To use Cloud Storage effectively, you should understand some of the concepts on which it is built. This page provides an overview of key terms and concepts that apply to Cloud Storage.
For an introduction to using Cloud Storage, see What is Cloud Storage?.
All data in Cloud Storage belongs inside a project. A project consists of a set of users, a set of APIs, and billing, authentication, and monitoring settings for those APIs. You can have one project or multiple projects.
Buckets are the basic containers that hold your data. Everything that you store in Cloud Storage must be contained in a bucket. You can use buckets to organize your data and control access to your data, but unlike directories and folders, you cannot nest buckets. Because there are limits to bucket creation and deletion, you should design your storage applications to favor intensive object operations and relatively few buckets operations.
When you create a bucket, you specify a globally-unique name, a geographic location where the bucket and its contents are stored, and a default storage class. The default storage class you choose applies to objects added to the bucket that don't have a storage class specified explicitly.
After you create a bucket, you can still change its default storage class, to any class supported in the bucket's location; however, you can only change the bucket name and location by deleting and re-creating the bucket.
Bucket names have more restrictions than object names and must be globally unique, because every bucket resides in a single Cloud Storage namespace. For more information, see the bucket naming guidelines.
Bucket labels are key:value metadata pairs that allow you to group
your buckets along with other Google Cloud resources such as
virtual machine instances and persistent disks. For example, you can
use labels to create a
team key that has values
delta, and apply the
to different buckets in order to indicate which team is associated with those
You can apply multiple labels to each bucket, with a maximum of 64 labels per bucket.
- Keys and values cannot be longer than 63 characters each.
- Keys and values can only contain lowercase letters, numeric characters, underscores, and dashes. International characters are allowed.
- Label keys must start with a lowercase letter and international characters are allowed.
- Label keys cannot be empty.
- As is generally the case for bucket metadata, bucket labels are not associated with individual objects or object metadata.
For a general example of using labels to organize your resources in billing, see Billing Export to BigQuery Query Examples.
Objects are the individual pieces of data that you store in Cloud Storage. There is no limit on the number of objects that you can create in a bucket.
Objects have two components: object data and object metadata. Object data is typically a file that you want to store in Cloud Storage. Object metadata is a collection of name-value pairs that describe various object qualities.
An object's name is treated as a piece of object metadata in Cloud Storage. Object names can contain any combination of Unicode characters (UTF-8 encoded), must be less than 1024 bytes in length, and must be unique within a bucket.
Cloud Storage uses a flat namespace to store objects, which means that Cloud Storage sees all objects in a given bucket as independent with no hierarchical relationship. For convenience, tools such as Google Cloud Console and gsutil work with objects that use the slash (/) character as if they were stored in a virtual hierarchy.
For example, you could name one object
/europe/france/paris.jpg and another
/europe/france/cannes.jpg. When using the Cloud Console you
can then navigate to these objects as if they were in a hierarchical directory
structure under the folders
For more information, including how to rename an object, see the object naming guidelines.
Object versions and generation numbers
An object in Cloud Storage can have different versions: by default, when you replace an object, Cloud Storage deletes the old version and adds a new version. When you enable Object Versioning on your bucket, older versions remain in your bucket when a replacement or deletion occurs.
Each object version is uniquely identified by its generation number, found in the object's metadata. When Object Versioning has created an older version of an object, you can use the generation number to refer to the older version. This allows you to restore a replaced object in your bucket, or permanently delete older object versions that you no longer need. Generation numbers are also used when you include preconditions in your requests.
A resource is an entity within Google Cloud. Each project, bucket, and object in Google Cloud is a resource, as are things such as Compute Engine instances.
Each resource has a unique name that identifies it, much like a filename.
Buckets have a resource name in the form of
BUCKET_NAME is the ID of the bucket. Objects have a
resource name in the form of
OBJECT_NAME is the ID of the object.
#NUMBER appended to the end of the resource name
indicates a specific generation of the object.
#0 is a special identifier for
the most recent version of an object.
#0 is useful to add when the name of
the object ends in a string that would otherwise be interpreted as a generation
Network usage represents the data sent to or from Cloud Storage.
Egress represents data sent from Cloud Storage in HTTP responses. Data or metadata read from a Cloud Storage bucket is an example of egress.
For more information, see the Cloud Storage pricing page.
Ingress represents data sent to Cloud Storage in HTTP requests. Data or metadata written to a Cloud Storage bucket is an example of ingress.
For more information, see the Cloud Storage pricing page.
Data that is geo-redundant is stored redundantly in at least two separate geographic places separated by at least 100 miles. Objects stored in multi-regions and dual-regions are geo-redundant, regardless of their storage class.
Geo-redundancy occurs asynchronously, but all Cloud Storage data is redundant within at least one geographic place as soon as you upload it.
Geo-redundancy ensures maximum availability of your data, even in the event of large-scale disruptions, such as natural disasters. For dual-regions, geo-redundancy is achieved using two specific regions. For multi-regions, geo-redundancy is achieved using any combination of data centers within the specified multi-region, which may include data centers that are not explicitly listed as available regions.
An object's data component is completely opaque to Cloud Storage. It is just a chunk of data to Cloud Storage.
Objects are immutable, which means that an uploaded object cannot change throughout its storage lifetime. An object's storage lifetime is the time between successful object creation (upload) and successful object deletion. In practice, this means that you cannot make incremental changes to objects, such as append operations or truncate operations. However, it is possible to replace objects that are stored in Cloud Storage, and doing so happens atomically: until the new upload completes the old version of the object is served to readers, and after the upload completes the new version of the object is served to readers. So a single replacement operation simply marks the end of one immutable object's lifetime and the beginning of a new immutable object's lifetime.
There is no limit to how frequently you can create or update different objects
in a bucket. However, a single particular object can only be updated or
replaced up to once per second. For example, if you have an object
foo, then you should only upload a new copy of
once per second. Updating the same object more frequently than once per second
may result in
429 Too Many Requests errors.
You should retry failed requests using truncated exponential backoff.
Try it for yourself
If you're new to Google Cloud, create an account to evaluate how Cloud Storage performs in real-world scenarios. New customers also get $300 in free credits to run, test, and deploy workloads.Try Cloud Storage free