Die vorliegende Übersetzung wurde maschinell erstellt. Im Falle eines Konflikts oder eines Widerspruchs zwischen dieser übersetzten Fassung und der englischen Fassung (einschließlich infolge von Verzögerungen bei der Übersetzung) ist die englische Fassung maßgeblich.
Beispiel 2: Skriptbasiertes Runbook
In diesem Beispiel-Runbook wird das folgende Szenario behandelt. Emily ist Systemingenieurin bei AnyCompany Consultants, LLC. Sie hat zuvor zwei Runbooks erstellt, die in einer Untergeordnet-Übergeordnet-Beziehung verwendet werden, um Patch-Gruppen von Amazon Elastic Compute Cloud (Amazon EC2)-Instances zu patchen, die primäre und sekundäre Datenbanken hosten. Anwendungen greifen 24 Stunden am Tag auf diese Datenbanken zu, sodass eine der Datenbankinstances immer verfügbar sein muss.
Basierend auf dieser Anforderung hat sie eine Lösung entwickelt, welche die Instances stufenweise mit dem AWS-RunPatchBaseline-Systems Manager (SSM)-Dokument patcht. Mithilfe dieses SSM-Dokuments können ihre Kollegen die zugehörigen Patch-Compliance-Informationen überprüfen, nachdem der Patch-Vorgang abgeschlossen ist.
Die primäre Gruppe von Datenbankinstances wird zuerst gepatcht, gefolgt von der sekundären Gruppe von Datenbankinstances. Um zusätzliche Kosten zu vermeiden, indem Instances ausgeführt werden, die zuvor gestoppt wurden, hat Emily sichergestellt, dass die Automatisierung die gepatchten Instances in ihren ursprünglichen Zustand zurückversetzte, bevor das Patchen stattgefunden hat. Emily verwendete Tags, die den primären und sekundären Gruppen von Datenbankinstances zugeordnet sind, um zu ermitteln, welche Instances in der gewünschten Reihenfolge gepatcht werden sollen.
Ihre bestehende automatisierte Lösung funktioniert, aber sie will ihre Lösung nach Möglichkeit verbessern. Um bei der Wartung des Runbook-Inhalts zu helfen und die Fehlerbehebung zu erleichtern, möchte sie die Automatisierung zu einem einzigen Runbook zusammenfassen und die Anzahl der Eingabeparameter vereinfachen. Außerdem möchte sie vermeiden, dass mehrere untergeordnete Automatisierungen erstellt werden.
Nachdem Emily die verfügbaren Automatisierungsaktionen überprüft hat, stellt sie fest, dass sie ihre Lösung mithilfe der aws:executeScript-Aktion verbessern kann, um ihre benutzerdefinierten Python-Skripte auszuführen. Sie beginnt nun mit der Erstellung des Inhalts für das Runbook wie folgt:
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Zunächst stellt sie Werte für das Schema und die Beschreibung des Runbooks bereit und definiert die Eingabeparameter für das übergeordnete Runbook.
Durch die Verwendung des
AutomationAssumeRole-Parameters können Emily und ihre Kollegen eine vorhandene IAM-Rolle verwenden, die der Automatisierung erlaubt, die Aktionen im Runbook für sie auszuführen. Im Gegensatz zum Beispiel 1 ist derAutomationAssumeRole-Parameter ist jetzt erforderlich und nicht optional. Da dieses Runbookaws:executeScript-Aktionen beinhaltet, ist eine AWS Identity and Access Management-(IAM)-Servicerolle (oder Assume-Rolle) immer erforderlich. Diese Anforderung ist notwendig, da einige der Python-Skripte, die für die Aktionen angegeben sind, AWS-API-Operationen aufrufen.Emily verwendet die
PrimaryPatchGroupTag- undSecondaryPatchGroupTag-Parameter, um die Tags anzugeben, die mit der primären und sekundären Gruppe von Datenbankinstances verknüpft sind, die gepatcht werden sollen. Um die erforderlichen Eingabeparameter zu vereinfachen, entscheidet sie sich,StringMap-Parameter anstatt mehrererString-Parameter zu verwenden, wie sie im Runbook von Beispiel 1 verwendet wurde. Optional können dieOperation-,RebootOption- , undSnapshotId-Parameter verwendet werden, um Werte für Dokumentparameter fürAWS-RunPatchBaselinebereitzustellen. Um zu verhindern, dass für diese Dokumentparameter ungültige Werte bereitgestellt werden, definiert sie dieallowedValuesnach Bedarf.- YAML
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description: 'An example of an Automation runbook that patches groups of Amazon EC2 instances in stages.' schemaVersion: '0.3' assumeRole: '{{AutomationAssumeRole}}' parameters: AutomationAssumeRole: type: String description: '(Required) The Amazon Resource Name (ARN) of the IAM role that allows Automation to perform the actions on your behalf. If no role is specified, Systems Manager Automation uses your IAM permissions to operate this runbook.' PrimaryPatchGroupTag: type: StringMap description: '(Required) The tag for the primary group of instances you want to patch. Specify a key-value pair. Example: {"key" : "value"}' SecondaryPatchGroupTag: type: StringMap description: '(Required) The tag for the secondary group of instances you want to patch. Specify a key-value pair. Example: {"key" : "value"}' SnapshotId: type: String description: '(Optional) The snapshot ID to use to retrieve a patch baseline snapshot.' default: '' RebootOption: type: String description: '(Optional) Reboot behavior after a patch Install operation. If you choose NoReboot and patches are installed, the instance is marked as non-compliant until a subsequent reboot and scan.' allowedValues: - NoReboot - RebootIfNeeded default: RebootIfNeeded Operation: type: String description: '(Optional) The update or configuration to perform on the instance. The system checks if patches specified in the patch baseline are installed on the instance. The install operation installs patches missing from the baseline.' allowedValues: - Install - Scan default: Install - JSON
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{ "description":"An example of an Automation runbook that patches groups of Amazon EC2 instances in stages.", "schemaVersion":"0.3", "assumeRole":"{{AutomationAssumeRole}}", "parameters":{ "AutomationAssumeRole":{ "type":"String", "description":"(Required) The Amazon Resource Name (ARN) of the IAM role that allows Automation to perform the actions on your behalf. If no role is specified, Systems Manager Automation uses your IAM permissions to operate this runbook." }, "PrimaryPatchGroupTag":{ "type":"StringMap", "description":"(Required) The tag for the primary group of instances you want to patch. Specify a key-value pair. Example: {\"key\" : \"value\"}" }, "SecondaryPatchGroupTag":{ "type":"StringMap", "description":"(Required) The tag for the secondary group of instances you want to patch. Specify a key-value pair. Example: {\"key\" : \"value\"}" }, "SnapshotId":{ "type":"String", "description":"(Optional) The snapshot ID to use to retrieve a patch baseline snapshot.", "default":"" }, "RebootOption":{ "type":"String", "description":"(Optional) Reboot behavior after a patch Install operation. If you choose NoReboot and patches are installed, the instance is marked as non-compliant until a subsequent reboot and scan.", "allowedValues":[ "NoReboot", "RebootIfNeeded" ], "default":"RebootIfNeeded" }, "Operation":{ "type":"String", "description":"(Optional) The update or configuration to perform on the instance. The system checks if patches specified in the patch baseline are installed on the instance. The install operation installs patches missing from the baseline.", "allowedValues":[ "Install", "Scan" ], "default":"Install" } } },
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Wenn die Elemente der obersten Ebene definiert sind, arbeitet Emily mit der Erstellung der Aktionen, welche die
mainStepsdes Runbooks melden. Der erste Schritt sammelt die IDs aller Instances, die dem imPrimaryPatchGroupTag-Parameter angegebenen Tag zugeordnet sind, und gibt einenStringMap-Parameter aus, der die Instance-ID und den aktuellen Zustand der Instance enthält. Die Ausgabe dieser Aktion wird in späteren Aktionen verwendet.Beachten Sie, dass die
script-Eingabeparameter für JSON-Runbooks nicht unterstützt werden. JSON-Runbooks müssen Skriptinhalt mithilfe desattachment-Eingabeparameters bereitstellen.- YAML
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mainSteps: - name: getPrimaryInstanceState action: 'aws:executeScript' timeoutSeconds: 120 onFailure: Abort inputs: Runtime: python3.7 Handler: getInstanceStates InputPayload: primaryTag: '{{PrimaryPatchGroupTag}}' Script: |- def getInstanceStates(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') tag = events['primaryTag'] tagKey, tagValue = list(tag.items())[0] instanceQuery = ec2.describe_instances( Filters=[ { "Name": "tag:" + tagKey, "Values": [tagValue] }] ) if not instanceQuery['Reservations']: noInstancesForTagString = "No instances found for specified tag." return({ 'noInstancesFound' : noInstancesForTagString }) else: queryResponse = instanceQuery['Reservations'] originalInstanceStates = {} for results in queryResponse: instanceSet = results['Instances'] for instance in instanceSet: instanceId = instance['InstanceId'] originalInstanceStates[instanceId] = instance['State']['Name'] return originalInstanceStates outputs: - Name: originalInstanceStates Selector: $.Payload Type: StringMap nextStep: verifyPrimaryInstancesRunning - JSON
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"mainSteps":[ { "name":"getPrimaryInstanceState", "action":"aws:executeScript", "timeoutSeconds":120, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"getInstanceStates", "InputPayload":{ "primaryTag":"{{PrimaryPatchGroupTag}}" }, "Script":"..." }, "outputs":[ { "Name":"originalInstanceStates", "Selector":"$.Payload", "Type":"StringMap" } ], "nextStep":"verifyPrimaryInstancesRunning" },
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Emily verwendet die Ausgabe der vorherigen Aktion in einer anderen
aws:executeScript-Aktion, um zu überprüfen, ob alle Instances, die dem imPrimaryPatchGroupTag-Parameter angegebenen Tag zugeordnet sind, in einemrunning-Zustand sind.Wenn der Instance-Status bereits
runningodershutting-downist, durchläuft das Skript weiterhin die verbleibenden Instances.Wenn der Status der Instance
stoppingist, fragt das Skript die Instance ab, denstopped-Status zu erreichen und startet die Instance.Wenn der Status der Instance
stoppedist, startet das Skript die Instance.- YAML
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- name: verifyPrimaryInstancesRunning action: 'aws:executeScript' timeoutSeconds: 600 onFailure: Abort inputs: Runtime: python3.7 Handler: verifyInstancesRunning InputPayload: targetInstances: '{{getPrimaryInstanceState.originalInstanceStates}}' Script: |- def verifyInstancesRunning(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') instanceDict = events['targetInstances'] for instance in instanceDict: if instanceDict[instance] == 'stopped': print("The target instance " + instance + " is stopped. The instance will now be started.") ec2.start_instances( InstanceIds=[instance] ) elif instanceDict[instance] == 'stopping': print("The target instance " + instance + " is stopping. Polling for instance to reach stopped state.") while instanceDict[instance] != 'stopped': poll = ec2.get_waiter('instance_stopped') poll.wait( InstanceIds=[instance] ) ec2.start_instances( InstanceIds=[instance] ) else: pass nextStep: waitForPrimaryRunningInstances - JSON
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{ "name":"verifyPrimaryInstancesRunning", "action":"aws:executeScript", "timeoutSeconds":600, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"verifyInstancesRunning", "InputPayload":{ "targetInstances":"{{getPrimaryInstanceState.originalInstanceStates}}" }, "Script":"..." }, "nextStep":"waitForPrimaryRunningInstances" },
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Emily überprüft, ob alle Instances, die dem im
PrimaryPatchGroupTag-Parameter angegebenen Tag zugeordnet sind, gestartet wurden oder sich bereits in einemrunning-Zustand befinden. Dann verwendet sie ein anderes Skript, um zu überprüfen, ob alle Instances, einschließlich derjenigen, die in der vorherigen Aktion gestartet wurden, denrunning-Zustand erreicht haben.- YAML
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- name: waitForPrimaryRunningInstances action: 'aws:executeScript' timeoutSeconds: 300 onFailure: Abort inputs: Runtime: python3.7 Handler: waitForRunningInstances InputPayload: targetInstances: '{{getPrimaryInstanceState.originalInstanceStates}}' Script: |- def waitForRunningInstances(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') instanceDict = events['targetInstances'] for instance in instanceDict: poll = ec2.get_waiter('instance_running') poll.wait( InstanceIds=[instance] ) nextStep: returnPrimaryTagKey - JSON
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{ "name":"waitForPrimaryRunningInstances", "action":"aws:executeScript", "timeoutSeconds":300, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"waitForRunningInstances", "InputPayload":{ "targetInstances":"{{getPrimaryInstanceState.originalInstanceStates}}" }, "Script":"..." }, "nextStep":"returnPrimaryTagKey" },
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Emily verwendet zwei weitere Skripte, um einzelne
String-Werte des Schlüssels und des Werts des Tags zurückzugeben, das imPrimaryPatchGroupTag-Parameter angegeben ist. Die Werte, die von diesen Aktionen zurückgegeben werden, ermöglichen es ihr, Werte direkt für dieTargets-Parameter für dasAWS-RunPatchBaseline-Dokument bereitzustellen. Die Automatisierung schreitet dann mit dem Patchen der Instance mit demAWS-RunPatchBaseline-Dokument unter Verwendung deraws:runCommand-Aktion fort.- YAML
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- name: returnPrimaryTagKey action: 'aws:executeScript' timeoutSeconds: 120 onFailure: Abort inputs: Runtime: python3.7 Handler: returnTagValues InputPayload: primaryTag: '{{PrimaryPatchGroupTag}}' Script: |- def returnTagValues(events,context): tag = events['primaryTag'] tagKey = list(tag)[0] stringKey = "tag:" + tagKey return {'tagKey' : stringKey} outputs: - Name: Payload Selector: $.Payload Type: StringMap - Name: primaryPatchGroupKey Selector: $.Payload.tagKey Type: String nextStep: returnPrimaryTagValue - name: returnPrimaryTagValue action: 'aws:executeScript' timeoutSeconds: 120 onFailure: Abort inputs: Runtime: python3.7 Handler: returnTagValues InputPayload: primaryTag: '{{PrimaryPatchGroupTag}}' Script: |- def returnTagValues(events,context): tag = events['primaryTag'] tagKey = list(tag)[0] tagValue = tag[tagKey] return {'tagValue' : tagValue} outputs: - Name: Payload Selector: $.Payload Type: StringMap - Name: primaryPatchGroupValue Selector: $.Payload.tagValue Type: String nextStep: patchPrimaryInstances - name: patchPrimaryInstances action: 'aws:runCommand' onFailure: Abort timeoutSeconds: 7200 inputs: DocumentName: AWS-RunPatchBaseline Parameters: SnapshotId: '{{SnapshotId}}' RebootOption: '{{RebootOption}}' Operation: '{{Operation}}' Targets: - Key: '{{returnPrimaryTagKey.primaryPatchGroupKey}}' Values: - '{{returnPrimaryTagValue.primaryPatchGroupValue}}' MaxConcurrency: 10% MaxErrors: 10% nextStep: returnPrimaryToOriginalState - JSON
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{ "name":"returnPrimaryTagKey", "action":"aws:executeScript", "timeoutSeconds":120, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"returnTagValues", "InputPayload":{ "primaryTag":"{{PrimaryPatchGroupTag}}" }, "Script":"..." }, "outputs":[ { "Name":"Payload", "Selector":"$.Payload", "Type":"StringMap" }, { "Name":"primaryPatchGroupKey", "Selector":"$.Payload.tagKey", "Type":"String" } ], "nextStep":"returnPrimaryTagValue" }, { "name":"returnPrimaryTagValue", "action":"aws:executeScript", "timeoutSeconds":120, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"returnTagValues", "InputPayload":{ "primaryTag":"{{PrimaryPatchGroupTag}}" }, "Script":"..." }, "outputs":[ { "Name":"Payload", "Selector":"$.Payload", "Type":"StringMap" }, { "Name":"primaryPatchGroupValue", "Selector":"$.Payload.tagValue", "Type":"String" } ], "nextStep":"patchPrimaryInstances" }, { "name":"patchPrimaryInstances", "action":"aws:runCommand", "onFailure":"Abort", "timeoutSeconds":7200, "inputs":{ "DocumentName":"AWS-RunPatchBaseline", "Parameters":{ "SnapshotId":"{{SnapshotId}}", "RebootOption":"{{RebootOption}}", "Operation":"{{Operation}}" }, "Targets":[ { "Key":"{{returnPrimaryTagKey.primaryPatchGroupKey}}", "Values":[ "{{returnPrimaryTagValue.primaryPatchGroupValue}}" ] } ], "MaxConcurrency":"10%", "MaxErrors":"10%" }, "nextStep":"returnPrimaryToOriginalState" },
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Nach Abschluss des Patching-Voragngs möchte Emily, dass die Automatisierung die Ziel-Instances, die dem im
PrimaryPatchGroupTag-Parameter angegebenen Tag zugeordnet sind, in den Zustand zurückversetzt, in dem sie sich vor dem Automatisierungsstart befanden. Sie tut dies, indem sie erneut die Ausgabe der ersten Aktion in einem Skript verwendet. Basierend auf dem ursprünglichen Zustand der Ziel-Instance, wenn sich die Instance zuvor in einem anderen Zustand alsrunningbefand, wird die Instance angehalten. Wenn der Instance-Status bereitsrunningist, durchläuft das Skript weiterhin die verbleibenden Instances.- YAML
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- name: returnPrimaryToOriginalState action: 'aws:executeScript' timeoutSeconds: 600 onFailure: Abort inputs: Runtime: python3.7 Handler: returnToOriginalState InputPayload: targetInstances: '{{getPrimaryInstanceState.originalInstanceStates}}' Script: |- def returnToOriginalState(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') instanceDict = events['targetInstances'] for instance in instanceDict: if instanceDict[instance] == 'stopped' or instanceDict[instance] == 'stopping': ec2.stop_instances( InstanceIds=[instance] ) else: pass nextStep: getSecondaryInstanceState - JSON
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{ "name":"returnPrimaryToOriginalState", "action":"aws:executeScript", "timeoutSeconds":600, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"returnToOriginalState", "InputPayload":{ "targetInstances":"{{getPrimaryInstanceState.originalInstanceStates}}" }, "Script":"..." }, "nextStep":"getSecondaryInstanceState" },
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Der Patchvorgang wird für die Instances abgeschlossen, die mit dem Tag verknüpft sind, das im
PrimaryPatchGroupTag-Parameter angegeben ist. Jetzt dupliziert Emily alle vorherigen Aktionen in ihrem Runbook-Inhalt, um auf die Instances abzuzielen, die dem imSecondaryPatchGroupTag-Parameter angegebenen Tag zugeordnet sind.- YAML
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- name: getSecondaryInstanceState action: 'aws:executeScript' timeoutSeconds: 120 onFailure: Abort inputs: Runtime: python3.7 Handler: getInstanceStates InputPayload: secondaryTag: '{{SecondaryPatchGroupTag}}' Script: |- def getInstanceStates(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') tag = events['secondaryTag'] tagKey, tagValue = list(tag.items())[0] instanceQuery = ec2.describe_instances( Filters=[ { "Name": "tag:" + tagKey, "Values": [tagValue] }] ) if not instanceQuery['Reservations']: noInstancesForTagString = "No instances found for specified tag." return({ 'noInstancesFound' : noInstancesForTagString }) else: queryResponse = instanceQuery['Reservations'] originalInstanceStates = {} for results in queryResponse: instanceSet = results['Instances'] for instance in instanceSet: instanceId = instance['InstanceId'] originalInstanceStates[instanceId] = instance['State']['Name'] return originalInstanceStates outputs: - Name: originalInstanceStates Selector: $.Payload Type: StringMap nextStep: verifySecondaryInstancesRunning - name: verifySecondaryInstancesRunning action: 'aws:executeScript' timeoutSeconds: 600 onFailure: Abort inputs: Runtime: python3.7 Handler: verifyInstancesRunning InputPayload: targetInstances: '{{getSecondaryInstanceState.originalInstanceStates}}' Script: |- def verifyInstancesRunning(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') instanceDict = events['targetInstances'] for instance in instanceDict: if instanceDict[instance] == 'stopped': print("The target instance " + instance + " is stopped. The instance will now be started.") ec2.start_instances( InstanceIds=[instance] ) elif instanceDict[instance] == 'stopping': print("The target instance " + instance + " is stopping. Polling for instance to reach stopped state.") while instanceDict[instance] != 'stopped': poll = ec2.get_waiter('instance_stopped') poll.wait( InstanceIds=[instance] ) ec2.start_instances( InstanceIds=[instance] ) else: pass nextStep: waitForSecondaryRunningInstances - name: waitForSecondaryRunningInstances action: 'aws:executeScript' timeoutSeconds: 300 onFailure: Abort inputs: Runtime: python3.7 Handler: waitForRunningInstances InputPayload: targetInstances: '{{getSecondaryInstanceState.originalInstanceStates}}' Script: |- def waitForRunningInstances(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') instanceDict = events['targetInstances'] for instance in instanceDict: poll = ec2.get_waiter('instance_running') poll.wait( InstanceIds=[instance] ) nextStep: returnSecondaryTagKey - name: returnSecondaryTagKey action: 'aws:executeScript' timeoutSeconds: 120 onFailure: Abort inputs: Runtime: python3.7 Handler: returnTagValues InputPayload: secondaryTag: '{{SecondaryPatchGroupTag}}' Script: |- def returnTagValues(events,context): tag = events['secondaryTag'] tagKey = list(tag)[0] stringKey = "tag:" + tagKey return {'tagKey' : stringKey} outputs: - Name: Payload Selector: $.Payload Type: StringMap - Name: secondaryPatchGroupKey Selector: $.Payload.tagKey Type: String nextStep: returnSecondaryTagValue - name: returnSecondaryTagValue action: 'aws:executeScript' timeoutSeconds: 120 onFailure: Abort inputs: Runtime: python3.7 Handler: returnTagValues InputPayload: secondaryTag: '{{SecondaryPatchGroupTag}}' Script: |- def returnTagValues(events,context): tag = events['secondaryTag'] tagKey = list(tag)[0] tagValue = tag[tagKey] return {'tagValue' : tagValue} outputs: - Name: Payload Selector: $.Payload Type: StringMap - Name: secondaryPatchGroupValue Selector: $.Payload.tagValue Type: String nextStep: patchSecondaryInstances - name: patchSecondaryInstances action: 'aws:runCommand' onFailure: Abort timeoutSeconds: 7200 inputs: DocumentName: AWS-RunPatchBaseline Parameters: SnapshotId: '{{SnapshotId}}' RebootOption: '{{RebootOption}}' Operation: '{{Operation}}' Targets: - Key: '{{returnSecondaryTagKey.secondaryPatchGroupKey}}' Values: - '{{returnSecondaryTagValue.secondaryPatchGroupValue}}' MaxConcurrency: 10% MaxErrors: 10% nextStep: returnSecondaryToOriginalState - name: returnSecondaryToOriginalState action: 'aws:executeScript' timeoutSeconds: 600 onFailure: Abort inputs: Runtime: python3.7 Handler: returnToOriginalState InputPayload: targetInstances: '{{getSecondaryInstanceState.originalInstanceStates}}' Script: |- def returnToOriginalState(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') instanceDict = events['targetInstances'] for instance in instanceDict: if instanceDict[instance] == 'stopped' or instanceDict[instance] == 'stopping': ec2.stop_instances( InstanceIds=[instance] ) else: pass - JSON
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{ "name":"getSecondaryInstanceState", "action":"aws:executeScript", "timeoutSeconds":120, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"getInstanceStates", "InputPayload":{ "secondaryTag":"{{SecondaryPatchGroupTag}}" }, "Script":"..." }, "outputs":[ { "Name":"originalInstanceStates", "Selector":"$.Payload", "Type":"StringMap" } ], "nextStep":"verifySecondaryInstancesRunning" }, { "name":"verifySecondaryInstancesRunning", "action":"aws:executeScript", "timeoutSeconds":600, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"verifyInstancesRunning", "InputPayload":{ "targetInstances":"{{getSecondaryInstanceState.originalInstanceStates}}" }, "Script":"..." }, "nextStep":"waitForSecondaryRunningInstances" }, { "name":"waitForSecondaryRunningInstances", "action":"aws:executeScript", "timeoutSeconds":300, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"waitForRunningInstances", "InputPayload":{ "targetInstances":"{{getSecondaryInstanceState.originalInstanceStates}}" }, "Script":"..." }, "nextStep":"returnSecondaryTagKey" }, { "name":"returnSecondaryTagKey", "action":"aws:executeScript", "timeoutSeconds":120, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"returnTagValues", "InputPayload":{ "secondaryTag":"{{SecondaryPatchGroupTag}}" }, "Script":"..." }, "outputs":[ { "Name":"Payload", "Selector":"$.Payload", "Type":"StringMap" }, { "Name":"secondaryPatchGroupKey", "Selector":"$.Payload.tagKey", "Type":"String" } ], "nextStep":"returnSecondaryTagValue" }, { "name":"returnSecondaryTagValue", "action":"aws:executeScript", "timeoutSeconds":120, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"returnTagValues", "InputPayload":{ "secondaryTag":"{{SecondaryPatchGroupTag}}" }, "Script":"..." }, "outputs":[ { "Name":"Payload", "Selector":"$.Payload", "Type":"StringMap" }, { "Name":"secondaryPatchGroupValue", "Selector":"$.Payload.tagValue", "Type":"String" } ], "nextStep":"patchSecondaryInstances" }, { "name":"patchSecondaryInstances", "action":"aws:runCommand", "onFailure":"Abort", "timeoutSeconds":7200, "inputs":{ "DocumentName":"AWS-RunPatchBaseline", "Parameters":{ "SnapshotId":"{{SnapshotId}}", "RebootOption":"{{RebootOption}}", "Operation":"{{Operation}}" }, "Targets":[ { "Key":"{{returnSecondaryTagKey.secondaryPatchGroupKey}}", "Values":[ "{{returnSecondaryTagValue.secondaryPatchGroupValue}}" ] } ], "MaxConcurrency":"10%", "MaxErrors":"10%" }, "nextStep":"returnSecondaryToOriginalState" }, { "name":"returnSecondaryToOriginalState", "action":"aws:executeScript", "timeoutSeconds":600, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"returnToOriginalState", "InputPayload":{ "targetInstances":"{{getSecondaryInstanceState.originalInstanceStates}}" }, "Script":"..." } } ] }
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Emily überprüft den abgeschlossenen geskripteten Runbook-Inhalt und erstellt das Runbook im selben AWS-Konto und der selben AWS-Region als Ziel-Instances. Jetzt ist sie bereit, ihr Runbook zu testen, um sicherzustellen, dass die Automatisierung wie gewünscht funktioniert, bevor es in ihre Produktionsumgebung implementiert wird. Im Folgenden finden Sie den vollständigen geskripteten Runbook-Inhalt.
- YAML
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description: An example of an Automation runbook that patches groups of Amazon EC2 instances in stages. schemaVersion: '0.3' assumeRole: '{{AutomationAssumeRole}}' parameters: AutomationAssumeRole: type: String description: '(Required) The Amazon Resource Name (ARN) of the IAM role that allows Automation to perform the actions on your behalf. If no role is specified, Systems Manager Automation uses your IAM permissions to operate this runbook.' PrimaryPatchGroupTag: type: StringMap description: '(Required) The tag for the primary group of instances you want to patch. Specify a key-value pair. Example: {"key" : "value"}' SecondaryPatchGroupTag: type: StringMap description: '(Required) The tag for the secondary group of instances you want to patch. Specify a key-value pair. Example: {"key" : "value"}' SnapshotId: type: String description: '(Optional) The snapshot ID to use to retrieve a patch baseline snapshot.' default: '' RebootOption: type: String description: '(Optional) Reboot behavior after a patch Install operation. If you choose NoReboot and patches are installed, the instance is marked as non-compliant until a subsequent reboot and scan.' allowedValues: - NoReboot - RebootIfNeeded default: RebootIfNeeded Operation: type: String description: '(Optional) The update or configuration to perform on the instance. The system checks if patches specified in the patch baseline are installed on the instance. The install operation installs patches missing from the baseline.' allowedValues: - Install - Scan default: Install mainSteps: - name: getPrimaryInstanceState action: 'aws:executeScript' timeoutSeconds: 120 onFailure: Abort inputs: Runtime: python3.7 Handler: getInstanceStates InputPayload: primaryTag: '{{PrimaryPatchGroupTag}}' Script: |- def getInstanceStates(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') tag = events['primaryTag'] tagKey, tagValue = list(tag.items())[0] instanceQuery = ec2.describe_instances( Filters=[ { "Name": "tag:" + tagKey, "Values": [tagValue] }] ) if not instanceQuery['Reservations']: noInstancesForTagString = "No instances found for specified tag." return({ 'noInstancesFound' : noInstancesForTagString }) else: queryResponse = instanceQuery['Reservations'] originalInstanceStates = {} for results in queryResponse: instanceSet = results['Instances'] for instance in instanceSet: instanceId = instance['InstanceId'] originalInstanceStates[instanceId] = instance['State']['Name'] return originalInstanceStates outputs: - Name: originalInstanceStates Selector: $.Payload Type: StringMap nextStep: verifyPrimaryInstancesRunning - name: verifyPrimaryInstancesRunning action: 'aws:executeScript' timeoutSeconds: 600 onFailure: Abort inputs: Runtime: python3.7 Handler: verifyInstancesRunning InputPayload: targetInstances: '{{getPrimaryInstanceState.originalInstanceStates}}' Script: |- def verifyInstancesRunning(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') instanceDict = events['targetInstances'] for instance in instanceDict: if instanceDict[instance] == 'stopped': print("The target instance " + instance + " is stopped. The instance will now be started.") ec2.start_instances( InstanceIds=[instance] ) elif instanceDict[instance] == 'stopping': print("The target instance " + instance + " is stopping. Polling for instance to reach stopped state.") while instanceDict[instance] != 'stopped': poll = ec2.get_waiter('instance_stopped') poll.wait( InstanceIds=[instance] ) ec2.start_instances( InstanceIds=[instance] ) else: pass nextStep: waitForPrimaryRunningInstances - name: waitForPrimaryRunningInstances action: 'aws:executeScript' timeoutSeconds: 300 onFailure: Abort inputs: Runtime: python3.7 Handler: waitForRunningInstances InputPayload: targetInstances: '{{getPrimaryInstanceState.originalInstanceStates}}' Script: |- def waitForRunningInstances(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') instanceDict = events['targetInstances'] for instance in instanceDict: poll = ec2.get_waiter('instance_running') poll.wait( InstanceIds=[instance] ) nextStep: returnPrimaryTagKey - name: returnPrimaryTagKey action: 'aws:executeScript' timeoutSeconds: 120 onFailure: Abort inputs: Runtime: python3.7 Handler: returnTagValues InputPayload: primaryTag: '{{PrimaryPatchGroupTag}}' Script: |- def returnTagValues(events,context): tag = events['primaryTag'] tagKey = list(tag)[0] stringKey = "tag:" + tagKey return {'tagKey' : stringKey} outputs: - Name: Payload Selector: $.Payload Type: StringMap - Name: primaryPatchGroupKey Selector: $.Payload.tagKey Type: String nextStep: returnPrimaryTagValue - name: returnPrimaryTagValue action: 'aws:executeScript' timeoutSeconds: 120 onFailure: Abort inputs: Runtime: python3.7 Handler: returnTagValues InputPayload: primaryTag: '{{PrimaryPatchGroupTag}}' Script: |- def returnTagValues(events,context): tag = events['primaryTag'] tagKey = list(tag)[0] tagValue = tag[tagKey] return {'tagValue' : tagValue} outputs: - Name: Payload Selector: $.Payload Type: StringMap - Name: primaryPatchGroupValue Selector: $.Payload.tagValue Type: String nextStep: patchPrimaryInstances - name: patchPrimaryInstances action: 'aws:runCommand' onFailure: Abort timeoutSeconds: 7200 inputs: DocumentName: AWS-RunPatchBaseline Parameters: SnapshotId: '{{SnapshotId}}' RebootOption: '{{RebootOption}}' Operation: '{{Operation}}' Targets: - Key: '{{returnPrimaryTagKey.primaryPatchGroupKey}}' Values: - '{{returnPrimaryTagValue.primaryPatchGroupValue}}' MaxConcurrency: 10% MaxErrors: 10% nextStep: returnPrimaryToOriginalState - name: returnPrimaryToOriginalState action: 'aws:executeScript' timeoutSeconds: 600 onFailure: Abort inputs: Runtime: python3.7 Handler: returnToOriginalState InputPayload: targetInstances: '{{getPrimaryInstanceState.originalInstanceStates}}' Script: |- def returnToOriginalState(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') instanceDict = events['targetInstances'] for instance in instanceDict: if instanceDict[instance] == 'stopped' or instanceDict[instance] == 'stopping': ec2.stop_instances( InstanceIds=[instance] ) else: pass nextStep: getSecondaryInstanceState - name: getSecondaryInstanceState action: 'aws:executeScript' timeoutSeconds: 120 onFailure: Abort inputs: Runtime: python3.7 Handler: getInstanceStates InputPayload: secondaryTag: '{{SecondaryPatchGroupTag}}' Script: |- def getInstanceStates(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') tag = events['secondaryTag'] tagKey, tagValue = list(tag.items())[0] instanceQuery = ec2.describe_instances( Filters=[ { "Name": "tag:" + tagKey, "Values": [tagValue] }] ) if not instanceQuery['Reservations']: noInstancesForTagString = "No instances found for specified tag." return({ 'noInstancesFound' : noInstancesForTagString }) else: queryResponse = instanceQuery['Reservations'] originalInstanceStates = {} for results in queryResponse: instanceSet = results['Instances'] for instance in instanceSet: instanceId = instance['InstanceId'] originalInstanceStates[instanceId] = instance['State']['Name'] return originalInstanceStates outputs: - Name: originalInstanceStates Selector: $.Payload Type: StringMap nextStep: verifySecondaryInstancesRunning - name: verifySecondaryInstancesRunning action: 'aws:executeScript' timeoutSeconds: 600 onFailure: Abort inputs: Runtime: python3.7 Handler: verifyInstancesRunning InputPayload: targetInstances: '{{getSecondaryInstanceState.originalInstanceStates}}' Script: |- def verifyInstancesRunning(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') instanceDict = events['targetInstances'] for instance in instanceDict: if instanceDict[instance] == 'stopped': print("The target instance " + instance + " is stopped. The instance will now be started.") ec2.start_instances( InstanceIds=[instance] ) elif instanceDict[instance] == 'stopping': print("The target instance " + instance + " is stopping. Polling for instance to reach stopped state.") while instanceDict[instance] != 'stopped': poll = ec2.get_waiter('instance_stopped') poll.wait( InstanceIds=[instance] ) ec2.start_instances( InstanceIds=[instance] ) else: pass nextStep: waitForSecondaryRunningInstances - name: waitForSecondaryRunningInstances action: 'aws:executeScript' timeoutSeconds: 300 onFailure: Abort inputs: Runtime: python3.7 Handler: waitForRunningInstances InputPayload: targetInstances: '{{getSecondaryInstanceState.originalInstanceStates}}' Script: |- def waitForRunningInstances(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') instanceDict = events['targetInstances'] for instance in instanceDict: poll = ec2.get_waiter('instance_running') poll.wait( InstanceIds=[instance] ) nextStep: returnSecondaryTagKey - name: returnSecondaryTagKey action: 'aws:executeScript' timeoutSeconds: 120 onFailure: Abort inputs: Runtime: python3.7 Handler: returnTagValues InputPayload: secondaryTag: '{{SecondaryPatchGroupTag}}' Script: |- def returnTagValues(events,context): tag = events['secondaryTag'] tagKey = list(tag)[0] stringKey = "tag:" + tagKey return {'tagKey' : stringKey} outputs: - Name: Payload Selector: $.Payload Type: StringMap - Name: secondaryPatchGroupKey Selector: $.Payload.tagKey Type: String nextStep: returnSecondaryTagValue - name: returnSecondaryTagValue action: 'aws:executeScript' timeoutSeconds: 120 onFailure: Abort inputs: Runtime: python3.7 Handler: returnTagValues InputPayload: secondaryTag: '{{SecondaryPatchGroupTag}}' Script: |- def returnTagValues(events,context): tag = events['secondaryTag'] tagKey = list(tag)[0] tagValue = tag[tagKey] return {'tagValue' : tagValue} outputs: - Name: Payload Selector: $.Payload Type: StringMap - Name: secondaryPatchGroupValue Selector: $.Payload.tagValue Type: String nextStep: patchSecondaryInstances - name: patchSecondaryInstances action: 'aws:runCommand' onFailure: Abort timeoutSeconds: 7200 inputs: DocumentName: AWS-RunPatchBaseline Parameters: SnapshotId: '{{SnapshotId}}' RebootOption: '{{RebootOption}}' Operation: '{{Operation}}' Targets: - Key: '{{returnSecondaryTagKey.secondaryPatchGroupKey}}' Values: - '{{returnSecondaryTagValue.secondaryPatchGroupValue}}' MaxConcurrency: 10% MaxErrors: 10% nextStep: returnSecondaryToOriginalState - name: returnSecondaryToOriginalState action: 'aws:executeScript' timeoutSeconds: 600 onFailure: Abort inputs: Runtime: python3.7 Handler: returnToOriginalState InputPayload: targetInstances: '{{getSecondaryInstanceState.originalInstanceStates}}' Script: |- def returnToOriginalState(events,context): import boto3 #Initialize client ec2 = boto3.client('ec2') instanceDict = events['targetInstances'] for instance in instanceDict: if instanceDict[instance] == 'stopped' or instanceDict[instance] == 'stopping': ec2.stop_instances( InstanceIds=[instance] ) else: pass - JSON
-
{ "description":"An example of an Automation runbook that patches groups of Amazon EC2 instances in stages.", "schemaVersion":"0.3", "assumeRole":"{{AutomationAssumeRole}}", "parameters":{ "AutomationAssumeRole":{ "type":"String", "description":"(Required) The Amazon Resource Name (ARN) of the IAM role that allows Automation to perform the actions on your behalf. If no role is specified, Systems Manager Automation uses your IAM permissions to operate this runbook." }, "PrimaryPatchGroupTag":{ "type":"StringMap", "description":"(Required) The tag for the primary group of instances you want to patch. Specify a key-value pair. Example: {\"key\" : \"value\"}" }, "SecondaryPatchGroupTag":{ "type":"StringMap", "description":"(Required) The tag for the secondary group of instances you want to patch. Specify a key-value pair. Example: {\"key\" : \"value\"}" }, "SnapshotId":{ "type":"String", "description":"(Optional) The snapshot ID to use to retrieve a patch baseline snapshot.", "default":"" }, "RebootOption":{ "type":"String", "description":"(Optional) Reboot behavior after a patch Install operation. If you choose NoReboot and patches are installed, the instance is marked as non-compliant until a subsequent reboot and scan.", "allowedValues":[ "NoReboot", "RebootIfNeeded" ], "default":"RebootIfNeeded" }, "Operation":{ "type":"String", "description":"(Optional) The update or configuration to perform on the instance. The system checks if patches specified in the patch baseline are installed on the instance. The install operation installs patches missing from the baseline.", "allowedValues":[ "Install", "Scan" ], "default":"Install" } }, "mainSteps":[ { "name":"getPrimaryInstanceState", "action":"aws:executeScript", "timeoutSeconds":120, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"getInstanceStates", "InputPayload":{ "primaryTag":"{{PrimaryPatchGroupTag}}" }, "Script":"..." }, "outputs":[ { "Name":"originalInstanceStates", "Selector":"$.Payload", "Type":"StringMap" } ], "nextStep":"verifyPrimaryInstancesRunning" }, { "name":"verifyPrimaryInstancesRunning", "action":"aws:executeScript", "timeoutSeconds":600, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"verifyInstancesRunning", "InputPayload":{ "targetInstances":"{{getPrimaryInstanceState.originalInstanceStates}}" }, "Script":"..." }, "nextStep":"waitForPrimaryRunningInstances" }, { "name":"waitForPrimaryRunningInstances", "action":"aws:executeScript", "timeoutSeconds":300, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"waitForRunningInstances", "InputPayload":{ "targetInstances":"{{getPrimaryInstanceState.originalInstanceStates}}" }, "Script":"..." }, "nextStep":"returnPrimaryTagKey" }, { "name":"returnPrimaryTagKey", "action":"aws:executeScript", "timeoutSeconds":120, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"returnTagValues", "InputPayload":{ "primaryTag":"{{PrimaryPatchGroupTag}}" }, "Script":"..." }, "outputs":[ { "Name":"Payload", "Selector":"$.Payload", "Type":"StringMap" }, { "Name":"primaryPatchGroupKey", "Selector":"$.Payload.tagKey", "Type":"String" } ], "nextStep":"returnPrimaryTagValue" }, { "name":"returnPrimaryTagValue", "action":"aws:executeScript", "timeoutSeconds":120, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"returnTagValues", "InputPayload":{ "primaryTag":"{{PrimaryPatchGroupTag}}" }, "Script":"..." }, "outputs":[ { "Name":"Payload", "Selector":"$.Payload", "Type":"StringMap" }, { "Name":"primaryPatchGroupValue", "Selector":"$.Payload.tagValue", "Type":"String" } ], "nextStep":"patchPrimaryInstances" }, { "name":"patchPrimaryInstances", "action":"aws:runCommand", "onFailure":"Abort", "timeoutSeconds":7200, "inputs":{ "DocumentName":"AWS-RunPatchBaseline", "Parameters":{ "SnapshotId":"{{SnapshotId}}", "RebootOption":"{{RebootOption}}", "Operation":"{{Operation}}" }, "Targets":[ { "Key":"{{returnPrimaryTagKey.primaryPatchGroupKey}}", "Values":[ "{{returnPrimaryTagValue.primaryPatchGroupValue}}" ] } ], "MaxConcurrency":"10%", "MaxErrors":"10%" }, "nextStep":"returnPrimaryToOriginalState" }, { "name":"returnPrimaryToOriginalState", "action":"aws:executeScript", "timeoutSeconds":600, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"returnToOriginalState", "InputPayload":{ "targetInstances":"{{getPrimaryInstanceState.originalInstanceStates}}" }, "Script":"..." }, "nextStep":"getSecondaryInstanceState" }, { "name":"getSecondaryInstanceState", "action":"aws:executeScript", "timeoutSeconds":120, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"getInstanceStates", "InputPayload":{ "secondaryTag":"{{SecondaryPatchGroupTag}}" }, "Script":"..." }, "outputs":[ { "Name":"originalInstanceStates", "Selector":"$.Payload", "Type":"StringMap" } ], "nextStep":"verifySecondaryInstancesRunning" }, { "name":"verifySecondaryInstancesRunning", "action":"aws:executeScript", "timeoutSeconds":600, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"verifyInstancesRunning", "InputPayload":{ "targetInstances":"{{getSecondaryInstanceState.originalInstanceStates}}" }, "Script":"..." }, "nextStep":"waitForSecondaryRunningInstances" }, { "name":"waitForSecondaryRunningInstances", "action":"aws:executeScript", "timeoutSeconds":300, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"waitForRunningInstances", "InputPayload":{ "targetInstances":"{{getSecondaryInstanceState.originalInstanceStates}}" }, "Script":"..." }, "nextStep":"returnSecondaryTagKey" }, { "name":"returnSecondaryTagKey", "action":"aws:executeScript", "timeoutSeconds":120, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"returnTagValues", "InputPayload":{ "secondaryTag":"{{SecondaryPatchGroupTag}}" }, "Script":"..." }, "outputs":[ { "Name":"Payload", "Selector":"$.Payload", "Type":"StringMap" }, { "Name":"secondaryPatchGroupKey", "Selector":"$.Payload.tagKey", "Type":"String" } ], "nextStep":"returnSecondaryTagValue" }, { "name":"returnSecondaryTagValue", "action":"aws:executeScript", "timeoutSeconds":120, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"returnTagValues", "InputPayload":{ "secondaryTag":"{{SecondaryPatchGroupTag}}" }, "Script":"..." }, "outputs":[ { "Name":"Payload", "Selector":"$.Payload", "Type":"StringMap" }, { "Name":"secondaryPatchGroupValue", "Selector":"$.Payload.tagValue", "Type":"String" } ], "nextStep":"patchSecondaryInstances" }, { "name":"patchSecondaryInstances", "action":"aws:runCommand", "onFailure":"Abort", "timeoutSeconds":7200, "inputs":{ "DocumentName":"AWS-RunPatchBaseline", "Parameters":{ "SnapshotId":"{{SnapshotId}}", "RebootOption":"{{RebootOption}}", "Operation":"{{Operation}}" }, "Targets":[ { "Key":"{{returnSecondaryTagKey.secondaryPatchGroupKey}}", "Values":[ "{{returnSecondaryTagValue.secondaryPatchGroupValue}}" ] } ], "MaxConcurrency":"10%", "MaxErrors":"10%" }, "nextStep":"returnSecondaryToOriginalState" }, { "name":"returnSecondaryToOriginalState", "action":"aws:executeScript", "timeoutSeconds":600, "onFailure":"Abort", "inputs":{ "Runtime":"python3.7", "Handler":"returnToOriginalState", "InputPayload":{ "targetInstances":"{{getSecondaryInstanceState.originalInstanceStates}}" }, "Script":"..." } } ] }
Weitere Informationen zu den hier verwendeten Automation-Aktionen finden Sie unter Systems Manager Automation Aktionen-Referenz.
Beispiel 1: Erstellen von über- und untergeordneten Runbooks
Weitere Runbook-Beispiele