aarch64-unknown-fuchsia
and x86_64-unknown-fuchsia
Tier: 2
Fuchsia is a modern open source operating system that's simple, secure, updatable, and performant.
Target maintainers
The Fuchsia team:
- Tyler Mandry (@tmandry)
- Dan Johnson (@computerdruid)
- David Koloski (@djkoloski)
- Joseph Ryan (@P1n3appl3)
As the team evolves over time, the specific members listed here may differ from
the members reported by the API. The API should be considered to be
authoritative if this occurs. Instead of pinging individual members, use
@rustbot ping fuchsia
to contact the team on GitHub.
Table of contents
- Requirements
- Walkthrough structure
- Compiling a Rust binary targeting Fuchsia
- Creating a Fuchsia package
- Publishing a Fuchsia package
- Running a Fuchsia component on an emulator
.gitignore
extensions- Testing
- Debugging
Requirements
This target is cross-compiled from a host environment. You will need a recent copy of the Fuchsia SDK, which provides the tools, libraries, and binaries required to build and link programs for Fuchsia.
Development may also be done from the source tree.
Fuchsia targets support std
and follow the sysv64
calling convention on
x86_64. Fuchsia binaries use the ELF file format.
Walkthrough structure
This walkthrough will cover:
- Compiling a Rust binary targeting Fuchsia.
- Building a Fuchsia package.
- Publishing and running a Fuchsia package to a Fuchsia emulator.
For the purposes of this walkthrough, we will only target x86_64-unknown-fuchsia
.
Compiling a Rust binary targeting Fuchsia
Today, there are two main ways to build a Rust binary targeting Fuchsia using the Fuchsia SDK:
- Allow rustup to handle the installation of Fuchsia targets for you.
- Build a toolchain locally that can target Fuchsia.
Targeting Fuchsia with rustup and cargo
The easiest way to build a Rust binary targeting Fuchsia is by allowing rustup to handle the installation of Fuchsia targets for you. This can be done by issuing the following commands:
rustup target add x86_64-unknown-fuchsia
rustup target add aarch64-unknown-fuchsia
After installing our Fuchsia targets, we can now compile a Rust binary that targets Fuchsia.
To create our Rust project, we can use cargo
as follows:
From base working directory
cargo new hello_fuchsia
The rest of this walkthrough will take place from hello_fuchsia
, so we can
change into that directory now:
cd hello_fuchsia
Note: From this point onwards, all commands will be issued from the hello_fuchsia/
directory, and all hello_fuchsia/
prefixes will be removed from references for sake of brevity.
We can edit our src/main.rs
to include a test as follows:
src/main.rs
fn main() { println!("Hello Fuchsia!"); } #[test] fn it_works() { assert_eq!(2 + 2, 4); }
In addition to the standard workspace created, we will want to create a
.cargo/config.toml
file to link necessary libraries
during compilation:
.cargo/config.toml
[target.x86_64-unknown-fuchsia]
rustflags = [
"-Lnative=<SDK_PATH>/arch/x64/lib",
"-Lnative=<SDK_PATH>/arch/x64/sysroot/lib"
]
Note: Make sure to fill out <SDK_PATH>
with the path to the downloaded Fuchsia SDK.
These options configure the following:
-Lnative=${SDK_PATH}/arch/${ARCH}/lib
: Link against Fuchsia libraries from the SDK-Lnative=${SDK_PATH}/arch/${ARCH}/sysroot/lib
: Link against Fuchsia sysroot libraries from the SDK
In total, our new project will look like:
Current directory structure
hello_fuchsia/
┣━ src/
┃ ┗━ main.rs
┣━ Cargo.toml
┗━ .cargo/
┗━ config.toml
Finally, we can build our rust binary as:
cargo build --target x86_64-unknown-fuchsia
Now we have a Rust binary at target/x86_64-unknown-fuchsia/debug/hello_fuchsia
,
targeting our desired Fuchsia target.
Current directory structure
hello_fuchsia/
┣━ src/
┃ ┗━ main.rs
┣━ target/
┃ ┗━ x86_64-unknown-fuchsia/
┃ ┗━ debug/
┃ ┗━ hello_fuchsia
┣━ Cargo.toml
┗━ .cargo/
┗━ config.toml
Targeting Fuchsia with a compiler built from source
An alternative to the first workflow is to target Fuchsia by using
rustc
built from source.
Before building Rust for Fuchsia, you'll need a clang toolchain that supports Fuchsia as well. A recent version (14+) of clang should be sufficient to compile Rust for Fuchsia.
x86-64 and AArch64 Fuchsia targets can be enabled using the following
configuration in config.toml
:
[build]
target = ["<host_platform>", "aarch64-unknown-fuchsia", "x86_64-unknown-fuchsia"]
[rust]
lld = true
[llvm]
download-ci-llvm = false
[target.x86_64-unknown-fuchsia]
cc = "clang"
cxx = "clang++"
[target.aarch64-unknown-fuchsia]
cc = "clang"
cxx = "clang++"
Though not strictly required, you may also want to use clang
for your host
target as well:
[target.<host_platform>]
cc = "clang"
cxx = "clang++"
By default, the Rust compiler installs itself to /usr/local
on most UNIX
systems. You may want to install it to another location (e.g. a local install
directory) by setting a custom prefix in config.toml
:
[install]
# Make sure to use the absolute path to your install directory
prefix = "<RUST_SRC_PATH>/install"
Next, the following environment variables must be configured. For example, using
a script we name config-env.sh
:
# Configure this environment variable to be the path to the downloaded SDK
export SDK_PATH="<SDK path goes here>"
export CFLAGS_aarch64_unknown_fuchsia="--target=aarch64-unknown-fuchsia --sysroot=${SDK_PATH}/arch/arm64/sysroot -I${SDK_PATH}/pkg/fdio/include"
export CXXFLAGS_aarch64_unknown_fuchsia="--target=aarch64-unknown-fuchsia --sysroot=${SDK_PATH}/arch/arm64/sysroot -I${SDK_PATH}/pkg/fdio/include"
export LDFLAGS_aarch64_unknown_fuchsia="--target=aarch64-unknown-fuchsia --sysroot=${SDK_PATH}/arch/arm64/sysroot -L${SDK_PATH}/arch/arm64/lib"
export CARGO_TARGET_AARCH64_UNKNOWN_FUCHSIA_RUSTFLAGS="-C link-arg=--sysroot=${SDK_PATH}/arch/arm64/sysroot -Lnative=${SDK_PATH}/arch/arm64/sysroot/lib -Lnative=${SDK_PATH}/arch/arm64/lib"
export CFLAGS_x86_64_unknown_fuchsia="--target=x86_64-unknown-fuchsia --sysroot=${SDK_PATH}/arch/x64/sysroot -I${SDK_PATH}/pkg/fdio/include"
export CXXFLAGS_x86_64_unknown_fuchsia="--target=x86_64-unknown-fuchsia --sysroot=${SDK_PATH}/arch/x64/sysroot -I${SDK_PATH}/pkg/fdio/include"
export LDFLAGS_x86_64_unknown_fuchsia="--target=x86_64-unknown-fuchsia --sysroot=${SDK_PATH}/arch/x64/sysroot -L${SDK_PATH}/arch/x64/lib"
export CARGO_TARGET_X86_64_UNKNOWN_FUCHSIA_RUSTFLAGS="-C link-arg=--sysroot=${SDK_PATH}/arch/x64/sysroot -Lnative=${SDK_PATH}/arch/x64/sysroot/lib -Lnative=${SDK_PATH}/arch/x64/lib"
Finally, the Rust compiler can be built and installed:
(source config-env.sh && ./x.py install)
Once rustc
is installed, we can create a new working directory to work from,
hello_fuchsia
along with hello_fuchsia/src
:
mkdir hello_fuchsia
cd hello_fuchsia
mkdir src
Note: From this point onwards, all commands will be issued from the hello_fuchsia/
directory, and all hello_fuchsia/
prefixes will be removed from references for sake of brevity.
There, we can create a new file named src/hello_fuchsia.rs
:
src/hello_fuchsia.rs
fn main() { println!("Hello Fuchsia!"); } #[test] fn it_works() { assert_eq!(2 + 2, 4); }
Current directory structure
hello_fuchsia/
┗━ src/
┗━ hello_fuchsia.rs
Using your freshly installed rustc
, you can compile a binary for Fuchsia using
the following options:
--target x86_64-unknown-fuchsia
/--target aarch64-unknown-fuchsia
: Targets the Fuchsia platform of your choice-Lnative ${SDK_PATH}/arch/${ARCH}/lib
: Link against Fuchsia libraries from the SDK-Lnative ${SDK_PATH}/arch/${ARCH}/sysroot/lib
: Link against Fuchsia sysroot libraries from the SDK
Putting it all together:
# Configure these for the Fuchsia target of your choice
TARGET_ARCH="<x86_64-unknown-fuchsia|aarch64-unknown-fuchsia>"
ARCH="<x64|aarch64>"
rustc \
--target ${TARGET_ARCH} \
-Lnative=${SDK_PATH}/arch/${ARCH}/lib \
-Lnative=${SDK_PATH}/arch/${ARCH}/sysroot/lib \
--out-dir bin src/hello_fuchsia.rs
Current directory structure
hello_fuchsia/
┣━ src/
┃ ┗━ hello_fuchsia.rs
┗━ bin/
┗━ hello_fuchsia
Creating a Fuchsia package
Before moving on, double check your directory structure:
Current directory structure
hello_fuchsia/
┣━ src/ (if using rustc)
┃ ┗━ hello_fuchsia.rs ...
┣━ bin/ ...
┃ ┗━ hello_fuchsia ...
┣━ src/ (if using cargo)
┃ ┗━ main.rs ...
┗━ target/ ...
┗━ x86_64-unknown-fuchsia/ ...
┗━ debug/ ...
┗━ hello_fuchsia ...
With our Rust binary built, we can move to creating a Fuchsia package. On Fuchsia, a package is the unit of distribution for software. We'll need to create a new package directory where we will place files like our finished binary and any data it may need.
To start, make the pkg
, and pkg/meta
directories:
mkdir pkg
mkdir pkg/meta
Current directory structure
hello_fuchsia/
┗━ pkg/
┗━ meta/
Now, create the following files inside:
pkg/meta/package
{
"name": "hello_fuchsia",
"version": "0"
}
The package
file describes our package's name and version number. Every
package must contain one.
pkg/hello_fuchsia.manifest
if using cargo
bin/hello_fuchsia=target/x86_64-unknown-fuchsia/debug/hello_fuchsia
lib/ld.so.1=<SDK_PATH>/arch/x64/sysroot/dist/lib/ld.so.1
lib/libfdio.so=<SDK_PATH>/arch/x64/dist/libfdio.so
meta/package=pkg/meta/package
meta/hello_fuchsia.cm=pkg/meta/hello_fuchsia.cm
pkg/hello_fuchsia.manifest
if using rustc
bin/hello_fuchsia=bin/hello_fuchsia
lib/ld.so.1=<SDK_PATH>/arch/x64/sysroot/dist/lib/ld.so.1
lib/libfdio.so=<SDK_PATH>/arch/x64/dist/libfdio.so
meta/package=pkg/meta/package
meta/hello_fuchsia.cm=pkg/meta/hello_fuchsia.cm
Note: Relative manifest paths are resolved starting from the working directory
of pm
. Make sure to fill out <SDK_PATH>
with the path to the downloaded
SDK.
The .manifest
file will be used to describe the contents of the package by
relating their location when installed to their location on the file system. The
bin/hello_fuchsia=
entry will be different depending on how your Rust binary
was built, so choose accordingly.
Current directory structure
hello_fuchsia/
┗━ pkg/
┣━ meta/
┃ ┗━ package
┗━ hello_fuchsia.manifest
Creating a Fuchsia component
On Fuchsia, components require a component manifest written in Fuchsia's markup language called CML. The Fuchsia devsite contains an overview of CML and a reference for the file format. Here's a basic one that can run our single binary:
pkg/hello_fuchsia.cml
{
include: [ "syslog/client.shard.cml" ],
program: {
runner: "elf",
binary: "bin/hello_fuchsia",
},
}
Current directory structure
hello_fuchsia/
┗━ pkg/
┣━ meta/
┃ ┗━ package
┣━ hello_fuchsia.manifest
┗━ hello_fuchsia.cml
Now we can compile that CML into a component manifest:
${SDK_PATH}/tools/${ARCH}/cmc compile \
pkg/hello_fuchsia.cml \
--includepath ${SDK_PATH}/pkg \
-o pkg/meta/hello_fuchsia.cm
Note: --includepath
tells the compiler where to look for include
s from our CML.
In our case, we're only using syslog/client.shard.cml
.
Current directory structure
hello_fuchsia/
┗━ pkg/
┣━ meta/
┃ ┣━ package
┃ ┗━ hello_fuchsia.cm
┣━ hello_fuchsia.manifest
┗━ hello_fuchsia.cml
Building a Fuchsia package
Next, we'll build a package manifest as defined by our manifest:
${SDK_PATH}/tools/${ARCH}/pm \
-api-level $(${SDK_PATH}/tools/${ARCH}/ffx version -v | grep "api-level" | head -1 | awk -F ' ' '{print $2}') \
-o pkg/hello_fuchsia_manifest \
-m pkg/hello_fuchsia.manifest \
build \
-output-package-manifest pkg/hello_fuchsia_package_manifest
This will produce pkg/hello_fuchsia_manifest/
which is a package manifest we can
publish directly to a repository.
Current directory structure
hello_fuchsia/
┗━ pkg/
┣━ meta/
┃ ┣━ package
┃ ┗━ hello_fuchsia.cm
┣━ hello_fuchsia_manifest/
┃ ┗━ ...
┣━ hello_fuchsia.manifest
┣━ hello_fuchsia.cml
┗━ hello_fuchsia_package_manifest
We are now ready to publish the package.
Publishing a Fuchsia package
With our package and component manifests setup, we can now publish our package. The first step will be to create a Fuchsia package repository to publish to.
Creating a Fuchsia package repository
We can set up our repository with:
${SDK_PATH}/tools/${ARCH}/pm newrepo \
-repo pkg/repo
Current directory structure
hello_fuchsia/
┗━ pkg/
┣━ meta/
┃ ┣━ package
┃ ┗━ hello_fuchsia.cm
┣━ hello_fuchsia_manifest/
┃ ┗━ ...
┣━ repo/
┃ ┗━ ...
┣━ hello_fuchsia.manifest
┣━ hello_fuchsia.cml
┗━ hello_fuchsia_package_manifest
Publishing Fuchsia package to repository
We can publish our new package to that repository with:
${SDK_PATH}/tools/${ARCH}/pm publish \
-repo pkg/repo \
-lp -f <(echo "pkg/hello_fuchsia_package_manifest")
Then we can add the repository to ffx
's package server as hello-fuchsia
using:
${SDK_PATH}/tools/${ARCH}/ffx repository add-from-pm \
pkg/repo \
-r hello-fuchsia
Running a Fuchsia component on an emulator
At this point, we are ready to run our Fuchsia component. For reference, our final directory structure will look like:
Final directory structure
hello_fuchsia/
┣━ src/ (if using rustc)
┃ ┗━ hello_fuchsia.rs ...
┣━ bin/ ...
┃ ┗━ hello_fuchsia ...
┣━ src/ (if using cargo)
┃ ┗━ main.rs ...
┣━ target/ ...
┃ ┗━ x86_64-unknown-fuchsia/ ...
┃ ┗━ debug/ ...
┃ ┗━ hello_fuchsia ...
┗━ pkg/
┣━ meta/
┃ ┣━ package
┃ ┗━ hello_fuchsia.cm
┣━ hello_fuchsia_manifest/
┃ ┗━ ...
┣━ repo/
┃ ┗━ ...
┣━ hello_fuchsia.manifest
┣━ hello_fuchsia.cml
┗━ hello_fuchsia_package_manifest
Starting the Fuchsia emulator
Start a Fuchsia emulator in a new terminal using:
${SDK_PATH}/tools/${ARCH}/ffx product-bundle get workstation_eng.qemu-${ARCH}
${SDK_PATH}/tools/${ARCH}/ffx emu start workstation_eng.qemu-${ARCH} --headless
Watching emulator logs
Once the emulator is running, open a separate terminal to watch the emulator logs:
In separate terminal
${SDK_PATH}/tools/${ARCH}/ffx log \
--since now
Serving a Fuchsia package
Now, start a package repository server to serve our package to the emulator:
${SDK_PATH}/tools/${ARCH}/ffx repository server start
Once the repository server is up and running, register it with the target Fuchsia system running in the emulator:
${SDK_PATH}/tools/${ARCH}/ffx target repository register \
--repository hello-fuchsia
Running a Fuchsia component
Finally, run the component:
${SDK_PATH}/tools/${ARCH}/ffx component run \
/core/ffx-laboratory:hello_fuchsia \
fuchsia-pkg://hello-fuchsia/hello_fuchsia_manifest#meta/hello_fuchsia.cm
On reruns of the component, the --recreate
argument may also need to be
passed.
${SDK_PATH}/tools/${ARCH}/ffx component run \
--recreate \
/core/ffx-laboratory:hello_fuchsia \
fuchsia-pkg://hello-fuchsia/hello_fuchsia_manifest#meta/hello_fuchsia.cm
.gitignore
extensions
Optionally, we can create/extend our .gitignore
file to ignore files and
directories that are not helpful to track:
pkg/repo
pkg/meta/hello_fuchsia.cm
pkg/hello_fuchsia_manifest
pkg/hello_fuchsia_package_manifest
Testing
Running unit tests
Tests can be run in the same way as a regular binary.
-
If using
cargo
, you can simply passtest --no-run
to thecargo
invocation and then repackage and rerun the Fuchsia package. From our previous example, this would look likecargo test --target x86_64-unknown-fuchsia --no-run
, and moving the executable binary path found from the lineExecutable unittests src/main.rs (target/x86_64-unknown-fuchsia/debug/deps/hello_fuchsia-<HASH>)
intopkg/hello_fuchsia.manifest
. -
If using the compiled
rustc
, you can simply pass--test
to therustc
invocation and then repackage and rerun the Fuchsia package.
The test harness will run the applicable unit tests.
Often when testing, you may want to pass additional command line arguments to your binary. Additional arguments can be set in the component manifest:
pkg/hello_fuchsia.cml
{
include: [ "syslog/client.shard.cml" ],
program: {
runner: "elf",
binary: "bin/hello_fuchsia",
args: ["it_works"],
},
}
This will pass the argument it_works
to the binary, filtering the tests to
only those tests that match the pattern. There are many more configuration
options available in CML including environment variables. More documentation is
available on the Fuchsia devsite.
Running the compiler test suite
The commands in this section assume that they are being run from inside your local Rust source checkout:
cd ${RUST_SRC_PATH}
To run the Rust test suite on an emulated Fuchsia device, you must install the Rust compiler locally. See "Targeting Fuchsia with a compiler built from source" for the steps to build locally.
You'll also need to download a copy of the Fuchsia SDK. The current minimum supported SDK version is 10.20221207.2.89.
Fuchsia's test runner interacts with the Fuchsia emulator and is located at
src/ci/docker/scripts/fuchsia-test-runner.py
. We can use it to start our
test environment with:
src/ci/docker/scripts/fuchsia-test-runner.py start
--rust ${RUST_SRC_PATH}/install
--sdk ${SDK_PATH}
--target {x86_64-unknown-fuchsia|aarch64-unknown-fuchsia}
Where ${RUST_SRC_PATH}/install
is the prefix
set in config.toml
and
${SDK_PATH}
is the path to the downloaded and unzipped SDK.
Once our environment is started, we can run our tests using x.py
as usual. The
test runner script will run the compiled tests on an emulated Fuchsia device. To
run the full tests/ui
test suite:
( \
source config-env.sh && \
./x.py \
--config config.toml \
--stage=2 \
test tests/ui \
--target x86_64-unknown-fuchsia \
--run=always \
--test-args --target-rustcflags \
--test-args -Lnative=${SDK_PATH}/arch/{x64|arm64}/sysroot/lib \
--test-args --target-rustcflags \
--test-args -Lnative=${SDK_PATH}/arch/{x64|arm64}/lib \
--test-args --target-rustcflags \
--test-args -Clink-arg=--undefined-version \
--test-args --remote-test-client \
--test-args src/ci/docker/scripts/fuchsia-test-runner.py \
)
By default, x.py
compiles test binaries with panic=unwind
. If you built your
Rust toolchain with -Cpanic=abort
, you need to tell x.py
to compile test
binaries with panic=abort
as well:
--test-args --target-rustcflags \
--test-args -Cpanic=abort \
--test-args --target-rustcflags \
--test-args -Zpanic_abort_tests \
When finished testing, the test runner can be used to stop the test environment:
src/ci/docker/scripts/fuchsia-test-runner.py stop
Debugging
zxdb
Debugging components running on a Fuchsia emulator can be done using the
console-mode debugger: zxdb. We will demonstrate attaching necessary symbol
paths to debug our hello-fuchsia
component.
Attaching zxdb
In a separate terminal, issue the following command from our hello_fuchsia
directory to launch zxdb
:
In separate terminal
${SDK_PATH}/tools/${ARCH}/ffx debug connect -- \
--symbol-path target/x86_64-unknown-fuchsia/debug
--symbol-path
gets required symbol paths, which are necessary for stepping through your program.
The "displaying source code in zxdb
"
section describes how you can display Rust and/or Fuchsia source code in your
debugging session.
Using zxdb
Once launched, you will be presented with the window:
Connecting (use "disconnect" to cancel)...
Connected successfully.
👉 To get started, try "status" or "help".
[zxdb]
To attach to our program, we can run:
[zxdb] attach hello_fuchsia
Expected output
Waiting for process matching "hello_fuchsia".
Type "filter" to see the current filters.
Next, we can create a breakpoint at main using "b main":
[zxdb] b main
Expected output
Created Breakpoint 1 @ main
Finally, we can re-run the "hello_fuchsia" component from our original terminal:
${SDK_PATH}/tools/${ARCH}/ffx component run \
--recreate \
fuchsia-pkg://hello-fuchsia/hello_fuchsia_manifest#meta/hello_fuchsia.cm
Once our component is running, our zxdb
window will stop execution
in our main as desired:
Expected output
Breakpoint 1 now matching 1 addrs for main
🛑 on bp 1 hello_fuchsia::main() • main.rs:2
1 fn main() {
▶ 2 println!("Hello Fuchsia!");
3 }
4
[zxdb]
zxdb
has similar commands to other debuggers like gdb.
To list the available commands, run "help" in the
zxdb
window or visit the zxdb documentation.
[zxdb] help
Expected output
Help!
Type "help <command>" for command-specific help.
Other help topics (see "help <topic>")
...
Displaying source code in zxdb
By default, the debugger will not be able to display
source code while debugging. For our user code, we displayed
source code by pointing our debugger to our debug binary via
the --symbol-path
arg. To display library source code in
the debugger, you must provide paths to the source using
--build-dir
. For example, to display the Rust and Fuchsia
source code:
${SDK_PATH}/tools/${ARCH}/ffx debug connect -- \
--symbol-path target/x86_64-unknown-fuchsia/debug \
--build-dir ${RUST_SRC_PATH}/rust \
--build-dir ${FUCHSIA_SRC_PATH}/fuchsia/out/default
--build-dir
links against source code paths, which are not strictly necessary for debugging, but is a nice-to-have for displaying source code inzxdb
.
Linking to a Fuchsia checkout can help with debugging Fuchsia libraries, such as fdio.
Debugging the compiler test suite
Debugging the compiler test suite requires some special configuration:
First, we have to properly configure zxdb so it will be able to find debug symbols and source information for our test. The test runner can do this for us with:
src/ci/docker/scripts/fuchsia-test-runner.py debug \
--rust-src ${RUST_SRC_PATH} \
--fuchsia-src ${FUCHSIA_SRC_PATH} \
--test ${TEST}
where ${TEST}
is relative to Rust's tests
directory (e.g. ui/abi/...
).
This will start a zxdb session that is properly configured for the specific test
being run. All three arguments are optional, so you can omit --fuchsia-src
if
you don't have it downloaded. Now is a good time to set any desired breakpoints,
like b main
.
Next, we have to tell x.py
not to optimize or strip debug symbols from our
test suite binaries. We can do this by passing some new arguments to rustc
through our x.py
invocation. The full invocation is:
( \
source config-env.sh && \
./x.py \
--config config.toml \
--stage=2 \
test tests/${TEST} \
--target x86_64-unknown-fuchsia \
--run=always \
--test-args --target-rustcflags \
--test-args -Lnative=${SDK_PATH}/arch/{x64|arm64}/sysroot/lib \
--test-args --target-rustcflags \
--test-args -Lnative=${SDK_PATH}/arch/{x64|arm64}/lib \
--test-args --target-rustcflags \
--test-args -Clink-arg=--undefined-version \
--test-args --target-rustcflags \
--test-args -Cdebuginfo=2 \
--test-args --target-rustcflags \
--test-args -Copt-level=0 \
--test-args --target-rustcflags \
--test-args -Cstrip=none \
--test-args --remote-test-client \
--test-args src/ci/docker/scripts/fuchsia-test-runner.py \
)
If you built your Rust toolchain with panic=abort
, make sure to include the
previous flags so your test binaries are also compiled with panic=abort
.
Upon running this command, the test suite binary will be run and zxdb will attach and load any relevant debug symbols.