docs/fuchsia_build_instructions.md - chromium/src - Git at Google

 # Checking out and building on Fuchsia

 ***Note that the Fuchsia port is in the early stages, and things are likely to
 frequently be broken. Try #cr-fuchsia on Freenode or Slack if something seems
 awry.***

 There are instructions for other platforms linked from the
 [get the code](get_the_code.md) page.

 [TOC]

 ## System requirements

 *   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 supported on a best-effort
 basis.

 ## Install `depot_tools`

 Clone the `depot_tools` repository:

 ```shell
 $ 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`:

 ```shell
 $ export PATH="$PATH:/path/to/depot_tools"
 ```

 ## Get the code

 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):

 ```shell
 $ mkdir ~/chromium && cd ~/chromium
 ```

 Run the `fetch` tool from depot_tools to check out the code and its
 dependencies.

 ```shell
 $ fetch --nohooks chromium
 ```

 Expect the command to take 30 minutes on even a fast connection, and many
 hours on slower ones.

 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.

 ### Configure for building on Fuchsia

 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']
 ```

 You will then need to run:

 ```shell
 $ 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:

 ```shell
 $ cd src
 ```

 ### (Linux-only) Install any required host packages

 Chromium relies on some platform packages to be present in order to build.
 You can install the current set of required packages with:

 ```shell
 $ 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.

 ### Update your checkout

 To update an existing checkout, you can run

 ```shell
 $ 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/master`). 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.

 ## (Mac-only) Download additional required Clang binaries

 Go to [this page](https://chrome-infra-packages.appspot.com/p/fuchsia/clang/mac-amd64/+/)
 and download the most recent build. Extract `bin/llvm-ar` to the clang folder
 in Chromium:

 ```shell
 $ unzip /path/to/clang.zip bin/llvm-ar -d ${CHROMIUM_SRC}/third_party/llvm-build/Release+Asserts
 ```

 ## Setting up the build

 Chromium uses [Ninja](https://ninja-build.org) as its main build tool along with
 a tool called [GN](https://gn.googlesource.com/gn/+/master/docs/quick_start.md)
 to generate `.ninja` files. You can create any number of *build directories*
 with different configurations. To create a build directory, run:

 ```shell
 $ 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_goma=true` is fine to use also if you're a Googler.

 ## Build

 All targets included in the GN build should build successfully. You can also
 build a specific binary, for example, base\_unittests:

 ```shell
 $ autoninja -C out/fuchsia base_unittests
 ```

 (`autoninja` is a wrapper that automatically provides optimal values for the
 arguments passed to `ninja`.)

 ## Run

 Once you've built a package, you'll want to run it!

 ### (Recommended)(Linux-only) Enable KVM acceleration

 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:

 1. Install the KVM module for your kernel, to get a /dev/kvm device.
 2. 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
 ```
 3. 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]
 ```

 ### Running test suites

 Building test suites generate a launcher script to run them on an emulator
 or a physical device. These scripts are generated at `out/fuchsia/bin`. For
 instance,to run the `base_unittests` target, launch:

 ```shell
 $ out/fuchsia/bin/run_base_unittests
 ```

 Common gtest arguments such as `--gtest_filter=...` are supported by the run
 script. The launcher script also symbolizes backtraces.

 The test suite, by default, will run on QEMU. AEMU can be used for running
 tests that interact with Fuchsia's window manager, Scenic. To change the device
 that Fuchsia will run on, use `--device={aemu|qemu|device}`.

 To run a test suite on an *unprovisioned device* in a zedboot state, simply add
 `-d` to the test runner script arguments. Subsequent runs of the test runner
 script will be able to pick up the same device.

 To run a test suite on a device that is *already provisioned*, add the following
 arguments to the test runner script:

 * `-d` to run the test suite on a device.
 * `--fuchsia-out-dir=[/path/to/fuchsia/out/directory]` or
   `--ssh-config=[/path/to/ssh_config]` to specify the SSH configuration used for
   connecting to the target device.
 * (Optional) `--host=[IP]` to specify the test device IP. Typically, this is the
 value obtained from the command `fx netaddr --fuchsia`.
 * (Optional) `--port=[port]` to specify the SSH port, if different from 22.

 ### Troubleshooting a test

 To troubleshoot a specific test, consider a combination of the following
 arguments to the test runner script:

 * `--gtest_filter="[TestSuite.TestName]"` to only run a specific test, or a
   comma-separated list to run a set of tests. Wildcards can also be used to run
   a set of tests or an entire test suite, e.g. `--gtest_filter="[TestSuite.*]"`.
 * `--test-launcher-jobs=1` to only have one batch of tests running at a time.
   This bypasses the test launcher buffering of test log output, making it
   possible to access the log output from successful test runs.
 * `--single-process-tests` to run all the tests in the same process. Unlike the
   above option, this will run the tests directly in the test launcher process,
   making it easier to attach a debugger.
 * `system-log-file=[/path/to/syslog]` to specify the file to write system logs
   to. Or `system-log-file=-` to write the system logs to stdout. By default,
   Chromium logs are written to the system log on Fuchsia. This argument is known
   to cause `IOError` python exceptions with a QEMU target.
 * `--gtest_repeat=[number] --gtest_break_on_failure` to run a test or test suite
   a certain number of times until it fails. This is useful to investigate flaky
   tests.
	# Checking out and building on Fuchsia

	***Note that the Fuchsia port is in the early stages, and things are likely to
	frequently be broken. Try #cr-fuchsia on Freenode or Slack if something seems
	awry.***

	There are instructions for other platforms linked from the
	[get the code](get_the_code.md) page.

	[TOC]

	## System requirements

	* 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 supported on a best-effort
	basis.

	## Install `depot_tools`

	Clone the `depot_tools` repository:

	```shell
	$ 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`:

	```shell
	$ export PATH="$PATH:/path/to/depot_tools"
	```

	## Get the code

	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):

	```shell
	$ mkdir ~/chromium && cd ~/chromium
	```

	Run the `fetch` tool from depot_tools to check out the code and its
	dependencies.

	```shell
	$ fetch --nohooks chromium
	```

	Expect the command to take 30 minutes on even a fast connection, and many
	hours on slower ones.

	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.

	### Configure for building on Fuchsia

	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']
	```

	You will then need to run:

	```shell
	$ 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:

	```shell
	$ cd src
	```

	### (Linux-only) Install any required host packages

	Chromium relies on some platform packages to be present in order to build.
	You can install the current set of required packages with:

	```shell
	$ 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.

	### Update your checkout

	To update an existing checkout, you can run

	```shell
	$ 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/master`). 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.

	## (Mac-only) Download additional required Clang binaries

	Go to [this page](https://chrome-infra-packages.appspot.com/p/fuchsia/clang/mac-amd64/+/)
	and download the most recent build. Extract `bin/llvm-ar` to the clang folder
	in Chromium:

	```shell
	$ unzip /path/to/clang.zip bin/llvm-ar -d ${CHROMIUM_SRC}/third_party/llvm-build/Release+Asserts
	```

	## Setting up the build

	Chromium uses [Ninja](https://ninja-build.org) as its main build tool along with
	a tool called [GN](https://gn.googlesource.com/gn/+/master/docs/quick_start.md)
	to generate `.ninja` files. You can create any number of build directories
	with different configurations. To create a build directory, run:

	```shell
	$ 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_goma=true` is fine to use also if you're a Googler.

	## Build

	All targets included in the GN build should build successfully. You can also
	build a specific binary, for example, base\_unittests:

	```shell
	$ autoninja -C out/fuchsia base_unittests
	```

	(`autoninja` is a wrapper that automatically provides optimal values for the
	arguments passed to `ninja`.)

	## Run

	Once you've built a package, you'll want to run it!

	### (Recommended)(Linux-only) Enable KVM acceleration

	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:

	1. Install the KVM module for your kernel, to get a /dev/kvm device.
	2. 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
	```
	3. 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]
	```

	### Running test suites

	Building test suites generate a launcher script to run them on an emulator
	or a physical device. These scripts are generated at `out/fuchsia/bin`. For
	instance,to run the `base_unittests` target, launch:

	```shell
	$ out/fuchsia/bin/run_base_unittests
	```

	Common gtest arguments such as `--gtest_filter=...` are supported by the run
	script. The launcher script also symbolizes backtraces.

	The test suite, by default, will run on QEMU. AEMU can be used for running
	tests that interact with Fuchsia's window manager, Scenic. To change the device
	that Fuchsia will run on, use `--device={aemu\|qemu\|device}`.

	To run a test suite on an unprovisioned device in a zedboot state, simply add
	`-d` to the test runner script arguments. Subsequent runs of the test runner
	script will be able to pick up the same device.

	To run a test suite on a device that is already provisioned, add the following
	arguments to the test runner script:

	* `-d` to run the test suite on a device.
	* `--fuchsia-out-dir=[/path/to/fuchsia/out/directory]` or
	`--ssh-config=[/path/to/ssh_config]` to specify the SSH configuration used for
	connecting to the target device.
	* (Optional) `--host=[IP]` to specify the test device IP. Typically, this is the
	value obtained from the command `fx netaddr --fuchsia`.
	* (Optional) `--port=[port]` to specify the SSH port, if different from 22.

	### Troubleshooting a test

	To troubleshoot a specific test, consider a combination of the following
	arguments to the test runner script:

	* `--gtest_filter="[TestSuite.TestName]"` to only run a specific test, or a
	comma-separated list to run a set of tests. Wildcards can also be used to run
	a set of tests or an entire test suite, e.g. `--gtest_filter="[TestSuite.*]"`.
	* `--test-launcher-jobs=1` to only have one batch of tests running at a time.
	This bypasses the test launcher buffering of test log output, making it
	possible to access the log output from successful test runs.
	* `--single-process-tests` to run all the tests in the same process. Unlike the
	above option, this will run the tests directly in the test launcher process,
	making it easier to attach a debugger.
	* `system-log-file=[/path/to/syslog]` to specify the file to write system logs
	to. Or `system-log-file=-` to write the system logs to stdout. By default,
	Chromium logs are written to the system log on Fuchsia. This argument is known
	to cause `IOError` python exceptions with a QEMU target.
	* `--gtest_repeat=[number] --gtest_break_on_failure` to run a test or test suite
	a certain number of times until it fails. This is useful to investigate flaky
	tests.