class Sprockets::Cache::FileStore
ActiveSupport::Cache::FileStore
See Also
environment.cache = Sprockets::Cache::FileStore.new(“/tmp”)
Assign the instance to the Environment#cache.
Public: A file system cache store that automatically cleans up old keys.
def self.default_logger
Internal: Default standard error fatal logger.
def self.default_logger logger = Logger.new($stderr) logger.level = Logger::FATAL logger end
def compute_size(caches)
def compute_size(caches) caches.inject(0) { |sum, (_, stat)| sum + stat.size } end
def find_caches
Returns an Array of [String filename, File::Stat] pairs sorted by
Internal: Get all cache files along with stats.
def find_caches Dir.glob(File.join(@root, '**/*.cache')).reduce([]) { |stats, filename| stat = safe_stat(filename) # stat maybe nil if file was removed between the time we called # dir.glob and the next stat stats << [filename, stat] if stat stats }.sort_by { |_, stat| stat.mtime.to_i } end
def gc!
def gc! start_time = Time.now caches = find_caches size = compute_size(caches) delete_caches, keep_caches = caches.partition { |filename, stat| deleted = size > @gc_size size -= stat.size deleted } return if delete_caches.empty? FileUtils.remove(delete_caches.map(&:first), force: true) @size = compute_size(keep_caches) @logger.warn do secs = Time.now.to_f - start_time.to_f "#{self.class}[#{@root}] garbage collected " + "#{delete_caches.size} files (#{(secs * 1000).to_i}ms)" end end
def get(key)
key - String cache key.
This API should not be used directly, but via the Cache wrapper API.
Public: Retrieve value from cache.
def get(key) path = File.join(@root, "#{key}.cache") value = safe_open(path) do |f| begin EncodingUtils.unmarshaled_deflated(f.read, Zlib::MAX_WBITS) rescue Exception => e @logger.error do "#{self.class}[#{path}] could not be unmarshaled: " + "#{e.class}: #{e.message}" end nil end end if value FileUtils.touch(path) value end end
def initialize(root, max_size = DEFAULT_MAX_SIZE, logger = self.class.default_logger)
max_size - A Integer of the maximum number of keys the store will hold.
root - A String path to a directory to persist cached values to.
Public: Initialize the cache store.
def initialize(root, max_size = DEFAULT_MAX_SIZE, logger = self.class.default_logger) @root = root @max_size = max_size @gc_size = max_size * 0.75 @logger = logger end
def inspect
Public: Pretty inspect
def inspect "#<#{self.class} size=#{size}/#{@max_size}>" end
def safe_open(path, &block)
def safe_open(path, &block) if File.exist?(path) File.open(path, 'rb', &block) end rescue Errno::ENOENT end
def safe_stat(fn)
def safe_stat(fn) File.stat(fn) rescue Errno::ENOENT nil end
def set(key, value)
value - Object value.
key - String cache key.
This API should not be used directly, but via the Cache wrapper API.
Public: Set a key and value in the cache.
def set(key, value) path = File.join(@root, "#{key}.cache") # Ensure directory exists FileUtils.mkdir_p File.dirname(path) # Check if cache exists before writing exists = File.exist?(path) # Serialize value marshaled = Marshal.dump(value) # Compress if larger than 4KB if marshaled.bytesize > 4 * 1024 deflater = Zlib::Deflate.new( Zlib::BEST_COMPRESSION, Zlib::MAX_WBITS, Zlib::MAX_MEM_LEVEL, Zlib::DEFAULT_STRATEGY ) deflater << marshaled raw = deflater.finish else raw = marshaled end # Write data PathUtils.atomic_write(path) do |f| f.write(raw) @size = size + f.size unless exists end # GC if necessary gc! if size > @max_size value end
def size
def size @size ||= compute_size(find_caches) end