func ExampleECS_SubmitContainerStateChange() {
svc := ecs.New(session.New())
params := &ecs.SubmitContainerStateChangeInput{
Cluster: aws.String("String"),
ContainerName: aws.String("String"),
ExitCode: aws.Int64(1),
NetworkBindings: []*ecs.NetworkBinding{
{ // Required
BindIP: aws.String("String"),
ContainerPort: aws.Int64(1),
HostPort: aws.Int64(1),
Protocol: aws.String("TransportProtocol"),
},
// More values...
},
Reason: aws.String("String"),
Status: aws.String("String"),
Task: aws.String("String"),
}
resp, err := svc.SubmitContainerStateChange(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ExampleLambda_CreateFunction() {
svc := lambda.New(session.New())
params := &lambda.CreateFunctionInput{
Code: &lambda.FunctionCode{ // Required
S3Bucket: aws.String("S3Bucket"),
S3Key: aws.String("S3Key"),
S3ObjectVersion: aws.String("S3ObjectVersion"),
ZipFile: []byte("PAYLOAD"),
},
FunctionName: aws.String("FunctionName"), // Required
Handler: aws.String("Handler"), // Required
Role: aws.String("RoleArn"), // Required
Runtime: aws.String("Runtime"), // Required
Description: aws.String("Description"),
MemorySize: aws.Int64(1),
Publish: aws.Bool(true),
Timeout: aws.Int64(1),
}
resp, err := svc.CreateFunction(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ExampleECS_CreateService() {
svc := ecs.New(session.New())
params := &ecs.CreateServiceInput{
DesiredCount: aws.Int64(1), // Required
ServiceName: aws.String("String"), // Required
TaskDefinition: aws.String("String"), // Required
ClientToken: aws.String("String"),
Cluster: aws.String("String"),
DeploymentConfiguration: &ecs.DeploymentConfiguration{
MaximumPercent: aws.Int64(1),
MinimumHealthyPercent: aws.Int64(1),
},
LoadBalancers: []*ecs.LoadBalancer{
{ // Required
ContainerName: aws.String("String"),
ContainerPort: aws.Int64(1),
LoadBalancerName: aws.String("String"),
},
// More values...
},
Role: aws.String("String"),
}
resp, err := svc.CreateService(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ExampleELB_CreateLoadBalancerListeners() {
svc := elb.New(session.New())
params := &elb.CreateLoadBalancerListenersInput{
Listeners: []*elb.Listener{ // Required
{ // Required
InstancePort: aws.Int64(1), // Required
LoadBalancerPort: aws.Int64(1), // Required
Protocol: aws.String("Protocol"), // Required
InstanceProtocol: aws.String("Protocol"),
SSLCertificateId: aws.String("SSLCertificateId"),
},
// More values...
},
LoadBalancerName: aws.String("AccessPointName"), // Required
}
resp, err := svc.CreateLoadBalancerListeners(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ExampleELB_ConfigureHealthCheck() {
svc := elb.New(session.New())
params := &elb.ConfigureHealthCheckInput{
HealthCheck: &elb.HealthCheck{ // Required
HealthyThreshold: aws.Int64(1), // Required
Interval: aws.Int64(1), // Required
Target: aws.String("HealthCheckTarget"), // Required
Timeout: aws.Int64(1), // Required
UnhealthyThreshold: aws.Int64(1), // Required
},
LoadBalancerName: aws.String("AccessPointName"), // Required
}
resp, err := svc.ConfigureHealthCheck(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ExampleSQS_ReceiveMessage() {
svc := sqs.New(session.New())
params := &sqs.ReceiveMessageInput{
QueueUrl: aws.String("String"), // Required
AttributeNames: []*string{
aws.String("QueueAttributeName"), // Required
// More values...
},
MaxNumberOfMessages: aws.Int64(1),
MessageAttributeNames: []*string{
aws.String("MessageAttributeName"), // Required
// More values...
},
VisibilityTimeout: aws.Int64(1),
WaitTimeSeconds: aws.Int64(1),
}
resp, err := svc.ReceiveMessage(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ExampleCloudWatchLogs_FilterLogEvents() {
svc := cloudwatchlogs.New(session.New())
params := &cloudwatchlogs.FilterLogEventsInput{
LogGroupName: aws.String("LogGroupName"), // Required
EndTime: aws.Int64(1),
FilterPattern: aws.String("FilterPattern"),
Interleaved: aws.Bool(true),
Limit: aws.Int64(1),
LogStreamNames: []*string{
aws.String("LogStreamName"), // Required
// More values...
},
NextToken: aws.String("NextToken"),
StartTime: aws.Int64(1),
}
resp, err := svc.FilterLogEvents(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ExampleAutoScaling_PutScheduledUpdateGroupAction() {
svc := autoscaling.New(session.New())
params := &autoscaling.PutScheduledUpdateGroupActionInput{
AutoScalingGroupName: aws.String("ResourceName"), // Required
ScheduledActionName: aws.String("XmlStringMaxLen255"), // Required
DesiredCapacity: aws.Int64(1),
EndTime: aws.Time(time.Now()),
MaxSize: aws.Int64(1),
MinSize: aws.Int64(1),
Recurrence: aws.String("XmlStringMaxLen255"),
StartTime: aws.Time(time.Now()),
Time: aws.Time(time.Now()),
}
resp, err := svc.PutScheduledUpdateGroupAction(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func dequeueMessage() ([]Message, error) {
req := &sqs.ReceiveMessageInput{
MaxNumberOfMessages: aws.Int64(10),
QueueUrl: aws.String(MessageQueueUrl),
WaitTimeSeconds: aws.Int64(10),
}
res, err := SQS().ReceiveMessage(req)
if err != nil {
return nil, err
}
messages := make([]Message, len(res.Messages))
var message Message
for i, m := range res.Messages {
err = json.Unmarshal([]byte(*m.Body), &message)
if err != nil {
return nil, err
}
message.MessageID = m.MessageId
message.ReceiptHandle = m.ReceiptHandle
messages[i] = message
}
return messages, nil
}
func ExampleECS_UpdateService() {
svc := ecs.New(session.New())
params := &ecs.UpdateServiceInput{
Service: aws.String("String"), // Required
Cluster: aws.String("String"),
DeploymentConfiguration: &ecs.DeploymentConfiguration{
MaximumPercent: aws.Int64(1),
MinimumHealthyPercent: aws.Int64(1),
},
DesiredCount: aws.Int64(1),
TaskDefinition: aws.String("String"),
}
resp, err := svc.UpdateService(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ExampleS3_UploadPart() {
svc := s3.New(session.New())
params := &s3.UploadPartInput{
Bucket: aws.String("BucketName"), // Required
Key: aws.String("ObjectKey"), // Required
PartNumber: aws.Int64(1), // Required
UploadId: aws.String("MultipartUploadId"), // Required
Body: bytes.NewReader([]byte("PAYLOAD")),
ContentLength: aws.Int64(1),
RequestPayer: aws.String("RequestPayer"),
SSECustomerAlgorithm: aws.String("SSECustomerAlgorithm"),
SSECustomerKey: aws.String("SSECustomerKey"),
SSECustomerKeyMD5: aws.String("SSECustomerKeyMD5"),
}
resp, err := svc.UploadPart(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ExampleAutoScaling_CreateLaunchConfiguration() {
svc := autoscaling.New(session.New())
params := &autoscaling.CreateLaunchConfigurationInput{
LaunchConfigurationName: aws.String("XmlStringMaxLen255"), // Required
AssociatePublicIpAddress: aws.Bool(true),
BlockDeviceMappings: []*autoscaling.BlockDeviceMapping{
{ // Required
DeviceName: aws.String("XmlStringMaxLen255"), // Required
Ebs: &autoscaling.Ebs{
DeleteOnTermination: aws.Bool(true),
Encrypted: aws.Bool(true),
Iops: aws.Int64(1),
SnapshotId: aws.String("XmlStringMaxLen255"),
VolumeSize: aws.Int64(1),
VolumeType: aws.String("BlockDeviceEbsVolumeType"),
},
NoDevice: aws.Bool(true),
VirtualName: aws.String("XmlStringMaxLen255"),
},
// More values...
},
ClassicLinkVPCId: aws.String("XmlStringMaxLen255"),
ClassicLinkVPCSecurityGroups: []*string{
aws.String("XmlStringMaxLen255"), // Required
// More values...
},
EbsOptimized: aws.Bool(true),
IamInstanceProfile: aws.String("XmlStringMaxLen1600"),
ImageId: aws.String("XmlStringMaxLen255"),
InstanceId: aws.String("XmlStringMaxLen19"),
InstanceMonitoring: &autoscaling.InstanceMonitoring{
Enabled: aws.Bool(true),
},
InstanceType: aws.String("XmlStringMaxLen255"),
KernelId: aws.String("XmlStringMaxLen255"),
KeyName: aws.String("XmlStringMaxLen255"),
PlacementTenancy: aws.String("XmlStringMaxLen64"),
RamdiskId: aws.String("XmlStringMaxLen255"),
SecurityGroups: []*string{
aws.String("XmlString"), // Required
// More values...
},
SpotPrice: aws.String("SpotPrice"),
UserData: aws.String("XmlStringUserData"),
}
resp, err := svc.CreateLaunchConfiguration(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ECSServiceCreate(req Request) (string, map[string]string, error) {
count, err := strconv.Atoi(req.ResourceProperties["DesiredCount"].(string))
if err != nil {
return "invalid", nil, err
}
r := &ecs.CreateServiceInput{
Cluster: aws.String(req.ResourceProperties["Cluster"].(string)),
DesiredCount: aws.Int64(int64(count)),
ServiceName: aws.String(req.ResourceProperties["Name"].(string) + "-" + generateId("S", 10)),
TaskDefinition: aws.String(req.ResourceProperties["TaskDefinition"].(string)),
}
balancers := req.ResourceProperties["LoadBalancers"].([]interface{})
if len(balancers) > 0 {
r.Role = aws.String(req.ResourceProperties["Role"].(string))
}
for _, balancer := range balancers {
parts := strings.SplitN(balancer.(string), ":", 3)
if len(parts) != 3 {
return "invalid", nil, fmt.Errorf("invalid load balancer specification: %s", balancer.(string))
}
name := parts[0]
ps := parts[1]
port, _ := strconv.Atoi(parts[2])
r.LoadBalancers = append(r.LoadBalancers, &ecs.LoadBalancer{
LoadBalancerName: aws.String(name),
ContainerName: aws.String(ps),
ContainerPort: aws.Int64(int64(port)),
})
// Despite the ECS Create Service API docs, you can only specify a single load balancer name and port. Specifying more than one results in
// Failed to update resource. InvalidParameterException: load balancers can have at most 1 items. status code: 400, request id: 0839710e-9227-11e5-8a2f-015e938a7aea
// https://github.com/aws/aws-cli/issues/1362
// Therefore break after adding the first load balancer mapping to the CreateServiceInput
break
}
res, err := ECS(req).CreateService(r)
if err != nil {
return "invalid", nil, err
}
return *res.Service.ServiceArn, nil, nil
}
func ExampleAutoScaling_CreateAutoScalingGroup() {
svc := autoscaling.New(session.New())
params := &autoscaling.CreateAutoScalingGroupInput{
AutoScalingGroupName: aws.String("XmlStringMaxLen255"), // Required
MaxSize: aws.Int64(1), // Required
MinSize: aws.Int64(1), // Required
AvailabilityZones: []*string{
aws.String("XmlStringMaxLen255"), // Required
// More values...
},
DefaultCooldown: aws.Int64(1),
DesiredCapacity: aws.Int64(1),
HealthCheckGracePeriod: aws.Int64(1),
HealthCheckType: aws.String("XmlStringMaxLen32"),
InstanceId: aws.String("XmlStringMaxLen19"),
LaunchConfigurationName: aws.String("ResourceName"),
LoadBalancerNames: []*string{
aws.String("XmlStringMaxLen255"), // Required
// More values...
},
NewInstancesProtectedFromScaleIn: aws.Bool(true),
PlacementGroup: aws.String("XmlStringMaxLen255"),
Tags: []*autoscaling.Tag{
{ // Required
Key: aws.String("TagKey"), // Required
PropagateAtLaunch: aws.Bool(true),
ResourceId: aws.String("XmlString"),
ResourceType: aws.String("XmlString"),
Value: aws.String("TagValue"),
},
// More values...
},
TerminationPolicies: []*string{
aws.String("XmlStringMaxLen1600"), // Required
// More values...
},
VPCZoneIdentifier: aws.String("XmlStringMaxLen255"),
}
resp, err := svc.CreateAutoScalingGroup(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ECSServiceUpdate(req Request) (string, map[string]string, error) {
count, _ := strconv.Atoi(req.ResourceProperties["DesiredCount"].(string))
// arn:aws:ecs:us-east-1:922560784203:service/sinatra-SZXTRXEMYEY
parts := strings.Split(req.PhysicalResourceId, "/")
name := parts[1]
replace, err := ECSServiceReplacementRequired(req)
if err != nil {
return req.PhysicalResourceId, nil, err
}
if replace {
return ECSServiceCreate(req)
}
r := &ecs.UpdateServiceInput{
Cluster: aws.String(req.ResourceProperties["Cluster"].(string)),
Service: aws.String(name),
DesiredCount: aws.Int64(int64(count)),
TaskDefinition: aws.String(req.ResourceProperties["TaskDefinition"].(string)),
}
if req.ResourceProperties["DeploymentMinimumPercent"] != nil && req.ResourceProperties["DeploymentMaximumPercent"] != nil {
min, err := strconv.Atoi(req.ResourceProperties["DeploymentMinimumPercent"].(string))
if err != nil {
return "could not parse DeploymentMinimumPercent", nil, err
}
max, err := strconv.Atoi(req.ResourceProperties["DeploymentMaximumPercent"].(string))
if err != nil {
return "could not parse DeploymentMaximumPercent", nil, err
}
r.DeploymentConfiguration = &ecs.DeploymentConfiguration{
MinimumHealthyPercent: aws.Int64(int64(min)),
MaximumPercent: aws.Int64(int64(max)),
}
}
res, err := ECS(req).UpdateService(r)
if err != nil {
return req.PhysicalResourceId, nil, err
}
return *res.Service.ServiceArn, nil, nil
}
func ExampleS3_PutBucketLifecycleConfiguration() {
svc := s3.New(session.New())
params := &s3.PutBucketLifecycleConfigurationInput{
Bucket: aws.String("BucketName"), // Required
LifecycleConfiguration: &s3.BucketLifecycleConfiguration{
Rules: []*s3.LifecycleRule{ // Required
{ // Required
Prefix: aws.String("Prefix"), // Required
Status: aws.String("ExpirationStatus"), // Required
Expiration: &s3.LifecycleExpiration{
Date: aws.Time(time.Now()),
Days: aws.Int64(1),
},
ID: aws.String("ID"),
NoncurrentVersionExpiration: &s3.NoncurrentVersionExpiration{
NoncurrentDays: aws.Int64(1),
},
NoncurrentVersionTransitions: []*s3.NoncurrentVersionTransition{
{ // Required
NoncurrentDays: aws.Int64(1),
StorageClass: aws.String("TransitionStorageClass"),
},
// More values...
},
Transitions: []*s3.Transition{
{ // Required
Date: aws.Time(time.Now()),
Days: aws.Int64(1),
StorageClass: aws.String("TransitionStorageClass"),
},
// More values...
},
},
// More values...
},
},
}
resp, err := svc.PutBucketLifecycleConfiguration(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ECSServiceCreate(req Request) (string, map[string]string, error) {
count, err := strconv.Atoi(req.ResourceProperties["DesiredCount"].(string))
if err != nil {
return "invalid", nil, err
}
r := &ecs.CreateServiceInput{
Cluster: aws.String(req.ResourceProperties["Cluster"].(string)),
DesiredCount: aws.Int64(int64(count)),
ServiceName: aws.String(req.ResourceProperties["Name"].(string) + "-" + generateId("S", 10)),
TaskDefinition: aws.String(req.ResourceProperties["TaskDefinition"].(string)),
}
balancers := req.ResourceProperties["LoadBalancers"].([]interface{})
if len(balancers) > 0 {
r.Role = aws.String(req.ResourceProperties["Role"].(string))
}
for _, balancer := range balancers {
parts := strings.SplitN(balancer.(string), ":", 3)
if len(parts) != 3 {
return "invalid", nil, fmt.Errorf("invalid load balancer specification: %s", balancer.(string))
}
name := parts[0]
ps := parts[1]
port, _ := strconv.Atoi(parts[2])
r.LoadBalancers = append(r.LoadBalancers, &ecs.LoadBalancer{
LoadBalancerName: aws.String(name),
ContainerName: aws.String(ps),
ContainerPort: aws.Int64(int64(port)),
})
break
}
res, err := ECS(req).CreateService(r)
if err != nil {
return "invalid", nil, err
}
return *res.Service.ServiceArn, nil, nil
}
func ExampleELB_CreateLoadBalancer() {
svc := elb.New(session.New())
params := &elb.CreateLoadBalancerInput{
Listeners: []*elb.Listener{ // Required
{ // Required
InstancePort: aws.Int64(1), // Required
LoadBalancerPort: aws.Int64(1), // Required
Protocol: aws.String("Protocol"), // Required
InstanceProtocol: aws.String("Protocol"),
SSLCertificateId: aws.String("SSLCertificateId"),
},
// More values...
},
LoadBalancerName: aws.String("AccessPointName"), // Required
AvailabilityZones: []*string{
aws.String("AvailabilityZone"), // Required
// More values...
},
Scheme: aws.String("LoadBalancerScheme"),
SecurityGroups: []*string{
aws.String("SecurityGroupId"), // Required
// More values...
},
Subnets: []*string{
aws.String("SubnetId"), // Required
// More values...
},
Tags: []*elb.Tag{
{ // Required
Key: aws.String("TagKey"), // Required
Value: aws.String("TagValue"),
},
// More values...
},
}
resp, err := svc.CreateLoadBalancer(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func (c *Crypt) Encrypt(keyArn string, dec []byte) ([]byte, error) {
req := &kms.GenerateDataKeyInput{
KeyId: aws.String(keyArn),
NumberOfBytes: aws.Int64(KeyLength),
}
res, err := KMS(c).GenerateDataKey(req)
if err != nil {
return nil, err
}
var key [KeyLength]byte
copy(key[:], res.Plaintext[0:KeyLength])
rand, err := c.generateNonce()
if err != nil {
return nil, err
}
var nonce [NonceLength]byte
copy(nonce[:], rand[0:NonceLength])
var enc []byte
enc = secretbox.Seal(enc, dec, &nonce, &key)
e := &Envelope{
Ciphertext: enc,
EncryptedKey: res.CiphertextBlob,
Nonce: nonce[:],
}
return json.Marshal(e)
}
func ListReleases(app string) (Releases, error) {
req := &dynamodb.QueryInput{
KeyConditions: map[string]*dynamodb.Condition{
"app": &dynamodb.Condition{
AttributeValueList: []*dynamodb.AttributeValue{
&dynamodb.AttributeValue{S: aws.String(app)},
},
ComparisonOperator: aws.String("EQ"),
},
},
IndexName: aws.String("app.created"),
Limit: aws.Int64(20),
ScanIndexForward: aws.Bool(false),
TableName: aws.String(releasesTable(app)),
}
res, err := DynamoDB().Query(req)
if err != nil {
return nil, err
}
releases := make(Releases, len(res.Items))
for i, item := range res.Items {
releases[i] = *releaseFromItem(item)
}
return releases, nil
}
func (a *App) RunDetached(process, command string) error {
resources, err := a.Resources()
if err != nil {
return err
}
req := &ecs.RunTaskInput{
Cluster: aws.String(os.Getenv("CLUSTER")),
Count: aws.Int64(1),
StartedBy: aws.String("convox"),
TaskDefinition: aws.String(resources[UpperName(process)+"ECSTaskDefinition"].Id),
}
if command != "" {
req.Overrides = &ecs.TaskOverride{
ContainerOverrides: []*ecs.ContainerOverride{
&ecs.ContainerOverride{
Name: aws.String(process),
Command: []*string{
aws.String("sh"),
aws.String("-c"),
aws.String(command),
},
},
},
}
}
_, err = ECS().RunTask(req)
return err
}
func ECSServiceUpdate(req Request) (string, map[string]string, error) {
count, _ := strconv.Atoi(req.ResourceProperties["DesiredCount"].(string))
// arn:aws:ecs:us-east-1:922560784203:service/sinatra-SZXTRXEMYEY
parts := strings.Split(req.PhysicalResourceId, "/")
name := parts[1]
replace, err := ECSServiceReplacementRequired(req)
if err != nil {
return req.PhysicalResourceId, nil, err
}
if replace {
return ECSServiceCreate(req)
}
res, err := ECS(req).UpdateService(&ecs.UpdateServiceInput{
Cluster: aws.String(req.ResourceProperties["Cluster"].(string)),
Service: aws.String(name),
DesiredCount: aws.Int64(int64(count)),
TaskDefinition: aws.String(req.ResourceProperties["TaskDefinition"].(string)),
})
if err != nil {
return req.PhysicalResourceId, nil, err
}
return *res.Service.ServiceArn, nil, nil
}
// Retrieve generates a new set of temporary credentials using STS.
func (p *AssumeRoleProvider) Retrieve() (credentials.Value, error) {
// Apply defaults where parameters are not set.
if p.Client == nil {
p.Client = sts.New(nil)
}
if p.RoleSessionName == "" {
// Try to work out a role name that will hopefully end up unique.
p.RoleSessionName = fmt.Sprintf("%d", time.Now().UTC().UnixNano())
}
if p.Duration == 0 {
// Expire as often as AWS permits.
p.Duration = 15 * time.Minute
}
roleOutput, err := p.Client.AssumeRole(&sts.AssumeRoleInput{
DurationSeconds: aws.Int64(int64(p.Duration / time.Second)),
RoleArn: aws.String(p.RoleARN),
RoleSessionName: aws.String(p.RoleSessionName),
ExternalId: p.ExternalID,
})
if err != nil {
return credentials.Value{}, err
}
// We will proactively generate new credentials before they expire.
p.SetExpiration(*roleOutput.Credentials.Expiration, p.ExpiryWindow)
return credentials.Value{
AccessKeyID: *roleOutput.Credentials.AccessKeyId,
SecretAccessKey: *roleOutput.Credentials.SecretAccessKey,
SessionToken: *roleOutput.Credentials.SessionToken,
}, nil
}
func ExampleKMS_GenerateDataKeyWithoutPlaintext() {
svc := kms.New(session.New())
params := &kms.GenerateDataKeyWithoutPlaintextInput{
KeyId: aws.String("KeyIdType"), // Required
EncryptionContext: map[string]*string{
"Key": aws.String("EncryptionContextValue"), // Required
// More values...
},
GrantTokens: []*string{
aws.String("GrantTokenType"), // Required
// More values...
},
KeySpec: aws.String("DataKeySpec"),
NumberOfBytes: aws.Int64(1),
}
resp, err := svc.GenerateDataKeyWithoutPlaintext(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func BenchmarkCodegenIterator(b *testing.B) {
reqNum := 0
db := benchDb()
db.Handlers.Unmarshal.PushBack(func(r *request.Request) {
r.Data = benchResps[reqNum]
reqNum++
})
input := &dynamodb.ListTablesInput{Limit: aws.Int64(2)}
iter := func(fn func(*dynamodb.ListTablesOutput, bool) bool) error {
page, _ := db.ListTablesRequest(input)
for ; page != nil; page = page.NextPage() {
page.Send()
out := page.Data.(*dynamodb.ListTablesOutput)
if result := fn(out, !page.HasNextPage()); page.Error != nil || !result {
return page.Error
}
}
return nil
}
for i := 0; i < b.N; i++ {
reqNum = 0
iter(func(p *dynamodb.ListTablesOutput, last bool) bool {
return true
})
}
}
func ExampleCloudWatch_DescribeAlarmsForMetric() {
svc := cloudwatch.New(session.New())
params := &cloudwatch.DescribeAlarmsForMetricInput{
MetricName: aws.String("MetricName"), // Required
Namespace: aws.String("Namespace"), // Required
Dimensions: []*cloudwatch.Dimension{
{ // Required
Name: aws.String("DimensionName"), // Required
Value: aws.String("DimensionValue"), // Required
},
// More values...
},
Period: aws.Int64(1),
Statistic: aws.String("Statistic"),
Unit: aws.String("StandardUnit"),
}
resp, err := svc.DescribeAlarmsForMetric(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ExampleCloudWatch_DescribeAlarms() {
svc := cloudwatch.New(session.New())
params := &cloudwatch.DescribeAlarmsInput{
ActionPrefix: aws.String("ActionPrefix"),
AlarmNamePrefix: aws.String("AlarmNamePrefix"),
AlarmNames: []*string{
aws.String("AlarmName"), // Required
// More values...
},
MaxRecords: aws.Int64(1),
NextToken: aws.String("NextToken"),
StateValue: aws.String("StateValue"),
}
resp, err := svc.DescribeAlarms(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ExampleCloudWatch_GetMetricStatistics() {
svc := cloudwatch.New(session.New())
params := &cloudwatch.GetMetricStatisticsInput{
EndTime: aws.Time(time.Now()), // Required
MetricName: aws.String("MetricName"), // Required
Namespace: aws.String("Namespace"), // Required
Period: aws.Int64(1), // Required
StartTime: aws.Time(time.Now()), // Required
Statistics: []*string{ // Required
aws.String("Statistic"), // Required
// More values...
},
Dimensions: []*cloudwatch.Dimension{
{ // Required
Name: aws.String("DimensionName"), // Required
Value: aws.String("DimensionValue"), // Required
},
// More values...
},
Unit: aws.String("StandardUnit"),
}
resp, err := svc.GetMetricStatistics(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ExampleCloudWatchLogs_PutLogEvents() {
svc := cloudwatchlogs.New(session.New())
params := &cloudwatchlogs.PutLogEventsInput{
LogEvents: []*cloudwatchlogs.InputLogEvent{ // Required
{ // Required
Message: aws.String("EventMessage"), // Required
Timestamp: aws.Int64(1), // Required
},
// More values...
},
LogGroupName: aws.String("LogGroupName"), // Required
LogStreamName: aws.String("LogStreamName"), // Required
SequenceToken: aws.String("SequenceToken"),
}
resp, err := svc.PutLogEvents(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}
func ExampleS3_CompleteMultipartUpload() {
svc := s3.New(session.New())
params := &s3.CompleteMultipartUploadInput{
Bucket: aws.String("BucketName"), // Required
Key: aws.String("ObjectKey"), // Required
UploadId: aws.String("MultipartUploadId"), // Required
MultipartUpload: &s3.CompletedMultipartUpload{
Parts: []*s3.CompletedPart{
{ // Required
ETag: aws.String("ETag"),
PartNumber: aws.Int64(1),
},
// More values...
},
},
RequestPayer: aws.String("RequestPayer"),
}
resp, err := svc.CompleteMultipartUpload(params)
if err != nil {
// Print the error, cast err to awserr.Error to get the Code and
// Message from an error.
fmt.Println(err.Error())
return
}
// Pretty-print the response data.
fmt.Println(resp)
}