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Published: Jul 31, 2017 License: Apache-2.0 Imports: 25 Imported by: 0

Documentation

Index

Constants

This section is empty.

Variables

View Source
var ErrInterrupted = errors.New("interrupted")

ErrInterrupted is returned by steps when they exited as a result of receiving a signal.

View Source
var ErrPutActionVersionMissing = errors.New("version is missing from put action")

Functions

This section is empty.

Types

type Action

type Action interface {
	Run(lager.Logger, *worker.ArtifactRepository, <-chan os.Signal, chan<- struct{}) error
	ExitStatus() ExitStatus
}

type ActionsBuildEventsDelegate

type ActionsBuildEventsDelegate interface {
	ActionCompleted(lager.Logger, Action)
	Failed(lager.Logger, error)
}

type ActionsStep

type ActionsStep struct {
	// contains filtered or unexported fields
}

ActionsStep will execute actions in specified order and notify build events delegate about different execution events.

func NewActionsStep

func NewActionsStep(
	logger lager.Logger,
	actions []Action,
	buildEventsDelegate ActionsBuildEventsDelegate,
) ActionsStep

func (*ActionsStep) Run

func (s *ActionsStep) Run(signals <-chan os.Signal, ready chan<- struct{}) error

Run will first call Initializing on build events delegate. Then it will call Run on every action. If any action fails it will notify delegate with Failed. It will call ActionCompleted after each action run that succeeds.

func (*ActionsStep) Succeeded

func (s *ActionsStep) Succeeded() bool

Succeeded will return true if all actions exited with exit status 0.

func (ActionsStep) Using

func (s ActionsStep) Using(repo *worker.ArtifactRepository) Step

type Aggregate

type Aggregate []StepFactory

Aggregate constructs a Step that will run each step in parallel.

func (Aggregate) Using

func (a Aggregate) Using(repo *worker.ArtifactRepository) Step

Using delegates to each StepFactory and returns an AggregateStep.

type AggregateStep

type AggregateStep []Step

AggregateStep is a step of steps to run in parallel.

func (AggregateStep) Run

func (step AggregateStep) Run(signals <-chan os.Signal, ready chan<- struct{}) error

Run executes all steps in parallel. It will indicate that it's ready when all of its steps are ready, and propagate any signal received to all running steps.

It will wait for all steps to exit, even if one step fails or errors. After all steps finish, their errors (if any) will be aggregated and returned as a single error.

func (AggregateStep) Succeeded

func (step AggregateStep) Succeeded() bool

Succeeded is true if all of the steps' Succeeded is true

type ConfigFetcher

type ConfigFetcher interface {
	FetchConfig(repository *worker.ArtifactRepository) (atc.TaskConfig, error)
}

type DeprecationConfigFetcher

type DeprecationConfigFetcher struct {
	Delegate TaskConfigFetcher
	Stderr   io.Writer
}

DeprecationConfigFetcher returns the Delegate TaskConfig and prints warnings to Stderr.

func (DeprecationConfigFetcher) FetchConfig

func (configFetcher DeprecationConfigFetcher) FetchConfig(repo *worker.ArtifactRepository) (atc.TaskConfig, error)

FetchConfig calls the Delegate's FetchConfig and prints warnings to Stderr

func (DeprecationConfigFetcher) Warnings

func (configFetcher DeprecationConfigFetcher) Warnings() []string

type EmptyVersionSource

type EmptyVersionSource struct{}

func (*EmptyVersionSource) GetVersion

func (p *EmptyVersionSource) GetVersion() (atc.Version, error)

type EnsureStep

type EnsureStep struct {
	// contains filtered or unexported fields
}

EnsureStep will run one step, and then a second step regardless of whether the first step fails or errors.

func Ensure

func Ensure(firstStep StepFactory, secondStep StepFactory) EnsureStep

Ensure constructs an EnsureStep factory.

func (*EnsureStep) Run

func (o *EnsureStep) Run(signals <-chan os.Signal, ready chan<- struct{}) error

Run will call Run on the first step, wait for it to complete, and then call Run on the second step, regardless of whether the first step failed or errored.

If the first step or the second step errors, an aggregate of their errors is returned.

func (*EnsureStep) Succeeded

func (o *EnsureStep) Succeeded() bool

Succeeded is true if both of its steps are true

func (EnsureStep) Using

func (o EnsureStep) Using(repo *worker.ArtifactRepository) Step

Using constructs an *EnsureStep.

type ExitStatus

type ExitStatus int

ExitStatus is the resulting exit code from the process that the step ran. Typically if the ExitStatus result is 0, the Success result is true.

type Factory

type Factory interface {
	// Get constructs a ActionsStep factory for Get.
	Get(
		lager.Logger,
		atc.Plan,
		db.Build,
		StepMetadata,
		db.ContainerMetadata,
		ActionsBuildEventsDelegate,
		ImageFetchingDelegate,
	) StepFactory

	// Put constructs a ActionsStep factory for Put.
	Put(
		lager.Logger,
		atc.Plan,
		db.Build,
		StepMetadata,
		db.ContainerMetadata,
		ActionsBuildEventsDelegate,
		ImageFetchingDelegate,
	) StepFactory

	// Task constructs a ActionsStep factory for Task.
	Task(
		lager.Logger,
		atc.Plan,
		db.Build,
		db.ContainerMetadata,
		TaskBuildEventsDelegate,
		ActionsBuildEventsDelegate,
		ImageFetchingDelegate,
	) StepFactory
}

Factory is used when building up the steps for a build.

func NewGardenFactory

func NewGardenFactory(
	workerClient worker.Client,
	resourceFetcher resource.Fetcher,
	resourceFactory resource.ResourceFactory,
	dbResourceCacheFactory db.ResourceCacheFactory,
	variablesFactory creds.VariablesFactory,
) Factory

type FetchConfigAction

type FetchConfigAction struct {
	// contains filtered or unexported fields
}

FetchConfigAction fetches task config based on config source, either statically provided or dynamically loaded from worker.ArtifactRepository.

func (*FetchConfigAction) ExitStatus

func (action *FetchConfigAction) ExitStatus() ExitStatus

ExitStatus always 0. Fetching config might error but it does not produce any exit status.

func (*FetchConfigAction) Result

func (action *FetchConfigAction) Result() atc.TaskConfig

Result returns the fetched atc.TaskConfig

func (*FetchConfigAction) Run

func (action *FetchConfigAction) Run(
	logger lager.Logger,
	repository *worker.ArtifactRepository,

	signals <-chan os.Signal,
	ready chan<- struct{},
) error

Run first load the TaskConfig

type FetchConfigActionTaskConfigSource

type FetchConfigActionTaskConfigSource struct {
	Action FetchConfigResultAction
}

func (*FetchConfigActionTaskConfigSource) GetTaskConfig

func (s *FetchConfigActionTaskConfigSource) GetTaskConfig() (atc.TaskConfig, error)

type FetchConfigResultAction

type FetchConfigResultAction interface {
	Result() atc.TaskConfig
}

type FileConfigFetcher

type FileConfigFetcher struct {
	Path string
}

FileConfigFetcher represents a dynamically configured TaskConfig, which will be fetched from a specified file in the worker.ArtifactRepository.

func (FileConfigFetcher) FetchConfig

func (configFetcher FileConfigFetcher) FetchConfig(repo *worker.ArtifactRepository) (atc.TaskConfig, error)

FetchConfig reads the specified file from the worker.ArtifactRepository and loads the TaskConfig contained therein (expecting it to be YAML format).

The path must be in the format SOURCE_NAME/FILE/PATH.yml. The SOURCE_NAME will be used to determine the ArtifactSource in the worker.ArtifactRepository to stream the file out of.

If the source name is missing (i.e. if the path is just "foo.yml"), UnspecifiedArtifactSourceError is returned.

If the specified source name cannot be found, UnknownArtifactSourceError is returned.

If the task config file is not found, or is invalid YAML, or is an invalid task configuration, the respective errors will be bubbled up.

func (FileConfigFetcher) Warnings

func (configFetcher FileConfigFetcher) Warnings() []string

type FileNotFoundError

type FileNotFoundError struct {
	Path string
}

FileNotFoundError is the error to return from StreamFile when the given path does not exist.

func (FileNotFoundError) Error

func (err FileNotFoundError) Error() string

Error prints a helpful message including the file path. The user will see this message if e.g. their task config path does not exist.

type GetAction

type GetAction struct {
	Type          string
	Name          string
	Resource      string
	Source        creds.Source
	Params        atc.Params
	VersionSource VersionSource
	Tags          atc.Tags
	Outputs       []string
	// contains filtered or unexported fields
}

GetAction will fetch a version of a resource on a worker that supports the resource type.

func (*GetAction) ExitStatus

func (action *GetAction) ExitStatus() ExitStatus

ExitStatus returns exit status of resource get script.

func (*GetAction) Run

func (action *GetAction) Run(
	logger lager.Logger,
	repository *worker.ArtifactRepository,

	signals <-chan os.Signal,
	ready chan<- struct{},
) error

Run ultimately registers the configured resource version's ArtifactSource under the configured SourceName. How it actually does this is determined by a few factors.

First, a worker that supports the given resource type is chosen, and a container is created on the worker.

If the worker has a VolumeManager, and its cache is already warmed, the cache will be mounted into the container, and no fetching will be performed. The container will be used to stream the contents of the cache to later steps that require the artifact but are running on a worker that does not have the cache.

If the worker does not have a VolumeManager, or if the worker does have a VolumeManager but a cache for the version of the resource is not present, the specified version of the resource will be fetched. As long as running the fetch script works, Run will return nil regardless of its exit status.

If the worker has a VolumeManager but did not have the cache initially, the fetched ArtifactSource is initialized, thus warming the worker's cache.

At the end, the resulting ArtifactSource (either from using the cache or fetching the resource) is registered under the step's SourceName.

func (*GetAction) VersionInfo

func (action *GetAction) VersionInfo() VersionInfo

VersionInfo returns the fetched or cached resource's version and metadata.

type GetStep

type GetStep Step

type GetStepFactory

type GetStepFactory struct {
	ActionsStep
}

func (GetStepFactory) Using

func (s GetStepFactory) Using(repository *worker.ArtifactRepository) Step

type Identity

type Identity struct{}

Identity constructs an IdentityStep

func (Identity) Using

func (Identity) Using(repo *worker.ArtifactRepository) Step

Using constructs an IdentityStep.

type IdentityStep

type IdentityStep struct {
}

IdentityStep does nothing

func (IdentityStep) Run

func (IdentityStep) Run(<-chan os.Signal, chan<- struct{}) error

Run does nothing.

func (IdentityStep) Succeeded

func (IdentityStep) Succeeded() bool

type ImageFetchingDelegate

type ImageFetchingDelegate interface {
	ImageVersionDetermined(*db.UsedResourceCache) error
	Stdout() io.Writer
	Stderr() io.Writer
}

type MergedConfigFetcher

type MergedConfigFetcher struct {
	A TaskConfigFetcher
	B TaskConfigFetcher
}

MergedConfigFetcher is used to join two config sources together.

func (MergedConfigFetcher) FetchConfig

func (configFetcher MergedConfigFetcher) FetchConfig(source *worker.ArtifactRepository) (atc.TaskConfig, error)

FetchConfig fetches both config sources, and merges the second config source into the first. This allows the user to set params required by a task loaded from a file by providing them in static configuration.

func (MergedConfigFetcher) Warnings

func (configFetcher MergedConfigFetcher) Warnings() []string

type MissingInputsError

type MissingInputsError struct {
	Inputs []string
}

MissingInputsError is returned when any of the task's required inputs are missing.

func (MissingInputsError) Error

func (err MissingInputsError) Error() string

Error prints a human-friendly message listing the inputs that were missing.

type MissingTaskImageSourceError

type MissingTaskImageSourceError struct {
	SourceName string
}

func (MissingTaskImageSourceError) Error

func (err MissingTaskImageSourceError) Error() string

type OnFailureStep

type OnFailureStep struct {
	// contains filtered or unexported fields
}

OnFailureStep will run one step, and then a second step if the first step fails (but not errors).

func OnFailure

func OnFailure(firstStep StepFactory, secondStep StepFactory) OnFailureStep

OnFailure constructs an OnFailureStep factory.

func (*OnFailureStep) Run

func (o *OnFailureStep) Run(signals <-chan os.Signal, ready chan<- struct{}) error

Run will call Run on the first step and wait for it to complete. If the first step errors, Run returns the error. OnFailureStep is ready as soon as the first step is ready.

If the first step fails (that is, its Success result is false), the second step is executed. If the second step errors, its error is returned.

func (*OnFailureStep) Succeeded

func (o *OnFailureStep) Succeeded() bool

Succeeded is true if the first step doesn't exist, or if it completed successfully.

func (OnFailureStep) Using

Using constructs an *OnFailureStep.

type OnSuccessStep

type OnSuccessStep struct {
	// contains filtered or unexported fields
}

OnSuccessStep will run one step, and then a second step if the first step succeeds.

func OnSuccess

func OnSuccess(firstStep StepFactory, secondStep StepFactory) OnSuccessStep

OnSuccess constructs an OnSuccessStep factory.

func (*OnSuccessStep) Run

func (o *OnSuccessStep) Run(signals <-chan os.Signal, ready chan<- struct{}) error

Run will call Run on the first step and wait for it to complete. If the first step errors, Run returns the error. OnSuccessStep is ready as soon as the first step is ready.

If the first step succeeds (that is, its Success result is true), the second step is executed. If the second step errors, its error is returned.

func (*OnSuccessStep) Succeeded

func (o *OnSuccessStep) Succeeded() bool

Succeeded is true if the first step completed and the second step completed successfully.

func (OnSuccessStep) Using

Using constructs an *OnSuccessStep.

type Privileged

type Privileged bool

Privileged is used to indicate whether the given step should run with special privileges (i.e. as an administrator user).

type PutAction

type PutAction struct {
	Type     string
	Name     string
	Resource string
	Source   creds.Source
	Params   atc.Params
	Tags     atc.Tags
	// contains filtered or unexported fields
}

PutAction produces a resource version using preconfigured params and any data available in the worker.ArtifactRepository.

func NewPutAction

func NewPutAction(
	resourceType string,
	name string,
	resourceName string,
	source creds.Source,
	params atc.Params,
	tags atc.Tags,
	imageFetchingDelegate ImageFetchingDelegate,
	resourceFactory resource.ResourceFactory,
	teamID int,
	buildID int,
	planID atc.PlanID,
	containerMetadata db.ContainerMetadata,
	stepMetadata StepMetadata,
	resourceTypes creds.VersionedResourceTypes,
) *PutAction

func (*PutAction) ExitStatus

func (action *PutAction) ExitStatus() ExitStatus

ExitStatus returns exit status of resource put script.

func (*PutAction) Run

func (action *PutAction) Run(
	logger lager.Logger,
	repository *worker.ArtifactRepository,

	signals <-chan os.Signal,
	ready chan<- struct{},
) error

Run chooses a worker that supports the step's resource type and creates a container.

All worker.ArtifactSources present in the worker.ArtifactRepository are then brought into the container, using volumes if possible, and streaming content over if not.

The resource's put script is then invoked. The PutStep is ready as soon as the resource's script starts, and signals will be forwarded to the script.

func (*PutAction) VersionInfo

func (action *PutAction) VersionInfo() VersionInfo

VersionInfo returns the produced resource's version and metadata.

type PutActionVersionSource

type PutActionVersionSource struct {
	Action *PutAction
}

func (*PutActionVersionSource) GetVersion

func (p *PutActionVersionSource) GetVersion() (atc.Version, error)

type PutResourceSource

type PutResourceSource struct {
	worker.ArtifactSource
}

func (PutResourceSource) StreamTo

func (source PutResourceSource) StreamTo(dest worker.ArtifactDestination) error

type PutStep

type PutStep Step

type PutStepFactory

type PutStepFactory struct {
	ActionsStep
}

func (PutStepFactory) Using

func (s PutStepFactory) Using(repository *worker.ArtifactRepository) Step

type Retry

type Retry []StepFactory

Retry constructs a Step that will run the steps in order until one of them succeeds.

func (Retry) Using

func (stepFactory Retry) Using(repo *worker.ArtifactRepository) Step

Using constructs a *RetryStep.

type RetryStep

type RetryStep struct {
	Attempts    []Step
	LastAttempt Step
}

RetryStep is a step that will run the steps in order until one of them succeeds.

func (*RetryStep) Run

func (step *RetryStep) Run(signals <-chan os.Signal, ready chan<- struct{}) error

Run iterates through each step, stopping once a step succeeds. If all steps fail, the RetryStep will fail.

func (*RetryStep) Succeeded

func (step *RetryStep) Succeeded() bool

Succeeded delegates to the last step that it ran.

type StaticConfigFetcher

type StaticConfigFetcher struct {
	Plan atc.TaskPlan
}

StaticConfigFetcher represents a statically configured TaskConfig.

func (StaticConfigFetcher) FetchConfig

func (configFetcher StaticConfigFetcher) FetchConfig(*worker.ArtifactRepository) (atc.TaskConfig, error)

FetchConfig returns the configuration.

func (StaticConfigFetcher) Warnings

func (configFetcher StaticConfigFetcher) Warnings() []string

type StaticVersionSource

type StaticVersionSource struct {
	Version atc.Version
}

func (*StaticVersionSource) GetVersion

func (p *StaticVersionSource) GetVersion() (atc.Version, error)

type Step

type Step interface {
	// Run is called when it's time to execute the step. It should indicate when
	// it's ready, and listen for signals at points where the potential time is
	// unbounded (i.e. running a task or a resource action).
	//
	// Steps wrapping other steps should be careful to propagate signals and
	// indicate that they're ready as soon as their wrapped steps are ready.
	//
	// Steps should return ErrInterrupted if they received a signal that caused
	// them to stop.
	//
	// Steps must be idempotent. Each step is responsible for handling its own
	// idempotency; usually this is done by saving off "checkpoints" in some way
	// that can be checked again if the step starts running again from the start.
	// For example, by having the ID for a container be deterministic and unique
	// for each step, and checking for properties on the container to determine
	// how far the step got.
	ifrit.Runner

	// Succeeded is true when the Step succeeded, and false otherwise.
	// Succeeded is not guaranteed to be truthful until after you run Run()
	Succeeded() bool
}

A Step is an object that can be executed, whose result (e.g. Success) can be collected, and whose dependent resources (e.g. Containers, Volumes) can be released, allowing them to expire.

type StepFactory

type StepFactory interface {
	Using(*worker.ArtifactRepository) Step
}

StepFactory constructs a step. The previous step and source repository are provided.

Some steps, i.e. DependentGetStep, use information from the previous step to determine how to run. TODO: Remove Step in prev

type StepMetadata

type StepMetadata interface {
	Env() []string
}

StepMetadata is used to inject metadata to make available to the step when it's running.

type Success

type Success bool

Success indicates whether a step completed successfully.

type TaskAction

type TaskAction struct {
	// contains filtered or unexported fields
}

TaskAction executes a TaskConfig, whose inputs will be fetched from the worker.ArtifactRepository and outputs will be added to the worker.ArtifactRepository.

func NewTaskAction

func NewTaskAction(
	privileged Privileged,
	configSource TaskConfigSource,
	tags atc.Tags,
	inputMapping map[string]string,
	outputMapping map[string]string,
	artifactsRoot string,
	imageArtifactName string,
	buildEventsDelegate TaskBuildEventsDelegate,
	imageFetchingDelegate ImageFetchingDelegate,
	workerPool worker.Client,
	teamID int,
	buildID int,
	jobID int,
	stepName string,
	planID atc.PlanID,
	containerMetadata db.ContainerMetadata,
	resourceTypes creds.VersionedResourceTypes,
	variables creds.Variables,
) *TaskAction

func (*TaskAction) ExitStatus

func (action *TaskAction) ExitStatus() ExitStatus

ExitStatus returns exit status of task script.

func (*TaskAction) Run

func (action *TaskAction) Run(
	logger lager.Logger,
	repository *worker.ArtifactRepository,

	signals <-chan os.Signal,
	ready chan<- struct{},
) error

Run will first selects the worker based on the TaskConfig's platform, the TaskStep's tags, and prioritized by availability of volumes for the TaskConfig's inputs. Inputs that did not have volumes available on the worker will be streamed in to the container.

If any inputs are not available in the worker.ArtifactRepository, MissingInputsError is returned.

Once all the inputs are satisfies, the task's script will be executed, and the RunStep indicates that it's ready, and any signals will be forwarded to the script.

If the script exits successfully, the outputs specified in the TaskConfig are registered with the worker.ArtifactRepository. If no outputs are specified, the task's entire working directory is registered as an ArtifactSource under the name of the task.

type TaskBuildEventsDelegate

type TaskBuildEventsDelegate interface {
	Initializing(lager.Logger, atc.TaskConfig)
	Starting(lager.Logger, atc.TaskConfig)
}

type TaskConfigFetcher

type TaskConfigFetcher interface {
	// FetchConfig returns the TaskConfig, and may have to a task config file out
	// of the worker.ArtifactRepository.
	FetchConfig(*worker.ArtifactRepository) (atc.TaskConfig, error)
	Warnings() []string
}

TaskConfigFetcher is used to determine a Task step's TaskConfig.

type TaskConfigSource

type TaskConfigSource interface {
	GetTaskConfig() (atc.TaskConfig, error)
}

type TaskImageSourceParametersError

type TaskImageSourceParametersError struct {
	Err error
}

func (TaskImageSourceParametersError) Error

type TaskStep

type TaskStep Step

type TaskStepFactory

type TaskStepFactory struct {
	ActionsStep
}

func (TaskStepFactory) Using

func (s TaskStepFactory) Using(repository *worker.ArtifactRepository) Step

type TimeoutStep

type TimeoutStep struct {
	// contains filtered or unexported fields
}

TimeoutStep applies a fixed timeout to a step's Run.

func Timeout

func Timeout(
	step StepFactory,
	duration string,
	clock clock.Clock,
) TimeoutStep

Timeout constructs a TimeoutStep factory.

func (*TimeoutStep) Run

func (ts *TimeoutStep) Run(signals <-chan os.Signal, ready chan<- struct{}) error

Run parses the timeout duration and invokes the nested step.

If the nested step takes longer than the duration, it is sent the Interrupt signal, and the TimeoutStep returns nil once the nested step exits (ignoring the nested step's error).

The result of the nested step's Run is returned.

func (*TimeoutStep) Succeeded

func (ts *TimeoutStep) Succeeded() bool

Succeeded is true if the nested step completed successfully and did not time out.

func (TimeoutStep) Using

func (ts TimeoutStep) Using(repo *worker.ArtifactRepository) Step

Using constructs a *TimeoutStep.

type TryStep

type TryStep struct {
	// contains filtered or unexported fields
}

TryStep wraps another step, ignores its errors, and always succeeds.

func Try

func Try(step StepFactory) TryStep

Try constructs a TryStep factory.

func (*TryStep) Run

func (ts *TryStep) Run(signals <-chan os.Signal, ready chan<- struct{}) error

Run runs the nested step, and always returns nil, ignoring the nested step's error.

func (*TryStep) Succeeded

func (ts *TryStep) Succeeded() bool

Succeeded is true

func (TryStep) Using

func (ts TryStep) Using(repo *worker.ArtifactRepository) Step

Using constructs a *TryStep.

type UnknownArtifactSourceError

type UnknownArtifactSourceError struct {
	SourceName worker.ArtifactName
}

UnknownArtifactSourceError is returned when the worker.ArtifactName specified by the path does not exist in the worker.ArtifactRepository.

func (UnknownArtifactSourceError) Error

func (err UnknownArtifactSourceError) Error() string

Error returns a human-friendly error message.

type UnspecifiedArtifactSourceError

type UnspecifiedArtifactSourceError struct {
	Path string
}

UnspecifiedArtifactSourceError is returned when the specified path is of a file in the toplevel directory, and so it does not indicate a SourceName.

func (UnspecifiedArtifactSourceError) Error

Error returns a human-friendly error message.

type ValidatingConfigFetcher

type ValidatingConfigFetcher struct {
	ConfigFetcher TaskConfigFetcher
}

ValidatingConfigFetcher delegates to another ConfigFetcher, and validates its task config.

func (ValidatingConfigFetcher) FetchConfig

func (configFetcher ValidatingConfigFetcher) FetchConfig(source *worker.ArtifactRepository) (atc.TaskConfig, error)

FetchConfig fetches the config using the underlying ConfigFetcher, and checks that it's valid.

func (ValidatingConfigFetcher) Warnings

func (configFetcher ValidatingConfigFetcher) Warnings() []string

type VersionInfo

type VersionInfo struct {
	Version  atc.Version
	Metadata []atc.MetadataField
}

VersionInfo is the version and metadata of a resource that was fetched or produced. It is used by Put and Get.

type VersionSource

type VersionSource interface {
	GetVersion() (atc.Version, error)
}

func NewVersionSourceFromPlan

func NewVersionSourceFromPlan(
	getPlan *atc.GetPlan,
	putActions map[atc.PlanID]*PutAction,
) VersionSource

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Code generated by counterfeiter.

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