Kerala Cyber
Warriors
KCW Uploader V1.1
# daemon_controller, library for robust daemon management
# Copyright (c) 2010-2017 Phusion Holding B.V.
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
require 'tempfile'
require 'fcntl'
require 'socket'
require 'pathname'
require 'timeout'
if Process.respond_to?(:spawn)
require 'rbconfig'
end
PhusionPassenger.require_passenger_lib 'vendor/daemon_controller/lock_file'
module PhusionPassenger
# Main daemon controller object. See the README for an introduction and tutorial.
class DaemonController
ALLOWED_CONNECT_EXCEPTIONS = [Errno::ECONNREFUSED, Errno::ENETUNREACH,
Errno::ETIMEDOUT, Errno::ECONNRESET, Errno::EINVAL,
Errno::EADDRNOTAVAIL]
SPAWNER_FILE = File.expand_path(File.join(File.dirname(__FILE__),
"daemon_controller", "spawn.rb"))
class Error < StandardError
end
class TimeoutError < Error
end
class AlreadyStarted < Error
end
class StartError < Error
end
class StartTimeout < TimeoutError
end
class StopError < Error
end
class StopTimeout < TimeoutError
end
class ConnectError < Error
end
class DaemonizationTimeout < TimeoutError
end
# Create a new DaemonController object.
#
# === Mandatory options
#
# [:identifier]
# A human-readable, unique name for this daemon, e.g. "Sphinx search server".
# This identifier will be used in some error messages. On some platforms, it will
# be used for concurrency control: on such platforms, no two DaemonController
# objects will operate on the same identifier on the same time.
#
# [:start_command]
# The command to start the daemon. This must be a a String, e.g.
# "mongrel_rails start -e production", or a Proc which returns a String.
#
# If the value is a Proc, and the +before_start+ option is given too, then
# the +start_command+ Proc is guaranteed to be called after the +before_start+
# Proc is called.
#
# [:ping_command]
# The ping command is used to check whether the daemon can be connected to.
# It is also used to ensure that #start only returns when the daemon can be
# connected to.
#
# The value may be a command string. This command must exit with an exit code of
# 0 if the daemon can be successfully connected to, or exit with a non-0 exit
# code on failure.
#
# The value may also be an Array which specifies the socket address of the daemon.
# It must be in one of the following forms:
# - [:tcp, host_name, port]
# - [:unix, filename]
#
# The value may also be a Proc, which returns an expression that evaluates to
# true (indicating that the daemon can be connected to) or false (failure).
# If the Proc raises Errno::ECONNREFUSED, Errno::ENETUNREACH, Errno::ETIMEDOUT
# Errno::ECONNRESET, Errno::EINVAL or Errno::EADDRNOTAVAIL then that also
# means that the daemon cannot be connected to.
# <b>NOTE:</b> if the ping command returns an object which responds to
# <tt>#close</tt>, then that method will be called on it.
# This makes it possible to specify a ping command such as
# <tt>lambda { TCPSocket.new('localhost', 1234) }</tt>, without having to worry
# about closing it afterwards.
# Any exceptions raised by #close are ignored.
#
# [:pid_file]
# The PID file that the daemon will write to. Used to check whether the daemon
# is running.
#
# [:lock_file]
# The lock file to use for serializing concurrent daemon management operations.
# Defaults to "(filename of PID file).lock".
#
# [:log_file]
# The log file that the daemon will write to. It will be consulted to see
# whether the daemon has printed any error messages during startup.
#
# === Optional options
# [:stop_command]
# A command to stop the daemon with, e.g. "/etc/rc.d/nginx stop". If no stop
# command is given (i.e. +nil+), then DaemonController will stop the daemon
# by killing the PID written in the PID file.
#
# The default value is +nil+.
#
# [:restart_command]
# A command to restart the daemon with, e.g. "/etc/rc.d/nginx restart". If
# no restart command is given (i.e. +nil+), then DaemonController will
# restart the daemon by calling #stop and #start.
#
# The default value is +nil+.
#
# [:before_start]
# This may be a Proc. It will be called just before running the start command.
# The before_start proc is not subject to the start timeout.
#
# [:start_timeout]
# The maximum amount of time, in seconds, that #start may take to start
# the daemon. Since #start also waits until the daemon can be connected to,
# that wait time is counted as well. If the daemon does not start in time,
# then #start will raise an exception.
#
# The default value is 15.
#
# [:stop_timeout]
# The maximum amount of time, in seconds, that #stop may take to stop
# the daemon. Since #stop also waits until the daemon is no longer running,
# that wait time is counted as well. If the daemon does not stop in time,
# then #stop will raise an exception.
#
# The default value is 15.
#
# [:log_file_activity_timeout]
# Once a daemon has gone into the background, it will become difficult to
# know for certain whether it is still initializing or whether it has
# failed and exited, until it has written its PID file. Suppose that it
# failed with an error after daemonizing but before it has written its PID file;
# not many system administrators want to wait 15 seconds (the default start
# timeout) to be notified of whether the daemon has terminated with an error.
#
# An alternative way to check whether the daemon has terminated with an error,
# is by checking whether its log file has been recently updated. If, after the
# daemon has started, the log file hasn't been updated for the amount of seconds
# given by the :log_file_activity_timeout option, then the daemon is assumed to
# have terminated with an error.
#
# The default value is 7.
#
# [:dont_stop_if_pid_file_invalid]
# If the :stop_command option is given, then normally daemon_controller will
# always execute this command upon calling #stop. But if :dont_stop_if_pid_file_invalid
# is given, then daemon_controller will not do that if the PID file does not contain
# a valid number.
#
# The default is false.
#
# [:daemonize_for_me]
# Normally daemon_controller will wait until the daemon has daemonized into the
# background, in order to capture any errors that it may print on stdout or
# stderr before daemonizing. However, if the daemon doesn't support daemonization
# for some reason, then setting this option to true will cause daemon_controller
# to do the daemonization for the daemon.
#
# The default is false.
#
# [:keep_ios]
# Upon spawning the daemon, daemon_controller will normally close all file
# descriptors except stdin, stdout and stderr. However if there are any file
# descriptors you want to keep open, specify the IO objects here. This must be
# an array of IO objects.
#
# [:env]
# This must be a Hash. The hash will contain the environment variables available
# to be made available to the daemon. Hash keys must be strings, not symbols.
def initialize(options)
[:identifier, :start_command, :ping_command, :pid_file, :log_file].each do |option|
if !options.has_key?(option)
raise ArgumentError, "The ':#{option}' option is mandatory."
end
end
@identifier = options[:identifier]
@start_command = options[:start_command]
@stop_command = options[:stop_command]
@ping_command = options[:ping_command]
@restart_command = options[:restart_command]
@ping_interval = options[:ping_interval] || 0.1
@pid_file = options[:pid_file]
@log_file = options[:log_file]
@before_start = options[:before_start]
@start_timeout = options[:start_timeout] || 15
@stop_timeout = options[:stop_timeout] || 15
@log_file_activity_timeout = options[:log_file_activity_timeout] || 7
@dont_stop_if_pid_file_invalid = options[:dont_stop_if_pid_file_invalid]
@daemonize_for_me = options[:daemonize_for_me]
@keep_ios = options[:keep_ios] || []
@lock_file = determine_lock_file(options, @identifier, @pid_file)
@env = options[:env] || {}
end
# Start the daemon and wait until it can be pinged.
#
# Raises:
# - AlreadyStarted - the daemon is already running.
# - StartError - the start command failed.
# - StartTimeout - the daemon did not start in time. This could also
# mean that the daemon failed after it has gone into the background.
def start
@lock_file.exclusive_lock do
start_without_locking
end
end
# Connect to the daemon by running the given block, which contains the
# connection logic. If the daemon isn't already running, then it will be
# started.
#
# The block must return nil or raise Errno::ECONNREFUSED, Errno::ENETUNREACH,
# Errno::ETIMEDOUT, Errno::ECONNRESET, Errno::EINVAL and Errno::EADDRNOTAVAIL
# to indicate that the daemon cannot be
# connected to. It must return non-nil if the daemon can be connected to.
# Upon successful connection, the return value of the block will
# be returned by #connect.
#
# Note that the block may be called multiple times.
#
# Raises:
# - StartError - an attempt to start the daemon was made, but the start
# command failed with an error.
# - StartTimeout - an attempt to start the daemon was made, but the daemon
# did not start in time, or it failed after it has gone into the background.
# - ConnectError - the daemon wasn't already running, but we couldn't connect
# to the daemon even after starting it.
def connect
connection = nil
@lock_file.shared_lock do
begin
connection = yield
rescue *ALLOWED_CONNECT_EXCEPTIONS
connection = nil
end
end
if connection.nil?
@lock_file.exclusive_lock do
if !daemon_is_running?
start_without_locking
end
connect_exception = nil
begin
connection = yield
rescue *ALLOWED_CONNECT_EXCEPTIONS => e
connection = nil
connect_exception = e
end
if connection.nil?
# Daemon is running but we couldn't connect to it. Possible
# reasons:
# - The daemon froze.
# - Bizarre security restrictions.
# - There's a bug in the yielded code.
if connect_exception
raise ConnectError, "Cannot connect to the daemon: #{connect_exception} (#{connect_exception.class})"
else
raise ConnectError, "Cannot connect to the daemon"
end
else
connection
end
end
else
connection
end
end
# Stop the daemon and wait until it has exited.
#
# Raises:
# - StopError - the stop command failed.
# - StopTimeout - the daemon didn't stop in time.
def stop
@lock_file.exclusive_lock do
begin
Timeout.timeout(@stop_timeout, Timeout::Error) do
kill_daemon if daemon_is_running?
wait_until do
!daemon_is_running?
end
end
rescue Timeout::Error
raise StopTimeout, "Daemon '#{@identifier}' did not exit in time"
end
end
end
# Restarts the daemon. Uses the restart_command if provided, otherwise
# calls #stop and #start.
def restart
if @restart_command
run_command(@restart_command)
else
stop
start
end
end
# Returns the daemon's PID, as reported by its PID file. Returns the PID
# as an integer, or nil there is no valid PID in the PID file.
#
# This method doesn't check whether the daemon's actually running.
# Use #running? if you want to check whether it's actually running.
#
# Raises SystemCallError or IOError if something went wrong during
# reading of the PID file.
def pid
@lock_file.shared_lock do
read_pid_file
end
end
# Checks whether the daemon is still running. This is done by reading
# the PID file and then checking whether there is a process with that
# PID.
#
# Raises SystemCallError or IOError if something went wrong during
# reading of the PID file.
def running?
@lock_file.shared_lock do
daemon_is_running?
end
end
# Checks whether ping Unix domain sockets is supported. Currently
# this is supported on all Ruby implementations, except JRuby.
def self.can_ping_unix_sockets?
RUBY_PLATFORM != "java"
end
private
def start_without_locking
if daemon_is_running?
raise AlreadyStarted, "Daemon '#{@identifier}' is already started"
end
save_log_file_information
delete_pid_file
begin
started = false
before_start
Timeout.timeout(@start_timeout, Timeout::Error) do
done = false
spawn_daemon
record_activity
# We wait until the PID file is available and until
# the daemon responds to pings, but we wait no longer
# than @start_timeout seconds in total (including daemon
# spawn time).
# Furthermore, if the log file hasn't changed for
# @log_file_activity_timeout seconds, and the PID file
# still isn't available or the daemon still doesn't
# respond to pings, then assume that the daemon has
# terminated with an error.
wait_until do
if log_file_has_changed?
record_activity
elsif no_activity?(@log_file_activity_timeout)
raise Timeout::Error, "Daemon seems to have exited"
end
pid_file_available?
end
wait_until(@ping_interval) do
if log_file_has_changed?
record_activity
elsif no_activity?(@log_file_activity_timeout)
raise Timeout::Error, "Daemon seems to have exited"
end
run_ping_command || !daemon_is_running?
end
started = run_ping_command
end
result = started
rescue DaemonizationTimeout, Timeout::Error => e
start_timed_out
if pid_file_available?
kill_daemon_with_signal(true)
end
if e.is_a?(DaemonizationTimeout)
result = :daemonization_timeout
else
result = :start_timeout
end
end
if !result
raise(StartError, differences_in_log_file ||
"Daemon '#{@identifier}' failed to start.")
elsif result == :daemonization_timeout
raise(StartTimeout, differences_in_log_file ||
"Daemon '#{@identifier}' didn't daemonize in time.")
elsif result == :start_timeout
raise(StartTimeout, differences_in_log_file ||
"Daemon '#{@identifier}' failed to start in time.")
else
true
end
end
def before_start
if @before_start
@before_start.call
end
end
def spawn_daemon
if @start_command.respond_to?(:call)
run_command(@start_command.call)
else
run_command(@start_command)
end
end
def kill_daemon
if @stop_command
if @dont_stop_if_pid_file_invalid && read_pid_file.nil?
return
end
begin
run_command(@stop_command)
rescue StartError => e
raise StopError, e.message
end
else
kill_daemon_with_signal
end
end
def kill_daemon_with_signal(force = false)
pid = read_pid_file
if pid
if force
Process.kill('SIGKILL', pid)
else
Process.kill('SIGTERM', pid)
end
end
rescue Errno::ESRCH, Errno::ENOENT
end
def daemon_is_running?
begin
pid = read_pid_file
rescue Errno::ENOENT
# The PID file may not exist, or another thread/process
# executing #running? may have just deleted the PID file.
# So we catch this error.
pid = nil
end
if pid.nil?
false
elsif check_pid(pid)
true
else
delete_pid_file
false
end
end
def read_pid_file
begin
pid = File.read(@pid_file).strip
rescue Errno::ENOENT
return nil
end
if pid =~ /\A\d+\Z/
pid.to_i
else
nil
end
end
def delete_pid_file
File.unlink(@pid_file)
rescue Errno::EPERM, Errno::EACCES, Errno::ENOENT # ignore
end
def check_pid(pid)
Process.kill(0, pid)
true
rescue Errno::ESRCH
false
rescue Errno::EPERM
# We didn't have permission to kill the process. Either the process
# is owned by someone else, or the system has draconian security
# settings and we aren't allowed to kill *any* process. Assume that
# the process is running.
true
end
def wait_until(sleep_interval = 0.1)
while !yield
sleep(sleep_interval)
end
end
def wait_until_pid_file_is_available_or_log_file_has_changed
while !(pid_file_available? || log_file_has_changed?)
sleep 0.1
end
pid_file_is_available?
end
def wait_until_daemon_responds_to_ping_or_has_exited_or_log_file_has_changed
while !(run_ping_command || !daemon_is_running? || log_file_has_changed?)
sleep(@ping_interval)
end
run_ping_command
end
def record_activity
@last_activity_time = Time.now
end
# Check whether there has been no recorded activity in the past +seconds+ seconds.
def no_activity?(seconds)
Time.now - @last_activity_time > seconds
end
def pid_file_available?
File.exist?(@pid_file) && File.stat(@pid_file).size != 0
end
# This method does nothing and only serves as a hook for the unit test.
def start_timed_out
end
# This method does nothing and only serves as a hook for the unit test.
def daemonization_timed_out
end
def save_log_file_information
@original_log_file_stat = File.stat(@log_file) rescue nil
@current_log_file_stat = @original_log_file_stat
end
def log_file_has_changed?
if @current_log_file_stat
stat = File.stat(@log_file) rescue nil
if stat
result = @current_log_file_stat.mtime != stat.mtime ||
@current_log_file_stat.size != stat.size
@current_log_file_stat = stat
result
else
true
end
else
false
end
end
def differences_in_log_file
if @original_log_file_stat && @original_log_file_stat.file?
File.open(@log_file, 'r') do |f|
f.seek(@original_log_file_stat.size, IO::SEEK_SET)
diff = f.read.strip
if diff.empty?
nil
else
diff
end
end
else
nil
end
rescue Errno::ENOENT, Errno::ESPIPE
# ESPIPE means the log file is a pipe.
nil
end
def determine_lock_file(options, identifier, pid_file)
if options[:lock_file]
LockFile.new(File.expand_path(options[:lock_file]))
else
LockFile.new(File.expand_path(pid_file + ".lock"))
end
end
def self.fork_supported?
RUBY_PLATFORM != "java" && RUBY_PLATFORM !~ /win32/
end
def self.spawn_supported?
# Process.spawn doesn't work very well in JRuby.
Process.respond_to?(:spawn) && RUBY_PLATFORM != "java"
end
def run_command(command)
if should_capture_output_while_running_command?
run_command_while_capturing_output(command)
else
run_command_without_capturing_output(command)
end
end
def should_capture_output_while_running_command?
if is_std_channel_chardev?(@log_file)
false
else
begin
real_log_file = Pathname.new(@log_file).realpath.to_s
rescue SystemCallError
real_log_file = nil
end
if real_log_file
!is_std_channel_chardev?(real_log_file)
else
true
end
end
end
def is_std_channel_chardev?(path)
path == "/dev/stdout" ||
path == "/dev/stderr" ||
path == "/dev/fd/1" ||
path == "/dev/fd/2" ||
path =~ %r(\A/proc/([0-9]+|self)/fd/[12]\Z)
end
def run_command_while_capturing_output(command)
# Create tempfile for storing the command's output.
tempfile = Tempfile.new('daemon-output')
tempfile.chmod(0666)
tempfile_path = tempfile.path
tempfile.close
if self.class.fork_supported? || self.class.spawn_supported?
if Process.respond_to?(:spawn)
options = {
:in => "/dev/null",
:out => tempfile_path,
:err => tempfile_path,
:close_others => true
}
@keep_ios.each do |io|
options[io] = io
end
if @daemonize_for_me
pid = Process.spawn(@env, ruby_interpreter, SPAWNER_FILE,
command, options)
else
pid = Process.spawn(@env, command, options)
end
else
pid = safe_fork(@daemonize_for_me) do
ObjectSpace.each_object(IO) do |obj|
if !@keep_ios.include?(obj)
obj.close rescue nil
end
end
STDIN.reopen("/dev/null", "r")
STDOUT.reopen(tempfile_path, "w")
STDERR.reopen(tempfile_path, "w")
ENV.update(@env)
exec(command)
end
end
# run_command might be running in a timeout block (like
# in #start_without_locking).
begin
interruptable_waitpid(pid)
rescue Errno::ECHILD
# Maybe a background thread or whatever waitpid()'ed
# this child process before we had the chance. There's
# no way to obtain the exit status now. Assume that
# it started successfully; if it didn't we'll know
# that later by checking the PID file and by pinging
# it.
return
rescue Timeout::Error
daemonization_timed_out
# If the daemon doesn't fork into the background
# in time, then kill it.
begin
Process.kill('SIGTERM', pid)
rescue SystemCallError
end
begin
Timeout.timeout(5, Timeout::Error) do
begin
interruptable_waitpid(pid)
rescue SystemCallError
end
end
rescue Timeout::Error
begin
Process.kill('SIGKILL', pid)
interruptable_waitpid(pid)
rescue SystemCallError
end
end
raise DaemonizationTimeout
end
if $?.exitstatus != 0
raise StartError, File.read(tempfile_path).strip
end
else
if @env && !@env.empty?
raise "Setting the :env option is not supported on this Ruby implementation."
elsif @daemonize_for_me
raise "Setting the :daemonize_for_me option is not supported on this Ruby implementation."
end
cmd = "#{command} >\"#{tempfile_path}\""
cmd << " 2>\"#{tempfile_path}\"" unless PLATFORM =~ /mswin/
if !system(cmd)
raise StartError, File.read(tempfile_path).strip
end
end
ensure
File.unlink(tempfile_path) rescue nil
end
def run_command_without_capturing_output(command)
if self.class.fork_supported? || self.class.spawn_supported?
if Process.respond_to?(:spawn)
options = {
:in => "/dev/null",
:out => :out,
:err => :err,
:close_others => true
}
@keep_ios.each do |io|
options[io] = io
end
if @daemonize_for_me
pid = Process.spawn(@env, ruby_interpreter, SPAWNER_FILE,
command, options)
else
pid = Process.spawn(@env, command, options)
end
else
pid = safe_fork(@daemonize_for_me) do
ObjectSpace.each_object(IO) do |obj|
if !@keep_ios.include?(obj)
obj.close rescue nil
end
end
STDIN.reopen("/dev/null", "r")
ENV.update(@env)
exec(command)
end
end
# run_command might be running in a timeout block (like
# in #start_without_locking).
begin
interruptable_waitpid(pid)
rescue Errno::ECHILD
# Maybe a background thread or whatever waitpid()'ed
# this child process before we had the chance. There's
# no way to obtain the exit status now. Assume that
# it started successfully; if it didn't we'll know
# that later by checking the PID file and by pinging
# it.
return
rescue Timeout::Error
daemonization_timed_out
# If the daemon doesn't fork into the background
# in time, then kill it.
begin
Process.kill('SIGTERM', pid)
rescue SystemCallError
end
begin
Timeout.timeout(5, Timeout::Error) do
begin
interruptable_waitpid(pid)
rescue SystemCallError
end
end
rescue Timeout::Error
begin
Process.kill('SIGKILL', pid)
interruptable_waitpid(pid)
rescue SystemCallError
end
end
raise DaemonizationTimeout
end
if $?.exitstatus != 0
raise StartError, "Daemon '#{@identifier}' failed to start."
end
else
if @env && !@env.empty?
raise "Setting the :env option is not supported on this Ruby implementation."
elsif @daemonize_for_me
raise "Setting the :daemonize_for_me option is not supported on this Ruby implementation."
end
if !system(command)
raise StartError, "Daemon '#{@identifier}' failed to start."
end
end
end
def run_ping_command
if @ping_command.respond_to?(:call)
begin
value = @ping_command.call
if value.respond_to?(:close)
value.close rescue nil
end
value
rescue *ALLOWED_CONNECT_EXCEPTIONS
false
end
elsif @ping_command.is_a?(Array)
type, *args = @ping_command
if self.class.can_ping_unix_sockets?
case type
when :tcp
hostname, port = args
sockaddr = Socket.pack_sockaddr_in(port, hostname)
ping_tcp_socket(sockaddr)
when :unix
socket_domain = Socket::Constants::AF_LOCAL
sockaddr = Socket.pack_sockaddr_un(args[0])
ping_socket(socket_domain, sockaddr)
else
raise ArgumentError, "Unknown ping command type #{type.inspect}"
end
else
case type
when :tcp
hostname, port = args
ping_socket(hostname, port)
when :unix
raise "Pinging Unix domain sockets is not supported on this Ruby implementation"
else
raise ArgumentError, "Unknown ping command type #{type.inspect}"
end
end
else
system(@ping_command)
end
end
if !can_ping_unix_sockets?
require 'java'
def ping_socket(host_name, port)
channel = java.nio.channels.SocketChannel.open
begin
address = java.net.InetSocketAddress.new(host_name, port)
channel.configure_blocking(false)
if channel.connect(address)
return true
end
deadline = Time.now.to_f + 0.1
done = false
while true
begin
if channel.finish_connect
return true
end
rescue java.net.ConnectException => e
if e.message =~ /Connection refused/i
return false
else
throw e
end
end
# Not done connecting and no error.
sleep 0.01
if Time.now.to_f >= deadline
return false
end
end
ensure
channel.close
end
end
else
def ping_socket(socket_domain, sockaddr)
begin
socket = Socket.new(socket_domain, Socket::Constants::SOCK_STREAM, 0)
begin
socket.connect_nonblock(sockaddr)
rescue Errno::ENOENT, Errno::EINPROGRESS, Errno::EAGAIN, Errno::EWOULDBLOCK
if select(nil, [socket], nil, 0.1)
begin
socket.connect_nonblock(sockaddr)
rescue Errno::EISCONN
rescue Errno::EINVAL
if RUBY_PLATFORM =~ /freebsd/i
raise Errno::ECONNREFUSED
else
raise
end
end
else
raise Errno::ECONNREFUSED
end
end
true
rescue Errno::ECONNREFUSED, Errno::ENOENT
false
ensure
socket.close if socket
end
end
def ping_tcp_socket(sockaddr)
begin
ping_socket(Socket::Constants::AF_INET, sockaddr)
rescue Errno::EAFNOSUPPORT
ping_socket(Socket::Constants::AF_INET6, sockaddr)
end
end
end
def ruby_interpreter
if defined?(RbConfig)
rb_config = RbConfig::CONFIG
else
rb_config = Config::CONFIG
end
File.join(
rb_config['bindir'],
rb_config['RUBY_INSTALL_NAME']
) + rb_config['EXEEXT']
end
def safe_fork(double_fork)
pid = fork
if pid.nil?
begin
if double_fork
pid2 = fork
if pid2.nil?
Process.setsid
yield
end
else
yield
end
rescue Exception => e
message = "*** Exception #{e.class} " <<
"(#{e}) (process #{$$}):\n" <<
"\tfrom " << e.backtrace.join("\n\tfrom ")
STDERR.write(e)
STDERR.flush
exit!
ensure
exit!(0)
end
else
if double_fork
Process.waitpid(pid) rescue nil
pid
else
pid
end
end
end
if RUBY_VERSION < "1.9"
def interruptable_waitpid(pid)
Process.waitpid(pid)
end
else
# On Ruby 1.9, Thread#kill (which is called by timeout.rb) may
# not be able to interrupt Process.waitpid. So here we use a
# special version that's a bit less efficient but is at least
# interruptable.
def interruptable_waitpid(pid)
result = nil
while !result
result = Process.waitpid(pid, Process::WNOHANG)
sleep 0.01 if !result
end
result
end
end
end
end # module PhusionPassenger
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