module Puma
# The methods that are available for use inside the config file.
#
class DSL
include ConfigDefault
def self.load(options, cfg, path)
d = new(options, cfg)
d._load_from(path)
options
ensure
d._offer_plugins
end
def initialize(options, config)
@config = config
@options = options
@plugins = []
end
def _load_from(path)
if path
@path = path
instance_eval(File.read(path), path, 1)
end
ensure
_offer_plugins
end
def _offer_plugins
@plugins.each do |o|
if o.respond_to? :config
@options.shift
o.config self
end
end
@plugins.clear
end
def _run(&blk)
blk.call self
ensure
_offer_plugins
end
def inject(&blk)
instance_eval(&blk)
end
# Load configuration from another named file. If the file name is absolute,
# load the file as an absolute path. Otherwise load it relative to the
# current config file.
#
def import(file)
if File.extname(file) == ""
file += ".rb"
end
if file[0,1] == "/"
path = file
elsif @path
path = File.join File.dirname(@path), file
else
raise "No original configuration path to import relative to"
end
DSL.new(@options, @config)._load_from(path)
end
def get(key,default=nil)
@options[key.to_sym] || default
end
# Load the named plugin for use by this configuration
#
def plugin(name)
@plugins << @config.load_plugin(name)
end
# Use +obj+ or +block+ as the Rack app. This allows a config file to
# be the app itself.
#
def app(obj=nil, &block)
obj ||= block
raise "Provide either a #call'able or a block" unless obj
@options[:app] = obj
end
# Start the Puma control rack app on +url+. This app can be communicated
# with to control the main server.
#
def activate_control_app(url="auto", opts={})
if url == "auto"
path = Configuration.temp_path
@options[:control_url] = "unix://#{path}"
@options[:control_url_temp] = path
else
@options[:control_url] = url
end
if opts[:no_token]
auth_token = :none
else
auth_token = opts[:auth_token]
auth_token ||= Configuration.random_token
end
@options[:control_auth_token] = auth_token
@options[:control_url_umask] = opts[:umask] if opts[:umask]
end
# Load additional configuration from a file
def load(file)
_ary(:config_files) << file
end
# Bind the server to +url+. tcp:// and unix:// are the only accepted
# protocols.
#
def bind(url)
_ary(:binds) << url
end
# Define the TCP port to bind to. Use +bind+ for more advanced options.
#
def port(port, host=nil)
host ||= Configuration::DefaultTCPHost
bind "tcp://#{host}:#{port}"
end
# Work around leaky apps that leave garbage in Thread locals
# across requests
#
def clean_thread_locals(which=true)
@options[:clean_thread_locals] = which
end
# Daemonize the server into the background. Highly suggest that
# this be combined with +pidfile+ and +stdout_redirect+.
def daemonize(which=true)
@options[:daemon] = which
end
# When shutting down, drain the accept socket of pending
# connections and proces them. This loops over the accept
# socket until there are no more read events and then stops
# looking and waits for the requests to finish.
def drain_on_shutdown(which=true)
@options[:drain_on_shutdown] = which
end
# Set the environment in which the Rack's app will run.
def environment(environment)
@options[:environment] = environment
end
# Code to run before doing a restart. This code should
# close logfiles, database connections, etc.
#
# This can be called multiple times to add code each time.
#
def on_restart(&block)
_ary(:on_restart) << block
end
# Command to use to restart puma. This should be just how to
# load puma itself (ie. 'ruby -Ilib bin/puma'), not the arguments
# to puma, as those are the same as the original process.
#
def restart_command(cmd)
@options[:restart_cmd] = cmd.to_s
end
# Store the pid of the server in the file at +path+.
def pidfile(path)
@options[:pidfile] = path.to_s
end
# Disable request logging.
#
def quiet(which=true)
@options[:log_requests] = !which
end
# Enable request logging
#
def log_requests(which=true)
@options[:log_requests] = which
end
# Show debugging info
#
def debug
@options[:debug] = true
end
# Load +path+ as a rackup file.
#
def rackup(path)
@options[:rackup] = path.to_s
end
# Run Puma in TCP mode
#
def tcp_mode!
@options[:mode] = :tcp
end
# Redirect STDOUT and STDERR to files specified.
def stdout_redirect(stdout=nil, stderr=nil, append=false)
@options[:redirect_stdout] = stdout
@options[:redirect_stderr] = stderr
@options[:redirect_append] = append
end
# Configure +min+ to be the minimum number of threads to use to answer
# requests and +max+ the maximum.
#
def threads(min, max)
min = Integer(min)
max = Integer(max)
if min > max
raise "The minimum (#{min}) number of threads must be less than or equal to the max (#{max})"
end
if max < 1
raise "The maximum number of threads (#{max}) must be greater than 0"
end
@options[:min_threads] = min
@options[:max_threads] = max
end
def ssl_bind(host, port, opts)
if defined?(JRUBY_VERSION)
keystore_additions = "keystore=#{opts[:keystore]}&keystore-pass=#{opts[:keystore_pass]}"
bind "ssl://#{host}:#{port}?cert=#{opts[:cert]}&key=#{opts[:key]}&#{keystore_additions}"
else
bind "ssl://#{host}:#{port}?cert=#{opts[:cert]}&key=#{opts[:key]}"
end
end
# Use +path+ as the file to store the server info state. This is
# used by pumactl to query and control the server.
#
def state_path(path)
@options[:state] = path.to_s
end
# *Cluster mode only* How many worker processes to run.
#
def workers(count)
@options[:workers] = count.to_i
end
# *Cluster mode only* Code to run immediately before master process
# forks workers (once on boot). These hooks can block if necessary
# to wait for background operations unknown to puma to finish before
# the process terminates.
# This can be used to close any connections to remote servers (database, redis, ...)
# that were opened when preloading the code
#
# This can be called multiple times to add hooks.
#
def before_fork(&block)
_ary(:before_fork) << block
end
# *Cluster mode only* Code to run immediately before a worker shuts
# down (after it has finished processing HTTP requests). These hooks
# can block if necessary to wait for background operations unknown
# to puma to finish before the process terminates.
#
# This can be called multiple times to add hooks.
#
def on_worker_shutdown(&block)
_ary(:before_worker_shutdown) << block
end
# *Cluster mode only* Code to run when a worker boots to setup
# the process before booting the app.
#
# This can be called multiple times to add hooks.
#
def on_worker_boot(&block)
_ary(:before_worker_boot) << block
end
# *Cluster mode only* Code to run when a master process is
# about to create the worker by forking itself.
#
# This can be called multiple times to add hooks.
#
def on_worker_fork(&block)
_ary(:before_worker_fork) << block
end
# *Cluster mode only* Code to run when a worker boots to setup
# the process after booting the app.
#
# This can be called multiple times to add hooks.
#
def after_worker_boot(&block)
_ary(:after_worker_fork) << block
end
# The directory to operate out of.
def directory(dir)
@options[:directory] = dir.to_s
end
# DEPRECATED: The directory to operate out of.
def worker_directory(dir)
$stderr.puts "worker_directory is deprecated. Please use `directory`"
directory dir
end
# Run the app as a raw TCP app instead of an HTTP rack app
def tcp_mode
@options[:mode] = :tcp
end
# *Cluster mode only* Preload the application before starting
# the workers and setting up the listen ports. This conflicts
# with using the phased restart feature, you can't use both.
#
def preload_app!(answer=true)
@options[:preload_app] = answer
end
# Use +obj+ or +block+ as the low level error handler. This allows a config file to
# change the default error on the server.
#
def lowlevel_error_handler(obj=nil, &block)
obj ||= block
raise "Provide either a #call'able or a block" unless obj
@options[:lowlevel_error_handler] = obj
end
# This option is used to allow your app and its gems to be
# properly reloaded when not using preload.
#
# When set, if puma detects that it's been invoked in the
# context of Bundler, it will cleanup the environment and
# re-run itself outside the Bundler environment, but directly
# using the files that Bundler has setup.
#
# This means that puma is now decoupled from your Bundler
# context and when each worker loads, it will be loading a
# new Bundler context and thus can float around as the release
# dictates.
def prune_bundler(answer=true)
@options[:prune_bundler] = answer
end
# Additional text to display in process listing
def tag(string)
@options[:tag] = string.to_s
end
# *Cluster mode only* Set the timeout for workers in seconds
# When set the master process will terminate any workers
# that have not checked in within the given +timeout+.
# This mitigates hung processes. Default value is 60 seconds.
def worker_timeout(timeout)
@options[:worker_timeout] = timeout
end
# *Cluster mode only* Set the timeout for workers to boot
def worker_boot_timeout(timeout)
@options[:worker_boot_timeout] = timeout
end
# *Cluster mode only* Set the timeout for worker shutdown
def worker_shutdown_timeout(timeout)
@options[:worker_shutdown_timeout] = timeout
end
# When set to true (the default), workers accept all requests
# and queue them before passing them to the handlers.
# When set to false, each worker process accepts exactly as
# many requests as it is configured to simultaneously handle.
#
# Queueing requests generally improves performance. In some
# cases, such as a single threaded application, it may be
# better to ensure requests get balanced across workers.
#
# Note that setting this to false disables HTTP keepalive and
# slow clients will occupy a handler thread while the request
# is being sent. A reverse proxy, such as nginx, can handle
# slow clients and queue requests before they reach puma.
def queue_requests(answer=true)
@options[:queue_requests] = answer
end
# When a shutdown is requested, the backtraces of all the
# threads will be written to $stdout. This can help figure
# out why shutdown is hanging.
def shutdown_debug(val=true)
@options[:shutdown_debug] = val
end
# Control how the remote address of the connection is set. This
# is configurable because to calculate the true socket peer address
# a kernel syscall is required which for very fast rack handlers
# slows down the handling significantly.
#
# There are 4 possible values:
#
# * :socket (the default) - read the peername from the socket using the
# syscall. This is the normal behavior.
# * :localhost - set the remote address to "127.0.0.1"
# * header: http_header - set the remote address to the value of the
# provided http header. For instance:
# `set_remote_address header: "X-Real-IP"`.
# Only the first word (as separated by spaces or comma)
# is used, allowing headers such as X-Forwarded-For
# to be used as well.
# * Any string - this allows you to hardcode remote address to any value
# you wish. Because puma never uses this field anyway, it's
# format is entirely in your hands.
def set_remote_address(val=:socket)
case val
when :socket
@options[:remote_address] = val
when :localhost
@options[:remote_address] = :value
@options[:remote_address_value] = "127.0.0.1".freeze
when String
@options[:remote_address] = :value
@options[:remote_address_value] = val
when Hash
if hdr = val[:header]
@options[:remote_address] = :header
@options[:remote_address_header] = "HTTP_" + hdr.upcase.gsub("-", "_")
else
raise "Invalid value for set_remote_address - #{val.inspect}"
end
else
raise "Invalid value for set_remote_address - #{val}"
end
end
private
def _ary(key)
(@options.cur[key] ||= [])
end
end
end