#-- vim:sw=2:et #++ # # :title: Berkeley DB interface begin require 'bdb' rescue LoadError fatal "rbot couldn't load the bdb module, perhaps you need to install it? try http://www.ruby-lang.org/en/raa-list.rhtml?name=bdb or http://github.com/knu/ruby-bdb" rescue Exception => e fatal "rbot couldn't load the bdb module: #{e.pretty_inspect}" end if not defined? BDB exit 2 end module Irc DBFatal = BDB::Fatal end if BDB::VERSION_MAJOR < 4 fatal "Your bdb (Berkeley DB) version #{BDB::VERSION} is too old!" fatal "rbot will only run with bdb version 4 or higher, please upgrade." fatal "For maximum reliability, upgrade to version 4.2 or higher." raise BDB::Fatal, BDB::VERSION + " is too old" end if BDB::VERSION_MAJOR == 4 and BDB::VERSION_MINOR < 2 warning "Your bdb (Berkeley DB) version #{BDB::VERSION} may not be reliable." warning "If possible, try upgrade version 4.2 or later." end # make BTree lookups case insensitive module BDB class CIBtree < Btree def bdb_bt_compare(a, b) if a == nil || b == nil warning "CIBTree: comparing key #{a.inspect} with #{b.inspect}" end (a||'').downcase <=> (b||'').downcase end end end module Irc # DBHash is for tying a hash to disk (using bdb). # Call it with an identifier, for example "mydata". It'll look for # mydata.db, if it exists, it will load and reference that db. # Otherwise it'll create and empty db called mydata.db class DBHash # absfilename:: use +key+ as an actual filename, don't prepend the bot's # config path and don't append ".db" def initialize(bot, key, absfilename=false) @bot = bot @key = key relfilename = @bot.path key relfilename << '.db' if absfilename && File.exist?(key) # db already exists, use it @db = DBHash.open_db(key) elsif absfilename # create empty db @db = DBHash.create_db(key) elsif File.exist? relfilename # db already exists, use it @db = DBHash.open_db relfilename else # create empty db @db = DBHash.create_db relfilename end end def method_missing(method, *args, &block) return @db.send(method, *args, &block) end def DBHash.create_db(name) debug "DBHash: creating empty db #{name}" return BDB::Hash.open(name, nil, BDB::CREATE | BDB::EXCL, 0600) end def DBHash.open_db(name) debug "DBHash: opening existing db #{name}" return BDB::Hash.open(name, nil, "r+", 0600) end end # DBTree is a BTree equivalent of DBHash, with case insensitive lookups. class DBTree @@env=nil # TODO: make this customizable # Note that it must be at least four times lg_bsize @@lg_max = 8*1024*1024 # absfilename:: use +key+ as an actual filename, don't prepend the bot's # config path and don't append ".db" def initialize(bot, key, absfilename=false) @bot = bot @key = key if @@env.nil? begin @@env = BDB::Env.open(@bot.botclass, BDB::INIT_TRANSACTION | BDB::CREATE | BDB::RECOVER, "set_lg_max" => @@lg_max) debug "DBTree: environment opened with max log size #{@@env.conf['lg_max']}" rescue => e debug "DBTree: failed to open environment: #{e.pretty_inspect}. Retrying ..." @@env = BDB::Env.open(@bot.botclass, BDB::INIT_TRANSACTION | BDB::CREATE | BDB::RECOVER) end #@@env = BDB::Env.open(@bot.botclass, BDB::CREATE | BDB::INIT_MPOOL | BDB::RECOVER) end relfilename = @bot.path key relfilename << '.db' if absfilename && File.exist?(key) # db already exists, use it @db = DBTree.open_db(key) elsif absfilename # create empty db @db = DBTree.create_db(key) elsif File.exist? relfilename # db already exists, use it @db = DBTree.open_db relfilename else # create empty db @db = DBTree.create_db relfilename end end def method_missing(method, *args, &block) return @db.send(method, *args, &block) end def DBTree.create_db(name) debug "DBTree: creating empty db #{name}" return @@env.open_db(BDB::CIBtree, name, nil, BDB::CREATE | BDB::EXCL, 0600) end def DBTree.open_db(name) debug "DBTree: opening existing db #{name}" return @@env.open_db(BDB::CIBtree, name, nil, "r+", 0600) end def DBTree.cleanup_logs() if @@env.nil? debug "No BDB environment, skipping checkpoint" return end begin debug "DBTree: checkpointing ..." @@env.checkpoint rescue Exception => e debug "Failed: #{e.pretty_inspect}" end begin debug "DBTree: flushing log ..." @@env.log_flush logs = @@env.log_archive(BDB::ARCH_ABS) debug "DBTree: deleting archivable logs: #{logs.join(', ')}." logs.each { |log| File.delete(log) } rescue Exception => e debug "Failed: #{e.pretty_inspect}" end end def DBTree.stats() if @@env.nil? debug "No BDB environment, no stats" return end begin debug "General stats:" debug @@env.stat debug "Lock stats:" debug @@env.lock_stat debug "Log stats:" debug @@env.log_stat debug "Txn stats:" debug @@env.txn_stat rescue debug "Couldn't dump stats" end end def DBTree.cleanup_env() if @@env.nil? debug "No BDB environment, skipping cleanup" return end begin debug "DBTree: checking transactions ..." has_active_txn = @@env.txn_stat["st_nactive"] > 0 if has_active_txn warning "DBTree: not all transactions completed!" end DBTree.cleanup_logs debug "DBTree: closing environment #{@@env}" path = @@env.home @@env.close @@env = nil if has_active_txn debug "DBTree: keeping file because of incomplete transactions" else debug "DBTree: cleaning up environment in #{path}" BDB::Env.remove("#{path}") end rescue Exception => e error "failed to clean up environment: #{e.pretty_inspect}" end end end end module Irc class Bot # This class is now used purely for upgrading from prior versions of rbot # the new registry is split into multiple DBHash objects, one per plugin class Registry def initialize(bot) @bot = bot upgrade_data upgrade_data2 end # check for older versions of rbot with data formats that require updating # NB this function is called _early_ in init(), pretty much all you have to # work with is @bot.botclass. def upgrade_data oldreg = @bot.path 'registry.db' newreg = @bot.path 'plugin_registry.db' if File.exist?(oldreg) log _("upgrading old-style (rbot 0.9.5 or earlier) plugin registry to new format") old = BDB::Hash.open(oldreg, nil, "r+", 0600) new = BDB::CIBtree.open(newreg, nil, BDB::CREATE | BDB::EXCL, 0600) old.each {|k,v| new[k] = v } old.close new.close File.rename(oldreg, oldreg + ".old") end end def upgrade_data2 oldreg = @bot.path 'plugin_registry.db' newdir = @bot.path 'registry' if File.exist?(oldreg) Dir.mkdir(newdir) unless File.exist?(newdir) env = BDB::Env.open(@bot.botclass, BDB::INIT_TRANSACTION | BDB::CREATE | BDB::RECOVER)# | BDB::TXN_NOSYNC) dbs = Hash.new log _("upgrading previous (rbot 0.9.9 or earlier) plugin registry to new split format") old = BDB::CIBtree.open(oldreg, nil, "r+", 0600, "env" => env) old.each {|k,v| prefix,key = k.split("/", 2) prefix.downcase! # subregistries were split with a +, now they are in separate folders if prefix.gsub!(/\+/, "/") # Ok, this code needs to be put in the db opening routines dirs = File.dirname("#{@bot.botclass}/registry/#{prefix}.db").split("/") dirs.length.times { |i| dir = dirs[0,i+1].join("/")+"/" unless File.exist?(dir) log _("creating subregistry directory #{dir}") Dir.mkdir(dir) end } end unless dbs.has_key?(prefix) log _("creating db #{@bot.botclass}/registry/#{prefix}.db") dbs[prefix] = BDB::CIBtree.open("#{@bot.botclass}/registry/#{prefix}.db", nil, BDB::CREATE | BDB::EXCL, 0600, "env" => env) end dbs[prefix][key] = v } old.close File.rename(oldreg, oldreg + ".old") dbs.each {|k,v| log _("closing db #{k}") v.close } env.close end end # This class provides persistent storage for plugins via a hash interface. # The default mode is an object store, so you can store ruby objects and # reference them with hash keys. This is because the default store/restore # methods of the plugins' RegistryAccessor are calls to Marshal.dump and # Marshal.restore, # for example: # blah = Hash.new # blah[:foo] = "fum" # @registry[:blah] = blah # then, even after the bot is shut down and disconnected, on the next run you # can access the blah object as it was, with: # blah = @registry[:blah] # The registry can of course be used to store simple strings, fixnums, etc as # well, and should be useful to store or cache plugin data or dynamic plugin # configuration. # # WARNING: # in object store mode, don't make the mistake of treating it like a live # object, e.g. (using the example above) # @registry[:blah][:foo] = "flump" # will NOT modify the object in the registry - remember that Registry#[] # returns a Marshal.restore'd object, the object you just modified in place # will disappear. You would need to: # blah = @registry[:blah] # blah[:foo] = "flump" # @registry[:blah] = blah # # If you don't need to store objects, and strictly want a persistant hash of # strings, you can override the store/restore methods to suit your needs, for # example (in your plugin): # def initialize # class << @registry # def store(val) # val # end # def restore(val) # val # end # end # end # Your plugins section of the registry is private, it has its own namespace # (derived from the plugin's class name, so change it and lose your data). # Calls to registry.each etc, will only iterate over your namespace. class Accessor attr_accessor :recovery # plugins don't call this - a Registry::Accessor is created for them and # is accessible via @registry. def initialize(bot, name) @bot = bot @name = name.downcase @filename = @bot.path 'registry', @name dirs = File.dirname(@filename).split("/") dirs.length.times { |i| dir = dirs[0,i+1].join("/")+"/" unless File.exist?(dir) debug "creating subregistry directory #{dir}" Dir.mkdir(dir) end } @filename << ".db" @registry = nil @default = nil @recovery = nil # debug "initializing registry accessor with name #{@name}" end def registry @registry ||= DBTree.new @bot, "registry/#{@name}" end def flush # debug "fushing registry #{registry}" return if !@registry registry.flush registry.sync end def close # debug "closing registry #{registry}" return if !@registry registry.close @registry = nil end # convert value to string form for storing in the registry # defaults to Marshal.dump(val) but you can override this in your module's # registry object to use any method you like. # For example, if you always just handle strings use: # def store(val) # val # end def store(val) Marshal.dump(val) end # restores object from string form, restore(store(val)) must return val. # If you override store, you should override restore to reverse the # action. # For example, if you always just handle strings use: # def restore(val) # val # end def restore(val) begin Marshal.restore(val) rescue Exception => e error _("failed to restore marshal data for #{val.inspect}, attempting recovery or fallback to default") debug e if defined? @recovery and @recovery begin return @recovery.call(val) rescue Exception => ee error _("marshal recovery failed, trying default") debug ee end end return default end end # lookup a key in the registry def [](key) if File.exist?(@filename) && registry.has_key?(key) return restore(registry[key]) else return default end end # set a key in the registry def []=(key,value) registry[key] = store(value) end # set the default value for registry lookups, if the key sought is not # found, the default will be returned. The default default (har) is nil. def set_default (default) @default = default end def default @default && (@default.dup rescue @default) end # just like Hash#each def each(set=nil, bulk=0, &block) return nil unless File.exist?(@filename) registry.each(set, bulk) {|key,value| block.call(key, restore(value)) } end # just like Hash#each_key def each_key(set=nil, bulk=0, &block) return nil unless File.exist?(@filename) registry.each_key(set, bulk) {|key| block.call(key) } end # just like Hash#each_value def each_value(set=nil, bulk=0, &block) return nil unless File.exist?(@filename) registry.each_value(set, bulk) { |value| block.call(restore(value)) } end # just like Hash#has_key? def has_key?(key) return false unless File.exist?(@filename) return registry.has_key?(key) end alias include? has_key? alias member? has_key? alias key? has_key? # just like Hash#has_both? def has_both?(key, value) return false unless File.exist?(@filename) return registry.has_both?(key, store(value)) end # just like Hash#has_value? def has_value?(value) return false unless File.exist?(@filename) return registry.has_value?(store(value)) end # just like Hash#index? def index(value) return nil unless File.exist?(@filename) ind = registry.index(store(value)) if ind return ind else return nil end end # delete a key from the registry def delete(key) return default unless File.exist?(@filename) return registry.delete(key) end # returns a list of your keys def keys return [] unless File.exist?(@filename) return registry.keys end # Return an array of all associations [key, value] in your namespace def to_a return [] unless File.exist?(@filename) ret = Array.new registry.each {|key, value| ret << [key, restore(value)] } return ret end # Return an hash of all associations {key => value} in your namespace def to_hash return {} unless File.exist?(@filename) ret = Hash.new registry.each {|key, value| ret[key] = restore(value) } return ret end # empties the registry (restricted to your namespace) def clear return true unless File.exist?(@filename) registry.clear end alias truncate clear # returns an array of the values in your namespace of the registry def values return [] unless File.exist?(@filename) ret = Array.new self.each {|k,v| ret << restore(v) } return ret end def sub_registry(prefix) return Accessor.new(@bot, @name + "/" + prefix.to_s) end # returns the number of keys in your registry namespace def length self.keys.length end alias size length end end end end