workflows

package
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Published: Dec 20, 2024 License: BSD-3-Clause Imports: 8 Imported by: 0

README

How to run temporal workflow

See temporal README

Documentation

Overview

Package workflow contains const and types to invoke Workflows.

Index

Constants

View Source
const (
	Bisect                            = "perf.bisect"
	BuildChrome                       = "perf.build_chrome"
	CatapultBisect                    = "perf.catapult.bisect"
	ConvertToCatapultResponseWorkflow = "perf.catapult.response"
	CulpritFinderWorkflow             = "perf.culprit_finder"
	RunBenchmark                      = "perf.run_benchmark"
	RunBenchmarkPairwise              = "perf.run_benchmark.pairwise"
	SingleCommitRunner                = "perf.single_commit_runner"
	PairwiseCommitsRunner             = "perf.pairwise_commits_runner"
	PairwiseWorkflow                  = "perf.pairwise"
	BugUpdate                         = "perf.bug_update"
	TestAndExport                     = "perf.test_and_export"
	CollectAndUpload                  = "perf.collect_and_upload"
)

Workflow name definitions.

Those are used to invoke the workflows. This is meant to decouple the souce code dependencies such that the client doesn't need to link with the actual implementation.

Variables

This section is empty.

Functions

This section is empty.

Types

type BisectParams

type BisectParams struct {
	// BisectWorkflow reuses BisectRequest message
	Request *pb.ScheduleBisectRequest
	// Available bot list.
	// This field is for internal use. Clients of BisectionWorkflow(s) are not expected to set it.
	BotIds []string
	// Production if true indicates the workflow is intended to be run on production
	// and not the dev or staging environment.
	// Used to determine whether to write to Pinpoint prod or staging.
	Production bool
	// JobID for the bisect run
	JobID string
}

func (*BisectParams) GetImprovementDirection

func (bp *BisectParams) GetImprovementDirection() compare.ImprovementDir

GetImprovementDirection returns the improvement direction.

Returns Unknown by default regardless of input.

func (*BisectParams) GetInitialAttempt

func (bp *BisectParams) GetInitialAttempt() int32

GetInitialAttempt returns the initial attempt as int32.

If the given string value is invalid or unable to parse, it returns the default 0.

func (*BisectParams) GetMagnitude

func (bp *BisectParams) GetMagnitude() float64

GetMagnitude returns the magnitude as float64.

If the given string value is invalid or unable to parse, it returns the default 1.0.

type Build

type Build struct {
	// The parameters used to make this build.
	BuildParams
	// ID is the buildbucket ID of the Chrome build.
	// https://github.com/luci/luci-go/blob/19a07406e/buildbucket/proto/build.proto#L138
	ID int64
	// Status is the status of the build, this is needed to surface the build failures.
	Status buildbucketpb.Status
	// CAS is the CAS address of the build isolate.
	CAS *apipb.CASReference
}

Build stores the build from Buildbucket.

type BuildParams

type BuildParams struct {
	// WorkflowID is arbitrary string that tags the build.
	// This is used to connect the downstream and know which build is used.
	// This is usually the pinpoint job ID.
	WorkflowID string
	// Commit is the chromium commit hash.
	Commit *common.CombinedCommit
	// Device is the name of the device, e.g. "linux-perf".
	Device string
	// Target is name of the build isolate target
	// e.g. "performance_test_suite".
	Target string
	// Patch is the Gerrit patch included in the build.
	Patch []*buildbucketpb.GerritChange
	// Project is the project the Build workflow is being run for.
	// For example, Chromium and V8 would be under project "chromium" and create
	// a Chrome binary. AndroidX would have project "androidx" and generate
	// Android X modules.
	Project string
}

Workflow params definitions.

Each workflow defines its own struct for the params, this will ensure the input parameter type safety, as well as expose them in a structured way.

type CulpritFinderParams

type CulpritFinderParams struct {
	// CulpritFinderParams embeds the pinpoint proto ScheduleCulpritFinderRequest
	Request *pb.ScheduleCulpritFinderRequest
	// Production if true indicates the workflow is intended to be run on production
	// and not the dev or staging environment.
	// Used to determine whether to write to Pinpoint prod or staging.
	Production bool
	// A set of parameters used for callback to culprit service if any culprit is found.
	CallbackParams *pb.CulpritProcessingCallbackParams
}

type PairwiseOrder

type PairwiseOrder int

PairwiseOrder indicates in a pairwise run, which commit ran first

const (
	// LeftThenRight means Left commit ran first, then the Right commit
	LeftThenRight PairwiseOrder = 0
	// RightThenLeft means Right commit ran first, then the Left commit
	RightThenLeft PairwiseOrder = 1
)

type PairwiseParams

type PairwiseParams struct {
	// PairwiseWorkflow reuses SchedulePairwiseRequest proto request
	Request *pb.SchedulePairwiseRequest

	// CulpritVerify when true states the pairwise job is a culprit
	// verification job.
	CulpritVerify bool
}

func (*PairwiseParams) GetImprovementDirection

func (pp *PairwiseParams) GetImprovementDirection() compare.ImprovementDir

GetImprovementDirection returns the improvement direction.

Returns Unknown by default.

func (*PairwiseParams) GetInitialAttempt

func (pp *PairwiseParams) GetInitialAttempt() int32

GetInitialAttempt returns the initial attempt as int32.

Pairwise analysis needs to run an even number of commits to ensure an equal number of pairs where commit A goes first and commit B goes first. If the given string value is invalid or unable to parse, it returns the default 30.

type PairwiseTestRun

type PairwiseTestRun struct {
	// FirstTestRun is the first benchmark test run
	FirstTestRun *TestRun
	// SecondTestRun is the second benchmark test run
	SecondTestRun *TestRun
	// First indicates which commit ran first.
	// First = Left commit or Right commit.
	Permutation PairwiseOrder
}

PairwiseTestRun stores pairwise benchmark test run.

type TestRun

type TestRun struct {
	// TaskID is the swarming task ID.
	TaskID string
	// Status is the swarming task status.
	Status run_benchmark.State
	// CAS is the CAS address of the test output.
	CAS *apipb.CASReference
	// Values is sampled values for each benchmark story.
	Values map[string][]float64
}

TestRun stores individual benchmark test run.

func (*TestRun) IsEmptyValues

func (tr *TestRun) IsEmptyValues(chart string) bool

IsEmptyValues checks the TestRun if there are values at that chart

func (*TestRun) RemoveDataFromChart

func (tr *TestRun) RemoveDataFromChart(chart string)

RemoveDataFromChart removes chart data from that TestRun

Directories

Path Synopsis
Package catapult contains all workflows and activities specific to making this backwards compatbile to Catapult.
Package catapult contains all workflows and activities specific to making this backwards compatbile to Catapult.

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