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require 'rbot/dbhash'
module Irc
# 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 BotRegistry
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
if File.exist?("#{@bot.botclass}/registry.db")
log "upgrading old-style (rbot 0.9.5 or earlier) plugin registry to new format"
old = BDB::Hash.open("#{@bot.botclass}/registry.db", nil,
"r+", 0600)
new = BDB::CIBtree.open("#{@bot.botclass}/plugin_registry.db", nil,
BDB::CREATE | BDB::EXCL,
0600)
old.each {|k,v|
new[k] = v
}
old.close
new.close
File.rename("#{@bot.botclass}/registry.db", "#{@bot.botclass}/registry.db.old")
end
end
def upgrade_data2
if File.exist?("#{@bot.botclass}/plugin_registry.db")
Dir.mkdir("#{@bot.botclass}/registry") unless File.exist?("#{@bot.botclass}/registry")
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("#{@bot.botclass}/plugin_registry.db", 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("#{@bot.botclass}/plugin_registry.db", "#{@bot.botclass}/plugin_registry.db.old")
dbs.each {|k,v|
log "closing db #{k}"
v.close
}
env.close
end
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 BotRegistry#[]
# 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 BotRegistryAccessor
attr_accessor :recovery
# plugins don't call this - a BotRegistryAccessor is created for them and
# is accessible via @registry.
def initialize(bot, name)
@bot = bot
@name = name.downcase
dirs = File.dirname("#{@bot.botclass}/registry/#{@name}").split("/")
dirs.length.times { |i|
dir = dirs[0,i+1].join("/")+"/"
unless File.exist?(dir)
debug "creating subregistry directory #{dir}"
Dir.mkdir(dir)
end
}
@registry = nil
@default = nil
@recover = 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
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 @recovery
begin
return @recovery.call(val)
rescue Exception => ee
error "marshal recovery failed, trying default"
debug ee
end
end
unless @default.nil?
begin
return Marshal.restore(@default)
rescue
return nil
end
else
return nil
end
end
end
# lookup a key in the registry
def [](key)
if registry.has_key?(key)
return restore(registry[key])
elsif @default != nil
return restore(@default)
else
return nil
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 = store(default)
end
# just like Hash#each
def each(&block)
registry.each {|key,value|
block.call(key, restore(value))
}
end
# just like Hash#each_key
def each_key(&block)
registry.each {|key, value|
block.call(key)
}
end
# just like Hash#each_value
def each_value(&block)
registry.each {|key, value|
block.call(restore(value))
}
end
# just like Hash#has_key?
def has_key?(key)
return registry.has_key?(key)
end
alias include? has_key?
alias member? has_key?
# just like Hash#has_both?
def has_both?(key, value)
return registry.has_both?(key, store(value))
end
# just like Hash#has_value?
def has_value?(value)
return registry.has_value?(store(value))
end
# just like Hash#index?
def index(value)
ind = registry.index(store(value))
if ind
return ind
else
return nil
end
end
# delete a key from the registry
def delete(key)
return registry.delete(key)
end
# returns a list of your keys
def keys
return registry.keys
end
# Return an array of all associations [key, value] in your namespace
def to_a
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
ret = Hash.new
registry.each {|key, value|
ret[key] = restore(value)
}
return ret
end
# empties the registry (restricted to your namespace)
def clear
registry.clear
end
alias truncate clear
# returns an array of the values in your namespace of the registry
def values
ret = Array.new
self.each {|k,v|
ret << restore(v)
}
return ret
end
def sub_registry(prefix)
return BotRegistryAccessor.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
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