str, tool: &str) {
println!("Building stage{} tool {} ({})", stage, tool, target);
let compiler = Compiler::new(stage, host);
let compiler = Compiler::new(stage, &build.config.build);
// FIXME: need to clear out previous tool and ideally deps, may require
// isolating output directories or require a pseudo shim step to
@ -396,7 +396,7 @@ pub fn tool(build: &Build, stage: u32, host: &str, tool: &str) {
// let out_dir = build.cargo_out(stage, &host, Mode::Librustc, target);
// build.clear_if_dirty(&out_dir, &libstd_stamp(build, stage, &host, target));
let mut cargo = build.cargo(&compiler, Mode::Tool, host, "build");
let mut cargo = build.cargo(&compiler, Mode::Tool, target, "build");
cargo.arg("--manifest-path")
.arg(build.src.join(format!("src/tools/{}/Cargo.toml", tool)));

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@ -114,6 +114,7 @@ pub struct Target {
pub cxx: Option<PathBuf>,
pub ndk: Option<PathBuf>,
pub musl_root: Option<PathBuf>,
pub qemu_rootfs: Option<PathBuf>,
}
/// Structure of the `config.toml` file that configuration is read from.
@ -222,6 +223,7 @@ struct TomlTarget {
cxx: Option<String>,
android_ndk: Option<String>,
musl_root: Option<String>,
qemu_rootfs: Option<String>,
}
impl Config {
@ -360,6 +362,7 @@ impl Config {
target.cxx = cfg.cxx.clone().map(PathBuf::from);
target.cc = cfg.cc.clone().map(PathBuf::from);
target.musl_root = cfg.musl_root.clone().map(PathBuf::from);
target.qemu_rootfs = cfg.qemu_rootfs.clone().map(PathBuf::from);
config.target_config.insert(triple.clone(), target);
}
@ -562,6 +565,12 @@ impl Config {
.map(|s| s.to_string())
.collect();
}
"CFG_QEMU_ARMHF_ROOTFS" if value.len() > 0 => {
let target = "arm-unknown-linux-gnueabihf".to_string();
let target = self.target_config.entry(target)
.or_insert(Target::default());
target.qemu_rootfs = Some(parse_configure_path(value));
}
_ => {}
}
}

View File

@ -886,6 +886,17 @@ impl Build {
.map(|p| &**p)
}
/// Returns the root of the "rootfs" image that this target will be using,
/// if one was configured.
///
/// If `Some` is returned then that means that tests for this target are
/// emulated with QEMU and binaries will need to be shipped to the emulator.
fn qemu_rootfs(&self, target: &str) -> Option<&Path> {
self.config.target_config.get(target)
.and_then(|t| t.qemu_rootfs.as_ref())
.map(|p| &**p)
}
/// Path to the python interpreter to use
fn python(&self) -> &Path {
self.config.python.as_ref().unwrap()

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@ -295,7 +295,7 @@ pub fn build_rules<'a>(build: &'a Build) -> Rules {
.dep(|s| s.name("libtest"))
.dep(|s| s.name("tool-compiletest").target(s.host).stage(0))
.dep(|s| s.name("test-helpers"))
.dep(|s| s.name("android-copy-libs"))
.dep(|s| s.name("emulator-copy-libs"))
.default(mode != "pretty") // pretty tests don't run everywhere
.run(move |s| {
check::compiletest(build, &s.compiler(), s.target, mode, dir)
@ -333,7 +333,7 @@ pub fn build_rules<'a>(build: &'a Build) -> Rules {
.dep(|s| s.name("tool-compiletest").target(s.host).stage(0))
.dep(|s| s.name("test-helpers"))
.dep(|s| s.name("debugger-scripts"))
.dep(|s| s.name("android-copy-libs"))
.dep(|s| s.name("emulator-copy-libs"))
.run(move |s| check::compiletest(build, &s.compiler(), s.target,
"debuginfo-gdb", "debuginfo"));
let mut rule = rules.test("check-debuginfo", "src/test/debuginfo");
@ -387,14 +387,14 @@ pub fn build_rules<'a>(build: &'a Build) -> Rules {
for (krate, path, _default) in krates("std_shim") {
rules.test(&krate.test_step, path)
.dep(|s| s.name("libtest"))
.dep(|s| s.name("android-copy-libs"))
.dep(|s| s.name("emulator-copy-libs"))
.run(move |s| check::krate(build, &s.compiler(), s.target,
Mode::Libstd, TestKind::Test,
Some(&krate.name)));
}
rules.test("check-std-all", "path/to/nowhere")
.dep(|s| s.name("libtest"))
.dep(|s| s.name("android-copy-libs"))
.dep(|s| s.name("emulator-copy-libs"))
.default(true)
.run(move |s| check::krate(build, &s.compiler(), s.target,
Mode::Libstd, TestKind::Test, None));
@ -403,14 +403,14 @@ pub fn build_rules<'a>(build: &'a Build) -> Rules {
for (krate, path, _default) in krates("std_shim") {
rules.bench(&krate.bench_step, path)
.dep(|s| s.name("libtest"))
.dep(|s| s.name("android-copy-libs"))
.dep(|s| s.name("emulator-copy-libs"))
.run(move |s| check::krate(build, &s.compiler(), s.target,
Mode::Libstd, TestKind::Bench,
Some(&krate.name)));
}
rules.bench("bench-std-all", "path/to/nowhere")
.dep(|s| s.name("libtest"))
.dep(|s| s.name("android-copy-libs"))
.dep(|s| s.name("emulator-copy-libs"))
.default(true)
.run(move |s| check::krate(build, &s.compiler(), s.target,
Mode::Libstd, TestKind::Bench, None));
@ -418,21 +418,21 @@ pub fn build_rules<'a>(build: &'a Build) -> Rules {
for (krate, path, _default) in krates("test_shim") {
rules.test(&krate.test_step, path)
.dep(|s| s.name("libtest"))
.dep(|s| s.name("android-copy-libs"))
.dep(|s| s.name("emulator-copy-libs"))
.run(move |s| check::krate(build, &s.compiler(), s.target,
Mode::Libtest, TestKind::Test,
Some(&krate.name)));
}
rules.test("check-test-all", "path/to/nowhere")
.dep(|s| s.name("libtest"))
.dep(|s| s.name("android-copy-libs"))
.dep(|s| s.name("emulator-copy-libs"))
.default(true)
.run(move |s| check::krate(build, &s.compiler(), s.target,
Mode::Libtest, TestKind::Test, None));
for (krate, path, _default) in krates("rustc-main") {
rules.test(&krate.test_step, path)
.dep(|s| s.name("librustc"))
.dep(|s| s.name("android-copy-libs"))
.dep(|s| s.name("emulator-copy-libs"))
.host(true)
.run(move |s| check::krate(build, &s.compiler(), s.target,
Mode::Librustc, TestKind::Test,
@ -440,7 +440,7 @@ pub fn build_rules<'a>(build: &'a Build) -> Rules {
}
rules.test("check-rustc-all", "path/to/nowhere")
.dep(|s| s.name("librustc"))
.dep(|s| s.name("android-copy-libs"))
.dep(|s| s.name("emulator-copy-libs"))
.default(true)
.host(true)
.run(move |s| check::krate(build, &s.compiler(), s.target,
@ -481,9 +481,34 @@ pub fn build_rules<'a>(build: &'a Build) -> Rules {
rules.build("test-helpers", "src/rt/rust_test_helpers.c")
.run(move |s| native::test_helpers(build, s.target));
rules.test("android-copy-libs", "path/to/nowhere")
// Some test suites are run inside emulators, and most of our test binaries
// are linked dynamically which means we need to ship the standard library
// and such to the emulator ahead of time. This step represents this and is
// a dependency of all test suites.
//
// Most of the time this step is a noop (the `check::emulator_copy_libs`
// only does work if necessary). For some steps such as shipping data to
// QEMU we have to build our own tools so we've got conditional dependencies
// on those programs as well. Note that the QEMU client is built for the
// build target (us) and the server is built for the target.
rules.test("emulator-copy-libs", "path/to/nowhere")
.dep(|s| s.name("libtest"))
.run(move |s| check::android_copy_libs(build, &s.compiler(), s.target));
.dep(move |s| {
if build.qemu_rootfs(s.target).is_some() {
s.name("tool-qemu-test-client").target(s.host).stage(0)
} else {
Step::noop()
}
})
.dep(move |s| {
if build.qemu_rootfs(s.target).is_some() {
s.name("tool-qemu-test-server")
} else {
Step::noop()
}
})
.run(move |s| check::emulator_copy_libs(build, &s.compiler(), s.target));
rules.test("check-bootstrap", "src/bootstrap")
.default(true)
@ -516,6 +541,12 @@ pub fn build_rules<'a>(build: &'a Build) -> Rules {
rules.build("tool-build-manifest", "src/tools/build-manifest")
.dep(|s| s.name("libstd"))
.run(move |s| compile::tool(build, s.stage, s.target, "build-manifest"));
rules.build("tool-qemu-test-server", "src/tools/qemu-test-server")
.dep(|s| s.name("libstd"))
.run(move |s| compile::tool(build, s.stage, s.target, "qemu-test-server"));
rules.build("tool-qemu-test-client", "src/tools/qemu-test-client")
.dep(|s| s.name("libstd"))
.run(move |s| compile::tool(build, s.stage, s.target, "qemu-test-client"));
// ========================================================================
// Documentation targets

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@ -0,0 +1,90 @@
FROM ubuntu:16.04
RUN apt-get update -y && apt-get install -y --no-install-recommends \
bc \
bzip2 \
ca-certificates \
cmake \
cpio \
curl \
file \
g++ \
gcc-arm-linux-gnueabihf \
git \
libc6-dev \
libc6-dev-armhf-cross \
make \
python2.7 \
qemu-system-arm \
xz-utils
ENV ARCH=arm \
CROSS_COMPILE=arm-linux-gnueabihf-
WORKDIR /build
# Compile the kernel that we're going to run and be emulating with. This is
# basically just done to be compatible with the QEMU target that we're going
# to be using when running tests. If any other kernel works or if any
# other QEMU target works with some other stock kernel, we can use that too!
#
# The `vexpress_config` config file was a previously generated config file for
# the kernel. This file was generated by running `make vexpress_defconfig`
# followed by `make menuconfig` and then enabling the IPv6 protocol page.
COPY vexpress_config /build/.config
RUN curl https://cdn.kernel.org/pub/linux/kernel/v4.x/linux-4.4.42.tar.xz | \
tar xJf - && \
cd /build/linux-4.4.42 && \
cp /build/.config . && \
make -j$(nproc) all && \
cp arch/arm/boot/zImage /tmp && \
cd /build && \
rm -rf linux-4.4.42
# Compile an instance of busybox as this provides a lightweight system and init
# binary which we will boot into. Only trick here is configuring busybox to
# build static binaries.
RUN curl https://www.busybox.net/downloads/busybox-1.21.1.tar.bz2 | tar xjf - && \
cd busybox-1.21.1 && \
make defconfig && \
sed -i 's/.*CONFIG_STATIC.*/CONFIG_STATIC=y/' .config && \
make -j$(nproc) && \
make install && \
mv _install /tmp/rootfs && \
cd /build && \
rm -rf busybox-1.12.1
# Download the ubuntu rootfs, which we'll use as a chroot for all our tests.
WORKDIR /tmp
RUN mkdir rootfs/ubuntu
RUN curl http://cdimage.ubuntu.com/ubuntu-base/releases/16.04/release/ubuntu-base-16.04-core-armhf.tar.gz | \
tar xzf - -C rootfs/ubuntu && \
cd rootfs && mkdir proc sys dev etc etc/init.d
# Copy over our init script, which starts up our test server and also a few
# other misc tasks.
COPY rcS rootfs/etc/init.d/rcS
RUN chmod +x rootfs/etc/init.d/rcS
# Helper to quickly fill the entropy pool in the kernel.
COPY addentropy.c /tmp/
RUN arm-linux-gnueabihf-gcc addentropy.c -o rootfs/addentropy -static
# TODO: What is this?!
RUN curl -O http://ftp.nl.debian.org/debian/dists/jessie/main/installer-armhf/current/images/device-tree/vexpress-v2p-ca15-tc1.dtb
ENV SCCACHE_DIGEST=7237e38e029342fa27b7ac25412cb9d52554008b12389727320bd533fd7f05b6a96d55485f305caf95e5c8f5f97c3313e10012ccad3e752aba2518f3522ba783
RUN curl -L https://api.pub.build.mozilla.org/tooltool/sha512/$SCCACHE_DIGEST | \
tar xJf - -C /usr/local/bin --strip-components=1
RUN curl -OL https://github.com/Yelp/dumb-init/releases/download/v1.2.0/dumb-init_1.2.0_amd64.deb && \
dpkg -i dumb-init_*.deb && \
rm dumb-init_*.deb
ENTRYPOINT ["/usr/bin/dumb-init", "--"]
ENV RUST_CONFIGURE_ARGS \
--target=arm-unknown-linux-gnueabihf \
--qemu-armhf-rootfs=/tmp/rootfs
ENV SCRIPT python2.7 ../x.py test --target arm-unknown-linux-gnueabihf
ENV NO_CHANGE_USER=1

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@ -0,0 +1,43 @@
// Copyright 2017 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
#include <assert.h>
#include <stdint.h>
#include <sys/ioctl.h>
#include <stdio.h>
#include <unistd.h>
#include <fcntl.h>
#include <linux/random.h>
#define N 2048
struct entropy {
int ent_count;
int size;
unsigned char data[N];
};
int main() {
struct entropy buf;
ssize_t n;
int random_fd = open("/dev/random", O_RDWR);
assert(random_fd >= 0);
while ((n = read(0, &buf.data, N)) > 0) {
buf.ent_count = n * 8;
buf.size = n;
if (ioctl(random_fd, RNDADDENTROPY, &buf) != 0) {
perror("failed to add entropy");
}
}
return 0;
}

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@ -0,0 +1,28 @@
#!/bin/sh
mount -t proc none /proc
mount -t sysfs none /sys
/sbin/mdev -s
# fill up our entropy pool, if we don't do this then anything with a hash map
# will likely block forever as the kernel is pretty unlikely to have enough
# entropy.
/addentropy < /addentropy
cat /dev/urandom | head -n 2048 | /addentropy
# Set up IP that qemu expects. This confgures eth0 with the public IP that QEMU
# will communicate to as well as the loopback 127.0.0.1 address.
ifconfig eth0 10.0.2.15
ifconfig lo up
# Configure DNS resolution of 'localhost' to work
echo 'hosts: files dns' >> /ubuntu/etc/nsswitch.conf
echo '127.0.0.1 localhost' >> /ubuntu/etc/hosts
# prepare the chroot
mount -t proc proc /ubuntu/proc/
mount --rbind /sys /ubuntu/sys/
mount --rbind /dev /ubuntu/dev/
# Execute our `testd` inside the ubuntu chroot
cp /testd /ubuntu/testd
chroot /ubuntu /testd &

File diff suppressed because it is too large Load Diff

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@ -11,11 +11,13 @@
set -e
if [ "$LOCAL_USER_ID" != "" ]; then
if [ "$NO_CHANGE_USER" = "" ]; then
if [ "$LOCAL_USER_ID" != "" ]; then
useradd --shell /bin/bash -u $LOCAL_USER_ID -o -c "" -m user
export HOME=/home/user
unset LOCAL_USER_ID
exec su --preserve-environment -c "env PATH=$PATH \"$0\"" user
fi
fi
RUST_CONFIGURE_ARGS="$RUST_CONFIGURE_ARGS --enable-sccache"

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@ -439,6 +439,10 @@ mod tests {
#[test]
#[cfg_attr(target_os = "macos", ignore)]
#[cfg_attr(target_os = "nacl", ignore)] // no signals on NaCl.
// When run under our current QEMU emulation test suite this test fails,
// although the reason isn't very clear as to why. For now this test is
// ignored there.
#[cfg_attr(target_arch = "arm", ignore)]
fn test_process_mask() {
unsafe {
// Test to make sure that a signal mask does not get inherited.
@ -471,7 +475,7 @@ mod tests {
// Either EOF or failure (EPIPE) is okay.
let mut buf = [0; 5];
if let Ok(ret) = stdout_read.read(&mut buf) {
assert!(ret == 0);
assert_eq!(ret, 0);
}
t!(cat.wait());

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@ -35,7 +35,7 @@ fn main() {
}
fn parent() {
let file = File::open(file!()).unwrap();
let file = File::open(env::current_exe().unwrap()).unwrap();
let tcp1 = TcpListener::bind("127.0.0.1:0").unwrap();
let tcp2 = tcp1.try_clone().unwrap();
let addr = tcp1.local_addr().unwrap();

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@ -185,6 +185,9 @@ pub struct Config {
// Print one character per test instead of one line
pub quiet: bool,
// where to find the qemu test client process, if we're using it
pub qemu_test_client: Option<PathBuf>,
// Configuration for various run-make tests frobbing things like C compilers
// or querying about various LLVM component information.
pub cc: String,

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@ -116,6 +116,7 @@ pub fn parse_config(args: Vec<String> ) -> Config {
reqopt("", "llvm-components", "list of LLVM components built in", "LIST"),
reqopt("", "llvm-cxxflags", "C++ flags for LLVM", "FLAGS"),
optopt("", "nodejs", "the name of nodejs", "PATH"),
optopt("", "qemu-test-client", "path to the qemu test client", "PATH"),
optflag("h", "help", "show this message")];
let (argv0, args_) = args.split_first().unwrap();
@ -196,6 +197,7 @@ pub fn parse_config(args: Vec<String> ) -> Config {
lldb_python_dir: matches.opt_str("lldb-python-dir"),
verbose: matches.opt_present("verbose"),
quiet: matches.opt_present("quiet"),
qemu_test_client: matches.opt_str("qemu-test-client").map(PathBuf::from),
cc: matches.opt_str("cc").unwrap(),
cxx: matches.opt_str("cxx").unwrap(),
@ -302,6 +304,14 @@ pub fn run_tests(config: &Config) {
// time.
env::set_var("RUST_TEST_THREADS", "1");
}
DebugInfoGdb => {
if config.qemu_test_client.is_some() {
println!("WARNING: debuginfo tests are not available when \
testing with QEMU");
return
}
}
_ => { /* proceed */ }
}

View File

@ -1190,7 +1190,45 @@ actual:\n\
"arm-linux-androideabi" | "armv7-linux-androideabi" | "aarch64-linux-android" => {
self._arm_exec_compiled_test(env)
}
_=> {
// This is pretty similar to below, we're transforming:
//
// program arg1 arg2
//
// into
//
// qemu-test-client run program:support-lib.so arg1 arg2
//
// The test-client program will upload `program` to the emulator
// along with all other support libraries listed (in this case
// `support-lib.so`. It will then execute the program on the
// emulator with the arguments specified (in the environment we give
// the process) and then report back the same result.
_ if self.config.qemu_test_client.is_some() => {
let aux_dir = self.aux_output_dir_name();
let mut args = self.make_run_args();
let mut program = args.prog.clone();
if let Ok(entries) = aux_dir.read_dir() {
for entry in entries {
let entry = entry.unwrap();
if !entry.path().is_file() {
continue
}
program.push_str(":");
program.push_str(entry.path().to_str().unwrap());
}
}
args.args.insert(0, program);
args.args.insert(0, "run".to_string());
args.prog = self.config.qemu_test_client.clone().unwrap()
.into_os_string().into_string().unwrap();
self.compose_and_run(args,
env,
self.config.run_lib_path.to_str().unwrap(),
Some(aux_dir.to_str().unwrap()),
None)
}
_ => {
let aux_dir = self.aux_output_dir_name();
self.compose_and_run(self.make_run_args(),
env,

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@ -0,0 +1,6 @@
[package]
name = "qemu-test-client"
version = "0.1.0"
authors = ["The Rust Project Developers"]
[dependencies]

View File

@ -0,0 +1,221 @@
// Copyright 2017 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
/// This is a small client program intended to pair with `qemu-test-server` in
/// this repository. This client connects to the server over TCP and is used to
/// push artifacts and run tests on the server instead of locally.
///
/// Here is also where we bake in the support to spawn the QEMU emulator as
/// well.
use std::env;
use std::fs::File;
use std::io::prelude::*;
use std::io::{self, BufWriter};
use std::net::TcpStream;
use std::path::Path;
use std::process::{Command, Stdio};
use std::thread;
use std::time::Duration;
macro_rules! t {
($e:expr) => (match $e {
Ok(e) => e,
Err(e) => panic!("{} failed with {}", stringify!($e), e),
})
}
fn main() {
let mut args = env::args().skip(1);
match &args.next().unwrap()[..] {
"spawn-emulator" => {
spawn_emulator(Path::new(&args.next().unwrap()),
Path::new(&args.next().unwrap()))
}
"push" => {
push(Path::new(&args.next().unwrap()))
}
"run" => {
run(args.next().unwrap(), args.collect())
}
cmd => panic!("unknown command: {}", cmd),
}
}
fn spawn_emulator(rootfs: &Path, tmpdir: &Path) {
// Generate a new rootfs image now that we've updated the test server
// executable. This is the equivalent of:
//
// find $rootfs -print 0 | cpio --null -o --format=newc > rootfs.img
let rootfs_img = tmpdir.join("rootfs.img");
let mut cmd = Command::new("cpio");
cmd.arg("--null")
.arg("-o")
.arg("--format=newc")
.stdin(Stdio::piped())
.stdout(Stdio::piped())
.current_dir(rootfs);
let mut child = t!(cmd.spawn());
let mut stdin = child.stdin.take().unwrap();
let rootfs = rootfs.to_path_buf();
thread::spawn(move || add_files(&mut stdin, &rootfs, &rootfs));
t!(io::copy(&mut child.stdout.take().unwrap(),
&mut t!(File::create(&rootfs_img))));
assert!(t!(child.wait()).success());
// Start up the emulator, in the background
let mut cmd = Command::new("qemu-system-arm");
cmd.arg("-M").arg("vexpress-a15")
.arg("-m").arg("1024")
.arg("-kernel").arg("/tmp/zImage")
.arg("-initrd").arg(&rootfs_img)
.arg("-dtb").arg("/tmp/vexpress-v2p-ca15-tc1.dtb")
.arg("-append").arg("console=ttyAMA0 root=/dev/ram rdinit=/sbin/init init=/sbin/init")
.arg("-nographic")
.arg("-redir").arg("tcp:12345::12345");
t!(cmd.spawn());
// Wait for the emulator to come online
loop {
let dur = Duration::from_millis(100);
if let Ok(mut client) = TcpStream::connect("127.0.0.1:12345") {
t!(client.set_read_timeout(Some(dur)));
t!(client.set_write_timeout(Some(dur)));
if client.write_all(b"ping").is_ok() {
let mut b = [0; 4];
if client.read_exact(&mut b).is_ok() {
break
}
}
}
thread::sleep(dur);
}
fn add_files(w: &mut Write, root: &Path, cur: &Path) {
for entry in t!(cur.read_dir()) {
let entry = t!(entry);
let path = entry.path();
let to_print = path.strip_prefix(root).unwrap();
t!(write!(w, "{}\u{0}", to_print.to_str().unwrap()));
if t!(entry.file_type()).is_dir() {
add_files(w, root, &path);
}
}
}
}
fn push(path: &Path) {
let client = t!(TcpStream::connect("127.0.0.1:12345"));
let mut client = BufWriter::new(client);
t!(client.write_all(b"push"));
t!(client.write_all(path.file_name().unwrap().to_str().unwrap().as_bytes()));
t!(client.write_all(&[0]));
let mut file = t!(File::open(path));
t!(io::copy(&mut file, &mut client));
t!(client.flush());
println!("done pushing {:?}", path);
}
fn run(files: String, args: Vec<String>) {
let client = t!(TcpStream::connect("127.0.0.1:12345"));
let mut client = BufWriter::new(client);
t!(client.write_all(b"run "));
// Send over the args
for arg in args {
t!(client.write_all(arg.as_bytes()));
t!(client.write_all(&[0]));
}
t!(client.write_all(&[0]));
// Send over env vars
for (k, v) in env::vars() {
if k != "PATH" && k != "LD_LIBRARY_PATH" {
t!(client.write_all(k.as_bytes()));
t!(client.write_all(&[0]));
t!(client.write_all(v.as_bytes()));
t!(client.write_all(&[0]));
}
}
t!(client.write_all(&[0]));
// Send over support libraries
let mut files = files.split(':');
let exe = files.next().unwrap();
for file in files.map(Path::new) {
t!(client.write_all(file.file_name().unwrap().to_str().unwrap().as_bytes()));
t!(client.write_all(&[0]));
send(&file, &mut client);
}
t!(client.write_all(&[0]));
// Send over the client executable as the last piece
send(exe.as_ref(), &mut client);
println!("uploaded {:?}, waiting for result", exe);
// Ok now it's time to read all the output. We're receiving "frames"
// representing stdout/stderr, so we decode all that here.
let mut header = [0; 5];
let mut stderr_done = false;
let mut stdout_done = false;
let mut client = t!(client.into_inner());
let mut stdout = io::stdout();
let mut stderr = io::stderr();
while !stdout_done || !stderr_done {
t!(client.read_exact(&mut header));
let amt = ((header[1] as u64) << 24) |
((header[2] as u64) << 16) |
((header[3] as u64) << 8) |
((header[4] as u64) << 0);
if header[0] == 0 {
if amt == 0 {
stdout_done = true;
} else {
t!(io::copy(&mut (&mut client).take(amt), &mut stdout));
t!(stdout.flush());
}
} else {
if amt == 0 {
stderr_done = true;
} else {
t!(io::copy(&mut (&mut client).take(amt), &mut stderr));
t!(stderr.flush());
}
}
}
// Finally, read out the exit status
let mut status = [0; 5];
t!(client.read_exact(&mut status));
let code = ((status[1] as i32) << 24) |
((status[2] as i32) << 16) |
((status[3] as i32) << 8) |
((status[4] as i32) << 0);
if status[0] == 0 {
std::process::exit(code);
} else {
println!("died due to signal {}", code);
std::process::exit(3);
}
}
fn send(path: &Path, dst: &mut Write) {
let mut file = t!(File::open(&path));
let amt = t!(file.metadata()).len();
t!(dst.write_all(&[
(amt >> 24) as u8,
(amt >> 16) as u8,
(amt >> 8) as u8,
(amt >> 0) as u8,
]));
t!(io::copy(&mut file, dst));
}

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@ -0,0 +1,6 @@
[package]
name = "qemu-test-server"
version = "0.1.0"
authors = ["The Rust Project Developers"]
[dependencies]

View File

@ -0,0 +1,232 @@
// Copyright 2017 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
/// This is a small server which is intended to run inside of an emulator. This
/// server pairs with the `qemu-test-client` program in this repository. The
/// `qemu-test-client` connects to this server over a TCP socket and performs
/// work such as:
///
/// 1. Pushing shared libraries to the server
/// 2. Running tests through the server
///
/// The server supports running tests concurrently and also supports tests
/// themselves having support libraries. All data over the TCP sockets is in a
/// basically custom format suiting our needs.
use std::fs::{self, File, Permissions};
use std::io::prelude::*;
use std::io::{self, BufReader};
use std::net::{TcpListener, TcpStream};
use std::os::unix::prelude::*;
use std::sync::{Arc, Mutex};
use std::path::Path;
use std::str;
use std::sync::atomic::{AtomicUsize, ATOMIC_USIZE_INIT, Ordering};
use std::thread;
use std::process::{Command, Stdio};
macro_rules! t {
($e:expr) => (match $e {
Ok(e) => e,
Err(e) => panic!("{} failed with {}", stringify!($e), e),
})
}
static TEST: AtomicUsize = ATOMIC_USIZE_INIT;
fn main() {
println!("starting test server");
let listener = t!(TcpListener::bind("10.0.2.15:12345"));
println!("listening!");
let work = Path::new("/tmp/work");
t!(fs::create_dir_all(work));
let lock = Arc::new(Mutex::new(()));
for socket in listener.incoming() {
let mut socket = t!(socket);
let mut buf = [0; 4];
t!(socket.read_exact(&mut buf));
if &buf[..] == b"ping" {
t!(socket.write_all(b"pong"));
} else if &buf[..] == b"push" {
handle_push(socket, work);
} else if &buf[..] == b"run " {
let lock = lock.clone();
thread::spawn(move || handle_run(socket, work, &lock));
} else {
panic!("unknown command {:?}", buf);
}
}
}
fn handle_push(socket: TcpStream, work: &Path) {
let mut reader = BufReader::new(socket);
let mut filename = Vec::new();
t!(reader.read_until(0, &mut filename));
filename.pop(); // chop off the 0
let filename = t!(str::from_utf8(&filename));
let path = work.join(filename);
t!(io::copy(&mut reader, &mut t!(File::create(&path))));
t!(fs::set_permissions(&path, Permissions::from_mode(0o755)));
}
struct RemoveOnDrop<'a> {
inner: &'a Path,
}
impl<'a> Drop for RemoveOnDrop<'a> {
fn drop(&mut self) {
t!(fs::remove_dir_all(self.inner));
}
}
fn handle_run(socket: TcpStream, work: &Path, lock: &Mutex<()>) {
let mut arg = Vec::new();
let mut reader = BufReader::new(socket);
// Allocate ourselves a directory that we'll delete when we're done to save
// space.
let n = TEST.fetch_add(1, Ordering::SeqCst);
let path = work.join(format!("test{}", n));
let exe = path.join("exe");
t!(fs::create_dir(&path));
let _a = RemoveOnDrop { inner: &path };
// First up we'll get a list of arguments delimited with 0 bytes. An empty
// argument means that we're done.
let mut cmd = Command::new(&exe);
while t!(reader.read_until(0, &mut arg)) > 1 {
cmd.arg(t!(str::from_utf8(&arg[..arg.len() - 1])));
arg.truncate(0);
}
// Next we'll get a bunch of env vars in pairs delimited by 0s as well
arg.truncate(0);
while t!(reader.read_until(0, &mut arg)) > 1 {
let key_len = arg.len() - 1;
let val_len = t!(reader.read_until(0, &mut arg)) - 1;
{
let key = &arg[..key_len];
let val = &arg[key_len + 1..][..val_len];
let key = t!(str::from_utf8(key));
let val = t!(str::from_utf8(val));
cmd.env(key, val);
}
arg.truncate(0);
}
// The section of code from here down to where we drop the lock is going to
// be a critical section for us. On Linux you can't execute a file which is
// open somewhere for writing, as you'll receive the error "text file busy".
// Now here we never have the text file open for writing when we spawn it,
// so why do we still need a critical section?
//
// Process spawning first involves a `fork` on Unix, which clones all file
// descriptors into the child process. This means that it's possible for us
// to open the file for writing (as we're downloading it), then some other
// thread forks, then we close the file and try to exec. At that point the
// other thread created a child process with the file open for writing, and
// we attempt to execute it, so we get an error.
//
// This race is resolve by ensuring that only one thread can writ ethe file
// and spawn a child process at once. Kinda an unfortunate solution, but we
// don't have many other choices with this sort of setup!
//
// In any case the lock is acquired here, before we start writing any files.
// It's then dropped just after we spawn the child. That way we don't lock
// the execution of the child, just the creation of its files.
let lock = lock.lock();
// Next there's a list of dynamic libraries preceded by their filenames.
arg.truncate(0);
while t!(reader.read_until(0, &mut arg)) > 1 {
let dst = path.join(t!(str::from_utf8(&arg[..arg.len() - 1])));
let amt = read_u32(&mut reader) as u64;
t!(io::copy(&mut reader.by_ref().take(amt),
&mut t!(File::create(&dst))));
t!(fs::set_permissions(&dst, Permissions::from_mode(0o755)));
arg.truncate(0);
}
// Finally we'll get the binary. The other end will tell us how big the
// binary is and then we'll download it all to the exe path we calculated
// earlier.
let amt = read_u32(&mut reader) as u64;
t!(io::copy(&mut reader.by_ref().take(amt),
&mut t!(File::create(&exe))));
t!(fs::set_permissions(&exe, Permissions::from_mode(0o755)));
// Support libraries were uploaded to `work` earlier, so make sure that's
// in `LD_LIBRARY_PATH`. Also include our own current dir which may have
// had some libs uploaded.
cmd.env("LD_LIBRARY_PATH",
format!("{}:{}", work.display(), path.display()));
// Spawn the child and ferry over stdout/stderr to the socket in a framed
// fashion (poor man's style)
let mut child = t!(cmd.stdin(Stdio::null())
.stdout(Stdio::piped())
.stderr(Stdio::piped())
.spawn());
drop(lock);
let mut stdout = child.stdout.take().unwrap();
let mut stderr = child.stderr.take().unwrap();
let socket = Arc::new(Mutex::new(reader.into_inner()));
let socket2 = socket.clone();
let thread = thread::spawn(move || my_copy(&mut stdout, 0, &*socket2));
my_copy(&mut stderr, 1, &*socket);
thread.join().unwrap();
// Finally send over the exit status.
let status = t!(child.wait());
let (which, code) = match status.code() {
Some(n) => (0, n),
None => (1, status.signal().unwrap()),
};
t!(socket.lock().unwrap().write_all(&[
which,
(code >> 24) as u8,
(code >> 16) as u8,
(code >> 8) as u8,
(code >> 0) as u8,
]));
}
fn my_copy(src: &mut Read, which: u8, dst: &Mutex<Write>) {
let mut b = [0; 1024];
loop {
let n = t!(src.read(&mut b));
let mut dst = dst.lock().unwrap();
t!(dst.write_all(&[
which,
(n >> 24) as u8,
(n >> 16) as u8,
(n >> 8) as u8,
(n >> 0) as u8,
]));
if n > 0 {
t!(dst.write_all(&b[..n]));
} else {
break
}
}
}
fn read_u32(r: &mut Read) -> u32 {
let mut len = [0; 4];
t!(r.read_exact(&mut len));
((len[0] as u32) << 24) |
((len[1] as u32) << 16) |
((len[2] as u32) << 8) |
((len[3] as u32) << 0)
}