AWS Doc SDK ExamplesWord
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Amazon Redshift with an AWS SDK의 기본 사항 알아보기
다음 코드 예제에서는 a AWS SDK를 사용하여 Amazon Redshift의 핵심 작업을 학습하는 방법을 보여줍니다.
- Go
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- SDK for Go V2
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참고
더 많은 on GitHub가 있습니다. AWS 코드 예시 리포지토리
에서 전체 예시를 찾고 설정 및 실행하는 방법을 배워보세요. package scenarios import ( "context" "encoding/json" "errors" "fmt" "log" "math/rand" "strings" "time" "github.com/aws/aws-sdk-go-v2/aws" redshift_types "github.com/aws/aws-sdk-go-v2/service/redshift/types" redshiftdata_types "github.com/aws/aws-sdk-go-v2/service/redshiftdata/types" "github.com/aws/aws-sdk-go-v2/service/secretsmanager" "github.com/awsdocs/aws-doc-sdk-examples/gov2/demotools" "github.com/awsdocs/aws-doc-sdk-examples/gov2/redshift/actions" "github.com/aws/aws-sdk-go-v2/service/redshift" "github.com/aws/aws-sdk-go-v2/service/redshiftdata" ) // IScenarioHelper abstracts input and wait functions from a scenario so that they // can be mocked for unit testing. type IScenarioHelper interface { GetName() string } const rMax = 100000 type ScenarioHelper struct { Prefix string Random *rand.Rand } // GetName returns a unique name formed of a prefix and a random number. func (helper ScenarioHelper) GetName() string { return fmt.Sprintf("%v%v", helper.Prefix, helper.Random.Intn(rMax)) } // RedshiftBasicsScenario separates the steps of this scenario into individual functions so that // they are simpler to read and understand. type RedshiftBasicsScenario struct { sdkConfig aws.Config helper IScenarioHelper questioner demotools.IQuestioner pauser demotools.IPausable filesystem demotools.IFileSystem redshiftActor *actions.RedshiftActions redshiftDataActor *actions.RedshiftDataActions secretsmanager *SecretsManager } // SecretsManager is used to retrieve username and password information from a secure service. type SecretsManager struct { SecretsManagerClient *secretsmanager.Client } // RedshiftBasics constructs a new Redshift Basics runner. func RedshiftBasics(sdkConfig aws.Config, questioner demotools.IQuestioner, pauser demotools.IPausable, filesystem demotools.IFileSystem, helper IScenarioHelper) RedshiftBasicsScenario { scenario := RedshiftBasicsScenario{ sdkConfig: sdkConfig, helper: helper, questioner: questioner, pauser: pauser, filesystem: filesystem, secretsmanager: &SecretsManager{SecretsManagerClient: secretsmanager.NewFromConfig(sdkConfig)}, redshiftActor: &actions.RedshiftActions{RedshiftClient: redshift.NewFromConfig(sdkConfig)}, redshiftDataActor: &actions.RedshiftDataActions{RedshiftDataClient: redshiftdata.NewFromConfig(sdkConfig)}, } return scenario } // Movie makes it easier to use Movie objects given in json format. type Movie struct { ID int `json:"id"` Title string `json:"title"` Year int `json:"year"` } // User makes it easier to get the User data back from SecretsManager and use it later. type User struct { Username string `json:"userName"` Password string `json:"userPassword"` } // Run runs the RedshiftBasics interactive example that shows you how to use Amazon // Redshift and how to interact with its common endpoints. // // 0. Retrieve username and password information to access Redshift. // 1. Create a cluster. // 2. Wait for the cluster to become available. // 3. List the available databases in the region. // 4. Create a table named "Movies" in the "dev" database. // 5. Populate the movies table from the "movies.json" file. // 6. Query the movies table by year. // 7. Modify the cluster's maintenance window. // 8. Optionally clean up all resources created during this demo. // // This example creates an Amazon Redshift service client from the specified sdkConfig so that // you can replace it with a mocked or stubbed config for unit testing. // // It uses a questioner from the `demotools` package to get input during the example. // This package can be found in the ..\..\demotools folder of this repo. func (runner *RedshiftBasicsScenario) Run(ctx context.Context) { user := User{} secretId := "s3express/basics/secrets" clusterId := "demo-cluster-1" maintenanceWindow := "wed:07:30-wed:08:00" databaseName := "dev" tableName := "Movies" fileName := "Movies.json" nodeType := "ra3.xlplus" clusterType := "single-node" defer func() { if r := recover(); r != nil { log.Println("Something went wrong with the demo.") _, isMock := runner.questioner.(*demotools.MockQuestioner) if isMock || runner.questioner.AskBool("Do you want to see the full error message (y/n)?", "y") { log.Println(r) } runner.cleanUpResources(ctx, clusterId, databaseName, tableName, user.Username, runner.questioner) } }() // Retrieve the userName and userPassword from SecretsManager output, err := runner.secretsmanager.SecretsManagerClient.GetSecretValue(ctx, &secretsmanager.GetSecretValueInput{ SecretId: aws.String(secretId), }) if err != nil { log.Printf("There was a problem getting the secret value: %s", err) log.Printf("Please make sure to create a secret named 's3express/basics/secrets' with keys of 'userName' and 'userPassword'.") panic(err) } err = json.Unmarshal([]byte(*output.SecretString), &user) if err != nil { log.Printf("There was a problem parsing the secret value from JSON: %s", err) panic(err) } // Create the Redshift cluster _, err = runner.redshiftActor.CreateCluster(ctx, clusterId, user.Username, user.Password, nodeType, clusterType, true) if err != nil { var clusterAlreadyExistsFault *redshift_types.ClusterAlreadyExistsFault if errors.As(err, &clusterAlreadyExistsFault) { log.Println("Cluster already exists. Continuing.") } else { log.Println("Error creating cluster.") panic(err) } } // Wait for the cluster to become available waiter := redshift.NewClusterAvailableWaiter(runner.redshiftActor.RedshiftClient) err = waiter.Wait(ctx, &redshift.DescribeClustersInput{ ClusterIdentifier: aws.String(clusterId), }, 5*time.Minute) if err != nil { log.Println("An error occurred waiting for the cluster.") panic(err) } // Get some info about the cluster describeOutput, err := runner.redshiftActor.DescribeClusters(ctx, clusterId) if err != nil { log.Println("Something went wrong trying to get information about the cluster.") panic(err) } log.Println("Here's some information about the cluster.") log.Printf("The cluster's status is %s", *describeOutput.Clusters[0].ClusterStatus) log.Printf("The cluster was created at %s", *describeOutput.Clusters[0].ClusterCreateTime) // List databases log.Println("List databases in", clusterId) runner.questioner.Ask("Press Enter to continue...") err = runner.redshiftDataActor.ListDatabases(ctx, clusterId, databaseName, user.Username) if err != nil { log.Printf("Failed to list databases: %v\n", err) panic(err) } // Create the "Movies" table log.Println("Now you will create a table named " + tableName + ".") runner.questioner.Ask("Press Enter to continue...") err = nil result, err := runner.redshiftDataActor.CreateTable(ctx, clusterId, databaseName, tableName, user.Username, runner.pauser, []string{"title VARCHAR(256)", "year INT"}) if err != nil { log.Printf("Failed to create table: %v\n", err) panic(err) } describeInput := redshiftdata.DescribeStatementInput{ Id: result.Id, } query := actions.RedshiftQuery{ Context: ctx, Input: describeInput, Result: result, } err = runner.redshiftDataActor.WaitForQueryStatus(query, runner.pauser, true) if err != nil { log.Printf("Failed to execute query: %v\n", err) panic(err) } log.Printf("Successfully executed query\n") // Populate the "Movies" table runner.PopulateMoviesTable(ctx, clusterId, databaseName, tableName, user.Username, fileName) // Query the "Movies" table by year log.Println("Query the Movies table by year.") year := runner.questioner.AskInt( fmt.Sprintf("Enter a value between %v and %v:", 2012, 2014), demotools.InIntRange{Lower: 2012, Upper: 2014}) runner.QueryMoviesByYear(ctx, clusterId, databaseName, tableName, user.Username, year) // Modify the cluster's maintenance window runner.redshiftActor.ModifyCluster(ctx, clusterId, maintenanceWindow) // Delete the Redshift cluster if confirmed runner.cleanUpResources(ctx, clusterId, databaseName, tableName, user.Username, runner.questioner) log.Println("Thanks for watching!") } // cleanUpResources asks the user if they would like to delete each resource created during the scenario, from most // impactful to least impactful. If any choice to delete is made, further deletion attempts are skipped. func (runner *RedshiftBasicsScenario) cleanUpResources(ctx context.Context, clusterId string, databaseName string, tableName string, userName string, questioner demotools.IQuestioner) { deleted := false var err error = nil if questioner.AskBool("Do you want to delete the entire cluster? This will clean up all resources. (y/n)", "y") { deleted, err = runner.redshiftActor.DeleteCluster(ctx, clusterId) if err != nil { log.Printf("Error deleting cluster: %v", err) } } if !deleted && questioner.AskBool("Do you want to delete the dev table? This will clean up all inserted records but keep your cluster intact. (y/n)", "y") { deleted, err = runner.redshiftDataActor.DeleteTable(ctx, clusterId, databaseName, tableName, userName) if err != nil { log.Printf("Error deleting movies table: %v", err) } } if !deleted && questioner.AskBool("Do you want to delete all rows in the Movies table? This will clean up all inserted records but keep your cluster and table intact. (y/n)", "y") { deleted, err = runner.redshiftDataActor.DeleteDataRows(ctx, clusterId, databaseName, tableName, userName, runner.pauser) if err != nil { log.Printf("Error deleting data rows: %v", err) } } if !deleted { log.Print("Please manually delete any unwanted resources.") } } // loadMoviesFromJSON takes the <fileName> file and populates a slice of Movie objects. func (runner *RedshiftBasicsScenario) loadMoviesFromJSON(fileName string, filesystem demotools.IFileSystem) ([]Movie, error) { file, err := filesystem.OpenFile("../../resources/sample_files/" + fileName) if err != nil { return nil, err } defer filesystem.CloseFile(file) var movies []Movie err = json.NewDecoder(file).Decode(&movies) if err != nil { return nil, err } return movies, nil } // PopulateMoviesTable reads data from the <fileName> file and inserts records into the "Movies" table. func (runner *RedshiftBasicsScenario) PopulateMoviesTable(ctx context.Context, clusterId string, databaseName string, tableName string, userName string, fileName string) { log.Println("Populate the " + tableName + " table using the " + fileName + " file.") numRecords := runner.questioner.AskInt( fmt.Sprintf("Enter a value between %v and %v:", 10, 100), demotools.InIntRange{Lower: 10, Upper: 100}) movies, err := runner.loadMoviesFromJSON(fileName, runner.filesystem) if err != nil { log.Printf("Failed to load movies from JSON: %v\n", err) panic(err) } var sqlStatements []string for i, movie := range movies { if i >= numRecords { break } sqlStatement := fmt.Sprintf(`INSERT INTO %s (title, year) VALUES ('%s', %d);`, tableName, strings.Replace(movie.Title, "'", "''", -1), // Double any single quotes to escape them movie.Year) sqlStatements = append(sqlStatements, sqlStatement) } input := &redshiftdata.BatchExecuteStatementInput{ ClusterIdentifier: aws.String(clusterId), Database: aws.String(databaseName), DbUser: aws.String(userName), Sqls: sqlStatements, } result, err := runner.redshiftDataActor.ExecuteBatchStatement(ctx, *input) if err != nil { log.Printf("Failed to execute batch statement: %v\n", err) panic(err) } describeInput := redshiftdata.DescribeStatementInput{ Id: result.Id, } query := actions.RedshiftQuery{ Context: ctx, Result: result, Input: describeInput, } err = runner.redshiftDataActor.WaitForQueryStatus(query, runner.pauser, true) if err != nil { log.Printf("Failed to execute batch insert query: %v\n", err) return } log.Printf("Successfully executed batch statement\n") log.Printf("%d records were added to the Movies table.\n", numRecords) } // QueryMoviesByYear retrieves only movies from the "Movies" table which match the given year. func (runner *RedshiftBasicsScenario) QueryMoviesByYear(ctx context.Context, clusterId string, databaseName string, tableName string, userName string, year int) { sqlStatement := fmt.Sprintf(`SELECT title FROM %s WHERE year = %d;`, tableName, year) input := &redshiftdata.ExecuteStatementInput{ ClusterIdentifier: aws.String(clusterId), Database: aws.String(databaseName), DbUser: aws.String(userName), Sql: aws.String(sqlStatement), } result, err := runner.redshiftDataActor.ExecuteStatement(ctx, *input) if err != nil { log.Printf("Failed to query movies: %v\n", err) panic(err) } log.Println("The identifier of the statement is ", *result.Id) describeInput := redshiftdata.DescribeStatementInput{ Id: result.Id, } query := actions.RedshiftQuery{ Context: ctx, Input: describeInput, Result: result, } err = runner.redshiftDataActor.WaitForQueryStatus(query, runner.pauser, true) if err != nil { log.Printf("Failed to execute query: %v\n", err) panic(err) } log.Printf("Successfully executed query\n") getResultOutput, err := runner.redshiftDataActor.GetStatementResult(ctx, *result.Id) if err != nil { log.Printf("Failed to query movies: %v\n", err) panic(err) } for _, row := range getResultOutput.Records { for _, col := range row { title, ok := col.(*redshiftdata_types.FieldMemberStringValue) if !ok { log.Println("Failed to parse the field") } else { log.Printf("The Movie title field is %s\n", title.Value) } } } }
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API 세부 정보는 AWS SDK for Go API 참조의 다음 주제를 참조하세요.
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- Java
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- Java 2.x용 SDK
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참고
더 많은 on GitHub가 있습니다. AWS 코드 예시 리포지토리
에서 전체 예시를 찾고 설정 및 실행하는 방법을 배워보세요. Amazon Redshift 기능을 시연하는 대화형 시나리오를 실행합니다.
import com.example.redshift.User; import com.google.gson.Gson; import org.slf4j.Logger; import org.slf4j.LoggerFactory; import software.amazon.awssdk.regions.Region; import software.amazon.awssdk.services.redshift.model.ClusterAlreadyExistsException; import software.amazon.awssdk.services.redshift.model.CreateClusterResponse; import software.amazon.awssdk.services.redshift.model.DeleteClusterResponse; import software.amazon.awssdk.services.redshift.model.ModifyClusterResponse; import software.amazon.awssdk.services.redshift.model.RedshiftException; import software.amazon.awssdk.services.redshiftdata.model.ExecuteStatementResponse; import software.amazon.awssdk.services.redshiftdata.model.RedshiftDataException; import java.util.Scanner; import java.util.concurrent.CompletableFuture; import software.amazon.awssdk.services.secretsmanager.SecretsManagerClient; import software.amazon.awssdk.services.secretsmanager.model.GetSecretValueRequest; import software.amazon.awssdk.services.secretsmanager.model.GetSecretValueResponse; /** * Before running this Java V2 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-java/latest/developer-guide/get-started.html * * * This example requires an AWS Secrets Manager secret that contains the * database credentials. If you do not create a * secret that specifies user name and password, this example will not work. For details, see: * * https://docs.aws.amazon.com/secretsmanager/latest/userguide/integrating_how-services-use-secrets_RS.html * This Java example performs these tasks: * * 1. Prompts the user for a unique cluster ID or use the default value. * 2. Creates a Redshift cluster with the specified or default cluster Id value. * 3. Waits until the Redshift cluster is available for use. * 4. Lists all databases using a pagination API call. * 5. Creates a table named "Movies" with fields ID, title, and year. * 6. Inserts a specified number of records into the "Movies" table by reading the Movies JSON file. * 7. Prompts the user for a movie release year. * 8. Runs a SQL query to retrieve movies released in the specified year. * 9. Modifies the Redshift cluster. * 10. Prompts the user for confirmation to delete the Redshift cluster. * 11. If confirmed, deletes the specified Redshift cluster. */ public class RedshiftScenario { public static final String DASHES = new String(new char[80]).replace("\0", "-"); private static final Logger logger = LoggerFactory.getLogger(RedshiftScenario.class); static RedshiftActions redshiftActions = new RedshiftActions(); public static void main(String[] args) throws Exception { final String usage = """ Usage: <jsonFilePath> <secretName>\s Where: jsonFilePath - The path to the Movies JSON file (you can locate that file in ../../../resources/sample_files/movies.json) secretName - The name of the secret that belongs to Secret Manager that stores the user name and password used in this scenario. """; if (args.length != 2) { logger.info(usage); return; } String jsonFilePath = args[0]; String secretName = args[1]; Scanner scanner = new Scanner(System.in); logger.info(DASHES); logger.info("Welcome to the Amazon Redshift SDK Basics scenario."); logger.info(""" This Java program demonstrates how to interact with Amazon Redshift by using the AWS SDK for Java (v2).\s Amazon Redshift is a fully managed, petabyte-scale data warehouse service hosted in the cloud. The program's primary functionalities include cluster creation, verification of cluster readiness,\s list databases, table creation, data population within the table, and execution of SQL statements. Furthermore, it demonstrates the process of querying data from the Movie table.\s Upon completion of the program, all AWS resources are cleaned up. """); logger.info("Lets get started..."); logger.info(""" First, we will retrieve the user name and password from Secrets Manager. Using Amazon Secrets Manager to store Redshift credentials provides several security benefits. It allows you to securely store and manage sensitive information, such as passwords, API keys, and database credentials, without embedding them directly in your application code. More information can be found here: https://docs.aws.amazon.com/secretsmanager/latest/userguide/integrating_how-services-use-secrets_RS.html """); Gson gson = new Gson(); User user = gson.fromJson(String.valueOf(getSecretValues(secretName)), User.class); waitForInputToContinue(scanner); logger.info(DASHES); try { runScenario(user, scanner, jsonFilePath); } catch (RuntimeException e) { e.printStackTrace(); } catch (Throwable e) { throw new RuntimeException(e); } } private static void runScenario(User user, Scanner scanner, String jsonFilePath) throws Throwable { String databaseName = "dev"; System.out.println(DASHES); logger.info("Create a Redshift Cluster"); logger.info("A Redshift cluster refers to the collection of computing resources and storage that work together to process and analyze large volumes of data."); logger.info("Enter a cluster id value or accept the default by hitting Enter (default is redshift-cluster-movies): "); String userClusterId = scanner.nextLine(); String clusterId = userClusterId.isEmpty() ? "redshift-cluster-movies" : userClusterId; try { CompletableFuture<CreateClusterResponse> future = redshiftActions.createClusterAsync(clusterId, user.getUserName(), user.getUserPassword()); CreateClusterResponse response = future.join(); logger.info("Cluster successfully created. Cluster Identifier {} ", response.cluster().clusterIdentifier()); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof ClusterAlreadyExistsException) { logger.info("The Cluster {} already exists. Moving on...", clusterId); } else { logger.info("An unexpected error occurred: " + rt.getMessage()); } } logger.info(DASHES); logger.info(DASHES); logger.info("Wait until {} is available.", clusterId); waitForInputToContinue(scanner); try { CompletableFuture<Void> future = redshiftActions.waitForClusterReadyAsync(clusterId); future.join(); logger.info("Cluster is ready!"); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof RedshiftException redshiftEx) { logger.info("Redshift error occurred: Error message: {}, Error code {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode()); } else { logger.info("An unexpected error occurred: " + rt.getMessage()); } throw cause; } logger.info(DASHES); logger.info(DASHES); String databaseInfo = """ When you created $clusteridD, the dev database is created by default and used in this scenario.\s To create a custom database, you need to have a CREATEDB privilege.\s For more information, see the documentation here: https://docs.aws.amazon.com/redshift/latest/dg/r_CREATE_DATABASE.html. """.replace("$clusteridD", clusterId); logger.info(databaseInfo); waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("List databases in {} ",clusterId); waitForInputToContinue(scanner); try { CompletableFuture<Void> future = redshiftActions.listAllDatabasesAsync(clusterId, user.getUserName(), "dev"); future.join(); logger.info("Databases listed successfully."); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof RedshiftDataException redshiftEx) { logger.error("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode()); } else { logger.error("An unexpected error occurred: {}", rt.getMessage()); } throw cause; } logger.info(DASHES); logger.info(DASHES); logger.info("Now you will create a table named Movies."); waitForInputToContinue(scanner); try { CompletableFuture<ExecuteStatementResponse> future = redshiftActions.createTableAsync(clusterId, databaseName, user.getUserName()); future.join(); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof RedshiftDataException redshiftEx) { logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode()); } else { logger.info("An unexpected error occurred: {}", rt.getMessage()); } throw cause; } logger.info(DASHES); logger.info(DASHES); logger.info("Populate the Movies table using the Movies.json file."); logger.info("Specify the number of records you would like to add to the Movies Table."); logger.info("Please enter a value between 50 and 200."); int numRecords; do { logger.info("Enter a value: "); while (!scanner.hasNextInt()) { logger.info("Invalid input. Please enter a value between 50 and 200."); logger.info("Enter a year: "); scanner.next(); } numRecords = scanner.nextInt(); } while (numRecords < 50 || numRecords > 200); try { redshiftActions.popTableAsync(clusterId, databaseName, user.getUserName(), jsonFilePath, numRecords).join(); // Wait for the operation to complete } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof RedshiftDataException redshiftEx) { logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode()); } else { logger.info("An unexpected error occurred: {}", rt.getMessage()); } throw cause; } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("Query the Movies table by year. Enter a value between 2012-2014."); int movieYear; do { logger.info("Enter a year: "); while (!scanner.hasNextInt()) { logger.info("Invalid input. Please enter a valid year between 2012 and 2014."); logger.info("Enter a year: "); scanner.next(); } movieYear = scanner.nextInt(); scanner.nextLine(); } while (movieYear < 2012 || movieYear > 2014); String id; try { CompletableFuture<String> future = redshiftActions.queryMoviesByYearAsync(databaseName, user.getUserName(), movieYear, clusterId); id = future.join(); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof RedshiftDataException redshiftEx) { logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode()); } else { logger.info("An unexpected error occurred: {}", rt.getMessage()); } throw cause; } logger.info("The identifier of the statement is " + id); waitForInputToContinue(scanner); try { CompletableFuture<Void> future = redshiftActions.checkStatementAsync(id); future.join(); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof RedshiftDataException redshiftEx) { logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode()); } else { logger.info("An unexpected error occurred: {}", rt.getMessage()); } throw cause; } waitForInputToContinue(scanner); try { CompletableFuture<Void> future = redshiftActions.getResultsAsync(id); future.join(); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof RedshiftDataException redshiftEx) { logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode()); } else { logger.info("An unexpected error occurred: {}", rt.getMessage()); } throw cause; } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("Now you will modify the Redshift cluster."); waitForInputToContinue(scanner); try { CompletableFuture<ModifyClusterResponse> future = redshiftActions.modifyClusterAsync(clusterId);; future.join(); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof RedshiftDataException redshiftEx) { logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode()); } else { logger.info("An unexpected error occurred: {}", rt.getMessage()); } throw cause; } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("Would you like to delete the Amazon Redshift cluster? (y/n)"); String delAns = scanner.nextLine().trim(); if (delAns.equalsIgnoreCase("y")) { logger.info("You selected to delete {} ", clusterId); waitForInputToContinue(scanner); try { CompletableFuture<DeleteClusterResponse> future = redshiftActions.deleteRedshiftClusterAsync(clusterId);; future.join(); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof RedshiftDataException redshiftEx) { logger.info("Redshift Data error occurred: {} Error code: {}", redshiftEx.getMessage(), redshiftEx.awsErrorDetails().errorCode()); } else { logger.info("An unexpected error occurred: {}", rt.getMessage()); } throw cause; } } else { logger.info("The {} was not deleted", clusterId); } logger.info(DASHES); logger.info(DASHES); logger.info("This concludes the Amazon Redshift SDK Basics scenario."); logger.info(DASHES); } private static SecretsManagerClient getSecretClient() { Region region = Region.US_EAST_1; return SecretsManagerClient.builder() .region(region) .build(); } private static void waitForInputToContinue(Scanner scanner) { while (true) { System.out.println(""); System.out.println("Enter 'c' followed by <ENTER> to continue:"); String input = scanner.nextLine(); if (input.trim().equalsIgnoreCase("c")) { System.out.println("Continuing with the program..."); System.out.println(""); break; } else { // Handle invalid input. System.out.println("Invalid input. Please try again."); } } } // Get the Amazon Redshift credentials from AWS Secrets Manager. private static String getSecretValues(String secretName) { SecretsManagerClient secretClient = getSecretClient(); GetSecretValueRequest valueRequest = GetSecretValueRequest.builder() .secretId(secretName) .build(); GetSecretValueResponse valueResponse = secretClient.getSecretValue(valueRequest); return valueResponse.secretString(); } }
Amazon Redshift SDK 메서드의 래퍼 클래스입니다.
public class RedshiftActions { private static final Logger logger = LoggerFactory.getLogger(RedshiftActions.class); private static RedshiftDataAsyncClient redshiftDataAsyncClient; private static RedshiftAsyncClient redshiftAsyncClient; private static RedshiftAsyncClient getAsyncClient() { if (redshiftAsyncClient == null) { SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder() .maxConcurrency(100) .connectionTimeout(Duration.ofSeconds(60)) .readTimeout(Duration.ofSeconds(60)) .writeTimeout(Duration.ofSeconds(60)) .build(); ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder() .apiCallTimeout(Duration.ofMinutes(2)) .apiCallAttemptTimeout(Duration.ofSeconds(90)) .retryStrategy(RetryMode.STANDARD) .build(); redshiftAsyncClient = RedshiftAsyncClient.builder() .httpClient(httpClient) .overrideConfiguration(overrideConfig) .credentialsProvider(EnvironmentVariableCredentialsProvider.create()) .build(); } return redshiftAsyncClient; } private static RedshiftDataAsyncClient getAsyncDataClient() { if (redshiftDataAsyncClient == null) { SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder() .maxConcurrency(100) .connectionTimeout(Duration.ofSeconds(60)) .readTimeout(Duration.ofSeconds(60)) .writeTimeout(Duration.ofSeconds(60)) .build(); ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder() .apiCallTimeout(Duration.ofMinutes(2)) .apiCallAttemptTimeout(Duration.ofSeconds(90)) .retryStrategy(RetryMode.STANDARD) .build(); redshiftDataAsyncClient = RedshiftDataAsyncClient.builder() .httpClient(httpClient) .overrideConfiguration(overrideConfig) .credentialsProvider(EnvironmentVariableCredentialsProvider.create()) .build(); } return redshiftDataAsyncClient; } /** * Creates a new Amazon Redshift cluster asynchronously. * @param clusterId the unique identifier for the cluster * @param username the username for the administrative user * @param userPassword the password for the administrative user * @return a CompletableFuture that represents the asynchronous operation of creating the cluster * @throws RuntimeException if the cluster creation fails */ public CompletableFuture<CreateClusterResponse> createClusterAsync(String clusterId, String username, String userPassword) { CreateClusterRequest clusterRequest = CreateClusterRequest.builder() .clusterIdentifier(clusterId) .masterUsername(username) .masterUserPassword(userPassword) .nodeType("ra3.4xlarge") .publiclyAccessible(true) .numberOfNodes(2) .build(); return getAsyncClient().createCluster(clusterRequest) .whenComplete((response, exception) -> { if (response != null) { logger.info("Created cluster "); } else { throw new RuntimeException("Failed to create cluster: " + exception.getMessage(), exception); } }); } /** * Waits asynchronously for the specified cluster to become available. * @param clusterId the identifier of the cluster to wait for * @return a {@link CompletableFuture} that completes when the cluster is ready */ public CompletableFuture<Void> waitForClusterReadyAsync(String clusterId) { DescribeClustersRequest clustersRequest = DescribeClustersRequest.builder() .clusterIdentifier(clusterId) .build(); logger.info("Waiting for cluster to become available. This may take a few minutes."); long startTime = System.currentTimeMillis(); // Recursive method to poll the cluster status. return checkClusterStatusAsync(clustersRequest, startTime); } private CompletableFuture<Void> checkClusterStatusAsync(DescribeClustersRequest clustersRequest, long startTime) { return getAsyncClient().describeClusters(clustersRequest) .thenCompose(clusterResponse -> { List<Cluster> clusterList = clusterResponse.clusters(); boolean clusterReady = false; for (Cluster cluster : clusterList) { if ("available".equals(cluster.clusterStatus())) { clusterReady = true; break; } } if (clusterReady) { logger.info(String.format("Cluster is available!")); return CompletableFuture.completedFuture(null); } else { long elapsedTimeMillis = System.currentTimeMillis() - startTime; long elapsedSeconds = elapsedTimeMillis / 1000; long minutes = elapsedSeconds / 60; long seconds = elapsedSeconds % 60; System.out.printf("\rElapsed Time: %02d:%02d - Waiting for cluster...", minutes, seconds); System.out.flush(); // Wait 1 second before the next status check return CompletableFuture.runAsync(() -> { try { TimeUnit.SECONDS.sleep(1); } catch (InterruptedException e) { throw new RuntimeException("Error during sleep: " + e.getMessage(), e); } }).thenCompose(ignored -> checkClusterStatusAsync(clustersRequest, startTime)); } }).exceptionally(exception -> { throw new RuntimeException("Failed to get cluster status: " + exception.getMessage(), exception); }); } /** * Lists all databases asynchronously for the specified cluster, database user, and database. * @param clusterId the identifier of the cluster to list databases for * @param dbUser the database user to use for the list databases request * @param database the database to list databases for * @return a {@link CompletableFuture} that completes when the database listing is complete, or throws a {@link RuntimeException} if there was an error */ public CompletableFuture<Void> listAllDatabasesAsync(String clusterId, String dbUser, String database) { ListDatabasesRequest databasesRequest = ListDatabasesRequest.builder() .clusterIdentifier(clusterId) .dbUser(dbUser) .database(database) .build(); // Asynchronous paginator for listing databases. ListDatabasesPublisher databasesPaginator = getAsyncDataClient().listDatabasesPaginator(databasesRequest); CompletableFuture<Void> future = databasesPaginator.subscribe(response -> { response.databases().forEach(db -> { logger.info("The database name is {} ", db); }); }); // Return the future for asynchronous handling. return future.exceptionally(exception -> { throw new RuntimeException("Failed to list databases: " + exception.getMessage(), exception); }); } /** * Creates an asynchronous task to execute a SQL statement for creating a new table. * * @param clusterId the identifier of the Amazon Redshift cluster * @param databaseName the name of the database to create the table in * @param userName the username to use for the database connection * @return a {@link CompletableFuture} that completes with the result of the SQL statement execution * @throws RuntimeException if there is an error creating the table */ public CompletableFuture<ExecuteStatementResponse> createTableAsync(String clusterId, String databaseName, String userName) { ExecuteStatementRequest createTableRequest = ExecuteStatementRequest.builder() .clusterIdentifier(clusterId) .dbUser(userName) .database(databaseName) .sql("CREATE TABLE Movies (" + "id INT PRIMARY KEY, " + "title VARCHAR(100), " + "year INT)") .build(); return getAsyncDataClient().executeStatement(createTableRequest) .whenComplete((response, exception) -> { if (exception != null) { throw new RuntimeException("Error creating table: " + exception.getMessage(), exception); } else { logger.info("Table created: Movies"); } }); } /** * Asynchronously pops a table from a JSON file. * * @param clusterId the ID of the cluster * @param databaseName the name of the database * @param userName the username * @param fileName the name of the JSON file * @param number the number of records to process * @return a CompletableFuture that completes with the number of records added to the Movies table */ public CompletableFuture<Integer> popTableAsync(String clusterId, String databaseName, String userName, String fileName, int number) { return CompletableFuture.supplyAsync(() -> { try { JsonParser parser = new JsonFactory().createParser(new File(fileName)); JsonNode rootNode = new ObjectMapper().readTree(parser); Iterator<JsonNode> iter = rootNode.iterator(); return iter; } catch (IOException e) { throw new RuntimeException("Failed to read or parse JSON file: " + e.getMessage(), e); } }).thenCompose(iter -> processNodesAsync(clusterId, databaseName, userName, iter, number)) .whenComplete((result, exception) -> { if (exception != null) { logger.info("Error {} ", exception.getMessage()); } else { logger.info("{} records were added to the Movies table." , result); } }); } private CompletableFuture<Integer> processNodesAsync(String clusterId, String databaseName, String userName, Iterator<JsonNode> iter, int number) { return CompletableFuture.supplyAsync(() -> { int t = 0; try { while (iter.hasNext()) { if (t == number) break; JsonNode currentNode = iter.next(); int year = currentNode.get("year").asInt(); String title = currentNode.get("title").asText(); // Use SqlParameter to avoid SQL injection. List<SqlParameter> parameterList = new ArrayList<>(); String sqlStatement = "INSERT INTO Movies VALUES( :id , :title, :year);"; SqlParameter idParam = SqlParameter.builder() .name("id") .value(String.valueOf(t)) .build(); SqlParameter titleParam = SqlParameter.builder() .name("title") .value(title) .build(); SqlParameter yearParam = SqlParameter.builder() .name("year") .value(String.valueOf(year)) .build(); parameterList.add(idParam); parameterList.add(titleParam); parameterList.add(yearParam); ExecuteStatementRequest insertStatementRequest = ExecuteStatementRequest.builder() .clusterIdentifier(clusterId) .sql(sqlStatement) .database(databaseName) .dbUser(userName) .parameters(parameterList) .build(); getAsyncDataClient().executeStatement(insertStatementRequest); logger.info("Inserted: " + title + " (" + year + ")"); t++; } } catch (RedshiftDataException e) { throw new RuntimeException("Error inserting data: " + e.getMessage(), e); } return t; }); } /** * Checks the status of an SQL statement asynchronously and handles the completion of the statement. * * @param sqlId the ID of the SQL statement to check * @return a {@link CompletableFuture} that completes when the SQL statement's status is either "FINISHED" or "FAILED" */ public CompletableFuture<Void> checkStatementAsync(String sqlId) { DescribeStatementRequest statementRequest = DescribeStatementRequest.builder() .id(sqlId) .build(); return getAsyncDataClient().describeStatement(statementRequest) .thenCompose(response -> { String status = response.statusAsString(); logger.info("... Status: {} ", status); if ("FAILED".equals(status)) { throw new RuntimeException("The Query Failed. Ending program"); } else if ("FINISHED".equals(status)) { return CompletableFuture.completedFuture(null); } else { // Sleep for 1 second and recheck status return CompletableFuture.runAsync(() -> { try { TimeUnit.SECONDS.sleep(1); } catch (InterruptedException e) { throw new RuntimeException("Error during sleep: " + e.getMessage(), e); } }).thenCompose(ignore -> checkStatementAsync(sqlId)); // Recursively call until status is FINISHED or FAILED } }).whenComplete((result, exception) -> { if (exception != null) { // Handle exceptions logger.info("Error: {} ", exception.getMessage()); } else { logger.info("The statement is finished!"); } }); } /** * Asynchronously retrieves the results of a statement execution. * * @param statementId the ID of the statement for which to retrieve the results * @return a {@link CompletableFuture} that completes when the statement result has been processed */ public CompletableFuture<Void> getResultsAsync(String statementId) { GetStatementResultRequest resultRequest = GetStatementResultRequest.builder() .id(statementId) .build(); return getAsyncDataClient().getStatementResult(resultRequest) .handle((response, exception) -> { if (exception != null) { logger.info("Error getting statement result {} ", exception.getMessage()); throw new RuntimeException("Error getting statement result: " + exception.getMessage(), exception); } // Extract and print the field values using streams if the response is valid. response.records().stream() .flatMap(List::stream) .map(Field::stringValue) .filter(value -> value != null) .forEach(value -> System.out.println("The Movie title field is " + value)); return response; }).thenAccept(response -> { // Optionally add more logic here if needed after handling the response }); } /** * Asynchronously queries movies by a given year from a Redshift database. * * @param database the name of the database to query * @param dbUser the user to connect to the database with * @param year the year to filter the movies by * @param clusterId the identifier of the Redshift cluster to connect to * @return a {@link CompletableFuture} containing the response ID of the executed SQL statement */ public CompletableFuture<String> queryMoviesByYearAsync(String database, String dbUser, int year, String clusterId) { String sqlStatement = "SELECT * FROM Movies WHERE year = :year"; SqlParameter yearParam = SqlParameter.builder() .name("year") .value(String.valueOf(year)) .build(); ExecuteStatementRequest statementRequest = ExecuteStatementRequest.builder() .clusterIdentifier(clusterId) .database(database) .dbUser(dbUser) .parameters(yearParam) .sql(sqlStatement) .build(); return CompletableFuture.supplyAsync(() -> { try { ExecuteStatementResponse response = getAsyncDataClient().executeStatement(statementRequest).join(); // Use join() to wait for the result return response.id(); } catch (RedshiftDataException e) { throw new RuntimeException("Error executing statement: " + e.getMessage(), e); } }).exceptionally(exception -> { logger.info("Error: {}", exception.getMessage()); return ""; }); } /** * Modifies an Amazon Redshift cluster asynchronously. * * @param clusterId the identifier of the cluster to be modified * @return a {@link CompletableFuture} that completes when the cluster modification is complete */ public CompletableFuture<ModifyClusterResponse> modifyClusterAsync(String clusterId) { ModifyClusterRequest modifyClusterRequest = ModifyClusterRequest.builder() .clusterIdentifier(clusterId) .preferredMaintenanceWindow("wed:07:30-wed:08:00") .build(); return getAsyncClient().modifyCluster(modifyClusterRequest) .whenComplete((clusterResponse, exception) -> { if (exception != null) { if (exception.getCause() instanceof RedshiftException) { logger.info("Error: {} ", exception.getMessage()); } else { logger.info("Unexpected error: {} ", exception.getMessage()); } } else { logger.info("The modified cluster was successfully modified and has " + clusterResponse.cluster().preferredMaintenanceWindow() + " as the maintenance window"); } }); } /** * Deletes a Redshift cluster asynchronously. * * @param clusterId the identifier of the Redshift cluster to be deleted * @return a {@link CompletableFuture} that represents the asynchronous operation of deleting the Redshift cluster */ public CompletableFuture<DeleteClusterResponse> deleteRedshiftClusterAsync(String clusterId) { DeleteClusterRequest deleteClusterRequest = DeleteClusterRequest.builder() .clusterIdentifier(clusterId) .skipFinalClusterSnapshot(true) .build(); return getAsyncClient().deleteCluster(deleteClusterRequest) .whenComplete((response, exception) -> { if (exception != null) { // Handle exceptions if (exception.getCause() instanceof RedshiftException) { logger.info("Error: {}", exception.getMessage()); } else { logger.info("Unexpected error: {}", exception.getMessage()); } } else { // Handle successful response logger.info("The status is {}", response.cluster().clusterStatus()); } }); } }
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API 세부 정보는 AWS SDK for Java 2.x API 참조의 다음 주제를 참조하세요.
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- Python
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- Python용 SDK(Boto3)
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참고
더 많은 on GitHub가 있습니다. AWS 코드 예시 리포지토리
에서 전체 예시를 찾고 설정 및 실행하는 방법을 배워보세요. class RedshiftScenario: """Runs an interactive scenario that shows how to get started with Redshift.""" def __init__(self, redshift_wrapper, redshift_data_wrapper): self.redshift_wrapper = redshift_wrapper self.redshift_data_wrapper = redshift_data_wrapper def redhift_scenario(self, json_file_path): database_name = "dev" print(DASHES) print("Welcome to the Amazon Redshift SDK Getting Started example.") print( """ This Python program demonstrates how to interact with Amazon Redshift using the AWS SDK for Python (Boto3). Amazon Redshift is a fully managed, petabyte-scale data warehouse service hosted in the cloud. The program's primary functionalities include cluster creation, verification of cluster readiness, listing databases, table creation, populating data within the table, and executing SQL statements. It also demonstrates querying data from the Movies table. Upon completion, all AWS resources are cleaned up. """ ) if not os.path.isfile(json_file_path): logging.error(f"The file {json_file_path} does not exist.") return print("Let's get started...") user_name = q.ask("Please enter your user name (default is awsuser):") user_name = user_name if user_name else "awsuser" print(DASHES) user_password = q.ask( "Please enter your user password (default is AwsUser1000):" ) user_password = user_password if user_password else "AwsUser1000" print(DASHES) print( """A Redshift cluster refers to the collection of computing resources and storage that work together to process and analyze large volumes of data.""" ) cluster_id = q.ask( "Enter a cluster identifier value (default is redshift-cluster-movies): " ) cluster_id = cluster_id if cluster_id else "redshift-cluster-movies" self.redshift_wrapper.create_cluster( cluster_id, "ra3.4xlarge", user_name, user_password, True, 2 ) print(DASHES) print(f"Wait until {cluster_id} is available. This may take a few minutes...") q.ask("Press Enter to continue...") self.wait_cluster_available(cluster_id) print(DASHES) print( f""" When you created {cluster_id}, the dev database is created by default and used in this scenario. To create a custom database, you need to have a CREATEDB privilege. For more information, see the documentation here: https://docs.aws.amazon.com/redshift/latest/dg/r_CREATE_DATABASE.html. """ ) q.ask("Press Enter to continue...") print(DASHES) print(DASHES) print(f"List databases in {cluster_id}") q.ask("Press Enter to continue...") databases = self.redshift_data_wrapper.list_databases( cluster_id, database_name, user_name ) print(f"The cluster contains {len(databases)} database(s).") for database in databases: print(f" Database: {database}") print(DASHES) print(DASHES) print("Now you will create a table named Movies.") q.ask("Press Enter to continue...") self.create_table(cluster_id, database_name, user_name) print(DASHES) print("Populate the Movies table using the Movies.json file.") print( "Specify the number of records you would like to add to the Movies Table." ) print("Please enter a value between 50 and 200.") while True: try: num_records = int(q.ask("Enter a value: ", q.is_int)) if 50 <= num_records <= 200: break else: print("Invalid input. Please enter a value between 50 and 200.") except ValueError: print("Invalid input. Please enter a value between 50 and 200.") self.populate_table( cluster_id, database_name, user_name, json_file_path, num_records ) print(DASHES) print("Query the Movies table by year. Enter a value between 2012-2014.") while True: movie_year = int(q.ask("Enter a year: ", q.is_int)) if 2012 <= movie_year <= 2014: break else: print("Invalid input. Please enter a valid year between 2012 and 2014.") # Function to query database sql_id = self.query_movies_by_year( database_name, user_name, movie_year, cluster_id ) print(f"The identifier of the statement is {sql_id}") print("Checking statement status...") self.wait_statement_finished(sql_id) result = self.redshift_data_wrapper.get_statement_result(sql_id) self.display_movies(result) print(DASHES) print(DASHES) print("Now you will modify the Redshift cluster.") q.ask("Press Enter to continue...") preferred_maintenance_window = "wed:07:30-wed:08:00" self.redshift_wrapper.modify_cluster(cluster_id, preferred_maintenance_window) print(DASHES) print(DASHES) delete = q.ask("Do you want to delete the cluster? (y/n) ", q.is_yesno) if delete: print(f"You selected to delete {cluster_id}") q.ask("Press Enter to continue...") self.redshift_wrapper.delete_cluster(cluster_id) else: print(f"Cluster {cluster_id}cluster_id was not deleted") print(DASHES) print("This concludes the Amazon Redshift SDK Getting Started scenario.") print(DASHES) def create_table(self, cluster_id, database, username): self.redshift_data_wrapper.execute_statement( cluster_identifier=cluster_id, database_name=database, user_name=username, sql="CREATE TABLE Movies (statement_id INT PRIMARY KEY, title VARCHAR(100), year INT)", ) print("Table created: Movies") def populate_table(self, cluster_id, database, username, file_name, number): with open(file_name) as f: data = json.load(f) i = 0 for record in data: if i == number: break statement_id = i title = record["title"] year = record["year"] i = i + 1 parameters = [ {"name": "statement_id", "value": str(statement_id)}, {"name": "title", "value": title}, {"name": "year", "value": str(year)}, ] self.redshift_data_wrapper.execute_statement( cluster_identifier=cluster_id, database_name=database, user_name=username, sql="INSERT INTO Movies VALUES(:statement_id, :title, :year)", parameter_list=parameters, ) print(f"{i} records inserted into Movies table") def wait_cluster_available(self, cluster_id): """ Waits for a cluster to be available. :param cluster_id: The cluster identifier. Note: The cluster_available waiter can also be used. It is not used in this case to allow an elapsed time message. """ cluster_ready = False start_time = time.time() while not cluster_ready: time.sleep(30) cluster = self.redshift_wrapper.describe_clusters(cluster_id) status = cluster[0]["ClusterStatus"] if status == "available": cluster_ready = True elif status != "creating": raise Exception( f"Cluster {cluster_id} creation failed with status {status}." ) elapsed_seconds = int(round(time.time() - start_time)) minutes = int(elapsed_seconds // 60) seconds = int(elapsed_seconds % 60) print(f"Elapsed Time: {minutes}:{seconds:02d} - status {status}...") if minutes > 30: raise Exception( f"Cluster {cluster_id} is not available after 30 minutes." ) def query_movies_by_year(self, database, username, year, cluster_id): sql = "SELECT * FROM Movies WHERE year = :year" params = [{"name": "year", "value": str(year)}] response = self.redshift_data_wrapper.execute_statement( cluster_identifier=cluster_id, database_name=database, user_name=username, sql=sql, parameter_list=params, ) return response["Id"] @staticmethod def display_movies(response): metadata = response["ColumnMetadata"] records = response["Records"] title_column_index = None for i in range(len(metadata)): if metadata[i]["name"] == "title": title_column_index = i break if title_column_index is None: print("No title column found.") return print(f"Found {len(records)} movie(s).") for record in records: print(f" {record[title_column_index]['stringValue']}") def wait_statement_finished(self, sql_id): while True: time.sleep(1) response = self.redshift_data_wrapper.describe_statement(sql_id) status = response["Status"] print(f"Statement status is {status}.") if status == "FAILED": print(f"The query failed because {response['Error']}. Ending program") raise Exception("The Query Failed. Ending program") elif status == "FINISHED": break
시나리오 구현을 보여주는 메인 함수입니다.
def main(): redshift_client = boto3.client("redshift") redshift_data_client = boto3.client("redshift-data") redshift_wrapper = RedshiftWrapper(redshift_client) redshift_data_wrapper = RedshiftDataWrapper(redshift_data_client) redshift_scenario = RedshiftScenario(redshift_wrapper, redshift_data_wrapper) redshift_scenario.redhift_scenario( f"{os.path.dirname(__file__)}/../../../resources/sample_files/movies.json" )
시나리오에 사용된 래퍼 함수입니다.
def create_cluster( self, cluster_identifier, node_type, master_username, master_user_password, publicly_accessible, number_of_nodes, ): """ Creates a cluster. :param cluster_identifier: The name of the cluster. :param node_type: The type of node in the cluster. :param master_username: The master username. :param master_user_password: The master user password. :param publicly_accessible: Whether the cluster is publicly accessible. :param number_of_nodes: The number of nodes in the cluster. :return: The cluster. """ try: cluster = self.client.create_cluster( ClusterIdentifier=cluster_identifier, NodeType=node_type, MasterUsername=master_username, MasterUserPassword=master_user_password, PubliclyAccessible=publicly_accessible, NumberOfNodes=number_of_nodes, ) return cluster except ClientError as err: logging.error( "Couldn't create a cluster. Here's why: %s: %s", err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise def describe_clusters(self, cluster_identifier): """ Describes a cluster. :param cluster_identifier: The cluster identifier. :return: A list of clusters. """ try: kwargs = {} if cluster_identifier: kwargs["ClusterIdentifier"] = cluster_identifier paginator = self.client.get_paginator("describe_clusters") clusters = [] for page in paginator.paginate(**kwargs): clusters.extend(page["Clusters"]) return clusters except ClientError as err: logging.error( "Couldn't describe a cluster. Here's why: %s: %s", err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise def execute_statement( self, cluster_identifier, database_name, user_name, sql, parameter_list=None ): """ Executes a SQL statement. :param cluster_identifier: The cluster identifier. :param database_name: The database name. :param user_name: The user's name. :param sql: The SQL statement. :param parameter_list: The optional SQL statement parameters. :return: The SQL statement result. """ try: kwargs = { "ClusterIdentifier": cluster_identifier, "Database": database_name, "DbUser": user_name, "Sql": sql, } if parameter_list: kwargs["Parameters"] = parameter_list response = self.client.execute_statement(**kwargs) return response except ClientError as err: logging.error( "Couldn't execute statement. Here's why: %s: %s", err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise def describe_statement(self, statement_id): """ Describes a SQL statement. :param statement_id: The SQL statement identifier. :return: The SQL statement result. """ try: response = self.client.describe_statement(Id=statement_id) return response except ClientError as err: logging.error( "Couldn't describe statement. Here's why: %s: %s", err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise def get_statement_result(self, statement_id): """ Gets the result of a SQL statement. :param statement_id: The SQL statement identifier. :return: The SQL statement result. """ try: result = { "Records": [], } paginator = self.client.get_paginator("get_statement_result") for page in paginator.paginate(Id=statement_id): if "ColumnMetadata" not in result: result["ColumnMetadata"] = page["ColumnMetadata"] result["Records"].extend(page["Records"]) return result except ClientError as err: logging.error( "Couldn't get statement result. Here's why: %s: %s", err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise def modify_cluster(self, cluster_identifier, preferred_maintenance_window): """ Modifies a cluster. :param cluster_identifier: The cluster identifier. :param preferred_maintenance_window: The preferred maintenance window. """ try: self.client.modify_cluster( ClusterIdentifier=cluster_identifier, PreferredMaintenanceWindow=preferred_maintenance_window, ) except ClientError as err: logging.error( "Couldn't modify a cluster. Here's why: %s: %s", err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise def list_databases(self, cluster_identifier, database_name, database_user): """ Lists databases in a cluster. :param cluster_identifier: The cluster identifier. :param database_name: The database name. :param database_user: The database user. :return: The list of databases. """ try: paginator = self.client.get_paginator("list_databases") databases = [] for page in paginator.paginate( ClusterIdentifier=cluster_identifier, Database=database_name, DbUser=database_user, ): databases.extend(page["Databases"]) return databases except ClientError as err: logging.error( "Couldn't list databases. Here's why: %s: %s", err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise def delete_cluster(self, cluster_identifier): """ Deletes a cluster. :param cluster_identifier: The cluster identifier. """ try: self.client.delete_cluster( ClusterIdentifier=cluster_identifier, SkipFinalClusterSnapshot=True ) except ClientError as err: logging.error( "Couldn't delete a cluster. Here's why: %s: %s", err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise
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API 세부 정보는 AWS SDK for Python(Boto3) API 참조의 다음 주제를 참조하세요.
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Hello Amazon Redshift
작업