#!/usr/bin/ruby require "rubygems" require "pg" require "yaml" require "time" require "fileutils" require "xml/libxml" require "zlib" require "set" # after this many changes, a changeset will be closed CHANGES_LIMIT = 50000 # this is the scale factor for lat/lon values stored as integers in the database GEO_SCALE = 10000000 ## # replace characters which cannot be represented in XML 1.0. def xml_sanitize(str) str.gsub(/[\x00-\x08\x0b\x0c\x0e-\x1f]/, "?") end ## # changeset class keeps some information about changesets downloaded from the # database - enough to let us know which changesets are closed/open & recently # closed. class Changeset attr_reader :id, :created_at, :closed_at, :num_changes def initialize(row) @id = row["id"].to_i @created_at = Time.parse(row["created_at"]) @closed_at = Time.parse(row["closed_at"]) @num_changes = row["num_changes"].to_i end def closed?(t) (@closed_at < t) || (@num_changes >= CHANGES_LIMIT) end def open?(t) !closed?(t) end def activity_between?(t1, t2) ((@closed_at >= t1) && (@closed_at < t2)) || ((@created_at >= t1) && (@created_at < t2)) end end ## # builds an XML representation of a changeset from the database class ChangesetBuilder def initialize(now, conn) @now = now @conn = conn end def changeset_xml(cs) xml = XML::Node.new("changeset") xml["id"] = cs.id.to_s xml["created_at"] = cs.created_at.getutc.xmlschema xml["closed_at"] = cs.closed_at.getutc.xmlschema if cs.closed?(@now) xml["open"] = cs.open?(@now).to_s xml["num_changes"] = cs.num_changes.to_s res = @conn.exec("select u.id, u.display_name, c.min_lat, c.max_lat, c.min_lon, c.max_lon from users u join changesets c on u.id=c.user_id where c.id=#{cs.id}") xml["user"] = xml_sanitize(res[0]["display_name"]) xml["uid"] = res[0]["id"] unless res[0]["min_lat"].nil? || res[0]["max_lat"].nil? || res[0]["min_lon"].nil? || res[0]["max_lon"].nil? xml["min_lat"] = (res[0]["min_lat"].to_f / GEO_SCALE).to_s xml["max_lat"] = (res[0]["max_lat"].to_f / GEO_SCALE).to_s xml["min_lon"] = (res[0]["min_lon"].to_f / GEO_SCALE).to_s xml["max_lon"] = (res[0]["max_lon"].to_f / GEO_SCALE).to_s end add_tags(xml, cs) add_comments(xml, cs) xml end def add_tags(xml, cs) res = @conn.exec("select k, v from changeset_tags where changeset_id=#{cs.id}") res.each do |row| tag = XML::Node.new("tag") tag["k"] = xml_sanitize(row["k"]) tag["v"] = xml_sanitize(row["v"]) xml << tag end end def add_comments(xml, cs) # grab the visible changeset comments as well res = @conn.exec("select cc.author_id, u.display_name as author, cc.body, cc.created_at from changeset_comments cc join users u on cc.author_id=u.id where cc.changeset_id=#{cs.id} and cc.visible order by cc.created_at asc") xml["comments_count"] = res.num_tuples.to_s # early return if there aren't any comments return unless res.num_tuples > 0 discussion = XML::Node.new("discussion") res.each do |row| comment = XML::Node.new("comment") comment["uid"] = row["author_id"] comment["user"] = xml_sanitize(row["author"]) comment["date"] = Time.parse(row["created_at"]).getutc.xmlschema text = XML::Node.new("text") text.content = xml_sanitize(row["body"]) comment << text discussion << comment end xml << discussion end end ## # sync a file to guarantee it's on disk def fsync(f) File.open(f, &:fsync) end ## # sync a directory to guarantee it's on disk. have to recurse to the root # to guarantee sync for newly created directories. def fdirsync(d) while d != "/" Dir.open(d) do |dh| io = IO.for_fd(dh.fileno) io.fsync end d = File.dirname(d) end end ## # state and connections associated with getting changeset data # replicated to a file. class Replicator def initialize(config) @config = YAML.load(File.read(config)) @state = YAML.load(File.read(@config["state_file"])) @conn = PGconn.connect(@config["db"]) # get current time from the database rather than the current system @now = @conn.exec("select now() as now").map { |row| Time.parse(row["now"]) }[0] end def open_changesets last_run = @state["last_run"] last_run = (@now - 60) if last_run.nil? # pretty much all operations on a changeset will modify its closed_at # time (see rails_port's changeset model). so it is probably enough # for us to look at anything that was closed recently, and filter from # there. changesets = @conn .exec("select id, created_at, closed_at, num_changes from changesets where closed_at > ((now() at time zone 'utc') - '1 hour'::interval)") .map { |row| Changeset.new(row) } .select { |cs| cs.activity_between?(last_run, @now) } # set for faster presence lookups by ID cs_ids = Set.new(changesets.map(&:id)) # but also add any changesets which have new comments new_ids = @conn .exec("select distinct changeset_id from changeset_comments where created_at >= '#{last_run}' and created_at < '#{@now}' and visible") .map { |row| row["changeset_id"].to_i } .select { |c_id| !cs_ids.include?(c_id) } new_ids.each do |id| @conn .exec("select id, created_at, closed_at, num_changes from changesets where id=#{id}") .map { |row| Changeset.new(row) } .each { |cs| changesets << cs } end changesets.sort_by(&:id) end # creates an XML file containing the changeset information from the # list of changesets output by open_changesets. def changeset_dump(changesets) doc = XML::Document.new doc.root = XML::Node.new("osm") { "version" => "0.6", "generator" => "replicate_changesets.rb", "copyright" => "OpenStreetMap and contributors", "attribution" => "http://www.openstreetmap.org/copyright", "license" => "http://opendatacommons.org/licenses/odbl/1-0/" } .each { |k, v| doc.root[k] = v } builder = ChangesetBuilder.new(@now, @conn) changesets.each do |cs| doc.root << builder.changeset_xml(cs) end doc.to_s end def sequence @state.key?("sequence") ? @state["sequence"] + 1 : 0 end def data_stem @config["data_dir"] + format("/%03d/%03d/%03d", sequence / 1000000, (sequence / 1000) % 1000, (sequence % 1000)) end def write_tmp_files!(changesets) data_file = data_stem + ".osm.gz" tmp_state = @config["state_file"] + ".tmp" tmp_data = data_file + ".tmp" FileUtils.mkdir_p(File.dirname(data_file)) Zlib::GzipWriter.open(tmp_data) do |fh| fh.write(changeset_dump(changesets)) end File.open(tmp_state, "w") do |fh| fh.write(YAML.dump(@state)) end # fsync the files in their old locations. fsync(tmp_data) fsync(tmp_state) # sync the directory as well, to ensure that the file is reachable # from the dirent and has been updated to account for any allocations. fdirsync(File.dirname(tmp_data)) fdirsync(File.dirname(tmp_state)) # sanity check: the files we're moving into place # should be non-empty. raise "Temporary gzip file should exist, but doesn't." unless File.exist?(tmp_data) raise "Temporary state file should exist, but doesn't." unless File.exist?(tmp_state) raise "Temporary gzip file should be non-empty, but isn't." if File.zero?(tmp_data) raise "Temporary state file should be non-empty, but isn't." if File.zero?(tmp_state) end def move_tmp_files_into_place! data_file = data_stem + ".osm.gz" data_state_file = data_stem + ".state.txt" tmp_state = @config["state_file"] + ".tmp" tmp_data = data_file + ".tmp" FileUtils.mv(tmp_data, data_file) FileUtils.cp(tmp_state, @config["state_file"]) FileUtils.mv(tmp_state, data_state_file) # fsync the files in their new locations, in case the inodes have # changed in the move / copy. fsync(data_file) fsync(@config["state_file"]) fsync(data_state_file) # sync the directory as well, to ensure that the file is reachable # from the dirent and has been updated to account for any allocations. fdirsync(File.dirname(data_file)) fdirsync(File.dirname(@config["state_file"])) end # saves new state (including the changeset dump xml) def save! File.open(@config["state_file"], "r") do |fl| fl.flock(File::LOCK_EX) # try and write the files to tmp locations and then # move them into place later, to avoid in-progress # clashes, or people seeing incomplete files. begin changesets = open_changesets @state["sequence"] = sequence @state["last_run"] = @now write_tmp_files!(changesets) move_tmp_files_into_place! fl.flock(File::LOCK_UN) rescue STDERR.puts("Error! Couldn't update state.") fl.flock(File::LOCK_UN) raise end end end end begin rep = Replicator.new(ARGV[0]) rep.save! rescue StandardError => e STDERR.puts "ERROR: #{e.message}" exit 1 end