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Chapter 3. Ceph Object Gateway and the S3 API

As a developer, you can use a RESTful application programming interface (API) that is compatible with the Amazon S3 data access model. You can manage the buckets and objects stored in a Red Hat Ceph Storage cluster through the Ceph Object Gateway.

Prerequisites

A running Red Hat Ceph Storage cluster.
A RESTful client.

3.1. S3 limitations

Important

The following limitations should be used with caution. There are implications related to your hardware selections, so you should always discuss these requirements with your Red Hat account team.

Maximum object size when using Amazon S3: Individual Amazon S3 objects can range in size from a minimum of 0B to a maximum of 5TB. The largest object that can be uploaded in a single PUT is 5GB. For objects larger than 100MB, you should consider using the Multipart Upload capability.
Maximum metadata size when using Amazon S3: There is no defined limit on the total size of user metadata that can be applied to an object, but a single HTTP request is limited to 16,000 bytes.
The amount of data overhead Red Hat Ceph Storage cluster produces to store S3 objects and metadata: The estimate here is 200-300 bytes plus the length of the object name. Versioned objects consume additional space proportional to the number of versions. Also, transient overhead is produced during multi-part upload and other transactional updates, but these overheads are recovered during garbage collection.

Additional Resources

See the Red Hat Ceph Storage Developer Guide for details on the unsupported header fields.

3.2. Accessing the Ceph Object Gateway with the S3 API

As a developer, you must configure access to the Ceph Object Gateway and the Secure Token Service (STS) before you can start using the Amazon S3 API.

Prerequisites

A running Red Hat Ceph Storage cluster.
A running Ceph Object Gateway.
A RESTful client.

3.2.1. S3 authentication

Requests to the Ceph Object Gateway can be either authenticated or unauthenticated. Ceph Object Gateway assumes unauthenticated requests are sent by an anonymous user. Ceph Object Gateway supports canned ACLs.

For most use cases, clients use existing open source libraries like the Amazon SDK’s AmazonS3Client for Java, and Python Boto. With open source libraries you simply pass in the access key and secret key and the library builds the request header and authentication signature for you. However, you can create requests and sign them too.

Authenticating a request requires including an access key and a base 64-encoded hash-based Message Authentication Code (HMAC) in the request before it is sent to the Ceph Object Gateway server. Ceph Object Gateway uses an S3-compatible authentication approach.

Example

HTTP/1.1
PUT /buckets/bucket/object.mpeg
Host: cname.domain.com
Date: Mon, 2 Jan 2012 00:01:01 +0000
Content-Encoding: mpeg
Content-Length: 9999999

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

In the above example, replace ACCESS_KEY with the value for the access key ID followed by a colon (:). Replace HASH_OF_HEADER_AND_SECRET with a hash of a canonicalized header string and the secret corresponding to the access key ID.

Generate hash of header string and secret

To generate the hash of the header string and secret:

Get the value of the header string.
Normalize the request header string into canonical form.
Generate an HMAC using a SHA-1 hashing algorithm.
Encode the hmac result as base-64.

Normalize header

To normalize the header into canonical form:

Get all content- headers.
Remove all content- headers except for content-type and content-md5.
Ensure the content- header names are lowercase.
Sort the content- headers lexicographically.
Ensure you have a Date header AND ensure the specified date uses GMT and not an offset.
Get all headers beginning with x-amz-.
Ensure that the x-amz- headers are all lowercase.
Sort the x-amz- headers lexicographically.
Combine multiple instances of the same field name into a single field and separate the field values with a comma.
Replace white space and line breaks in header values with a single space.
Remove white space before and after colons.
Append a new line after each header.
Merge the headers back into the request header.

Replace the HASH_OF_HEADER_AND_SECRET with the base-64 encoded HMAC string.

Additional Resources

For additional details, consult the Signing and Authenticating REST Requests section of Amazon Simple Storage Service documentation.

3.2.2. S3-server-side encryption

The Ceph Object Gateway supports server-side encryption of uploaded objects for the S3 application programming interface (API). Server-side encryption means that the S3 client sends data over HTTP in its unencrypted form, and the Ceph Object Gateway stores that data in the Red Hat Ceph Storage cluster in encrypted form.

Note

Red Hat does NOT support S3 object encryption of Static Large Object (SLO) or Dynamic Large Object (DLO).

Important

To use encryption, client requests MUST send requests over an SSL connection. Red Hat does not support S3 encryption from a client unless the Ceph Object Gateway uses SSL. However, for testing purposes, administrators can disable SSL during testing by setting the rgw_crypt_require_ssl configuration setting to false at runtime, using the ceph config set client.rgw command, and then restarting the Ceph Object Gateway instance.

In a production environment, it might not be possible to send encrypted requests over SSL. In such a case, send requests using HTTP with server-side encryption.

For information about how to configure HTTP with server-side encryption, see the Additional Resources section below.

There are two options for the management of encryption keys:

Customer-provided Keys

When using customer-provided keys, the S3 client passes an encryption key along with each request to read or write encrypted data. It is the customer’s responsibility to manage those keys. Customers must remember which key the Ceph Object Gateway used to encrypt each object.

Ceph Object Gateway implements the customer-provided key behavior in the S3 API according to the Amazon SSE-C specification.

Since the customer handles the key management and the S3 client passes keys to the Ceph Object Gateway, the Ceph Object Gateway requires no special configuration to support this encryption mode.

Key Management Service

When using a key management service, the secure key management service stores the keys and the Ceph Object Gateway retrieves them on demand to serve requests to encrypt or decrypt data.

Ceph Object Gateway implements the key management service behavior in the S3 API according to the Amazon SSE-KMS specification.

Important

Currently, the only tested key management implementations are HashiCorp Vault, and OpenStack Barbican. However, OpenStack Barbican is a Technology Preview and is not supported for use in production systems.

Additional Resources

3.2.3. S3 access control lists

Ceph Object Gateway supports S3-compatible Access Control Lists (ACL) functionality. An ACL is a list of access grants that specify which operations a user can perform on a bucket or on an object. Each grant has a different meaning when applied to a bucket versus applied to an object:

Table 3.1. User Operations
Permission	Bucket	Object
`READ`	Grantee can list the objects in the bucket.	Grantee can read the object.
`WRITE`	Grantee can write or delete objects in the bucket.	N/A
`READ_ACP`	Grantee can read bucket ACL.	Grantee can read the object ACL.
`WRITE_ACP`	Grantee can write bucket ACL.	Grantee can write to the object ACL.
`FULL_CONTROL`	Grantee has full permissions for object in the bucket.	Grantee can read or write to the object ACL.

3.2.4. Preparing access to the Ceph Object Gateway using S3

You have to follow some pre-requisites on the Ceph Object Gateway node before attempting to access the gateway server.

Prerequisites

Installation of the Ceph Object Gateway software.
Root-level access to the Ceph Object Gateway node.

Procedure

As root, open port 8080 on the firewall:

[root@rgw ~]# firewall-cmd --zone=public --add-port=8080/tcp --permanent
[root@rgw ~]# firewall-cmd --reload

Add a wildcard to the DNS server that you are using for the gateway as mentioned in the Object Gateway Configuration and Administration Guide.
You can also set up the gateway node for local DNS caching. To do so, execute the following steps:
1. As root, install and setup dnsmasq:
```
[root@rgw ~]# yum install dnsmasq
[root@rgw ~]# echo "address=/.FQDN_OF_GATEWAY_NODE/IP_OF_GATEWAY_NODE" | tee --append /etc/dnsmasq.conf
[root@rgw ~]# systemctl start dnsmasq
[root@rgw ~]# systemctl enable dnsmasq
```
  Replace IP_OF_GATEWAY_NODE and FQDN_OF_GATEWAY_NODE with the IP address and FQDN of the gateway node.
2. As root, stop NetworkManager:
```
[root@rgw ~]# systemctl stop NetworkManager
[root@rgw ~]# systemctl disable NetworkManager
```
3. As root, set the gateway server’s IP as the nameserver:
```
[root@rgw ~]# echo "DNS1=IP_OF_GATEWAY_NODE" | tee --append /etc/sysconfig/network-scripts/ifcfg-eth0
[root@rgw ~]# echo "IP_OF_GATEWAY_NODE FQDN_OF_GATEWAY_NODE" | tee --append /etc/hosts
[root@rgw ~]# systemctl restart network
[root@rgw ~]# systemctl enable network
[root@rgw ~]# systemctl restart dnsmasq
```
  Replace IP_OF_GATEWAY_NODE and FQDN_OF_GATEWAY_NODE with the IP address and FQDN of the gateway node.
4. Verify subdomain requests:
```
[user@rgw ~]$ ping mybucket.FQDN_OF_GATEWAY_NODE
```
  Replace FQDN_OF_GATEWAY_NODE with the FQDN of the gateway node.
  Warning
  Setting up the gateway server for local DNS caching is for testing purposes only. You won’t be able to access the outside network after doing this. It is strongly recommended to use a proper DNS server for the Red Hat Ceph Storage cluster and gateway node.
Create the radosgw user for S3 access carefully as mentioned in the Object Gateway Configuration and Administration Guide and copy the generated access_key and secret_key. You will need these keys for S3 access and subsequent bucket management tasks.

3.2.5. Accessing the Ceph Object Gateway using Ruby AWS S3

You can use Ruby programming language along with aws-s3 gem for S3 access. Execute the steps mentioned below on the node used for accessing the Ceph Object Gateway server with Ruby AWS::S3.

Prerequisites

User-level access to Ceph Object Gateway.
Root-level access to the node accessing the Ceph Object Gateway.
Internet access.

Procedure

Install the ruby package:
```
[root@dev ~]# yum install ruby
```
Note
The above command will install ruby and its essential dependencies like rubygems and ruby-libs. If somehow the command does not install all the dependencies, install them separately.
Install the aws-s3 Ruby package:
```
[root@dev ~]# gem install aws-s3
```

Create a project directory:

[user@dev ~]$ mkdir ruby_aws_s3
[user@dev ~]$ cd ruby_aws_s3

Create the connection file:
```
[user@dev ~]$ vim conn.rb
```

Paste the following contents into the conn.rb file:

Syntax

#!/usr/bin/env ruby

require 'aws/s3'
require 'resolv-replace'

AWS::S3::Base.establish_connection!(
        :server            => 'FQDN_OF_GATEWAY_NODE',
        :port           => '8080',
        :access_key_id     => 'MY_ACCESS_KEY',
        :secret_access_key => 'MY_SECRET_KEY'
)

Replace FQDN_OF_GATEWAY_NODE with the FQDN of the Ceph Object Gateway node. Replace MY_ACCESS_KEY and MY_SECRET_KEY with the access_key and secret_key that were generated when you created the radosgw user for S3 access as mentioned in the Red Hat Ceph Storage Object Gateway Configuration and Administration Guide.

Example

#!/usr/bin/env ruby

require 'aws/s3'
require 'resolv-replace'

AWS::S3::Base.establish_connection!(
        :server            => 'testclient.englab.pnq.redhat.com',
        :port           => '8080',
        :access_key_id     => '98J4R9P22P5CDL65HKP8',
        :secret_access_key => '6C+jcaP0dp0+FZfrRNgyGA9EzRy25pURldwje049'
)

Save the file and exit the editor.

Make the file executable:
```
[user@dev ~]$ chmod +x conn.rb
```
Run the file:
```
[user@dev ~]$ ./conn.rb | echo $?
```
If you have provided the values correctly in the file, the output of the command will be 0.
Create a new file for creating a bucket:
```
[user@dev ~]$ vim create_bucket.rb
```
Paste the following contents into the file:
```
#!/usr/bin/env ruby

load 'conn.rb'

AWS::S3::Bucket.create('my-new-bucket1')
```
Save the file and exit the editor.
Make the file executable:
```
[user@dev ~]$ chmod +x create_bucket.rb
```
Run the file:
```
[user@dev ~]$ ./create_bucket.rb
```
If the output of the command is true it would mean that bucket my-new-bucket1 was created successfully.

Create a new file for listing owned buckets:

[user@dev ~]$ vim list_owned_buckets.rb

Paste the following content into the file:

#!/usr/bin/env ruby

load 'conn.rb'

AWS::S3::Service.buckets.each do |bucket|
        puts "{bucket.name}\t{bucket.creation_date}"
end

Save the file and exit the editor.

Make the file executable:

[user@dev ~]$ chmod +x list_owned_buckets.rb

Run the file:

[user@dev ~]$ ./list_owned_buckets.rb

The output should look something like this:

my-new-bucket1 2020-01-21 10:33:19 UTC

Create a new file for creating an object:

[user@dev ~]$ vim create_object.rb

Paste the following contents into the file:

#!/usr/bin/env ruby

load 'conn.rb'

AWS::S3::S3Object.store(
        'hello.txt',
        'Hello World!',
        'my-new-bucket1',
        :content_type => 'text/plain'
)

Save the file and exit the editor.

Make the file executable:
```
[user@dev ~]$ chmod +x create_object.rb
```
Run the file:
```
[user@dev ~]$ ./create_object.rb
```
This will create a file hello.txt with the string Hello World!.

Create a new file for listing a bucket’s content:

[user@dev ~]$ vim list_bucket_content.rb

Paste the following content into the file:

#!/usr/bin/env ruby

load 'conn.rb'

new_bucket = AWS::S3::Bucket.find('my-new-bucket1')
new_bucket.each do |object|
        puts "{object.key}\t{object.about['content-length']}\t{object.about['last-modified']}"
end

Save the file and exit the editor.

Make the file executable.

[user@dev ~]$ chmod +x list_bucket_content.rb

Run the file:

[user@dev ~]$ ./list_bucket_content.rb

The output will look something like this:

hello.txt    12    Fri, 22 Jan 2020 15:54:52 GMT

Create a new file for deleting an empty bucket:
```
[user@dev ~]$ vim del_empty_bucket.rb
```
Paste the following contents into the file:
```
#!/usr/bin/env ruby

load 'conn.rb'

AWS::S3::Bucket.delete('my-new-bucket1')
```
Save the file and exit the editor.

Make the file executable:

[user@dev ~]$ chmod +x del_empty_bucket.rb

Run the file:
```
[user@dev ~]$ ./del_empty_bucket.rb | echo $?
```
If the bucket is successfully deleted, the command will return 0 as output.
Note
Edit the create_bucket.rb file to create empty buckets, for example, my-new-bucket4, my-new-bucket5. Next, edit the above-mentioned del_empty_bucket.rb file accordingly before trying to delete empty buckets.

Create a new file for deleting non-empty buckets:

[user@dev ~]$ vim del_non_empty_bucket.rb

Paste the following contents into the file:

#!/usr/bin/env ruby

load 'conn.rb'

AWS::S3::Bucket.delete('my-new-bucket1', :force => true)

Save the file and exit the editor.

Make the file executable:

[user@dev ~]$ chmod +x del_non_empty_bucket.rb

Run the file:
```
[user@dev ~]$ ./del_non_empty_bucket.rb | echo $?
```
If the bucket is successfully deleted, the command will return 0 as output.

Create a new file for deleting an object:

[user@dev ~]$ vim delete_object.rb

Paste the following contents into the file:

#!/usr/bin/env ruby

load 'conn.rb'

AWS::S3::S3Object.delete('hello.txt', 'my-new-bucket1')

Save the file and exit the editor.

Make the file executable:
```
[user@dev ~]$ chmod +x delete_object.rb
```
Run the file:
```
[user@dev ~]$ ./delete_object.rb
```
This will delete the object hello.txt.

3.2.6. Accessing the Ceph Object Gateway using Ruby AWS SDK

You can use the Ruby programming language along with aws-sdk gem for S3 access. Execute the steps mentioned below on the node used for accessing the Ceph Object Gateway server with Ruby AWS::SDK.

Prerequisites

User-level access to Ceph Object Gateway.
Root-level access to the node accessing the Ceph Object Gateway.
Internet access.

Procedure

Install the ruby package:
```
[root@dev ~]# yum install ruby
```
Note
The above command will install ruby and its essential dependencies like rubygems and ruby-libs. If somehow the command does not install all the dependencies, install them separately.
Install the aws-sdk Ruby package:
```
[root@dev ~]# gem install aws-sdk
```

Create a project directory:

[user@dev ~]$ mkdir ruby_aws_sdk
[user@dev ~]$ cd ruby_aws_sdk

Create the connection file:
```
[user@dev ~]$ vim conn.rb
```

Paste the following contents into the conn.rb file:

Syntax

#!/usr/bin/env ruby

require 'aws-sdk'
require 'resolv-replace'

Aws.config.update(
        endpoint: 'http://FQDN_OF_GATEWAY_NODE:8080',
        access_key_id: 'MY_ACCESS_KEY',
        secret_access_key: 'MY_SECRET_KEY',
        force_path_style: true,
        region: 'us-east-1'
)

Example

#!/usr/bin/env ruby

require 'aws-sdk'
require 'resolv-replace'

Aws.config.update(
        endpoint: 'http://testclient.englab.pnq.redhat.com:8080',
        access_key_id: '98J4R9P22P5CDL65HKP8',
        secret_access_key: '6C+jcaP0dp0+FZfrRNgyGA9EzRy25pURldwje049',
        force_path_style: true,
        region: 'us-east-1'
)

Save the file and exit the editor.

Make the file executable:
```
[user@dev ~]$ chmod +x conn.rb
```
Run the file:
```
[user@dev ~]$ ./conn.rb | echo $?
```
If you have provided the values correctly in the file, the output of the command will be 0.

Create a new file for creating a bucket:

[user@dev ~]$ vim create_bucket.rb

Paste the following contents into the file:

Syntax

#!/usr/bin/env ruby

load 'conn.rb'

s3_client = Aws::S3::Client.new
s3_client.create_bucket(bucket: 'my-new-bucket2')

Save the file and exit the editor.

Make the file executable:
```
[user@dev ~]$ chmod +x create_bucket.rb
```
Run the file:
```
[user@dev ~]$ ./create_bucket.rb
```
If the output of the command is true, this means that bucket my-new-bucket2 was created successfully.

Create a new file for listing owned buckets:

[user@dev ~]$ vim list_owned_buckets.rb

Paste the following content into the file:

#!/usr/bin/env ruby

load 'conn.rb'

s3_client = Aws::S3::Client.new
s3_client.list_buckets.buckets.each do |bucket|
        puts "{bucket.name}\t{bucket.creation_date}"
end

Save the file and exit the editor.

Make the file executable:

[user@dev ~]$ chmod +x list_owned_buckets.rb

Run the file:

[user@dev ~]$ ./list_owned_buckets.rb

The output should look something like this:

my-new-bucket2 2020-01-21 10:33:19 UTC

Create a new file for creating an object:

[user@dev ~]$ vim create_object.rb

Paste the following contents into the file:

#!/usr/bin/env ruby

load 'conn.rb'

s3_client = Aws::S3::Client.new
s3_client.put_object(
        key: 'hello.txt',
        body: 'Hello World!',
        bucket: 'my-new-bucket2',
        content_type: 'text/plain'
)

Save the file and exit the editor.

Make the file executable:
```
[user@dev ~]$ chmod +x create_object.rb
```
Run the file:
```
[user@dev ~]$ ./create_object.rb
```
This will create a file hello.txt with the string Hello World!.

Create a new file for listing a bucket’s content:

[user@dev ~]$ vim list_bucket_content.rb

Paste the following content into the file:

#!/usr/bin/env ruby

load 'conn.rb'

s3_client = Aws::S3::Client.new
s3_client.list_objects(bucket: 'my-new-bucket2').contents.each do |object|
        puts "{object.key}\t{object.size}"
end

Save the file and exit the editor.

Make the file executable.

[user@dev ~]$ chmod +x list_bucket_content.rb

Run the file:

[user@dev ~]$ ./list_bucket_content.rb

The output will look something like this:

hello.txt    12    Fri, 22 Jan 2020 15:54:52 GMT

Create a new file for deleting an empty bucket:

[user@dev ~]$ vim del_empty_bucket.rb

Paste the following contents into the file:

#!/usr/bin/env ruby

load 'conn.rb'

s3_client = Aws::S3::Client.new
s3_client.delete_bucket(bucket: 'my-new-bucket2')

Save the file and exit the editor.

Make the file executable:

[user@dev ~]$ chmod +x del_empty_bucket.rb

Run the file:
```
[user@dev ~]$ ./del_empty_bucket.rb | echo $?
```
If the bucket is successfully deleted, the command will return 0 as output.
Note
Edit the create_bucket.rb file to create empty buckets, for example, my-new-bucket6, my-new-bucket7. Next, edit the above-mentioned del_empty_bucket.rb file accordingly before trying to delete empty buckets.

Create a new file for deleting a non-empty bucket:

[user@dev ~]$ vim del_non_empty_bucket.rb

Paste the following contents into the file:

#!/usr/bin/env ruby

load 'conn.rb'

s3_client = Aws::S3::Client.new
Aws::S3::Bucket.new('my-new-bucket2', client: s3_client).clear!
s3_client.delete_bucket(bucket: 'my-new-bucket2')

Save the file and exit the editor.

Make the file executable:

[user@dev ~]$ chmod +x del_non_empty_bucket.rb

Run the file:
```
[user@dev ~]$ ./del_non_empty_bucket.rb | echo $?
```
If the bucket is successfully deleted, the command will return 0 as output.

Create a new file for deleting an object:

[user@dev ~]$ vim delete_object.rb

Paste the following contents into the file:

#!/usr/bin/env ruby

load 'conn.rb'

s3_client = Aws::S3::Client.new
s3_client.delete_object(key: 'hello.txt', bucket: 'my-new-bucket2')

Save the file and exit the editor.

Make the file executable:
```
[user@dev ~]$ chmod +x delete_object.rb
```
Run the file:
```
[user@dev ~]$ ./delete_object.rb
```
This will delete the object hello.txt.

3.2.7. Accessing the Ceph Object Gateway using PHP

You can use PHP scripts for S3 access. This procedure provides some example PHP scripts to do various tasks, such as deleting a bucket or an object.

Important

The examples given below are tested against php v5.4.16 and aws-sdk v2.8.24.

Prerequisites

Root-level access to a development workstation.
Internet access.

Procedure

Install the php package:
```
[root@dev ~]# yum install php
```
Download the zip archive of aws-sdk for PHP and extract it.

Create a project directory:

[user@dev ~]$ mkdir php_s3
[user@dev ~]$ cd php_s3

Copy the extracted aws directory to the project directory. For example:
```
[user@dev ~]$ cp -r ~/Downloads/aws/ ~/php_s3/
```
Create the connection file:
```
[user@dev ~]$ vim conn.php
```
Paste the following contents in the conn.php file:
Syntax
```
<?php
define('AWS_KEY', 'MY_ACCESS_KEY');
define('AWS_SECRET_KEY', 'MY_SECRET_KEY');
define('HOST', 'FQDN_OF_GATEWAY_NODE');
define('PORT', '8080');

// require the AWS SDK for php library
require '/PATH_TO_AWS/aws-autoloader.php';

use Aws\S3\S3Client;

// Establish connection with host using S3 Client
client = S3Client::factory(array(
    'base_url' => HOST,
    'port' => PORT,
    'key'      => AWS_KEY,
    'secret'   => AWS_SECRET_KEY
));
?>
```
Replace FQDN_OF_GATEWAY_NODE with the FQDN of the gateway node. Replace MY_ACCESS_KEY and MY_SECRET_KEY with the access_key and secret_key that were generated when creating the radosgw user for S3 access as mentioned in the Red Hat Ceph Storage Object Gateway Configuration and Administration Guide. Replace PATH_TO_AWS with the absolute path to the extracted aws directory that you copied to the php project directory.
Save the file and exit the editor.
Run the file:
```
[user@dev ~]$ php -f conn.php | echo $?
```
If you have provided the values correctly in the file, the output of the command will be 0.
Create a new file for creating a bucket:
```
[user@dev ~]$ vim create_bucket.php
```
Paste the following contents into the new file:
Syntax
```
<?php

include 'conn.php';

client->createBucket(array('Bucket' => 'my-new-bucket3'));

?>
```
Save the file and exit the editor.
Run the file:
```
[user@dev ~]$ php -f create_bucket.php
```

Create a new file for listing owned buckets:

[user@dev ~]$ vim list_owned_buckets.php

Paste the following content into the file:

Syntax

<?php

include 'conn.php';

blist = client->listBuckets();
echo "Buckets belonging to " . blist['Owner']['ID'] . ":\n";
foreach (blist['Buckets'] as b) {
    echo "{b['Name']}\t{b['CreationDate']}\n";
}

?>

Save the file and exit the editor.

Run the file:

[user@dev ~]$ php -f list_owned_buckets.php

The output should look similar to this:

my-new-bucket3 2020-01-21 10:33:19 UTC

Create an object by first creating a source file named hello.txt:
```
[user@dev ~]$ echo "Hello World!" > hello.txt
```

Create a new php file:

[user@dev ~]$ vim create_object.php

Paste the following contents into the file:

Syntax

<?php

include 'conn.php';

key         = 'hello.txt';
source_file = './hello.txt';
acl         = 'private';
bucket      = 'my-new-bucket3';
client->upload(bucket, key, fopen(source_file, 'r'), acl);

?>

Save the file and exit the editor.

Run the file:
```
[user@dev ~]$ php -f create_object.php
```
This will create the object hello.txt in bucket my-new-bucket3.

Create a new file for listing a bucket’s content:

[user@dev ~]$ vim list_bucket_content.php

Paste the following content into the file:

Syntax

<?php

include 'conn.php';

o_iter = client->getIterator('ListObjects', array(
    'Bucket' => 'my-new-bucket3'
));
foreach (o_iter as o) {
    echo "{o['Key']}\t{o['Size']}\t{o['LastModified']}\n";
}
?>

Save the file and exit the editor.

Run the file:

[user@dev ~]$ php -f list_bucket_content.php

The output will look similar to this:

hello.txt    12    Fri, 22 Jan 2020 15:54:52 GMT

Create a new file for deleting an empty bucket:
```
[user@dev ~]$ vim del_empty_bucket.php
```
Paste the following contents into the file:
Syntax
```
<?php

include 'conn.php';

client->deleteBucket(array('Bucket' => 'my-new-bucket3'));
?>
```
Save the file and exit the editor.
Run the file:
```
[user@dev ~]$ php -f del_empty_bucket.php | echo $?
```
If the bucket is successfully deleted, the command will return 0 as output.
Note
Edit the create_bucket.php file to create empty buckets, for example, my-new-bucket4, my-new-bucket5. Next, edit the above-mentioned del_empty_bucket.php file accordingly before trying to delete empty buckets.
Important
Deleting a non-empty bucket is currently not supported in PHP 2 and newer versions of aws-sdk.

Create a new file for deleting an object:

[user@dev ~]$ vim delete_object.php

Paste the following contents into the file:

Syntax

<?php

include 'conn.php';

client->deleteObject(array(
    'Bucket' => 'my-new-bucket3',
    'Key'    => 'hello.txt',
));
?>

Save the file and exit the editor.

Run the file:
```
[user@dev ~]$ php -f delete_object.php
```
This will delete the object hello.txt.

3.2.8. Secure Token Service

The Amazon Web Services' Secure Token Service (STS) returns a set of temporary security credentials for authenticating users.

Red Hat Ceph Storage Object Gateway supports a subset of Amazon STS application programming interfaces (APIs) for identity and access management (IAM).

Users first authenticate against STS and receive a short-lived S3 access key and secret key that can be used in subsequent requests.

Red Hat Ceph Storage can authenticate S3 users by integrating with a Single Sign-On by configuring an OIDC provider. This feature enables Object Storage users to authenticate against an enterprise identity provider rather than the local Ceph Object Gateway database. For instance, if the SSO is connected to an enterprise IDP in the backend, Object Storage users can use their enterprise credentials to authenticate and get access to the Ceph Object Gateway S3 endpoint.

By using STS along with the IAM role policy feature, you can create finely tuned authorization policies to control access to your data. This enables you to implement either a Role-Based Access Control (RBAC) or Attribute-Based Access Control (ABAC) authorization model for your object storage data, giving you complete control over who can access the data.

Simplifies workflow to access S3 resources with STS

The user wants access S3 resources in Red Hat Ceph Storage.
The user needs to authenticate against the SSO provider.
The SSO provider is federated with an IDP and checks if the user credentials are valid, the user gets authenticated and the SSO provides a Token to the user.
Using the Token provided by the SSO, the user accesses the Ceph Object Gateway STS endpoint, asking to assume an IAM role that provides the user with access to S3 resources.
The Red Hat Ceph Storage gateway receives the user token and asks the SSO to validate the token.
Once the SSO validates the token, the user is allowed to assume the role. Through STS, the user is with temporary access and secret keys that give the user access to the S3 resources.
Depending on the policies attached to the IAM role the user has assumed, the user can access a set of S3 resources.
For example, read for bucket A and write to bucket B.

Additional Resources

Amazon Web Services Secure Token Service welcome page.
See the Configuring and using STS Lite with Keystone section of the Red Hat Ceph Storage Developer Guide for details on STS Lite and Keystone.
See the Working around the limitations of using STS Lite with Keystone section of the Red Hat Ceph Storage Developer Guide for details on the limitations of STS Lite and Keystone.

3.2.8.1. The Secure Token Service application programming interfaces

The Ceph Object Gateway implements the following Secure Token Service (STS) application programming interfaces (APIs):

AssumeRole

This API returns a set of temporary credentials for cross-account access. These temporary credentials allow for both, permission policies attached with Role and policies attached with AssumeRole API. The RoleArn and the RoleSessionName request parameters are required, but the other request parameters are optional.

RoleArn

Description: The role to assume for the Amazon Resource Name (ARN) with a length of 20 to 2048 characters.
Type: String
Required: Yes

RoleSessionName

Description: Identifying the role session name to assume. The role session name can uniquely identify a session when different principals or different reasons assume a role. This parameter’s value has a length of 2 to 64 characters. The =, ,, ., @, and - characters are allowed, but no spaces allowed.
Type: String
Required: Yes

Policy

Description: An identity and access management policy (IAM) in a JSON format for use in an inline session. This parameter’s value has a length of 1 to 2048 characters.
Type: String
Required: No

DurationSeconds

Description: The duration of the session in seconds, with a minimum value of 900 seconds to a maximum value of 43200 seconds. The default value is 3600 seconds.
Type: Integer
Required: No

ExternalId

Description: When assuming a role for another account, provide the unique external identifier if available. This parameter’s value has a length of 2 to 1224 characters.
Type: String
Required: No

SerialNumber

Description: A user’s identification number from their associated multi-factor authentication (MFA) device. The parameter’s value can be the serial number of a hardware device or a virtual device, with a length of 9 to 256 characters.
Type: String
Required: No

TokenCode

Description: The value generated from the multi-factor authentication (MFA) device, if the trust policy requires MFA. If an MFA device is required, and if this parameter’s value is empty or expired, then AssumeRole call returns an "access denied" error message. This parameter’s value has a fixed length of 6 characters.
Type: String
Required: No

AssumeRoleWithWebIdentity

This API returns a set of temporary credentials for users who have been authenticated by an application, such as OpenID Connect or OAuth 2.0 Identity Provider. The RoleArn and the RoleSessionName request parameters are required, but the other request parameters are optional.

RoleArn

Description: The role to assume for the Amazon Resource Name (ARN) with a length of 20 to 2048 characters.
Type: String
Required: Yes

RoleSessionName

Description: Identifying the role session name to assume. The role session name can uniquely identify a session when different principals or different reasons assume a role. This parameter’s value has a length of 2 to 64 characters. The =, ,, ., @, and - characters are allowed, but no spaces are allowed.
Type: String
Required: Yes

Policy

Description: An identity and access management policy (IAM) in a JSON format for use in an inline session. This parameter’s value has a length of 1 to 2048 characters.
Type: String
Required: No

DurationSeconds

Description: The duration of the session in seconds, with a minimum value of 900 seconds to a maximum value of 43200 seconds. The default value is 3600 seconds.
Type: Integer
Required: No

ProviderId

Description: The fully qualified host component of the domain name from the identity provider. This parameter’s value is only valid for OAuth 2.0 access tokens, with a length of 4 to 2048 characters.
Type: String
Required: No

WebIdentityToken

Description: The OpenID Connect identity token or OAuth 2.0 access token provided from an identity provider. This parameter’s value has a length of 4 to 2048 characters.
Type: String
Required: No

Additional Resources

See the Examples using the Secure Token Service APIs section of the Red Hat Ceph Storage Developer Guide for more details.
Amazon Web Services Security Token Service, the AssumeRole action.
Amazon Web Services Security Token Service, the AssumeRoleWithWebIdentity action.

3.2.8.2. Configuring the Secure Token Service

Configure the Secure Token Service (STS) for use with the Ceph Object Gateway by setting the rgw_sts_key, and rgw_s3_auth_use_sts options.

Note

The S3 and STS APIs co-exist in the same namespace, and both can be accessed from the same endpoint in the Ceph Object Gateway.

Prerequisites

A running Red Hat Ceph Storage cluster.
A running Ceph Object Gateway.
Root-level access to a Ceph Manager node.

Procedure

Set the following configuration options for the Ceph Object Gateway client:

Syntax

ceph config set RGW_CLIENT_NAME rgw_sts_key STS_KEY
ceph config set RGW_CLIENT_NAME rgw_s3_auth_use_sts true

The rgw_sts_key is the STS key for encrypting or decrypting the session token and is exactly 16 hex characters.

Important

The STS key needs to be alphanumeric.

Example

[root@mgr ~]# ceph config set client.rgw rgw_sts_key 7f8fd8dd4700mnop
[root@mgr ~]# ceph config set client.rgw rgw_s3_auth_use_sts true

Restart the Ceph Object Gateway for the added key to take effect.
Note
Use the output from the ceph orch ps command, under the NAME column, to get the SERVICE_TYPE.ID information.
1. To restart the Ceph Object Gateway on an individual node in the storage cluster:
  Syntax
```
systemctl restart ceph-CLUSTER_ID@SERVICE_TYPE.ID.service
```
  Example
```
[root@host01 ~]# systemctl restart ceph-c4b34c6f-8365-11ba-dc31-529020a7702d@rgw.realm.zone.host01.gwasto.service
```
2. To restart the Ceph Object Gateways on all nodes in the storage cluster:
  Syntax
```
ceph orch restart SERVICE_TYPE
```
  Example
```
[ceph: root@host01 /]# ceph orch restart rgw
```

Additional Resources

See Secure Token Service application programming interfaces section in the Red Hat Ceph Storage Developer Guide for more details on the STS APIs.
See the The basics of Ceph configuration chapter in the Red Hat Ceph Storage Configuration Guide for more details on using the Ceph configuration database.

3.2.8.3. Creating a user for an OpenID Connect provider

To establish trust between the Ceph Object Gateway and the OpenID Connect Provider create a user entity and a role trust policy.

Prerequisites

User-level access to the Ceph Object Gateway node.
Secure Token Service configured.

Procedure

Create a new Ceph user:

Syntax

radosgw-admin --uid USER_NAME --display-name "DISPLAY_NAME" --access_key USER_NAME --secret SECRET user create

Example

[user@rgw ~]$ radosgw-admin --uid TESTER --display-name "TestUser" --access_key TESTER --secret test123 user create

Configure the Ceph user capabilities:

Syntax

radosgw-admin caps add --uid="USER_NAME" --caps="oidc-provider=*"

Example

[user@rgw ~]$ radosgw-admin caps add --uid="TESTER" --caps="oidc-provider=*"

Add a condition to the role trust policy using the Secure Token Service (STS) API:

Syntax

"{\"Version\":\"2020-01-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":{\"Federated\":[\"arn:aws:iam:::oidc-provider/IDP_URL\"]},\"Action\":[\"sts:AssumeRoleWithWebIdentity\"],\"Condition\":{\"StringEquals\":{\"IDP_URL:app_id\":\"AUD_FIELD\"\}\}\}\]\}"

Important

The app_id in the syntax example above must match the AUD_FIELD field of the incoming token.

Additional Resources

See the Obtaining the Root CA Thumbprint for an OpenID Connect Identity Provider article on Amazon’s website.
See the Secure Token Service application programming interfaces section in the Red Hat Ceph Storage Developer Guide for more details on the STS APIs.
See the Examples using the Secure Token Service APIs section of the Red Hat Ceph Storage Developer Guide for more details.

3.2.8.4. Obtaining a thumbprint of an OpenID Connect provider

Get the OpenID Connect provider’s (IDP) configuration document.

Any SSO that follows the OIDC protocol standards is expected to work with the Ceph Object Gateway. Red Hat has tested with the following SSO providers:

Red Hat Single Sing-on
Keycloak

Prerequisites

Installation of the openssl and curl packages.

Procedure

Get the configuration document from the IDP’s URL:

Syntax

curl -k -v \
     -X GET \
     -H "Content-Type: application/x-www-form-urlencoded" \
     "IDP_URL:8000/CONTEXT/realms/REALM/.well-known/openid-configuration" \
   | jq .

Example

[user@client ~]$ curl -k -v \
     -X GET \
     -H "Content-Type: application/x-www-form-urlencoded" \
     "http://www.example.com:8000/auth/realms/quickstart/.well-known/openid-configuration" \
   | jq .

Get the IDP certificate:

Syntax

curl -k -v \
     -X GET \
     -H "Content-Type: application/x-www-form-urlencoded" \
     "IDP_URL/CONTEXT/realms/REALM/protocol/openid-connect/certs" \
     | jq .

Example

[user@client ~]$ curl -k -v \
     -X GET \
     -H "Content-Type: application/x-www-form-urlencoded" \
     "http://www.example.com/auth/realms/quickstart/protocol/openid-connect/certs" \
     | jq .

Note

The x5c cert can be available on the /certs path or in the /jwks path depending on the SSO provider.

Copy the result of the "x5c" response from the previous command and paste it into the certificate.crt file. Include —–BEGIN CERTIFICATE—– at the beginning and —–END CERTIFICATE—– at the end.

Example

Get the certificate thumbprint:

Syntax

openssl x509 -in CERT_FILE -fingerprint -noout

Example

[user@client ~]$ openssl x509 -in certificate.crt -fingerprint -noout
SHA1 Fingerprint=F7:D7:B3:51:5D:D0:D3:19:DD:21:9A:43:A9:EA:72:7A:D6:06:52:87

Remove all the colons from the SHA1 fingerprint and use this as the input for creating the IDP entity in the IAM request.

Additional Resources

See the Obtaining the Root CA Thumbprint for an OpenID Connect Identity Provider article on Amazon’s website.
See the Secure Token Service application programming interfaces section in the Red Hat Ceph Storage Developer Guide for more details on the STS APIs.
See the Examples using the Secure Token Service APIs section of the Red Hat Ceph Storage Developer Guide for more details.

3.2.8.5. Registering the OpenID Connect provider

Prerequisites

Installation of the openssl and curl packages.
Secure Token Service configured.
User created for an OIDC provider.
Thumbprint of an OIDC obtained.

Procedure

Extract URL from the token.

Example

[root@host01 ~]# bash check_token_isv.sh | jq .iss

"https://keycloak-sso.apps.ocp.example.com/auth/realms/ceph"

Example

[root@host01 ~]# aws --endpoint https://cephproxy1.example.com:8443 iam create-open-id-connect-provider --url https://keycloak-sso.apps.ocp.example.com/auth/realms/ceph --thumbprint-list 00E9CFD697E0B16DD13C86B0FFDC29957E5D24DF

Verify that the OIDC provider is added to the Ceph Object Gateway.

Example

[root@host01 ~]# aws --endpoint https://cephproxy1.example.com:8443 iam
list-open-id-connect-providers

{
 "OpenIDConnectProviderList": [
 {
 "Arn":
"arn:aws:iam:::oidc-provider/keycloak-sso.apps.ocp.example.com/auth/realms/ceph"
 }
 ]
}

3.2.8.6. Creating IAM roles and policies

Create IAM roles and policies.

Prerequisites

Installation of the openssl and curl packages.
Secure Token Service configured.
User created for an OIDC provider.
Thumbprint of an OIDC obtained.
The OIDC provider in Ceph Object Gateway registered.

Procedure

Retrieve and validate JWT token.

Example

[root@host01 ~]# curl -k -q -L -X POST
"https://keycloak-sso.apps.example.com/auth/realms/ceph/protocol/openid-connect/
token" \
-H 'Content-Type: application/x-www-form-urlencoded' \
--data-urlencode 'client_id=ceph' \
--data-urlencode 'grant_type=password' \
--data-urlencode 'client_secret=XXXXXXXXXXXXXXXXXXXXXXX' \
--data-urlencode 'scope=openid' \
--data-urlencode "username=SSOUSERNAME" \
--data-urlencode "password=SSOPASSWORD"

Verify the token.

Example

[root@host01 ~]# cat check_token.sh
USERNAME=$1
PASSWORD=$2
KC_CLIENT="ceph"
KC_CLIENT_SECRET="7sQXqyMSzHIeMcSALoKaljB6sNIBDRjU"
KC_ACCESS_TOKEN="$(./get_web_token.sh $USERNAME $PASSWORD | jq -r '.access_token')"
KC_SERVER="https://keycloak-sso.apps.ocp.stg.local"
KC_CONTEXT="auth"
KC_REALM="ceph"
curl -k -s -q \
-X POST \
-u "$KC_CLIENT:$KC_CLIENT_SECRET" \
-d "token=$KC_ACCESS_TOKEN" \
"$KC_SERVER/$KC_CONTEXT/realms/$KC_REALM/protocol/openid-connect/token/introspect" | jq .


[root@host01 ~]# ./check_token.sh s3admin passw0rd | jq .sub
"ceph"

In this example, the jq filter is used by the subfield in the token and is set to ceph.

Create a JSON file with role properties. Set Statement to Allow and the Action as AssumeRoleWithWebIdentity. Allow access to any user with the JWT token that matches the condition with sub:ceph.

Example

[root@host01 ~]# cat role-rgwadmins.json
{
 "Version": "2012-10-17",
 "Statement": [
   {
     "Effect": "Allow",
     "Principal": {
       "Federated": [
         "arn:aws:iam:::oidc-provider/keycloak-sso.apps.example.com/auth/realms/ceph"
       ]
     },
     "Action": [
       "sts:AssumeRoleWithWebIdentity"
     ],
     "Condition": {
       "StringLike": { "keycloak-sso.apps.example.com/auth/realms/ceph:sub":"ceph" }
     }
   }
 ]
}

Create a Ceph Object Gateway role using the JSON file.

Example

[root@host01 ~]# radosgw-admin role create --role-name rgwadmins \
--assume-role-policy-doc=$(jq -rc . /root/role-rgwadmins.json)

3.2.8.7. Accessing S3 resources

Verify the Assume Role with STS credentials to access S3 resources.

Prerequisites

Installation of the openssl and curl packages.
Secure Token Service configured.
User created for an OIDC provider.
Thumbprint of an OIDC obtained.
The OIDC provider in Ceph Object Gateway registered.
IAM roles and policies created

Procedure

Following is an example of assume Role with STS to get temporary access and secret key to access S3 resources.

[roo@host01 ~]# cat test-assume-role.sh
#!/bin/bash
export AWS_CA_BUNDLE="/etc/pki/ca-trust/source/anchors/cert.pem"
unset AWS_ACCESS_KEY_ID
unset AWS_SECRET_ACCESS_KEY
unset AWS_SESSION_TOKEN
KC_ACCESS_TOKEN=$(curl -k -q -L -X POST
"https://keycloak-sso.apps.ocp.example.com/auth/realms/ceph/protocol/openid-connect/
token" \
-H 'Content-Type: application/x-www-form-urlencoded' \
--data-urlencode 'client_id=ceph' \
--data-urlencode 'grant_type=password' \
--data-urlencode 'client_secret=XXXXXXXXXXXXXXXXXXXXXXX' \
--data-urlencode 'scope=openid' \
--data-urlencode "<varname>SSOUSERNAME</varname>" \
--data-urlencode "<varname>SSOPASSWORD</varname>" | jq -r .access_token)
echo ${KC_ACCESS_TOKEN}
IDM_ASSUME_ROLE_CREDS=$(aws sts assume-role-with-web-identity --role-arn
"arn:aws:iam:::role/$3" --role-session-name testbr
--endpoint=https://cephproxy1.example.com:8443
--web-identity-token="$KC_ACCESS_TOKEN")
echo "aws sts assume-role-with-web-identity --role-arn "arn:aws:iam:::role/$3"
--role-session-name testb --endpoint=https://cephproxy1.example.com:8443
--web-identity-token="$KC_ACCESS_TOKEN""
echo $IDM_ASSUME_ROLE_CREDS
export AWS_ACCESS_KEY_ID=$(echo $IDM_ASSUME_ROLE_CREDS | jq -r
.Credentials.AccessKeyId)
export AWS_SECRET_ACCESS_KEY=$(echo $IDM_ASSUME_ROLE_CREDS | jq -r
.Credentials.SecretAccessKey)
export AWS_SESSION_TOKEN=$(echo $IDM_ASSUME_ROLE_CREDS | jq -r
.Credentials.SessionToken)

Run the script.

Example

[root@host01 ~]# source ./test-assume-role.sh s3admin passw0rd rgwadmins
[root@host01 ~]# aws s3 mb s3://testbucket
[root@host01 ~]# aws s3 ls

3.2.9. Configuring and using STS Lite with Keystone (Technology Preview)

The Amazon Secure Token Service (STS) and S3 APIs co-exist in the same namespace. The STS options can be configured in conjunction with the Keystone options.

Note

Both S3 and STS APIs can be accessed using the same endpoint in Ceph Object Gateway.

Prerequisites

Red Hat Ceph Storage 5.0 or higher.
A running Ceph Object Gateway.
Installation of the Boto Python module, version 3 or higher.
Root-level access to a Ceph Manager node.
User-level access to an OpenStack node.

Procedure

Set the following configuration options for the Ceph Object Gateway client:

Syntax

ceph config set RGW_CLIENT_NAME rgw_sts_key STS_KEY
ceph config set RGW_CLIENT_NAME rgw_s3_auth_use_sts true

The rgw_sts_key is the STS key for encrypting or decrypting the session token and is exactly 16 hex characters.

Important

The STS key needs to be alphanumeric.

Example

[root@mgr ~]# ceph config set client.rgw rgw_sts_key 7f8fd8dd4700mnop
[root@mgr ~]# ceph config set client.rgw rgw_s3_auth_use_sts true

Generate the EC2 credentials on the OpenStack node:

Example

[user@osp ~]$ openstack ec2 credentials create

+------------+--------------------------------------------------------+
| Field      | Value                                                  |
+------------+--------------------------------------------------------+
| access     | b924dfc87d454d15896691182fdeb0ef                       |
| links      | {u'self': u'http://192.168.0.15/identity/v3/users/     |
|            | 40a7140e424f493d8165abc652dc731c/credentials/          |
|            | OS-EC2/b924dfc87d454d15896691182fdeb0ef'}              |
| project_id | c703801dccaf4a0aaa39bec8c481e25a                       |
| secret     | 6a2142613c504c42a94ba2b82147dc28                       |
| trust_id   | None                                                   |
| user_id    | 40a7140e424f493d8165abc652dc731c                       |
+------------+--------------------------------------------------------+

Use the generated credentials to get back a set of temporary security credentials using GetSessionToken API:

Example

import boto3

access_key = b924dfc87d454d15896691182fdeb0ef
secret_key = 6a2142613c504c42a94ba2b82147dc28

client = boto3.client('sts',
aws_access_key_id=access_key,
aws_secret_access_key=secret_key,
endpoint_url=https://www.example.com/rgw,
region_name='',
)

response = client.get_session_token(
    DurationSeconds=43200
)

Obtaining the temporary credentials can be used for making S3 calls:

Example

s3client = boto3.client('s3',
  aws_access_key_id = response['Credentials']['AccessKeyId'],
  aws_secret_access_key = response['Credentials']['SecretAccessKey'],
  aws_session_token = response['Credentials']['SessionToken'],
  endpoint_url=https://www.example.com/s3,
  region_name='')

bucket = s3client.create_bucket(Bucket='my-new-shiny-bucket')
response = s3client.list_buckets()
for bucket in response["Buckets"]:
  print "{name}\t{created}".format(
    name = bucket['Name'],
    created = bucket['CreationDate'],
  )

Create a new S3Access role and configure a policy.

Assign a user with administrative CAPS:

Syntax

radosgw-admin caps add --uid="USER" --caps="roles=*"

Example

[root@mgr ~]# radosgw-admin caps add --uid="gwadmin" --caps="roles=*"

Create the S3Access role:

Syntax

radosgw-admin role create --role-name=ROLE_NAME --path=PATH --assume-role-policy-doc=TRUST_POLICY_DOC

Example

[root@mgr ~]# radosgw-admin role create --role-name=S3Access --path=/application_abc/component_xyz/ --assume-role-policy-doc=\{\"Version\":\"2012-10-17\",\"Statement\":\[\{\"Effect\":\"Allow\",\"Principal\":\{\"AWS\":\[\"arn:aws:iam:::user/TESTER\"\]\},\"Action\":\[\"sts:AssumeRole\"\]\}\]\}

Attach a permission policy to the S3Access role:

Syntax

radosgw-admin role-policy put --role-name=ROLE_NAME --policy-name=POLICY_NAME --policy-doc=PERMISSION_POLICY_DOC

Example

[root@mgr ~]# radosgw-admin role-policy put --role-name=S3Access --policy-name=Policy --policy-doc=\{\"Version\":\"2012-10-17\",\"Statement\":\[\{\"Effect\":\"Allow\",\"Action\":\[\"s3:*\"\],\"Resource\":\"arn:aws:s3:::example_bucket\"\}\]\}

Now another user can assume the role of the gwadmin user. For example, the gwuser user can assume the permissions of the gwadmin user.
Make a note of the assuming user’s access_key and secret_key values.
Example
```
[root@mgr ~]# radosgw-admin user info --uid=gwuser | grep -A1 access_key
```

Use the AssumeRole API call, providing the access_key and secret_key values from the assuming user:

Example

import boto3

access_key = 11BS02LGFB6AL6H1ADMW
secret_key = vzCEkuryfn060dfee4fgQPqFrncKEIkh3ZcdOANY

client = boto3.client('sts',
aws_access_key_id=access_key,
aws_secret_access_key=secret_key,
endpoint_url=https://www.example.com/rgw,
region_name='',
)

response = client.assume_role(
RoleArn='arn:aws:iam:::role/application_abc/component_xyz/S3Access',
RoleSessionName='Bob',
DurationSeconds=3600
)

Important

The AssumeRole API requires the S3Access role.

Additional Resources

See the Test S3 Access section in the Red Hat Ceph Storage Object Gateway Guide for more information on installing the Boto Python module.
See the Create a User section in the Red Hat Ceph Storage Object Gateway Guide for more information.

3.2.10. Working around the limitations of using STS Lite with Keystone (Technology Preview)

A limitation with Keystone is that it does not supports Secure Token Service (STS) requests. Another limitation is the payload hash is not included with the request. To work around these two limitations the Boto authentication code must be modified.

Prerequisites

A running Red Hat Ceph Storage cluster, version 5.0 or higher.
A running Ceph Object Gateway.
Installation of Boto Python module, version 3 or higher.

Procedure

Open and edit Boto’s auth.py file.

Add the following four lines to the code block:

class SigV4Auth(BaseSigner):
  """
  Sign a request with Signature V4.
  """
  REQUIRES_REGION = True

  def __init__(self, credentials, service_name, region_name):
      self.credentials = credentials
      # We initialize these value here so the unit tests can have
      # valid values.  But these will get overriden in ``add_auth``
      # later for real requests.
      self._region_name = region_name
      if service_name == 'sts': 1
          self._service_name = 's3' 2
      else: 3
          self._service_name = service_name 4

Add the following two lines to the code block:

def _modify_request_before_signing(self, request):
        if 'Authorization' in request.headers:
            del request.headers['Authorization']
        self._set_necessary_date_headers(request)
        if self.credentials.token:
            if 'X-Amz-Security-Token' in request.headers:
                del request.headers['X-Amz-Security-Token']
            request.headers['X-Amz-Security-Token'] = self.credentials.token

        if not request.context.get('payload_signing_enabled', True):
            if 'X-Amz-Content-SHA256' in request.headers:
                del request.headers['X-Amz-Content-SHA256']
            request.headers['X-Amz-Content-SHA256'] = UNSIGNED_PAYLOAD 1
        else: 2
            request.headers['X-Amz-Content-SHA256'] = self.payload(request)

Additional Resources

See the Test S3 Access section in the Red Hat Ceph Storage Object Gateway Guide for more information on installing the Boto Python module.

3.3. S3 bucket operations

As a developer, you can perform bucket operations with the Amazon S3 application programming interface (API) through the Ceph Object Gateway.

The following table list the Amazon S3 functional operations for buckets, along with the function’s support status.

Table 3.2. Bucket operations
Feature	Status	Notes
List Buckets	Supported
Create a Bucket	Supported	Different set of canned ACLs.
Put Bucket Website	Supported
Get Bucket Website	Supported
Delete Bucket Website	Supported
Put Bucket replication	Supported
Get Bucket replication	Supported
Delete Bucket replication	Supported
Bucket Lifecycle	Partially Supported	`Expiration`, `NoncurrentVersionExpiration` and `AbortIncompleteMultipartUpload` supported.
Put Bucket Lifecycle	Partially Supported	`Expiration`, `NoncurrentVersionExpiration` and `AbortIncompleteMultipartUpload` supported.
Delete Bucket Lifecycle	Supported
Get Bucket Objects	Supported
Bucket Location	Supported
Get Bucket Version	Supported
Put Bucket Version	Supported
Delete Bucket	Supported
Get Bucket ACLs	Supported	Different set of canned ACLs
Put Bucket ACLs	Supported	Different set of canned ACLs
Get Bucket cors	Supported
Put Bucket cors	Supported
Delete Bucket cors	Supported
List Bucket Object Versions	Supported
Head Bucket	Supported
List Bucket Multipart Uploads	Supported
Bucket Policies	Partially Supported
Get a Bucket Request Payment	Supported
Put a Bucket Request Payment	Supported
Multi-tenant Bucket Operations	Supported
GET `PublicAccessBlock`	Supported
PUT `PublicAccessBlock`	Supported
Delete `PublicAccessBlock`	Supported

Prerequisites

A running Red Hat Ceph Storage cluster.
A RESTful client.

3.3.1. S3 create bucket notifications

Create bucket notifications at the bucket level. The notification configuration has the Red Hat Ceph Storage Object Gateway S3 events, ObjectCreated, ObjectRemoved, and ObjectLifecycle:Expiration. These need to be published and the destination to send the bucket notifications. Bucket notifications are S3 operations.

To create a bucket notification for s3:objectCreate, s3:objectRemove and s3:ObjectLifecycle:Expiration events, use PUT:

Example

client.put_bucket_notification_configuration(
   Bucket=bucket_name,
   NotificationConfiguration={
       'TopicConfigurations': [
           {
               'Id': notification_name,
               'TopicArn': topic_arn,
               'Events': ['s3:ObjectCreated:*', 's3:ObjectRemoved:*', 's3:ObjectLifecycle:Expiration:*']
           }]})

Important

Red Hat supports ObjectCreate events, such as put, post, multipartUpload, and copy. Red Hat also supports ObjectRemove events, such as object_delete and s3_multi_object_delete.

Request Entities

NotificationConfiguration

Description: list of TopicConfiguration entities.
Type: Container
Required: Yes

TopicConfiguration

Description: Id, Topic, and list of Event entities.
Type: Container
Required: Yes

id

Description: Name of the notification.
Type: String
Required: Yes

Topic

Description: Topic Amazon Resource Name(ARN)
Note
The topic must be created beforehand.
Type: String
Required: Yes

Event

Description: List of supported events. Multiple event entities can be used. If omitted, all events are handled.
Type: String
Required: No

Filter

Description: S3Key, S3Metadata and S3Tags entities.
Type: Container
Required: No

S3Key

Description: A list of FilterRule entities, for filtering based on the object key. At most, 3 entities may be in the list, for example Name would be prefix, suffix, or regex. All filter rules in the list must match for the filter to match.
Type: Container
Required: No

S3Metadata

Description: A list of FilterRule entities, for filtering based on object metadata. All filter rules in the list must match the metadata defined on the object. However, the object still matches if it has other metadata entries not listed in the filter.
Type: Container
Required: No

S3Tags

Description: A list of FilterRule entities, for filtering based on object tags. All filter rules in the list must match the tags defined on the object. However, the object still matches if it has other tags not listed in the filter.
Type: Container
Required: No

S3Key.FilterRule

Description: Name and Value entities. Name is : prefix, suffix, or regex. The Value would hold the key prefix, key suffix, or a regular expression for matching the key, accordingly.
Type: Container
Required: Yes

S3Metadata.FilterRule

Description: Name and Value entities. Name is the name of the metadata attribute for example x-amz-meta-xxx. The value is the expected value for this attribute.
Type: Container
Required: Yes

S3Tags.FilterRule

Description: Name and Value entities. Name is the tag key, and the value is the tag value.
Type: Container
Required: Yes

HTTP response

400

Status Code: MalformedXML
Description: The XML is not well-formed.

400

Status Code: InvalidArgument
Description: Missing Id or missing or invalid topic ARN or invalid event.

404

Status Code: NoSuchBucket
Description: The bucket does not exist.

404

Status Code: NoSuchKey
Description: The topic does not exist.

3.3.2. S3 get bucket notifications

Get a specific notification or list all the notifications configured on a bucket.

Syntax

Get /BUCKET?notification=NOTIFICATION_ID HTTP/1.1
Host: cname.domain.com
Date: date
Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

Example

Get /testbucket?notification=testnotificationID HTTP/1.1
Host: cname.domain.com
Date: date
Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

Example Response

<NotificationConfiguration xmlns="http://s3.amazonaws.com/doc/2006-03-01/">
    <TopicConfiguration>
        <Id></Id>
        <Topic></Topic>
        <Event></Event>
        <Filter>
            <S3Key>
                <FilterRule>
                    <Name></Name>
                    <Value></Value>
                </FilterRule>
                 </S3Key>
             <S3Metadata>
                 <FilterRule>
                     <Name></Name>
                     <Value></Value>
                 </FilterRule>
             </S3Metadata>
             <S3Tags>
                 <FilterRule>
                     <Name></Name>
                     <Value></Value>
                 </FilterRule>
             </S3Tags>
         </Filter>
    </TopicConfiguration>
</NotificationConfiguration>

Note

The notification subresource returns the bucket notification configuration or an empty NotificationConfiguration element. The caller must be the bucket owner.

Request Entities

notification-id

Description: Name of the notification. All notifications are listed if the ID is not provided.
Type: String

NotificationConfiguration

Description: list of TopicConfiguration entities.
Type: Container
Required: Yes

TopicConfiguration

Description: Id, Topic, and list of Event entities.
Type: Container
Required: Yes

id

Description: Name of the notification.
Type: String
Required: Yes

Topic

Description: Topic Amazon Resource Name(ARN)
Note
The topic must be created beforehand.
Type: String
Required: Yes

Event

Description: Handled event. Multiple event entities may exist.
Type: String
Required: Yes

Filter

Description: The filters for the specified configuration.
Type: Container
Required: No

HTTP response

404

Status Code: NoSuchBucket
Description: The bucket does not exist.

404

Status Code: NoSuchKey
Description: The notification does not exist if it has been provided.

3.3.3. S3 delete bucket notifications

Delete a specific or all notifications from a bucket.

Note

Notification deletion is an extension to the S3 notification API. Any defined notifications on a bucket are deleted when the bucket is deleted. Deleting an unknown notification for example double delete, is not considered an error.

To delete a specific or all notifications use DELETE:

Syntax

DELETE /BUCKET?notification=NOTIFICATION_ID HTTP/1.1

Example

DELETE /testbucket?notification=testnotificationID HTTP/1.1

Request Entities

notification-id

Description: Name of the notification. All notifications on the bucket are deleted if the notification ID is not provided.
Type: String

HTTP response

404

Status Code: NoSuchBucket
Description: The bucket does not exist.

3.3.4. Accessing bucket host names

There are two different modes of accessing the buckets. The first, and preferred method identifies the bucket as the top-level directory in the URI.

Example

GET /mybucket HTTP/1.1
Host: cname.domain.com

The second method identifies the bucket via a virtual bucket host name.

Example

GET / HTTP/1.1
Host: mybucket.cname.domain.com

Tip

Red Hat prefers the first method, because the second method requires expensive domain certification and DNS wild cards.

3.3.5. S3 list buckets

GET / returns a list of buckets created by the user making the request. GET / only returns buckets created by an authenticated user. You cannot make an anonymous request.

Syntax

GET / HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

Response Entities

Buckets

Description: Container for list of buckets.
Type: Container

Bucket

Description: Container for bucket information.
Type: Container

Name

Description: Bucket name.
Type: String

CreationDate

Description: UTC time when the bucket was created.
Type: Date

ListAllMyBucketsResult

Description: A container for the result.
Type: Container

Owner

Description: A container for the bucket owner’s ID and DisplayName.
Type: Container

ID

Description: The bucket owner’s ID.
Type: String

DisplayName

Description: The bucket owner’s display name.
Type: String

3.3.6. S3 return a list of bucket objects

Returns a list of bucket objects.

Syntax

GET /BUCKET?max-keys=25 HTTP/1.1
Host: cname.domain.com

Parameters

prefix

Description: Only returns objects that contain the specified prefix.
Type: String

delimiter

Description: The delimiter between the prefix and the rest of the object name.
Type: String

marker

Description: A beginning index for the list of objects returned.
Type: String

max-keys

Description: The maximum number of keys to return. Default is 1000.
Type: Integer

HTTP Response

200

Status Code: OK
Description: Buckets retrieved.

GET /BUCKET returns a container for buckets with the following fields:

Bucket Response Entities

ListBucketResult

Description: The container for the list of objects.
Type: Entity

Name

Description: The name of the bucket whose contents will be returned.
Type: String

Prefix

Description: A prefix for the object keys.
Type: String

Marker

Description: A beginning index for the list of objects returned.
Type: String

MaxKeys

Description: The maximum number of keys returned.
Type: Integer

Delimiter

Description: If set, objects with the same prefix will appear in the CommonPrefixes list.
Type: String

IsTruncated

Description: If true, only a subset of the bucket’s contents were returned.
Type: Boolean

CommonPrefixes

Description: If multiple objects contain the same prefix, they will appear in this list.
Type: Container

The ListBucketResult contains objects, where each object is within a Contents container.

Object Response Entities

Contents

Description: A container for the object.
Type: Object

Key

Description: The object’s key.
Type: String

LastModified

Description: The object’s last-modified date and time.
Type: Date

ETag

Description: An MD-5 hash of the object. Etag is an entity tag.
Type: String

Size

Description: The object’s size.
Type: Integer

StorageClass

Description: Should always return STANDARD.
Type: String

3.3.7. S3 create a new bucket

Creates a new bucket. To create a bucket, you must have a user ID and a valid AWS Access Key ID to authenticate requests. You can not create buckets as an anonymous user.

Constraints

In general, bucket names should follow domain name constraints.

Bucket names must be unique.
Bucket names cannot be formatted as IP address.
Bucket names can be between 3 and 63 characters long.
Bucket names must not contain uppercase characters or underscores.
Bucket names must start with a lowercase letter or number.
Bucket names can contain a dash (-).
Bucket names must be a series of one or more labels. Adjacent labels are separated by a single period (.). Bucket names can contain lowercase letters, numbers, and hyphens. Each label must start and end with a lowercase letter or a number.

Note

The above constraints are relaxed if rgw_relaxed_s3_bucket_names is set to true. The bucket names must still be unique, cannot be formatted as IP address, and can contain letters, numbers, periods, dashes, and underscores of up to 255 characters long.

Syntax

PUT /BUCKET HTTP/1.1
Host: cname.domain.com
x-amz-acl: public-read-write

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

Parameters

x-amz-acl

Description: Canned ACLs.
Valid Values: private, public-read,public-read-write, authenticated-read
Required: No

HTTP Response

If the bucket name is unique, within constraints, and unused, the operation will succeed. If a bucket with the same name already exists and the user is the bucket owner, the operation will succeed. If the bucket name is already in use, the operation will fail.

409

Status Code: BucketAlreadyExists
Description: Bucket already exists under different user’s ownership.

3.3.8. S3 put bucket website

The put bucket website API sets the configuration of the website that is specified in the website subresource. To configure a bucket as a website, the website subresource can be added on the bucket.

Note

Put operation requires S3:PutBucketWebsite permission. By default, only the bucket owner can configure the website attached to a bucket.

Syntax

PUT /BUCKET?website-configuration=HTTP/1.1

Example

PUT /testbucket?website-configuration=HTTP/1.1

Additional Resources

For more information about this API call, see S3 API.

3.3.9. S3 get bucket website

The get bucket website API retrieves the configuration of the website that is specified in the website subresource.

Note

Get operation requires the S3:GetBucketWebsite permission. By default, only the bucket owner can read the bucket website configuration.

Syntax

GET /BUCKET?website-configuration=HTTP/1.1

Example

GET /testbucket?website-configuration=HTTP/1.1

Additional Resources

For more information about this API call, see S3 API.

3.3.10. S3 delete bucket website

The delete bucket website API removes the website configuration for a bucket.

Syntax

DELETE /BUCKET?website-configuration=HTTP/1.1

Example

DELETE /testbucket?website-configuration=HTTP/1.1

Additional Resources

For more information about this API call, see S3 API.

3.3.11. S3 put bucket replication

The put bucket replication API configures replication configuration for a bucket or replaces an existing one.

Syntax

PUT /BUCKET?replication HTTP/1.1

Example

PUT /testbucket?replication HTTP/1.1

3.3.12. S3 get bucket replication

The get bucket replication API returns the replication configuration of a bucket.

Syntax

GET /BUCKET?replication HTTP/1.1

Example

GET /testbucket?replication HTTP/1.1

3.3.13. S3 delete bucket replication

The delete bucket replication API deletes the replication configuration from a bucket.

Syntax

DELETE /BUCKET?replication HTTP/1.1

Example

DELETE /testbucket?replication HTTP/1.1

3.3.14. S3 delete a bucket

Deletes a bucket. You can reuse bucket names following a successful bucket removal.

Syntax

DELETE /BUCKET HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

HTTP Response

204

Status Code: No Content
Description: Bucket removed.

3.3.15. S3 bucket lifecycle

You can use a bucket lifecycle configuration to manage your objects so they are stored effectively throughout their lifetime. The S3 API in the Ceph Object Gateway supports a subset of the AWS bucket lifecycle actions:

Expiration: This defines the lifespan of objects within a bucket. It takes the number of days the object should live or expiration date, at which point Ceph Object Gateway will delete the object. If the bucket doesn’t enable versioning, Ceph Object Gateway will delete the object permanently. If the bucket enables versioning, Ceph Object Gateway will create a delete marker for the current version, and then delete the current version.
NoncurrentVersionExpiration: This defines the lifespan of noncurrent object versions within a bucket. To use this feature, you must enable bucket versioning. It takes the number of days a noncurrent object should live, at which point Ceph Object Gateway will delete the noncurrent object.
NewerNoncurrentVersions: Specifies how many noncurrent object versions to retain. You can specify up to 100 noncurrent versions to retain. If the specified number to retain is more than 100, additional noncurrent versions are deleted.
AbortIncompleteMultipartUpload: This defines the number of days an incomplete multipart upload should live before it is aborted.
BlockPublicPolicy reject: This action is for public access block. It calls PUT access point policy and PUT bucket policy that are made through the access point if the specified policy (for either the access point or the underlying bucket) allows public access. The Amazon S3 Block Public Access feature is available in Red Hat Ceph Storage 5.x/ Ceph Pacific versions. It provides settings for access points, buckets, and accounts to help you manage public access to Amazon S3 resources. By default, new buckets, access points, and objects do not allow public access. However, you can modify bucket policies, access point policies, or object permissions to allow public access. S3 Block Public Access settings override these policies and permissions so that you can limit public access to these resources.

The lifecycle configuration contains one or more rules using the <Rule> element.

Example

<LifecycleConfiguration>
    <Rule>
      <Prefix/>
      <Status>Enabled</Status>
      <Expiration>
        <Days>10</Days>
      </Expiration>
    </Rule>
</LifecycleConfiguration>

A lifecycle rule can apply to all or a subset of objects in a bucket based on the <Filter> element that you specify in the lifecycle rule. You can specify a filter in several ways:

Key prefixes
Object tags
Both key prefix and one or more object tags

Key prefixes

You can apply a lifecycle rule to a subset of objects based on the key name prefix. For example, specifying <keypre/> would apply to objects that begin with keypre/:

<LifecycleConfiguration>
    <Rule>
        <Status>Enabled</Status>
        <Filter>
           <Prefix>keypre/</Prefix>
        </Filter>
    </Rule>
</LifecycleConfiguration>

You can also apply different lifecycle rules to objects with different key prefixes:

<LifecycleConfiguration>
    <Rule>
        <Status>Enabled</Status>
        <Filter>
           <Prefix>keypre/</Prefix>
        </Filter>
    </Rule>
    <Rule>
        <Status>Enabled</Status>
        <Filter>
           <Prefix>mypre/</Prefix>
        </Filter>
    </Rule>
</LifecycleConfiguration>

Object tags

You can apply a lifecycle rule to only objects with a specific tag using the <Key> and <Value> elements:

<LifecycleConfiguration>
    <Rule>
        <Status>Enabled</Status>
        <Filter>
           <Tag>
              <Key>key</Key>
              <Value>value</Value>
           </Tag>
        </Filter>
    </Rule>
</LifecycleConfiguration>

Both prefix and one or more tags

In a lifecycle rule, you can specify a filter based on both the key prefix and one or more tags. They must be wrapped in the <And> element. A filter can have only one prefix, and zero or more tags:

<LifecycleConfiguration>
    <Rule>
        <Status>Enabled</Status>
        <Filter>
          <And>
             <Prefix>key-prefix</Prefix>
             <Tag>
                <Key>key1</Key>
                <Value>value1</Value>
             </Tag>
             <Tag>
                <Key>key2</Key>
                <Value>value2</Value>
             </Tag>
              ...
          </And>
        </Filter>
    </Rule>
</LifecycleConfiguration>

Additional Resources

See the S3 GET bucket lifecycle section in the Red Hat Ceph Storage Developer Guide for details on getting a bucket lifecycle.
See the S3 create or replace a bucket lifecycle section in the Red Hat Ceph Storage Developer Guide for details on creating a bucket lifecycle.
See the S3 delete a bucket lifecycle secton in the Red Hat Ceph Storage Developer Guide for details on deleting a bucket lifecycle.

3.3.16. S3 GET bucket lifecycle

To get a bucket lifecycle, use GET and specify a destination bucket.

Syntax

GET /BUCKET?lifecycle HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

Request Headers

See the S3 common request headers in Appendix B for more information about common request headers.

Response

The response contains the bucket lifecycle and its elements.

3.3.17. S3 create or replace a bucket lifecycle

To create or replace a bucket lifecycle, use PUT and specify a destination bucket and a lifecycle configuration. The Ceph Object Gateway only supports a subset of the S3 lifecycle functionality.

Syntax

PUT /BUCKET?lifecycle HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET
<LifecycleConfiguration>
  <Rule>
    <Expiration>
      <Days>10</Days>
    </Expiration>
  </Rule>
    ...
  <Rule>
  </Rule>
</LifecycleConfiguration>

Request Headers

content-md5

Description: A base64 encoded MD-5 hash of the message
Valid Values: String No defaults or constraints.
Required: No

Additional Resources

See the S3 common request headers section in Appendix B of the Red Hat Ceph Storage Developer Guide for more information on Amazon S3 common request headers.
See the S3 bucket lifecycles section of the Red Hat Ceph Storage Developer Guide for more information on Amazon S3 bucket lifecycles.

3.3.18. S3 delete a bucket lifecycle

To delete a bucket lifecycle, use DELETE and specify a destination bucket.

Syntax

DELETE /BUCKET?lifecycle HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

Request Headers

The request does not contain any special elements.

Response

The response returns common response status.

Additional Resources

See the S3 common request headers section in Appendix B of the Red Hat Ceph Storage Developer Guide for more information on Amazon S3 common request headers.
See the S3 common response status codes section in Appendix C of Red Hat Ceph Storage Developer Guide for more information on Amazon S3 common response status codes.

3.3.19. S3 get bucket location

Retrieves the bucket’s zone group. The user needs to be the bucket owner to call this. A bucket can be constrained to a zone group by providing LocationConstraint during a PUT request.

Add the location subresource to the bucket resource as shown below.

Syntax

GET /BUCKET?location HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

Response Entities

LocationConstraint

Description: The zone group where bucket resides, an empty string for default zone group.
Type: String

3.3.20. S3 get bucket versioning

Retrieves the versioning state of a bucket. The user needs to be the bucket owner to call this.

Add the versioning subresource to the bucket resource as shown below.

Syntax

GET /BUCKET?versioning HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

3.3.21. S3 put bucket versioning

This subresource set the versioning state of an existing bucket. The user needs to be the bucket owner to set the versioning state. If the versioning state has never been set on a bucket, then it has no versioning state. Doing a GET versioning request does not return a versioning state value.

Setting the bucket versioning state:

Enabled: Enables versioning for the objects in the bucket. All objects added to the bucket receive a unique version ID. Suspended: Disables versioning for the objects in the bucket. All objects added to the bucket receive the version ID null.

Syntax

PUT /BUCKET?versioning HTTP/1.1

Example

PUT /testbucket?versioning HTTP/1.1

Bucket Request Entities

VersioningConfiguration

Description: A container for the request.
Type: Container

Status

Description: Sets the versioning state of the bucket. Valid Values: Suspended/Enabled
Type: String

3.3.22. S3 get bucket access control lists

Retrieves the bucket access control list. The user needs to be the bucket owner or to have been granted READ_ACP permission on the bucket.

Add the acl subresource to the bucket request as shown below.

Syntax

GET /BUCKET?acl HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

Response Entities

AccessControlPolicy

Description: A container for the response.
Type: Container

AccessControlList

Description: A container for the ACL information.
Type: Container

Owner

Description: A container for the bucket owner’s ID and DisplayName.
Type: Container

ID

Description: The bucket owner’s ID.
Type: String

DisplayName

Description: The bucket owner’s display name.
Type: String

Grant

Description: A container for Grantee and Permission.
Type: Container

Grantee

Description: A container for the DisplayName and ID of the user receiving a grant of permission.
Type: Container

Permission

Description: The permission given to the Grantee bucket.
Type: String

3.3.23. S3 put bucket Access Control Lists

Sets an access control to an existing bucket. The user needs to be the bucket owner or to have been granted WRITE_ACP permission on the bucket.

Add the acl subresource to the bucket request as shown below.

Syntax

PUT /BUCKET?acl HTTP/1.1

Request Entities

S3 list multipart uploads

AccessControlList

Description: A container for the ACL information.
Type: Container

Owner

Description: A container for the bucket owner’s ID and DisplayName.
Type: Container

ID

Description: The bucket owner’s ID.
Type: String

DisplayName

Description: The bucket owner’s display name.
Type: String

Grant

Description: A container for Grantee and Permission.
Type: Container

Grantee

Description: A container for the DisplayName and ID of the user receiving a grant of permission.
Type: Container

Permission

Description: The permission given to the Grantee bucket.
Type: String

3.3.24. S3 get bucket cors

Retrieves the cors configuration information set for the bucket. The user needs to be the bucket owner or to have been granted READ_ACP permission on the bucket.

Add the cors subresource to the bucket request as shown below.

Syntax

GET /BUCKET?cors HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

3.3.25. S3 put bucket cors

Sets the cors configuration for the bucket. The user needs to be the bucket owner or to have been granted READ_ACP permission on the bucket.

Add the cors subresource to the bucket request as shown below.

Syntax

PUT /BUCKET?cors HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

3.3.26. S3 delete a bucket cors

Deletes the cors configuration information set for the bucket. The user needs to be the bucket owner or to have been granted READ_ACP permission on the bucket.

Add the cors subresource to the bucket request as shown below.

Syntax

DELETE /BUCKET?cors HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

3.3.27. S3 list bucket object versions

Returns a list of metadata about all the version of objects within a bucket. Requires READ access to the bucket.

Add the versions subresource to the bucket request as shown below.

Syntax

GET /BUCKET?versions HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

You can specify parameters for GET /BUCKET?versions, but none of them are required.

Parameters

prefix

Description: Returns in-progress uploads whose keys contain the specified prefix.
Type: String

delimiter

Description: The delimiter between the prefix and the rest of the object name.
Type: String

key-marker

Description: The beginning marker for the list of uploads.
Type: String

max-keys

Description: The maximum number of in-progress uploads. The default is 1000.
Type: Integer

version-id-marker

Description: Specifies the object version to begin the list.
Type: String

Response Entities

KeyMarker

Description: The key marker specified by the key-marker request parameter, if any.
Type: String

NextKeyMarker

Description: The key marker to use in a subsequent request if IsTruncated is true.
Type: String

NextUploadIdMarker

Description: The upload ID marker to use in a subsequent request if IsTruncated is true.
Type: String

IsTruncated

Description: If true, only a subset of the bucket’s upload contents were returned.
Type: Boolean

Size

Description: The size of the uploaded part.
Type: Integer

DisplayName

Description: The owner’s display name.
Type: String

ID

Description: The owner’s ID.
Type: String

Owner

Description: A container for the ID and DisplayName of the user who owns the object.
Type: Container

StorageClass

Description: The method used to store the resulting object. STANDARD or REDUCED_REDUNDANCY
Type: String

Version

Description: Container for the version information.
Type: Container

versionId

Description: Version ID of an object.
Type: String

versionIdMarker

Description: The last version of the key in a truncated response.
Type: String

3.3.28. S3 head bucket

Calls HEAD on a bucket to determine if it exists and if the caller has access permissions. Returns 200 OK if the bucket exists and the caller has permissions; 404 Not Found if the bucket does not exist; and, 403 Forbidden if the bucket exists but the caller does not have access permissions.

Syntax

HEAD /BUCKET HTTP/1.1
Host: cname.domain.com
Date: date
Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

3.3.29. S3 list multipart uploads

GET /?uploads returns a list of the current in-progress multipart uploads, that is, the application initiates a multipart upload, but the service hasn’t completed all the uploads yet.

Syntax

GET /BUCKET?uploads HTTP/1.1

You can specify parameters for GET /BUCKET?uploads, but none of them are required.

Parameters

prefix

Description: Returns in-progress uploads whose keys contain the specified prefix.
Type: String

delimiter

Description: The delimiter between the prefix and the rest of the object name.
Type: String

key-marker

Description: The beginning marker for the list of uploads.
Type: String

max-keys

Description: The maximum number of in-progress uploads. The default is 1000.
Type: Integer

max-uploads

Description: The maximum number of multipart uploads. The range is from 1-1000. The default is 1000.
Type: Integer

version-id-marker

Description: Ignored if key-marker isn’t specified. Specifies the ID of the first upload to list in lexicographical order at or following the ID.
Type: String

Response Entities

ListMultipartUploadsResult

Description: A container for the results.
Type: Container

ListMultipartUploadsResult.Prefix

Description: The prefix specified by the prefix request parameter, if any.
Type: String

Bucket

Description: The bucket that will receive the bucket contents.
Type: String

KeyMarker

Description: The key marker specified by the key-marker request parameter, if any.
Type: String

UploadIdMarker

Description: The marker specified by the upload-id-marker request parameter, if any.
Type: String

NextKeyMarker

Description: The key marker to use in a subsequent request if IsTruncated is true.
Type: String

NextUploadIdMarker

Description: The upload ID marker to use in a subsequent request if IsTruncated is true.
Type: String

MaxUploads

Description: The max uploads specified by the max-uploads request parameter.
Type: Integer

Delimiter

Description: If set, objects with the same prefix will appear in the CommonPrefixes list.
Type: String

IsTruncated

Description: If true, only a subset of the bucket’s upload contents were returned.
Type: Boolean

Upload

Description: A container for Key, UploadId, InitiatorOwner, StorageClass, and Initiated elements.
Type: Container

Key

Description: The key of the object once the multipart upload is complete.
Type: String

UploadId

Description: The ID that identifies the multipart upload.
Type: String

Initiator

Description: Contains the ID and DisplayName of the user who initiated the upload.
Type: Container

DisplayName

Description: The initiator’s display name.
Type: String

ID

Description: The initiator’s ID.
Type: String

Owner

Description: A container for the ID and DisplayName of the user who owns the uploaded object.
Type: Container

StorageClass

Description: The method used to store the resulting object. STANDARD or REDUCED_REDUNDANCY
Type: String

Initiated

Description: The date and time the user initiated the upload.
Type: Date

CommonPrefixes

Description: If multiple objects contain the same prefix, they will appear in this list.
Type: Container

CommonPrefixes.Prefix

Description: The substring of the key after the prefix as defined by the prefix request parameter.
Type: String

3.3.30. S3 bucket policies

The Ceph Object Gateway supports a subset of the Amazon S3 policy language applied to buckets.

Creation and Removal

Ceph Object Gateway manages S3 Bucket policies through standard S3 operations rather than using the radosgw-admin CLI tool.

Administrators may use the s3cmd command to set or delete a policy.

Example

$ cat > examplepol
{
  "Version": "2012-10-17",
  "Statement": [{
    "Effect": "Allow",
    "Principal": {"AWS": ["arn:aws:iam::usfolks:user/fred"]},
    "Action": "s3:PutObjectAcl",
    "Resource": [
      "arn:aws:s3:::happybucket/*"
    ]
  }]
}

$ s3cmd setpolicy examplepol s3://happybucket
$ s3cmd delpolicy s3://happybucket

Limitations

Ceph Object Gateway only supports the following S3 actions:

s3:AbortMultipartUpload
s3:CreateBucket
s3:DeleteBucketPolicy
s3:DeleteBucket
s3:DeleteBucketWebsite
s3:DeleteBucketReplication
s3:DeleteReplicationConfiguration
s3:DeleteObject
s3:DeleteObjectVersion
s3:GetBucketAcl
s3:GetBucketCORS
s3:GetBucketLocation
s3:GetBucketPolicy
s3:GetBucketRequestPayment
s3:GetBucketVersioning
s3:GetBucketWebsite
s3:GetBucketReplication
s3:GetReplicationConfiguration
s3:GetLifecycleConfiguration
s3:GetObjectAcl
s3:GetObject
s3:GetObjectTorrent
s3:GetObjectVersionAcl
s3:GetObjectVersion
s3:GetObjectVersionTorrent
s3:ListAllMyBuckets
s3:ListBucketMultiPartUploads
s3:ListBucket
s3:ListBucketVersions
s3:ListMultipartUploadParts
s3:PutBucketAcl
s3:PutBucketCORS
s3:PutBucketPolicy
s3:PutBucketRequestPayment
s3:PutBucketVersioning
s3:PutBucketWebsite
s3:PutBucketReplication
s3:PutReplicationConfiguration
s3:PutLifecycleConfiguration
s3:PutObjectAcl
s3:PutObject
s3:PutObjectVersionAcl

Note

Ceph Object Gateway does not support setting policies on users, groups, or roles.

The Ceph Object Gateway uses the RGW tenant identifier in place of the Amazon twelve-digit account ID. Ceph Object Gateway administrators who want to use policies between Amazon Web Service (AWS) S3 and Ceph Object Gateway S3 will have to use the Amazon account ID as the tenant ID when creating users.

With AWS S3, all tenants share a single namespace. By contrast, Ceph Object Gateway gives every tenant its own namespace of buckets. At present, Ceph Object Gateway clients trying to access a bucket belonging to another tenant MUST address it as tenant:bucket in the S3 request.

In the AWS, a bucket policy can grant access to another account, and that account owner can then grant access to individual users with user permissions. Since Ceph Object Gateway does not yet support user, role, and group permissions, account owners will need to grant access directly to individual users.

Important

Granting an entire account access to a bucket grants access to ALL users in that account.

Bucket policies do NOT support string interpolation.

Ceph Object Gateway supports the following condition keys:

aws:CurrentTime
aws:EpochTime
aws:PrincipalType
aws:Referer
aws:SecureTransport
aws:SourceIp
aws:UserAgent
aws:username

Ceph Object Gateway ONLY supports the following condition keys for the ListBucket action:

s3:prefix
s3:delimiter
s3:max-keys

Impact on Swift

Ceph Object Gateway provides no functionality to set bucket policies under the Swift API. However, bucket policies that are set with the S3 API govern Swift and S3 operations.

Ceph Object Gateway matches Swift credentials against principals that are specified in a policy.

3.3.31. S3 get the request payment configuration on a bucket

Uses the requestPayment subresource to return the request payment configuration of a bucket. The user needs to be the bucket owner or to have been granted READ_ACP permission on the bucket.

Add the requestPayment subresource to the bucket request as shown below.

Syntax

GET /BUCKET?requestPayment HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

3.3.32. S3 set the request payment configuration on a bucket

Uses the requestPayment subresource to set the request payment configuration of a bucket. By default, the bucket owner pays for downloads from the bucket. This configuration parameter enables the bucket owner to specify that the person requesting the download will be charged for the request and the data download from the bucket.

Add the requestPayment subresource to the bucket request as shown below.

Syntax

PUT /BUCKET?requestPayment HTTP/1.1
Host: cname.domain.com

Request Entities

Payer

Description: Specifies who pays for the download and request fees.
Type: Enum

RequestPaymentConfiguration

Description: A container for Payer.
Type: Container

3.3.33. Multi-tenant bucket operations

When a client application accesses buckets, it always operates with the credentials of a particular user. In Red Hat Ceph Storage cluster, every user belongs to a tenant. Consequently, every bucket operation has an implicit tenant in its context if no tenant is specified explicitly. Thus multi-tenancy is completely backward compatible with previous releases, as long as the referred buckets and referring user belong to the same tenant.

Extensions employed to specify an explicit tenant differ according to the protocol and authentication system used.

In the following example, a colon character separates tenant and bucket. Thus a sample URL would be:

https://rgw.domain.com/tenant:bucket

By contrast, a simple Python example separates the tenant and bucket in the bucket method itself:

Example

from boto.s3.connection import S3Connection, OrdinaryCallingFormat
  c = S3Connection(
    aws_access_key_id="TESTER",
    aws_secret_access_key="test123",
    host="rgw.domain.com",
    calling_format = OrdinaryCallingFormat()
  )
  bucket = c.get_bucket("tenant:bucket")

Note

It’s not possible to use S3-style subdomains using multi-tenancy, since host names cannot contain colons or any other separators that are not already valid in bucket names. Using a period creates an ambiguous syntax. Therefore, the bucket-in-URL-path format has to be used with multi-tenancy.

Additional Resources

See the Multi Tenancy section under User Management in the Red Hat Ceph Storage Object Gateway Guide for additional details.

3.3.34. S3 Block Public Access

You can use the S3 Block Public Access feature to set buckets and users to help you manage public access to Red Hat Ceph Storage object storage S3 resources.

Using this feature, bucket policies, access point policies, and object permissions can be overridden to allow public access. By default, new buckets, access points, and objects do not allow public access.

The S3 API in the Ceph Object Gateway supports a subset of the AWS public access settings:

BlockPublicPolicy: This defines the setting to allow users to manage access point and bucket policies. This setting does not allow the users to publicly share the bucket or the objects it contains. Existing access point and bucket policies are not affected by enabling this setting. Setting this option to TRUE causes the S3:
- To reject calls to PUT Bucket policy.
- To reject calls to PUT access point policy for all of the bucket’s same-account access points.

Important

Apply this setting at the user level so that users cannot alter a specific bucket’s block public access setting.

Note

The TRUE setting only works if the specified policy allows public access.

RestrictPublicBuckets: This defines the setting to restrict access to a bucket or access point with public policy. The restriction applies to only AWS service principals and authorized users within the bucket owner’s account and access point owner’s account. This blocks cross-account access to the access point or bucket, except for the cases specified, while still allowing users within the account to manage the access points or buckets. Enabling this setting does not affect existing access point or bucket policies. It only defines that Amazon S3 blocks public and cross-account access derived from any public access point or bucket policy, including non-public delegation to specific accounts.

Note

Access control lists (ACLs) are not currently supported by Red Hat Ceph Storage.

Bucket policies are assumed to be public unless defined otherwise. To block public access a bucket policy must give access only to fixed values for one or more of the following:

Note

A fixed value does not contain a wildcard (*) or an AWS Identity and Access Management Policy Variable.

An AWS principal, user, role, or service principal
A set of Classless Inter-Domain Routings (CIDRs), using aws:SourceIp
aws:SourceArn
aws:SourceVpc
aws:SourceVpce
aws:SourceOwner
aws:SourceAccount
s3:x-amz-server-side-encryption-aws-kms-key-id
aws:userid, outside the pattern AROLEID:*
s3:DataAccessPointArn
Note
When used in a bucket policy, this value can contain a wildcard for the access point name without rendering the policy public, as long as the account ID is fixed.
s3:DataAccessPointPointAccount

The following example policy is considered public.

Example

{
		"Principal": "*",
		"Resource": "*",
		"Action": "s3:PutObject",
		"Effect": "Allow",
		"Condition": { "StringLike": {"aws:SourceVpc": "vpc-*"}}
	}

To make a policy non-public, include any of the condition keys with a fixed value.

Example

{
		"Principal": "*",
		"Resource": "*",
		"Action": "s3:PutObject",
		"Effect": "Allow",
		"Condition": {"StringEquals": {"aws:SourceVpc": "vpc-91237329"}}
	}

Additional Resources

See the S3 GET `PublicAccessBlock` section in the Red Hat Ceph Storage Developer Guide for details on getting a PublicAccessBlock.
See the S3 PUT `PublicAccessBlock` section in the Red Hat Ceph Storage Developer Guide for details on creating or modifying a PublicAccessBlock.
See the S3 Delete `PublicAccessBlock` section in the Red Hat Ceph Storage Developer Guide for details on deleting a PublicAccessBlock.
See the S3 bucket policies section in the Red Hat Ceph Storage Developer Guide for details on bucket policies.
See the Blocking public access to your Amazon S3 storage section of Amazon Simple Storage Service (S3) documentation.

3.3.35. S3 GET `PublicAccessBlock`

To get the S3 Block Public Access feature configured, use GET and specify a destination AWS account.

Syntax

GET /v20180820/configuration/publicAccessBlock HTTP/1.1
Host: cname.domain.com
x-amz-account-id: _ACCOUNTID_

Request Headers

See the S3 common request headers in Appendix B for more information about common request headers.

Response

The response is an HTTP 200 response and is returned in XML format.

3.3.36. S3 PUT `PublicAccessBlock`

Use this to create or modify the PublicAccessBlock configuration for an S3 bucket.

To use this operation, you must have the s3:PutBucketPublicAccessBlock permission.

Important

If the PublicAccessBlock configuration is different between the bucket and the account, Amazon S3 uses the most restrictive combination of the bucket-level and account-level settings.

Syntax

PUT /?publicAccessBlock HTTP/1.1
Host: Bucket.s3.amazonaws.com
Content-MD5: ContentMD5
x-amz-sdk-checksum-algorithm: ChecksumAlgorithm
x-amz-expected-bucket-owner: ExpectedBucketOwner
<?xml version="1.0" encoding="UTF-8"?>
<PublicAccessBlockConfiguration xmlns="http://s3.amazonaws.com/doc/2006-03-01/">
   <BlockPublicAcls>boolean</BlockPublicAcls>
   <IgnorePublicAcls>boolean</IgnorePublicAcls>
   <BlockPublicPolicy>boolean</BlockPublicPolicy>
   <RestrictPublicBuckets>boolean</RestrictPublicBuckets>
</PublicAccessBlockConfiguration>

Request Headers

See the S3 common request headers in Appendix B for more information about common request headers.

Response

The response is an HTTP 200 response and is returned with an empty HTTP body.

3.3.37. S3 delete `PublicAccessBlock`

Use this to delete the PublicAccessBlock configuration for an S3 bucket.

Syntax

DELETE /v20180820/configuration/publicAccessBlock HTTP/1.1
Host: s3-control.amazonaws.com
x-amz-account-id: AccountId

Request Headers

See the S3 common request headers in Appendix B for more information about common request headers.

Response

The response is an HTTP 200 response and is returned with an empty HTTP body.

3.4. S3 object operations

As a developer, you can perform object operations with the Amazon S3 application programming interface (API) through the Ceph Object Gateway.

The following table list the Amazon S3 functional operations for objects, along with the function’s support status.

Table 3.3. Object operations
Feature	Status
Get Object	Supported
Get Object Information	Supported
Put Object Lock	Supported
Get Object Lock	Supported
Put Object Legal Hold	Supported
Get Object Legal Hold	Supported
Put Object Retention	Supported
Get Object Retention	Supported
Put Object Tagging	Supported
Get Object Tagging	Supported
Delete Object Tagging	Supported
Put Object	Supported
Delete Object	Supported
Delete Multiple Objects	Supported
Get Object ACLs	Supported
Put Object ACLs	Supported
Copy Object	Supported
Post Object	Supported
Options Object	Supported
Initiate Multipart Upload	Supported
Add a Part to a Multipart Upload	Supported
List Parts of a Multipart Upload	Supported
Assemble Multipart Upload	Supported
Copy Multipart Upload	Supported
Abort Multipart Upload	Supported
Multi-Tenancy	Supported

Prerequisites

A running Red Hat Ceph Storage cluster.
A RESTful client.

3.4.1. S3 get an object from a bucket

Retrieves an object from a bucket:

Syntax

GET /BUCKET/OBJECT HTTP/1.1

Add the versionId subresource to retrieve a particular version of the object:

Syntax

GET /BUCKET/OBJECT?versionId=VERSION_ID HTTP/1.1

Request Headers

partNumber

Description: Part number of the object being read. This enables a ranged GET request for the specified part. Using this request is useful for downloading just a part of an object.
Valid Values: A positive integer between 1 and 10,000.
Required: No

range

Description: The range of the object to retrieve.
Note
Multiple ranges of data per GET request are not supported.
Valid Values: Range:bytes=beginbyte-endbyte
Required: No

if-modified-since

Description: Gets only if modified since the timestamp.
Valid Values: Timestamp
Required: No

if-unmodified-since

Description: Gets only if not modified since the timestamp.
Valid Values: Timestamp
Required: No

if-match

Description: Gets only if object ETag matches ETag.
Valid Values: Entity Tag
Required: No

if-none-match

Description: Gets only if object ETag does not match ETag.
Valid Values: Entity Tag
Required: No

Sytnax with request headers

GET /BUCKET/OBJECT?partNumber=PARTNUMBER&versionId=VersionId HTTP/1.1
Host: Bucket.s3.amazonaws.com
If-Match: IfMatch
If-Modified-Since: IfModifiedSince
If-None-Match: IfNoneMatch
If-Unmodified-Since: IfUnmodifiedSince
Range: Range

Response Headers

Content-Range

Description: Data range, will only be returned if the range header field was specified in the request.

x-amz-version-id

Description: Returns the version ID or null.

3.4.2. S3 get information on an object

Returns information about an object. This request will return the same header information as with the Get Object request, but will include the metadata only, not the object data payload.

Retrieves the current version of the object:

Syntax

HEAD /BUCKET/OBJECT HTTP/1.1

Add the versionId subresource to retrieve info for a particular version:

Syntax

HEAD /BUCKET/OBJECT?versionId=VERSION_ID HTTP/1.1

Request Headers

range

Description: The range of the object to retrieve.
Valid Values: Range:bytes=beginbyte-endbyte
Required: No

if-modified-since

Description: Gets only if modified since the timestamp.
Valid Values: Timestamp
Required: No

if-match

Description: Gets only if object ETag matches ETag.
Valid Values: Entity Tag
Required: No

if-none-match

Description: Gets only if object ETag matches ETag.
Valid Values: Entity Tag
Required: No

Response Headers

x-amz-version-id

Description: Returns the version ID or null.

3.4.3. S3 put object lock

The put object lock API places a lock configuration on the selected bucket. With object lock, you can store objects using a Write-Once-Read-Many (WORM) model. Object lock ensures an object is not deleted or overwritten, for a fixed amount of time or indefinitely. The rule specified in the object lock configuration is applied by default to every new object placed in the selected bucket.

Important

Enable the object lock when creating a bucket otherwise, the operation fails.

Syntax

PUT /BUCKET?object-lock HTTP/1.1

Example

PUT /testbucket?object-lock HTTP/1.1

Request Entities

ObjectLockConfiguration

Description: A container for the request.
Type: Container
Required: Yes

ObjectLockEnabled

Description: Indicates whether this bucket has an object lock configuration enabled.
Type: String
Required: Yes

Rule

Description: The object lock rule in place for the specified bucket.
Type: Container
Required: No

DefaultRetention

Description: The default retention period applied to new objects placed in the specified bucket.
Type: Container
Required: No

Mode

Description: The default object lock retention mode. Valid values: GOVERNANCE/COMPLIANCE.
Type: Container
Required: Yes

Days

Description: The number of days specified for the default retention period.
Type: Integer
Required: No

Years

Description: The number of years specified for the default retention period.
Type: Integer
Required: No

HTTP Response

400

Status Code: MalformedXML
Description: The XML is not well-formed.

409

Status Code: InvalidBucketState
Description: The bucket object lock is not enabled.

Additional Resources

For more information about this API call, see S3 API.

3.4.4. S3 get object lock

The get object lock API retrieves the lock configuration for a bucket.

Syntax

GET /BUCKET?object-lock HTTP/1.1

Example

GET /testbucket?object-lock HTTP/1.1

Response Entities

ObjectLockConfiguration

Description: A container for the request.
Type: Container
Required: Yes

ObjectLockEnabled

Description: Indicates whether this bucket has an object lock configuration enabled.
Type: String
Required: Yes

Rule

Description: The object lock rule is in place for the specified bucket.
Type: Container
Required: No

DefaultRetention

Description: The default retention period applied to new objects placed in the specified bucket.
Type: Container
Required: No

Mode

Description: The default object lock retention mode. Valid values: GOVERNANCE/COMPLIANCE.
Type: Container
Required: Yes

Days

Description: The number of days specified for the default retention period.
Type: Integer
Required: No

Years

Description: The number of years specified for the default retention period.
Type: Integer
Required: No

Additional Resources

For more information about this API call, see S3 API.

3.4.5. S3 put object legal hold

The put object legal hold API applies a legal hold configuration to the selected object. With a legal hold in place, you cannot overwrite or delete an object version. A legal hold does not have an associated retention period and remains in place until you explicitly remove it.

Syntax

PUT /BUCKET/OBJECT?legal-hold&versionId= HTTP/1.1

Example

PUT /testbucket/testobject?legal-hold&versionId= HTTP/1.1

The versionId subresource retrieves a particular version of the object.

Request Entities

LegalHold

Description: A container for the request.
Type: Container
Required: Yes

Status

Description: Indicates whether the specified object has a legal hold in place. Valid values: ON/OFF
Type: String
Required: Yes

Additional Resources

For more information about this API call, see S3 API.

3.4.6. S3 get object legal hold

The get object legal hold API retrieves an object’s current legal hold status.

Syntax

GET /BUCKET/OBJECT?legal-hold&versionId= HTTP/1.1

Example

GET /testbucket/testobject?legal-hold&versionId= HTTP/1.1

The versionId subresource retrieves a particular version of the object.

Response Entities

LegalHold

Description: A container for the request.
Type: Container
Required: Yes

Status

Description: Indicates whether the specified object has a legal hold in place. Valid values: ON/OFF
Type: String
Required: Yes

Additional Resources

For more information about this API call, see S3 API.

3.4.7. S3 put object retention

The put object retention API places an object retention configuration on an object. A retention period protects an object version for a fixed amount of time. There are two modes: GOVERNANCE and COMPLIANCE. These two retention modes apply different levels of protection to your objects.

Note

During this period, your object is Write-Once-Read-Many-protected (WORM-protected) and cannot be overwritten or deleted.

Syntax

PUT /BUCKET/OBJECT?retention&versionId= HTTP/1.1

Example

PUT /testbucket/testobject?retention&versionId= HTTP/1.1

The versionId sub-resource retrieves a particular version of the object.

Request Entities

Retention

Description: A container for the request.
Type: Container
Required: Yes

Mode

Description: Retention mode for the specified object. Valid values: GOVERNANCE, COMPLIANCE.
Type: String
Required: Yes

RetainUntilDate

Description: Retention date.
Format: 2020-01-05T00:00:00.000Z
Type: Timestamp
Required: Yes

Additional Resources

For more information about this API call, see S3 API.

3.4.8. S3 get object retention

The get object retention API retrieves an object retention configuration on an object.

Syntax

GET /BUCKET/OBJECT?retention&versionId= HTTP/1.1

Example

GET /testbucket/testobject?retention&versionId= HTTP/1.1

The versionId subresource retrieves a particular version of the object.

Response Entities

Retention

Description: A container for the request.
Type: Container
Required: Yes

Mode

Description: Retention mode for the specified object. Valid values: GOVERNANCE/COMPLIANCE
Type: String
Required: Yes

RetainUntilDate

Description: Retention date. Format: 2020-01-05T00:00:00.000Z
Type: Timestamp
Required: Yes

Additional Resources

For more information about this API call, see S3 API.

3.4.9. S3 put object tagging

The put object tagging API associates tags with an object. A tag is a key-value pair. To put tags of any other version, use the versionId query parameter. You must have permission to perform the s3:PutObjectTagging action. By default, the bucket owner has this permission and can grant this permission to others.

Syntax

PUT /BUCKET/OBJECT?tagging&versionId= HTTP/1.1

Example

PUT /testbucket/testobject?tagging&versionId= HTTP/1.1

Request Entities

Tagging

Description: A container for the request.
Type: Container
Required: Yes

TagSet

Description: A collection of a set of tags.
Type: String
Required: Yes

Additional Resources

For more information about this API call, see S3 API.

3.4.10. S3 get object tagging

The get object tagging API returns the tag of an object. By default, the GET operation returns information on the current version of an object.

Note

For a versioned bucket, you can have multiple versions of an object in your bucket. To retrieve tags of any other version, add the versionId query parameter in the request.

Syntax

GET /BUCKET/OBJECT?tagging&versionId= HTTP/1.1

Example

GET /testbucket/testobject?tagging&versionId= HTTP/1.1

Additional Resources

For more information about this API call, see S3 API.

3.4.11. S3 delete object tagging

The delete object tagging API removes the entire tag set from the specified object. You must have permission to perform the s3:DeleteObjectTagging action, to use this operation.

Note

To delete tags of a specific object version, add the versionId query parameter in the request.

Syntax

DELETE /BUCKET/OBJECT?tagging&versionId= HTTP/1.1

Example

DELETE /testbucket/testobject?tagging&versionId= HTTP/1.1

Additional Resources

For more information about this API call, see S3 API.

3.4.12. S3 add an object to a bucket

Adds an object to a bucket. You must have write permissions on the bucket to perform this operation.

Syntax

PUT /BUCKET/OBJECT HTTP/1.1

Request Headers

content-md5

Description: A base64 encoded MD-5 hash of the message.
Valid Values: A string. No defaults or constraints.
Required: No

content-type

Description: A standard MIME type.
Valid Values: Any MIME type. Default: binary/octet-stream.
Required: No

x-amz-meta-<…>*

Description: User metadata. Stored with the object.
Valid Values: A string up to 8kb. No defaults.
Required: No

x-amz-acl

Description: A canned ACL.
Valid Values: private, public-read, public-read-write, authenticated-read
Required: No

Response Headers

x-amz-version-id

Description: Returns the version ID or null.

3.4.13. S3 delete an object

Removes an object. Requires WRITE permission set on the containing bucket.

Deletes an object. If object versioning is on, it creates a marker.

Syntax

DELETE /BUCKET/OBJECT HTTP/1.1

To delete an object when versioning is on, you must specify the versionId subresource and the version of the object to delete.

DELETE /BUCKET/OBJECT?versionId=VERSION_ID HTTP/1.1

3.4.14. S3 delete multiple objects

This API call deletes multiple objects from a bucket.

Syntax

POST /BUCKET/OBJECT?delete HTTP/1.1

3.4.15. S3 get an object’s Access Control List (ACL)

Returns the ACL for the current version of the object:

Syntax

GET /BUCKET/OBJECT?acl HTTP/1.1

Add the versionId subresource to retrieve the ACL for a particular version:

Syntax

GET /BUCKET/OBJECT?versionId=VERSION_ID&acl HTTP/1.1

Response Headers

x-amz-version-id

Description: Returns the version ID or null.

Response Entities

AccessControlPolicy

Description: A container for the response.
Type: Container

AccessControlList

Description: A container for the ACL information.
Type: Container

Owner

Description: A container for the bucket owner’s ID and DisplayName.
Type: Container

ID

Description: The bucket owner’s ID.
Type: String

DisplayName

Description: The bucket owner’s display name.
Type: String

Grant

Description: A container for Grantee and Permission.
Type: Container

Grantee

Description: A container for the DisplayName and ID of the user receiving a grant of permission.
Type: Container

Permission

Description: The permission given to the Grantee bucket.
Type: String

3.4.16. S3 set an object’s Access Control List (ACL)

Sets an object ACL for the current version of the object.

Syntax

PUT /BUCKET/OBJECT?acl

Request Entities

AccessControlPolicy

Description: A container for the response.
Type: Container

AccessControlList

Description: A container for the ACL information.
Type: Container

Owner

Description: A container for the bucket owner’s ID and DisplayName.
Type: Container

ID

Description: The bucket owner’s ID.
Type: String

DisplayName

Description: The bucket owner’s display name.
Type: String

Grant

Description: A container for Grantee and Permission.
Type: Container

Grantee

Description: A container for the DisplayName and ID of the user receiving a grant of permission.
Type: Container

Permission

Description: The permission given to the Grantee bucket.
Type: String

3.4.17. S3 copy an object

To copy an object, use PUT and specify a destination bucket and the object name.

Syntax

PUT /DEST_BUCKET/DEST_OBJECT HTTP/1.1
x-amz-copy-source: SOURCE_BUCKET/SOURCE_OBJECT

Request Headers

x-amz-copy-source

Description: The source bucket name + object name.
Valid Values: BUCKET/OBJECT
Required: Yes

x-amz-acl

Description: A canned ACL.
Valid Values: private, public-read, public-read-write, authenticated-read
Required: No

x-amz-copy-if-modified-since

Description: Copies only if modified since the timestamp.
Valid Values: Timestamp
Required: No

x-amz-copy-if-unmodified-since

Description: Copies only if unmodified since the timestamp.
Valid Values: Timestamp
Required: No

x-amz-copy-if-match

Description: Copies only if object ETag matches ETag.
Valid Values: Entity Tag
Required: No

x-amz-copy-if-none-match

Description: Copies only if object ETag matches ETag.
Valid Values: Entity Tag
Required: No

Response Entities

CopyObjectResult

Description: A container for the response elements.
Type: Container

LastModified

Description: The last modified date of the source object.
Type: Date

Etag

Description: The ETag of the new object.
Type: String

3.4.18. S3 add an object to a bucket using HTML forms

Adds an object to a bucket using HTML forms. You must have write permissions on the bucket to perform this operation.

Syntax

POST /BUCKET/OBJECT HTTP/1.1

3.4.19. S3 determine options for a request

A preflight request to determine if an actual request can be sent with the specific origin, HTTP method, and headers.

Syntax

OPTIONS /OBJECT HTTP/1.1

3.4.20. S3 initiate a multipart upload

Initiates a multi-part upload process. Returns a UploadId, which you can specify when adding additional parts, listing parts, and completing or abandoning a multi-part upload.

Syntax

POST /BUCKET/OBJECT?uploads

Request Headers

content-md5

Description: A base64 encoded MD-5 hash of the message.
Valid Values: A string. No defaults or constraints.
Required: No

content-type

Description: A standard MIME type.
Valid Values: Any MIME type. Default: binary/octet-stream
Required: No

x-amz-meta-<…>

Description: User metadata. Stored with the object.
Valid Values: A string up to 8kb. No defaults.
Required: No

x-amz-acl

Description: A canned ACL.
Valid Values: private, public-read, public-read-write, authenticated-read
Required: No

Response Entities

InitiatedMultipartUploadsResult

Description: A container for the results.
Type: Container

Bucket

Description: The bucket that will receive the object contents.
Type: String

Key

Description: The key specified by the key request parameter, if any.
Type: String

UploadId

Description: The ID specified by the upload-id request parameter identifying the multipart upload, if any.
Type: String

3.4.21. S3 add a part to a multipart upload

Adds a part to a multi-part upload.

Specify the uploadId subresource and the upload ID to add a part to a multi-part upload:

Syntax

PUT /BUCKET/OBJECT?partNumber=&uploadId=UPLOAD_ID HTTP/1.1

The following HTTP response might be returned:

HTTP Response

404

Status Code: NoSuchUpload
Description: Specified upload-id does not match any initiated upload on this object.

3.4.22. S3 list the parts of a multipart upload

Specify the uploadId subresource and the upload ID to list the parts of a multi-part upload:

Syntax

GET /BUCKET/OBJECT?uploadId=UPLOAD_ID HTTP/1.1

Response Entities

InitiatedMultipartUploadsResult

Description: A container for the results.
Type: Container

Bucket

Description: The bucket that will receive the object contents.
Type: String

Key

Description: The key specified by the key request parameter, if any.
Type: String

UploadId

Description: The ID specified by the upload-id request parameter identifying the multipart upload, if any.
Type: String

Initiator

Description: Contains the ID and DisplayName of the user who initiated the upload.
Type: Container

ID

Description: The initiator’s ID.
Type: String

DisplayName

Description: The initiator’s display name.
Type: String

Owner

Description: A container for the ID and DisplayName of the user who owns the uploaded object.
Type: Container

StorageClass

Description: The method used to store the resulting object. STANDARD or REDUCED_REDUNDANCY
Type: String

PartNumberMarker

Description: The part marker to use in a subsequent request if IsTruncated is true. Precedes the list.
Type: String

NextPartNumberMarker

Description: The next part marker to use in a subsequent request if IsTruncated is true. The end of the list.
Type: String

IsTruncated

Description: If true, only a subset of the object’s upload contents were returned.
Type: Boolean

Part

Description: A container for Key, Part, InitiatorOwner, StorageClass, and Initiated elements.
Type: Container

PartNumber

Description: A container for Key, Part, InitiatorOwner, StorageClass, and Initiated elements.
Type: Integer

ETag

Description: The part’s entity tag.
Type: String

Size

Description: The size of the uploaded part.
Type: Integer

3.4.23. S3 assemble the uploaded parts

Assembles uploaded parts and creates a new object, thereby completing a multipart upload.

Specify the uploadId subresource and the upload ID to complete a multi-part upload:

Syntax

POST /BUCKET/OBJECT?uploadId=UPLOAD_ID HTTP/1.1

Request Entities

CompleteMultipartUpload

Description: A container consisting of one or more parts.
Type: Container
Required: Yes

Part

Description: A container for the PartNumber and ETag.
Type: Container
Required: Yes

PartNumber

Description: The identifier of the part.
Type: Integer
Required: Yes

ETag

Description: The part’s entity tag.
Type: String
Required: Yes

Response Entities

CompleteMultipartUploadResult

Description: A container for the response.
Type: Container

Location

Description: The resource identifier (path) of the new object.
Type: URI

bucket

Description: The name of the bucket that contains the new object.
Type: String

Key

Description: The object’s key.
Type: String

ETag

Description: The entity tag of the new object.
Type: String

3.4.24. S3 copy a multipart upload

Uploads a part by copying data from an existing object as data source.

Specify the uploadId subresource and the upload ID to perform a multi-part upload copy:

Syntax

PUT /BUCKET/OBJECT?partNumber=PartNumber&uploadId=UPLOAD_ID HTTP/1.1
Host: cname.domain.com

Authorization: AWS ACCESS_KEY:HASH_OF_HEADER_AND_SECRET

Request Headers

x-amz-copy-source

Description: The source bucket name and object name.
Valid Values: BUCKET/OBJECT
Required: Yes

x-amz-copy-source-range

Description: The range of bytes to copy from the source object.
Valid Values: Range: bytes=first-last, where the first and last are the zero-based byte offsets to copy. For example,bytes=0-9 indicates that you want to copy the first ten bytes of the source.
Required: No

Response Entities

CopyPartResult

Description: A container for all response elements.
Type: Container

ETag

Description: Returns the ETag of the new part.
Type: String

LastModified

Description: Returns the date the part was last modified.
Type: String

Additional Resources

For more information about this feature, see the Amazon S3 site.

3.4.25. S3 abort a multipart upload

Aborts a multipart upload.

Specify the uploadId subresource and the upload ID to abort a multi-part upload:

Syntax

DELETE /BUCKET/OBJECT?uploadId=UPLOAD_ID HTTP/1.1

3.4.26. S3 Hadoop interoperability

For data analytics applications that require Hadoop Distributed File System (HDFS) access, the Ceph Object Gateway can be accessed using the Apache S3A connector for Hadoop. The S3A connector is an open-source tool that presents S3 compatible object storage as an HDFS file system with HDFS file system read and write semantics to the applications while data is stored in the Ceph Object Gateway.

Ceph Object Gateway is fully compatible with the S3A connector that ships with Hadoop 2.7.3.

Additional Resources

See the Red Hat Ceph Storage Object Gateway Guide for details on multi-tenancy.

3.5. S3 select operations

As a developer, you can run S3 select to accelerate throughput. Users can run S3 select queries directly without a mediator.

There are three S3 select workflow - CSV, Apache Parquet (Parquet), and JSON that provide S3 select operations with CSV, Parquet, and JSON objects:

A CSV file stores tabular data in plain text format. Each line of the file is a data record.
Parquet is an open source, column-oriented data file format designed for efficient data storage and retrieval. It provides highly efficient data compression and encoding schemes with enhanced performance to handle complex data in bulk. Parquet enables the S3 select-engine to skip columns and chunks, thereby reducing IOPS dramatically (contrary to CSV and JSON format).
JSON is a format structure. The S3 select engine enables the use of SQL statements on top of the JSON format input data using the JSON reader, enabling the scanning of highly nested and complex JSON formatted data.

For example, a CSV, Parquet, or JSON S3 object with several gigabytes of data allows the user to extract a single column which is filtered by another column using the following query:

Example

select customerid from s3Object where age>30 and age<65;

Currently, the S3 object must retrieve data from the Ceph OSD through the Ceph Object Gateway before filtering and extracting data. There is improved performance when the object is large and the query is more specific. The Parquet format can be processed more efficiently than CSV.

Prerequisites

A running Red Hat Ceph Storage cluster.
A RESTful client.
A S3 user created with user access.

3.5.1. S3 select content from an object

The select object content API filters the content of an object through the structured query language (SQL). See the Metadata collected by inventory section in the AWS Systems Manager User Guide for an example of the description of what should reside in the inventory object. The inventory content impacts the type of queries that should be run against that inventory. The number of SQL statements that potentially could provide essential information is large, but S3 select is an SQL-like utility and therefore, some operators are not supported, such as group-by and join.

For CSV only, you must specify the data serialization format as comma-separated values of the object to retrieve the specified content. Parquet has no delimiter because it is in binary format. Amazon Web Services (AWS) command-line interface (CLI) select object content uses the CSV or Parquet format to parse object data into records and returns only the records specified in the query.

You must specify the data serialization format for the response. You must have s3:GetObject permission for this operation.

Note

The InputSerialization element describes the format of the data in the object that is being queried. Objects can be in CSV or Parquet format.
The OutputSerialization element is part of the AWS-CLI user client and describes how the output data is formatted. Ceph has implemented the server client for AWS-CLI and therefore, provides the same output according to OutputSerialization which currently is CSV only.
The format of the InputSerialization does not need to match the format of the OutputSerialization. So, for example, you can specify Parquet in the InputSerialization and CSV in the OutputSerialization.

Syntax

POST /BUCKET/KEY?select&select-type=2 HTTP/1.1\r\n

Example

POST /testbucket/sample1csv?select&select-type=2 HTTP/1.1\r\n
POST /testbucket/sample1parquet?select&select-type=2 HTTP/1.1\r\n

Request entities

Bucket

Description: The bucket to select object content from.
Type: String
Required: Yes

Key

Description: The object key.
Length Constraints: Minimum length of 1.
Type: String
Required: Yes

SelectObjectContentRequest

Description: Root level tag for the select object content request parameters.
Type: String
Required: Yes

Expression

Description: The expression that is used to query the object.
Type: String
Required: Yes

ExpressionType

Description: The type of the provided expression for example SQL.
Type: String
Valid Values: SQL
Required: Yes

InputSerialization

Description: Describes the format of the data in the object that is being queried.
Type: String
Required: Yes

OutputSerialization

Description: Format of data returned in comma separator and new-line.
Type: String
Required: Yes

Response entities

If the action is successful, the service sends back HTTP 200 response. Data is returned in XML format by the service:

Payload

Description: Root level tag for the payload parameters.
Type: String
Required: Yes

Records

Description: The records event.
Type: Base64-encoded binary data object
Required: No

Stats

Description: The stats event.
Type: Long
Required: No

The Ceph Object Gateway supports the following response:

Example

{:event-type,records} {:content-type,application/octet-stream} {:message-type,event}

Syntax (for CSV)

aws --endpoint-URL http://localhost:80 s3api select-object-content
 --bucket BUCKET_NAME
 --expression-type 'SQL'
 --input-serialization
 '{"CSV": {"FieldDelimiter": "," , "QuoteCharacter": "\"" , "RecordDelimiter" : "\n" , "QuoteEscapeCharacter" : "\\" , "FileHeaderInfo": "USE" }, "CompressionType": "NONE"}'
 --output-serialization '{"CSV": {}}'
 --key OBJECT_NAME.csv
 --expression "select count(0) from s3object where int(_1)<10;" output.csv

Example (for CSV)

aws --endpoint-url http://localhost:80 s3api select-object-content
 --bucket testbucket
 --expression-type 'SQL'
 --input-serialization
 '{"CSV": {"FieldDelimiter": "," , "QuoteCharacter": "\"" , "RecordDelimiter" : "\n" , "QuoteEscapeCharacter" : "\\" , "FileHeaderInfo": "USE" }, "CompressionType": "NONE"}'
 --output-serialization '{"CSV": {}}'
 --key testobject.csv
 --expression "select count(0) from s3object where int(_1)<10;" output.csv

Syntax (for Parquet)

aws --endpoint-url http://localhost:80 s3api select-object-content
 --bucket BUCKET_NAME
 --expression-type 'SQL'
 --input-serialization
 '{"Parquet": {}, {"CompressionType": "NONE"}'
 --output-serialization '{"CSV": {}}'
 --key OBJECT_NAME.parquet
 --expression "select count(0) from s3object where int(_1)<10;" output.csv

Example (for Parquet)

aws --endpoint-url http://localhost:80 s3api select-object-content
 --bucket testbucket
 --expression-type 'SQL'
 --input-serialization
 '{"Parquet": {}, {"CompressionType": "NONE"}'
 --output-serialization '{"CSV": {}}'
 --key testobject.parquet
 --expression "select count(0) from s3object where int(_1)<10;" output.csv

Syntax (for JSON)

aws --endpoint-URL http://localhost:80 s3api select-object-content
 --bucket BUCKET_NAME
 --expression-type 'SQL'
 --input-serialization
 '{"JSON": {"CompressionType": "NONE"}'
 --output-serialization '{"CSV": {}}}'
 --key OBJECT_NAME.json
 --expression "select count(0) from s3object where int(_1)<10;" output.csv

Example (for JSON)

aws --endpoint-url http://localhost:80 s3api select-object-content
 --bucket testbucket
 --expression-type 'SQL'
 --input-serialization
 '{"JSON": {"CompressionType": "NONE"}'
 --output-serialization '{"CSV": {}}}'
 --key testobject.json
 --expression "select count(0) from s3object where int(_1)<10;" output.csv

Example (for BOTO3)

import pprint
import boto3
from botocore.exceptions import ClientError

def run_s3select(bucket,key,query,column_delim=",",row_delim="\n",quot_char='"',esc_char='\\',csv_header_info="NONE"):

   s3 = boto3.client('s3',
       endpoint_url=endpoint,
       aws_access_key_id=access_key,
       region_name=region_name,
       aws_secret_access_key=secret_key)

   result = ""
   try:
       r = s3.select_object_content(
       Bucket=bucket,
       Key=key,
       ExpressionType='SQL',
       InputSerialization = {"CSV": {"RecordDelimiter" : row_delim, "FieldDelimiter" : column_delim,"QuoteEscapeCharacter": esc_char, "QuoteCharacter": quot_char, "FileHeaderInfo": csv_header_info}, "CompressionType": "NONE"},
       OutputSerialization = {"CSV": {}},
       Expression=query,
       RequestProgress = {"Enabled": progress})

   except ClientError as c:
       result += str(c)
       return result

   for event in r['Payload']:
           if 'Records' in event:
               result = ""
               records = event['Records']['Payload'].decode('utf-8')
               result += records
           if 'Progress' in event:
               print("progress")
               pprint.pprint(event['Progress'],width=1)
           if 'Stats' in event:
               print("Stats")
               pprint.pprint(event['Stats'],width=1)
           if 'End' in event:
               print("End")
               pprint.pprint(event['End'],width=1)

   return result




 run_s3select(
 "my_bucket",
 "my_csv_object",
 "select int(_1) as a1, int(_2) as a2 , (a1+a2) as a3 from s3object where a3>100 and a3<300;")

Supported features

Currently, only part of the AWS s3 select command is supported:

Features	Details	Description	Example
Arithmetic operators	^ * % / + - ( )		select (int(_1)+int(_2))*int(_9) from s3object;
Arithmetic operators	% modulo		select count(*) from s3object where cast(_1 as int)%2 = 0;
Arithmetic operators	^ power-of		select cast(2^10 as int) from s3object;
Compare operators	> < >= ⇐ == !=		select _1,_2 from s3object where (int(_1)+int(_3))>int(_5);
logical operator	AND OR NOT		select count(*) from s3object where not (int(1)>123 and int(_5)<200);
logical operator	is null	Returns true/false for null indication in expression
logical operator and NULL	is not null	Returns true/false for null indication in expression
logical operator and NULL	unknown state	Review null-handle and observe the results of logical operations with NULL. The query returns `0`.	`select count(*) from s3object where null and (3>2);`
Arithmetic operator with NULL	unknown state	Review null-handle and observe the results of binary operations with NULL. The query returns `0`.	`select count(*) from s3object where (null+1) and (3>2);`
Compare with NULL	unknown state	Review null-handle and observe results of compare operations with NULL. The query returns `0`.	`select count() from s3object where (null1.5) != 3;`
missing column	unknown state		`select count(*) from s3object where _1 is null;`
projection column	Similar to if or then or else		`select case when (1+1==(2+1)3) then 'case_1' when 43)==(12 then 'case_2' else 'case_else' end, age*2 from s3object;`
projection column	Similar to switch/case default		`select case cast(_1 as int) + 1 when 2 then “a” when 3 then “b” else “c” end from s3object;`
logical operator		`coalesce` returns first non-null argument	`select coalesce(nullif(5,5),nullif(1,1.0),age+12) from s3object;`
logical operator		`nullif` returns null in case both arguments are equal, or else the first one,`nullif(1,1)=NULL nullif(null,1)=NULL nullif(2,1)=2`	`select nullif(cast(_1 as int),cast(_2 as int)) from s3object;`
logical operator		`{expression} in ( .. {expression} ..)`	`select count(*) from s3object where 'ben' in (trim(_5),substring(_1,char_length(_1)-3,3),last_name);`
logical operator		`{expression} between {expression} and {expression}`	`select _1 from s3object where cast(_1 as int) between 800 and 900`; `select count(*) from stdin where substring(_3,char_length(_3),1) between “x” and trim(_1) and substring(_3,char_length(_3)-1,1) = “:”;`
logical operator		`{expression} like {match-pattern}`	`select count() from s3object where first_name like '%de_'; select count() from s3object where _1 like "%a[r-s];`
casting operator			`select cast(123 as int)%2 from s3object;`
casting operator			`select cast(123.456 as float)%2 from s3object;`
casting operator			`select cast('ABC0-9' as string),cast(substr('ab12cd',3,2) as int)*4 from s3object;`
casting operator			`select cast(substring('publish on 2007-01-01',12,10) as timestamp) from s3object;`
non AWS casting operator			`select int(_1),int( 1.2 + 3.4) from s3object;`
non AWS casting operator			`select float(1.2) from s3object;`
non AWS casting operator			`select to_timestamp('1999-10-10T12:23:44Z') from s3object;`
Aggregation Function	sun		`select sum(int(_1)) from s3object;`
Aggregation Function	avg		`select avg(cast(_1 as float) + cast(_2 as int)) from s3object;`
Aggregation Function	min		`select avg(cast(_1 a float) + cast(_2 as int)) from s3object;`
Aggregation Function	max		`select max(float(_1)),min(int(_5)) from s3object;`
Aggregation Function	count		`select count(*) from s3object where (int(1)+int(_3))>int(_5);`
Timestamp Functions	extract		`select count(*) from s3object where extract(year from to_timestamp(_2)) > 1950 and extract(year from to_timestamp(_1)) < 1960;`
Timestamp Functions	dateadd		`select count(0) from s3object where date_diff(year,to_timestamp(_1),date_add(day,366,to_timestamp(_1))) = 1;`
Timestamp Functions	datediff		`select count(0) from s3object where date_diff(month,to_timestamp(_1),to_timestamp(_2)) = 2;`
Timestamp Functions	utcnow		`select count(0) from s3object where date_diff(hour,utcnow(),date_add(day,1,utcnow())) = 24`
Timestamp Functions	to_string		`select to_string( to_timestamp(“2009-09-17T17:56:06.234567Z”), “yyyyMMdd-H:m:s”) from s3object;`
String Functions	substring		`select count(0) from s3object where int(substring(_1,1,4))>1950 and int(substring(_1,1,4))<1960;`
String Functions	substring	substring with from negative number is valid considered as first	`select substring(“123456789” from -4) from s3object;`
String Functions	substring	substring with from zero for out-of-bound number is valid just as (first,last)	`select substring(“123456789” from 0 for 100) from s3object;`
String Functions	trim		`select trim(' foobar ') from s3object;`
String Functions	trim		`select trim(trailing from ' foobar ') from s3object;`
String Functions	trim		`select trim(leading from ' foobar ') from s3object;`
String Functions	trim		`select trim(both '12' from '1112211foobar22211122') from s3object;`
String Functions	lower or upper		`select lower('ABcD12#$e') from s3object;`
String Functions	char_length, character_length		`select count(*) from s3object where char_length(_3)=3;`
Complex queries			`select sum(cast(_1 as int)),max(cast(_3 as int)), substring('abcdefghijklm', (2-1)*3+sum(cast(_1 as int))/sum(cast(_1 as int))+1, (count() + count(0))/count(0)) from s3object;`
alias support			`select int(_1) as a1, int(_2) as a2 , (a1+a2) as a3 from s3object where a3>100 and a3<300;`

Additional Resources

See Amazon’s S3 Select Object Content API for more details.

3.5.2. S3 supported select functions

S3 select supports the following functions: .Timestamp

to_timestamp(string)

Description

Converts string to timestamp basic type. In the string format, any missing 'time' value is populated with zero; for missing month and day value, 1 is the default value. 'Timezone' is in format +/-HH:mm or Z , where the letter 'Z' indicates Coordinated Universal Time (UTC). Value of timezone can range between - 12:00 and +14:00.

Supported

Currently it can convert the following string formats into timestamp:

YYYY-MM-DDTHH:mm:ss.SSSSSS+/-HH:mm
YYYY-MM-DDTHH:mm:ss.SSSSSSZ
YYYY-MM-DDTHH:mm:ss+/-HH:mm
YYYY-MM-DDTHH:mm:ssZ
YYYY-MM-DDTHH:mm+/-HH:mm
YYYY-MM-DDTHH:mmZ
YYYY-MM-DDT
YYYYT

to_string(timestamp, format_pattern)

Description: Returns a string representation of the input timestamp in the given input string format.
Parameters

Format	Example	Description
yy	69	2-year digit.
y	1969	4-year digit.
yyyy	1969	Zero-padded 4-digit year.
M	1	Month of the year.
MM	01	Zero-padded month of the year.
MMM	Jan	Abbreviated month of the year name.
MMMM	January	full month of the year name.
MMMMM	J	Month of the year first letter. Not valid for use with the `to_timestamp` function.
d	2	Day of the month (1-31).
dd	02	Zero-padded day of the month (01-31).
a	AM	AM or PM of day.
h	3	Hour of the day (1-12).
hh	03	Zero-padded hour of day (01-12).
H	3	Hour of the day (0-23).
HH	03	Zero-padded hour of the day (00-23).
m	4	Minute of the hour (0-59).
mm	04	Zero-padded minute of the hour (00-59).
s	5	Second of the minute (0-59).
ss	05	Zero-padded second of the minute (00-59).
S	1	Fraction of the second (precision: 0.1, range: 0.0-0.9).
SS	12	Fraction of the second (precision: 0.01, range: 0.0-0.99).
SSS	123	Fraction of the second (precision: 0.01, range: 0.0-0.999).
SSSS	1234	Fraction of the second (precision: 0.001, range: 0.0-0.9999).
SSSSSS	123456	Fraction of the second (maximum precision: 1 nanosecond, range: 0.0-0.999999).
n	60000000	Nano of second.
X	+07 or Z	Offset in hours or “Z” if the offset is 0.
XX or XXXX	+0700 or Z	Offset in hours and minutes or “Z” if the offset is 0.
XXX or XXXXX	+07:00 or Z	Offset in hours and minutes or “Z” if the offset is 0.
x	7	Offset in hours.
xx or xxxx	700	Offset in hours and minutes.
xxx or xxxxx	+07:00	Offset in hours and minutes.

extract(date-part from timestamp)

Description: Returns integer according to date-part extract from input timestamp.
Supported: year, month, week, day, hour, minute, second, timezone_hour, timezone_minute.

date_add(date-part ,integer,timestamp)

Description: Returns timestamp, a calculation based on the results of input timestamp and date-part.
Supported: year, month, day, hour, minute, second.

date_diff(date-part,timestamp,timestamp)

Description: Return an integer, a calculated result of the difference between two timestamps according to date-part.
Supported: year, month, day, hour, minute, second.

utcnow()

Description: Return timestamp of current time.

Aggregation

count()

Description: Returns integers based on the number of rows that match a condition if there is one.

sum(expression)

Description: Returns a summary of expression on each row that matches a condition if there is one.

avg(expression)

Description: Returns an average expression on each row that matches a condition if there is one.

max(expression)

Description: Returns the maximal result for all expressions that match a condition if there is one.

min(expression)

Description: Returns the minimal result for all expressions that match a condition if there is one.

String

substring (string,from,for)

Description: Returns a string extract from the input string according to from, for inputs.

Char_length

Description: Returns a number of characters in string. Character_length also does the same.

trim([[leading | trailing | both remove_chars] from] string )

Description: Trims leading/trailing (or both) characters from the target string. The default value is a blank character.

Upper\lower

Description: Converts characters into uppercase or lowercase.

NULL

The NULL value is missing or unknown that is NULL can not produce a value on any arithmetic operations. The same applies to arithmetic comparison, any comparison to NULL is NULL that is unknown.

Table 3.4. The NULL use case
A is NULL	Result(NULL=UNKNOWN)
Not A	`NULL`
A or False	`NULL`
A or True	`True`
A or A	`NULL`
A and False	`False`
A and True	`NULL`
A and A	`NULL`

Additional Resources

See Amazon’s S3 Select Object Content API for more details.

3.5.3. S3 alias programming construct

Alias programming construct is an essential part of the s3 select language because it enables better programming with objects that contain many columns or complex queries. When a statement with alias construct is parsed, it replaces the alias with a reference to the right projection column and on query execution, the reference is evaluated like any other expression. Alias maintains result-cache that is if an alias is used more than once, the same expression is not evaluated and the same result is returned because the result from the cache is used. Currently, Red Hat supports the column alias.

Example

select int(_1) as a1, int(_2) as a2 , (a1+a2) as a3 from s3object where a3>100 and a3<300;")

3.5.4. S3 parsing explained

The S3 select engine has parsers for all three file formats - CSV, Parquet, and JSON which separate the commands into more processable components, which are then attached to tags that define each component.

3.5.4.1. S3 CSV parsing

The CSV definitions with input serialization uses these default values:

Use {\n}` for row-delimiter.
Use {“} for quote.
Use {\} for escape characters.

The csv-header-info is parsed upon USE appearing in the AWS-CLI; this is the first row in the input object containing the schema. Currently, output serialization and compression-type is not supported. The S3 select engine has a CSV parser which parses S3-objects:

Each row ends with a row-delimiter.
The field-separator separates the adjacent columns.
The successive field separator defines the NULL column.
The quote-character overrides the field-separator; that is, the field separator is any character between the quotes.
The escape character disables any special character except the row delimiter.

The following are examples of CSV parsing rules:

Table 3.5. CSV parsing
Feature	Description	Input (Tokens)
`NULL`	Successive field delimiter	`,,1,,2, =⇒ {null}{null}{1}{null}{2}{null}`
`QUOTE`	The quote character overrides the field delimiter.	`11,22,”a,b,c,d”,last =⇒ {11}{22}{“a,b,c,d”}{last}`
`Escape`	The escape character overrides the meta-character.	A container for the object owner’s `ID` and `DisplayName`
`row delimiter`	There is no closed quote; row delimiter is the closing line.	`11,22,a=”str,44,55,66 =⇒ {11}{22}{a=”str,44,55,66}`
`csv header info`	FileHeaderInfo tag	USE value means each token on the first line is the column-name; IGNORE value means to skip the first line.

Additional Resources

See Amazon’s S3 Select Object Content API for more details.

3.5.4.2. S3 Parquet parsing

Apache Parquet is an open-source, columnar data file format designed for efficient data storage and retrieval.

The S3 select engine’s Parquet parser parses S3-objects as follows:

Example

4-byte magic number "PAR1"
<Column 1 Chunk 1 + Column Metadata>
<Column 2 Chunk 1 + Column Metadata>
...
<Column N Chunk 1 + Column Metadata>
<Column 1 Chunk 2 + Column Metadata>
<Column 2 Chunk 2 + Column Metadata>
...
<Column N Chunk 2 + Column Metadata>
...
<Column 1 Chunk M + Column Metadata>
<Column 2 Chunk M + Column Metadata>
...
<Column N Chunk M + Column Metadata>
File Metadata
4-byte length in bytes of file metadata
4-byte magic number "PAR1"

In the above example, there are N columns in this table, split into M row groups. The file metadata contains the locations of all the column metadata start locations.
Metadata is written after the data to allow for single pass writing.
All the column chunks can be found in the file metadata which should later be read sequentially.
The format is explicitly designed to separate the metadata from the data. This allows splitting columns into multiple files, as well as having a single metadata file reference multiple parquet files.

3.5.4.3. S3 JSON parsing

JSON document enables nesting values within objects or arrays without limitations. When querying a specific value in a JSON document in the S3 select engine, the location of the value is specified through a path in the SELECT statement.

The generic structure of a JSON document does not have a row and column structure like CSV and Parquet. Instead, it is the SQL statement itself that defines the rows and columns when querying a JSON document.

The S3 select engine’s JSON parser parses S3-objects as follows:

The FROM clause in the SELECT statement defines the row boundaries.
A row in a JSON document is similar to how the row delimiter is used to define rows for CSV objects, and how row groups are used to define rows for Parquet objects

Consider the following example:

Example

{
    "firstName": "Joe",
    "lastName": "Jackson",
    "gender": "male",
    "age": "twenty"
},

{
    "firstName": "Joe_2",
    "lastName": "Jackson_2",
    "gender": "male",
    "age": 21
},

"phoneNumbers":
[
    { "type": "home1", "number": "734928_1","addr": 11 },
    { "type": "home2", "number": "734928_2","addr": 22 }
],

"key_after_array": "XXX",

"description" :
{
    "main_desc" : "value_1",
    "second_desc" : "value_2"
}

# the from-clause define a single row.
# _1 points to root object level.
# _1.age appears twice in Documnet-row, the last value is used for the operation.
query = "select _1.firstname,_1.key_after_array,_1.age+4,_1.description.main_desc,_1.description.second_desc from s3object[*].aa.bb.cc;";

expected_result = Joe_2,XXX,25,value_1,value_2

The statement instructs the reader to search for the path aa.bb.cc and defines the row boundaries based on the occurrence of this path.
A row begins when the reader encounters the path, and it ends when the reader exits the innermost part of the path, which in this case is the object cc.

3.5.5. Integrating Ceph Object Gateway with Trino

Integrate the Ceph Object Gateway with Trino, an important utility that enables the user to run SQL queries 9x faster on S3 objects.

Following are some benefits of using Trino:

Trino is a complete SQL engine.
Pushes down S3 select requests wherein the Trino engine identifies part of the SQL statement that is cost effective to run on the server-side.
uses the optimization rules of Ceph/S3select to enhance performance.
Leverages Red Hat Ceph Storage scalability and divides the original object into multiple equal parts, performs S3 select requests, and merges the request.

Important

If the s3select syntax does not work while querying through trino, use the SQL syntax.

Prerequisites

A running Red Hat Ceph Storage cluster with Ceph Object Gateway installed.
Docker or Podman installed.
Buckets created.
Objects are uploaded.

Procedure

Deploy Trino and hive.

Example

[cephuser@host01 ~]$ git clone https://github.com/ceph/s3select.git
[cephuser@host01 ~]$ cd s3select

Modify the hms_trino.yaml file with S3 endpoint, access key, and secret key.

Example

[cephuser@host01 s3select]$ cat container/trino/hms_trino.yaml
version: '3'
services:
  hms:
    image: galsl/hms:dev
    container_name: hms
    environment:
      # S3_ENDPOINT the CEPH/RGW end-point-url
      - S3_ENDPOINT=http://rgw_ip:port
      - S3_ACCESS_KEY=abc
      - S3_SECRET_KEY=abc
    # the container starts with booting the hive metastore
    command: sh -c '. ~/.bashrc; start_hive_metastore'
    ports:
      - 9083:9083
    networks:
      - trino_hms

  trino:
    image: trinodb/trino:405
    container_name: trino
    volumes:
      # the trino directory contains the necessary configuration
      - ./trino:/etc/trino
    ports:
      - 8080:8080
    networks:
      - trino_hms

networks:
  trino_hm

Modify the hive.properties file with S3 endpoint, access key, and secret key.

Example

[cephuser@host01 s3select]$ cat container/trino/trino/catalog/hive.properties
connector.name=hive
hive.metastore.uri=thrift://hms:9083

#hive.metastore.warehouse.dir=s3a://hive/

hive.allow-drop-table=true
hive.allow-rename-table=true
hive.allow-add-column=true
hive.allow-drop-column=true
hive.allow-rename-column=true

hive.non-managed-table-writes-enabled=true
hive.s3select-pushdown.enabled=true
hive.s3.aws-access-key=abc
hive.s3.aws-secret-key=abc

# should modify per s3-endpoint-url
hive.s3.endpoint=http://rgw_ip:port
#hive.s3.max-connections=1
#hive.s3select-pushdown.max-connections=1

hive.s3.connect-timeout=100s
hive.s3.socket-timeout=100s
hive.max-splits-per-second=10000
hive.max-split-size=128MB

Start a Trino container to integrate Ceph Object Gateway.

Example

[cephuser@host01 s3select]$ sudo docker compose -f ./container/trino/hms_trino.yaml up -d

Verify integration.

Example

[cephuser@host01 s3select]$ sudo docker exec -it trino /bin/bash
trino@66f753905e82:/$ trino
trino> create schema hive.csvbkt1schema;
trino> create table hive.csvbkt1schema.polariondatacsv(c1 varchar,c2 varchar, c3 varchar, c4 varchar, c5 varchar, c6 varchar, c7 varchar, c8 varchar, c9 varchar) WITH ( external_location = 's3a://csvbkt1/',format = 'CSV');
trino> select * from hive.csvbkt1schema.polariondatacsv;

Note

The external location must point to the bucket name or a directory, and not the end of a file.

Ce contenu n'est pas disponible dans la langue sélectionnée.

Chapter 3. Ceph Object Gateway and the S3 API

3.1. S3 limitations

3.2. Accessing the Ceph Object Gateway with the S3 API

3.2.1. S3 authentication

3.2.2. S3-server-side encryption

3.2.3. S3 access control lists

3.2.4. Preparing access to the Ceph Object Gateway using S3

3.2.5. Accessing the Ceph Object Gateway using Ruby AWS S3

3.2.6. Accessing the Ceph Object Gateway using Ruby AWS SDK

3.2.7. Accessing the Ceph Object Gateway using PHP

3.2.8. Secure Token Service

3.2.8.1. The Secure Token Service application programming interfaces

3.2.8.2. Configuring the Secure Token Service

3.2.8.3. Creating a user for an OpenID Connect provider

3.2.8.4. Obtaining a thumbprint of an OpenID Connect provider

3.2.8.5. Registering the OpenID Connect provider

3.2.8.6. Creating IAM roles and policies

3.2.8.7. Accessing S3 resources

3.2.9. Configuring and using STS Lite with Keystone (Technology Preview)

3.2.10. Working around the limitations of using STS Lite with Keystone (Technology Preview)

3.3. S3 bucket operations

3.3.1. S3 create bucket notifications

3.3.2. S3 get bucket notifications

3.3.3. S3 delete bucket notifications

3.3.4. Accessing bucket host names

3.3.5. S3 list buckets

3.3.6. S3 return a list of bucket objects

3.3.7. S3 create a new bucket

3.3.8. S3 put bucket website

3.3.9. S3 get bucket website

3.3.10. S3 delete bucket website

3.3.11. S3 put bucket replication

3.3.12. S3 get bucket replication

3.3.13. S3 delete bucket replication

3.3.14. S3 delete a bucket

3.3.15. S3 bucket lifecycle

3.3.16. S3 GET bucket lifecycle

3.3.17. S3 create or replace a bucket lifecycle

3.3.18. S3 delete a bucket lifecycle

3.3.19. S3 get bucket location

3.3.20. S3 get bucket versioning

3.3.21. S3 put bucket versioning

3.3.22. S3 get bucket access control lists

3.3.23. S3 put bucket Access Control Lists

3.3.24. S3 get bucket cors

3.3.25. S3 put bucket cors

3.3.26. S3 delete a bucket cors

3.3.27. S3 list bucket object versions

3.3.28. S3 head bucket

3.3.29. S3 list multipart uploads

3.3.30. S3 bucket policies

3.3.31. S3 get the request payment configuration on a bucket

3.3.32. S3 set the request payment configuration on a bucket

3.3.33. Multi-tenant bucket operations

3.3.34. S3 Block Public Access

3.3.35. S3 GET PublicAccessBlock

3.3.36. S3 PUT PublicAccessBlock

3.3.37. S3 delete PublicAccessBlock

3.4. S3 object operations

3.4.1. S3 get an object from a bucket

3.4.2. S3 get information on an object

3.4.3. S3 put object lock

3.4.4. S3 get object lock

3.4.5. S3 put object legal hold

3.4.6. S3 get object legal hold

3.4.7. S3 put object retention

3.4.8. S3 get object retention

3.4.9. S3 put object tagging

3.4.10. S3 get object tagging

3.4.11. S3 delete object tagging

3.4.12. S3 add an object to a bucket

3.4.13. S3 delete an object

3.4.14. S3 delete multiple objects

3.4.15. S3 get an object’s Access Control List (ACL)

3.4.16. S3 set an object’s Access Control List (ACL)

3.4.17. S3 copy an object

3.4.18. S3 add an object to a bucket using HTML forms

3.4.19. S3 determine options for a request

3.4.20. S3 initiate a multipart upload

3.3.35. S3 GET `PublicAccessBlock`

3.3.36. S3 PUT `PublicAccessBlock`

3.3.37. S3 delete `PublicAccessBlock`