This page describes in detail how the GPU bots are set up, which files affect their configuration, and how to both modify their behavior and add new bots.
[TOC]
Chromium's GPU bots, compared to the majority of the project's test machines, are physical pieces of hardware. When end users run the Chrome browser, they are almost surely running it on a physical piece of hardware with a real graphics processor. There are some portions of the code base which simply can not be exercised by running the browser in a virtual machine, or on a software implementation of the underlying graphics libraries. The GPU bots were developed and deployed in order to cover these code paths, and avoid regressions that are otherwise inevitable in a project the size of the Chromium browser.
The GPU bots are utilized on the chromium.gpu and chromium.gpu.fyi waterfalls, and various tryservers, as described in Using the GPU Bots.
All of the physical hardware for the bots lives in the Swarming pool, and most of it in the chromium.tests.gpu Swarming pool. The waterfall bots are simply virtual machines which spawn Swarming tasks with the appropriate tags to get them to run on the desired GPU and operating system type. So, for example, the Win10 x64 Release (NVIDIA) bot is actually a virtual machine which spawns all of its jobs with the Swarming parameters:
{
"gpu": "nvidia-quadro-p400-win10-stable",
"os": "Windows-10",
"pool": "chromium.tests.gpu"
}
Since the GPUs in the Swarming pool are mostly homogeneous, this is sufficient to target the pool of Windows 10-like NVIDIA machines. (There are a few Windows 7-like NVIDIA bots in the pool, which necessitates the OS specifier.)
Details about the bots can be found on chromium-swarm.appspot.com and by
using src/tools/luci-go/swarming
, for example swarming bots
.
If you are authenticated with @google.com credentials you will be able to make
queries of the bots and see, for example, which GPUs are available.
The waterfall bots run tests on a single GPU type in order to make it easier to see regressions or flakiness that affect only a certain type of GPU.
The tryservers like win10_chromium_x64_rel_ng
which include GPU tests, on the other
hand, run tests on more than one GPU type. As of this writing, the Windows
tryservers ran tests on NVIDIA and AMD GPUs; the Mac tryservers ran tests on
Intel and NVIDIA GPUs. The way these tryservers' tests are specified is simply
by mirroring how one or more waterfall bots work. This is an inherent
property of the chromium_trybot
recipe, which was designed to eliminate
differences in behavior between the tryservers and waterfall bots. Since the
tryservers mirror waterfall bots, if the waterfall bot is working, the
tryserver must almost inherently be working as well.
There are some GPU configurations on the waterfall backed by only one machine, or a very small number of machines in the Swarming pool. A few examples are:
There are a couple of reasons to continue to support running tests on a specific machine: it might be too expensive to deploy the required multiple copies of said hardware, or the configuration might not be reliable enough to begin scaling it up.
Adding a new test step to the bots requires that the test run via an isolate. Isolates describe both the binary and data dependencies of an executable, and are the underpinning of how the Swarming system works. See the LUCI documentation for background on Isolates and Swarming.
- Define your target using the
template("test")
template insrc/testing/test.gni
. Seetest("gl_tests")
insrc/gpu/BUILD.gn
for an example. For a more complex example which invokes a series of scripts which finally launches the browser, seetelemetry_gpu_integration_test
inchrome/test/BUILD.gn
. - Add an entry to
src/testing/buildbot/gn_isolate_map.pyl
that refers to your target. Find a similar target to yours in order to determine thetype
. The type is referenced insrc/tools/mb/mb.py
.
At this point you can build and upload your isolate to the isolate server.
See Isolated Testing for SWEs for the most up-to-date instructions. These instructions are a copy which show how to run an isolate that's been uploaded to the isolate server on your local machine rather than on Swarming.
If cd
'd into src/
:
./tools/mb/mb.py isolate //out/Release [target name]
- For example:
./tools/mb/mb.py isolate //out/Release angle_end2end_tests
- For example:
./tools/luci-go/isolate batcharchive -cas-instance chromium-swarm out/Release/[target name].isolated.gen.json
- For example:
./tools/luci-go/isolate batcharchive -cas-instance chromium-swarm out/Release/angle_end2end_tests.isolated.gen.json
See the section below on isolate server credentials.
- For example:
See Adding new steps to the GPU bots for details on this process.
In the tools/build
workspace:
recipes/recipe_modules/chromium_tests/
:chromium_gpu.py
andchromium_gpu_fyi.py
define the following for each builder and tester:- How the workspace is checked out (e.g., this is where top-of-tree ANGLE is specified)
- The build configuration (e.g., this is where 32-bit vs. 64-bit is specified)
- Various gclient defines (like compiling in the hardware-accelerated video codecs, and enabling compilation of certain tests, like the dEQP tests, that can't be built on all of the Chromium builders)
- Note that the GN configuration of the bots is also controlled by
mb_config.pyl
in the Chromium workspace; see below.
trybots.py
defines how try bots mirror one or more waterfall bots.- The concept of try bots mirroring waterfall bots ensures there are no differences in behavior between the waterfall bots and the try bots. This helps ensure that a CL will not pass the commit queue and then break on the waterfall.
- This file defines the behavior of the following GPU-related try
bots:
linux-rel
,mac-rel
,win10_chromium_x64_rel_ng
andandroid-marshmallow-arm64-rel
, which run against every Chromium CL, and which mirror the behavior of bots on the chromium.gpu waterfall.- The ANGLE try bots, which run against ANGLE CLs, and mirror the behavior of the chromium.gpu.fyi waterfall (including using top-of-tree ANGLE, and running additional tests not run by the regular Chromium try bots)
- The optional GPU try servers
linux_optional_gpu_tests_rel
,mac_optional_gpu_tests_rel
,win_optional_gpu_tests_rel
andandroid_optional_gpu_tests_rel
, which are added automatically to CLs which modify a selected set of subdirectories and run some tests which can't be run on the regular Chromium try servers mainly due to lack of hardware capacity. - Manual GPU trybots, starting with
gpu-try-
andgpu-fyi-try-
prefixes, which can be added manually to CLs targeting a specific hardware configuration.
In the chromium/src
workspace:
src/testing/buildbot
:chromium.gpu.json
andchromium.gpu.fyi.json
define which steps are run on which bots. These files are autogenerated. Don't modify them directly!waterfalls.pyl
,test_suites.pyl
,mixins.pyl
andtest_suite_exceptions.pyl
define the confugation for the autogenerated json files above. Rungenerate_buildbot_json.py
to generate the json files after you modify these pyl files.generate_buildbot_json.py
- The generator script for all the waterfalls, including
chromium.gpu.json
andchromium.gpu.fyi.json
. - See the README for generate_buildbot_json.py for documentation on this script and the descriptions of the waterfalls and test suites.
- When modifying this script, don't forget to also run it, to regenerate the JSON files. Don't worry; the presubmit step will catch this if you forget.
- See Adding new steps to the GPU bots for more details.
- The generator script for all the waterfalls, including
gn_isolate_map.pyl
defines all of the isolates' behavior in the GN build.
src/tools/mb/mb_config.pyl
- Defines the GN arguments for all of the bots.
src/infra/config
:- Definitions of how bots are organized on the waterfall, how builds are triggered, which VMs or machines are used for the builder itself, i.e. for compilation and scheduling swarmed tasks on GPU hardware. See README.md in this directory for up to date information.
In the infradata/config
workspace (Google internal only,
sorry):
gpu.star
- Defines a
chromium.tests.gpu
Swarming pool which contains all of the specialized hardware, except some hardware shared with Chromium: for example, the Windows and Linux NVIDIA bots, the Windows AMD bots, and the MacBook Pros with NVIDIA and AMD GPUs. New GPU hardware should be added to this pool. - Also defines the GCEs, Mac VMs and Mac machines used for CI builders on GPU and GPU.FYI waterfalls and trybots.
- Defines a
pools.cfg
- Defines the Swarming pools for GCEs and Mac VMs used for manually triggered trybots.
This section describes various common scenarios that might arise when maintaining the GPU bots, and how they'd be addressed.
This is described in Adding new tests to the GPU bots.
The tests use virtual machines to build binaries and to trigger tests on physical hardware. VMs don't run any tests themselves. There are 3 types of bots:
- Builders - these bots build test binaries, upload them to storage and trigger tester bots (see below). Builds must be done on the same OS on which the tests will run, except for Android tests, which are built on Linux.
- Testers - these bots trigger tests to execute in Swarming and merge results from multiple shards. 2-core Linux GCEs are sufficient for this task.
- Builder/testers - these are the combination of the above and have same OS constraints as builders. All trybots are of this type, while for CI bots it is optional.
The process is:
- Follow go/request-chrome-resources to get
approval for the VMs. Use
GPU
project resource group. See this example ticket. You'll need to determine how many VMs are required, which OSes, how many cores and in which swarming pools they will be (see below for different scenarios).- If setting up a new GPU hardware pool, some VMs will also be needed for manual trybots, usually 2 VMs as of this writing.
- Additional action is needed for Mac VMs, the GPU resource owner will assign the bug to Labs to deploy them. See this example ticket.
- Once GCE resource request is approved / Mac VMs are deployed, the VMs need
to be added to the right Swarming pools in a CL in the
infradata/config
(Google internal) workspace.- GCEs for Windows CI builders and builder/testers should be added to
luci-chromium-gpu-ci-win10-8
group ingpu.star
. - GCEs for Linux and Android CI builders and builder/testers should be added to
luci-chromium-gpu-ci-xenial-8
group ingpu.star
. - VMs for Mac CI builders and builder/testers should be added to
builderfull_gpu_ci_bots
group ingpu.star
. Example. - GCEs for CI testers for all OSes should be added to
luci-chromium-gpu-ci-xenial-2
group ingpu.star
. Example. - GCEs and VMs for CQ and optional CQ GPU trybots for should be added to
a corresponding
gpu_try_bots
group ingpu.star
. Example. These trybots are "builderful", i.e. these GCEs can't be shared among different bots. This is done in order to limit the number of concurrent builds on these bots (until crbug.com/949379 is fixed) to prevent oversubscribing GPU hardware.win_optional_gpu_tests_rel
is an exception, its GCEs come fromluci-chromium-try-win10-*-8
groups inchromium.star
, see CL. This can cause oversubscription to Windows GPU hardware, however, Chrome Infra insisted on making this bot builderless due to frequent interruptions they get from limiting the number of concurrent builds on it, see discussion in CL. - GCEs and VMs for manual GPU trybots should be added to a corresponding
pool in "Manually-triggered GPU trybots" in
gpu.star
. If adding a new pool, it should also be added topools.cfg
. Example. This is a different mechanism to limit the load on GPU hardware, by having a small pool of GCEs which corresponds to some GPU hardware resource, and all trybots that target this GPU hardware compete for GCEs from this small pool. - Run
main.star
to regenerateconfigs/chromium-swarm/bots.cfg
andconfigs/gce-provider/vms.cfg
. Double-check your work there. Note that previouslyvms.cfg
had to be edited manually. Part of the difficulty was in choosing a zone. This should soon no longer be necessary per crbug.com/942301, but consult with the Chrome Infra team to find out which of the zones has available capacity. This also can be checked on viceroy dashboard. - Get this reviewed and landed. This step associates the VM or pool of VMs with the bot's name on the waterfall for "builderful" bots or increases swarmed pool capacity for "builderless" bots. Note: CR+1 is not sticky in this repo, so you'll have to ping for re-review after every change, like rebase.
- GCEs for Windows CI builders and builder/testers should be added to
When deploying a new GPU configuration, it should be added to the chromium.gpu.fyi waterfall first. The chromium.gpu waterfall should be reserved for those GPUs which are tested on the commit queue. (Some of the bots violate this rule – namely, the Debug bots – though we should strive to eliminate these differences.) Once the new configuration is ready to be fully deployed on tryservers, bots can be added to the chromium.gpu waterfall, and the tryservers changed to mirror them.
In order to add Release and Debug waterfall bots for a new configuration, experience has shown that at least 4 physical machines are needed in the swarming pool. The reason is that the tests all run in parallel on the Swarming cluster, so the load induced on the swarming bots is higher than it would be if the tests were run strictly serially.
With these prerequisites, these are the steps to add a new (swarmed) tester bot.
(Actually, pair of bots -- Release and Debug. If deploying just one or the
other, ignore the other configuration.) These instructions assume that you are
reusing one of the existing builders, like GPU FYI Win Builder
.
-
Work with the Chrome Infrastructure Labs team to get the (minimum 4) physical machines added to the Swarming pool. Use chromium-swarm.appspot.com or
src/tools/luci-go/swarming bots
to determine the PCI IDs of the GPUs in the bots. (These instructions will need to be updated for Android bots which don't have PCI buses.)-
Make sure to add these new machines to the chromium.tests.gpu Swarming pool by creating a CL against
gpu.star
in theinfradata/config
(Google internal) workspace. Git configure your user.email to @google.com if necessary. Here is one example CL and a second example. -
Run
main.star
to regenerateconfigs/chromium-swarm/bots.cfg
. Double-check your work there.
-
-
Allocate new virtual machines for the bots as described in How to set up new virtual machine instances.
-
Create a CL in the Chromium workspace which does the following. Here's an example CL.
- Adds the new machines to
waterfalls.pyl
directly or tomixins.pyl
, referencing the new mixin inwaterfalls.pyl
.- The swarming dimensions are crucial. These must match the GPU and OS type of the physical hardware in the Swarming pool. This is what causes the VMs to spawn their tests on the correct hardware. Make sure to use the chromium.tests.gpu pool, and that the new machines were specifically added to that pool.
- Make triply sure that there are no collisions between the new
hardware you're adding and hardware already in the Swarming pool.
For example, it used to be the case that all of the Windows NVIDIA
bots ran the same OS version. Later, the Windows 8 flavor bots were
added. In order to avoid accidentally running tests on Windows 8
when Windows 7 was intended, the OS in the swarming dimensions of
the Win7 bots had to be changed from
win
toWindows-2008ServerR2-SP1
(the Win7-like flavor running in our data center). Similarly, the Win8 bots had to have a very precise OS description (Windows-2012ServerR2-SP0
). - If you're deploying a new bot that's similar to another existing
configuration, please search around in
test_suite_exceptions.pyl
for references to the other bot's name and see if your new bot needs to be added to any exclusion lists. For example, some of the tests don't run on certain Win bots because of missing OpenGL extensions. - Run
generate_buildbot_json.py
to regeneratesrc/testing/buildbot/chromium.gpu.fyi.json
.
- Updates
ci.star
and its related generated filescr-buildbucket.cfg
,luci-scheduler.cfg
, and 'luci-milo.cfg`:- Use the appropriate definition for the type of the bot being added,
for example,
ci.gpu_fyi_thin_tester()
should be used for all CI tester bots on GPU FYI waterfall. - Make sure to set
triggered_by
property to the builder which triggers the testers (like'GPU Win FYI Builder'
). - Include a
ci.console_view_entry
for the builder'sconsole_view_entry
argument. Look at the short names and categories to try and come up with a reasonable organization.
- Use the appropriate definition for the type of the bot being added,
for example,
- Run
main.star
insrc/infra/config
to update the generated files. Double-check your work there. - If you were adding a new builder, you would need to also add the new
machine to
src/tools/mb/mb_config.pyl
.
- Adds the new machines to
-
After the Chromium-side CL lands it will take some time for all of the configuration changes to be picked up by the system. The bot will probably be in a red or purple state, claiming that it can't find its configuration. (It might also be in an "empty" state, not running any jobs at all.)
-
After the Chromium-side CL lands and the bot is on the console, create a CL in the
tools/build
workspace which does the following. Here's an example CL.- Adds the new bot to
chromium_gpu_fyi.py
inrecipes/recipe_modules/chromium_tests/builders/
. Make sure to set theserialize_tests
property toTrue
. This is specified for waterfall bots, but not trybots, and helps avoid overloading the physical hardware. Double-check theBUILD_CONFIG
andparent_buildername
properties for each. They must match the Release/Debug flavor of the builder, likeGPU FYI Win x64 Builder
vs.GPU FYI Win x64 Builder (dbg)
. - Get this reviewed and landed. This step tells the Chromium recipe about the newly-deployed waterfall bot, so it knows which JSON file to load out of src/testing/buildbot and which entry to look at.
- Sometimes it is necessary to retrain recipe expectations
(
recipes/recipes.py test train
). This is usually needed only if the bot adds untested code flow in a recipe, but it's something to watch out for if your CL fails presubmit for some reason.
- Adds the new bot to
-
Note that it is crucial that the bot be deployed before hooking it up in the tools/build workspace. In the new LUCI world, if the parent builder can't find its child testers to trigger, that's a hard error on the parent. This will cause the builders to fail. You can and should prepare the tools/build CL in advance, but make sure it doesn't land until the bot's on the console.
-
If the number of physical machines for the new bot permits, you should also add a manually-triggered trybot at the same time that the CI bot is added. This is described in How to add a new manually-triggered trybot.
While the above instructions assume that an existing parent builder will be be used, a new one can be set up by performing a modified version of the steps:
- Make a
tools/build
CL that adds the config for only the new builder and land it. - Make and land Chromium CL that makes the above changes in addition to the
following:
- Add the new builder to the necessary
//infra/config
files in the same way as the tester. - Add the new builder to
src/tools/mb/mb_config.pyl
.
- Add the new builder to the necessary
- Make a
tools/build
CL that adds the config for only the new tester and land it.
Attempting to set up the builder/tester pair without first landing the
tools/build
CL for the new builder will result in things
breaking as seen in this bug.
Basically, one needs to follow How to add a new tester bot to the chromium.gpu.fyi waterfall step in reverse. To prevent bot failures during deletion process, pause the bot on https://luci-scheduler.appspot.com/.
Let's say that you want to cause the win10_chromium_x64_rel_ng
try bot to run
tests on CoolNewGPUType in addition to the types it currently runs (as of this
writing only NVIDIA). To do this:
- Make sure there is enough hardware capacity using the available tools to report utilization of the Swarming pool.
- Deploy Release and Debug testers on the
chromium.gpu
waterfall, following the instructions for thechromium.gpu.fyi
waterfall above. Make sure the flakiness on the new bots is comparable to existingchromium.gpu
bots before proceeding. - Create a CL in the
tools/build
workspace, adding the new Release tester towin10_chromium_x64_rel_ng
'sbot_ids
list inrecipes/recipe_modules/chromium_tests/trybots.py
. Rerunrecipes/recipes.py test train
. - Once the above CL lands, the commit queue will immediately start running tests on the CoolNewGPUType configuration. Be vigilant and make sure that tryjobs are green. If they are red for any reason, revert the CL and figure out offline what went wrong.
Manually-triggered trybots are needed for investigating failures on a GPU type
which doesn't have a corresponding CQ trybot (due to lack of GPU resources).
Even for GPU types that have CQ trybots, it is convenient to have
manually-triggered trybots as well, since the CQ trybot often runs on more than
one GPU type, or some test suites which run on CI bot can be disabled on CQ
trybot (when the CQ bot mirrors a
fake bot).
Thus, all CI bots in chromium.gpu
and chromium.gpu.fyi
have corresponding
manually-triggered trybots, except a few which don't have enough hardware
to support it. A manually-triggered trybot should be added at the same time
a CI bot is added.
Here are the steps to set up a new trybot which runs tests just on one
particular GPU type. Let's consider that we are adding a manually-triggered
trybot for the Win7 NVIDIA GPUs in Release mode. We will call the new bot
gpu-fyi-try-win7-nvidia-rel-64
.
-
If there already exist some manually-triggered trybot which runs tests on the same group of machines (i.e. same GPU, OS and driver), the new trybot will have to share the VMs with it. Otherwise, create a new pool of VMs for the new hardware and allocate the VMs as described in How to set up new virtual machine instances, following the "Manually-triggered GPU trybots" instructions.
-
Create a CL in the Chromium workspace which does the following. Here's a reference CL exemplifying the new "GCE pool per GPU hardware pool" way.
- Updates
gpu.try.star
and its related generated filecr-buildbucket.cfg
:- Add the new trybot with the right
builder
define and VMs pool. Forgpu-fyi-try-win7-nvidia-rel-64
this would begpu_win_builder()
andluci.chromium.gpu.win7.nvidia.try
.
- Add the new trybot with the right
- Run
main.star
insrc/infra/config
to update the generated files. Double-check your work there. - Adds the new trybot to
src/tools/mb/mb_config.pyl
and [src/tools/mb/mb_config_buckets.pyl
][mb_config_buckets.pyl]. Use the same mixin as does the builder for the CI bot this trybot mirrors, in case ofgpu-fyi-try-win7-nvidia-rel-64
this isGPU FYI Win x64 Builder
and thusgpu_fyi_tests_release_trybot
. - Get this CL reviewed and landed.
- Updates
-
Create a CL in the
tools/build
workspace which does the following. Here's an example CL.- Adds the new trybot to a "Manually-triggered GPU trybots" section in
recipes/recipe_modules/chromium_tests/tests/trybots.py
. Create this section after the "Optional GPU bots" section for the appropriate tryserver (tryserver.chromium.win
,tryserver.chromium.mac
,tryserver.chromium.linux
,tryserver.chromium.android
). Have the bot mirror the appropriate waterfall bot; in this case, the buildername to mirror isGPU FYI Win x64 Builder
and the tester isWin7 FYI x64 Release (NVIDIA)
. - Get this reviewed and landed. This step tells the Chromium recipe about
the newly-deployed trybot, so it knows which JSON file to load out of
src/testing/buildbot
and which entry to look at to understand which tests to run and on what physical hardware. - It may be necessary to retrain recipe expectations for
tools/build
workspace CLs (recipes/recipes.py test train
). This shouldn't be necessary for just adding a manually triggered trybot, but it's something to watch out for if your CL fails presubmit for some reason.
- Adds the new trybot to a "Manually-triggered GPU trybots" section in
At this point the new trybot should automatically show up in the
"Choose tryjobs" pop-up in the Gerrit UI, under the
luci.chromium.try
heading, because it was deployed via LUCI. It
should be possible to send a CL to it.
(It should not be necessary to modify buildbucket.config as is mentioned at the bottom of the "Choose tryjobs" pop-up. Contact the chrome-infra team if this doesn't work as expected.)
Several projects (ANGLE, Dawn) run custom tests using the Chromium recipes. They use try bot bot configs that run subsets of Chromium or additional slower tests that can't be run on the main CQ.
These try bots are a little different because they mirror waterfall bots that don't actually exist. The waterfall bots' specifications exist only to tell these try bots which tests to run.
Let's say that you intended to add a new such custom try bot on Windows. Call it
win-myproject-rel
for example. You will need to add a "fake" mirror bot for
each GPU family on which you want to run the tests. For a GPU type of
"CoolNewGPUType" in this example you could add a "fake" bot named "MyProject GPU
Win10 Release (CoolNewGPUType)".
- Allocate new virtual machines for the bots as described in How to set up new virtual machine instances.
- Make sure there is enough hardware capacity using the available tools to report utilization of the Swarming pool.
- Create a CL in the Chromium workspace the does the following. Here's an
outdated example CL.
- Add your new bot (for example, "MyProject GPU Win10 Release
(CoolNewGPUType)") to the chromium.gpu.fyi waterfall in
waterfalls.pyl
. - Add your new bot to
src/testing/buildbot/generate_buildbot_json.py
in the list ofget_bots_that_do_not_actually_exist
section. - Re-run
src/testing/buildbot/generate_buildbot_json.py
to regenerate the JSON files. - Update
scheduler-noop-jobs.star
to include "MyProject GPU Win10 Release (CoolNewGPUType)". - Update
try.star
and desired consoles to includewin-myproject-rel
. - Run
main.star
insrc/infra/config
to update the generated files:luci-milo.cfg
,luci-scheduler.cfg
,cr-buildbucket.cfg
. Double-check your work there. - Update
src/tools/mb/mb_config.pyl
to includewin-myproject-rel
.
- Add your new bot (for example, "MyProject GPU Win10 Release
(CoolNewGPUType)") to the chromium.gpu.fyi waterfall in
- After the Chromium-side CL lands and the bot is on the console, create a CL
in the
tools/build
workspace which does the following. Here's an example CL.- Adds "MyProject GPU Win10 Release
(CoolNewGPUType)" to
chromium_gpu_fyi.py
inrecipes/recipe_modules/chromium_tests/builders/
. You can copy a similar step. - Adds
win-myproject-rel
totrybots.py
in the same folder. This is where you associate "MyProject GPU Win10 Release (CoolNewGPUType)" withwin-myproject-rel
. See the sample CL for an example. - Get this reviewed and landed. This step tells the Chromium recipe about
the newly-deployed waterfall bot, so it knows which JSON file to load
out of
src/testing/buildbot
and which entry to look at.
- Adds "MyProject GPU Win10 Release
(CoolNewGPUType)" to
- After your CLs land you should be able to find and run
win-myproject-rel
on CLs using Choose Trybots in Gerrit.
Let's say that you want to roll out an update to the graphics drivers or the OS on one of the configurations like the Linux NVIDIA bots. In order to verify that the new driver or OS won't destabilize Chromium's commit queue, it's necessary to run the new driver or OS on one of the waterfalls for a day or two to make sure the tests are reliably green before rolling out the driver or OS update. To do this:
-
Make sure that all of the current Swarming jobs for this OS and GPU configuration are targeted at the "stable" version of the driver and the OS in
waterfalls.pyl
andmixins.pyl
. -
File a
Build Infrastructure
bug, componentInfra>Labs
, to have ~4 of the physical machines already in the Swarming pool upgraded to the new version of the driver or the OS. -
If an "experimental" version of this bot doesn't yet exist, follow the instructions above for How to add a new tester bot to the chromium.gpu.fyi waterfall to deploy one.
-
Have this experimental bot target the new version of the driver or the OS in
waterfalls.pyl
andmixins.pyl
. Sample CL. -
Hopefully, the new machine will pass the pixel tests. If it doesn't, then it'll be necessary to follow the instructions on updating Gold baselines (step #4).
-
Watch the new machine for a day or two to make sure it's stable.
-
When it is, add the experimental driver/OS to the
_stable
mixin using the swarming OR operator|
. For example:'win10_intel_hd_630_stable': { 'swarming': { 'dimensions': { 'gpu': '8086:5912-26.20.100.7870|8086:5912-26.20.100.8141', 'os': 'Windows-10', 'pool': 'chromium.tests.gpu', }, }, }
This will cause tests triggered using the
_stable
mixin to run on either the old stable dimension or the experimental/new stable dimension.NOTE There is a hard cap of 8 combinations in swarming, so you can only use the OR operator in up to 3 dimensions if each dimension only has two options. More than two options per dimension is allowed as long as the total number of combinations is 8 or less.
-
After it lands, ask the Chrome Infrastructure Labs team to roll out the driver update across all of the similarly configured bots in the swarming pool.
-
If necessary, update pixel test expectations and remove the suppressions added above.
-
Remove the old driver or OS version from the
_stable
mixin, leaving just the new stable version.
Note that we leave the experimental bot in place. We could reclaim it, but it seems worthwhile to continuously test the "next" version of graphics drivers as well as the current stable ones.
Working with the GPU bots requires credentials to various services: the isolate server, the swarming server, and cloud storage.
To upload and download isolates you must first authenticate to the isolate server. From a Chromium checkout, run:
./src/tools/luci-go/isolate login
This will open a web browser to complete the authentication flow. A @google.com email address is required in order to properly authenticate.
To test your authentication, find a hash for a recent isolate. Consult the
instructions on Running Binaries from the Bots Locally to find a random hash
from a target like gl_tests
. Then run the following:
The swarming server uses the same auth.py
script as the isolate server. You
will need to authenticate if you want to manually download the results of
previous swarming jobs, trigger your own jobs, or run swarming.py reproduce
to re-run a remote job on your local workstation. Follow the instructions
above, replacing the service with https://chromium-swarm.appspot.com
.
Authentication to Google Cloud Storage is needed for a couple of reasons:
uploading pixel test results to the cloud, and potentially uploading and
downloading builds as well, at least in Debug mode. Use the copy of gsutil in
depot_tools/third_party/gsutil/gsutil
, and follow the Google Cloud Storage
instructions to authenticate. You must use your @google.com email address and
be a member of the Chrome GPU team in order to receive read-write access to the
appropriate cloud storage buckets. Roughly:
- Run
gsutil config
- Copy/paste the URL into your browser
- Log in with your @google.com account
- Allow the app to access the information it requests
- Copy-paste the resulting key back into your Terminal
- Press "enter" when prompted for a project-id (i.e., leave it empty)
At this point you should be able to write to the cloud storage bucket.
Navigate to https://console.developers.google.com/storage/chromium-gpu-archive to view the contents of the cloud storage bucket.