require 'date' require 'timeout' require 'test/unit' # Test::Unit adds an at_exit hook which, among other things, consumes # the command-line arguments that were intended for cucumber. If # e.g. `--format` was passed it will throw an error since it's not a # valid option for Test::Unit, and it throwing an error at this time # (at_exit) will make Cucumber think it failed and consequently exit # with an error. Fooling Test::Unit that this hook has already run # works around this craziness. Test::Unit.run = true # Make all the assert_* methods easily accessible in any context. include Test::Unit::Assertions def assert_vmcommand_success(p, msg = nil) assert(p.success?, msg.nil? ? "Command failed: #{p.cmd}\n" + \ "error code: #{p.returncode}\n" \ "stderr: #{p.stderr}" : \ msg) end # It's forbidden to throw this exception (or subclasses) in anything # but try_for() below. Just don't use it anywhere else! class UniqueTryForTimeoutError < Exception end # Call block (ignoring any exceptions it may throw) repeatedly with # one second breaks until it returns true, or until `timeout` seconds have # passed when we throw a Timeout::Error exception. def try_for(timeout, options = {}) options[:delay] ||= 1 last_exception = nil # Create a unique exception used only for this particular try_for # call's Timeout to allow nested try_for:s. If we used the same one, # the innermost try_for would catch all outer ones', creating a # really strange situation. unique_timeout_exception = Class.new(UniqueTryForTimeoutError) Timeout::timeout(timeout, unique_timeout_exception) do loop do begin return if yield rescue NameError, UniqueTryForTimeoutError => e # NameError most likely means typos, and hiding that is rarely # (never?) a good idea, so we rethrow them. See below why we # also rethrow *all* the unique exceptions. raise e rescue Exception => e # All other exceptions are ignored while trying the # block. Well we save the last exception so we can print it in # case of a timeout. last_exception = e end sleep options[:delay] end end # At this point the block above either succeeded and we'll return, # or we are throwing an exception. If the latter, we either have a # NameError that we'll not catch (and will any try_for below us in # the stack), or we have a unique exception. That can mean one of # two things: # 1. it's the one unique to this try_for, and in that case we'll # catch it, rethrowing it as something that will be ignored by # inside the blocks of all try_for:s below us in the stack. # 2. it's an exception unique to another try_for. Assuming that we # do not throw the unique exceptions in any other place or way # than we do it in this function, this means that there is a # try_for below us in the stack to which this exception must be # unique to. # Let 1 be the base step, and 2 the inductive step, and we sort of # an inductive proof for the correctness of try_for when it's # nested. It shows that for an infinite stack of try_for:s, any of # the unique exceptions will be caught only by the try_for instance # it is unique to, and all try_for:s in between will ignore it so it # ends up there immediately. rescue unique_timeout_exception => e msg = options[:msg] || 'try_for() timeout expired' if last_exception msg += "\nLast ignored exception was: " + "#{last_exception.class}: #{last_exception}" end raise Timeout::Error.new(msg) end class TorFailure < StandardError end class MaxRetriesFailure < StandardError end # This will retry the block up to MAX_NEW_TOR_CIRCUIT_RETRIES # times. The block must raise an exception for a run to be considered # as a failure. After a failure recovery_proc will be called (if # given) and the intention with it is to bring us back to the state # expected by the block, so it can be retried. def retry_tor(recovery_proc = nil, &block) tor_recovery_proc = Proc.new do force_new_tor_circuit recovery_proc.call if recovery_proc end retry_action($config['MAX_NEW_TOR_CIRCUIT_RETRIES'], :recovery_proc => tor_recovery_proc, :operation_name => 'Tor operation', &block) end def retry_i2p(recovery_proc = nil, &block) retry_action(15, :recovery_proc => recovery_proc, :operation_name => 'I2P operation', &block) end def retry_action(max_retries, options = {}, &block) assert(max_retries.is_a?(Integer), "max_retries must be an integer") options[:recovery_proc] ||= nil options[:operation_name] ||= 'Operation' retries = 1 loop do begin block.call return rescue Exception => e if retries <= max_retries debug_log("#{options[:operation_name]} failed (Try #{retries} of " + "#{max_retries}) with:\n" + "#{e.class}: #{e.message}") options[:recovery_proc].call if options[:recovery_proc] retries += 1 else raise MaxRetriesFailure.new("#{options[:operation_name]} failed (despite retrying " + "#{max_retries} times) with\n" + "#{e.class}: #{e.message}") end end end end def wait_until_tor_is_working try_for(270) { $vm.execute('/usr/local/sbin/tor-has-bootstrapped').success? } rescue Timeout::Error => e c = $vm.execute("journalctl SYSLOG_IDENTIFIER=restart-tor") if c.success? debug_log("From the journal:\n" + c.stdout.sub(/^/, " ")) else debug_log("Nothing was in the journal about 'restart-tor'") end raise e end def convert_bytes_mod(unit) case unit when "bytes", "b" then mod = 1 when "KB" then mod = 10**3 when "k", "KiB" then mod = 2**10 when "MB" then mod = 10**6 when "M", "MiB" then mod = 2**20 when "GB" then mod = 10**9 when "G", "GiB" then mod = 2**30 when "TB" then mod = 10**12 when "T", "TiB" then mod = 2**40 else raise "invalid memory unit '#{unit}'" end return mod end def convert_to_bytes(size, unit) return (size*convert_bytes_mod(unit)).to_i end def convert_to_MiB(size, unit) return (size*convert_bytes_mod(unit) / (2**20)).to_i end def convert_from_bytes(size, unit) return size.to_f/convert_bytes_mod(unit).to_f end def cmd_helper(cmd) if cmd.instance_of?(Array) cmd << {:err => [:child, :out]} elsif cmd.instance_of?(String) cmd += " 2>&1" end IO.popen(cmd) do |p| out = p.readlines.join("\n") p.close ret = $? assert_equal(0, ret, "Command failed (returned #{ret}): #{cmd}:\n#{out}") return out end end # This command will grab all router IP addresses from the Tor # consensus in the VM + the hardcoded TOR_AUTHORITIES. def get_all_tor_nodes cmd = 'awk "/^r/ { print \$6 }" /var/lib/tor/cached-microdesc-consensus' $vm.execute(cmd).stdout.chomp.split("\n") + TOR_AUTHORITIES end def get_free_space(machine, path) case machine when 'host' assert(File.exists?(path), "Path '#{path}' not found on #{machine}.") free = cmd_helper(["df", path]) when 'guest' assert($vm.file_exist?(path), "Path '#{path}' not found on #{machine}.") free = $vm.execute_successfully("df '#{path}'") else raise 'Unsupported machine type #{machine} passed.' end output = free.split("\n").last return output.match(/[^\s]\s+[0-9]+\s+[0-9]+\s+([0-9]+)\s+.*/)[1].chomp.to_i end def random_string_from_set(set, min_len, max_len) len = (min_len..max_len).to_a.sample len ||= min_len (0..len-1).map { |n| set.sample }.join end def random_alpha_string(min_len, max_len = 0) alpha_set = ('A'..'Z').to_a + ('a'..'z').to_a random_string_from_set(alpha_set, min_len, max_len) end def random_alnum_string(min_len, max_len = 0) alnum_set = ('A'..'Z').to_a + ('a'..'z').to_a + (0..9).to_a.map { |n| n.to_s } random_string_from_set(alnum_set, min_len, max_len) end # Sanitize the filename from unix-hostile filename characters def sanitize_filename(filename, options = {}) options[:replacement] ||= '_' bad_unix_filename_chars = Regexp.new("[^A-Za-z0-9_\\-.,+:]") filename.gsub(bad_unix_filename_chars, options[:replacement]) end def info_log_artifact_location(type, path) if $config['ARTIFACTS_BASE_URI'] # Remove any trailing slashes, we'll add one ourselves base_url = $config['ARTIFACTS_BASE_URI'].gsub(/\/*$/, "") path = "#{base_url}/#{File.basename(path)}" end info_log("#{type.capitalize}: #{path}") end def pause(message = "Paused") STDERR.puts STDERR.puts "#{message} (Press ENTER to continue!)" STDIN.gets end