#Managing Unified File and Object Storage Unified File and Object Storage (UFO) unifies NAS and object storage technology. It provides a system for data storage that enables users to access the same data, both as an object and as a file, thus simplifying management and controlling storage costs. Unified File and Object Storage is built upon Openstack's Object Storage Swift. Open Stack Object Storage allows users to store and retrieve files and content through a simple Web Service (REST: Representational State Transfer) interface as objects and GlusterFS, allows users to store and retrieve files using Native Fuse and NFS mounts. It uses GlusterFS as a backend file system for Open Stack Swift. It also leverages on Open Stack Swift's web interface for storing and retrieving files over the web combined with GlusterFS features like scalability and high availability, replication, elastic volume management for data management at disk level. Unified File and Object Storage technology enables enterprises to adopt and deploy cloud storage solutions. It allows users to access and modify data as objects from a REST interface along with the ability to access and modify files from NAS interfaces including NFS and CIFS. In addition to decreasing cost and making it faster and easier to access object data, it also delivers massive scalability, high availability and replication of object storage. Infrastructure as a Service (IaaS) providers can utilize GlusterFS Unified File and Object Storage technology to enable their own cloud storage service. Enterprises can use this technology to accelerate the process of preparing file-based applications for the cloud and simplify new application development for cloud computing environments. OpenStack Object Storage is scalable object storage system and it is not a traditional file system. You will not be able to mount this system like traditional SAN or NAS volumes and perform POSIX compliant operations. ##Components of Object Storage The major components of Object Storage are: **Proxy Server** All REST requests to the UFO are routed through the Proxy Server. **Objects and Containers** An object is the basic storage entity and any optional metadata that represents the data you store. When you upload data, the data is stored as-is (with no compression or encryption). A container is a storage compartment for your data and provides a way for you to organize your data. Containers can be visualized as directories in a Linux system. Data must be stored in a container and hence objects are created within a container. It implements objects as files and directories under the container. The object name is a '/' separated path and UFO maps it to directories until the last name in the path, which is marked as a file. With this approach, objects can be accessed as files and directories from native GlusterFS (FUSE) or NFS mounts by providing the '/' separated path. **Accounts and Account Servers** The OpenStack Object Storage system is designed to be used by many different storage consumers. Each user is associated with one or more accounts and must identify themselves using an authentication system. While authenticating, users must provide the name of the account for which the authentication is requested. UFO implements accounts as GlusterFS volumes. So, when a user is granted read/write permission on an account, it means that that user has access to all the data available on that GlusterFS volume. **Authentication and Access Permissions** You must authenticate against an authentication service to receive OpenStack Object Storage connection parameters and an authentication token. The token must be passed in for all subsequent container or object operations. One authentication service that you can use as a middleware example is called `tempauth`. By default, each user has their own storage account and has full access to that account. Users must authenticate with their credentials as described above, but once authenticated they can manage containers and objects within that account. If a user wants to access the content from another account, they must have API access key or a session token provided by their authentication system. ##Advantages of using GlusterFS Unified File and Object Storage The following are the advantages of using GlusterFS UFO: - No limit on upload and download files sizes as compared to Open Stack Swift which limits the object size to 5GB. - A unified view of data across NAS and Object Storage technologies. - Using GlusterFS's UFO has other advantages like the following: - High availability - Scalability - Replication - Elastic Volume management ##Preparing to Deploy Unified File and Object Storage This section provides information on pre-requisites and list of dependencies that will be installed during the installation of Unified File and Object Storage. ###Pre-requisites GlusterFS's Unified File and Object Storage needs `user_xattr` support from the underlying disk file system. Use the following command to enable `user_xattr` for GlusterFS bricks backend: `# mount –o remount,user_xattr ` For example, `# mount –o remount,user_xattr /dev/hda1 ` ####Dependencies ------------ The following packages are installed on GlusterFS when you install Unified File and Object Storage: - curl - memcached - openssl - xfsprogs - python2.6 - pyxattr - python-configobj - python-setuptools - python-simplejson - python-webob - python-eventlet - python-greenlet - python-pastedeploy - python-netifaces ##Installing and Configuring Unified File and Object Storage This section provides instructions on how to install and configure Unified File and Object Storage in your storage environment. ##Installing Unified File and Object Storage 1. Download `rhel_install.sh` install script from [][] . 2. Run `rhel_install.sh` script using the following command: `# sh rhel_install.sh` 3. Download `swift-1.4.5-1.noarch.rpm` and `swift-plugin-1.0.-1.el6.noarch.rpm` files from [][]. 4. Install `swift-1.4.5-1.noarch.rpm` and `swift-plugin-1.0.-1.el6.noarch.rpm` using the following commands: `# rpm -ivh swift-1.4.5-1.noarch.rpm` `# rpm -ivh swift-plugin-1.0.-1.el6.noarch.rpm` > **Note** > > You must repeat the above steps on all the machines on which you > want to install Unified File and Object Storage. If you install > the Unified File and Object Storage on multiple servers, you can > use a load balancer like pound, nginx, and so on to distribute the > request across the machines. ###Adding Users The authentication system allows the administrator to grant different levels of access to different users based on the requirement. The following are the types of user permissions: - admin user - normal user Admin user has read and write permissions on the account. By default, a normal user has no read or write permissions. A normal user can only authenticate itself to get a Auth-Token. Read or write permission are provided through ACLs by the admin users. Add a new user by adding the following entry in `/etc/swift/proxy-server.conf` file: `user__ = [.admin]` For example, `user_test_tester = testing .admin` > **Note** > > During installation, the installation script adds few sample users to > the `proxy-server.conf` file. It is highly recommended that you remove > all the default sample user entries from the configuration file. ##Configuring Proxy Server The Proxy Server is responsible for connecting to the rest of the OpenStack Object Storage architecture. For each request, it looks up the location of the account, container, or object in the ring and route the request accordingly. The public API is also exposed through the proxy server. When objects are streamed to or from an object server, they are streamed directly through the proxy server to or from the user – the proxy server does not spool them. The configurable options pertaining to proxy server are stored in `/etc/swift/proxy-server.conf`. The following is the sample `proxy-server.conf` file: [app:proxy-server] use = egg:swift#proxy allow_account_management=true account_autocreate=true [filter:tempauth] use = egg:swift#tempauth user_admin_admin=admin.admin.reseller_admin user_test_tester=testing.admin user_test2_tester2=testing2.admin user_test_tester3=testing3 [filter:healthcheck] use = egg:swift#healthcheck [filter:cache] use = egg:swift#memcache By default, GlusterFS's Unified File and Object Storage is configured to support HTTP protocol and uses temporary authentication to authenticate the HTTP requests. ###Configuring Authentication System There are several different authentication system like tempauth, keystone, swauth etc. Their respective documentation has detailed usage. ###Configuring Proxy Server for HTTPS By default, proxy server only handles HTTP request. To configure the proxy server to process HTTPS requests, perform the following steps: 1. Create self-signed cert for SSL using the following commands: cd /etc/swift openssl req -new -x509 -nodes -out cert.crt -keyout cert.key 2. Add the following lines to `/etc/swift/proxy-server.conf `under [DEFAULT] bind_port = 443 cert_file = /etc/swift/cert.crt key_file = /etc/swift/cert.key 3. Restart the servers using the following commands: swift-init main stop swift-init main start The following are the configurable options: Option | Default | Description ------------ | ------------ | ------------------------------- bind\_ip | 0.0.0.0 | IP Address for server to bind bind\_port | 80 | Port for server to bind swift\_dir | /etc/swift | Swift configuration directory workers | 1 | Number of workers to fork user | swift | swift user cert\_file | | Path to the ssl .crt key\_file | | Path to the ssl .key : proxy-server.conf Default Options in the [DEFAULT] section Option | Default | Description ------------------------------- | ----------------- | ----------------------------------------------------------------------- use | | paste.deploy entry point for the container server. For most cases, this should be `egg:swift#container`. log\_name | proxy-server | Label used when logging log\_facility | LOG\_LOCAL0 | Syslog log facility log\_level | INFO | Log level log\_headers | True | If True, log headers in each request recheck\_account\_existence | 60 | Cache timeout in seconds to send memcached for account existence recheck\_container\_existence | 60 | Cache timeout in seconds to send memcached for container existence object\_chunk\_size | 65536 | Chunk size to read from object servers client\_chunk\_size | 65536 | Chunk size to read from clients memcache\_servers | 127.0.0.1:11211 | Comma separated list of memcached servers ip:port node\_timeout | 10 | Request timeout to external services client\_timeout | 60 | Timeout to read one chunk from a client conn\_timeout | 0.5 | Connection timeout to external services error\_suppression\_interval | 60 | Time in seconds that must elapse since the last error for a node to be considered no longer error limited error\_suppression\_limit | 10 | Error count to consider a node error limited allow\_account\_management | false | Whether account `PUT`s and `DELETE`s are even callable : proxy-server.conf Server Options in the [proxy-server] section ##Configuring Object Server The Object Server is a very simple blob storage server that can store, retrieve, and delete objects stored on local devices. Objects are stored as binary files on the file system with metadata stored in the file’s extended attributes (xattrs). This requires that the underlying file system choice for object servers support xattrs on files. The configurable options pertaining Object Server are stored in the file `/etc/swift/object-server/1.conf`. The following is the sample `object-server/1.conf` file: [DEFAULT] devices = /srv/1/node mount_check = false bind_port = 6010 user = root log_facility = LOG_LOCAL2 [pipeline:main] pipeline = gluster object-server [app:object-server] use = egg:swift#object [filter:gluster] use = egg:swift#gluster [object-replicator] vm_test_mode = yes [object-updater] [object-auditor] The following are the configurable options: Option | Default | Description -------------- | ------------ | ---------------------------------------------------------------------------------------------- swift\_dir | /etc/swift | Swift configuration directory devices | /srv/node | Mount parent directory where devices are mounted mount\_check | true | Whether or not check if the devices are mounted to prevent accidentally writing to the root device bind\_ip | 0.0.0.0 | IP Address for server to bind bind\_port | 6000 | Port for server to bind workers | 1 | Number of workers to fork : object-server.conf Default Options in the [DEFAULT] section Option | Default | Description ---------------------- | --------------- | ------------ use | | paste.deploy entry point for the object server. For most cases, this should be `egg:swift#object`. log\_name | object-server | log name used when logging log\_facility | LOG\_LOCAL0 | Syslog log facility log\_level | INFO | Logging level log\_requests | True | Whether or not to log each request user | swift | swift user node\_timeout | 3 | Request timeout to external services conn\_timeout | 0.5 | Connection timeout to external services network\_chunk\_size | 65536 | Size of chunks to read or write over the network disk\_chunk\_size | 65536 | Size of chunks to read or write to disk max\_upload\_time | 65536 | Maximum time allowed to upload an object slow | 0 | If \> 0, Minimum time in seconds for a `PUT` or `DELETE` request to complete : object-server.conf Server Options in the [object-server] section ##Configuring Container Server The Container Server’s primary job is to handle listings of objects. The listing is done by querying the GlusterFS mount point with path. This query returns a list of all files and directories present under that container. The configurable options pertaining to container server are stored in `/etc/swift/container-server/1.conf` file. The following is the sample `container-server/1.conf` file: [DEFAULT] devices = /srv/1/node mount_check = false bind_port = 6011 user = root log_facility = LOG_LOCAL2 [pipeline:main] pipeline = gluster container-server [app:container-server] use = egg:swift#container [filter:gluster] use = egg:swift#gluster [container-replicator] [container-updater] [container-auditor] The following are the configurable options: Option | Default | Description -------------- | ------------ | ------------ swift\_dir | /etc/swift | Swift configuration directory devices | /srv/node | Mount parent directory where devices are mounted mount\_check | true | Whether or not check if the devices are mounted to prevent accidentally writing to the root device bind\_ip | 0.0.0.0 | IP Address for server to bind bind\_port | 6001 | Port for server to bind workers | 1 | Number of workers to fork user | swift | Swift user : container-server.conf Default Options in the [DEFAULT] section Option | Default | Description --------------- | ------------------ | ------------ use | | paste.deploy entry point for the container server. For most cases, this should be `egg:swift#container`. log\_name | container-server | Label used when logging log\_facility | LOG\_LOCAL0 | Syslog log facility log\_level | INFO | Logging level node\_timeout | 3 | Request timeout to external services conn\_timeout | 0.5 | Connection timeout to external services : container-server.conf Server Options in the [container-server] section ##Configuring Account Server The Account Server is very similar to the Container Server, except that it is responsible for listing of containers rather than objects. In UFO, each gluster volume is an account. The configurable options pertaining to account server are stored in `/etc/swift/account-server/1.conf` file. The following is the sample `account-server/1.conf` file: [DEFAULT] devices = /srv/1/node mount_check = false bind_port = 6012 user = root log_facility = LOG_LOCAL2 [pipeline:main] pipeline = gluster account-server [app:account-server] use = egg:swift#account [filter:gluster] use = egg:swift#gluster [account-replicator] vm_test_mode = yes [account-auditor] [account-reaper] The following are the configurable options: Option | Default | Description -------------- | ------------ | --------------------------- swift\_dir | /etc/swift | Swift configuration directory devices | /srv/node | mount parent directory where devices are mounted mount\_check | true | Whether or not check if the devices are mounted to prevent accidentally writing to the root device bind\_ip | 0.0.0.0 | IP Address for server to bind bind\_port | 6002 | Port for server to bind workers | 1 | Number of workers to fork user | swift | Swift user : account-server.conf Default Options in the [DEFAULT] section Option | Default | Description --------------- | ---------------- | --------------------------- use | | paste.deploy entry point for the container server. For most cases, this should be `egg:swift#container`. log\_name | account-server | Label used when logging log\_facility | LOG\_LOCAL0 | Syslog log facility log\_level | INFO | Logging level : account-server.conf Server Options in the [account-server] section ##Starting and Stopping Server You must start the server manually when system reboots and whenever you update/modify the configuration files. - To start the server, enter the following command: `# swift_init main start` - To stop the server, enter the following command: `# swift_init main stop` ##Working with Unified File and Object Storage This section describes the REST API for administering and managing Object Storage. All requests will be directed to the host and URL described in the `X-Storage-URL HTTP` header obtained during successful authentication. ###Configuring Authenticated Access Authentication is the process of proving identity to the system. To use the REST interface, you must obtain an authorization token using GET method and supply it with v1.0 as the path. Each REST request against the Object Storage system requires the addition of a specific authorization token HTTP x-header, defined as X-Auth-Token. The storage URL and authentication token are returned in the headers of the response. - To authenticate, run the following command: GET auth/v1.0 HTTP/1.1 Host: X-Auth-User: : X-Auth-Key: For example, GET auth/v1.0 HTTP/1.1 Host: auth.example.com X-Auth-User: test:tester X-Auth-Key: testing HTTP/1.1 200 OK X-Storage-Url: https:/example.storage.com:443/v1/AUTH_test X-Storage-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554 X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554 Content-Length: 0 Date: Wed, 10 jul 2011 06:11:51 GMT To authenticate access using cURL (for the above example), run the following command: curl -v -H 'X-Storage-User: test:tester' -H 'X-Storage-Pass:testing' -k https://auth.example.com:443/auth/v1.0 The X-Auth-Url has to be parsed and used in the connection and request line of all subsequent requests to the server. In the example output, users connecting to server will send most container/object requests with a host header of example.storage.com and the request line's version and account as v1/AUTH\_test. > **Note** > > The authentication tokens are valid for a 24 hour period. ##Working with Accounts This section describes the list of operations you can perform at the account level of the URL. ### Displaying Container Information You can list the objects of a specific container, or all containers, as needed using GET command. You can use the following optional parameters with GET request to refine the results: Parameter | Description ----------- | -------------------------------------------------------------------------- limit | Limits the number of results to at most *n* value. marker | Returns object names greater in value than the specified marker. format | Specify either json or xml to return the respective serialized response. **To display container information** - List all the containers of an account using the following command: GET // HTTP/1.1 Host: X-Auth-Token: For example, GET /v1/AUTH_test HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 HTTP/1.1 200 Ok Date: Wed, 13 Jul 2011 16:32:21 GMT Server: Apache Content-Type: text/plain; charset=UTF-8 Content-Length: 39 songs movies documents reports To display container information using cURL (for the above example), run the following command: curl -v -X GET -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' https://example.storage.com:443/v1/AUTH_test -k ### Displaying Account Metadata Information You can issue HEAD command to the storage service to view the number of containers and the total bytes stored in the account. - To display containers and storage used, run the following command: HEAD // HTTP/1.1 Host: X-Auth-Token: For example, HEAD /v1/AUTH_test HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 HTTP/1.1 204 No Content Date: Wed, 13 Jul 2011 16:52:21 GMT Server: Apache X-Account-Container-Count: 4 X-Account-Total-Bytes-Used: 394792 To display account metadata information using cURL (for the above example), run the following command: curl -v -X HEAD -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' https://example.storage.com:443/v1/AUTH_test -k ##Working with Containers This section describes the list of operations you can perform at the container level of the URL. ### Creating Containers You can use PUT command to create containers. Containers are the storage folders for your data. The URL encoded name must be less than 256 bytes and cannot contain a forward slash '/' character. - To create a container, run the following command: PUT //// HTTP/1.1 Host: X-Auth-Token: For example, PUT /v1/AUTH_test/pictures/ HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 HTTP/1.1 201 Created Date: Wed, 13 Jul 2011 17:32:21 GMT Server: Apache Content-Type: text/plain; charset=UTF-8 To create container using cURL (for the above example), run the following command: curl -v -X PUT -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' https://example.storage.com:443/v1/AUTH_test/pictures -k The status code of 201 (Created) indicates that you have successfully created the container. If a container with same is already existed, the status code of 202 is displayed. ### Displaying Objects of a Container You can list the objects of a container using GET command. You can use the following optional parameters with GET request to refine the results: Parameter | Description ----------- | -------------------------------------------------------------------------------------------------------------- limit | Limits the number of results to at most *n* value. marker | Returns object names greater in value than the specified marker. prefix | Displays the results limited to object names beginning with the substring x. beginning with the substring x. path | Returns the object names nested in the pseudo path. format | Specify either json or xml to return the respective serialized response. delimiter | Returns all the object names nested in the container. To display objects of a container - List objects of a specific container using the following command: GET ///[parm=value] HTTP/1.1 Host: X-Auth-Token: For example, GET /v1/AUTH_test/images HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 HTTP/1.1 200 Ok Date: Wed, 13 Jul 2011 15:42:21 GMT Server: Apache Content-Type: text/plain; charset=UTF-8 Content-Length: 139 sample file.jpg test-file.pdf You and Me.pdf Puddle of Mudd.mp3 Test Reports.doc To display objects of a container using cURL (for the above example), run the following command: curl -v -X GET-H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' https://example.storage.com:443/v1/AUTH_test/images -k ### Displaying Container Metadata Information You can issue HEAD command to the storage service to view the number of objects in a container and the total bytes of all the objects stored in the container. - To display list of objects and storage used, run the following command: HEAD /// HTTP/1.1 Host: X-Auth-Token: For example, HEAD /v1/AUTH_test/images HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 HTTP/1.1 204 No Content Date: Wed, 13 Jul 2011 19:52:21 GMT Server: Apache X-Account-Object-Count: 8 X-Container-Bytes-Used: 472 To display list of objects and storage used in a container using cURL (for the above example), run the following command: curl -v -X HEAD -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' https://example.storage.com:443/v1/AUTH_test/images -k ### Deleting Container You can use DELETE command to permanently delete containers. The container must be empty before it can be deleted. You can issue HEAD command to determine if it contains any objects. - To delete a container, run the following command: DELETE //// HTTP/1.1 Host: X-Auth-Token: For example, DELETE /v1/AUTH_test/pictures HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 HTTP/1.1 204 No Content Date: Wed, 13 Jul 2011 17:52:21 GMT Server: Apache Content-Length: 0 Content-Type: text/plain; charset=UTF-8 To delete a container using cURL (for the above example), run the following command: curl -v -X DELETE -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' https://example.storage.com:443/v1/AUTH_test/pictures -k The status code of 204 (No Content) indicates that you have successfully deleted the container. If that container does not exist, the status code 404 (Not Found) is displayed, and if the container is not empty, the status code 409 (Conflict) is displayed. ### Updating Container Metadata You can update the metadata of container using POST operation, metadata keys should be prefixed with 'x-container-meta'. - To update the metadata of the object, run the following command: POST /// HTTP/1.1 Host: X-Auth-Token: X-Container-Meta-: X-Container-Meta-: For example, POST /v1/AUTH_test/images HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 X-Container-Meta-Zoo: Lion X-Container-Meta-Home: Dog HTTP/1.1 204 No Content Date: Wed, 13 Jul 2011 20:52:21 GMT Server: Apache Content-Type: text/plain; charset=UTF-8 To update the metadata of the object using cURL (for the above example), run the following command: curl -v -X POST -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' https://example.storage.com:443/v1/AUTH_test/images -H ' X-Container-Meta-Zoo: Lion' -H 'X-Container-Meta-Home: Dog' -k The status code of 204 (No Content) indicates the container's metadata is updated successfully. If that object does not exist, the status code 404 (Not Found) is displayed. ### Setting ACLs on Container You can set the container access control list by using POST command on container with `x- container-read` and` x-container-write` keys. The ACL format is `[item[,item...]]`. Each item can be a group name to give access to or a referrer designation to grant or deny based on the HTTP Referer header. The referrer designation format is:` .r:[-]value`. The .r can also be `.ref, .referer, `or .`referrer`; though it will be shortened to.r for decreased character count usage. The value can be `*` to specify any referrer host is allowed access. The leading minus sign (-) indicates referrer hosts that should be denied access. Examples of valid ACLs: .r:* .r:*,bobs_account,sues_account:sue bobs_account,sues_account:sue Examples of invalid ACLs: .r: .r:- By default, allowing read access via `r `will not allow listing objects in the container but allows retrieving objects from the container. To turn on listings, use the .`rlistings` directive. Also, `.r` designations are not allowed in headers whose names include the word write. For example, to set all the objects access rights to "public" inside the container using cURL (for the above example), run the following command: curl -v -X POST -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' https://example.storage.com:443/v1/AUTH_test/images -H 'X-Container-Read: .r:*' -k ##Working with Objects An object represents the data and any metadata for the files stored in the system. Through the REST interface, metadata for an object can be included by adding custom HTTP headers to the request and the data payload as the request body. Objects name should not exceed 1024 bytes after URL encoding. This section describes the list of operations you can perform at the object level of the URL. ### Creating or Updating Object You can use PUT command to write or update an object's content and metadata. You can verify the data integrity by including an MD5checksum for the object's data in the ETag header. ETag header is optional and can be used to ensure that the object's contents are stored successfully in the storage system. You can assign custom metadata to objects by including additional HTTP headers on the PUT request. The objects created with custom metadata via HTTP headers are identified with the`X-Object- Meta`- prefix. - To create or update an object, run the following command: PUT //// HTTP/1.1 Host: X-Auth-Token: ETag: da1e100dc9e7becc810986e37875ae38 Content-Length: 342909 X-Object-Meta-PIN: 2343 For example, PUT /v1/AUTH_test/pictures/dog HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 ETag: da1e100dc9e7becc810986e37875ae38 HTTP/1.1 201 Created Date: Wed, 13 Jul 2011 18:32:21 GMT Server: Apache ETag: da1e100dc9e7becc810986e37875ae38 Content-Length: 0 Content-Type: text/plain; charset=UTF-8 To create or update an object using cURL (for the above example), run the following command: curl -v -X PUT -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' https://example.storage.com:443/v1/AUTH_test/pictures/dog -H 'Content- Length: 0' -k The status code of 201 (Created) indicates that you have successfully created or updated the object. If there is a missing content-Length or Content-Type header in the request, the status code of 412 (Length Required) is displayed. (Optionally) If the MD5 checksum of the data written to the storage system does not match the ETag value, the status code of 422 (Unprocessable Entity) is displayed. #### Chunked Transfer Encoding You can upload data without knowing the size of the data to be uploaded. You can do this by specifying an HTTP header of Transfer-Encoding: chunked and without using a Content-Length header. You can use this feature while doing a DB dump, piping the output through gzip, and then piping the data directly into Object Storage without having to buffer the data to disk to compute the file size. - To create or update an object, run the following command: PUT //// HTTP/1.1 Host: X-Auth-Token: Transfer-Encoding: chunked X-Object-Meta-PIN: 2343 For example, PUT /v1/AUTH_test/pictures/cat HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 Transfer-Encoding: chunked X-Object-Meta-PIN: 2343 19 A bunch of data broken up D into chunks. 0 ### Copying Object You can copy object from one container to another or add a new object and then add reference to designate the source of the data from another container. **To copy object from one container to another** - To add a new object and designate the source of the data from another container, run the following command: COPY //// HTTP/1.1 Host: X-Auth-Token: < authentication-token-key> Destination: // For example, COPY /v1/AUTH_test/images/dogs HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 Destination: /photos/cats HTTP/1.1 201 Created Date: Wed, 13 Jul 2011 18:32:21 GMT Server: Apache Content-Length: 0 Content-Type: text/plain; charset=UTF-8 To copy an object using cURL (for the above example), run the following command: curl -v -X COPY -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' -H 'Destination: /photos/cats' -k https://example.storage.com:443/v1/AUTH_test/images/dogs The status code of 201 (Created) indicates that you have successfully copied the object. If there is a missing content-Length or Content-Type header in the request, the status code of 412 (Length Required) is displayed. You can also use PUT command to copy object by using additional header `X-Copy-From: container/obj`. - To use PUT command to copy an object, run the following command: PUT /v1/AUTH_test/photos/cats HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 X-Copy-From: /images/dogs HTTP/1.1 201 Created Date: Wed, 13 Jul 2011 18:32:21 GMT Server: Apache Content-Type: text/plain; charset=UTF-8 To copy an object using cURL (for the above example), run the following command: curl -v -X PUT -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' -H 'X-Copy-From: /images/dogs' –k https://example.storage.com:443/v1/AUTH_test/images/cats The status code of 201 (Created) indicates that you have successfully copied the object. ### Displaying Object Information You can issue GET command on an object to view the object data of the object. - To display the content of an object run the following command: GET //// HTTP/1.1 Host: X-Auth-Token: For example, GET /v1/AUTH_test/images/cat HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 HTTP/1.1 200 Ok Date: Wed, 13 Jul 2011 23:52:21 GMT Server: Apache Last-Modified: Thu, 14 Jul 2011 13:40:18 GMT ETag: 8a964ee2a5e88be344f36c22562a6486 Content-Length: 534210 [.........] To display the content of an object using cURL (for the above example), run the following command: curl -v -X GET -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' https://example.storage.com:443/v1/AUTH_test/images/cat -k The status code of 200 (Ok) indicates the object's data is displayed successfully. If that object does not exist, the status code 404 (Not Found) is displayed. ### Displaying Object Metadata You can issue HEAD command on an object to view the object metadata and other standard HTTP headers. You must send only authorization token as header. - To display the metadata of the object, run the following command: HEAD //// HTTP/1.1 Host: X-Auth-Token: For example, HEAD /v1/AUTH_test/images/cat HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 HTTP/1.1 204 No Content Date: Wed, 13 Jul 2011 21:52:21 GMT Server: Apache Last-Modified: Thu, 14 Jul 2011 13:40:18 GMT ETag: 8a964ee2a5e88be344f36c22562a6486 Content-Length: 512000 Content-Type: text/plain; charset=UTF-8 X-Object-Meta-House: Cat X-Object-Meta-Zoo: Cat X-Object-Meta-Home: Cat X-Object-Meta-Park: Cat To display the metadata of the object using cURL (for the above example), run the following command: curl -v -X HEAD -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' https://example.storage.com:443/v1/AUTH_test/images/cat -k The status code of 204 (No Content) indicates the object's metadata is displayed successfully. If that object does not exist, the status code 404 (Not Found) is displayed. ### Updating Object Metadata You can issue POST command on an object name only to set or overwrite arbitrary key metadata. You cannot change the object's other headers such as Content-Type, ETag and others using POST operation. The POST command will delete all the existing metadata and replace it with the new arbitrary key metadata. You must prefix **X-Object-Meta-** to the key names. - To update the metadata of an object, run the following command: POST //// HTTP/1.1 Host: X-Auth-Token: X-Object-Meta-: X-Object-Meta-: For example, POST /v1/AUTH_test/images/cat HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 X-Object-Meta-Zoo: Lion X-Object-Meta-Home: Dog HTTP/1.1 202 Accepted Date: Wed, 13 Jul 2011 22:52:21 GMT Server: Apache Content-Length: 0 Content-Type: text/plain; charset=UTF-8 To update the metadata of an object using cURL (for the above example), run the following command: curl -v -X POST -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' https://example.storage.com:443/v1/AUTH_test/images/cat -H ' X-Object- Meta-Zoo: Lion' -H 'X-Object-Meta-Home: Dog' -k The status code of 202 (Accepted) indicates that you have successfully updated the object's metadata. If that object does not exist, the status code 404 (Not Found) is displayed. ### Deleting Object You can use DELETE command to permanently delete the object. The DELETE command on an object will be processed immediately and any subsequent operations like GET, HEAD, POST, or DELETE on the object will display 404 (Not Found) error. - To delete an object, run the following command: DELETE //// HTTP/1.1 Host: X-Auth-Token: For example, DELETE /v1/AUTH_test/pictures/cat HTTP/1.1 Host: example.storage.com X-Auth-Token: AUTH_tkd3ad38b087b49bbbac0494f7600a554 HTTP/1.1 204 No Content Date: Wed, 13 Jul 2011 20:52:21 GMT Server: Apache Content-Type: text/plain; charset=UTF-8 To delete an object using cURL (for the above example), run the following command: curl -v -X DELETE -H 'X-Auth-Token: AUTH_tkde3ad38b087b49bbbac0494f7600a554' https://example.storage.com:443/v1/AUTH_test/pictures/cat -k The status code of 204 (No Content) indicates that you have successfully deleted the object. If that object does not exist, the status code 404 (Not Found) is displayed. []: http://download.gluster.com/pub/gluster/glusterfs/3.2/UFO/