Page caching on Heroku isn't a great option, as described in the Caching Strategies for Rails article:
Rails’s built-in page-caching works by creating a file on the file
system. Heroku has an ephemeral file store, so while page caching may
appear to work, it won’t work as intended. You should instead use
action or fragment caching, or alternatively use Rack::Cache as a
reverse proxy to avoid requests to your apps at all.
Instead, it's best to use Rack::Cache with cache store that's shared between dynos. For example, you could use one of the Heroku memcache addons or AWS ElastiCache, among other options. Rack::Cache is easy to get running on Heroku; see Using Rack::Cache with Memcached in Rails 3.1+.
Instead of saying
caches_page to write the page to the filesystem, you'll specify the desired caching behavior in your HTTP headers, with methods such as
expires_in. Note that not only do these headers affect your cache, they also affect the browser cache.
"But wait", you ask, "how do I expire a page from Rack::Cache if it could also be held by the users browser?" Answer: you don't. Instead, design your caching to take advantage of conditional GETs. Revalidation is often easier than manually expiring pages anyway.
Rack::Cache is just a normal HTTP cache that you're layering between the user's browser cache and your web app. See Things Caches Do for a more thorough treatment of what that can mean. The good news is, once you get your caching right, it'll work server-side and client-side. Your app will play nice with caching proxies, and you could even drop in CloudFront or another CDN -- after all, your caching is completely described by standard HTTP headers.
Rack::Cache defaults to including the HTTP Host: header in the cache key, so subdomains are handled automatically. Once you're set up on Heroku, all you need to do is say
expires_in 30.minutes, :public => true.