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A Guide to Caching with NGINX and NGINX Plus
Время создания: 13.07.2018 15:31
Текстовые метки: nginx cache
Раздел: Nginx
Запись: Velonski/mytetra-database/master/base/1512458050s341o8ucrw/text.html на raw.githubusercontent.com
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We all know that the performance of applications and web sites is a critical factor in their success. The process of making your application or web site perform better, however, is not always clear. Code quality and infrastructure are of course critical, but in many cases you can make vast improvements to the end user experience of your application by focusing on some very basic application delivery techniques. One such example is by implementing and optimizing caching in your application stack. This blog post covers techniques that can help both novice and advanced users see better performance from utilizing the content cache features included in NGINX. Overview A content cache sits in between a client and an “origin server”, and saves copies of all the content it sees. If a client requests content that the cache has stored, it returns the content directly without contacting the origin server. This improves performance as the content cache is closer to the client, and more efficiently uses the application servers because they don’t have to do the work of generating pages from scratch each time. There are potentially multiple caches between the web browser and the application server: the client’s browser cache, intermediary caches, content delivery networks (CDNs), and the load balancer or reverse proxy sitting in front of the application servers. Caching, even at the reverse proxy/load balancer level, can greatly improve performance. As an example, last year I took on the task of performance tuning a website that was loading slowly. One of the first things I noticed was that it took over 1 second to generate the main home page. After some debugging, I discovered that because the page was marked as not cacheable, it was being dynamically generated in response to each request. The page itself was not changing very often and was not personalized, so this was not necessary. As an experiment, I marked the homepage to be cached for 5 seconds by the load balancer, and just doing that resulted in noticeable improvement. The time to first byte went down to a few milliseconds and the page loaded visibly faster. NGINX is commonly deployed as a reverse proxy or load balancer in an application stack and has a full set of caching features. The next section discusses how to configure basic caching with NGINX. How to Set Up and Configure Basic Caching Only two directives are needed to enable basic caching: proxy_cache_path and proxy_cache . The proxy_cache_path directive sets the path and configuration of the cache, and the proxy_cache directive activates it. proxy_cache_path /path/to/cache levels=1:2 keys_zone=my_cache:10m max_size=10g inactive=60m use_temp_path=off;
server {
# ...
location / {
proxy_cache my_cache; proxy_pass http://my_upstream;
}
}
The parameters to the proxy_cache_path directive define the following settings:
And finally, the proxy_cache directive activates caching of all content that matches the URL of the parent location block (in the example, /). You can also include the proxy_cache directive in a server block; it applies to all location blocks for the server that don’t have their own proxy_cache directive. Delivering Cached Content When the Origin is Down A powerful feature of NGINX content caching is that NGINX can be configured to deliver stale content from its cache when it can’t get fresh content from the origin servers. This can happen if all the origin servers for a cached resource are down or temporarily busy. Rather than relay the error to the client, NGINX delivers the stale version of the file from its cache. This provides an extra level of fault tolerance for the servers that NGINX is proxying, and ensures uptime in the case of server failures or traffic spikes. To enable this functionality, include the proxy_cache_use_stale directive: location / {
# ...
proxy_cache_use_stale error timeout http_500 http_502 http_503 http_504; }
With this sample configuration, if NGINX receives an error, timeout, or any of the specified 5xx errors from the origin server and it has a stale version of the requested file in its cache, it delivers the stale file instead of relaying the error to the client. Fine‑Tuning the Cache and Improving Performance NGINX has a wealth of optional settings for fine‑tuning the performance of the cache. Here is an example that activates a few of them: proxy_cache_path /path/to/cache levels=1:2 keys_zone=my_cache:10m max_size=10g
inactive=60m use_temp_path=off;
server {
# ...
location / {
proxy_cache my_cache;
proxy_cache_revalidate on; proxy_cache_min_uses 3; proxy_cache_use_stale error timeout updating http_500 http_502 http_503 http_504;
proxy_cache_background_update on; proxy_cache_lock on; proxy_pass http://my_upstream;
}
}
These directives configure the following behavior:
Splitting the Cache Across Multiple Hard Drives With NGINX, there’s no need to build a RAID. If there are multiple hard drives, NGINX can be used to split the cache across them. Here is an example that splits clients evenly across two hard drives based on the request URI: proxy_cache_path /path/to/hdd1 levels=1:2 keys_zone=my_cache_hdd1:10m
max_size=10g inactive=60m use_temp_path=off;
proxy_cache_path /path/to/hdd2 levels=1:2 keys_zone=my_cache_hdd2:10m
max_size=10g inactive=60m use_temp_path=off;
split_clients $request_uri $my_cache {
50% “my_cache_hdd1”;
50% “my_cache_hdd2”;
}
server {
# ...
location / {
proxy_cache $my_cache;
proxy_pass http://my_upstream;
}
}
The two proxy_cache_path directives define two caches (my_cache_hdd1 and my_cache_hdd2) on two different hard drives. The split_clients configuration block specifies that the results from half the requests (50%) are cached in my_cache_hdd1 and the other half in my_cache_hdd2. The hash based on the $request_uri variable (the request URI) determines which cache is used for each request, the result being that requests for a given URI are always cached in the same cache. Frequently Asked Questions (FAQ) This section answers some frequently asked questions about NGINX content caching. Can the NGINX Cache Be Instrumented? Yes, with the add_header directive: add_header X-Cache-Status $upstream_cache_status; This example adds an X-Cache-Status HTTP header in responses to clients. The following are the possible values for $upstream_cache_status :
How Does NGINX Determine Whether or Not to Cache Something? By default, NGINX respects the Cache-Control headers from origin servers. It does not cache responses with Cache-Control set to Private, No-Cache, or No-Store or with Set-Cookie in the response header. NGINX only caches GET and HEAD client requests. You can override these defaults as described in the answers below. NGINX does not cache responses if proxy_buffering is set to off. It is on by default. Can Cache-Control Headers Be Ignored? Yes, with the proxy_ignore_headers directive. For example, with this configuration: location /images/ {
proxy_cache my_cache;
proxy_ignore_headers Cache-Control; proxy_cache_valid any 30m; # ...
}
NGINX ignores the Cache-Control header for everything under /images/. The proxy_cache_valid directive enforces an expiration for the cached data and is required if ignoring Cache-Control headers. NGINX does not cache files that have no expiration. Can NGINX Cache Content with a Set-Cookie in the Header? Yes, with the proxy_ignore_headers directive, as discussed in the previous answer. Can NGINX Cache POST Requests? Yes, with the proxy_cache_methods directive: proxy_cache_methods GET HEAD POST; This example enables caching of POST requests. Can NGINX Cache Dynamic Content? Yes, provided the Cache-Control header allows for it. Caching dynamic content for even a short period of time can reduce load on origin servers and databases, which improves time to first byte, as the page does not have to be regenerated for each request. Can I Punch a Hole Through My Cache? Yes, with the proxy_cache_bypass directive: location / {
proxy_cache_bypass $cookie_nocache $arg_nocache; # ...
}
The directive defines request types for which NGINX requests content from the origin server immediately instead of trying to find it in the cache first. This is sometimes referred to as “punching a hole” through the cache. In this example, NGINX does it for requests with a nocache cookie or argument, for example http://www.example.com/?nocache=true. NGINX can still cache the resulting response for future requests that aren’t bypassed. What Cache Key Does NGINX Use? The default form of the keys that NGINX generates is similar to an MD5 hash of the following NGINX variables : $scheme$proxy_host$request_uri; the actual algorithm used is slightly more complicated. proxy_cache_path /path/to/cache levels=1:2 keys_zone=my_cache:10m max_size=10g
inactive=60m use_temp_path=off;
server {
# ...
location / {
proxy_cache my_cache;
proxy_pass http://my_upstream;
}
}
For this sample configuration, the cache key for http://www.example.org/my_image.jpg is calculated as md5(“http://my_upstream:80/my_image.jpg”). Note that $proxy_host variable is used in the hashed value instead of the actual host name (www.example.com). $proxy_host is defined as the name and port of the proxied server as specified in the proxy_pass directive. To change the variables (or other terms) used as the basis for the key, use the proxy_cache_key directive (see also the following question). Can I Use a Cookie as Part of My Cache Key? Yes, the cache key can be configured to be any arbitrary value, for example: proxy_cache_key $proxy_host$request_uri$cookie_jessionid; This example incorporates the value of the JSESSIONID cookie into the cache key. Items with the same URI but different JSESSIONID values are cached separately as unique items. Does NGINX Use the ETag Header? In NGINX 1.7.3 and NGINX Plus R5 and later, the ETag header is fully supported along with If-None-Match. How Does NGINX Handle Byte Range Requests? If the file is up‑to‑date in the cache, then NGINX honors a byte range request and serves only the specified bytes of the item to the client. If the file is not cached, or if it’s stale, NGINX downloads the entire file from the origin server. If the request is for a single byte range, NGINX sends that range to the client as soon as it is encountered in the download stream. If the request specifies multiple byte ranges within the same file, NGINX delivers the entire file to the client when the download completes. Once the download completes, NGINX moves the entire resource into the cache so that all future byte‑range requests, whether for a single range or multiple ranges, are satisfied immediately from the cache. Please note that the upstream server must support byte range requests for NGINX to honor byte range requests to that upstream server. Does NGINX Support Cache Purging? NGINX Plus supports selective purging of cached files. This is useful if a file has been updated on the origin server but is still valid in the NGINX Plus cache (the Cache-Control:max-age is still valid and the timeout set by the inactive parameter to the proxy_cache_path directive has not expired). With the cache‑purge feature of NGINX Plus, this file can easily be deleted. For more details, see Purging Content from the Cache . How Does NGINX Handle the Pragma Header? The Pragma:no-cache header is added by clients to bypass all intermediary caches and go straight to the origin server for the requested content. NGINX does not honor the Pragma header by default, but you can configure the feature with the following proxy_cache_bypass directive: location /images/ {
proxy_cache my_cache;
proxy_cache_bypass $http_pragma; # ...
}
Does NGINX Support the stale-while-revalidate and stale-if-error extensions to the Cache-Control header? Yes, in NGINX Plus R12 and NGINX 1.11.10 and later. What these extensions do:
The stale-if-error extension of the Cache-Control HTTP header permits using a stale cached response in case of an error. These headers have lower priority than the proxy_cache_use_stale directive described above . Does NGINX Support the Vary header? Yes, in NGINX Plus R5 and NGINX 1.7.7 and later. Here is a good overview of the Vary header . Further Reading There are many more ways you can customize and tune NGINX caching. To learn even more about caching with NGINX, please take a look at the following resources:
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