Cloud CDN (Content Delivery Network) uses Google's global edge network to serve content closer to users, which accelerates your websites and applications.
Cloud CDN works with external HTTP(S) Load Balancing to deliver content to your users. The external HTTP(S) load balancer provides the frontend IP addresses and ports that receive requests and the backends that respond to the requests.
Cloud CDN content can be sourced from various types of backends:
- Instance groups
- Zonal network endpoint groups (NEGs)
- Serverless NEGs: One or more App Engine, Cloud Run, or Cloud Functions services
- Internet NEGs, for endpoints that are outside of Google Cloud (also known as custom origins)
- Buckets in Cloud Storage
In Cloud CDN, these backends are also called origin servers. The following figure illustrates how responses from origin servers running on VM instances flow through an HTTP(S) load balancer before being delivered by Cloud CDN.
How Cloud CDN works
When a user requests content from an external HTTP(S) load balancer, the request arrives at a Google Front End (GFE), which is at the edge of Google's network as close as possible to the user.
If the load balancer's URL map routes traffic to a backend service or backend bucket that has Cloud CDN configured, the GFE uses Cloud CDN.
Cache hits and cache misses
A cache is a group of servers that stores and manages content so that future requests for that content can be served faster. The cached content is a copy of cacheable content that is stored on origin servers.
If the GFE looks in the Cloud CDN cache and finds a cached response to the user's request, the GFE sends the cached response to the user. This is called a cache hit. When a cache hit occurs, the GFE looks up the content by its cache key and responds directly to the user, shortening the round-trip time and saving the origin server from having to process the request.
The first time that a piece of content is requested, the GFE determines that it can't fulfill the request from the cache. This is called a cache miss. When a cache miss occurs, the GFE might attempt to get the content from a nearby cache. If the nearby cache has the content, the GFE sends the content to the first cache by using cache-to-cache fill. Otherwise, the GFE forwards the request to the external HTTP(S) load balancer.
The load balancer then forwards the request to one of your origin servers. When the cache receives the content, the GFE forwards the content to the user.
The following figure shows a cache hit and a cache miss:
- Origin servers running on VM instances send HTTP(S) responses.
- The external HTTP(S) load balancer distributes the responses to Cloud CDN.
- Cloud CDN delivers the responses to end users.
Cache egress and cache fill
If the origin server's response to this request is cacheable, Cloud CDN stores the response in the Cloud CDN cache for future requests.
Data transfer from a cache to a client is called cache egress. Data transfer to a cache is called cache fill. As illustrated in the following figure, cache fill can originate from another Cloud CDN cache or from the origin server.
On cache hits, you incur costs for cache egress bandwidth. On cache misses—including misses that resulted in cache-to-cache fill—you also incur costs for cache fill bandwidth. That means that cache hits cost less than cache misses. For detailed pricing information, see Pricing.
No URL redirection
Cloud CDN doesn't perform any URL redirection. The Cloud CDN cache is located at the GFE. This means the following:
- Whether or not Cloud CDN is enabled, the URL that a client requests remains the same URL.
- Whether or not there's a cache hit, the URL remains the same URL.
Cache hit ratio
The cache hit ratio is the percentage of times that a requested object is served from the cache. If the cache hit ratio is 60%, it means that the requested object is served from the cache 60% of the time and must be retrieved from the origin 40% of the time.
In the Google Cloud Console, the cache hit ratio is reported for each origin in the Cache hit ratio column.
The percentage shown on this page represents a ratio calculated for a small time period (the last few minutes). To view the cache hit ratio for a time period from 1 hour to 30 days, click the origin name and then click the Monitoring tab.
Inserting content into the cache
Caching is reactive in that an object is stored in a particular cache if a request goes through that cache and if the response is cacheable. An object stored in one cache does not automatically replicate into other caches; cache fill happens only in response to a client-initiated request. You cannot preload caches except by causing the individual caches to respond to requests.
When the origin server supports byte range requests, Cloud CDN can initiate multiple cache fill requests in reaction to a single client request.
Serving content from a cache
After you enable Cloud CDN, caching happens automatically for all cacheable content. Your origin server uses HTTP headers to indicate which responses are cached. You can also control cacheability by using cache modes.
When you use a backend bucket, the origin server is Cloud Storage. When you use VM instances, the origin server is the web server software that you run on those instances.
Cloud CDN uses caches in numerous locations around the world. Because of the nature of caches, it is impossible to predict whether a particular request is served out of a cache. You can, however, expect that popular requests for cacheable content are served from a cache most of the time, yielding significantly reduced latencies, reduced cost, and reduced load on your origin servers.
For more information about what Cloud CDN caches and for how long, see the Caching overview.
To see what Cloud CDN is serving from a cache, you can view logs.
Removing content from the cache
To remove an item from a cache, you can invalidate cached content. For more information, see:
To bypass Cloud CDN, you can request an object directly from a Cloud Storage bucket or a Compute Engine VM. For example, a URL for a Cloud Storage bucket object looks like this:
Eviction and expiration
For content to be served from a cache, it must have been inserted into the cache, it must not be evicted, and it must not be expired.
Eviction and expiration are two different concepts. They both affect what gets served, but they don't directly affect each other.
Every cache has a limit on how much it can hold. However, Cloud CDN adds content to caches even after they're full. To insert content into a full cache, the cache first removes something else to make room. This is called eviction. Caches are usually full, so they are constantly evicting content. They generally evict content that hasn't recently been accessed, regardless of the content's expiration time. The evicted content might be expired, and it might not be. Setting an expiration time doesn't affect eviction.
Unpopular content means content that hasn't been accessed in a while. A while and unpopular are both relative to the bulk of other items in the cache. As caches receive more traffic, they also evict more cached content.
As with all large-scale caches, content can be evicted unpredictably, so no particular request is guaranteed to be served from the cache.
Content in HTTP(S) caches can have a configurable expiration time. The expiration time informs the cache not to serve old content, even if the content hasn't been evicted.
For example, consider a picture-of-the-hour URL. Its responses should be set to expire in under one hour. Otherwise, the served content might be an old picture from a cache.
For information about fine tuning expiration times, see Using TTL settings and overrides.
Requests initiated by Cloud CDN
When your origin server supports byte range requests, Cloud CDN can send multiple requests to the origin server in reaction to a single client request. As described in Support for byte range requests, Cloud CDN can initiate two types of requests: validation requests and byte range requests.
Data location settings of other Cloud Platform Services
Using Cloud CDN means that data may be stored at serving locations outside of the region or zone of your origin server. This is normal and how HTTP caching works on the internet. Under the Service Specific Terms of the Google Cloud Platform Terms of Service, the Data Location Setting that is available for certain Cloud Platform Services does not apply to Core Customer Data for the respective Cloud Platform Service when used with other Google products and services (in this case the Cloud CDN service). If you do not want this outcome, do not use the Cloud CDN service.
Support for Google-managed SSL certificates
You can use Google-managed certificates when Cloud CDN is enabled.
Google Cloud Armor with Cloud CDN
If you are using Google Cloud Armor with Cloud CDN, security policies are enforced only for requests for dynamic content, cache misses, or other requests that are destined for your origin server. Cache hits are served even if the downstream Google Cloud Armor security policy would prevent that request from reaching the origin server.
- To enable Cloud CDN for your HTTP(S) load balanced instances and storage buckets, see Using Cloud CDN.
- To use Cloud CDN with Google Kubernetes Engine, see Configure Cloud CDN through Ingress.
- To find GFE points of presence, see Cache locations.