If you have followed the instructions below and are still having trouble, see Contact information.
There are instructions for other platforms linked from the get the code page.
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- A 64-bit Intel machine with at least 8GB of RAM. More than 16GB is highly recommended.
- At least 100GB of free disk space.
- You must have Git and Python installed already.
Most development is done on Ubuntu. Mac build is not supported. If you already have a Chromium checkout, continue to the next section. Otherwise, skip to the following section. If you are a Fuchsia developer, see also Working with the Fuchsia tree.
This section applies to you if you already have a Chromium checkout. You will need to update it to install Fuchsia-specific dependencies.
-
Edit your
.gclient
to addfuchsia
to thetarget_os
list. The file should look similar to this:solutions = [ { "url": "https://chromium.googlesource.com/chromium/src.git", "managed": False, "name": "src", "custom_deps": {}, "custom_vars": {} } ] target_os = ['fuchsia']
-
Run
gclient sync
-
Create a build directory:
$ gn gen out/fuchsia --args="is_debug=false dcheck_always_on=true is_component_build=false target_os=\"fuchsia\""
You can add many of the usual GN arguments like
use_remoteexec = true
. In particular, when working with devices, consider usingis_debug = false
andis_component_build = false
since debug and component builds can drastically increase run time and used space.
Build the target as you would for any other platform:
$ autoninja out/fuchsia <target_name>
To run the tests in an emulator, see the Run section.
Clone the depot_tools
repository:
$ git clone https://chromium.googlesource.com/chromium/tools/depot_tools.git
Add depot_tools
to the end of your PATH (you will probably want to put this in
your ~/.bashrc
or ~/.zshrc
). Assuming you cloned depot_tools
to
/path/to/depot_tools
:
$ export PATH="$PATH:/path/to/depot_tools"
Create a chromium
directory for the checkout and change to it (you can call
this whatever you like and put it wherever you like, as long as the full path
has no spaces):
$ mkdir ~/chromium && cd ~/chromium
Run the fetch
tool from depot_tools to check out the code and its
dependencies. Depending on your needs, you can check out Chromium along with
all of its previous revisions, or you can just check out the latest trunk.
Omitting the history is much faster to download and requires much less disk
space. If you are checking out on a slow or metered Internet connection,
you should consider omitting history.
- No Git version history - faster
$ fetch --nohooks --no-history chromium
- With Git version history - slower (up to 30m on fast connection)
$ fetch --nohooks chromium
If you've already installed the build dependencies on the machine (from another
checkout, for example), you can omit the --nohooks
flag and fetch
will
automatically execute gclient runhooks
at the end.
When fetch
completes, it will have created a hidden .gclient
file and a
directory called src
in the working directory.
Edit .gclient
to include (this is a list, so it could also include android
,
etc. if necessary.)
target_os = ['fuchsia']
Note that this should be added as a top-level statement in the .gclient
file,
not an entry inside the solutions
dict. An example .gclient
file would look
as follows:
solutions = [
{
"url": "https://chromium.googlesource.com/chromium/src.git",
"managed": False,
"name": "src",
"custom_deps": {},
"custom_vars": {}
}
]
target_os = ['fuchsia']
The Fuchsia boot images (also called "SDK companion images") to check out are
specified by the checkout_fuchsia_boot_images
variable. For instance, adding
"checkout_fuchsia_boot_images": "qemu.x64,workstation.qemu-x64-release",
to
the custom_vars
section of your .gclient
file would allow you to check out
both images. The set of available images is listed in the
DEPS file.
Note: fxbug.dev/85552 tracks migration away from the legacy image names, like
qemu.x64
, which is mapped to terminal.x64-release
by the
update_images.py
helper script.
You will then need to run:
$ gclient sync
This makes sure the Fuchsia SDK is available in third_party and keeps it up to date.
The remaining instructions assume you have switched to the src
directory:
$ cd src
Chromium relies on some platform packages to be present in order to build. You can install the current set of required packages with:
$ build/install-build-deps.sh
Note that you need to do this only once, and thereafter only if new dependencies are added - these will be announced to the chromium-dev@ group.
To update an existing checkout, you can run
$ git rebase-update
$ gclient sync
The first command updates the primary Chromium source repository and rebases any
of your local branches on top of tip-of-tree (aka the Git branch origin/main
).
If you don't want to use this script, you can also just use git pull
or other
common Git commands to update the repo.
The second command syncs dependencies to the appropriate versions and re-runs
hooks as needed. gclient sync
updates dependencies to the versions specified
in DEPS
, so any time that file is modified (pulling, changing branches, etc.)
gclient sync
should be run.
Go to
this page
and download the most recent build. Extract bin/llvm-ar
to the clang folder in
Chromium:
$ unzip /path/to/clang.zip bin/llvm-ar -d ${CHROMIUM_SRC}/third_party/llvm-build/Release+Asserts
Chromium uses Ninja as its main build tool along with
a tool called GN to
generate .ninja
files. You can create any number of build directories with
different configurations. To create a build directory, run:
$ gn gen out/fuchsia --args="is_debug=false dcheck_always_on=true is_component_build=false target_os=\"fuchsia\""
You can also build for Debug, with is_debug=true
, but since we don't currently
have any Debug build-bots, it may be more broken than Release.
use_remoteexec=true
is fine to use also if you're a Googler.
Architecture options are x64 (default) and arm64. This can be set with
target_cpu=\"arm64\"
.
All targets included in the GN build should build successfully. You can also build a specific binary, for example, base_unittests:
$ autoninja -C out/fuchsia base_unittests
(autoninja
is a wrapper that automatically provides optimal values for the
arguments passed to ninja
.)
Once you've built a package, you'll want to run it!
Under Linux, if your host and target CPU architectures are the same (e.g. you're building for Fuchsia/x64 on a Linux/x64 host) then you can benefit from QEMU's support for the KVM hypervisor:
- Install the KVM module for your kernel, to get a /dev/kvm device.
- Ensure that your system has a "kvm" group, and it owns /dev/kvm. You can do
that by installing the QEMU system common package:
shell $ sudo apt-get install qemu-system-common
- Add users to the "kvm" group, and have them login again, to pick-up the new
group.
shell $ sudo adduser <user> kvm $ exit [log in again]
There are four types of tests available to run on Fuchsia:
Check the documentations to learn more about how to run these tests.
Documentation for the underlying testing scripts work can be found here.
If you have a Fuchsia checkout and build, there are GN arguments in Chromium that make working with both Fuchsia and Chromium checkouts easier.
default_fuchsia_out_dir
. Point this to an output directory in Fuchsia. For instance./path/to/src/fuchsia/out/qemu-x64
. This will automatically add the--fuchsia-out-dir
flag to wrapper scripts.default_fuchsia_device_node_name
. Set this to a Fuchsia device node name. This will automatically add the--target-id
flag to most wrapper scripts.- Finally, use the
-d
flag when running the <test_target_name> wrappers to execute them on an already running device or emulator, rather than starting an ephemeral emulator instance. This speeds up subsequent runs since the runner script does not need to wait for the emulator instance to boot and only differential changes are pushed to the device.