$TESTING = defined?($TESTING) && $TESTING require 'socket' require 'thread' require 'timeout' require 'rubygems' class String ## # Uses the ITU-T polynomial in the CRC32 algorithm. def crc32_ITU_T n = length r = 0xFFFFFFFF n.times do |i| r ^= self[i] 8.times do if (r & 1) != 0 then r = (r>>1) ^ 0xEDB88320 else r >>= 1 end end end r ^ 0xFFFFFFFF end end ## # A Ruby client library for memcached. # # This is intended to provide access to basic memcached functionality. It # does not attempt to be complete implementation of the entire API, but it is # approaching a complete implementation. class MemCache ## # The version of MemCache you are using. VERSION = '1.5.0' ## # Default options for the cache object. DEFAULT_OPTIONS = { :namespace => nil, :readonly => false, :multithread => false, } ## # Default memcached port. DEFAULT_PORT = 11211 ## # Default memcached server weight. DEFAULT_WEIGHT = 1 ## # The amount of time to wait for a response from a memcached server. If a # response is not completed within this time, the connection to the server # will be closed and an error will be raised. attr_accessor :request_timeout ## # The namespace for this instance attr_reader :namespace ## # The multithread setting for this instance attr_reader :multithread ## # The servers this client talks to. Play at your own peril. attr_reader :servers ## # Accepts a list of +servers+ and a list of +opts+. +servers+ may be # omitted. See +servers=+ for acceptable server list arguments. # # Valid options for +opts+ are: # # [:namespace] Prepends this value to all keys added or retrieved. # [:readonly] Raises an exeception on cache writes when true. # [:multithread] Wraps cache access in a Mutex for thread safety. # # Other options are ignored. def initialize(*args) servers = [] opts = {} case args.length when 0 then # NOP when 1 then arg = args.shift case arg when Hash then opts = arg when Array then servers = arg when String then servers = [arg] else raise ArgumentError, 'first argument must be Array, Hash or String' end when 2 then servers, opts = args else raise ArgumentError, "wrong number of arguments (#{args.length} for 2)" end opts = DEFAULT_OPTIONS.merge opts @namespace = opts[:namespace] @readonly = opts[:readonly] @multithread = opts[:multithread] @mutex = Mutex.new if @multithread @buckets = [] self.servers = servers end ## # Returns a string representation of the cache object. def inspect "" % [@servers.length, @buckets.length, @namespace, @readonly] end ## # Returns whether there is at least one active server for the object. def active? not @servers.empty? end ## # Returns whether or not the cache object was created read only. def readonly? @readonly end ## # Set the servers that the requests will be distributed between. Entries # can be either strings of the form "hostname:port" or # "hostname:port:weight" or MemCache::Server objects. def servers=(servers) # Create the server objects. @servers = servers.collect do |server| case server when String host, port, weight = server.split ':', 3 port ||= DEFAULT_PORT weight ||= DEFAULT_WEIGHT Server.new self, host, port, weight when Server if server.memcache.multithread != @multithread then raise ArgumentError, "can't mix threaded and non-threaded servers" end server else raise TypeError, "cannot convert #{server.class} into MemCache::Server" end end # Create an array of server buckets for weight selection of servers. @buckets = [] @servers.each do |server| server.weight.times { @buckets.push(server) } end end ## # Deceremets the value for +key+ by +amount+ and returns the new value. # +key+ must already exist. If +key+ is not an integer, it is assumed to be # 0. +key+ can not be decremented below 0. def decr(key, amount = 1) server, cache_key = request_setup key if @multithread then threadsafe_cache_decr server, cache_key, amount else cache_decr server, cache_key, amount end rescue TypeError, SocketError, SystemCallError, IOError => err handle_error server, err end ## # Retrieves +key+ from memcache. If +raw+ is false, the value will be # unmarshalled. def get(key, raw = false) server, cache_key = request_setup key value = if @multithread then threadsafe_cache_get server, cache_key else cache_get server, cache_key end return nil if value.nil? value = Marshal.load value unless raw return value rescue TypeError, SocketError, SystemCallError, IOError => err handle_error server, err end ## # Retrieves multiple values from memcached in parallel, if possible. # # The memcached protocol supports the ability to retrieve multiple # keys in a single request. Pass in an array of keys to this method # and it will: # # 1. map the key to the appropriate memcached server # 2. send a single request to each server that has one or more key values # # Returns a hash of values. # # cache["a"] = 1 # cache["b"] = 2 # cache.get_multi "a", "b" # => { "a" => 1, "b" => 2 } def get_multi(*keys) raise MemCacheError, 'No active servers' unless active? keys.flatten! key_count = keys.length cache_keys = {} server_keys = Hash.new { |h,k| h[k] = [] } # map keys to servers keys.each do |key| server, cache_key = request_setup key cache_keys[cache_key] = key server_keys[server] << cache_key end results = {} server_keys.each do |server, keys| keys = keys.join ' ' values = if @multithread then threadsafe_cache_get_multi server, keys else cache_get_multi server, keys end values.each do |key, value| results[cache_keys[key]] = Marshal.load value end end return results rescue TypeError, SocketError, SystemCallError, IOError => err handle_error server, err end ## # Increments the value for +key+ by +amount+ and retruns the new value. # +key+ must already exist. If +key+ is not an integer, it is assumed to be # 0. def incr(key, amount = 1) server, cache_key = request_setup key if @multithread then threadsafe_cache_incr server, cache_key, amount else cache_incr server, cache_key, amount end rescue TypeError, SocketError, SystemCallError, IOError => err handle_error server, err end ## # Add +key+ to the cache with value +value+ that expires in +expiry+ # seconds. If +raw+ is true, +value+ will not be Marshalled. # # Warning: Readers should not call this method in the event of a cache miss; # see MemCache#add. def set(key, value, expiry = 0, raw = false) raise MemCacheError, "Update of readonly cache" if @readonly server, cache_key = request_setup key socket = server.socket value = Marshal.dump value unless raw command = "set #{cache_key} 0 #{expiry} #{value.size}\r\n#{value}\r\n" begin @mutex.lock if @multithread socket.write command result = socket.gets raise MemCacheError, $1.strip if result =~ /^SERVER_ERROR (.*)/ rescue SocketError, SystemCallError, IOError => err server.close raise MemCacheError, err.message ensure @mutex.unlock if @multithread end end ## # Add +key+ to the cache with value +value+ that expires in +expiry+ # seconds, but only if +key+ does not already exist in the cache. # If +raw+ is true, +value+ will not be Marshalled. # # Readers should call this method in the event of a cache miss, not # MemCache#set or MemCache#[]=. def add(key, value, expiry = 0, raw = false) raise MemCacheError, "Update of readonly cache" if @readonly server, cache_key = request_setup key socket = server.socket value = Marshal.dump value unless raw command = "add #{cache_key} 0 #{expiry} #{value.size}\r\n#{value}\r\n" begin @mutex.lock if @multithread socket.write command socket.gets rescue SocketError, SystemCallError, IOError => err server.close raise MemCacheError, err.message ensure @mutex.unlock if @multithread end end ## # Removes +key+ from the cache in +expiry+ seconds. def delete(key, expiry = 0) @mutex.lock if @multithread raise MemCacheError, "No active servers" unless active? cache_key = make_cache_key key server = get_server_for_key cache_key sock = server.socket raise MemCacheError, "No connection to server" if sock.nil? begin sock.write "delete #{cache_key} #{expiry}\r\n" sock.gets rescue SocketError, SystemCallError, IOError => err server.close raise MemCacheError, err.message end ensure @mutex.unlock if @multithread end ## # Flush the cache from all memcache servers. def flush_all raise MemCacheError, 'No active servers' unless active? raise MemCacheError, "Update of readonly cache" if @readonly begin @mutex.lock if @multithread @servers.each do |server| begin sock = server.socket raise MemCacheError, "No connection to server" if sock.nil? sock.write "flush_all\r\n" result = sock.gets raise MemCacheError, $2.strip if result =~ /^(SERVER_)?ERROR(.*)/ rescue SocketError, SystemCallError, IOError => err server.close raise MemCacheError, err.message end end ensure @mutex.unlock if @multithread end end ## # Reset the connection to all memcache servers. This should be called if # there is a problem with a cache lookup that might have left the connection # in a corrupted state. def reset @servers.each { |server| server.close } end ## # Returns statistics for each memcached server. An explanation of the # statistics can be found in the memcached docs: # # http://code.sixapart.com/svn/memcached/trunk/server/doc/protocol.txt # # Example: # # >> pp CACHE.stats # {"localhost:11211"=> # {"bytes"=>4718, # "pid"=>20188, # "connection_structures"=>4, # "time"=>1162278121, # "pointer_size"=>32, # "limit_maxbytes"=>67108864, # "cmd_get"=>14532, # "version"=>"1.2.0", # "bytes_written"=>432583, # "cmd_set"=>32, # "get_misses"=>0, # "total_connections"=>19, # "curr_connections"=>3, # "curr_items"=>4, # "uptime"=>1557, # "get_hits"=>14532, # "total_items"=>32, # "rusage_system"=>0.313952, # "rusage_user"=>0.119981, # "bytes_read"=>190619}} # => nil def stats raise MemCacheError, "No active servers" unless active? server_stats = {} @servers.each do |server| sock = server.socket raise MemCacheError, "No connection to server" if sock.nil? value = nil begin sock.write "stats\r\n" stats = {} while line = sock.gets do break if line == "END\r\n" if line =~ /^STAT ([\w]+) ([\w\.\:]+)/ then name, value = $1, $2 stats[name] = case name when 'version' value when 'rusage_user', 'rusage_system' then seconds, microseconds = value.split(/:/, 2) microseconds ||= 0 Float(seconds) + (Float(microseconds) / 1_000_000) else if value =~ /^\d+$/ then value.to_i else value end end end end server_stats["#{server.host}:#{server.port}"] = stats rescue SocketError, SystemCallError, IOError => err server.close raise MemCacheError, err.message end end server_stats end ## # Shortcut to get a value from the cache. alias [] get ## # Shortcut to save a value in the cache. This method does not set an # expiration on the entry. Use set to specify an explicit expiry. def []=(key, value) set key, value end protected unless $TESTING ## # Create a key for the cache, incorporating the namespace qualifier if # requested. def make_cache_key(key) if namespace.nil? then key else "#{@namespace}:#{key}" end end ## # Pick a server to handle the request based on a hash of the key. def get_server_for_key(key) raise ArgumentError, "illegal character in key #{key.inspect}" if key =~ /\s/ raise ArgumentError, "key too long #{key.inspect}" if key.length > 250 raise MemCacheError, "No servers available" if @servers.empty? return @servers.first if @servers.length == 1 hkey = hash_for key 20.times do |try| server = @buckets[hkey % @buckets.nitems] return server if server.alive? hkey += hash_for "#{try}#{key}" end raise MemCacheError, "No servers available" end ## # Returns an interoperable hash value for +key+. (I think, docs are # sketchy for down servers). def hash_for(key) (key.crc32_ITU_T >> 16) & 0x7fff end ## # Performs a raw decr for +cache_key+ from +server+. Returns nil if not # found. def cache_decr(server, cache_key, amount) socket = server.socket socket.write "decr #{cache_key} #{amount}\r\n" text = socket.gets return nil if text == "NOT_FOUND\r\n" return text.to_i end ## # Fetches the raw data for +cache_key+ from +server+. Returns nil on cache # miss. def cache_get(server, cache_key) socket = server.socket socket.write "get #{cache_key}\r\n" keyline = socket.gets # "VALUE \r\n" if keyline.nil? then server.close raise MemCacheError, "lost connection to #{server.host}:#{server.port}" end return nil if keyline == "END\r\n" unless keyline =~ /(\d+)\r/ then server.close raise MemCacheError, "unexpected response #{keyline.inspect}" end value = socket.read $1.to_i socket.read 2 # "\r\n" socket.gets # "END\r\n" return value end ## # Fetches +cache_keys+ from +server+ using a multi-get. def cache_get_multi(server, cache_keys) values = {} socket = server.socket socket.write "get #{cache_keys}\r\n" while keyline = socket.gets do return values if keyline == "END\r\n" unless keyline =~ /^VALUE (.+) (.+) (.+)/ then server.close raise MemCacheError, "unexpected response #{keyline.inspect}" end key, data_length = $1, $3 values[$1] = socket.read data_length.to_i socket.read(2) # "\r\n" end server.close raise MemCacheError, "lost connection to #{server.host}:#{server.port}" end ## # Performs a raw incr for +cache_key+ from +server+. Returns nil if not # found. def cache_incr(server, cache_key, amount) socket = server.socket socket.write "incr #{cache_key} #{amount}\r\n" text = socket.gets return nil if text == "NOT_FOUND\r\n" return text.to_i end ## # Handles +error+ from +server+. def handle_error(server, error) server.close if server new_error = MemCacheError.new error.message new_error.set_backtrace error.backtrace raise new_error end ## # Performs setup for making a request with +key+ from memcached. Returns # the server to fetch the key from and the complete key to use. def request_setup(key) raise MemCacheError, 'No active servers' unless active? cache_key = make_cache_key key server = get_server_for_key cache_key raise MemCacheError, 'No connection to server' if server.socket.nil? return server, cache_key end def threadsafe_cache_decr(server, cache_key, amount) # :nodoc: @mutex.lock cache_decr server, cache_key, amount ensure @mutex.unlock end def threadsafe_cache_get(server, cache_key) # :nodoc: @mutex.lock cache_get server, cache_key ensure @mutex.unlock end def threadsafe_cache_get_multi(socket, cache_keys) # :nodoc: @mutex.lock cache_get_multi socket, cache_keys ensure @mutex.unlock end def threadsafe_cache_incr(server, cache_key, amount) # :nodoc: @mutex.lock cache_incr server, cache_key, amount ensure @mutex.unlock end ## # This class represents a memcached server instance. class Server ## # The amount of time to wait to establish a connection with a memcached # server. If a connection cannot be established within this time limit, # the server will be marked as down. CONNECT_TIMEOUT = 0.25 ## # The amount of time to wait before attempting to re-establish a # connection with a server that is marked dead. RETRY_DELAY = 30.0 ## # The host the memcached server is running on. attr_reader :host ## # The port the memcached server is listening on. attr_reader :port ## # The weight given to the server. attr_reader :weight ## # The time of next retry if the connection is dead. attr_reader :retry ## # A text status string describing the state of the server. attr_reader :status ## # Create a new MemCache::Server object for the memcached instance # listening on the given host and port, weighted by the given weight. def initialize(memcache, host, port = DEFAULT_PORT, weight = DEFAULT_WEIGHT) raise ArgumentError, "No host specified" if host.nil? or host.empty? raise ArgumentError, "No port specified" if port.nil? or port.to_i.zero? @memcache = memcache @host = host @port = port.to_i @weight = weight.to_i @multithread = @memcache.multithread @mutex = Mutex.new @sock = nil @retry = nil @status = 'NOT CONNECTED' end ## # Return a string representation of the server object. def inspect "" % [@host, @port, @weight, @status] end ## # Check whether the server connection is alive. This will cause the # socket to attempt to connect if it isn't already connected and or if # the server was previously marked as down and the retry time has # been exceeded. def alive? !!socket end ## # Try to connect to the memcached server targeted by this object. # Returns the connected socket object on success or nil on failure. def socket @mutex.lock if @multithread return @sock if @sock and not @sock.closed? @sock = nil # If the host was dead, don't retry for a while. return if @retry and @retry > Time.now # Attempt to connect if not already connected. begin @sock = timeout CONNECT_TIMEOUT do TCPSocket.new @host, @port end if Socket.constants.include? 'TCP_NODELAY' then @sock.setsockopt Socket::IPPROTO_TCP, Socket::TCP_NODELAY, 1 end @retry = nil @status = 'CONNECTED' rescue SocketError, SystemCallError, IOError, Timeout::Error => err mark_dead err.message end return @sock ensure @mutex.unlock if @multithread end ## # Close the connection to the memcached server targeted by this # object. The server is not considered dead. def close @mutex.lock if @multithread @sock.close if @sock && !@sock.closed? @sock = nil @retry = nil @status = "NOT CONNECTED" ensure @mutex.unlock if @multithread end private ## # Mark the server as dead and close its socket. def mark_dead(reason = "Unknown error") @sock.close if @sock && !@sock.closed? @sock = nil @retry = Time.now + RETRY_DELAY @status = sprintf "DEAD: %s, will retry at %s", reason, @retry end end ## # Base MemCache exception class. class MemCacheError < RuntimeError; end end