Documentation ¶
Index ¶
- func Activity_IsConstruct(x interface{}) *bool
- func Activity_IsOwnedResource(construct constructs.IConstruct) *bool
- func Activity_IsResource(construct constructs.IConstruct) *bool
- func CfnActivity_CFN_RESOURCE_TYPE_NAME() *string
- func CfnActivity_IsCfnElement(x interface{}) *bool
- func CfnActivity_IsCfnResource(construct constructs.IConstruct) *bool
- func CfnActivity_IsConstruct(x interface{}) *bool
- func CfnStateMachine_CFN_RESOURCE_TYPE_NAME() *string
- func CfnStateMachine_IsCfnElement(x interface{}) *bool
- func CfnStateMachine_IsCfnResource(construct constructs.IConstruct) *bool
- func CfnStateMachine_IsConstruct(x interface{}) *bool
- func Choice_FilterNextables(states *[]State) *[]INextable
- func Choice_FindReachableEndStates(start State, options *FindStateOptions) *[]State
- func Choice_FindReachableStates(start State, options *FindStateOptions) *[]State
- func Choice_IsConstruct(x interface{}) *bool
- func Choice_PrefixStates(root constructs.IConstruct, prefix *string)
- func CustomState_FilterNextables(states *[]State) *[]INextable
- func CustomState_FindReachableEndStates(start State, options *FindStateOptions) *[]State
- func CustomState_FindReachableStates(start State, options *FindStateOptions) *[]State
- func CustomState_IsConstruct(x interface{}) *bool
- func CustomState_PrefixStates(root constructs.IConstruct, prefix *string)
- func Errors_ALL() *string
- func Errors_BRANCH_FAILED() *string
- func Errors_HEARTBEAT_TIMEOUT() *string
- func Errors_NO_CHOICE_MATCHED() *string
- func Errors_PARAMETER_PATH_FAILURE() *string
- func Errors_PERMISSIONS() *string
- func Errors_RESULT_PATH_MATCH_FAILURE() *string
- func Errors_TASKS_FAILED() *string
- func Errors_TIMEOUT() *string
- func Fail_FilterNextables(states *[]State) *[]INextable
- func Fail_FindReachableEndStates(start State, options *FindStateOptions) *[]State
- func Fail_FindReachableStates(start State, options *FindStateOptions) *[]State
- func Fail_IsConstruct(x interface{}) *bool
- func Fail_PrefixStates(root constructs.IConstruct, prefix *string)
- func FieldUtils_ContainsTaskToken(obj *map[string]interface{}) *bool
- func FieldUtils_FindReferencedPaths(obj *map[string]interface{}) *[]*string
- func FieldUtils_RenderObject(obj *map[string]interface{}) *map[string]interface{}
- func JsonPath_Array(values ...*string) *string
- func JsonPath_DISCARD() *string
- func JsonPath_EntireContext() *string
- func JsonPath_EntirePayload() *string
- func JsonPath_Format(formatString *string, values ...*string) *string
- func JsonPath_IsEncodedJsonPath(value *string) *bool
- func JsonPath_JsonToString(value interface{}) *string
- func JsonPath_ListAt(path *string) *[]*string
- func JsonPath_NumberAt(path *string) *float64
- func JsonPath_ObjectAt(path *string) awscdk.IResolvable
- func JsonPath_StringAt(path *string) *string
- func JsonPath_StringToJson(jsonString *string) awscdk.IResolvable
- func JsonPath_TaskToken() *string
- func Map_FilterNextables(states *[]State) *[]INextable
- func Map_FindReachableEndStates(start State, options *FindStateOptions) *[]State
- func Map_FindReachableStates(start State, options *FindStateOptions) *[]State
- func Map_IsConstruct(x interface{}) *bool
- func Map_PrefixStates(root constructs.IConstruct, prefix *string)
- func NewActivity_Override(a Activity, scope constructs.Construct, id *string, props *ActivityProps)
- func NewCfnActivity_Override(c CfnActivity, scope constructs.Construct, id *string, props *CfnActivityProps)
- func NewCfnStateMachine_Override(c CfnStateMachine, scope constructs.Construct, id *string, ...)
- func NewChoice_Override(c Choice, scope constructs.Construct, id *string, props *ChoiceProps)
- func NewCondition_Override(c Condition)
- func NewCustomState_Override(c CustomState, scope constructs.Construct, id *string, props *CustomStateProps)
- func NewErrors_Override(e Errors)
- func NewFail_Override(f Fail, scope constructs.Construct, id *string, props *FailProps)
- func NewMap_Override(m Map, scope constructs.Construct, id *string, props *MapProps)
- func NewParallel_Override(p Parallel, scope constructs.Construct, id *string, props *ParallelProps)
- func NewPass_Override(p Pass, scope constructs.Construct, id *string, props *PassProps)
- func NewResult_Override(r Result, value interface{})
- func NewStateGraph_Override(s StateGraph, startState State, graphDescription *string)
- func NewStateMachineFragment_Override(s StateMachineFragment, scope constructs.Construct, id *string)
- func NewStateMachine_Override(s StateMachine, scope constructs.Construct, id *string, ...)
- func NewStateTransitionMetric_Override(s StateTransitionMetric)
- func NewState_Override(s State, scope constructs.Construct, id *string, props *StateProps)
- func NewSucceed_Override(s Succeed, scope constructs.Construct, id *string, props *SucceedProps)
- func NewTaskStateBase_Override(t TaskStateBase, scope constructs.Construct, id *string, ...)
- func NewWait_Override(w Wait, scope constructs.Construct, id *string, props *WaitProps)
- func Parallel_FilterNextables(states *[]State) *[]INextable
- func Parallel_FindReachableEndStates(start State, options *FindStateOptions) *[]State
- func Parallel_FindReachableStates(start State, options *FindStateOptions) *[]State
- func Parallel_IsConstruct(x interface{}) *bool
- func Parallel_PrefixStates(root constructs.IConstruct, prefix *string)
- func Pass_FilterNextables(states *[]State) *[]INextable
- func Pass_FindReachableEndStates(start State, options *FindStateOptions) *[]State
- func Pass_FindReachableStates(start State, options *FindStateOptions) *[]State
- func Pass_IsConstruct(x interface{}) *bool
- func Pass_PrefixStates(root constructs.IConstruct, prefix *string)
- func StateMachineFragment_IsConstruct(x interface{}) *bool
- func StateMachine_IsConstruct(x interface{}) *bool
- func StateMachine_IsOwnedResource(construct constructs.IConstruct) *bool
- func StateMachine_IsResource(construct constructs.IConstruct) *bool
- func StateTransitionMetric_Metric(metricName *string, props *awscloudwatch.MetricOptions) awscloudwatch.Metric
- func StateTransitionMetric_MetricConsumedCapacity(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
- func StateTransitionMetric_MetricProvisionedBucketSize(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
- func StateTransitionMetric_MetricProvisionedRefillRate(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
- func StateTransitionMetric_MetricThrottledEvents(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
- func State_FilterNextables(states *[]State) *[]INextable
- func State_FindReachableEndStates(start State, options *FindStateOptions) *[]State
- func State_FindReachableStates(start State, options *FindStateOptions) *[]State
- func State_IsConstruct(x interface{}) *bool
- func State_PrefixStates(root constructs.IConstruct, prefix *string)
- func Succeed_FilterNextables(states *[]State) *[]INextable
- func Succeed_FindReachableEndStates(start State, options *FindStateOptions) *[]State
- func Succeed_FindReachableStates(start State, options *FindStateOptions) *[]State
- func Succeed_IsConstruct(x interface{}) *bool
- func Succeed_PrefixStates(root constructs.IConstruct, prefix *string)
- func TaskStateBase_FilterNextables(states *[]State) *[]INextable
- func TaskStateBase_FindReachableEndStates(start State, options *FindStateOptions) *[]State
- func TaskStateBase_FindReachableStates(start State, options *FindStateOptions) *[]State
- func TaskStateBase_IsConstruct(x interface{}) *bool
- func TaskStateBase_PrefixStates(root constructs.IConstruct, prefix *string)
- func Wait_FilterNextables(states *[]State) *[]INextable
- func Wait_FindReachableEndStates(start State, options *FindStateOptions) *[]State
- func Wait_FindReachableStates(start State, options *FindStateOptions) *[]State
- func Wait_IsConstruct(x interface{}) *bool
- func Wait_PrefixStates(root constructs.IConstruct, prefix *string)
- type Activity
- type ActivityProps
- type AfterwardsOptions
- type CatchProps
- type CfnActivity
- type CfnActivityProps
- type CfnActivity_TagsEntryProperty
- type CfnStateMachine
- type CfnStateMachineProps
- type CfnStateMachine_CloudWatchLogsLogGroupProperty
- type CfnStateMachine_LogDestinationProperty
- type CfnStateMachine_LoggingConfigurationProperty
- type CfnStateMachine_S3LocationProperty
- type CfnStateMachine_TagsEntryProperty
- type CfnStateMachine_TracingConfigurationProperty
- type Chain
- type Choice
- type ChoiceProps
- type Condition
- func Condition_And(conditions ...Condition) Condition
- func Condition_BooleanEquals(variable *string, value *bool) Condition
- func Condition_BooleanEqualsJsonPath(variable *string, value *string) Condition
- func Condition_IsBoolean(variable *string) Condition
- func Condition_IsNotBoolean(variable *string) Condition
- func Condition_IsNotNull(variable *string) Condition
- func Condition_IsNotNumeric(variable *string) Condition
- func Condition_IsNotPresent(variable *string) Condition
- func Condition_IsNotString(variable *string) Condition
- func Condition_IsNotTimestamp(variable *string) Condition
- func Condition_IsNull(variable *string) Condition
- func Condition_IsNumeric(variable *string) Condition
- func Condition_IsPresent(variable *string) Condition
- func Condition_IsString(variable *string) Condition
- func Condition_IsTimestamp(variable *string) Condition
- func Condition_Not(condition Condition) Condition
- func Condition_NumberEquals(variable *string, value *float64) Condition
- func Condition_NumberEqualsJsonPath(variable *string, value *string) Condition
- func Condition_NumberGreaterThan(variable *string, value *float64) Condition
- func Condition_NumberGreaterThanEquals(variable *string, value *float64) Condition
- func Condition_NumberGreaterThanEqualsJsonPath(variable *string, value *string) Condition
- func Condition_NumberGreaterThanJsonPath(variable *string, value *string) Condition
- func Condition_NumberLessThan(variable *string, value *float64) Condition
- func Condition_NumberLessThanEquals(variable *string, value *float64) Condition
- func Condition_NumberLessThanEqualsJsonPath(variable *string, value *string) Condition
- func Condition_NumberLessThanJsonPath(variable *string, value *string) Condition
- func Condition_Or(conditions ...Condition) Condition
- func Condition_StringEquals(variable *string, value *string) Condition
- func Condition_StringEqualsJsonPath(variable *string, value *string) Condition
- func Condition_StringGreaterThan(variable *string, value *string) Condition
- func Condition_StringGreaterThanEquals(variable *string, value *string) Condition
- func Condition_StringGreaterThanEqualsJsonPath(variable *string, value *string) Condition
- func Condition_StringGreaterThanJsonPath(variable *string, value *string) Condition
- func Condition_StringLessThan(variable *string, value *string) Condition
- func Condition_StringLessThanEquals(variable *string, value *string) Condition
- func Condition_StringLessThanEqualsJsonPath(variable *string, value *string) Condition
- func Condition_StringLessThanJsonPath(variable *string, value *string) Condition
- func Condition_StringMatches(variable *string, value *string) Condition
- func Condition_TimestampEquals(variable *string, value *string) Condition
- func Condition_TimestampEqualsJsonPath(variable *string, value *string) Condition
- func Condition_TimestampGreaterThan(variable *string, value *string) Condition
- func Condition_TimestampGreaterThanEquals(variable *string, value *string) Condition
- func Condition_TimestampGreaterThanEqualsJsonPath(variable *string, value *string) Condition
- func Condition_TimestampGreaterThanJsonPath(variable *string, value *string) Condition
- func Condition_TimestampLessThan(variable *string, value *string) Condition
- func Condition_TimestampLessThanEquals(variable *string, value *string) Condition
- func Condition_TimestampLessThanEqualsJsonPath(variable *string, value *string) Condition
- func Condition_TimestampLessThanJsonPath(variable *string, value *string) Condition
- type CustomState
- type CustomStateProps
- type Errors
- type Fail
- type FailProps
- type FieldUtils
- type FindStateOptions
- type IActivity
- type IChainable
- type INextable
- type IStateMachine
- type InputType
- type IntegrationPattern
- type JsonPath
- type LogLevel
- type LogOptions
- type Map
- type MapProps
- type Parallel
- type ParallelProps
- type Pass
- type PassProps
- type Result
- type RetryProps
- type ServiceIntegrationPattern
- type SingleStateOptions
- type State
- type StateGraph
- type StateMachine
- type StateMachineFragment
- type StateMachineProps
- type StateMachineType
- type StateProps
- type StateTransitionMetric
- type Succeed
- type SucceedProps
- type TaskInput
- type TaskMetricsConfig
- type TaskStateBase
- type TaskStateBaseProps
- type Wait
- type WaitProps
- type WaitTime
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func Activity_IsConstruct ¶
func Activity_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func Activity_IsOwnedResource ¶ added in v2.32.0
func Activity_IsOwnedResource(construct constructs.IConstruct) *bool
Returns true if the construct was created by CDK, and false otherwise.
func Activity_IsResource ¶
func Activity_IsResource(construct constructs.IConstruct) *bool
Check whether the given construct is a Resource.
func CfnActivity_CFN_RESOURCE_TYPE_NAME ¶
func CfnActivity_CFN_RESOURCE_TYPE_NAME() *string
func CfnActivity_IsCfnElement ¶
func CfnActivity_IsCfnElement(x interface{}) *bool
Returns `true` if a construct is a stack element (i.e. part of the synthesized cloudformation template).
Uses duck-typing instead of `instanceof` to allow stack elements from different versions of this library to be included in the same stack.
Returns: The construct as a stack element or undefined if it is not a stack element.
func CfnActivity_IsCfnResource ¶
func CfnActivity_IsCfnResource(construct constructs.IConstruct) *bool
Check whether the given construct is a CfnResource.
func CfnActivity_IsConstruct ¶
func CfnActivity_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func CfnStateMachine_CFN_RESOURCE_TYPE_NAME ¶
func CfnStateMachine_CFN_RESOURCE_TYPE_NAME() *string
func CfnStateMachine_IsCfnElement ¶
func CfnStateMachine_IsCfnElement(x interface{}) *bool
Returns `true` if a construct is a stack element (i.e. part of the synthesized cloudformation template).
Uses duck-typing instead of `instanceof` to allow stack elements from different versions of this library to be included in the same stack.
Returns: The construct as a stack element or undefined if it is not a stack element.
func CfnStateMachine_IsCfnResource ¶
func CfnStateMachine_IsCfnResource(construct constructs.IConstruct) *bool
Check whether the given construct is a CfnResource.
func CfnStateMachine_IsConstruct ¶
func CfnStateMachine_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func Choice_FilterNextables ¶
Return only the states that allow chaining from an array of states.
func Choice_FindReachableEndStates ¶
func Choice_FindReachableEndStates(start State, options *FindStateOptions) *[]State
Find the set of end states states reachable through transitions from the given start state.
func Choice_FindReachableStates ¶
func Choice_FindReachableStates(start State, options *FindStateOptions) *[]State
Find the set of states reachable through transitions from the given start state.
This does not retrieve states from within sub-graphs, such as states within a Parallel state's branch.
func Choice_IsConstruct ¶
func Choice_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func Choice_PrefixStates ¶
func Choice_PrefixStates(root constructs.IConstruct, prefix *string)
Add a prefix to the stateId of all States found in a construct tree.
func CustomState_FilterNextables ¶
Return only the states that allow chaining from an array of states.
func CustomState_FindReachableEndStates ¶
func CustomState_FindReachableEndStates(start State, options *FindStateOptions) *[]State
Find the set of end states states reachable through transitions from the given start state.
func CustomState_FindReachableStates ¶
func CustomState_FindReachableStates(start State, options *FindStateOptions) *[]State
Find the set of states reachable through transitions from the given start state.
This does not retrieve states from within sub-graphs, such as states within a Parallel state's branch.
func CustomState_IsConstruct ¶
func CustomState_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func CustomState_PrefixStates ¶
func CustomState_PrefixStates(root constructs.IConstruct, prefix *string)
Add a prefix to the stateId of all States found in a construct tree.
func Errors_ALL ¶
func Errors_ALL() *string
func Errors_BRANCH_FAILED ¶
func Errors_BRANCH_FAILED() *string
func Errors_HEARTBEAT_TIMEOUT ¶
func Errors_HEARTBEAT_TIMEOUT() *string
func Errors_NO_CHOICE_MATCHED ¶
func Errors_NO_CHOICE_MATCHED() *string
func Errors_PARAMETER_PATH_FAILURE ¶
func Errors_PARAMETER_PATH_FAILURE() *string
func Errors_PERMISSIONS ¶
func Errors_PERMISSIONS() *string
func Errors_RESULT_PATH_MATCH_FAILURE ¶
func Errors_RESULT_PATH_MATCH_FAILURE() *string
func Errors_TASKS_FAILED ¶
func Errors_TASKS_FAILED() *string
func Errors_TIMEOUT ¶
func Errors_TIMEOUT() *string
func Fail_FilterNextables ¶
Return only the states that allow chaining from an array of states.
func Fail_FindReachableEndStates ¶
func Fail_FindReachableEndStates(start State, options *FindStateOptions) *[]State
Find the set of end states states reachable through transitions from the given start state.
func Fail_FindReachableStates ¶
func Fail_FindReachableStates(start State, options *FindStateOptions) *[]State
Find the set of states reachable through transitions from the given start state.
This does not retrieve states from within sub-graphs, such as states within a Parallel state's branch.
func Fail_IsConstruct ¶
func Fail_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func Fail_PrefixStates ¶
func Fail_PrefixStates(root constructs.IConstruct, prefix *string)
Add a prefix to the stateId of all States found in a construct tree.
func FieldUtils_ContainsTaskToken ¶
Returns whether the given task structure contains the TaskToken field anywhere.
The field is considered included if the field itself or one of its containing fields occurs anywhere in the payload.
func FieldUtils_FindReferencedPaths ¶
Return all JSON paths used in the given structure.
func FieldUtils_RenderObject ¶
Render a JSON structure containing fields to the right StepFunctions structure.
func JsonPath_Array ¶ added in v2.10.0
Make an intrinsic States.Array expression.
Combine any number of string literals or JsonPath expressions into an array.
Use this function if the value of an array element directly has to come from a JSON Path expression (either the State object or the Context object).
If the array contains object literals whose values come from a JSON path expression, you do not need to use this function. See: https://docs.aws.amazon.com/step-functions/latest/dg/amazon-states-language-intrinsic-functions.html
func JsonPath_DISCARD ¶
func JsonPath_DISCARD() *string
func JsonPath_EntireContext ¶
func JsonPath_EntireContext() *string
func JsonPath_EntirePayload ¶
func JsonPath_EntirePayload() *string
func JsonPath_Format ¶ added in v2.10.0
Make an intrinsic States.Format expression.
This can be used to embed JSON Path variables inside a format string.
For example:
```ts sfn.JsonPath.format('Hello, my name is {}.', sfn.JsonPath.stringAt('$.name')) ```. See: https://docs.aws.amazon.com/step-functions/latest/dg/amazon-states-language-intrinsic-functions.html
func JsonPath_IsEncodedJsonPath ¶
Determines if the indicated string is an encoded JSON path.
func JsonPath_JsonToString ¶ added in v2.10.0
func JsonPath_JsonToString(value interface{}) *string
Make an intrinsic States.JsonToString expression.
During the execution of the Step Functions state machine, encode the given object into a JSON string.
For example:
```ts sfn.JsonPath.jsonToString(sfn.JsonPath.objectAt('$.someObject')) ```. See: https://docs.aws.amazon.com/step-functions/latest/dg/amazon-states-language-intrinsic-functions.html
func JsonPath_ListAt ¶
Instead of using a literal string list, get the value from a JSON path.
func JsonPath_NumberAt ¶
Instead of using a literal number, get the value from a JSON path.
func JsonPath_ObjectAt ¶ added in v2.10.0
func JsonPath_ObjectAt(path *string) awscdk.IResolvable
Reference a complete (complex) object in a JSON path location.
func JsonPath_StringAt ¶
Instead of using a literal string, get the value from a JSON path.
func JsonPath_StringToJson ¶ added in v2.10.0
func JsonPath_StringToJson(jsonString *string) awscdk.IResolvable
Make an intrinsic States.StringToJson expression.
During the execution of the Step Functions state machine, parse the given argument as JSON into its object form.
For example:
```ts sfn.JsonPath.stringToJson(sfn.JsonPath.stringAt('$.someJsonBody')) ```. See: https://docs.aws.amazon.com/step-functions/latest/dg/amazon-states-language-intrinsic-functions.html
func JsonPath_TaskToken ¶
func JsonPath_TaskToken() *string
func Map_FilterNextables ¶
Return only the states that allow chaining from an array of states.
func Map_FindReachableEndStates ¶
func Map_FindReachableEndStates(start State, options *FindStateOptions) *[]State
Find the set of end states states reachable through transitions from the given start state.
func Map_FindReachableStates ¶
func Map_FindReachableStates(start State, options *FindStateOptions) *[]State
Find the set of states reachable through transitions from the given start state.
This does not retrieve states from within sub-graphs, such as states within a Parallel state's branch.
func Map_IsConstruct ¶
func Map_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func Map_PrefixStates ¶
func Map_PrefixStates(root constructs.IConstruct, prefix *string)
Add a prefix to the stateId of all States found in a construct tree.
func NewActivity_Override ¶
func NewActivity_Override(a Activity, scope constructs.Construct, id *string, props *ActivityProps)
func NewCfnActivity_Override ¶
func NewCfnActivity_Override(c CfnActivity, scope constructs.Construct, id *string, props *CfnActivityProps)
Create a new `AWS::StepFunctions::Activity`.
func NewCfnStateMachine_Override ¶
func NewCfnStateMachine_Override(c CfnStateMachine, scope constructs.Construct, id *string, props *CfnStateMachineProps)
Create a new `AWS::StepFunctions::StateMachine`.
func NewChoice_Override ¶
func NewChoice_Override(c Choice, scope constructs.Construct, id *string, props *ChoiceProps)
func NewCondition_Override ¶
func NewCondition_Override(c Condition)
func NewCustomState_Override ¶
func NewCustomState_Override(c CustomState, scope constructs.Construct, id *string, props *CustomStateProps)
func NewErrors_Override ¶
func NewErrors_Override(e Errors)
func NewFail_Override ¶
func NewMap_Override ¶
func NewParallel_Override ¶
func NewParallel_Override(p Parallel, scope constructs.Construct, id *string, props *ParallelProps)
func NewPass_Override ¶
func NewResult_Override ¶
func NewResult_Override(r Result, value interface{})
func NewStateGraph_Override ¶
func NewStateGraph_Override(s StateGraph, startState State, graphDescription *string)
func NewStateMachineFragment_Override ¶
func NewStateMachineFragment_Override(s StateMachineFragment, scope constructs.Construct, id *string)
Creates a new construct node.
func NewStateMachine_Override ¶
func NewStateMachine_Override(s StateMachine, scope constructs.Construct, id *string, props *StateMachineProps)
func NewStateTransitionMetric_Override ¶
func NewStateTransitionMetric_Override(s StateTransitionMetric)
func NewState_Override ¶
func NewState_Override(s State, scope constructs.Construct, id *string, props *StateProps)
func NewSucceed_Override ¶
func NewSucceed_Override(s Succeed, scope constructs.Construct, id *string, props *SucceedProps)
func NewTaskStateBase_Override ¶
func NewTaskStateBase_Override(t TaskStateBase, scope constructs.Construct, id *string, props *TaskStateBaseProps)
func NewWait_Override ¶
func Parallel_FilterNextables ¶
Return only the states that allow chaining from an array of states.
func Parallel_FindReachableEndStates ¶
func Parallel_FindReachableEndStates(start State, options *FindStateOptions) *[]State
Find the set of end states states reachable through transitions from the given start state.
func Parallel_FindReachableStates ¶
func Parallel_FindReachableStates(start State, options *FindStateOptions) *[]State
Find the set of states reachable through transitions from the given start state.
This does not retrieve states from within sub-graphs, such as states within a Parallel state's branch.
func Parallel_IsConstruct ¶
func Parallel_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func Parallel_PrefixStates ¶
func Parallel_PrefixStates(root constructs.IConstruct, prefix *string)
Add a prefix to the stateId of all States found in a construct tree.
func Pass_FilterNextables ¶
Return only the states that allow chaining from an array of states.
func Pass_FindReachableEndStates ¶
func Pass_FindReachableEndStates(start State, options *FindStateOptions) *[]State
Find the set of end states states reachable through transitions from the given start state.
func Pass_FindReachableStates ¶
func Pass_FindReachableStates(start State, options *FindStateOptions) *[]State
Find the set of states reachable through transitions from the given start state.
This does not retrieve states from within sub-graphs, such as states within a Parallel state's branch.
func Pass_IsConstruct ¶
func Pass_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func Pass_PrefixStates ¶
func Pass_PrefixStates(root constructs.IConstruct, prefix *string)
Add a prefix to the stateId of all States found in a construct tree.
func StateMachineFragment_IsConstruct ¶
func StateMachineFragment_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func StateMachine_IsConstruct ¶
func StateMachine_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func StateMachine_IsOwnedResource ¶ added in v2.32.0
func StateMachine_IsOwnedResource(construct constructs.IConstruct) *bool
Returns true if the construct was created by CDK, and false otherwise.
func StateMachine_IsResource ¶
func StateMachine_IsResource(construct constructs.IConstruct) *bool
Check whether the given construct is a Resource.
func StateTransitionMetric_Metric ¶
func StateTransitionMetric_Metric(metricName *string, props *awscloudwatch.MetricOptions) awscloudwatch.Metric
Return the given named metric for the service's state transition metrics.
func StateTransitionMetric_MetricConsumedCapacity ¶
func StateTransitionMetric_MetricConsumedCapacity(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
Metric for the number of available state transitions per second.
func StateTransitionMetric_MetricProvisionedBucketSize ¶
func StateTransitionMetric_MetricProvisionedBucketSize(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
Metric for the number of available state transitions.
func StateTransitionMetric_MetricProvisionedRefillRate ¶
func StateTransitionMetric_MetricProvisionedRefillRate(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
Metric for the provisioned steady-state execution rate.
func StateTransitionMetric_MetricThrottledEvents ¶
func StateTransitionMetric_MetricThrottledEvents(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
Metric for the number of throttled state transitions.
func State_FilterNextables ¶
Return only the states that allow chaining from an array of states.
func State_FindReachableEndStates ¶
func State_FindReachableEndStates(start State, options *FindStateOptions) *[]State
Find the set of end states states reachable through transitions from the given start state.
func State_FindReachableStates ¶
func State_FindReachableStates(start State, options *FindStateOptions) *[]State
Find the set of states reachable through transitions from the given start state.
This does not retrieve states from within sub-graphs, such as states within a Parallel state's branch.
func State_IsConstruct ¶
func State_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func State_PrefixStates ¶
func State_PrefixStates(root constructs.IConstruct, prefix *string)
Add a prefix to the stateId of all States found in a construct tree.
func Succeed_FilterNextables ¶
Return only the states that allow chaining from an array of states.
func Succeed_FindReachableEndStates ¶
func Succeed_FindReachableEndStates(start State, options *FindStateOptions) *[]State
Find the set of end states states reachable through transitions from the given start state.
func Succeed_FindReachableStates ¶
func Succeed_FindReachableStates(start State, options *FindStateOptions) *[]State
Find the set of states reachable through transitions from the given start state.
This does not retrieve states from within sub-graphs, such as states within a Parallel state's branch.
func Succeed_IsConstruct ¶
func Succeed_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func Succeed_PrefixStates ¶
func Succeed_PrefixStates(root constructs.IConstruct, prefix *string)
Add a prefix to the stateId of all States found in a construct tree.
func TaskStateBase_FilterNextables ¶
Return only the states that allow chaining from an array of states.
func TaskStateBase_FindReachableEndStates ¶
func TaskStateBase_FindReachableEndStates(start State, options *FindStateOptions) *[]State
Find the set of end states states reachable through transitions from the given start state.
func TaskStateBase_FindReachableStates ¶
func TaskStateBase_FindReachableStates(start State, options *FindStateOptions) *[]State
Find the set of states reachable through transitions from the given start state.
This does not retrieve states from within sub-graphs, such as states within a Parallel state's branch.
func TaskStateBase_IsConstruct ¶
func TaskStateBase_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func TaskStateBase_PrefixStates ¶
func TaskStateBase_PrefixStates(root constructs.IConstruct, prefix *string)
Add a prefix to the stateId of all States found in a construct tree.
func Wait_FilterNextables ¶
Return only the states that allow chaining from an array of states.
func Wait_FindReachableEndStates ¶
func Wait_FindReachableEndStates(start State, options *FindStateOptions) *[]State
Find the set of end states states reachable through transitions from the given start state.
func Wait_FindReachableStates ¶
func Wait_FindReachableStates(start State, options *FindStateOptions) *[]State
Find the set of states reachable through transitions from the given start state.
This does not retrieve states from within sub-graphs, such as states within a Parallel state's branch.
func Wait_IsConstruct ¶
func Wait_IsConstruct(x interface{}) *bool
Checks if `x` is a construct.
Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.
Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.
Returns: true if `x` is an object created from a class which extends `Construct`.
func Wait_PrefixStates ¶
func Wait_PrefixStates(root constructs.IConstruct, prefix *string)
Add a prefix to the stateId of all States found in a construct tree.
Types ¶
type Activity ¶
type Activity interface { awscdk.Resource IActivity // The ARN of the activity. ActivityArn() *string // The name of the activity. ActivityName() *string // The environment this resource belongs to. // // For resources that are created and managed by the CDK // (generally, those created by creating new class instances like Role, Bucket, etc.), // this is always the same as the environment of the stack they belong to; // however, for imported resources // (those obtained from static methods like fromRoleArn, fromBucketName, etc.), // that might be different than the stack they were imported into. Env() *awscdk.ResourceEnvironment // The tree node. Node() constructs.Node // Returns a string-encoded token that resolves to the physical name that should be passed to the CloudFormation resource. // // This value will resolve to one of the following: // - a concrete value (e.g. `"my-awesome-bucket"`) // - `undefined`, when a name should be generated by CloudFormation // - a concrete name generated automatically during synthesis, in // cross-environment scenarios. PhysicalName() *string // The stack in which this resource is defined. Stack() awscdk.Stack // Apply the given removal policy to this resource. // // The Removal Policy controls what happens to this resource when it stops // being managed by CloudFormation, either because you've removed it from the // CDK application or because you've made a change that requires the resource // to be replaced. // // The resource can be deleted (`RemovalPolicy.DESTROY`), or left in your AWS // account for data recovery and cleanup later (`RemovalPolicy.RETAIN`). ApplyRemovalPolicy(policy awscdk.RemovalPolicy) GeneratePhysicalName() *string // Returns an environment-sensitive token that should be used for the resource's "ARN" attribute (e.g. `bucket.bucketArn`). // // Normally, this token will resolve to `arnAttr`, but if the resource is // referenced across environments, `arnComponents` will be used to synthesize // a concrete ARN with the resource's physical name. Make sure to reference // `this.physicalName` in `arnComponents`. GetResourceArnAttribute(arnAttr *string, arnComponents *awscdk.ArnComponents) *string // Returns an environment-sensitive token that should be used for the resource's "name" attribute (e.g. `bucket.bucketName`). // // Normally, this token will resolve to `nameAttr`, but if the resource is // referenced across environments, it will be resolved to `this.physicalName`, // which will be a concrete name. GetResourceNameAttribute(nameAttr *string) *string // Grant the given identity permissions on this Activity. Grant(identity awsiam.IGrantable, actions ...*string) awsiam.Grant // Return the given named metric for this Activity. Metric(metricName *string, props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of times this activity fails. MetricFailed(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of times the heartbeat times out for this activity. MetricHeartbeatTimedOut(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // The interval, in milliseconds, between the time the activity starts and the time it closes. MetricRunTime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of times this activity is scheduled. MetricScheduled(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // The interval, in milliseconds, for which the activity stays in the schedule state. MetricScheduleTime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of times this activity is started. MetricStarted(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of times this activity succeeds. MetricSucceeded(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // The interval, in milliseconds, between the time the activity is scheduled and the time it closes. MetricTime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of times this activity times out. MetricTimedOut(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Returns a string representation of this construct. ToString() *string }
Define a new Step Functions Activity.
Example:
activity := sfn.NewActivity(this, jsii.String("Activity")) role := iam.NewRole(this, jsii.String("Role"), &roleProps{ assumedBy: iam.NewServicePrincipal(jsii.String("lambda.amazonaws.com")), }) activity.grant(role, jsii.String("states:SendTaskSuccess"))
func NewActivity ¶
func NewActivity(scope constructs.Construct, id *string, props *ActivityProps) Activity
type ActivityProps ¶
type ActivityProps struct { // The name for this activity. ActivityName *string `field:"optional" json:"activityName" yaml:"activityName"` }
Properties for defining a new Step Functions Activity.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" activityProps := &activityProps{ activityName: jsii.String("activityName"), }
type AfterwardsOptions ¶
type AfterwardsOptions struct { // Whether to include error handling states. // // If this is true, all states which are error handlers (added through 'onError') // and states reachable via error handlers will be included as well. IncludeErrorHandlers *bool `field:"optional" json:"includeErrorHandlers" yaml:"includeErrorHandlers"` // Whether to include the default/otherwise transition for the current Choice state. // // If this is true and the current Choice does not have a default outgoing // transition, one will be added included when .next() is called on the chain. IncludeOtherwise *bool `field:"optional" json:"includeOtherwise" yaml:"includeOtherwise"` }
Options for selecting the choice paths.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" afterwardsOptions := &afterwardsOptions{ includeErrorHandlers: jsii.Boolean(false), includeOtherwise: jsii.Boolean(false), }
type CatchProps ¶
type CatchProps struct { // Errors to recover from by going to the given state. // // A list of error strings to retry, which can be either predefined errors // (for example Errors.NoChoiceMatched) or a self-defined error. Errors *[]*string `field:"optional" json:"errors" yaml:"errors"` // JSONPath expression to indicate where to inject the error data. // // May also be the special value DISCARD, which will cause the error // data to be discarded. ResultPath *string `field:"optional" json:"resultPath" yaml:"resultPath"` }
Error handler details.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" catchProps := &catchProps{ errors: []*string{ jsii.String("errors"), }, resultPath: jsii.String("resultPath"), }
type CfnActivity ¶
type CfnActivity interface { awscdk.CfnResource awscdk.IInspectable AttrArn() *string // Returns the name of the activity. For example:. // // `{ "Fn::GetAtt": ["MyActivity", "Name"] }` // // Returns a value similar to the following: // // `myActivity` // // For more information about using `Fn::GetAtt` , see [Fn::GetAtt](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/intrinsic-function-reference-getatt.html) . AttrName() *string // Options for this resource, such as condition, update policy etc. CfnOptions() awscdk.ICfnResourceOptions CfnProperties() *map[string]interface{} // AWS resource type. CfnResourceType() *string // Returns: the stack trace of the point where this Resource was created from, sourced // from the +metadata+ entry typed +aws:cdk:logicalId+, and with the bottom-most // node +internal+ entries filtered. CreationStack() *[]*string // The logical ID for this CloudFormation stack element. // // The logical ID of the element // is calculated from the path of the resource node in the construct tree. // // To override this value, use `overrideLogicalId(newLogicalId)`. // // Returns: the logical ID as a stringified token. This value will only get // resolved during synthesis. LogicalId() *string // The name of the activity. // // A name must *not* contain: // // - white space // - brackets `< > { } [ ]` // - wildcard characters `? *` // - special characters `" # % \ ^ | ~ ` $ & , ; : /` // - control characters ( `U+0000-001F` , `U+007F-009F` ) // // To enable logging with CloudWatch Logs, the name should only contain 0-9, A-Z, a-z, - and _. Name() *string SetName(val *string) // The tree node. Node() constructs.Node // Return a string that will be resolved to a CloudFormation `{ Ref }` for this element. // // If, by any chance, the intrinsic reference of a resource is not a string, you could // coerce it to an IResolvable through `Lazy.any({ produce: resource.ref })`. Ref() *string // The stack in which this element is defined. // // CfnElements must be defined within a stack scope (directly or indirectly). Stack() awscdk.Stack // The list of tags to add to a resource. // // Tags may only contain Unicode letters, digits, white space, or these symbols: `_ . : / = + - @` . Tags() awscdk.TagManager // Deprecated. // Deprecated: use `updatedProperties` // // Return properties modified after initiation // // Resources that expose mutable properties should override this function to // collect and return the properties object for this resource. UpdatedProperites() *map[string]interface{} // Return properties modified after initiation. // // Resources that expose mutable properties should override this function to // collect and return the properties object for this resource. UpdatedProperties() *map[string]interface{} // Syntactic sugar for `addOverride(path, undefined)`. AddDeletionOverride(path *string) // Indicates that this resource depends on another resource and cannot be provisioned unless the other resource has been successfully provisioned. // // This can be used for resources across stacks (or nested stack) boundaries // and the dependency will automatically be transferred to the relevant scope. AddDependsOn(target awscdk.CfnResource) // Add a value to the CloudFormation Resource Metadata. // See: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/metadata-section-structure.html // // Note that this is a different set of metadata from CDK node metadata; this // metadata ends up in the stack template under the resource, whereas CDK // node metadata ends up in the Cloud Assembly. // AddMetadata(key *string, value interface{}) // Adds an override to the synthesized CloudFormation resource. // // To add a // property override, either use `addPropertyOverride` or prefix `path` with // "Properties." (i.e. `Properties.TopicName`). // // If the override is nested, separate each nested level using a dot (.) in the path parameter. // If there is an array as part of the nesting, specify the index in the path. // // To include a literal `.` in the property name, prefix with a `\`. In most // programming languages you will need to write this as `"\\."` because the // `\` itself will need to be escaped. // // For example, // “`typescript // cfnResource.addOverride('Properties.GlobalSecondaryIndexes.0.Projection.NonKeyAttributes', ['myattribute']); // cfnResource.addOverride('Properties.GlobalSecondaryIndexes.1.ProjectionType', 'INCLUDE'); // “` // would add the overrides // “`json // "Properties": { // "GlobalSecondaryIndexes": [ // { // "Projection": { // "NonKeyAttributes": [ "myattribute" ] // ... // } // ... // }, // { // "ProjectionType": "INCLUDE" // ... // }, // ] // ... // } // “` // // The `value` argument to `addOverride` will not be processed or translated // in any way. Pass raw JSON values in here with the correct capitalization // for CloudFormation. If you pass CDK classes or structs, they will be // rendered with lowercased key names, and CloudFormation will reject the // template. AddOverride(path *string, value interface{}) // Adds an override that deletes the value of a property from the resource definition. AddPropertyDeletionOverride(propertyPath *string) // Adds an override to a resource property. // // Syntactic sugar for `addOverride("Properties.<...>", value)`. AddPropertyOverride(propertyPath *string, value interface{}) // Sets the deletion policy of the resource based on the removal policy specified. // // The Removal Policy controls what happens to this resource when it stops // being managed by CloudFormation, either because you've removed it from the // CDK application or because you've made a change that requires the resource // to be replaced. // // The resource can be deleted (`RemovalPolicy.DESTROY`), or left in your AWS // account for data recovery and cleanup later (`RemovalPolicy.RETAIN`). In some // cases, a snapshot can be taken of the resource prior to deletion // (`RemovalPolicy.SNAPSHOT`). A list of resources that support this policy // can be found in the following link:. // See: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-attribute-deletionpolicy.html#aws-attribute-deletionpolicy-options // ApplyRemovalPolicy(policy awscdk.RemovalPolicy, options *awscdk.RemovalPolicyOptions) // Returns a token for an runtime attribute of this resource. // // Ideally, use generated attribute accessors (e.g. `resource.arn`), but this can be used for future compatibility // in case there is no generated attribute. GetAtt(attributeName *string) awscdk.Reference // Retrieve a value value from the CloudFormation Resource Metadata. // See: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/metadata-section-structure.html // // Note that this is a different set of metadata from CDK node metadata; this // metadata ends up in the stack template under the resource, whereas CDK // node metadata ends up in the Cloud Assembly. // GetMetadata(key *string) interface{} // Examines the CloudFormation resource and discloses attributes. Inspect(inspector awscdk.TreeInspector) // Overrides the auto-generated logical ID with a specific ID. OverrideLogicalId(newLogicalId *string) RenderProperties(props *map[string]interface{}) *map[string]interface{} // Can be overridden by subclasses to determine if this resource will be rendered into the cloudformation template. // // Returns: `true` if the resource should be included or `false` is the resource // should be omitted. ShouldSynthesize() *bool // Returns a string representation of this construct. // // Returns: a string representation of this resource. ToString() *string ValidateProperties(_properties interface{}) }
A CloudFormation `AWS::StepFunctions::Activity`.
An activity is a task that you write in any programming language and host on any machine that has access to AWS Step Functions . Activities must poll Step Functions using the `GetActivityTask` API action and respond using `SendTask*` API actions. This function lets Step Functions know the existence of your activity and returns an identifier for use in a state machine and when polling from the activity.
For information about creating an activity, see [Creating an Activity State Machine](https://docs.aws.amazon.com/step-functions/latest/dg/tutorial-creating-activity-state-machine.html) in the *AWS Step Functions Developer Guide* and [CreateActivity](https://docs.aws.amazon.com/step-functions/latest/apireference/API_CreateActivity.html) in the *AWS Step Functions API Reference* .
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" cfnActivity := awscdk.Aws_stepfunctions.NewCfnActivity(this, jsii.String("MyCfnActivity"), &cfnActivityProps{ name: jsii.String("name"), // the properties below are optional tags: []tagsEntryProperty{ &tagsEntryProperty{ key: jsii.String("key"), value: jsii.String("value"), }, }, })
func NewCfnActivity ¶
func NewCfnActivity(scope constructs.Construct, id *string, props *CfnActivityProps) CfnActivity
Create a new `AWS::StepFunctions::Activity`.
type CfnActivityProps ¶
type CfnActivityProps struct { // The name of the activity. // // A name must *not* contain: // // - white space // - brackets `< > { } [ ]` // - wildcard characters `? *` // - special characters `" # % \ ^ | ~ ` $ & , ; : /` // - control characters ( `U+0000-001F` , `U+007F-009F` ) // // To enable logging with CloudWatch Logs, the name should only contain 0-9, A-Z, a-z, - and _. Name *string `field:"required" json:"name" yaml:"name"` // The list of tags to add to a resource. // // Tags may only contain Unicode letters, digits, white space, or these symbols: `_ . : / = + - @` . Tags *[]*CfnActivity_TagsEntryProperty `field:"optional" json:"tags" yaml:"tags"` }
Properties for defining a `CfnActivity`.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" cfnActivityProps := &cfnActivityProps{ name: jsii.String("name"), // the properties below are optional tags: []tagsEntryProperty{ &tagsEntryProperty{ key: jsii.String("key"), value: jsii.String("value"), }, }, }
type CfnActivity_TagsEntryProperty ¶
type CfnActivity_TagsEntryProperty struct { // The `key` for a key-value pair in a tag entry. Key *string `field:"required" json:"key" yaml:"key"` // The `value` for a key-value pair in a tag entry. Value *string `field:"required" json:"value" yaml:"value"` }
The `TagsEntry` property specifies *tags* to identify an activity.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" tagsEntryProperty := &tagsEntryProperty{ key: jsii.String("key"), value: jsii.String("value"), }
type CfnStateMachine ¶
type CfnStateMachine interface { awscdk.CfnResource awscdk.IInspectable AttrArn() *string // Returns the name of the state machine. For example:. // // `{ "Fn::GetAtt": ["MyStateMachine", "Name"] }` // // Returns the name of your state machine: // // `HelloWorld-StateMachine` // // If you did not specify the name it will be similar to the following: // // `MyStateMachine-1234abcdefgh` // // For more information about using `Fn::GetAtt` , see [Fn::GetAtt](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/intrinsic-function-reference-getatt.html) . AttrName() *string // Options for this resource, such as condition, update policy etc. CfnOptions() awscdk.ICfnResourceOptions CfnProperties() *map[string]interface{} // AWS resource type. CfnResourceType() *string // Returns: the stack trace of the point where this Resource was created from, sourced // from the +metadata+ entry typed +aws:cdk:logicalId+, and with the bottom-most // node +internal+ entries filtered. CreationStack() *[]*string // The Amazon States Language definition of the state machine. // // The state machine definition must be in JSON or YAML, and the format of the object must match the format of your AWS Step Functions template file. See [Amazon States Language](https://docs.aws.amazon.com/step-functions/latest/dg/concepts-amazon-states-language.html) . Definition() interface{} SetDefinition(val interface{}) // The name of the S3 bucket where the state machine definition is stored. // // The state machine definition must be a JSON or YAML file. DefinitionS3Location() interface{} SetDefinitionS3Location(val interface{}) // The Amazon States Language definition of the state machine. // // The state machine definition must be in JSON. See [Amazon States Language](https://docs.aws.amazon.com/step-functions/latest/dg/concepts-amazon-states-language.html) . DefinitionString() *string SetDefinitionString(val *string) // A map (string to string) that specifies the mappings for placeholder variables in the state machine definition. // // This enables the customer to inject values obtained at runtime, for example from intrinsic functions, in the state machine definition. Variables can be template parameter names, resource logical IDs, resource attributes, or a variable in a key-value map. DefinitionSubstitutions() interface{} SetDefinitionSubstitutions(val interface{}) // Defines what execution history events are logged and where they are logged. // // > By default, the `level` is set to `OFF` . For more information see [Log Levels](https://docs.aws.amazon.com/step-functions/latest/dg/cloudwatch-log-level.html) in the AWS Step Functions User Guide. LoggingConfiguration() interface{} SetLoggingConfiguration(val interface{}) // The logical ID for this CloudFormation stack element. // // The logical ID of the element // is calculated from the path of the resource node in the construct tree. // // To override this value, use `overrideLogicalId(newLogicalId)`. // // Returns: the logical ID as a stringified token. This value will only get // resolved during synthesis. LogicalId() *string // The tree node. Node() constructs.Node // Return a string that will be resolved to a CloudFormation `{ Ref }` for this element. // // If, by any chance, the intrinsic reference of a resource is not a string, you could // coerce it to an IResolvable through `Lazy.any({ produce: resource.ref })`. Ref() *string // The Amazon Resource Name (ARN) of the IAM role to use for this state machine. RoleArn() *string SetRoleArn(val *string) // The stack in which this element is defined. // // CfnElements must be defined within a stack scope (directly or indirectly). Stack() awscdk.Stack // The name of the state machine. // // A name must *not* contain: // // - white space // - brackets `< > { } [ ]` // - wildcard characters `? *` // - special characters `" # % \ ^ | ~ ` $ & , ; : /` // - control characters ( `U+0000-001F` , `U+007F-009F` ) // // > If you specify a name, you cannot perform updates that require replacement of this resource. You can perform updates that require no or some interruption. If you must replace the resource, specify a new name. StateMachineName() *string SetStateMachineName(val *string) // Determines whether a `STANDARD` or `EXPRESS` state machine is created. // // The default is `STANDARD` . You cannot update the `type` of a state machine once it has been created. For more information on `STANDARD` and `EXPRESS` workflows, see [Standard Versus Express Workflows](https://docs.aws.amazon.com/step-functions/latest/dg/concepts-standard-vs-express.html) in the AWS Step Functions Developer Guide. StateMachineType() *string SetStateMachineType(val *string) // The list of tags to add to a resource. // // Tags may only contain Unicode letters, digits, white space, or these symbols: `_ . : / = + - @` . Tags() awscdk.TagManager // Selects whether or not the state machine's AWS X-Ray tracing is enabled. TracingConfiguration() interface{} SetTracingConfiguration(val interface{}) // Deprecated. // Deprecated: use `updatedProperties` // // Return properties modified after initiation // // Resources that expose mutable properties should override this function to // collect and return the properties object for this resource. UpdatedProperites() *map[string]interface{} // Return properties modified after initiation. // // Resources that expose mutable properties should override this function to // collect and return the properties object for this resource. UpdatedProperties() *map[string]interface{} // Syntactic sugar for `addOverride(path, undefined)`. AddDeletionOverride(path *string) // Indicates that this resource depends on another resource and cannot be provisioned unless the other resource has been successfully provisioned. // // This can be used for resources across stacks (or nested stack) boundaries // and the dependency will automatically be transferred to the relevant scope. AddDependsOn(target awscdk.CfnResource) // Add a value to the CloudFormation Resource Metadata. // See: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/metadata-section-structure.html // // Note that this is a different set of metadata from CDK node metadata; this // metadata ends up in the stack template under the resource, whereas CDK // node metadata ends up in the Cloud Assembly. // AddMetadata(key *string, value interface{}) // Adds an override to the synthesized CloudFormation resource. // // To add a // property override, either use `addPropertyOverride` or prefix `path` with // "Properties." (i.e. `Properties.TopicName`). // // If the override is nested, separate each nested level using a dot (.) in the path parameter. // If there is an array as part of the nesting, specify the index in the path. // // To include a literal `.` in the property name, prefix with a `\`. In most // programming languages you will need to write this as `"\\."` because the // `\` itself will need to be escaped. // // For example, // “`typescript // cfnResource.addOverride('Properties.GlobalSecondaryIndexes.0.Projection.NonKeyAttributes', ['myattribute']); // cfnResource.addOverride('Properties.GlobalSecondaryIndexes.1.ProjectionType', 'INCLUDE'); // “` // would add the overrides // “`json // "Properties": { // "GlobalSecondaryIndexes": [ // { // "Projection": { // "NonKeyAttributes": [ "myattribute" ] // ... // } // ... // }, // { // "ProjectionType": "INCLUDE" // ... // }, // ] // ... // } // “` // // The `value` argument to `addOverride` will not be processed or translated // in any way. Pass raw JSON values in here with the correct capitalization // for CloudFormation. If you pass CDK classes or structs, they will be // rendered with lowercased key names, and CloudFormation will reject the // template. AddOverride(path *string, value interface{}) // Adds an override that deletes the value of a property from the resource definition. AddPropertyDeletionOverride(propertyPath *string) // Adds an override to a resource property. // // Syntactic sugar for `addOverride("Properties.<...>", value)`. AddPropertyOverride(propertyPath *string, value interface{}) // Sets the deletion policy of the resource based on the removal policy specified. // // The Removal Policy controls what happens to this resource when it stops // being managed by CloudFormation, either because you've removed it from the // CDK application or because you've made a change that requires the resource // to be replaced. // // The resource can be deleted (`RemovalPolicy.DESTROY`), or left in your AWS // account for data recovery and cleanup later (`RemovalPolicy.RETAIN`). In some // cases, a snapshot can be taken of the resource prior to deletion // (`RemovalPolicy.SNAPSHOT`). A list of resources that support this policy // can be found in the following link:. // See: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-attribute-deletionpolicy.html#aws-attribute-deletionpolicy-options // ApplyRemovalPolicy(policy awscdk.RemovalPolicy, options *awscdk.RemovalPolicyOptions) // Returns a token for an runtime attribute of this resource. // // Ideally, use generated attribute accessors (e.g. `resource.arn`), but this can be used for future compatibility // in case there is no generated attribute. GetAtt(attributeName *string) awscdk.Reference // Retrieve a value value from the CloudFormation Resource Metadata. // See: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/metadata-section-structure.html // // Note that this is a different set of metadata from CDK node metadata; this // metadata ends up in the stack template under the resource, whereas CDK // node metadata ends up in the Cloud Assembly. // GetMetadata(key *string) interface{} // Examines the CloudFormation resource and discloses attributes. Inspect(inspector awscdk.TreeInspector) // Overrides the auto-generated logical ID with a specific ID. OverrideLogicalId(newLogicalId *string) RenderProperties(props *map[string]interface{}) *map[string]interface{} // Can be overridden by subclasses to determine if this resource will be rendered into the cloudformation template. // // Returns: `true` if the resource should be included or `false` is the resource // should be omitted. ShouldSynthesize() *bool // Returns a string representation of this construct. // // Returns: a string representation of this resource. ToString() *string ValidateProperties(_properties interface{}) }
A CloudFormation `AWS::StepFunctions::StateMachine`.
Provisions a state machine. A state machine consists of a collection of states that can do work ( `Task` states), determine to which states to transition next ( `Choice` states), stop an execution with an error ( `Fail` states), and so on. State machines are specified using a JSON-based, structured language.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" var definition interface{} var definitionSubstitutions interface{} cfnStateMachine := awscdk.Aws_stepfunctions.NewCfnStateMachine(this, jsii.String("MyCfnStateMachine"), &cfnStateMachineProps{ roleArn: jsii.String("roleArn"), // the properties below are optional definition: definition, definitionS3Location: &s3LocationProperty{ bucket: jsii.String("bucket"), key: jsii.String("key"), // the properties below are optional version: jsii.String("version"), }, definitionString: jsii.String("definitionString"), definitionSubstitutions: map[string]interface{}{ "definitionSubstitutionsKey": definitionSubstitutions, }, loggingConfiguration: &loggingConfigurationProperty{ destinations: []interface{}{ &logDestinationProperty{ cloudWatchLogsLogGroup: &cloudWatchLogsLogGroupProperty{ logGroupArn: jsii.String("logGroupArn"), }, }, }, includeExecutionData: jsii.Boolean(false), level: jsii.String("level"), }, stateMachineName: jsii.String("stateMachineName"), stateMachineType: jsii.String("stateMachineType"), tags: []tagsEntryProperty{ &tagsEntryProperty{ key: jsii.String("key"), value: jsii.String("value"), }, }, tracingConfiguration: &tracingConfigurationProperty{ enabled: jsii.Boolean(false), }, })
func NewCfnStateMachine ¶
func NewCfnStateMachine(scope constructs.Construct, id *string, props *CfnStateMachineProps) CfnStateMachine
Create a new `AWS::StepFunctions::StateMachine`.
type CfnStateMachineProps ¶
type CfnStateMachineProps struct { // The Amazon Resource Name (ARN) of the IAM role to use for this state machine. RoleArn *string `field:"required" json:"roleArn" yaml:"roleArn"` // The Amazon States Language definition of the state machine. // // The state machine definition must be in JSON or YAML, and the format of the object must match the format of your AWS Step Functions template file. See [Amazon States Language](https://docs.aws.amazon.com/step-functions/latest/dg/concepts-amazon-states-language.html) . Definition interface{} `field:"optional" json:"definition" yaml:"definition"` // The name of the S3 bucket where the state machine definition is stored. // // The state machine definition must be a JSON or YAML file. DefinitionS3Location interface{} `field:"optional" json:"definitionS3Location" yaml:"definitionS3Location"` // The Amazon States Language definition of the state machine. // // The state machine definition must be in JSON. See [Amazon States Language](https://docs.aws.amazon.com/step-functions/latest/dg/concepts-amazon-states-language.html) . DefinitionString *string `field:"optional" json:"definitionString" yaml:"definitionString"` // A map (string to string) that specifies the mappings for placeholder variables in the state machine definition. // // This enables the customer to inject values obtained at runtime, for example from intrinsic functions, in the state machine definition. Variables can be template parameter names, resource logical IDs, resource attributes, or a variable in a key-value map. DefinitionSubstitutions interface{} `field:"optional" json:"definitionSubstitutions" yaml:"definitionSubstitutions"` // Defines what execution history events are logged and where they are logged. // // > By default, the `level` is set to `OFF` . For more information see [Log Levels](https://docs.aws.amazon.com/step-functions/latest/dg/cloudwatch-log-level.html) in the AWS Step Functions User Guide. LoggingConfiguration interface{} `field:"optional" json:"loggingConfiguration" yaml:"loggingConfiguration"` // The name of the state machine. // // A name must *not* contain: // // - white space // - brackets `< > { } [ ]` // - wildcard characters `? *` // - special characters `" # % \ ^ | ~ ` $ & , ; : /` // - control characters ( `U+0000-001F` , `U+007F-009F` ) // // > If you specify a name, you cannot perform updates that require replacement of this resource. You can perform updates that require no or some interruption. If you must replace the resource, specify a new name. StateMachineName *string `field:"optional" json:"stateMachineName" yaml:"stateMachineName"` // Determines whether a `STANDARD` or `EXPRESS` state machine is created. // // The default is `STANDARD` . You cannot update the `type` of a state machine once it has been created. For more information on `STANDARD` and `EXPRESS` workflows, see [Standard Versus Express Workflows](https://docs.aws.amazon.com/step-functions/latest/dg/concepts-standard-vs-express.html) in the AWS Step Functions Developer Guide. StateMachineType *string `field:"optional" json:"stateMachineType" yaml:"stateMachineType"` // The list of tags to add to a resource. // // Tags may only contain Unicode letters, digits, white space, or these symbols: `_ . : / = + - @` . Tags *[]*CfnStateMachine_TagsEntryProperty `field:"optional" json:"tags" yaml:"tags"` // Selects whether or not the state machine's AWS X-Ray tracing is enabled. TracingConfiguration interface{} `field:"optional" json:"tracingConfiguration" yaml:"tracingConfiguration"` }
Properties for defining a `CfnStateMachine`.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" var definition interface{} var definitionSubstitutions interface{} cfnStateMachineProps := &cfnStateMachineProps{ roleArn: jsii.String("roleArn"), // the properties below are optional definition: definition, definitionS3Location: &s3LocationProperty{ bucket: jsii.String("bucket"), key: jsii.String("key"), // the properties below are optional version: jsii.String("version"), }, definitionString: jsii.String("definitionString"), definitionSubstitutions: map[string]interface{}{ "definitionSubstitutionsKey": definitionSubstitutions, }, loggingConfiguration: &loggingConfigurationProperty{ destinations: []interface{}{ &logDestinationProperty{ cloudWatchLogsLogGroup: &cloudWatchLogsLogGroupProperty{ logGroupArn: jsii.String("logGroupArn"), }, }, }, includeExecutionData: jsii.Boolean(false), level: jsii.String("level"), }, stateMachineName: jsii.String("stateMachineName"), stateMachineType: jsii.String("stateMachineType"), tags: []tagsEntryProperty{ &tagsEntryProperty{ key: jsii.String("key"), value: jsii.String("value"), }, }, tracingConfiguration: &tracingConfigurationProperty{ enabled: jsii.Boolean(false), }, }
type CfnStateMachine_CloudWatchLogsLogGroupProperty ¶
type CfnStateMachine_CloudWatchLogsLogGroupProperty struct { // The ARN of the the CloudWatch log group to which you want your logs emitted to. // // The ARN must end with `:*`. LogGroupArn *string `field:"optional" json:"logGroupArn" yaml:"logGroupArn"` }
Defines a CloudWatch log group.
> For more information see [Standard Versus Express Workflows](https://docs.aws.amazon.com/step-functions/latest/dg/concepts-standard-vs-express.html) in the AWS Step Functions Developer Guide.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" cloudWatchLogsLogGroupProperty := &cloudWatchLogsLogGroupProperty{ logGroupArn: jsii.String("logGroupArn"), }
type CfnStateMachine_LogDestinationProperty ¶
type CfnStateMachine_LogDestinationProperty struct { // An object describing a CloudWatch log group. // // For more information, see [AWS::Logs::LogGroup](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-logs-loggroup.html) in the AWS CloudFormation User Guide. CloudWatchLogsLogGroup interface{} `field:"optional" json:"cloudWatchLogsLogGroup" yaml:"cloudWatchLogsLogGroup"` }
Defines a destination for `LoggingConfiguration` .
> For more information on logging with `EXPRESS` workflows, see [Logging Express Workflows Using CloudWatch Logs](https://docs.aws.amazon.com/step-functions/latest/dg/cw-logs.html) .
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" logDestinationProperty := &logDestinationProperty{ cloudWatchLogsLogGroup: &cloudWatchLogsLogGroupProperty{ logGroupArn: jsii.String("logGroupArn"), }, }
type CfnStateMachine_LoggingConfigurationProperty ¶
type CfnStateMachine_LoggingConfigurationProperty struct { // An array of objects that describes where your execution history events will be logged. // // Limited to size 1. Required, if your log level is not set to `OFF` . Destinations interface{} `field:"optional" json:"destinations" yaml:"destinations"` // Determines whether execution data is included in your log. // // When set to `false` , data is excluded. IncludeExecutionData interface{} `field:"optional" json:"includeExecutionData" yaml:"includeExecutionData"` // Defines which category of execution history events are logged. Level *string `field:"optional" json:"level" yaml:"level"` }
Defines what execution history events are logged and where they are logged.
> By default, the `level` is set to `OFF` . For more information see [Log Levels](https://docs.aws.amazon.com/step-functions/latest/dg/cloudwatch-log-level.html) in the AWS Step Functions User Guide.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" loggingConfigurationProperty := &loggingConfigurationProperty{ destinations: []interface{}{ &logDestinationProperty{ cloudWatchLogsLogGroup: &cloudWatchLogsLogGroupProperty{ logGroupArn: jsii.String("logGroupArn"), }, }, }, includeExecutionData: jsii.Boolean(false), level: jsii.String("level"), }
type CfnStateMachine_S3LocationProperty ¶
type CfnStateMachine_S3LocationProperty struct { // The name of the S3 bucket where the state machine definition JSON or YAML file is stored. Bucket *string `field:"required" json:"bucket" yaml:"bucket"` // The name of the state machine definition file (Amazon S3 object name). Key *string `field:"required" json:"key" yaml:"key"` // For versioning-enabled buckets, a specific version of the state machine definition. Version *string `field:"optional" json:"version" yaml:"version"` }
Defines the S3 bucket location where a state machine definition is stored.
The state machine definition must be a JSON or YAML file.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" s3LocationProperty := &s3LocationProperty{ bucket: jsii.String("bucket"), key: jsii.String("key"), // the properties below are optional version: jsii.String("version"), }
type CfnStateMachine_TagsEntryProperty ¶
type CfnStateMachine_TagsEntryProperty struct { // The `key` for a key-value pair in a tag entry. Key *string `field:"required" json:"key" yaml:"key"` // The `value` for a key-value pair in a tag entry. Value *string `field:"required" json:"value" yaml:"value"` }
The `TagsEntry` property specifies *tags* to identify a state machine.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" tagsEntryProperty := &tagsEntryProperty{ key: jsii.String("key"), value: jsii.String("value"), }
type CfnStateMachine_TracingConfigurationProperty ¶
type CfnStateMachine_TracingConfigurationProperty struct {
// When set to `true` , X-Ray tracing is enabled.
Enabled interface{} `field:"optional" json:"enabled" yaml:"enabled"`
}
Selects whether or not the state machine's AWS X-Ray tracing is enabled.
To configure your state machine to send trace data to X-Ray, set `Enabled` to `true` .
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" tracingConfigurationProperty := &tracingConfigurationProperty{ enabled: jsii.Boolean(false), }
type Chain ¶
type Chain interface { IChainable // The chainable end state(s) of this chain. EndStates() *[]INextable // Identify this Chain. Id() *string // The start state of this chain. StartState() State // Continue normal execution with the given state. Next(next IChainable) Chain // Return a single state that encompasses all states in the chain. // // This can be used to add error handling to a sequence of states. // // Be aware that this changes the result of the inner state machine // to be an array with the result of the state machine in it. Adjust // your paths accordingly. For example, change 'outputPath' to // '$[0]'. ToSingleState(id *string, props *ParallelProps) Parallel }
A collection of states to chain onto.
A Chain has a start and zero or more chainable ends. If there are zero ends, calling next() on the Chain will fail.
Example:
// Define a state machine with one Pass state child := sfn.NewStateMachine(this, jsii.String("ChildStateMachine"), &stateMachineProps{ definition: sfn.chain.start(sfn.NewPass(this, jsii.String("PassState"))), }) // Include the state machine in a Task state with callback pattern task := tasks.NewStepFunctionsStartExecution(this, jsii.String("ChildTask"), &stepFunctionsStartExecutionProps{ stateMachine: child, integrationPattern: sfn.integrationPattern_WAIT_FOR_TASK_TOKEN, input: sfn.taskInput.fromObject(map[string]interface{}{ "token": sfn.JsonPath.taskToken, "foo": jsii.String("bar"), }), name: jsii.String("MyExecutionName"), }) // Define a second state machine with the Task state above // Define a second state machine with the Task state above sfn.NewStateMachine(this, jsii.String("ParentStateMachine"), &stateMachineProps{ definition: task, })
func Chain_Custom ¶
func Chain_Custom(startState State, endStates *[]INextable, lastAdded IChainable) Chain
Make a Chain with specific start and end states, and a last-added Chainable.
func Chain_Sequence ¶
func Chain_Sequence(start IChainable, next IChainable) Chain
Make a Chain with the start from one chain and the ends from another.
type Choice ¶
type Choice interface { State Branches() *[]StateGraph Comment() *string DefaultChoice() State SetDefaultChoice(val State) // Continuable states of this Chainable. EndStates() *[]INextable // Descriptive identifier for this chainable. Id() *string InputPath() *string Iteration() StateGraph SetIteration(val StateGraph) // The tree node. Node() constructs.Node OutputPath() *string Parameters() *map[string]interface{} ResultPath() *string ResultSelector() *map[string]interface{} // First state of this Chainable. StartState() State // Tokenized string that evaluates to the state's ID. StateId() *string // Add a paralle branch to this state. AddBranch(branch StateGraph) // Add a choice branch to this state. AddChoice(condition Condition, next State) // Add a map iterator to this state. AddIterator(iteration StateGraph) // Add a prefix to the stateId of this state. AddPrefix(x *string) // Return a Chain that contains all reachable end states from this Choice. // // Use this to combine all possible choice paths back. Afterwards(options *AfterwardsOptions) Chain // Register this state as part of the given graph. // // Don't call this. It will be called automatically when you work // with states normally. BindToGraph(graph StateGraph) // Make the indicated state the default choice transition of this state. MakeDefault(def State) // Make the indicated state the default transition of this state. MakeNext(next State) // If none of the given conditions match, continue execution with the given state. // // If no conditions match and no otherwise() has been given, an execution // error will be raised. Otherwise(def IChainable) Choice // Render parallel branches in ASL JSON format. RenderBranches() interface{} // Render the choices in ASL JSON format. RenderChoices() interface{} // Render InputPath/Parameters/OutputPath in ASL JSON format. RenderInputOutput() interface{} // Render map iterator in ASL JSON format. RenderIterator() interface{} // Render the default next state in ASL JSON format. RenderNextEnd() interface{} // Render ResultSelector in ASL JSON format. RenderResultSelector() interface{} // Render error recovery options in ASL JSON format. RenderRetryCatch() interface{} // Return the Amazon States Language object for this state. ToStateJson() *map[string]interface{} // Returns a string representation of this construct. ToString() *string // Allows the state to validate itself. ValidateState() *[]*string // If the given condition matches, continue execution with the given state. When(condition Condition, next IChainable) Choice // Called whenever this state is bound to a graph. // // Can be overridden by subclasses. WhenBoundToGraph(graph StateGraph) }
Define a Choice in the state machine.
A choice state can be used to make decisions based on the execution state.
Example:
import lambda "github.com/aws/aws-cdk-go/awscdk" var submitLambda function var getStatusLambda function submitJob := tasks.NewLambdaInvoke(this, jsii.String("Submit Job"), &lambdaInvokeProps{ lambdaFunction: submitLambda, // Lambda's result is in the attribute `Payload` outputPath: jsii.String("$.Payload"), }) waitX := sfn.NewWait(this, jsii.String("Wait X Seconds"), &waitProps{ time: sfn.waitTime.secondsPath(jsii.String("$.waitSeconds")), }) getStatus := tasks.NewLambdaInvoke(this, jsii.String("Get Job Status"), &lambdaInvokeProps{ lambdaFunction: getStatusLambda, // Pass just the field named "guid" into the Lambda, put the // Lambda's result in a field called "status" in the response inputPath: jsii.String("$.guid"), outputPath: jsii.String("$.Payload"), }) jobFailed := sfn.NewFail(this, jsii.String("Job Failed"), &failProps{ cause: jsii.String("AWS Batch Job Failed"), error: jsii.String("DescribeJob returned FAILED"), }) finalStatus := tasks.NewLambdaInvoke(this, jsii.String("Get Final Job Status"), &lambdaInvokeProps{ lambdaFunction: getStatusLambda, // Use "guid" field as input inputPath: jsii.String("$.guid"), outputPath: jsii.String("$.Payload"), }) definition := submitJob.next(waitX).next(getStatus).next(sfn.NewChoice(this, jsii.String("Job Complete?")).when(sfn.condition.stringEquals(jsii.String("$.status"), jsii.String("FAILED")), jobFailed).when(sfn.condition.stringEquals(jsii.String("$.status"), jsii.String("SUCCEEDED")), finalStatus).otherwise(waitX)) sfn.NewStateMachine(this, jsii.String("StateMachine"), &stateMachineProps{ definition: definition, timeout: awscdk.Duration.minutes(jsii.Number(5)), })
func NewChoice ¶
func NewChoice(scope constructs.Construct, id *string, props *ChoiceProps) Choice
type ChoiceProps ¶
type ChoiceProps struct { // An optional description for this state. Comment *string `field:"optional" json:"comment" yaml:"comment"` // JSONPath expression to select part of the state to be the input to this state. // // May also be the special value DISCARD, which will cause the effective // input to be the empty object {}. InputPath *string `field:"optional" json:"inputPath" yaml:"inputPath"` // JSONPath expression to select part of the state to be the output to this state. // // May also be the special value DISCARD, which will cause the effective // output to be the empty object {}. OutputPath *string `field:"optional" json:"outputPath" yaml:"outputPath"` }
Properties for defining a Choice state.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" choiceProps := &choiceProps{ comment: jsii.String("comment"), inputPath: jsii.String("inputPath"), outputPath: jsii.String("outputPath"), }
type Condition ¶
type Condition interface {
// Render Amazon States Language JSON for the condition.
RenderCondition() interface{}
}
A Condition for use in a Choice state branch.
Example:
import lambda "github.com/aws/aws-cdk-go/awscdk" var submitLambda function var getStatusLambda function submitJob := tasks.NewLambdaInvoke(this, jsii.String("Submit Job"), &lambdaInvokeProps{ lambdaFunction: submitLambda, // Lambda's result is in the attribute `Payload` outputPath: jsii.String("$.Payload"), }) waitX := sfn.NewWait(this, jsii.String("Wait X Seconds"), &waitProps{ time: sfn.waitTime.secondsPath(jsii.String("$.waitSeconds")), }) getStatus := tasks.NewLambdaInvoke(this, jsii.String("Get Job Status"), &lambdaInvokeProps{ lambdaFunction: getStatusLambda, // Pass just the field named "guid" into the Lambda, put the // Lambda's result in a field called "status" in the response inputPath: jsii.String("$.guid"), outputPath: jsii.String("$.Payload"), }) jobFailed := sfn.NewFail(this, jsii.String("Job Failed"), &failProps{ cause: jsii.String("AWS Batch Job Failed"), error: jsii.String("DescribeJob returned FAILED"), }) finalStatus := tasks.NewLambdaInvoke(this, jsii.String("Get Final Job Status"), &lambdaInvokeProps{ lambdaFunction: getStatusLambda, // Use "guid" field as input inputPath: jsii.String("$.guid"), outputPath: jsii.String("$.Payload"), }) definition := submitJob.next(waitX).next(getStatus).next(sfn.NewChoice(this, jsii.String("Job Complete?")).when(sfn.condition.stringEquals(jsii.String("$.status"), jsii.String("FAILED")), jobFailed).when(sfn.condition.stringEquals(jsii.String("$.status"), jsii.String("SUCCEEDED")), finalStatus).otherwise(waitX)) sfn.NewStateMachine(this, jsii.String("StateMachine"), &stateMachineProps{ definition: definition, timeout: awscdk.Duration.minutes(jsii.Number(5)), })
func Condition_And ¶
Combine two or more conditions with a logical AND.
func Condition_BooleanEquals ¶
Matches if a boolean field has the given value.
func Condition_BooleanEqualsJsonPath ¶
Matches if a boolean field equals to a value at a given mapping path.
func Condition_IsBoolean ¶
Matches if variable is boolean.
func Condition_IsNotBoolean ¶
Matches if variable is not boolean.
func Condition_IsNotNull ¶
Matches if variable is not null.
func Condition_IsNotNumeric ¶
Matches if variable is not numeric.
func Condition_IsNotPresent ¶
Matches if variable is not present.
func Condition_IsNotString ¶
Matches if variable is not a string.
func Condition_IsNotTimestamp ¶
Matches if variable is not a timestamp.
func Condition_IsNull ¶
Matches if variable is Null.
func Condition_IsNumeric ¶
Matches if variable is numeric.
func Condition_IsPresent ¶
Matches if variable is present.
func Condition_IsString ¶
Matches if variable is a string.
func Condition_IsTimestamp ¶
Matches if variable is a timestamp.
func Condition_NumberEquals ¶
Matches if a numeric field has the given value.
func Condition_NumberEqualsJsonPath ¶
Matches if a numeric field has the value in a given mapping path.
func Condition_NumberGreaterThan ¶
Matches if a numeric field is greater than the given value.
func Condition_NumberGreaterThanEquals ¶
Matches if a numeric field is greater than or equal to the given value.
func Condition_NumberGreaterThanEqualsJsonPath ¶
Matches if a numeric field is greater than or equal to the value at a given mapping path.
func Condition_NumberGreaterThanJsonPath ¶
Matches if a numeric field is greater than the value at a given mapping path.
func Condition_NumberLessThan ¶
Matches if a numeric field is less than the given value.
func Condition_NumberLessThanEquals ¶
Matches if a numeric field is less than or equal to the given value.
func Condition_NumberLessThanEqualsJsonPath ¶
Matches if a numeric field is less than or equal to the numeric value at given mapping path.
func Condition_NumberLessThanJsonPath ¶
Matches if a numeric field is less than the value at the given mapping path.
func Condition_Or ¶
Combine two or more conditions with a logical OR.
func Condition_StringEquals ¶
Matches if a string field has the given value.
func Condition_StringEqualsJsonPath ¶
Matches if a string field equals to a value at a given mapping path.
func Condition_StringGreaterThan ¶
Matches if a string field sorts after a given value.
func Condition_StringGreaterThanEquals ¶
Matches if a string field sorts after or equal to a given value.
func Condition_StringGreaterThanEqualsJsonPath ¶
Matches if a string field sorts after or equal to value at a given mapping path.
func Condition_StringGreaterThanJsonPath ¶
Matches if a string field sorts after a value at a given mapping path.
func Condition_StringLessThan ¶
Matches if a string field sorts before a given value.
func Condition_StringLessThanEquals ¶
Matches if a string field sorts equal to or before a given value.
func Condition_StringLessThanEqualsJsonPath ¶
Matches if a string field sorts equal to or before a given mapping.
func Condition_StringLessThanJsonPath ¶
Matches if a string field sorts before a given value at a particular mapping.
func Condition_StringMatches ¶
Matches if a field matches a string pattern that can contain a wild card (*) e.g: log-*.txt or *LATEST*. No other characters other than "*" have any special meaning - * can be escaped: \\*.
func Condition_TimestampEquals ¶
Matches if a timestamp field is the same time as the given timestamp.
func Condition_TimestampEqualsJsonPath ¶
Matches if a timestamp field is the same time as the timestamp at a given mapping path.
func Condition_TimestampGreaterThan ¶
Matches if a timestamp field is after the given timestamp.
func Condition_TimestampGreaterThanEquals ¶
Matches if a timestamp field is after or equal to the given timestamp.
func Condition_TimestampGreaterThanEqualsJsonPath ¶
Matches if a timestamp field is after or equal to the timestamp at a given mapping path.
func Condition_TimestampGreaterThanJsonPath ¶
Matches if a timestamp field is after the timestamp at a given mapping path.
func Condition_TimestampLessThan ¶
Matches if a timestamp field is before the given timestamp.
func Condition_TimestampLessThanEquals ¶
Matches if a timestamp field is before or equal to the given timestamp.
func Condition_TimestampLessThanEqualsJsonPath ¶
Matches if a timestamp field is before or equal to the timestamp at a given mapping path.
func Condition_TimestampLessThanJsonPath ¶
Matches if a timestamp field is before the timestamp at a given mapping path.
type CustomState ¶
type CustomState interface { State IChainable INextable Branches() *[]StateGraph Comment() *string DefaultChoice() State SetDefaultChoice(val State) // Continuable states of this Chainable. EndStates() *[]INextable // Descriptive identifier for this chainable. Id() *string InputPath() *string Iteration() StateGraph SetIteration(val StateGraph) // The tree node. Node() constructs.Node OutputPath() *string Parameters() *map[string]interface{} ResultPath() *string ResultSelector() *map[string]interface{} // First state of this Chainable. StartState() State // Tokenized string that evaluates to the state's ID. StateId() *string // Add a paralle branch to this state. AddBranch(branch StateGraph) // Add a choice branch to this state. AddChoice(condition Condition, next State) // Add a map iterator to this state. AddIterator(iteration StateGraph) // Add a prefix to the stateId of this state. AddPrefix(x *string) // Register this state as part of the given graph. // // Don't call this. It will be called automatically when you work // with states normally. BindToGraph(graph StateGraph) // Make the indicated state the default choice transition of this state. MakeDefault(def State) // Make the indicated state the default transition of this state. MakeNext(next State) // Continue normal execution with the given state. Next(next IChainable) Chain // Render parallel branches in ASL JSON format. RenderBranches() interface{} // Render the choices in ASL JSON format. RenderChoices() interface{} // Render InputPath/Parameters/OutputPath in ASL JSON format. RenderInputOutput() interface{} // Render map iterator in ASL JSON format. RenderIterator() interface{} // Render the default next state in ASL JSON format. RenderNextEnd() interface{} // Render ResultSelector in ASL JSON format. RenderResultSelector() interface{} // Render error recovery options in ASL JSON format. RenderRetryCatch() interface{} // Returns the Amazon States Language object for this state. ToStateJson() *map[string]interface{} // Returns a string representation of this construct. ToString() *string // Allows the state to validate itself. ValidateState() *[]*string // Called whenever this state is bound to a graph. // // Can be overridden by subclasses. WhenBoundToGraph(graph StateGraph) }
State defined by supplying Amazon States Language (ASL) in the state machine.
Example:
import dynamodb "github.com/aws/aws-cdk-go/awscdk" // create a table table := dynamodb.NewTable(this, jsii.String("montable"), &tableProps{ partitionKey: &attribute{ name: jsii.String("id"), type: dynamodb.attributeType_STRING, }, }) finalStatus := sfn.NewPass(this, jsii.String("final step")) // States language JSON to put an item into DynamoDB // snippet generated from https://docs.aws.amazon.com/step-functions/latest/dg/tutorial-code-snippet.html#tutorial-code-snippet-1 stateJson := map[string]interface{}{ "Type": jsii.String("Task"), "Resource": jsii.String("arn:aws:states:::dynamodb:putItem"), "Parameters": map[string]interface{}{ "TableName": table.tableName, "Item": map[string]map[string]*string{ "id": map[string]*string{ "S": jsii.String("MyEntry"), }, }, }, "ResultPath": nil, } // custom state which represents a task to insert data into DynamoDB custom := sfn.NewCustomState(this, jsii.String("my custom task"), &customStateProps{ stateJson: stateJson, }) chain := sfn.chain.start(custom).next(finalStatus) sm := sfn.NewStateMachine(this, jsii.String("StateMachine"), &stateMachineProps{ definition: chain, timeout: awscdk.Duration.seconds(jsii.Number(30)), }) // don't forget permissions. You need to assign them table.grantWriteData(sm)
func NewCustomState ¶
func NewCustomState(scope constructs.Construct, id *string, props *CustomStateProps) CustomState
type CustomStateProps ¶
type CustomStateProps struct { // Amazon States Language (JSON-based) definition of the state. // See: https://docs.aws.amazon.com/step-functions/latest/dg/concepts-amazon-states-language.html // StateJson *map[string]interface{} `field:"required" json:"stateJson" yaml:"stateJson"` }
Properties for defining a custom state definition.
Example:
import dynamodb "github.com/aws/aws-cdk-go/awscdk" // create a table table := dynamodb.NewTable(this, jsii.String("montable"), &tableProps{ partitionKey: &attribute{ name: jsii.String("id"), type: dynamodb.attributeType_STRING, }, }) finalStatus := sfn.NewPass(this, jsii.String("final step")) // States language JSON to put an item into DynamoDB // snippet generated from https://docs.aws.amazon.com/step-functions/latest/dg/tutorial-code-snippet.html#tutorial-code-snippet-1 stateJson := map[string]interface{}{ "Type": jsii.String("Task"), "Resource": jsii.String("arn:aws:states:::dynamodb:putItem"), "Parameters": map[string]interface{}{ "TableName": table.tableName, "Item": map[string]map[string]*string{ "id": map[string]*string{ "S": jsii.String("MyEntry"), }, }, }, "ResultPath": nil, } // custom state which represents a task to insert data into DynamoDB custom := sfn.NewCustomState(this, jsii.String("my custom task"), &customStateProps{ stateJson: stateJson, }) chain := sfn.chain.start(custom).next(finalStatus) sm := sfn.NewStateMachine(this, jsii.String("StateMachine"), &stateMachineProps{ definition: chain, timeout: awscdk.Duration.seconds(jsii.Number(30)), }) // don't forget permissions. You need to assign them table.grantWriteData(sm)
type Errors ¶
type Errors interface { }
Predefined error strings Error names in Amazon States Language - https://states-language.net/spec.html#appendix-a Error handling in Step Functions - https://docs.aws.amazon.com/step-functions/latest/dg/concepts-error-handling.html.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" errors := awscdk.Aws_stepfunctions.NewErrors()
type Fail ¶
type Fail interface { State Branches() *[]StateGraph Comment() *string DefaultChoice() State SetDefaultChoice(val State) // Continuable states of this Chainable. EndStates() *[]INextable // Descriptive identifier for this chainable. Id() *string InputPath() *string Iteration() StateGraph SetIteration(val StateGraph) // The tree node. Node() constructs.Node OutputPath() *string Parameters() *map[string]interface{} ResultPath() *string ResultSelector() *map[string]interface{} // First state of this Chainable. StartState() State // Tokenized string that evaluates to the state's ID. StateId() *string // Add a paralle branch to this state. AddBranch(branch StateGraph) // Add a choice branch to this state. AddChoice(condition Condition, next State) // Add a map iterator to this state. AddIterator(iteration StateGraph) // Add a prefix to the stateId of this state. AddPrefix(x *string) // Register this state as part of the given graph. // // Don't call this. It will be called automatically when you work // with states normally. BindToGraph(graph StateGraph) // Make the indicated state the default choice transition of this state. MakeDefault(def State) // Make the indicated state the default transition of this state. MakeNext(next State) // Render parallel branches in ASL JSON format. RenderBranches() interface{} // Render the choices in ASL JSON format. RenderChoices() interface{} // Render InputPath/Parameters/OutputPath in ASL JSON format. RenderInputOutput() interface{} // Render map iterator in ASL JSON format. RenderIterator() interface{} // Render the default next state in ASL JSON format. RenderNextEnd() interface{} // Render ResultSelector in ASL JSON format. RenderResultSelector() interface{} // Render error recovery options in ASL JSON format. RenderRetryCatch() interface{} // Return the Amazon States Language object for this state. ToStateJson() *map[string]interface{} // Returns a string representation of this construct. ToString() *string // Allows the state to validate itself. ValidateState() *[]*string // Called whenever this state is bound to a graph. // // Can be overridden by subclasses. WhenBoundToGraph(graph StateGraph) }
Define a Fail state in the state machine.
Reaching a Fail state terminates the state execution in failure.
Example:
import lambda "github.com/aws/aws-cdk-go/awscdk" var submitLambda function var getStatusLambda function submitJob := tasks.NewLambdaInvoke(this, jsii.String("Submit Job"), &lambdaInvokeProps{ lambdaFunction: submitLambda, // Lambda's result is in the attribute `Payload` outputPath: jsii.String("$.Payload"), }) waitX := sfn.NewWait(this, jsii.String("Wait X Seconds"), &waitProps{ time: sfn.waitTime.secondsPath(jsii.String("$.waitSeconds")), }) getStatus := tasks.NewLambdaInvoke(this, jsii.String("Get Job Status"), &lambdaInvokeProps{ lambdaFunction: getStatusLambda, // Pass just the field named "guid" into the Lambda, put the // Lambda's result in a field called "status" in the response inputPath: jsii.String("$.guid"), outputPath: jsii.String("$.Payload"), }) jobFailed := sfn.NewFail(this, jsii.String("Job Failed"), &failProps{ cause: jsii.String("AWS Batch Job Failed"), error: jsii.String("DescribeJob returned FAILED"), }) finalStatus := tasks.NewLambdaInvoke(this, jsii.String("Get Final Job Status"), &lambdaInvokeProps{ lambdaFunction: getStatusLambda, // Use "guid" field as input inputPath: jsii.String("$.guid"), outputPath: jsii.String("$.Payload"), }) definition := submitJob.next(waitX).next(getStatus).next(sfn.NewChoice(this, jsii.String("Job Complete?")).when(sfn.condition.stringEquals(jsii.String("$.status"), jsii.String("FAILED")), jobFailed).when(sfn.condition.stringEquals(jsii.String("$.status"), jsii.String("SUCCEEDED")), finalStatus).otherwise(waitX)) sfn.NewStateMachine(this, jsii.String("StateMachine"), &stateMachineProps{ definition: definition, timeout: awscdk.Duration.minutes(jsii.Number(5)), })
type FailProps ¶
type FailProps struct { // A description for the cause of the failure. Cause *string `field:"optional" json:"cause" yaml:"cause"` // An optional description for this state. Comment *string `field:"optional" json:"comment" yaml:"comment"` // Error code used to represent this failure. Error *string `field:"optional" json:"error" yaml:"error"` }
Properties for defining a Fail state.
Example:
import lambda "github.com/aws/aws-cdk-go/awscdk" var submitLambda function var getStatusLambda function submitJob := tasks.NewLambdaInvoke(this, jsii.String("Submit Job"), &lambdaInvokeProps{ lambdaFunction: submitLambda, // Lambda's result is in the attribute `Payload` outputPath: jsii.String("$.Payload"), }) waitX := sfn.NewWait(this, jsii.String("Wait X Seconds"), &waitProps{ time: sfn.waitTime.secondsPath(jsii.String("$.waitSeconds")), }) getStatus := tasks.NewLambdaInvoke(this, jsii.String("Get Job Status"), &lambdaInvokeProps{ lambdaFunction: getStatusLambda, // Pass just the field named "guid" into the Lambda, put the // Lambda's result in a field called "status" in the response inputPath: jsii.String("$.guid"), outputPath: jsii.String("$.Payload"), }) jobFailed := sfn.NewFail(this, jsii.String("Job Failed"), &failProps{ cause: jsii.String("AWS Batch Job Failed"), error: jsii.String("DescribeJob returned FAILED"), }) finalStatus := tasks.NewLambdaInvoke(this, jsii.String("Get Final Job Status"), &lambdaInvokeProps{ lambdaFunction: getStatusLambda, // Use "guid" field as input inputPath: jsii.String("$.guid"), outputPath: jsii.String("$.Payload"), }) definition := submitJob.next(waitX).next(getStatus).next(sfn.NewChoice(this, jsii.String("Job Complete?")).when(sfn.condition.stringEquals(jsii.String("$.status"), jsii.String("FAILED")), jobFailed).when(sfn.condition.stringEquals(jsii.String("$.status"), jsii.String("SUCCEEDED")), finalStatus).otherwise(waitX)) sfn.NewStateMachine(this, jsii.String("StateMachine"), &stateMachineProps{ definition: definition, timeout: awscdk.Duration.minutes(jsii.Number(5)), })
type FieldUtils ¶
type FieldUtils interface { }
Helper functions to work with structures containing fields.
type FindStateOptions ¶
type FindStateOptions struct { // Whether or not to follow error-handling transitions. IncludeErrorHandlers *bool `field:"optional" json:"includeErrorHandlers" yaml:"includeErrorHandlers"` }
Options for finding reachable states.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" findStateOptions := &findStateOptions{ includeErrorHandlers: jsii.Boolean(false), }
type IActivity ¶
type IActivity interface { awscdk.IResource // The ARN of the activity. ActivityArn() *string // The name of the activity. ActivityName() *string }
Represents a Step Functions Activity https://docs.aws.amazon.com/step-functions/latest/dg/concepts-activities.html.
func Activity_FromActivityArn ¶
func Activity_FromActivityArn(scope constructs.Construct, id *string, activityArn *string) IActivity
Construct an Activity from an existing Activity ARN.
func Activity_FromActivityName ¶
func Activity_FromActivityName(scope constructs.Construct, id *string, activityName *string) IActivity
Construct an Activity from an existing Activity Name.
type IChainable ¶
type IChainable interface { // The chainable end state(s) of this chainable. EndStates() *[]INextable // Descriptive identifier for this chainable. Id() *string // The start state of this chainable. StartState() State }
Interface for objects that can be used in a Chain.
type INextable ¶
type INextable interface { // Go to the indicated state after this state. // // Returns: The chain of states built up. Next(state IChainable) Chain }
Interface for states that can have 'next' states.
type IStateMachine ¶
type IStateMachine interface { awsiam.IGrantable awscdk.IResource // Grant the given identity custom permissions. Grant(identity awsiam.IGrantable, actions ...*string) awsiam.Grant // Grant the given identity permissions for all executions of a state machine. GrantExecution(identity awsiam.IGrantable, actions ...*string) awsiam.Grant // Grant the given identity read permissions for this state machine. GrantRead(identity awsiam.IGrantable) awsiam.Grant // Grant the given identity permissions to start an execution of this state machine. GrantStartExecution(identity awsiam.IGrantable) awsiam.Grant // Grant the given identity permissions to start a synchronous execution of this state machine. GrantStartSyncExecution(identity awsiam.IGrantable) awsiam.Grant // Grant the given identity read permissions for this state machine. GrantTaskResponse(identity awsiam.IGrantable) awsiam.Grant // Return the given named metric for this State Machine's executions. Metric(metricName *string, props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of executions that were aborted. MetricAborted(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of executions that failed. MetricFailed(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of executions that were started. MetricStarted(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of executions that succeeded. MetricSucceeded(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of executions that were throttled. MetricThrottled(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the interval, in milliseconds, between the time the execution starts and the time it closes. MetricTime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of executions that timed out. MetricTimedOut(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // The ARN of the state machine. StateMachineArn() *string }
A State Machine.
func StateMachine_FromStateMachineArn ¶
func StateMachine_FromStateMachineArn(scope constructs.Construct, id *string, stateMachineArn *string) IStateMachine
Import a state machine.
func StateMachine_FromStateMachineName ¶ added in v2.33.0
func StateMachine_FromStateMachineName(scope constructs.Construct, id *string, stateMachineName *string) IStateMachine
Import a state machine via resource name.
type InputType ¶
type InputType string
The type of task input.
const ( // Use a literal string This might be a JSON-encoded object, or just text. // // valid JSON text: standalone, quote-delimited strings; objects; arrays; numbers; Boolean values; and null. // // example: `literal string` // example: {"json": "encoded"}. InputType_TEXT InputType = "TEXT" // Use an object which may contain Data and Context fields as object values, if desired. // // example: // { // literal: 'literal', // SomeInput: sfn.JsonPath.stringAt('$.someField') // }. // See: https://docs.aws.amazon.com/step-functions/latest/dg/input-output-contextobject.html // InputType_OBJECT InputType = "OBJECT" )
type IntegrationPattern ¶
type IntegrationPattern string
AWS Step Functions integrates with services directly in the Amazon States Language.
You can control these AWS services using service integration patterns:.
Example:
// Define a state machine with one Pass state child := sfn.NewStateMachine(this, jsii.String("ChildStateMachine"), &stateMachineProps{ definition: sfn.chain.start(sfn.NewPass(this, jsii.String("PassState"))), }) // Include the state machine in a Task state with callback pattern task := tasks.NewStepFunctionsStartExecution(this, jsii.String("ChildTask"), &stepFunctionsStartExecutionProps{ stateMachine: child, integrationPattern: sfn.integrationPattern_WAIT_FOR_TASK_TOKEN, input: sfn.taskInput.fromObject(map[string]interface{}{ "token": sfn.JsonPath.taskToken, "foo": jsii.String("bar"), }), name: jsii.String("MyExecutionName"), }) // Define a second state machine with the Task state above // Define a second state machine with the Task state above sfn.NewStateMachine(this, jsii.String("ParentStateMachine"), &stateMachineProps{ definition: task, })
See: https://docs.aws.amazon.com/step-functions/latest/dg/connect-to-resource.html
const ( // Step Functions will wait for an HTTP response and then progress to the next state. // See: https://docs.aws.amazon.com/step-functions/latest/dg/connect-to-resource.html#connect-default // IntegrationPattern_REQUEST_RESPONSE IntegrationPattern = "REQUEST_RESPONSE" // Step Functions can wait for a request to complete before progressing to the next state. // See: https://docs.aws.amazon.com/step-functions/latest/dg/connect-to-resource.html#connect-sync // IntegrationPattern_RUN_JOB IntegrationPattern = "RUN_JOB" // Callback tasks provide a way to pause a workflow until a task token is returned. // // You must set a task token when using the callback pattern. // See: https://docs.aws.amazon.com/step-functions/latest/dg/connect-to-resource.html#connect-wait-token // IntegrationPattern_WAIT_FOR_TASK_TOKEN IntegrationPattern = "WAIT_FOR_TASK_TOKEN" )
type JsonPath ¶
type JsonPath interface { }
Extract a field from the State Machine data or context that gets passed around between states.
Example:
submitJobActivity := sfn.NewActivity(this, jsii.String("SubmitJob")) tasks.NewStepFunctionsInvokeActivity(this, jsii.String("Submit Job"), &stepFunctionsInvokeActivityProps{ activity: submitJobActivity, parameters: map[string]interface{}{ "comment": jsii.String("Selecting what I care about."), "MyDetails": map[string]interface{}{ "size": sfn.JsonPath.stringAt(jsii.String("$.product.details.size")), "exists": sfn.JsonPath.stringAt(jsii.String("$.product.availability")), "StaticValue": jsii.String("foo"), }, }, })
See: https://docs.aws.amazon.com/step-functions/latest/dg/amazon-states-language-paths.html
type LogLevel ¶
type LogLevel string
Defines which category of execution history events are logged.
Example:
import logs "github.com/aws/aws-cdk-go/awscdk" logGroup := logs.NewLogGroup(this, jsii.String("MyLogGroup")) sfn.NewStateMachine(this, jsii.String("MyStateMachine"), &stateMachineProps{ definition: sfn.chain.start(sfn.NewPass(this, jsii.String("Pass"))), logs: &logOptions{ destination: logGroup, level: sfn.logLevel_ALL, }, })
See: https://docs.aws.amazon.com/step-functions/latest/dg/cloudwatch-log-level.html
type LogOptions ¶
type LogOptions struct { // The log group where the execution history events will be logged. Destination awslogs.ILogGroup `field:"required" json:"destination" yaml:"destination"` // Determines whether execution data is included in your log. IncludeExecutionData *bool `field:"optional" json:"includeExecutionData" yaml:"includeExecutionData"` // Defines which category of execution history events are logged. Level LogLevel `field:"optional" json:"level" yaml:"level"` }
Defines what execution history events are logged and where they are logged.
Example:
import logs "github.com/aws/aws-cdk-go/awscdk" logGroup := logs.NewLogGroup(this, jsii.String("MyLogGroup")) sfn.NewStateMachine(this, jsii.String("MyStateMachine"), &stateMachineProps{ definition: sfn.chain.start(sfn.NewPass(this, jsii.String("Pass"))), logs: &logOptions{ destination: logGroup, level: sfn.logLevel_ALL, }, })
type Map ¶
type Map interface { State INextable Branches() *[]StateGraph Comment() *string DefaultChoice() State SetDefaultChoice(val State) // Continuable states of this Chainable. EndStates() *[]INextable // Descriptive identifier for this chainable. Id() *string InputPath() *string Iteration() StateGraph SetIteration(val StateGraph) // The tree node. Node() constructs.Node OutputPath() *string Parameters() *map[string]interface{} ResultPath() *string ResultSelector() *map[string]interface{} // First state of this Chainable. StartState() State // Tokenized string that evaluates to the state's ID. StateId() *string // Add a paralle branch to this state. AddBranch(branch StateGraph) // Add a recovery handler for this state. // // When a particular error occurs, execution will continue at the error // handler instead of failing the state machine execution. AddCatch(handler IChainable, props *CatchProps) Map // Add a choice branch to this state. AddChoice(condition Condition, next State) // Add a map iterator to this state. AddIterator(iteration StateGraph) // Add a prefix to the stateId of this state. AddPrefix(x *string) // Add retry configuration for this state. // // This controls if and how the execution will be retried if a particular // error occurs. AddRetry(props *RetryProps) Map // Register this state as part of the given graph. // // Don't call this. It will be called automatically when you work // with states normally. BindToGraph(graph StateGraph) // Define iterator state machine in Map. Iterator(iterator IChainable) Map // Make the indicated state the default choice transition of this state. MakeDefault(def State) // Make the indicated state the default transition of this state. MakeNext(next State) // Continue normal execution with the given state. Next(next IChainable) Chain // Render parallel branches in ASL JSON format. RenderBranches() interface{} // Render the choices in ASL JSON format. RenderChoices() interface{} // Render InputPath/Parameters/OutputPath in ASL JSON format. RenderInputOutput() interface{} // Render map iterator in ASL JSON format. RenderIterator() interface{} // Render the default next state in ASL JSON format. RenderNextEnd() interface{} // Render ResultSelector in ASL JSON format. RenderResultSelector() interface{} // Render error recovery options in ASL JSON format. RenderRetryCatch() interface{} // Return the Amazon States Language object for this state. ToStateJson() *map[string]interface{} // Returns a string representation of this construct. ToString() *string // Validate this state. ValidateState() *[]*string // Called whenever this state is bound to a graph. // // Can be overridden by subclasses. WhenBoundToGraph(graph StateGraph) }
Define a Map state in the state machine.
A `Map` state can be used to run a set of steps for each element of an input array. A Map state will execute the same steps for multiple entries of an array in the state input.
While the Parallel state executes multiple branches of steps using the same input, a Map state will execute the same steps for multiple entries of an array in the state input.
Example:
map := sfn.NewMap(this, jsii.String("Map State"), &mapProps{ maxConcurrency: jsii.Number(1), itemsPath: sfn.jsonPath.stringAt(jsii.String("$.inputForMap")), }) map.iterator(sfn.NewPass(this, jsii.String("Pass State")))
See: https://docs.aws.amazon.com/step-functions/latest/dg/amazon-states-language-map-state.html
type MapProps ¶
type MapProps struct { // An optional description for this state. Comment *string `field:"optional" json:"comment" yaml:"comment"` // JSONPath expression to select part of the state to be the input to this state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // input to be the empty object {}. InputPath *string `field:"optional" json:"inputPath" yaml:"inputPath"` // JSONPath expression to select the array to iterate over. ItemsPath *string `field:"optional" json:"itemsPath" yaml:"itemsPath"` // MaxConcurrency. // // An upper bound on the number of iterations you want running at once. MaxConcurrency *float64 `field:"optional" json:"maxConcurrency" yaml:"maxConcurrency"` // JSONPath expression to select part of the state to be the output to this state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // output to be the empty object {}. OutputPath *string `field:"optional" json:"outputPath" yaml:"outputPath"` // The JSON that you want to override your default iteration input. Parameters *map[string]interface{} `field:"optional" json:"parameters" yaml:"parameters"` // JSONPath expression to indicate where to inject the state's output. // // May also be the special value JsonPath.DISCARD, which will cause the state's // input to become its output. ResultPath *string `field:"optional" json:"resultPath" yaml:"resultPath"` // The JSON that will replace the state's raw result and become the effective result before ResultPath is applied. // // You can use ResultSelector to create a payload with values that are static // or selected from the state's raw result. // See: https://docs.aws.amazon.com/step-functions/latest/dg/input-output-inputpath-params.html#input-output-resultselector // ResultSelector *map[string]interface{} `field:"optional" json:"resultSelector" yaml:"resultSelector"` }
Properties for defining a Map state.
Example:
map := sfn.NewMap(this, jsii.String("Map State"), &mapProps{ maxConcurrency: jsii.Number(1), itemsPath: sfn.jsonPath.stringAt(jsii.String("$.inputForMap")), }) map.iterator(sfn.NewPass(this, jsii.String("Pass State")))
type Parallel ¶
type Parallel interface { State INextable Branches() *[]StateGraph Comment() *string DefaultChoice() State SetDefaultChoice(val State) // Continuable states of this Chainable. EndStates() *[]INextable // Descriptive identifier for this chainable. Id() *string InputPath() *string Iteration() StateGraph SetIteration(val StateGraph) // The tree node. Node() constructs.Node OutputPath() *string Parameters() *map[string]interface{} ResultPath() *string ResultSelector() *map[string]interface{} // First state of this Chainable. StartState() State // Tokenized string that evaluates to the state's ID. StateId() *string // Add a paralle branch to this state. AddBranch(branch StateGraph) // Add a recovery handler for this state. // // When a particular error occurs, execution will continue at the error // handler instead of failing the state machine execution. AddCatch(handler IChainable, props *CatchProps) Parallel // Add a choice branch to this state. AddChoice(condition Condition, next State) // Add a map iterator to this state. AddIterator(iteration StateGraph) // Add a prefix to the stateId of this state. AddPrefix(x *string) // Add retry configuration for this state. // // This controls if and how the execution will be retried if a particular // error occurs. AddRetry(props *RetryProps) Parallel // Overwrites State.bindToGraph. Adds branches to the Parallel state here so that any necessary prefixes are appended first. BindToGraph(graph StateGraph) // Define one or more branches to run in parallel. Branch(branches ...IChainable) Parallel // Make the indicated state the default choice transition of this state. MakeDefault(def State) // Make the indicated state the default transition of this state. MakeNext(next State) // Continue normal execution with the given state. Next(next IChainable) Chain // Render parallel branches in ASL JSON format. RenderBranches() interface{} // Render the choices in ASL JSON format. RenderChoices() interface{} // Render InputPath/Parameters/OutputPath in ASL JSON format. RenderInputOutput() interface{} // Render map iterator in ASL JSON format. RenderIterator() interface{} // Render the default next state in ASL JSON format. RenderNextEnd() interface{} // Render ResultSelector in ASL JSON format. RenderResultSelector() interface{} // Render error recovery options in ASL JSON format. RenderRetryCatch() interface{} // Return the Amazon States Language object for this state. ToStateJson() *map[string]interface{} // Returns a string representation of this construct. ToString() *string // Validate this state. ValidateState() *[]*string // Called whenever this state is bound to a graph. // // Can be overridden by subclasses. WhenBoundToGraph(graph StateGraph) }
Define a Parallel state in the state machine.
A Parallel state can be used to run one or more state machines at the same time.
The Result of a Parallel state is an array of the results of its substatemachines.
Example:
import "github.com/aws/aws-cdk-go/awscdk" import "github.com/aws/constructs-go/constructs" import sfn "github.com/aws/aws-cdk-go/awscdk" type myJobProps struct { jobFlavor *string } type myJob struct { stateMachineFragment startState state endStates []iNextable } func newMyJob(parent construct, id *string, props myJobProps) *myJob { this := &myJob{} sfn.NewStateMachineFragment_Override(this, parent, id) choice := sfn.NewChoice(this, jsii.String("Choice")).when(sfn.condition.stringEquals(jsii.String("$.branch"), jsii.String("left")), sfn.NewPass(this, jsii.String("Left Branch"))).when(sfn.condition.stringEquals(jsii.String("$.branch"), jsii.String("right")), sfn.NewPass(this, jsii.String("Right Branch"))) // ... this.startState = choice this.endStates = choice.afterwards().endStates return this } type myStack struct { stack } func newMyStack(scope construct, id *string) *myStack { this := &myStack{} newStack_Override(this, scope, id) // Do 3 different variants of MyJob in parallel parallel := sfn.NewParallel(this, jsii.String("All jobs")).branch(NewMyJob(this, jsii.String("Quick"), &myJobProps{ jobFlavor: jsii.String("quick"), }).prefixStates()).branch(NewMyJob(this, jsii.String("Medium"), &myJobProps{ jobFlavor: jsii.String("medium"), }).prefixStates()).branch(NewMyJob(this, jsii.String("Slow"), &myJobProps{ jobFlavor: jsii.String("slow"), }).prefixStates()) sfn.NewStateMachine(this, jsii.String("MyStateMachine"), &stateMachineProps{ definition: parallel, }) return this }
func NewParallel ¶
func NewParallel(scope constructs.Construct, id *string, props *ParallelProps) Parallel
type ParallelProps ¶
type ParallelProps struct { // An optional description for this state. Comment *string `field:"optional" json:"comment" yaml:"comment"` // JSONPath expression to select part of the state to be the input to this state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // input to be the empty object {}. InputPath *string `field:"optional" json:"inputPath" yaml:"inputPath"` // JSONPath expression to select part of the state to be the output to this state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // output to be the empty object {}. OutputPath *string `field:"optional" json:"outputPath" yaml:"outputPath"` // JSONPath expression to indicate where to inject the state's output. // // May also be the special value JsonPath.DISCARD, which will cause the state's // input to become its output. ResultPath *string `field:"optional" json:"resultPath" yaml:"resultPath"` // The JSON that will replace the state's raw result and become the effective result before ResultPath is applied. // // You can use ResultSelector to create a payload with values that are static // or selected from the state's raw result. // See: https://docs.aws.amazon.com/step-functions/latest/dg/input-output-inputpath-params.html#input-output-resultselector // ResultSelector *map[string]interface{} `field:"optional" json:"resultSelector" yaml:"resultSelector"` }
Properties for defining a Parallel state.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" var resultSelector interface{} parallelProps := ¶llelProps{ comment: jsii.String("comment"), inputPath: jsii.String("inputPath"), outputPath: jsii.String("outputPath"), resultPath: jsii.String("resultPath"), resultSelector: map[string]interface{}{ "resultSelectorKey": resultSelector, }, }
type Pass ¶
type Pass interface { State INextable Branches() *[]StateGraph Comment() *string DefaultChoice() State SetDefaultChoice(val State) // Continuable states of this Chainable. EndStates() *[]INextable // Descriptive identifier for this chainable. Id() *string InputPath() *string Iteration() StateGraph SetIteration(val StateGraph) // The tree node. Node() constructs.Node OutputPath() *string Parameters() *map[string]interface{} ResultPath() *string ResultSelector() *map[string]interface{} // First state of this Chainable. StartState() State // Tokenized string that evaluates to the state's ID. StateId() *string // Add a paralle branch to this state. AddBranch(branch StateGraph) // Add a choice branch to this state. AddChoice(condition Condition, next State) // Add a map iterator to this state. AddIterator(iteration StateGraph) // Add a prefix to the stateId of this state. AddPrefix(x *string) // Register this state as part of the given graph. // // Don't call this. It will be called automatically when you work // with states normally. BindToGraph(graph StateGraph) // Make the indicated state the default choice transition of this state. MakeDefault(def State) // Make the indicated state the default transition of this state. MakeNext(next State) // Continue normal execution with the given state. Next(next IChainable) Chain // Render parallel branches in ASL JSON format. RenderBranches() interface{} // Render the choices in ASL JSON format. RenderChoices() interface{} // Render InputPath/Parameters/OutputPath in ASL JSON format. RenderInputOutput() interface{} // Render map iterator in ASL JSON format. RenderIterator() interface{} // Render the default next state in ASL JSON format. RenderNextEnd() interface{} // Render ResultSelector in ASL JSON format. RenderResultSelector() interface{} // Render error recovery options in ASL JSON format. RenderRetryCatch() interface{} // Return the Amazon States Language object for this state. ToStateJson() *map[string]interface{} // Returns a string representation of this construct. ToString() *string // Allows the state to validate itself. ValidateState() *[]*string // Called whenever this state is bound to a graph. // // Can be overridden by subclasses. WhenBoundToGraph(graph StateGraph) }
Define a Pass in the state machine.
A Pass state can be used to transform the current execution's state.
Example:
choice := sfn.NewChoice(this, jsii.String("Did it work?")) // Add conditions with .when() successState := sfn.NewPass(this, jsii.String("SuccessState")) failureState := sfn.NewPass(this, jsii.String("FailureState")) choice.when(sfn.condition.stringEquals(jsii.String("$.status"), jsii.String("SUCCESS")), successState) choice.when(sfn.condition.numberGreaterThan(jsii.String("$.attempts"), jsii.Number(5)), failureState) // Use .otherwise() to indicate what should be done if none of the conditions match tryAgainState := sfn.NewPass(this, jsii.String("TryAgainState")) choice.otherwise(tryAgainState)
type PassProps ¶
type PassProps struct { // An optional description for this state. Comment *string `field:"optional" json:"comment" yaml:"comment"` // JSONPath expression to select part of the state to be the input to this state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // input to be the empty object {}. InputPath *string `field:"optional" json:"inputPath" yaml:"inputPath"` // JSONPath expression to select part of the state to be the output to this state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // output to be the empty object {}. OutputPath *string `field:"optional" json:"outputPath" yaml:"outputPath"` // Parameters pass a collection of key-value pairs, either static values or JSONPath expressions that select from the input. // See: https://docs.aws.amazon.com/step-functions/latest/dg/input-output-inputpath-params.html#input-output-parameters // Parameters *map[string]interface{} `field:"optional" json:"parameters" yaml:"parameters"` // If given, treat as the result of this operation. // // Can be used to inject or replace the current execution state. Result Result `field:"optional" json:"result" yaml:"result"` // JSONPath expression to indicate where to inject the state's output. // // May also be the special value JsonPath.DISCARD, which will cause the state's // input to become its output. ResultPath *string `field:"optional" json:"resultPath" yaml:"resultPath"` }
Properties for defining a Pass state.
Example:
// Makes the current JSON state { ..., "subObject": { "hello": "world" } } pass := sfn.NewPass(this, jsii.String("Add Hello World"), &passProps{ result: sfn.result.fromObject(map[string]interface{}{ "hello": jsii.String("world"), }), resultPath: jsii.String("$.subObject"), }) // Set the next state nextState := sfn.NewPass(this, jsii.String("NextState")) pass.next(nextState)
type Result ¶
type Result interface {
// result of the Pass operation.
Value() interface{}
}
The result of a Pass operation.
Example:
// Makes the current JSON state { ..., "subObject": { "hello": "world" } } pass := sfn.NewPass(this, jsii.String("Add Hello World"), &passProps{ result: sfn.result.fromObject(map[string]interface{}{ "hello": jsii.String("world"), }), resultPath: jsii.String("$.subObject"), }) // Set the next state nextState := sfn.NewPass(this, jsii.String("NextState")) pass.next(nextState)
func Result_FromArray ¶
func Result_FromArray(value *[]interface{}) Result
The result of the operation is an array.
func Result_FromBoolean ¶
The result of the operation is a boolean.
func Result_FromNumber ¶
The result of the operation is a number.
func Result_FromObject ¶
The result of the operation is an object.
func Result_FromString ¶
The result of the operation is a string.
type RetryProps ¶
type RetryProps struct { // Multiplication for how much longer the wait interval gets on every retry. BackoffRate *float64 `field:"optional" json:"backoffRate" yaml:"backoffRate"` // Errors to retry. // // A list of error strings to retry, which can be either predefined errors // (for example Errors.NoChoiceMatched) or a self-defined error. Errors *[]*string `field:"optional" json:"errors" yaml:"errors"` // How many seconds to wait initially before retrying. Interval awscdk.Duration `field:"optional" json:"interval" yaml:"interval"` // How many times to retry this particular error. // // May be 0 to disable retry for specific errors (in case you have // a catch-all retry policy). MaxAttempts *float64 `field:"optional" json:"maxAttempts" yaml:"maxAttempts"` }
Retry details.
Example:
parallel := sfn.NewParallel(this, jsii.String("Do the work in parallel")) // Add branches to be executed in parallel shipItem := sfn.NewPass(this, jsii.String("ShipItem")) sendInvoice := sfn.NewPass(this, jsii.String("SendInvoice")) restock := sfn.NewPass(this, jsii.String("Restock")) parallel.branch(shipItem) parallel.branch(sendInvoice) parallel.branch(restock) // Retry the whole workflow if something goes wrong parallel.addRetry(&retryProps{ maxAttempts: jsii.Number(1), }) // How to recover from errors sendFailureNotification := sfn.NewPass(this, jsii.String("SendFailureNotification")) parallel.addCatch(sendFailureNotification) // What to do in case everything succeeded closeOrder := sfn.NewPass(this, jsii.String("CloseOrder")) parallel.next(closeOrder)
type ServiceIntegrationPattern ¶
type ServiceIntegrationPattern string
Three ways to call an integrated service: Request Response, Run a Job and Wait for a Callback with Task Token. See: https://docs.aws.amazon.com/step-functions/latest/dg/connect-to-resource.html
Here, they are named as FIRE_AND_FORGET, SYNC and WAIT_FOR_TASK_TOKEN respectfully.
const ( // Call a service and progress to the next state immediately after the API call completes. ServiceIntegrationPattern_FIRE_AND_FORGET ServiceIntegrationPattern = "FIRE_AND_FORGET" // Call a service and wait for a job to complete. ServiceIntegrationPattern_SYNC ServiceIntegrationPattern = "SYNC" // Call a service with a task token and wait until that token is returned by SendTaskSuccess/SendTaskFailure with payload. ServiceIntegrationPattern_WAIT_FOR_TASK_TOKEN ServiceIntegrationPattern = "WAIT_FOR_TASK_TOKEN" )
type SingleStateOptions ¶
type SingleStateOptions struct { // An optional description for this state. Comment *string `field:"optional" json:"comment" yaml:"comment"` // JSONPath expression to select part of the state to be the input to this state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // input to be the empty object {}. InputPath *string `field:"optional" json:"inputPath" yaml:"inputPath"` // JSONPath expression to select part of the state to be the output to this state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // output to be the empty object {}. OutputPath *string `field:"optional" json:"outputPath" yaml:"outputPath"` // JSONPath expression to indicate where to inject the state's output. // // May also be the special value JsonPath.DISCARD, which will cause the state's // input to become its output. ResultPath *string `field:"optional" json:"resultPath" yaml:"resultPath"` // The JSON that will replace the state's raw result and become the effective result before ResultPath is applied. // // You can use ResultSelector to create a payload with values that are static // or selected from the state's raw result. // See: https://docs.aws.amazon.com/step-functions/latest/dg/input-output-inputpath-params.html#input-output-resultselector // ResultSelector *map[string]interface{} `field:"optional" json:"resultSelector" yaml:"resultSelector"` // String to prefix all stateIds in the state machine with. PrefixStates *string `field:"optional" json:"prefixStates" yaml:"prefixStates"` // ID of newly created containing state. StateId *string `field:"optional" json:"stateId" yaml:"stateId"` }
Options for creating a single state.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" var resultSelector interface{} singleStateOptions := &singleStateOptions{ comment: jsii.String("comment"), inputPath: jsii.String("inputPath"), outputPath: jsii.String("outputPath"), prefixStates: jsii.String("prefixStates"), resultPath: jsii.String("resultPath"), resultSelector: map[string]interface{}{ "resultSelectorKey": resultSelector, }, stateId: jsii.String("stateId"), }
type State ¶
type State interface { constructs.Construct IChainable Branches() *[]StateGraph Comment() *string DefaultChoice() State SetDefaultChoice(val State) // Continuable states of this Chainable. EndStates() *[]INextable // Descriptive identifier for this chainable. Id() *string InputPath() *string Iteration() StateGraph SetIteration(val StateGraph) // The tree node. Node() constructs.Node OutputPath() *string Parameters() *map[string]interface{} ResultPath() *string ResultSelector() *map[string]interface{} // First state of this Chainable. StartState() State // Tokenized string that evaluates to the state's ID. StateId() *string // Add a paralle branch to this state. AddBranch(branch StateGraph) // Add a choice branch to this state. AddChoice(condition Condition, next State) // Add a map iterator to this state. AddIterator(iteration StateGraph) // Add a prefix to the stateId of this state. AddPrefix(x *string) // Register this state as part of the given graph. // // Don't call this. It will be called automatically when you work // with states normally. BindToGraph(graph StateGraph) // Make the indicated state the default choice transition of this state. MakeDefault(def State) // Make the indicated state the default transition of this state. MakeNext(next State) // Render parallel branches in ASL JSON format. RenderBranches() interface{} // Render the choices in ASL JSON format. RenderChoices() interface{} // Render InputPath/Parameters/OutputPath in ASL JSON format. RenderInputOutput() interface{} // Render map iterator in ASL JSON format. RenderIterator() interface{} // Render the default next state in ASL JSON format. RenderNextEnd() interface{} // Render ResultSelector in ASL JSON format. RenderResultSelector() interface{} // Render error recovery options in ASL JSON format. RenderRetryCatch() interface{} // Render the state as JSON. ToStateJson() *map[string]interface{} // Returns a string representation of this construct. ToString() *string // Allows the state to validate itself. ValidateState() *[]*string // Called whenever this state is bound to a graph. // // Can be overridden by subclasses. WhenBoundToGraph(graph StateGraph) }
Base class for all other state classes.
type StateGraph ¶
type StateGraph interface { // The accumulated policy statements. PolicyStatements() *[]awsiam.PolicyStatement // state that gets executed when the state machine is launched. StartState() State // Set a timeout to render into the graph JSON. // // Read/write. Only makes sense on the top-level graph, subgraphs // do not support this feature. Timeout() awscdk.Duration SetTimeout(val awscdk.Duration) // Register a Policy Statement used by states in this graph. RegisterPolicyStatement(statement awsiam.PolicyStatement) // Register a state as part of this graph. // // Called by State.bindToGraph(). RegisterState(state State) // Register this graph as a child of the given graph. // // Resource changes will be bubbled up to the given graph. RegisterSuperGraph(graph StateGraph) // Return the Amazon States Language JSON for this graph. ToGraphJson() *map[string]interface{} // Return a string description of this graph. ToString() *string }
A collection of connected states.
A StateGraph is used to keep track of all states that are connected (have transitions between them). It does not include the substatemachines in a Parallel's branches: those are their own StateGraphs, but the graphs themselves have a hierarchical relationship as well.
By assigning states to a definitive StateGraph, we verify that no state machines are constructed. In particular:
- Every state object can only ever be in 1 StateGraph, and not inadvertently be used in two graphs.
- Every stateId must be unique across all states in the entire state machine.
All policy statements in all states in all substatemachines are bubbled so that the top-level StateMachine instantiation can read them all and add them to the IAM Role.
You do not need to instantiate this class; it is used internally.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" var state state stateGraph := awscdk.Aws_stepfunctions.NewStateGraph(state, jsii.String("graphDescription"))
func NewStateGraph ¶
func NewStateGraph(startState State, graphDescription *string) StateGraph
type StateMachine ¶
type StateMachine interface { awscdk.Resource IStateMachine // The environment this resource belongs to. // // For resources that are created and managed by the CDK // (generally, those created by creating new class instances like Role, Bucket, etc.), // this is always the same as the environment of the stack they belong to; // however, for imported resources // (those obtained from static methods like fromRoleArn, fromBucketName, etc.), // that might be different than the stack they were imported into. Env() *awscdk.ResourceEnvironment // The principal this state machine is running as. GrantPrincipal() awsiam.IPrincipal // The tree node. Node() constructs.Node // Returns a string-encoded token that resolves to the physical name that should be passed to the CloudFormation resource. // // This value will resolve to one of the following: // - a concrete value (e.g. `"my-awesome-bucket"`) // - `undefined`, when a name should be generated by CloudFormation // - a concrete name generated automatically during synthesis, in // cross-environment scenarios. PhysicalName() *string // Execution role of this state machine. Role() awsiam.IRole // The stack in which this resource is defined. Stack() awscdk.Stack // The ARN of the state machine. StateMachineArn() *string // The name of the state machine. StateMachineName() *string // Type of the state machine. StateMachineType() StateMachineType // Add the given statement to the role's policy. AddToRolePolicy(statement awsiam.PolicyStatement) // Apply the given removal policy to this resource. // // The Removal Policy controls what happens to this resource when it stops // being managed by CloudFormation, either because you've removed it from the // CDK application or because you've made a change that requires the resource // to be replaced. // // The resource can be deleted (`RemovalPolicy.DESTROY`), or left in your AWS // account for data recovery and cleanup later (`RemovalPolicy.RETAIN`). ApplyRemovalPolicy(policy awscdk.RemovalPolicy) GeneratePhysicalName() *string // Returns an environment-sensitive token that should be used for the resource's "ARN" attribute (e.g. `bucket.bucketArn`). // // Normally, this token will resolve to `arnAttr`, but if the resource is // referenced across environments, `arnComponents` will be used to synthesize // a concrete ARN with the resource's physical name. Make sure to reference // `this.physicalName` in `arnComponents`. GetResourceArnAttribute(arnAttr *string, arnComponents *awscdk.ArnComponents) *string // Returns an environment-sensitive token that should be used for the resource's "name" attribute (e.g. `bucket.bucketName`). // // Normally, this token will resolve to `nameAttr`, but if the resource is // referenced across environments, it will be resolved to `this.physicalName`, // which will be a concrete name. GetResourceNameAttribute(nameAttr *string) *string // Grant the given identity custom permissions. Grant(identity awsiam.IGrantable, actions ...*string) awsiam.Grant // Grant the given identity permissions on all executions of the state machine. GrantExecution(identity awsiam.IGrantable, actions ...*string) awsiam.Grant // Grant the given identity permissions to read results from state machine. GrantRead(identity awsiam.IGrantable) awsiam.Grant // Grant the given identity permissions to start an execution of this state machine. GrantStartExecution(identity awsiam.IGrantable) awsiam.Grant // Grant the given identity permissions to start a synchronous execution of this state machine. GrantStartSyncExecution(identity awsiam.IGrantable) awsiam.Grant // Grant the given identity task response permissions on a state machine. GrantTaskResponse(identity awsiam.IGrantable) awsiam.Grant // Return the given named metric for this State Machine's executions. Metric(metricName *string, props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of executions that were aborted. MetricAborted(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of executions that failed. MetricFailed(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of executions that were started. MetricStarted(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of executions that succeeded. MetricSucceeded(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of executions that were throttled. MetricThrottled(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the interval, in milliseconds, between the time the execution starts and the time it closes. MetricTime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of executions that timed out. MetricTimedOut(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Returns a string representation of this construct. ToString() *string }
Define a StepFunctions State Machine.
Example:
// Example automatically generated from non-compiling source. May contain errors. import stepfunctions "github.com/aws/aws-cdk-go/awscdk" pipeline := codepipeline.NewPipeline(this, jsii.String("MyPipeline")) inputArtifact := codepipeline.NewArtifact() startState := stepfunctions.NewPass(this, jsii.String("StartState")) simpleStateMachine := stepfunctions.NewStateMachine(this, jsii.String("SimpleStateMachine"), &stateMachineProps{ definition: startState, }) stepFunctionAction := codepipeline_actions.NewStepFunctionInvokeAction(&stepFunctionsInvokeActionProps{ actionName: jsii.String("Invoke"), stateMachine: simpleStateMachine, stateMachineInput: codepipeline_actions.stateMachineInput.filePath(inputArtifact.atPath(jsii.String("assets/input.json"))), }) pipeline.addStage(&stageOptions{ stageName: jsii.String("StepFunctions"), actions: []iAction{ stepFunctionAction, }, })
func NewStateMachine ¶
func NewStateMachine(scope constructs.Construct, id *string, props *StateMachineProps) StateMachine
type StateMachineFragment ¶
type StateMachineFragment interface { constructs.Construct IChainable // The states to chain onto if this fragment is used. EndStates() *[]INextable // Descriptive identifier for this chainable. Id() *string // The tree node. Node() constructs.Node // The start state of this state machine fragment. StartState() State // Continue normal execution with the given state. Next(next IChainable) Chain // Prefix the IDs of all states in this state machine fragment. // // Use this to avoid multiple copies of the state machine all having the // same state IDs. PrefixStates(prefix *string) StateMachineFragment // Wrap all states in this state machine fragment up into a single state. // // This can be used to add retry or error handling onto this state // machine fragment. // // Be aware that this changes the result of the inner state machine // to be an array with the result of the state machine in it. Adjust // your paths accordingly. For example, change 'outputPath' to // '$[0]'. ToSingleState(options *SingleStateOptions) Parallel // Returns a string representation of this construct. ToString() *string }
Base class for reusable state machine fragments.
Example:
import "github.com/aws/aws-cdk-go/awscdk" import "github.com/aws/constructs-go/constructs" import sfn "github.com/aws/aws-cdk-go/awscdk" type myJobProps struct { jobFlavor *string } type myJob struct { stateMachineFragment startState state endStates []iNextable } func newMyJob(parent construct, id *string, props myJobProps) *myJob { this := &myJob{} sfn.NewStateMachineFragment_Override(this, parent, id) choice := sfn.NewChoice(this, jsii.String("Choice")).when(sfn.condition.stringEquals(jsii.String("$.branch"), jsii.String("left")), sfn.NewPass(this, jsii.String("Left Branch"))).when(sfn.condition.stringEquals(jsii.String("$.branch"), jsii.String("right")), sfn.NewPass(this, jsii.String("Right Branch"))) // ... this.startState = choice this.endStates = choice.afterwards().endStates return this } type myStack struct { stack } func newMyStack(scope construct, id *string) *myStack { this := &myStack{} newStack_Override(this, scope, id) // Do 3 different variants of MyJob in parallel parallel := sfn.NewParallel(this, jsii.String("All jobs")).branch(NewMyJob(this, jsii.String("Quick"), &myJobProps{ jobFlavor: jsii.String("quick"), }).prefixStates()).branch(NewMyJob(this, jsii.String("Medium"), &myJobProps{ jobFlavor: jsii.String("medium"), }).prefixStates()).branch(NewMyJob(this, jsii.String("Slow"), &myJobProps{ jobFlavor: jsii.String("slow"), }).prefixStates()) sfn.NewStateMachine(this, jsii.String("MyStateMachine"), &stateMachineProps{ definition: parallel, }) return this }
type StateMachineProps ¶
type StateMachineProps struct { // Definition for this state machine. Definition IChainable `field:"required" json:"definition" yaml:"definition"` // Defines what execution history events are logged and where they are logged. Logs *LogOptions `field:"optional" json:"logs" yaml:"logs"` // The execution role for the state machine service. Role awsiam.IRole `field:"optional" json:"role" yaml:"role"` // A name for the state machine. StateMachineName *string `field:"optional" json:"stateMachineName" yaml:"stateMachineName"` // Type of the state machine. StateMachineType StateMachineType `field:"optional" json:"stateMachineType" yaml:"stateMachineType"` // Maximum run time for this state machine. Timeout awscdk.Duration `field:"optional" json:"timeout" yaml:"timeout"` // Specifies whether Amazon X-Ray tracing is enabled for this state machine. TracingEnabled *bool `field:"optional" json:"tracingEnabled" yaml:"tracingEnabled"` }
Properties for defining a State Machine.
Example:
// Example automatically generated from non-compiling source. May contain errors. import stepfunctions "github.com/aws/aws-cdk-go/awscdk" pipeline := codepipeline.NewPipeline(this, jsii.String("MyPipeline")) inputArtifact := codepipeline.NewArtifact() startState := stepfunctions.NewPass(this, jsii.String("StartState")) simpleStateMachine := stepfunctions.NewStateMachine(this, jsii.String("SimpleStateMachine"), &stateMachineProps{ definition: startState, }) stepFunctionAction := codepipeline_actions.NewStepFunctionInvokeAction(&stepFunctionsInvokeActionProps{ actionName: jsii.String("Invoke"), stateMachine: simpleStateMachine, stateMachineInput: codepipeline_actions.stateMachineInput.filePath(inputArtifact.atPath(jsii.String("assets/input.json"))), }) pipeline.addStage(&stageOptions{ stageName: jsii.String("StepFunctions"), actions: []iAction{ stepFunctionAction, }, })
type StateMachineType ¶
type StateMachineType string
Two types of state machines are available in AWS Step Functions: EXPRESS AND STANDARD.
Example:
stateMachineDefinition := stepfunctions.NewPass(this, jsii.String("PassState")) stateMachine := stepfunctions.NewStateMachine(this, jsii.String("StateMachine"), &stateMachineProps{ definition: stateMachineDefinition, stateMachineType: stepfunctions.stateMachineType_EXPRESS, }) apigateway.NewStepFunctionsRestApi(this, jsii.String("StepFunctionsRestApi"), &stepFunctionsRestApiProps{ deploy: jsii.Boolean(true), stateMachine: stateMachine, })
See: https://docs.aws.amazon.com/step-functions/latest/dg/concepts-standard-vs-express.html
const ( // Express Workflows are ideal for high-volume, event processing workloads. StateMachineType_EXPRESS StateMachineType = "EXPRESS" // Standard Workflows are ideal for long-running, durable, and auditable workflows. StateMachineType_STANDARD StateMachineType = "STANDARD" )
type StateProps ¶
type StateProps struct { // A comment describing this state. Comment *string `field:"optional" json:"comment" yaml:"comment"` // JSONPath expression to select part of the state to be the input to this state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // input to be the empty object {}. InputPath *string `field:"optional" json:"inputPath" yaml:"inputPath"` // JSONPath expression to select part of the state to be the output to this state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // output to be the empty object {}. OutputPath *string `field:"optional" json:"outputPath" yaml:"outputPath"` // Parameters pass a collection of key-value pairs, either static values or JSONPath expressions that select from the input. // See: https://docs.aws.amazon.com/step-functions/latest/dg/input-output-inputpath-params.html#input-output-parameters // Parameters *map[string]interface{} `field:"optional" json:"parameters" yaml:"parameters"` // JSONPath expression to indicate where to inject the state's output. // // May also be the special value JsonPath.DISCARD, which will cause the state's // input to become its output. ResultPath *string `field:"optional" json:"resultPath" yaml:"resultPath"` // The JSON that will replace the state's raw result and become the effective result before ResultPath is applied. // // You can use ResultSelector to create a payload with values that are static // or selected from the state's raw result. // See: https://docs.aws.amazon.com/step-functions/latest/dg/input-output-inputpath-params.html#input-output-resultselector // ResultSelector *map[string]interface{} `field:"optional" json:"resultSelector" yaml:"resultSelector"` }
Properties shared by all states.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" var parameters interface{} var resultSelector interface{} stateProps := &stateProps{ comment: jsii.String("comment"), inputPath: jsii.String("inputPath"), outputPath: jsii.String("outputPath"), parameters: map[string]interface{}{ "parametersKey": parameters, }, resultPath: jsii.String("resultPath"), resultSelector: map[string]interface{}{ "resultSelectorKey": resultSelector, }, }
type StateTransitionMetric ¶
type StateTransitionMetric interface { }
Metrics on the rate limiting performed on state machine execution.
These rate limits are shared across all state machines.
Example:
cloudwatch.NewAlarm(this, jsii.String("ThrottledAlarm"), &alarmProps{ metric: sfn.stateTransitionMetric.metricThrottledEvents(), threshold: jsii.Number(10), evaluationPeriods: jsii.Number(2), })
func NewStateTransitionMetric ¶
func NewStateTransitionMetric() StateTransitionMetric
type Succeed ¶
type Succeed interface { State Branches() *[]StateGraph Comment() *string DefaultChoice() State SetDefaultChoice(val State) // Continuable states of this Chainable. EndStates() *[]INextable // Descriptive identifier for this chainable. Id() *string InputPath() *string Iteration() StateGraph SetIteration(val StateGraph) // The tree node. Node() constructs.Node OutputPath() *string Parameters() *map[string]interface{} ResultPath() *string ResultSelector() *map[string]interface{} // First state of this Chainable. StartState() State // Tokenized string that evaluates to the state's ID. StateId() *string // Add a paralle branch to this state. AddBranch(branch StateGraph) // Add a choice branch to this state. AddChoice(condition Condition, next State) // Add a map iterator to this state. AddIterator(iteration StateGraph) // Add a prefix to the stateId of this state. AddPrefix(x *string) // Register this state as part of the given graph. // // Don't call this. It will be called automatically when you work // with states normally. BindToGraph(graph StateGraph) // Make the indicated state the default choice transition of this state. MakeDefault(def State) // Make the indicated state the default transition of this state. MakeNext(next State) // Render parallel branches in ASL JSON format. RenderBranches() interface{} // Render the choices in ASL JSON format. RenderChoices() interface{} // Render InputPath/Parameters/OutputPath in ASL JSON format. RenderInputOutput() interface{} // Render map iterator in ASL JSON format. RenderIterator() interface{} // Render the default next state in ASL JSON format. RenderNextEnd() interface{} // Render ResultSelector in ASL JSON format. RenderResultSelector() interface{} // Render error recovery options in ASL JSON format. RenderRetryCatch() interface{} // Return the Amazon States Language object for this state. ToStateJson() *map[string]interface{} // Returns a string representation of this construct. ToString() *string // Allows the state to validate itself. ValidateState() *[]*string // Called whenever this state is bound to a graph. // // Can be overridden by subclasses. WhenBoundToGraph(graph StateGraph) }
Define a Succeed state in the state machine.
Reaching a Succeed state terminates the state execution in success.
Example:
success := sfn.NewSucceed(this, jsii.String("We did it!"))
func NewSucceed ¶
func NewSucceed(scope constructs.Construct, id *string, props *SucceedProps) Succeed
type SucceedProps ¶
type SucceedProps struct { // An optional description for this state. Comment *string `field:"optional" json:"comment" yaml:"comment"` // JSONPath expression to select part of the state to be the input to this state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // input to be the empty object {}. InputPath *string `field:"optional" json:"inputPath" yaml:"inputPath"` // JSONPath expression to select part of the state to be the output to this state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // output to be the empty object {}. OutputPath *string `field:"optional" json:"outputPath" yaml:"outputPath"` }
Properties for defining a Succeed state.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" succeedProps := &succeedProps{ comment: jsii.String("comment"), inputPath: jsii.String("inputPath"), outputPath: jsii.String("outputPath"), }
type TaskInput ¶
type TaskInput interface { // type of task input. Type() InputType // payload for the corresponding input type. // // It can be a JSON-encoded object, context, data, etc. Value() interface{} }
Type union for task classes that accept multiple types of payload.
Example:
var fn function tasks.NewLambdaInvoke(this, jsii.String("Invoke with callback"), &lambdaInvokeProps{ lambdaFunction: fn, integrationPattern: sfn.integrationPattern_WAIT_FOR_TASK_TOKEN, payload: sfn.taskInput.fromObject(map[string]interface{}{ "token": sfn.JsonPath.taskToken, "input": sfn.JsonPath.stringAt(jsii.String("$.someField")), }), })
func TaskInput_FromJsonPathAt ¶
Use a part of the execution data or task context as task input.
Use this when you want to use a subobject or string from the current state machine execution or the current task context as complete payload to a task.
func TaskInput_FromObject ¶
Use an object as task input.
This object may contain JSON path fields as object values, if desired.
func TaskInput_FromText ¶
Use a literal string as task input.
This might be a JSON-encoded object, or just a text.
type TaskMetricsConfig ¶
type TaskMetricsConfig struct { // The dimensions to attach to metrics. MetricDimensions *map[string]interface{} `field:"optional" json:"metricDimensions" yaml:"metricDimensions"` // Prefix for plural metric names of activity actions. MetricPrefixPlural *string `field:"optional" json:"metricPrefixPlural" yaml:"metricPrefixPlural"` // Prefix for singular metric names of activity actions. MetricPrefixSingular *string `field:"optional" json:"metricPrefixSingular" yaml:"metricPrefixSingular"` }
Task Metrics.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import "github.com/aws/aws-cdk-go/awscdk" var metricDimensions interface{} taskMetricsConfig := &taskMetricsConfig{ metricDimensions: map[string]interface{}{ "metricDimensionsKey": metricDimensions, }, metricPrefixPlural: jsii.String("metricPrefixPlural"), metricPrefixSingular: jsii.String("metricPrefixSingular"), }
type TaskStateBase ¶
type TaskStateBase interface { State INextable Branches() *[]StateGraph Comment() *string DefaultChoice() State SetDefaultChoice(val State) // Continuable states of this Chainable. EndStates() *[]INextable // Descriptive identifier for this chainable. Id() *string InputPath() *string Iteration() StateGraph SetIteration(val StateGraph) // The tree node. Node() constructs.Node OutputPath() *string Parameters() *map[string]interface{} ResultPath() *string ResultSelector() *map[string]interface{} // First state of this Chainable. StartState() State // Tokenized string that evaluates to the state's ID. StateId() *string TaskMetrics() *TaskMetricsConfig TaskPolicies() *[]awsiam.PolicyStatement // Add a paralle branch to this state. AddBranch(branch StateGraph) // Add a recovery handler for this state. // // When a particular error occurs, execution will continue at the error // handler instead of failing the state machine execution. AddCatch(handler IChainable, props *CatchProps) TaskStateBase // Add a choice branch to this state. AddChoice(condition Condition, next State) // Add a map iterator to this state. AddIterator(iteration StateGraph) // Add a prefix to the stateId of this state. AddPrefix(x *string) // Add retry configuration for this state. // // This controls if and how the execution will be retried if a particular // error occurs. AddRetry(props *RetryProps) TaskStateBase // Register this state as part of the given graph. // // Don't call this. It will be called automatically when you work // with states normally. BindToGraph(graph StateGraph) // Make the indicated state the default choice transition of this state. MakeDefault(def State) // Make the indicated state the default transition of this state. MakeNext(next State) // Return the given named metric for this Task. Metric(metricName *string, props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of times this activity fails. MetricFailed(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of times the heartbeat times out for this activity. MetricHeartbeatTimedOut(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // The interval, in milliseconds, between the time the Task starts and the time it closes. MetricRunTime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of times this activity is scheduled. MetricScheduled(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // The interval, in milliseconds, for which the activity stays in the schedule state. MetricScheduleTime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of times this activity is started. MetricStarted(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of times this activity succeeds. MetricSucceeded(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // The interval, in milliseconds, between the time the activity is scheduled and the time it closes. MetricTime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Metric for the number of times this activity times out. MetricTimedOut(props *awscloudwatch.MetricOptions) awscloudwatch.Metric // Continue normal execution with the given state. Next(next IChainable) Chain // Render parallel branches in ASL JSON format. RenderBranches() interface{} // Render the choices in ASL JSON format. RenderChoices() interface{} // Render InputPath/Parameters/OutputPath in ASL JSON format. RenderInputOutput() interface{} // Render map iterator in ASL JSON format. RenderIterator() interface{} // Render the default next state in ASL JSON format. RenderNextEnd() interface{} // Render ResultSelector in ASL JSON format. RenderResultSelector() interface{} // Render error recovery options in ASL JSON format. RenderRetryCatch() interface{} // Return the Amazon States Language object for this state. ToStateJson() *map[string]interface{} // Returns a string representation of this construct. ToString() *string // Allows the state to validate itself. ValidateState() *[]*string // Called whenever this state is bound to a graph. // // Can be overridden by subclasses. WhenBoundToGraph(graph StateGraph) }
Define a Task state in the state machine.
Reaching a Task state causes some work to be executed, represented by the Task's resource property. Task constructs represent a generic Amazon States Language Task.
For some resource types, more specific subclasses of Task may be available which are more convenient to use.
type TaskStateBaseProps ¶
type TaskStateBaseProps struct { // An optional description for this state. Comment *string `field:"optional" json:"comment" yaml:"comment"` // Timeout for the heartbeat. Heartbeat awscdk.Duration `field:"optional" json:"heartbeat" yaml:"heartbeat"` // JSONPath expression to select part of the state to be the input to this state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // input to be the empty object {}. InputPath *string `field:"optional" json:"inputPath" yaml:"inputPath"` // AWS Step Functions integrates with services directly in the Amazon States Language. // // You can control these AWS services using service integration patterns. // See: https://docs.aws.amazon.com/step-functions/latest/dg/connect-to-resource.html#connect-wait-token // IntegrationPattern IntegrationPattern `field:"optional" json:"integrationPattern" yaml:"integrationPattern"` // JSONPath expression to select select a portion of the state output to pass to the next state. // // May also be the special value JsonPath.DISCARD, which will cause the effective // output to be the empty object {}. OutputPath *string `field:"optional" json:"outputPath" yaml:"outputPath"` // JSONPath expression to indicate where to inject the state's output. // // May also be the special value JsonPath.DISCARD, which will cause the state's // input to become its output. ResultPath *string `field:"optional" json:"resultPath" yaml:"resultPath"` // The JSON that will replace the state's raw result and become the effective result before ResultPath is applied. // // You can use ResultSelector to create a payload with values that are static // or selected from the state's raw result. // See: https://docs.aws.amazon.com/step-functions/latest/dg/input-output-inputpath-params.html#input-output-resultselector // ResultSelector *map[string]interface{} `field:"optional" json:"resultSelector" yaml:"resultSelector"` // Timeout for the state machine. Timeout awscdk.Duration `field:"optional" json:"timeout" yaml:"timeout"` }
Props that are common to all tasks.
Example:
// The code below shows an example of how to instantiate this type. // The values are placeholders you should change. import cdk "github.com/aws/aws-cdk-go/awscdk" import "github.com/aws/aws-cdk-go/awscdk" var resultSelector interface{} taskStateBaseProps := &taskStateBaseProps{ comment: jsii.String("comment"), heartbeat: cdk.duration.minutes(jsii.Number(30)), inputPath: jsii.String("inputPath"), integrationPattern: awscdk.Aws_stepfunctions.integrationPattern_REQUEST_RESPONSE, outputPath: jsii.String("outputPath"), resultPath: jsii.String("resultPath"), resultSelector: map[string]interface{}{ "resultSelectorKey": resultSelector, }, timeout: cdk.*duration.minutes(jsii.Number(30)), }
type Wait ¶
type Wait interface { State INextable Branches() *[]StateGraph Comment() *string DefaultChoice() State SetDefaultChoice(val State) // Continuable states of this Chainable. EndStates() *[]INextable // Descriptive identifier for this chainable. Id() *string InputPath() *string Iteration() StateGraph SetIteration(val StateGraph) // The tree node. Node() constructs.Node OutputPath() *string Parameters() *map[string]interface{} ResultPath() *string ResultSelector() *map[string]interface{} // First state of this Chainable. StartState() State // Tokenized string that evaluates to the state's ID. StateId() *string // Add a paralle branch to this state. AddBranch(branch StateGraph) // Add a choice branch to this state. AddChoice(condition Condition, next State) // Add a map iterator to this state. AddIterator(iteration StateGraph) // Add a prefix to the stateId of this state. AddPrefix(x *string) // Register this state as part of the given graph. // // Don't call this. It will be called automatically when you work // with states normally. BindToGraph(graph StateGraph) // Make the indicated state the default choice transition of this state. MakeDefault(def State) // Make the indicated state the default transition of this state. MakeNext(next State) // Continue normal execution with the given state. Next(next IChainable) Chain // Render parallel branches in ASL JSON format. RenderBranches() interface{} // Render the choices in ASL JSON format. RenderChoices() interface{} // Render InputPath/Parameters/OutputPath in ASL JSON format. RenderInputOutput() interface{} // Render map iterator in ASL JSON format. RenderIterator() interface{} // Render the default next state in ASL JSON format. RenderNextEnd() interface{} // Render ResultSelector in ASL JSON format. RenderResultSelector() interface{} // Render error recovery options in ASL JSON format. RenderRetryCatch() interface{} // Return the Amazon States Language object for this state. ToStateJson() *map[string]interface{} // Returns a string representation of this construct. ToString() *string // Allows the state to validate itself. ValidateState() *[]*string // Called whenever this state is bound to a graph. // // Can be overridden by subclasses. WhenBoundToGraph(graph StateGraph) }
Define a Wait state in the state machine.
A Wait state can be used to delay execution of the state machine for a while.
Example:
convertToSeconds := tasks.NewEvaluateExpression(this, jsii.String("Convert to seconds"), &evaluateExpressionProps{ expression: jsii.String("$.waitMilliseconds / 1000"), resultPath: jsii.String("$.waitSeconds"), }) createMessage := tasks.NewEvaluateExpression(this, jsii.String("Create message"), &evaluateExpressionProps{ // Note: this is a string inside a string. expression: jsii.String("`Now waiting ${$.waitSeconds} seconds...`"), runtime: lambda.runtime_NODEJS_14_X(), resultPath: jsii.String("$.message"), }) publishMessage := tasks.NewSnsPublish(this, jsii.String("Publish message"), &snsPublishProps{ topic: sns.NewTopic(this, jsii.String("cool-topic")), message: sfn.taskInput.fromJsonPathAt(jsii.String("$.message")), resultPath: jsii.String("$.sns"), }) wait := sfn.NewWait(this, jsii.String("Wait"), &waitProps{ time: sfn.waitTime.secondsPath(jsii.String("$.waitSeconds")), }) sfn.NewStateMachine(this, jsii.String("StateMachine"), &stateMachineProps{ definition: convertToSeconds.next(createMessage).next(publishMessage).next(wait), })
type WaitProps ¶
type WaitProps struct { // Wait duration. Time WaitTime `field:"required" json:"time" yaml:"time"` // An optional description for this state. Comment *string `field:"optional" json:"comment" yaml:"comment"` }
Properties for defining a Wait state.
Example:
convertToSeconds := tasks.NewEvaluateExpression(this, jsii.String("Convert to seconds"), &evaluateExpressionProps{ expression: jsii.String("$.waitMilliseconds / 1000"), resultPath: jsii.String("$.waitSeconds"), }) createMessage := tasks.NewEvaluateExpression(this, jsii.String("Create message"), &evaluateExpressionProps{ // Note: this is a string inside a string. expression: jsii.String("`Now waiting ${$.waitSeconds} seconds...`"), runtime: lambda.runtime_NODEJS_14_X(), resultPath: jsii.String("$.message"), }) publishMessage := tasks.NewSnsPublish(this, jsii.String("Publish message"), &snsPublishProps{ topic: sns.NewTopic(this, jsii.String("cool-topic")), message: sfn.taskInput.fromJsonPathAt(jsii.String("$.message")), resultPath: jsii.String("$.sns"), }) wait := sfn.NewWait(this, jsii.String("Wait"), &waitProps{ time: sfn.waitTime.secondsPath(jsii.String("$.waitSeconds")), }) sfn.NewStateMachine(this, jsii.String("StateMachine"), &stateMachineProps{ definition: convertToSeconds.next(createMessage).next(publishMessage).next(wait), })
type WaitTime ¶
type WaitTime interface { }
Represents the Wait state which delays a state machine from continuing for a specified time.
Example:
convertToSeconds := tasks.NewEvaluateExpression(this, jsii.String("Convert to seconds"), &evaluateExpressionProps{ expression: jsii.String("$.waitMilliseconds / 1000"), resultPath: jsii.String("$.waitSeconds"), }) createMessage := tasks.NewEvaluateExpression(this, jsii.String("Create message"), &evaluateExpressionProps{ // Note: this is a string inside a string. expression: jsii.String("`Now waiting ${$.waitSeconds} seconds...`"), runtime: lambda.runtime_NODEJS_14_X(), resultPath: jsii.String("$.message"), }) publishMessage := tasks.NewSnsPublish(this, jsii.String("Publish message"), &snsPublishProps{ topic: sns.NewTopic(this, jsii.String("cool-topic")), message: sfn.taskInput.fromJsonPathAt(jsii.String("$.message")), resultPath: jsii.String("$.sns"), }) wait := sfn.NewWait(this, jsii.String("Wait"), &waitProps{ time: sfn.waitTime.secondsPath(jsii.String("$.waitSeconds")), }) sfn.NewStateMachine(this, jsii.String("StateMachine"), &stateMachineProps{ definition: convertToSeconds.next(createMessage).next(publishMessage).next(wait), })
See: https://docs.aws.amazon.com/step-functions/latest/dg/amazon-states-language-wait-state.html
func WaitTime_Duration ¶
func WaitTime_Duration(duration awscdk.Duration) WaitTime
Wait a fixed amount of time.
func WaitTime_SecondsPath ¶
Wait for a number of seconds stored in the state object.
Example value: `$.waitSeconds`
func WaitTime_Timestamp ¶
Wait until the given ISO8601 timestamp.
Example value: `2016-03-14T01:59:00Z`.
func WaitTime_TimestampPath ¶
Wait until a timestamp found in the state object.
Example value: `$.waitTimestamp`
Source Files ¶
- awsstepfunctions.go
- awsstepfunctions_Activity.go
- awsstepfunctions_ActivityProps.go
- awsstepfunctions_Activity__runtime_type_checks.go
- awsstepfunctions_AfterwardsOptions.go
- awsstepfunctions_CatchProps.go
- awsstepfunctions_CfnActivity.go
- awsstepfunctions_CfnActivityProps.go
- awsstepfunctions_CfnActivity_TagsEntryProperty.go
- awsstepfunctions_CfnActivity__runtime_type_checks.go
- awsstepfunctions_CfnStateMachine.go
- awsstepfunctions_CfnStateMachineProps.go
- awsstepfunctions_CfnStateMachine_CloudWatchLogsLogGroupProperty.go
- awsstepfunctions_CfnStateMachine_LogDestinationProperty.go
- awsstepfunctions_CfnStateMachine_LoggingConfigurationProperty.go
- awsstepfunctions_CfnStateMachine_S3LocationProperty.go
- awsstepfunctions_CfnStateMachine_TagsEntryProperty.go
- awsstepfunctions_CfnStateMachine_TracingConfigurationProperty.go
- awsstepfunctions_CfnStateMachine__runtime_type_checks.go
- awsstepfunctions_Chain.go
- awsstepfunctions_Chain__runtime_type_checks.go
- awsstepfunctions_Choice.go
- awsstepfunctions_ChoiceProps.go
- awsstepfunctions_Choice__runtime_type_checks.go
- awsstepfunctions_Condition.go
- awsstepfunctions_Condition__runtime_type_checks.go
- awsstepfunctions_CustomState.go
- awsstepfunctions_CustomStateProps.go
- awsstepfunctions_CustomState__runtime_type_checks.go
- awsstepfunctions_Errors.go
- awsstepfunctions_Fail.go
- awsstepfunctions_FailProps.go
- awsstepfunctions_Fail__runtime_type_checks.go
- awsstepfunctions_FieldUtils.go
- awsstepfunctions_FindStateOptions.go
- awsstepfunctions_IActivity.go
- awsstepfunctions_IChainable.go
- awsstepfunctions_INextable.go
- awsstepfunctions_INextable__runtime_type_checks.go
- awsstepfunctions_IStateMachine.go
- awsstepfunctions_IStateMachine__runtime_type_checks.go
- awsstepfunctions_InputType.go
- awsstepfunctions_IntegrationPattern.go
- awsstepfunctions_JsonPath.go
- awsstepfunctions_JsonPath__runtime_type_checks.go
- awsstepfunctions_LogLevel.go
- awsstepfunctions_LogOptions.go
- awsstepfunctions_Map.go
- awsstepfunctions_MapProps.go
- awsstepfunctions_Map__runtime_type_checks.go
- awsstepfunctions_Parallel.go
- awsstepfunctions_ParallelProps.go
- awsstepfunctions_Parallel__runtime_type_checks.go
- awsstepfunctions_Pass.go
- awsstepfunctions_PassProps.go
- awsstepfunctions_Pass__runtime_type_checks.go
- awsstepfunctions_Result.go
- awsstepfunctions_Result__runtime_type_checks.go
- awsstepfunctions_RetryProps.go
- awsstepfunctions_ServiceIntegrationPattern.go
- awsstepfunctions_SingleStateOptions.go
- awsstepfunctions_State.go
- awsstepfunctions_StateGraph.go
- awsstepfunctions_StateGraph__runtime_type_checks.go
- awsstepfunctions_StateMachine.go
- awsstepfunctions_StateMachineFragment.go
- awsstepfunctions_StateMachineFragment__runtime_type_checks.go
- awsstepfunctions_StateMachineProps.go
- awsstepfunctions_StateMachineType.go
- awsstepfunctions_StateMachine__runtime_type_checks.go
- awsstepfunctions_StateProps.go
- awsstepfunctions_StateTransitionMetric.go
- awsstepfunctions_StateTransitionMetric__runtime_type_checks.go
- awsstepfunctions_State__runtime_type_checks.go
- awsstepfunctions_Succeed.go
- awsstepfunctions_SucceedProps.go
- awsstepfunctions_Succeed__runtime_type_checks.go
- awsstepfunctions_TaskInput.go
- awsstepfunctions_TaskInput__runtime_type_checks.go
- awsstepfunctions_TaskMetricsConfig.go
- awsstepfunctions_TaskStateBase.go
- awsstepfunctions_TaskStateBaseProps.go
- awsstepfunctions_TaskStateBase__runtime_type_checks.go
- awsstepfunctions_Wait.go
- awsstepfunctions_WaitProps.go
- awsstepfunctions_WaitTime.go
- awsstepfunctions_WaitTime__runtime_type_checks.go
- awsstepfunctions_Wait__runtime_type_checks.go