Documentation ¶
Index ¶
- Variables
- func NewBaseContextualWorkflow(baseWorkflow v1alpha1.ExecutableWorkflow) v1alpha1.ExecutableWorkflow
- func NewFallbackClient(cachedClient, rawClient client.Client) client.Client
- func NewSubContextualWorkflow(baseWorkflow v1alpha1.ExecutableWorkflow, subWF v1alpha1.ExecutableSubWorkflow, ...) v1alpha1.ExecutableWorkflow
- type Client
- type ContextualWorkflow
- type Node
- type NodePhase
- type NodeStatus
- type Workflow
Constants ¶
This section is empty.
Variables ¶
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var NodeStatusComplete = NodeStatus{NodePhase: NodePhaseComplete}
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var NodeStatusPending = NodeStatus{NodePhase: NodePhasePending}
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var NodeStatusQueued = NodeStatus{NodePhase: NodePhaseQueued}
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var NodeStatusRunning = NodeStatus{NodePhase: NodePhaseRunning}
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var NodeStatusSuccess = NodeStatus{NodePhase: NodePhaseSuccess}
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var NodeStatusTimedOut = NodeStatus{NodePhase: NodePhaseTimedOut}
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var NodeStatusUndefined = NodeStatus{NodePhase: NodePhaseUndefined}
Functions ¶
func NewBaseContextualWorkflow ¶
func NewBaseContextualWorkflow(baseWorkflow v1alpha1.ExecutableWorkflow) v1alpha1.ExecutableWorkflow
func NewFallbackClient ¶
Creates a new k8s client that uses the cached client for reads and falls back to making API calls if it failed. Write calls will always go to raw client directly.
func NewSubContextualWorkflow ¶
func NewSubContextualWorkflow(baseWorkflow v1alpha1.ExecutableWorkflow, subWF v1alpha1.ExecutableSubWorkflow, nodeStatus v1alpha1.ExecutableNodeStatus) v1alpha1.ExecutableWorkflow
Creates a contextual workflow using the provided interface implementations.
Types ¶
type Client ¶
type Client interface { // GetClient returns a client configured with the Config GetClient() client.Client // GetCache returns a cache.Cache GetCache() cache.Cache }
A friendly controller-runtime client that gets passed to executors
type ContextualWorkflow ¶
type ContextualWorkflow struct { v1alpha1.WorkflowMetaExtended v1alpha1.ExecutableSubWorkflow v1alpha1.NodeStatusGetter }
type Node ¶
type Node interface { // This method is used specifically to set inputs for start node. This is because start node does not retrieve inputs // from predecessors, but the inputs are inputs to the workflow or inputs to the parent container (workflow) node. SetInputsForStartNode(ctx context.Context, w v1alpha1.ExecutableWorkflow, inputs *core.LiteralMap) (NodeStatus, error) // This is the main entrypoint to execute a node. It recursively depth-first goes through all ready nodes and starts their execution // This returns either // - 1. It finds a blocking node (not ready, or running) // - 2. A node fails and hence the workflow will fail // - 3. The final/end node has completed and the workflow should be stopped RecursiveNodeHandler(ctx context.Context, w v1alpha1.ExecutableWorkflow, currentNode v1alpha1.ExecutableNode) (NodeStatus, error) // This aborts the given node. If the given node is complete then it recursively finds the running nodes and aborts them AbortHandler(ctx context.Context, w v1alpha1.ExecutableWorkflow, currentNode v1alpha1.ExecutableNode, reason string) error FinalizeHandler(ctx context.Context, w v1alpha1.ExecutableWorkflow, currentNode v1alpha1.ExecutableNode) error // This method should be used to initialize Node executor Initialize(ctx context.Context) error }
Core Node Executor that is used to execute a node. This is a recursive node executor and understands node dependencies
type NodePhase ¶
type NodePhase int
p of the node
const ( // Indicates that the node is not yet ready to be executed and is pending any previous nodes completion NodePhasePending NodePhase = iota // Indicates that the node was queued and will start running soon NodePhaseQueued // Indicates that the payload associated with this node is being executed and is not yet done NodePhaseRunning // Indicates that the nodes payload has been successfully completed, but any downstream nodes from this node may not yet have completed // We could make Success = running, but this enables more granular control NodePhaseSuccess // Complete indicates successful completion of a node. For singular nodes (nodes that have only one execution) success = complete, but, the executor // will always signal completion NodePhaseComplete // Node failed in execution, either this node or anything in the downstream chain NodePhaseFailed // Internal error observed. This state should always be accompanied with an `error`. if not the behavior is undefined NodePhaseUndefined // Finalize node failing due to timeout NodePhaseTimingOut // Node failed because execution timed out NodePhaseTimedOut )
type NodeStatus ¶
Helper struct to allow passing of status between functions
func NodeStatusFailed ¶
func NodeStatusFailed(err error) NodeStatus
func (*NodeStatus) HasFailed ¶
func (n *NodeStatus) HasFailed() bool
func (*NodeStatus) HasTimedOut ¶ added in v0.1.17
func (n *NodeStatus) HasTimedOut() bool
func (*NodeStatus) IsComplete ¶
func (n *NodeStatus) IsComplete() bool
func (*NodeStatus) PartiallyComplete ¶
func (n *NodeStatus) PartiallyComplete() bool
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