Class: Unicorn::HttpServer

Inherits:

Object

• Object
• Unicorn::HttpServer

Includes:

HttpResponse, SSLServer, SocketHelper

Defined in:

lib/unicorn/http_server.rb

Overview

This is the process manager of Unicorn. This manages worker processes which in turn handle the I/O and application process. Listener sockets are started in the master process and shared with forked worker children.

Users do not need to know the internals of this class, but reading the source is education for programmers wishing to learn how Unicorn works. See Unicorn::Configurator for information on how to configure Unicorn.

Constant Summary

Worker =

backwards compatibility with 1.x

Unicorn::Worker

LISTENERS =

all bound listener sockets

[]

NEW_LISTENERS =

listeners we have yet to bind

[]

WORKERS =

This hash maps PIDs to Workers

{}

SELF_PIPE =

We use SELF_PIPE differently in the master and worker processes:

• The master process never closes or reinitializes this once

initialized. Signal handlers in the master process will write to it to wake up the master from IO.select in exactly the same manner djb describes in cr.yp.to/docs/selfpipe.html

• The workers immediately close the pipe they inherit from the

master and replace it with a new pipe after forking. This new pipe is also used to wakeup from IO.select from inside (worker) signal handlers. However, workers close the pipe descriptors in the signal handlers to raise EBADF in IO.select instead of writing like we do in the master. We cannot easily use the reader set for IO.select because LISTENERS is already that set, and it’s extra work (and cycles) to distinguish the pipe FD from the reader set once IO.select returns. So we’re lazy and just close the pipe when a (rare) signal arrives in the worker and reinitialize the pipe later.

[]

SIG_QUEUE =

signal queue used for self-piping

[]

QUEUE_SIGS =

list of signals we care about and trap in master.

[ :WINCH, :QUIT, :INT, :TERM, :USR1, :USR2, :HUP, :TTIN, :TTOU ]

START_CTX =

:startdoc: We populate this at startup so we can figure out how to reexecute and upgrade the currently running instance of Unicorn This Hash is considered a stable interface and changing its contents will allow you to switch between different installations of Unicorn or even different installations of the same applications without downtime. Keys of this constant Hash are described as follows:

• 0 - the path to the unicorn/unicorn_rails executable

• :argv - a deep copy of the ARGV array the executable originally saw

• :cwd - the working directory of the application, this is where

you originally started Unicorn.

To change your unicorn executable to a different path without downtime, you can set the following in your Unicorn config file, HUP and then continue with the traditional USR2 + QUIT upgrade steps:

Unicorn::HttpServer::START_CTX[0] = "/home/bofh/1.9.2/bin/unicorn"

{
  :argv => ARGV.map { |arg| arg.dup },
  0 => $0.dup,
}

Instance Attribute Summary

• #after_fork ⇒ Object

  :stopdoc:.

• #app ⇒ Object

  :stopdoc:.

• #before_exec ⇒ Object

  :stopdoc:.

• #before_fork ⇒ Object

  :stopdoc:.

• #config ⇒ Object

  :stopdoc:.

• #init_listeners ⇒ Object

  :stopdoc:.

• #listener_opts ⇒ Object

  :stopdoc:.

• #logger ⇒ Object

  Returns the value of attribute logger.

• #master_pid ⇒ Object

  :stopdoc:.

• #orig_app ⇒ Object

  :stopdoc:.

• #pid ⇒ Object

  Returns the value of attribute pid.

• #preload_app ⇒ Object

  :stopdoc:.

• #ready_pipe ⇒ Object

  :stopdoc:.

• #reexec_pid ⇒ Object

  :stopdoc:.

• #request ⇒ Object

  :stopdoc:.

• #timeout ⇒ Object

  :stopdoc:.

• #user ⇒ Object

  :stopdoc:.

• #worker_processes ⇒ Object

  :stopdoc:.

Instance Method Summary

• #check_client_connection ⇒ Object
• #check_client_connection=(bool) ⇒ Object
• #client_body_buffer_size ⇒ Object
• #client_body_buffer_size=(bytes) ⇒ Object
• #initialize(app, options = {}) ⇒ HttpServer constructor

  Creates a working server on host:port (strange things happen if port isn’t a Number).

• #join ⇒ Object

  monitors children and receives signals forever (or until a termination signal is sent).

• #listen(address, opt = {}.merge(listener_opts[address] || {})) ⇒ Object

  add a given address to the listeners set, idempotently Allows workers to add a private, per-process listener via the after_fork hook.

• #listeners=(listeners) ⇒ Object

  replaces current listener set with listeners.

• #rewindable_input ⇒ Object
• #rewindable_input=(bool) ⇒ Object
• #start ⇒ Object

  Runs the thing.

• #stderr_path=(path) ⇒ Object
• #stdout_path=(path) ⇒ Object
• #stop(graceful = true) ⇒ Object

  Terminates all workers, but does not exit master process.

• #trust_x_forwarded ⇒ Object
• #trust_x_forwarded=(bool) ⇒ Object

Constructor Details

#initialize(app, options = {}) ⇒ HttpServer

Creates a working server on host:port (strange things happen if port isn’t a Number). Use HttpServer::run to start the server and HttpServer.run.join to join the thread that’s processing incoming requests on the socket.

# File 'lib/unicorn/http_server.rb', line 100

def initialize(app, options = {})
  @app = app
  @request = Unicorn::HttpRequest.new
  self.reexec_pid = 0
  options = options.dup
  @ready_pipe = options.delete(:ready_pipe)
  @init_listeners = options[:listeners] ? options[:listeners].dup : []
  options[:use_defaults] = true
  self.config = Unicorn::Configurator.new(options)
  self.listener_opts = {}

  # we try inheriting listeners first, so we bind them later.
  # we don't write the pid file until we've bound listeners in case
  # unicorn was started twice by mistake.  Even though our #pid= method
  # checks for stale/existing pid files, race conditions are still
  # possible (and difficult/non-portable to avoid) and can be likely
  # to clobber the pid if the second start was in quick succession
  # after the first, so we rely on the listener binding to fail in
  # that case.  Some tests (in and outside of this source tree) and
  # monitoring tools may also rely on pid files existing before we
  # attempt to connect to the listener(s)
  config.commit!(self, :skip => [:listeners, :pid])
  self.orig_app = app
end

Instance Attribute Details

#after_fork ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def after_fork
  @after_fork
end

#app ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def app
  @app
end

#before_exec ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def before_exec
  @before_exec
end

#before_fork ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def before_fork
  @before_fork
end

#config ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def config
  @config
end

#init_listeners ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def init_listeners
  @init_listeners
end

#listener_opts ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def listener_opts
  @listener_opts
end

#logger ⇒ Object

Returns the value of attribute logger.

# File 'lib/unicorn/http_server.rb', line 21

def logger
  @logger
end

#master_pid ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def master_pid
  @master_pid
end

#orig_app ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def orig_app
  @orig_app
end

#pid ⇒ Object

Returns the value of attribute pid.

# File 'lib/unicorn/http_server.rb', line 21

def pid
  @pid
end

#preload_app ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def preload_app
  @preload_app
end

#ready_pipe ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def ready_pipe
  @ready_pipe
end

#reexec_pid ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def reexec_pid
  @reexec_pid
end

#request ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def request
  @request
end

#timeout ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def timeout
  @timeout
end

#user ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def user
  @user
end

#worker_processes ⇒ Object

:stopdoc:

# File 'lib/unicorn/http_server.rb', line 15

def worker_processes
  @worker_processes
end

Instance Method Details

#check_client_connection ⇒ Object

# File 'lib/unicorn/http_server.rb', line 359

def check_client_connection
  Unicorn::HttpRequest.check_client_connection
end

#check_client_connection=(bool) ⇒ Object

# File 'lib/unicorn/http_server.rb', line 363

def check_client_connection=(bool)
  Unicorn::HttpRequest.check_client_connection = bool
end

#client_body_buffer_size ⇒ Object

# File 'lib/unicorn/http_server.rb', line 343

def client_body_buffer_size
  Unicorn::TeeInput.client_body_buffer_size
end

#client_body_buffer_size=(bytes) ⇒ Object

# File 'lib/unicorn/http_server.rb', line 347

def client_body_buffer_size=(bytes)
  Unicorn::TeeInput.client_body_buffer_size = bytes
end

#join ⇒ Object

monitors children and receives signals forever (or until a termination signal is sent). This handles signals one-at-a-time time and we’ll happily drop signals in case somebody is signalling us too often.

# File 'lib/unicorn/http_server.rb', line 255

def join
  respawn = true
  last_check = Time.now

  proc_name 'master'
  logger.info "master process ready" # test_exec.rb relies on this message
  if @ready_pipe
    @ready_pipe.syswrite($$.to_s)
    @ready_pipe = @ready_pipe.close rescue nil
  end
  begin
    reap_all_workers
    case SIG_QUEUE.shift
    when nil
      # avoid murdering workers after our master process (or the
      # machine) comes out of suspend/hibernation
      if (last_check + @timeout) >= (last_check = Time.now)
        sleep_time = murder_lazy_workers
      else
        sleep_time = @timeout/2.0 + 1
        @logger.debug("waiting #{sleep_time}s after suspend/hibernation")
      end
      maintain_worker_count if respawn
      master_sleep(sleep_time)
    when :QUIT # graceful shutdown
      break
    when :TERM, :INT # immediate shutdown
      stop(false)
      break
    when :USR1 # rotate logs
      logger.info "master reopening logs..."
      Unicorn::Util.reopen_logs
      logger.info "master done reopening logs"
      kill_each_worker(:USR1)
    when :USR2 # exec binary, stay alive in case something went wrong
      reexec
    when :WINCH
      if Unicorn::Configurator::RACKUP[:daemonized]
        respawn = false
        logger.info "gracefully stopping all workers"
        kill_each_worker(:QUIT)
        self.worker_processes = 0
      else
        logger.info "SIGWINCH ignored because we're not daemonized"
      end
    when :TTIN
      respawn = true
      self.worker_processes += 1
    when :TTOU
      self.worker_processes -= 1 if self.worker_processes > 0
    when :HUP
      respawn = true
      if config.config_file
        load_config!
      else # exec binary and exit if there's no config file
        logger.info "config_file not present, reexecuting binary"
        reexec
      end
    end
  rescue => e
    Unicorn.log_error(@logger, "master loop error", e)
  end while true
  stop # gracefully shutdown all workers on our way out
  logger.info "master complete"
  unlink_pid_safe(pid) if pid
end

#listen(address, opt = {}.merge(listener_opts[address] || {})) ⇒ Object

add a given address to the listeners set, idempotently Allows workers to add a private, per-process listener via the after_fork hook. Very useful for debugging and testing. :tries may be specified as an option for the number of times to retry, and :delay may be specified as the time in seconds to delay between retries. A negative value for :tries indicates the listen will be retried indefinitely, this is useful when workers belonging to different masters are spawned during a transparent upgrade.

# File 'lib/unicorn/http_server.rb', line 222

def listen(address, opt = {}.merge(listener_opts[address] || {}))
  address = config.expand_addr(address)
  return if String === address && listener_names.include?(address)

  delay = opt[:delay] || 0.5
  tries = opt[:tries] || 5
  begin
    io = bind_listen(address, opt)
    unless Kgio::TCPServer === io || Kgio::UNIXServer === io
      IO_PURGATORY << io
      io = server_cast(io)
    end
    logger.info "listening on addr=#{sock_name(io)} fd=#{io.fileno}"
    LISTENERS << io
    io
  rescue Errno::EADDRINUSE => err
    logger.error "adding listener failed addr=#{address} (in use)"
    raise err if tries == 0
    tries -= 1
    logger.error "retrying in #{delay} seconds " \
                 "(#{tries < 0 ? 'infinite' : tries} tries left)"
    sleep(delay)
    retry
  rescue => err
    logger.fatal "error adding listener addr=#{address}"
    raise err
  end
end

#listeners=(listeners) ⇒ Object

replaces current listener set with listeners. This will close the socket if it will not exist in the new listener set

# File 'lib/unicorn/http_server.rb', line 148

def listeners=(listeners)
  cur_names, dead_names = [], []
  listener_names.each do |name|
    if ?/ == name[0]
      # mark unlinked sockets as dead so we can rebind them
      (File.socket?(name) ? cur_names : dead_names) << name
    else
      cur_names << name
    end
  end
  set_names = listener_names(listeners)
  dead_names.concat(cur_names - set_names).uniq!

  LISTENERS.delete_if do |io|
    if dead_names.include?(sock_name(io))
      IO_PURGATORY.delete_if do |pio|
        pio.fileno == io.fileno && (pio.close rescue nil).nil? # true
      end
      (io.close rescue nil).nil? # true
    else
      set_server_sockopt(io, listener_opts[sock_name(io)])
      false
    end
  end

  (set_names - cur_names).each { |addr| listen(addr) }
end

#rewindable_input ⇒ Object

# File 'lib/unicorn/http_server.rb', line 334

def rewindable_input
  Unicorn::HttpRequest.input_class.method_defined?(:rewind)
end

#rewindable_input=(bool) ⇒ Object

# File 'lib/unicorn/http_server.rb', line 338

def rewindable_input=(bool)
  Unicorn::HttpRequest.input_class = bool ?
                              Unicorn::TeeInput : Unicorn::StreamInput
end

#start ⇒ Object

Runs the thing. Returns self so you can run join on it

# File 'lib/unicorn/http_server.rb', line 126

def start
  inherit_listeners!
  # this pipe is used to wake us up from select(2) in #join when signals
  # are trapped.  See trap_deferred.
  init_self_pipe!

  # setup signal handlers before writing pid file in case people get
  # trigger happy and send signals as soon as the pid file exists.
  # Note that signals don't actually get handled until the #join method
  QUEUE_SIGS.each { |sig| trap(sig) { SIG_QUEUE << sig; awaken_master } }
  trap(:CHLD) { awaken_master }
  self.pid = config[:pid]

  self.master_pid = $$
  build_app! if preload_app
  bind_new_listeners!
  spawn_missing_workers
  self
end

#stderr_path=(path) ⇒ Object

# File 'lib/unicorn/http_server.rb', line 177

def stderr_path=(path); redirect_io($stderr, path); end

#stdout_path=(path) ⇒ Object

# File 'lib/unicorn/http_server.rb', line 176

def stdout_path=(path); redirect_io($stdout, path); end

#stop(graceful = true) ⇒ Object

Terminates all workers, but does not exit master process

# File 'lib/unicorn/http_server.rb', line 323

def stop(graceful = true)
  self.listeners = []
  limit = Time.now + timeout
  until WORKERS.empty? || Time.now > limit
    kill_each_worker(graceful ? :QUIT : :TERM)
    sleep(0.1)
    reap_all_workers
  end
  kill_each_worker(:KILL)
end

#trust_x_forwarded ⇒ Object

# File 'lib/unicorn/http_server.rb', line 351

def trust_x_forwarded
  Unicorn::HttpParser.trust_x_forwarded?
end

#trust_x_forwarded=(bool) ⇒ Object

# File 'lib/unicorn/http_server.rb', line 355

def trust_x_forwarded=(bool)
  Unicorn::HttpParser.trust_x_forwarded = bool
end