Há mais exemplos de AWS SDK disponíveis no repositório [AWS Doc SDK Examples](https://github.com/awsdocs/aws-doc-sdk-examples) GitHub .
As traduções são geradas por tradução automática. Em caso de conflito entre o conteúdo da tradução e da versão original em inglês, a versão em inglês prevalecerá.
# Exemplos do Amazon RDS usando o SDK para Kotlin
Os exemplos de código a seguir mostram como realizar ações e implementar cenários comuns usando o AWS SDK para Kotlin com o Amazon RDS.
As *noções básicas* são exemplos de código que mostram como realizar as operações essenciais em um serviço.
*Ações* são trechos de código de programas maiores e devem ser executadas em contexto. Embora as ações mostrem como chamar perfis de serviço individuais, você pode ver as ações no contexto em seus cenários relacionados.
*Cenários* são exemplos de código que mostram como realizar tarefas específicas chamando várias funções dentro de um serviço ou combinadas com outros Serviços da AWS.
Cada exemplo inclui um link para o código-fonte completo, em que você pode encontrar instruções sobre como configurar e executar o código.
**Topics**
+ [Conceitos básicos](#basics)
+ [Ações](#actions)
+ [Cenários](#scenarios)
## Conceitos básicos
### Conheça os conceitos básicos
O exemplo de código a seguir mostra como:
+ Criar um grupo de parâmetros de banco de dados e definir os valores dos parâmetros.
+ Criar uma instância de banco de dados configurada para usar o grupo de parâmetros. A instância de banco de dados também contém um banco de dados.
+ Criar um snapshot da instância.
+ Exclua a instância e o grupo de parâmetros.
**SDK para Kotlin**
Tem mais sobre GitHub. Encontre o exemplo completo e saiba como configurar e executar no [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples).
```
/**
Before running this code example, set up your development environment, including your credentials.
For more information, see the following documentation topic:
https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html
This example requires an AWS Secrets Manager secret that contains the database credentials. If you do not create a
secret, this example will not work. For more details, see:
https://docs.aws.amazon.com/secretsmanager/latest/userguide/integrating_how-services-use-secrets_RS.html
This example performs the following tasks:
1. Returns a list of the available DB engines by invoking the DescribeDbEngineVersions method.
2. Selects an engine family and create a custom DB parameter group by invoking the createDBParameterGroup method.
3. Gets the parameter groups by invoking the DescribeDbParameterGroups method.
4. Gets parameters in the group by invoking the DescribeDbParameters method.
5. Modifies both the auto_increment_offset and auto_increment_increment parameters by invoking the modifyDbParameterGroup method.
6. Gets and displays the updated parameters.
7. Gets a list of allowed engine versions by invoking the describeDbEngineVersions method.
8. Gets a list of micro instance classes available for the selected engine.
9. Creates an Amazon Relational Database Service (Amazon RDS) database instance that contains a MySQL database and uses the parameter group.
10. Waits for DB instance to be ready and prints out the connection endpoint value.
11. Creates a snapshot of the DB instance.
12. Waits for the DB snapshot to be ready.
13. Deletes the DB instance.
14. Deletes the parameter group.
*/
var sleepTime: Long = 20
suspend fun main(args: Array) {
val usage = """
Usage:
Where:
dbGroupName - The database group name.
dbParameterGroupFamily - The database parameter group name.
dbInstanceIdentifier - The database instance identifier.
dbName - The database name.
dbSnapshotIdentifier - The snapshot identifier.
secretName - The name of the AWS Secrets Manager secret that contains the database credentials.
"""
if (args.size != 6) {
println(usage)
exitProcess(1)
}
val dbGroupName = args[0]
val dbParameterGroupFamily = args[1]
val dbInstanceIdentifier = args[2]
val dbName = args[3]
val dbSnapshotIdentifier = args[4]
val secretName = args[5]
val gson = Gson()
val user = gson.fromJson(getSecretValues(secretName).toString(), User::class.java)
val username = user.username
val userPassword = user.password
println("1. Return a list of the available DB engines")
describeDBEngines()
println("2. Create a custom parameter group")
createDBParameterGroup(dbGroupName, dbParameterGroupFamily)
println("3. Get the parameter groups")
describeDbParameterGroups(dbGroupName)
println("4. Get the parameters in the group")
describeDbParameters(dbGroupName, 0)
println("5. Modify the auto_increment_offset parameter")
modifyDBParas(dbGroupName)
println("6. Display the updated value")
describeDbParameters(dbGroupName, -1)
println("7. Get a list of allowed engine versions")
getAllowedEngines(dbParameterGroupFamily)
println("8. Get a list of micro instance classes available for the selected engine")
getMicroInstances()
println("9. Create an RDS database instance that contains a MySql database and uses the parameter group")
val dbARN = createDatabaseInstance(dbGroupName, dbInstanceIdentifier, dbName, username, userPassword)
println("The ARN of the new database is $dbARN")
println("10. Wait for DB instance to be ready")
waitForDbInstanceReady(dbInstanceIdentifier)
println("11. Create a snapshot of the DB instance")
createDbSnapshot(dbInstanceIdentifier, dbSnapshotIdentifier)
println("12. Wait for DB snapshot to be ready")
waitForSnapshotReady(dbInstanceIdentifier, dbSnapshotIdentifier)
println("13. Delete the DB instance")
deleteDbInstance(dbInstanceIdentifier)
println("14. Delete the parameter group")
if (dbARN != null) {
deleteParaGroup(dbGroupName, dbARN)
}
println("The Scenario has successfully completed.")
}
suspend fun deleteParaGroup(
dbGroupName: String,
dbARN: String,
) {
var isDataDel = false
var didFind: Boolean
var instanceARN: String
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
// Make sure that the database has been deleted.
while (!isDataDel) {
val response = rdsClient.describeDbInstances()
val instanceList = response.dbInstances
val listSize = instanceList?.size
isDataDel = false // Reset this value.
didFind = false // Reset this value.
var index = 1
if (instanceList != null) {
for (instance in instanceList) {
instanceARN = instance.dbInstanceArn.toString()
if (instanceARN.compareTo(dbARN) == 0) {
println("$dbARN still exists")
didFind = true
}
if (index == listSize && !didFind) {
// Went through the entire list and did not find the database name.
isDataDel = true
}
index++
}
}
}
// Delete the para group.
val parameterGroupRequest =
DeleteDbParameterGroupRequest {
dbParameterGroupName = dbGroupName
}
rdsClient.deleteDbParameterGroup(parameterGroupRequest)
println("$dbGroupName was deleted.")
}
}
suspend fun deleteDbInstance(dbInstanceIdentifierVal: String) {
val deleteDbInstanceRequest =
DeleteDbInstanceRequest {
dbInstanceIdentifier = dbInstanceIdentifierVal
deleteAutomatedBackups = true
skipFinalSnapshot = true
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.deleteDbInstance(deleteDbInstanceRequest)
print("The status of the database is ${response.dbInstance?.dbInstanceStatus}")
}
}
// Waits until the snapshot instance is available.
suspend fun waitForSnapshotReady(
dbInstanceIdentifierVal: String?,
dbSnapshotIdentifierVal: String?,
) {
var snapshotReady = false
var snapshotReadyStr: String
println("Waiting for the snapshot to become available.")
val snapshotsRequest =
DescribeDbSnapshotsRequest {
dbSnapshotIdentifier = dbSnapshotIdentifierVal
dbInstanceIdentifier = dbInstanceIdentifierVal
}
while (!snapshotReady) {
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.describeDbSnapshots(snapshotsRequest)
val snapshotList: List? = response.dbSnapshots
if (snapshotList != null) {
for (snapshot in snapshotList) {
snapshotReadyStr = snapshot.status.toString()
if (snapshotReadyStr.contains("available")) {
snapshotReady = true
} else {
print(".")
delay(sleepTime * 1000)
}
}
}
}
}
println("The Snapshot is available!")
}
// Create an Amazon RDS snapshot.
suspend fun createDbSnapshot(
dbInstanceIdentifierVal: String?,
dbSnapshotIdentifierVal: String?,
) {
val snapshotRequest =
CreateDbSnapshotRequest {
dbInstanceIdentifier = dbInstanceIdentifierVal
dbSnapshotIdentifier = dbSnapshotIdentifierVal
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.createDbSnapshot(snapshotRequest)
print("The Snapshot id is ${response.dbSnapshot?.dbiResourceId}")
}
}
// Waits until the database instance is available.
suspend fun waitForDbInstanceReady(dbInstanceIdentifierVal: String?) {
var instanceReady = false
var instanceReadyStr: String
println("Waiting for instance to become available.")
val instanceRequest =
DescribeDbInstancesRequest {
dbInstanceIdentifier = dbInstanceIdentifierVal
}
var endpoint = ""
while (!instanceReady) {
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.describeDbInstances(instanceRequest)
val instanceList = response.dbInstances
if (instanceList != null) {
for (instance in instanceList) {
instanceReadyStr = instance.dbInstanceStatus.toString()
if (instanceReadyStr.contains("available")) {
endpoint = instance.endpoint?.address.toString()
instanceReady = true
} else {
print(".")
delay(sleepTime * 1000)
}
}
}
}
}
println("Database instance is available! The connection endpoint is $endpoint")
}
// Create a database instance and return the ARN of the database.
suspend fun createDatabaseInstance(
dbGroupNameVal: String?,
dbInstanceIdentifierVal: String?,
dbNameVal: String?,
masterUsernameVal: String?,
masterUserPasswordVal: String?,
): String? {
val instanceRequest =
CreateDbInstanceRequest {
dbInstanceIdentifier = dbInstanceIdentifierVal
allocatedStorage = 100
dbName = dbNameVal
dbParameterGroupName = dbGroupNameVal
engine = "mysql"
dbInstanceClass = "db.t3.micro"
engineVersion = "8.0.35"
storageType = "gp2"
masterUsername = masterUsernameVal
masterUserPassword = masterUserPasswordVal
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.createDbInstance(instanceRequest)
print("The status is ${response.dbInstance?.dbInstanceStatus}")
return response.dbInstance?.dbInstanceArn
}
}
// Get a list of micro instances.
suspend fun getMicroInstances() {
val dbInstanceOptionsRequest =
DescribeOrderableDbInstanceOptionsRequest {
engine = "mysql"
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.describeOrderableDbInstanceOptions(dbInstanceOptionsRequest)
val orderableDBInstances = response.orderableDbInstanceOptions
if (orderableDBInstances != null) {
for (dbInstanceOption in orderableDBInstances) {
println("The engine version is ${dbInstanceOption.engineVersion}")
println("The engine description is ${dbInstanceOption.engine}")
}
}
}
}
// Get a list of allowed engine versions.
suspend fun getAllowedEngines(dbParameterGroupFamilyVal: String?) {
val versionsRequest =
DescribeDbEngineVersionsRequest {
dbParameterGroupFamily = dbParameterGroupFamilyVal
engine = "mysql"
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.describeDbEngineVersions(versionsRequest)
val dbEngines: List? = response.dbEngineVersions
if (dbEngines != null) {
for (dbEngine in dbEngines) {
println("The engine version is ${dbEngine.engineVersion}")
println("The engine description is ${dbEngine.dbEngineDescription}")
}
}
}
}
// Modify the auto_increment_offset parameter.
suspend fun modifyDBParas(dbGroupName: String) {
val parameter1 =
Parameter {
parameterName = "auto_increment_offset"
applyMethod = ApplyMethod.Immediate
parameterValue = "5"
}
val paraList: ArrayList = ArrayList()
paraList.add(parameter1)
val groupRequest =
ModifyDbParameterGroupRequest {
dbParameterGroupName = dbGroupName
parameters = paraList
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.modifyDbParameterGroup(groupRequest)
println("The parameter group ${response.dbParameterGroupName} was successfully modified")
}
}
// Retrieve parameters in the group.
suspend fun describeDbParameters(
dbGroupName: String?,
flag: Int,
) {
val dbParameterGroupsRequest: DescribeDbParametersRequest
dbParameterGroupsRequest =
if (flag == 0) {
DescribeDbParametersRequest {
dbParameterGroupName = dbGroupName
}
} else {
DescribeDbParametersRequest {
dbParameterGroupName = dbGroupName
source = "user"
}
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.describeDbParameters(dbParameterGroupsRequest)
val dbParameters: List? = response.parameters
var paraName: String
if (dbParameters != null) {
for (para in dbParameters) {
// Only print out information about either auto_increment_offset or auto_increment_increment.
paraName = para.parameterName.toString()
if (paraName.compareTo("auto_increment_offset") == 0 || paraName.compareTo("auto_increment_increment ") == 0) {
println("*** The parameter name is $paraName")
System.out.println("*** The parameter value is ${para.parameterValue}")
System.out.println("*** The parameter data type is ${para.dataType}")
System.out.println("*** The parameter description is ${para.description}")
System.out.println("*** The parameter allowed values is ${para.allowedValues}")
}
}
}
}
}
suspend fun describeDbParameterGroups(dbGroupName: String?) {
val groupsRequest =
DescribeDbParameterGroupsRequest {
dbParameterGroupName = dbGroupName
maxRecords = 20
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.describeDbParameterGroups(groupsRequest)
val groups = response.dbParameterGroups
if (groups != null) {
for (group in groups) {
println("The group name is ${group.dbParameterGroupName}")
println("The group description is ${group.description}")
}
}
}
}
// Create a parameter group.
suspend fun createDBParameterGroup(
dbGroupName: String?,
dbParameterGroupFamilyVal: String?,
) {
val groupRequest =
CreateDbParameterGroupRequest {
dbParameterGroupName = dbGroupName
dbParameterGroupFamily = dbParameterGroupFamilyVal
description = "Created by using the AWS SDK for Kotlin"
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.createDbParameterGroup(groupRequest)
println("The group name is ${response.dbParameterGroup?.dbParameterGroupName}")
}
}
// Returns a list of the available DB engines.
suspend fun describeDBEngines() {
val engineVersionsRequest =
DescribeDbEngineVersionsRequest {
defaultOnly = true
engine = "mysql"
maxRecords = 20
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.describeDbEngineVersions(engineVersionsRequest)
val engines: List? = response.dbEngineVersions
// Get all DbEngineVersion objects.
if (engines != null) {
for (engineOb in engines) {
println("The name of the DB parameter group family for the database engine is ${engineOb.dbParameterGroupFamily}.")
println("The name of the database engine ${engineOb.engine}.")
println("The version number of the database engine ${engineOb.engineVersion}")
}
}
}
}
suspend fun getSecretValues(secretName: String?): String? {
val valueRequest =
GetSecretValueRequest {
secretId = secretName
}
SecretsManagerClient.fromEnvironment { region = "us-west-2" }.use { secretsClient ->
val valueResponse = secretsClient.getSecretValue(valueRequest)
return valueResponse.secretString
}
}
```
+ Consulte detalhes da API nos tópicos a seguir na *Referência de API do AWS SDK para Kotlin*.
+ [CriarDBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
+ [Criar DBParameter grupo](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
+ [CriarDBSnapshot](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
+ [ExcluirDBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
+ [Excluir DBParameter grupo](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
+ [Descreva DBEngine as versões](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
+ [DescreverDBInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
+ [Descreva DBParameter os grupos](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
+ [DescreverDBParameters](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
+ [DescreverDBSnapshots](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
+ [DescribeOrderableDBInstanceOpções](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
+ [Modificar DBParameter grupo](https://sdk.amazonaws.com/kotlin/api/latest/index.html)
## Ações
### `CreateDBInstance`
O código de exemplo a seguir mostra como usar `CreateDBInstance`.
**SDK para Kotlin**
Tem mais sobre GitHub. Encontre o exemplo completo e saiba como configurar e executar no [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples).
```
suspend fun createDatabaseInstance(
dbInstanceIdentifierVal: String?,
dbNamedbVal: String?,
masterUsernameVal: String?,
masterUserPasswordVal: String?,
) {
val instanceRequest =
CreateDbInstanceRequest {
dbInstanceIdentifier = dbInstanceIdentifierVal
allocatedStorage = 100
dbName = dbNamedbVal
engine = "mysql"
dbInstanceClass = "db.t3.micro" // Use a supported instance class
engineVersion = "8.0.39" // Use a supported engine version
storageType = "gp2"
masterUsername = masterUsernameVal
masterUserPassword = masterUserPasswordVal
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.createDbInstance(instanceRequest)
print("The status is ${response.dbInstance?.dbInstanceStatus}")
}
}
// Waits until the database instance is available.
suspend fun waitForInstanceReady(dbInstanceIdentifierVal: String?) {
val sleepTime: Long = 20
var instanceReady = false
var instanceReadyStr: String
println("Waiting for instance to become available.")
val instanceRequest =
DescribeDbInstancesRequest {
dbInstanceIdentifier = dbInstanceIdentifierVal
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
while (!instanceReady) {
val response = rdsClient.describeDbInstances(instanceRequest)
val instanceList = response.dbInstances
if (instanceList != null) {
for (instance in instanceList) {
instanceReadyStr = instance.dbInstanceStatus.toString()
if (instanceReadyStr.contains("available")) {
instanceReady = true
} else {
println("...$instanceReadyStr")
delay(sleepTime * 1000)
}
}
}
}
println("Database instance is available!")
}
}
```
+ Para obter detalhes da API, consulte [Criar DBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html) no *AWS SDK para referência da API Kotlin*.
### `DeleteDBInstance`
O código de exemplo a seguir mostra como usar `DeleteDBInstance`.
**SDK para Kotlin**
Tem mais sobre GitHub. Encontre o exemplo completo e saiba como configurar e executar no [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples).
```
suspend fun deleteDatabaseInstance(dbInstanceIdentifierVal: String?) {
val deleteDbInstanceRequest =
DeleteDbInstanceRequest {
dbInstanceIdentifier = dbInstanceIdentifierVal
deleteAutomatedBackups = true
skipFinalSnapshot = true
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.deleteDbInstance(deleteDbInstanceRequest)
print("The status of the database is ${response.dbInstance?.dbInstanceStatus}")
}
}
```
+ Para obter detalhes da API, consulte [Excluir DBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html) no *AWS SDK para referência da API Kotlin*.
### `DescribeAccountAttributes`
O código de exemplo a seguir mostra como usar `DescribeAccountAttributes`.
**SDK para Kotlin**
Tem mais sobre GitHub. Encontre o exemplo completo e saiba como configurar e executar no [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples).
```
suspend fun getAccountAttributes() {
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.describeAccountAttributes(DescribeAccountAttributesRequest {})
response.accountQuotas?.forEach { quotas ->
val response = response.accountQuotas
println("Name is: ${quotas.accountQuotaName}")
println("Max value is ${quotas.max}")
}
}
}
```
+ Para obter detalhes da API, consulte a [DescribeAccountAttributes](https://sdk.amazonaws.com/kotlin/api/latest/index.html)referência da API *AWS SDK for Kotlin*.
### `DescribeDBInstances`
O código de exemplo a seguir mostra como usar `DescribeDBInstances`.
**SDK para Kotlin**
Tem mais sobre GitHub. Encontre o exemplo completo e saiba como configurar e executar no [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples).
```
suspend fun describeInstances() {
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val response = rdsClient.describeDbInstances(DescribeDbInstancesRequest {})
response.dbInstances?.forEach { instance ->
println("Instance Identifier is ${instance.dbInstanceIdentifier}")
println("The Engine is ${instance.engine}")
println("Connection endpoint is ${instance.endpoint?.address}")
}
}
}
```
+ Para obter detalhes da API, consulte [Descrever DBInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) no *AWS SDK para referência da API Kotlin*.
### `ModifyDBInstance`
O código de exemplo a seguir mostra como usar `ModifyDBInstance`.
**SDK para Kotlin**
Tem mais sobre GitHub. Encontre o exemplo completo e saiba como configurar e executar no [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/rds#code-examples).
```
suspend fun updateIntance(
dbInstanceIdentifierVal: String?,
masterUserPasswordVal: String?,
) {
val request =
ModifyDbInstanceRequest {
dbInstanceIdentifier = dbInstanceIdentifierVal
publiclyAccessible = true
masterUserPassword = masterUserPasswordVal
}
RdsClient.fromEnvironment { region = "us-west-2" }.use { rdsClient ->
val instanceResponse = rdsClient.modifyDbInstance(request)
println("The ARN of the modified database is ${instanceResponse.dbInstance?.dbInstanceArn}")
}
}
```
+ Para obter detalhes da API, consulte [Modificar DBInstance](https://sdk.amazonaws.com/kotlin/api/latest/index.html) no *AWS SDK para referência da API Kotlin*.
## Cenários
### Crie um rastreador de itens de trabalho do Aurora Sem Servidor
O exemplo de código a seguir mostra como criar uma aplicação Web que rastreia os itens de trabalho em um banco de dados do Amazon Aurora Sem Servidor e usa o Amazon Simple Email Service (Amazon SES) para enviar relatórios.
**SDK para Kotlin**
Mostra como construir uma aplicação Web que monitora e gera relatórios sobre itens de trabalho armazenados em um banco de dados do Amazon RDS.
Para obter o código-fonte completo e instruções sobre como configurar uma API Spring REST que consulta dados do Amazon Aurora Serverless e para uso por um aplicativo React, veja o exemplo completo em. [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/usecases/serverless_rds)
**Serviços usados neste exemplo**
+ Aurora
+ Amazon RDS
+ Serviços de dados do Amazon RDS
+ Amazon SES