Example usage for com.amazonaws.auth PropertiesCredentials PropertiesCredentials

List of usage examples for com.amazonaws.auth PropertiesCredentials PropertiesCredentials

Introduction

In this page you can find the example usage for com.amazonaws.auth PropertiesCredentials PropertiesCredentials.

Prototype

public PropertiesCredentials(InputStream inputStream) throws IOException 

Source Link

Document

Reads the specified input stream as a stream of Java properties file content and extracts the AWS access key ID and secret access key from the properties.

Usage

From source file:aws.sample.InlineGettingStartedCodeSampleApp.java

License:Open Source License

/**
 * @param args/*from w w w.  j a  va2 s . co  m*/
 */
public static void main(String[] args) {
    // ============================================================================================//
    // =============================== Submitting a Request =======================================//
    // ============================================================================================//

    // Retrieves the credentials from an AWSCredentials.properties file.
    AWSCredentials credentials = null;
    try {
        credentials = new PropertiesCredentials(
                InlineGettingStartedCodeSampleApp.class.getResourceAsStream("/AwsCredentials.properties"));
    } catch (IOException e1) {
        System.out.println("Credentials were not properly entered into AwsCredentials.properties.");
        System.out.println(e1.getMessage());
        System.exit(-1);
    }

    // Create the AmazonEC2Client object so we can call various APIs.
    AmazonEC2 ec2 = new AmazonEC2Client(credentials);

    // Initializes a Spot Instance Request
    RequestSpotInstancesRequest requestRequest = new RequestSpotInstancesRequest();

    // Request 1 x t1.micro instance with a bid price of $0.03.
    requestRequest.setSpotPrice("0.03");
    requestRequest.setInstanceCount(Integer.valueOf(1));

    // Setup the specifications of the launch. This includes the instance type (e.g. t1.micro)
    // and the latest Amazon Linux AMI id available. Note, you should always use the latest
    // Amazon Linux AMI id or another of your choosing.
    LaunchSpecification launchSpecification = new LaunchSpecification();
    launchSpecification.setImageId("ami-8c1fece5");
    launchSpecification.setInstanceType("t1.micro");

    // Add the security group to the request.
    ArrayList<String> securityGroups = new ArrayList<String>();
    securityGroups.add("default");
    launchSpecification.setSecurityGroups(securityGroups);

    // Add the launch specifications to the request.
    requestRequest.setLaunchSpecification(launchSpecification);

    // ============================================================================================//
    // =========================== Getting the Request ID from the Request ========================//
    // ============================================================================================//

    // Call the RequestSpotInstance API.
    RequestSpotInstancesResult requestResult = ec2.requestSpotInstances(requestRequest);
    List<SpotInstanceRequest> requestResponses = requestResult.getSpotInstanceRequests();

    // Setup an arraylist to collect all of the request ids we want to watch hit the running
    // state.
    ArrayList<String> spotInstanceRequestIds = new ArrayList<String>();

    // Add all of the request ids to the hashset, so we can determine when they hit the
    // active state.
    for (SpotInstanceRequest requestResponse : requestResponses) {
        System.out.println("Created Spot Request: " + requestResponse.getSpotInstanceRequestId());
        spotInstanceRequestIds.add(requestResponse.getSpotInstanceRequestId());
    }

    // ============================================================================================//
    // =========================== Determining the State of the Spot Request ======================//
    // ============================================================================================//

    // Create a variable that will track whether there are any requests still in the open state.
    boolean anyOpen;

    // Initialize variables.
    ArrayList<String> instanceIds = new ArrayList<String>();

    do {
        // Create the describeRequest with tall of the request id to monitor (e.g. that we started).
        DescribeSpotInstanceRequestsRequest describeRequest = new DescribeSpotInstanceRequestsRequest();
        describeRequest.setSpotInstanceRequestIds(spotInstanceRequestIds);

        // Initialize the anyOpen variable to false ?which assumes there are no requests open unless
        // we find one that is still open.
        anyOpen = false;

        try {
            // Retrieve all of the requests we want to monitor.
            DescribeSpotInstanceRequestsResult describeResult = ec2
                    .describeSpotInstanceRequests(describeRequest);
            List<SpotInstanceRequest> describeResponses = describeResult.getSpotInstanceRequests();

            // Look through each request and determine if they are all in the active state.
            for (SpotInstanceRequest describeResponse : describeResponses) {
                // If the state is open, it hasn't changed since we attempted to request it.
                // There is the potential for it to transition almost immediately to closed or
                // cancelled so we compare against open instead of active.
                if (describeResponse.getState().equals("open")) {
                    anyOpen = true;
                    break;
                }

                // Add the instance id to the list we will eventually terminate.
                instanceIds.add(describeResponse.getInstanceId());
            }
        } catch (AmazonServiceException e) {
            // If we have an exception, ensure we don't break out of the loop.
            // This prevents the scenario where there was blip on the wire.
            anyOpen = true;
        }

        try {
            // Sleep for 60 seconds.
            Thread.sleep(60 * 1000);
        } catch (Exception e) {
            // Do nothing because it woke up early.
        }
    } while (anyOpen);

    // ============================================================================================//
    // ====================================== Canceling the Request ==============================//
    // ============================================================================================//

    try {
        // Cancel requests.
        CancelSpotInstanceRequestsRequest cancelRequest = new CancelSpotInstanceRequestsRequest(
                spotInstanceRequestIds);
        ec2.cancelSpotInstanceRequests(cancelRequest);
    } catch (AmazonServiceException e) {
        // Write out any exceptions that may have occurred.
        System.out.println("Error cancelling instances");
        System.out.println("Caught Exception: " + e.getMessage());
        System.out.println("Reponse Status Code: " + e.getStatusCode());
        System.out.println("Error Code: " + e.getErrorCode());
        System.out.println("Request ID: " + e.getRequestId());
    }

    // ============================================================================================//
    // =================================== Terminating any Instances ==============================//
    // ============================================================================================//
    try {
        // Terminate instances.
        TerminateInstancesRequest terminateRequest = new TerminateInstancesRequest(instanceIds);
        ec2.terminateInstances(terminateRequest);
    } catch (AmazonServiceException e) {
        // Write out any exceptions that may have occurred.
        System.out.println("Error terminating instances");
        System.out.println("Caught Exception: " + e.getMessage());
        System.out.println("Reponse Status Code: " + e.getStatusCode());
        System.out.println("Error Code: " + e.getErrorCode());
        System.out.println("Request ID: " + e.getRequestId());
    }

}

From source file:aws.sample.InlineTaggingCodeSampleApp.java

License:Open Source License

/**
 * @param args/*from  w ww.  j  a v a 2 s . co  m*/
 */
public static void main(String[] args) {
    // ============================================================================================//
    // =============================== Submitting a Request =======================================//
    // ============================================================================================//

    // Retrieves the credentials from an AWSCredentials.properties file.
    AWSCredentials credentials = null;
    try {
        credentials = new PropertiesCredentials(
                InlineTaggingCodeSampleApp.class.getResourceAsStream("/AwsCredentials.properties"));
    } catch (IOException e1) {
        System.out.println("Credentials were not properly entered into AwsCredentials.properties.");
        System.out.println(e1.getMessage());
        System.exit(-1);
    }

    // Create the AmazonEC2Client object so we can call various APIs.
    AmazonEC2 ec2 = new AmazonEC2Client(credentials);

    // Initializes a Spot Instance Request
    RequestSpotInstancesRequest requestRequest = new RequestSpotInstancesRequest();

    // Request 1 x t1.micro instance with a bid price of $0.03.
    requestRequest.setSpotPrice("0.03");
    requestRequest.setInstanceCount(Integer.valueOf(1));

    // Setup the specifications of the launch. This includes the instance type (e.g. t1.micro)
    // and the latest Amazon Linux AMI id available. Note, you should always use the latest
    // Amazon Linux AMI id or another of your choosing.
    LaunchSpecification launchSpecification = new LaunchSpecification();
    launchSpecification.setImageId("ami-8c1fece5");
    launchSpecification.setInstanceType("t1.micro");

    // Add the security group to the request.
    ArrayList<String> securityGroups = new ArrayList<String>();
    securityGroups.add("default");
    launchSpecification.setSecurityGroups(securityGroups);

    // Add the launch specifications to the request.
    requestRequest.setLaunchSpecification(launchSpecification);

    // ============================================================================================//
    // =========================== Getting the Request ID from the Request ========================//
    // ============================================================================================//

    // Call the RequestSpotInstance API.
    RequestSpotInstancesResult requestResult = ec2.requestSpotInstances(requestRequest);
    List<SpotInstanceRequest> requestResponses = requestResult.getSpotInstanceRequests();

    // Setup an arraylist to collect all of the request ids we want to watch hit the running
    // state.
    ArrayList<String> spotInstanceRequestIds = new ArrayList<String>();

    // Add all of the request ids to the hashset, so we can determine when they hit the
    // active state.
    for (SpotInstanceRequest requestResponse : requestResponses) {
        System.out.println("Created Spot Request: " + requestResponse.getSpotInstanceRequestId());
        spotInstanceRequestIds.add(requestResponse.getSpotInstanceRequestId());
    }

    // ============================================================================================//
    // ====================================== Tag the Spot Requests ===============================//
    // ============================================================================================//

    // Create the list of tags we want to create
    ArrayList<Tag> requestTags = new ArrayList<Tag>();
    requestTags.add(new Tag("keyname1", "value1"));

    // Create a tag request for requests.
    CreateTagsRequest createTagsRequest_requests = new CreateTagsRequest();
    createTagsRequest_requests.setResources(spotInstanceRequestIds);
    createTagsRequest_requests.setTags(requestTags);

    // Try to tag the Spot request submitted.
    try {
        ec2.createTags(createTagsRequest_requests);
    } catch (AmazonServiceException e) {
        // Write out any exceptions that may have occurred.
        System.out.println("Error terminating instances");
        System.out.println("Caught Exception: " + e.getMessage());
        System.out.println("Reponse Status Code: " + e.getStatusCode());
        System.out.println("Error Code: " + e.getErrorCode());
        System.out.println("Request ID: " + e.getRequestId());
    }

    // ============================================================================================//
    // =========================== Determining the State of the Spot Request ======================//
    // ============================================================================================//

    // Create a variable that will track whether there are any requests still in the open state.
    boolean anyOpen;

    // Initialize variables.
    ArrayList<String> instanceIds = new ArrayList<String>();

    do {
        // Create the describeRequest with tall of the request id to monitor (e.g. that we started).
        DescribeSpotInstanceRequestsRequest describeRequest = new DescribeSpotInstanceRequestsRequest();
        describeRequest.setSpotInstanceRequestIds(spotInstanceRequestIds);

        // Initialize the anyOpen variable to false ?which assumes there are no requests open unless
        // we find one that is still open.
        anyOpen = false;

        try {
            // Retrieve all of the requests we want to monitor.
            DescribeSpotInstanceRequestsResult describeResult = ec2
                    .describeSpotInstanceRequests(describeRequest);
            List<SpotInstanceRequest> describeResponses = describeResult.getSpotInstanceRequests();

            // Look through each request and determine if they are all in the active state.
            for (SpotInstanceRequest describeResponse : describeResponses) {
                // If the state is open, it hasn't changed since we attempted to request it.
                // There is the potential for it to transition almost immediately to closed or
                // cancelled so we compare against open instead of active.
                if (describeResponse.getState().equals("open")) {
                    anyOpen = true;
                    break;
                }

                // Add the instance id to the list we will eventually terminate.
                instanceIds.add(describeResponse.getInstanceId());
            }
        } catch (AmazonServiceException e) {
            // If we have an exception, ensure we don't break out of the loop.
            // This prevents the scenario where there was blip on the wire.
            anyOpen = true;
        }

        try {
            // Sleep for 60 seconds.
            Thread.sleep(6 * 1000);
        } catch (Exception e) {
            // Do nothing because it woke up early.
        }
    } while (anyOpen);

    // ============================================================================================//
    // ====================================== Tag the Spot Instances ===============================//
    // ============================================================================================//

    // Create the list of tags we want to create
    ArrayList<Tag> instanceTags = new ArrayList<Tag>();
    instanceTags.add(new Tag("keyname1", "value1"));

    // Create a tag request for instances.
    CreateTagsRequest createTagsRequest_instances = new CreateTagsRequest();
    createTagsRequest_instances.setResources(instanceIds);
    createTagsRequest_instances.setTags(instanceTags);

    // Try to tag the Spot instance started.
    try {
        ec2.createTags(createTagsRequest_instances);
    } catch (AmazonServiceException e) {
        // Write out any exceptions that may have occurred.
        System.out.println("Error terminating instances");
        System.out.println("Caught Exception: " + e.getMessage());
        System.out.println("Reponse Status Code: " + e.getStatusCode());
        System.out.println("Error Code: " + e.getErrorCode());
        System.out.println("Request ID: " + e.getRequestId());
    }

    // ============================================================================================//
    // ====================================== Canceling the Request ==============================//
    // ============================================================================================//

    try {
        // Cancel requests.
        CancelSpotInstanceRequestsRequest cancelRequest = new CancelSpotInstanceRequestsRequest(
                spotInstanceRequestIds);
        ec2.cancelSpotInstanceRequests(cancelRequest);
    } catch (AmazonServiceException e) {
        // Write out any exceptions that may have occurred.
        System.out.println("Error cancelling instances");
        System.out.println("Caught Exception: " + e.getMessage());
        System.out.println("Reponse Status Code: " + e.getStatusCode());
        System.out.println("Error Code: " + e.getErrorCode());
        System.out.println("Request ID: " + e.getRequestId());
    }

    // ============================================================================================//
    // =================================== Terminating any Instances ==============================//
    // ============================================================================================//
    try {
        // Terminate instances.
        TerminateInstancesRequest terminateRequest = new TerminateInstancesRequest(instanceIds);
        ec2.terminateInstances(terminateRequest);
    } catch (AmazonServiceException e) {
        // Write out any exceptions that may have occurred.
        System.out.println("Error terminating instances");
        System.out.println("Caught Exception: " + e.getMessage());
        System.out.println("Reponse Status Code: " + e.getStatusCode());
        System.out.println("Error Code: " + e.getErrorCode());
        System.out.println("Request ID: " + e.getRequestId());
    }

}

From source file:aws.sample.Requests.java

License:Open Source License

/**
 * The only information needed to create a client are security credentials consisting of the AWS Access Key ID and Secret Access Key. All other configuration, such as the service endpoints, are performed automatically. Client parameters, such as proxies, can be specified in an optional ClientConfiguration object when constructing a client.
 * /*from w  w w  .j a va  2 s .c  o m*/
 * @see com.amazonaws.auth.BasicAWSCredentials
 * @see com.amazonaws.auth.PropertiesCredentials
 * @see com.amazonaws.ClientConfiguration
 */
private void init() throws Exception {
    AWSCredentials credentials = new PropertiesCredentials(
            InlineGettingStartedCodeSampleApp.class.getResourceAsStream("/AwsCredentials.properties"));

    ec2 = new AmazonEC2Client(credentials);
}

From source file:aws.sample.S3Sample.java

License:Open Source License

public static void main(String[] args) throws IOException {
    /*/* ww w  .  j  a v a 2  s .  c om*/
     * Important: Be sure to fill in your AWS access credentials in the AwsCredentials.properties file before you try to run this sample. http://aws.amazon.com/security-credentials
     */
    AmazonS3 s3 = new AmazonS3Client(
            new PropertiesCredentials(S3Sample.class.getResourceAsStream("/AwsCredentials.properties")));

    String bucketName = "my-first-s3-bucket-" + UUID.randomUUID();
    String key = "MyObjectKey";

    System.out.println("===========================================");
    System.out.println("Getting Started with Amazon S3");
    System.out.println("===========================================\n");

    try {
        /*
         * Create a new S3 bucket - Amazon S3 bucket names are globally unique, so once a bucket name has been taken by any user, you can't create another bucket with that same name.
         * 
         * You can optionally specify a location for your bucket if you want to keep your data closer to your applications or users.
         */
        System.out.println("Creating bucket " + bucketName + "\n");
        s3.createBucket(bucketName);

        /*
         * List the buckets in your account
         */
        System.out.println("Listing buckets");
        for (Bucket bucket : s3.listBuckets()) {
            System.out.println(" - " + bucket.getName());
        }
        System.out.println();

        /*
         * Upload an object to your bucket - You can easily upload a file to S3, or upload directly an InputStream if you know the length of the data in the stream. You can also specify your own metadata when uploading to S3, which allows you set a variety of options like content-type and content-encoding, plus additional metadata specific to your applications.
         */
        System.out.println("Uploading a new object to S3 from a file\n");
        s3.putObject(new PutObjectRequest(bucketName, key, createSampleFile()));

        /*
         * Download an object - When you download an object, you get all of the object's metadata and a stream from which to read the contents. It's important to read the contents of the stream as quickly as possibly since the data is streamed directly from Amazon S3 and your network connection will remain open until you read all the data or close the input stream.
         * 
         * GetObjectRequest also supports several other options, including conditional downloading of objects based on modification times, ETags, and selectively downloading a range of an object.
         */
        System.out.println("Downloading an object");
        S3Object object = s3.getObject(new GetObjectRequest(bucketName, key));
        System.out.println("Content-Type: " + object.getObjectMetadata().getContentType());
        displayTextInputStream(object.getObjectContent());

        /*
         * List objects in your bucket by prefix - There are many options for listing the objects in your bucket. Keep in mind that buckets with many objects might truncate their results when listing their objects, so be sure to check if the returned object listing is truncated, and use the AmazonS3.listNextBatchOfObjects(...) operation to retrieve additional results.
         */
        System.out.println("Listing objects");
        ObjectListing objectListing = s3
                .listObjects(new ListObjectsRequest().withBucketName(bucketName).withPrefix("My"));
        for (S3ObjectSummary objectSummary : objectListing.getObjectSummaries()) {
            System.out.println(
                    " - " + objectSummary.getKey() + "  " + "(size = " + objectSummary.getSize() + ")");
        }
        System.out.println();

        /*
         * Delete an object - Unless versioning has been turned on for your bucket, there is no way to undelete an object, so use caution when deleting objects.
         */
        System.out.println("Deleting an object\n");
        s3.deleteObject(bucketName, key);

        /*
         * Delete a bucket - A bucket must be completely empty before it can be deleted, so remember to delete any objects from your buckets before you try to delete them.
         */
        System.out.println("Deleting bucket " + bucketName + "\n");
        s3.deleteBucket(bucketName);
    } catch (AmazonServiceException ase) {
        System.out.println("Caught an AmazonServiceException, which means your request made it "
                + "to Amazon S3, but was rejected with an error response for some reason.");
        System.out.println("Error Message:    " + ase.getMessage());
        System.out.println("HTTP Status Code: " + ase.getStatusCode());
        System.out.println("AWS Error Code:   " + ase.getErrorCode());
        System.out.println("Error Type:       " + ase.getErrorType());
        System.out.println("Request ID:       " + ase.getRequestId());
    } catch (AmazonClientException ace) {
        System.out.println("Caught an AmazonClientException, which means the client encountered "
                + "a serious internal problem while trying to communicate with S3, "
                + "such as not being able to access the network.");
        System.out.println("Error Message: " + ace.getMessage());
    }
}

From source file:aws.sample.S3TransferProgressSample.java

License:Open Source License

public static void main(String[] args) throws Exception {
    credentials = new PropertiesCredentials(
            S3TransferProgressSample.class.getResourceAsStream("AwsCredentials.properties"));

    // TransferManager manages a pool of threads, so we create a
    // single instance and share it throughout our application.
    tx = new TransferManager(credentials);

    bucketName = "s3-upload-sdk-sample-" + credentials.getAWSAccessKeyId().toLowerCase();

    new S3TransferProgressSample();
}

From source file:aws.sample.SimpleDBSample.java

License:Open Source License

public static void main(String[] args) throws Exception {
    /*//from w w w .ja va  2  s .  co m
     * Important: Be sure to fill in your AWS access credentials in the AwsCredentials.properties file before you try to run this sample. http://aws.amazon.com/security-credentials
     */
    AmazonSimpleDB sdb = new AmazonSimpleDBClient(
            new PropertiesCredentials(SimpleDBSample.class.getResourceAsStream("AwsCredentials.properties")));

    System.out.println("===========================================");
    System.out.println("Getting Started with Amazon SimpleDB");
    System.out.println("===========================================\n");

    try {
        // Create a domain
        String myDomain = "MyStore";
        System.out.println("Creating domain called " + myDomain + ".\n");
        sdb.createDomain(new CreateDomainRequest(myDomain));

        // List domains
        System.out.println("Listing all domains in your account:\n");
        for (String domainName : sdb.listDomains().getDomainNames()) {
            System.out.println("  " + domainName);
        }
        System.out.println();

        // Put data into a domain
        System.out.println("Putting data into " + myDomain + " domain.\n");
        sdb.batchPutAttributes(new BatchPutAttributesRequest(myDomain, createSampleData()));

        // Select data from a domain
        // Notice the use of backticks around the domain name in our select expression.
        String selectExpression = "select * from `" + myDomain + "` where Category = 'Clothes'";
        System.out.println("Selecting: " + selectExpression + "\n");
        SelectRequest selectRequest = new SelectRequest(selectExpression);
        for (Item item : sdb.select(selectRequest).getItems()) {
            System.out.println("  Item");
            System.out.println("    Name: " + item.getName());
            for (Attribute attribute : item.getAttributes()) {
                System.out.println("      Attribute");
                System.out.println("        Name:  " + attribute.getName());
                System.out.println("        Value: " + attribute.getValue());
            }
        }
        System.out.println();

        // Delete values from an attribute
        System.out.println("Deleting Blue attributes in Item_O3.\n");
        Attribute deleteValueAttribute = new Attribute("Color", "Blue");
        sdb.deleteAttributes(
                new DeleteAttributesRequest(myDomain, "Item_03").withAttributes(deleteValueAttribute));

        // Delete an attribute and all of its values
        System.out.println("Deleting attribute Year in Item_O3.\n");
        sdb.deleteAttributes(new DeleteAttributesRequest(myDomain, "Item_03")
                .withAttributes(new Attribute().withName("Year")));

        // Replace an attribute
        System.out.println("Replacing Size of Item_03 with Medium.\n");
        List<ReplaceableAttribute> replaceableAttributes = new ArrayList<ReplaceableAttribute>();
        replaceableAttributes.add(new ReplaceableAttribute("Size", "Medium", true));
        sdb.putAttributes(new PutAttributesRequest(myDomain, "Item_03", replaceableAttributes));

        // Delete an item and all of its attributes
        System.out.println("Deleting Item_03.\n");
        sdb.deleteAttributes(new DeleteAttributesRequest(myDomain, "Item_03"));

        // Delete a domain
        System.out.println("Deleting " + myDomain + " domain.\n");
        sdb.deleteDomain(new DeleteDomainRequest(myDomain));
    } catch (AmazonServiceException ase) {
        System.out.println("Caught an AmazonServiceException, which means your request made it "
                + "to Amazon SimpleDB, but was rejected with an error response for some reason.");
        System.out.println("Error Message:    " + ase.getMessage());
        System.out.println("HTTP Status Code: " + ase.getStatusCode());
        System.out.println("AWS Error Code:   " + ase.getErrorCode());
        System.out.println("Error Type:       " + ase.getErrorType());
        System.out.println("Request ID:       " + ase.getRequestId());
    } catch (AmazonClientException ace) {
        System.out.println("Caught an AmazonClientException, which means the client encountered "
                + "a serious internal problem while trying to communicate with SimpleDB, "
                + "such as not being able to access the network.");
        System.out.println("Error Message: " + ace.getMessage());
    }
}

From source file:aws.sample.SimpleQueueServiceSample.java

License:Open Source License

public static void main(String[] args) throws Exception {
    /*/*ww w.j ava  2s.co m*/
     * Important: Be sure to fill in your AWS access credentials in the AwsCredentials.properties file before you try to run this sample. http://aws.amazon.com/security-credentials
     */
    AmazonSQS sqs = new AmazonSQSClient(new PropertiesCredentials(
            SimpleQueueServiceSample.class.getResourceAsStream("/AwsCredentials.properties")));

    System.out.println("===========================================");
    System.out.println("Getting Started with Amazon SQS");
    System.out.println("===========================================\n");

    try {
        // Create a queue
        System.out.println("Creating a new SQS queue called MyQueue.\n");
        CreateQueueRequest createQueueRequest = new CreateQueueRequest("MyQueue");
        String myQueueUrl = sqs.createQueue(createQueueRequest).getQueueUrl();

        // List queues
        System.out.println("Listing all queues in your account.\n");
        for (String queueUrl : sqs.listQueues().getQueueUrls()) {
            System.out.println("  QueueUrl: " + queueUrl);
        }
        System.out.println();

        // Send a message
        System.out.println("Sending a message to MyQueue.\n");
        sqs.sendMessage(new SendMessageRequest(myQueueUrl, "This is my message text."));

        // Receive messages
        System.out.println("Receiving messages from MyQueue.\n");
        ReceiveMessageRequest receiveMessageRequest = new ReceiveMessageRequest(myQueueUrl);
        List<Message> messages = sqs.receiveMessage(receiveMessageRequest).getMessages();
        for (Message message : messages) {
            System.out.println("  Message");
            System.out.println("    MessageId:     " + message.getMessageId());
            System.out.println("    ReceiptHandle: " + message.getReceiptHandle());
            System.out.println("    MD5OfBody:     " + message.getMD5OfBody());
            System.out.println("    Body:          " + message.getBody());
            for (Entry<String, String> entry : message.getAttributes().entrySet()) {
                System.out.println("  Attribute");
                System.out.println("    Name:  " + entry.getKey());
                System.out.println("    Value: " + entry.getValue());
            }
        }
        System.out.println();

        // Delete a message
        System.out.println("Deleting a message.\n");
        String messageRecieptHandle = messages.get(0).getReceiptHandle();
        sqs.deleteMessage(new DeleteMessageRequest(myQueueUrl, messageRecieptHandle));

        // Delete a queue
        System.out.println("Deleting the test queue.\n");
        // sqs.deleteQueue(new DeleteQueueRequest(myQueueUrl));
    } catch (AmazonServiceException ase) {
        System.out.println("Caught an AmazonServiceException, which means your request made it "
                + "to Amazon SQS, but was rejected with an error response for some reason.");
        System.out.println("Error Message:    " + ase.getMessage());
        System.out.println("HTTP Status Code: " + ase.getStatusCode());
        System.out.println("AWS Error Code:   " + ase.getErrorCode());
        System.out.println("Error Type:       " + ase.getErrorType());
        System.out.println("Request ID:       " + ase.getRequestId());
    } catch (AmazonClientException ace) {
        System.out.println("Caught an AmazonClientException, which means the client encountered "
                + "a serious internal problem while trying to communicate with SQS, such as not "
                + "being able to access the network.");
        System.out.println("Error Message: " + ace.getMessage());
    }
}

From source file:awswc.AwsConsoleApp.java

License:Open Source License

/**
 * The only information needed to create a client are security credentials
 * consisting of the AWS Access Key ID and Secret Access Key. All other
 * configuration, such as the service endpoints, are performed
 * automatically. Client parameters, such as proxies, can be specified in an
 * optional ClientConfiguration object when constructing a client.
 *
 * @see com.amazonaws.auth.BasicAWSCredentials
 * @see com.amazonaws.auth.PropertiesCredentials
 * @see com.amazonaws.ClientConfiguration
 */// w w  w  .j  a  va 2s. c o  m
public static void init() throws Exception {
    AWSCredentials credentials = new PropertiesCredentials(
            AwsConsoleApp.class.getResourceAsStream("AwsCredentials.properties"));
    ec2 = new AmazonEC2Client(credentials);
    s3 = new AmazonS3Client(credentials);
    sdb = new AmazonSimpleDBClient(credentials);
    emr = new AmazonElasticMapReduceClient(credentials);
}

From source file:bench.auth.SimpleDBSample.java

License:Open Source License

public static void main(String[] args) throws Exception {

    /*/*from   w  ww. j ava 2s . c  o m*/
     * Important: Be sure to fill in your AWS access credentials in the
     * AwsCredentials.properties file before you try to run this sample.
     * http://aws.amazon.com/security-credentials
     */

    String home = System.getProperty("user.home");

    String props = home + "/.amazon/AwsCredentials.properties";
    System.out.println("props = " + props);

    URL url = new File(props).toURI().toURL();
    System.out.println("url = " + url);

    final AWSCredentials credentials = new PropertiesCredentials(url.openStream());

    final AmazonSimpleDB sdb = new AmazonSimpleDBClient(credentials);

    System.out.println("===========================================");
    System.out.println("Getting Started with Amazon SimpleDB");
    System.out.println("===========================================\n");

    try {

        // Create a domain
        String domain = "domain-tester";
        System.out.println("Creating domain called " + domain + ".\n");
        sdb.createDomain(new CreateDomainRequest(domain));

        // List domains
        System.out.println("Listing all domains in your account:\n");
        for (String domainName : sdb.listDomains().getDomainNames()) {
            System.out.println("  " + domainName);
        }
        System.out.println();

        // Put data into a domain
        System.out.println("Putting data into " + domain + " domain.\n");
        sdb.batchPutAttributes( //
                new BatchPutAttributesRequest(domain, createSampleData()));

        // Select data from a domain
        // Notice the use of backticks around the domain name in our select
        // expression.
        String selectExpression = //
                "select * from `" + domain + "` where Category = 'Clothes'";

        System.out.println("Selecting: " + selectExpression + "\n");

        SelectRequest selectRequest = new SelectRequest(selectExpression);

        for (Item item : sdb.select(selectRequest).getItems()) {
            System.out.println("  Item");
            System.out.println("    Name: " + item.getName());
            for (Attribute attribute : item.getAttributes()) {
                System.out.println("      Attribute");
                System.out.println("        Name:  " + attribute.getName());
                System.out.println("        Value: " + attribute.getValue());
            }
        }
        System.out.println();

        // Delete values from an attribute
        System.out.println("Deleting Blue attributes in Item_O3.\n");
        Attribute deleteValueAttribute = new Attribute("Color", "Blue");
        sdb.deleteAttributes(
                new DeleteAttributesRequest(domain, "Item_03").withAttributes(deleteValueAttribute));

        // Delete an attribute and all of its values
        System.out.println("Deleting attribute Year in Item_O3.\n");
        sdb.deleteAttributes(new DeleteAttributesRequest(domain, "Item_03")
                .withAttributes(new Attribute().withName("Year")));

        // Replace an attribute
        System.out.println("Replacing Size of Item_03 with Medium.\n");
        List<ReplaceableAttribute> replaceableAttributes = new ArrayList<ReplaceableAttribute>();
        replaceableAttributes.add(new ReplaceableAttribute("Size", "Medium", true));
        sdb.putAttributes(new PutAttributesRequest(domain, "Item_03", replaceableAttributes));

        // Delete an item and all of its attributes
        System.out.println("Deleting Item_03.\n");
        sdb.deleteAttributes(new DeleteAttributesRequest(domain, "Item_03"));

        // Delete a domain
        // System.out.println("Deleting " + myDomain + " domain.\n");
        // sdb.deleteDomain(new DeleteDomainRequest(myDomain));

    } catch (AmazonServiceException ase) {
        System.out.println("Caught an AmazonServiceException, which means your request made it "
                + "to Amazon SimpleDB, but was rejected with an error response for some reason.");
        System.out.println("Error Message:    " + ase.getMessage());
        System.out.println("HTTP Status Code: " + ase.getStatusCode());
        System.out.println("AWS Error Code:   " + ase.getErrorCode());
        System.out.println("Error Type:       " + ase.getErrorType());
        System.out.println("Request ID:       " + ase.getRequestId());
    } catch (AmazonClientException ace) {
        System.out.println("Caught an AmazonClientException, which means the client encountered "
                + "a serious internal problem while trying to communicate with SimpleDB, "
                + "such as not being able to access the network.");
        System.out.println("Error Message: " + ace.getMessage());
    }
}

From source file:br.com.tamandua.aws.S3Sample.java

License:Open Source License

public static void main(String[] args) throws IOException {
    /*/*from  w w  w .j a v a  2  s  .  c  o m*/
     * Important: Be sure to fill in your AWS access credentials in the
     *            AwsCredentials.properties file before you try to run this
     *            sample.
     * http://aws.amazon.com/security-credentials
     */
    AmazonS3 s3 = new AmazonS3Client(
            new PropertiesCredentials(S3Sample.class.getResourceAsStream("AwsCredentials.properties")));

    String bucketName = "test-bucket-everton-" + UUID.randomUUID();
    String key = "somekey";

    System.out.println("===========================================");
    System.out.println("Getting Started with Amazon S3");
    System.out.println("===========================================\n");

    try {
        /*
         * Create a new S3 bucket - Amazon S3 bucket names are globally unique,
         * so once a bucket name has been taken by any user, you can't create
         * another bucket with that same name.
         *
         * You can optionally specify a location for your bucket if you want to
         * keep your data closer to your applications or users.
         */
        System.out.println("Creating bucket " + bucketName + "\n");
        s3.createBucket(bucketName);

        /*
         * List the buckets in your account
         */
        System.out.println("Listing buckets");
        for (Bucket bucket : s3.listBuckets()) {
            System.out.println(" - " + bucket.getName());
        }
        System.out.println();

        /*
         * Upload an object to your bucket - You can easily upload a file to
         * S3, or upload directly an InputStream if you know the length of
         * the data in the stream. You can also specify your own metadata
         * when uploading to S3, which allows you set a variety of options
         * like content-type and content-encoding, plus additional metadata
         * specific to your applications.
         */
        System.out.println("Uploading a new object to S3 from a file\n");
        s3.putObject(new PutObjectRequest(bucketName, key, createSampleFile()));

        /*
         * Download an object - When you download an object, you get all of
         * the object's metadata and a stream from which to read the contents.
         * It's important to read the contents of the stream as quickly as
         * possibly since the data is streamed directly from Amazon S3 and your
         * network connection will remain open until you read all the data or
         * close the input stream.
         *
         * GetObjectRequest also supports several other options, including
         * conditional downloading of objects based on modification times,
         * ETags, and selectively downloading a range of an object.
         */
        System.out.println("Downloading an object");
        S3Object object = s3.getObject(new GetObjectRequest(bucketName, key));
        System.out.println("Content-Type: " + object.getObjectMetadata().getContentType());
        displayTextInputStream(object.getObjectContent());

        /*
         * List objects in your bucket by prefix - There are many options for
         * listing the objects in your bucket.  Keep in mind that buckets with
         * many objects might truncate their results when listing their objects,
         * so be sure to check if the returned object listing is truncated, and
         * use the AmazonS3.listNextBatchOfObjects(...) operation to retrieve
         * additional results.
         */
        System.out.println("Listing objects");
        ObjectListing objectListing = s3
                .listObjects(new ListObjectsRequest().withBucketName(bucketName).withPrefix("some"));
        for (S3ObjectSummary objectSummary : objectListing.getObjectSummaries()) {
            System.out.println(
                    " - " + objectSummary.getKey() + "  " + "(size = " + objectSummary.getSize() + ")");
        }
        System.out.println();

        /*
         * Delete an object - Unless versioning has been turned on for your bucket,
         * there is no way to undelete an object, so use caution when deleting objects.
         */
        System.out.println("Deleting an object\n");
        s3.deleteObject(bucketName, key);

        /*
         * Delete a bucket - A bucket must be completely empty before it can be
         * deleted, so remember to delete any objects from your buckets before
         * you try to delete them.
         */
        System.out.println("Deleting bucket " + bucketName + "\n");
        s3.deleteBucket(bucketName);
    } catch (AmazonServiceException ase) {
        System.out.println("Caught an AmazonServiceException, which means your request made it "
                + "to Amazon S3, but was rejected with an error response for some reason.");
        System.out.println("Error Message:    " + ase.getMessage());
        System.out.println("HTTP Status Code: " + ase.getStatusCode());
        System.out.println("AWS Error Code:   " + ase.getErrorCode());
        System.out.println("Error Type:       " + ase.getErrorType());
        System.out.println("Request ID:       " + ase.getRequestId());
    } catch (AmazonClientException ace) {
        System.out.println("Caught an AmazonClientException, which means the client encountered "
                + "a serious internal problem while trying to communicate with S3, "
                + "such as not being able to access the network.");
        System.out.println("Error Message: " + ace.getMessage());
    }
}