# frozen_string_literal: true require 'puma/const' require 'puma/util' module Puma # The methods that are available for use inside the configuration file. # These same methods are used in Puma cli and the rack handler # internally. # # Used manually (via CLI class): # # config = Configuration.new({}) do |user_config| # user_config.port 3001 # end # config.load # # puts config.options[:binds] # => "tcp://127.0.0.1:3001" # # Used to load file: # # $ cat puma_config.rb # port 3002 # # Resulting configuration: # # config = Configuration.new(config_file: "puma_config.rb") # config.load # # puts config.options[:binds] # => "tcp://127.0.0.1:3002" # # You can also find many examples being used by the test suite in # +test/config+. # class DSL include ConfigDefault # convenience method so logic can be used in CI # @see ssl_bind # def self.ssl_bind_str(host, port, opts) verify = opts.fetch(:verify_mode, 'none').to_s tls_str = if opts[:no_tlsv1_1] then '&no_tlsv1_1=true' elsif opts[:no_tlsv1] then '&no_tlsv1=true' else '' end ca_additions = "&ca=#{Puma::Util.escape(opts[:ca])}" if ['peer', 'force_peer'].include?(verify) backlog_str = opts[:backlog] ? "&backlog=#{Integer(opts[:backlog])}" : '' if defined?(JRUBY_VERSION) ssl_cipher_list = opts[:ssl_cipher_list] ? "&ssl_cipher_list=#{opts[:ssl_cipher_list]}" : nil keystore_additions = "keystore=#{opts[:keystore]}&keystore-pass=#{opts[:keystore_pass]}" "ssl://#{host}:#{port}?#{keystore_additions}#{ssl_cipher_list}" \ "&verify_mode=#{verify}#{tls_str}#{ca_additions}#{backlog_str}" else ssl_cipher_filter = opts[:ssl_cipher_filter] ? "&ssl_cipher_filter=#{opts[:ssl_cipher_filter]}" : nil v_flags = (ary = opts[:verification_flags]) ? "&verification_flags=#{Array(ary).join ','}" : nil cert_flags = (cert = opts[:cert]) ? "cert=#{Puma::Util.escape(cert)}" : nil key_flags = (key = opts[:key]) ? "&key=#{Puma::Util.escape(key)}" : nil "ssl://#{host}:#{port}?#{cert_flags}#{key_flags}" \ "#{ssl_cipher_filter}&verify_mode=#{verify}#{tls_str}#{ca_additions}#{v_flags}#{backlog_str}" end 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 set_default_host(host) @options[:default_host] = host end def default_host @options[:default_host] || Configuration::DefaultTCPHost end def inject(&blk) instance_eval(&blk) 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 an object or block as the rack application. This allows the # configuration file to be the application itself. # # @example # app do |env| # body = 'Hello, World!' # # [ # 200, # { # 'Content-Type' => 'text/plain', # 'Content-Length' => body.length.to_s # }, # [body] # ] # end # # @see Puma::Configuration#app # 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 application on +url+. This application can # be communicated with to control the main server. Additionally, you can # provide an authentication token, so all requests to the control server # will need to include that token as a query parameter. This allows for # simple authentication. # # Check out {Puma::App::Status} to see what the app has available. # # @example # activate_control_app 'unix:///var/run/pumactl.sock' # @example # activate_control_app 'unix:///var/run/pumactl.sock', { auth_token: '12345' } # @example # activate_control_app 'unix:///var/run/pumactl.sock', { no_token: true } 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] # We need to use 'none' rather than :none because this value will be # passed on to an instance of OptionParser, which doesn't support # symbols as option values. # # See: https://github.com/puma/puma/issues/1193#issuecomment-305995488 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 # Files get loaded later via Configuration#load def load(file) @options[:config_files] ||= [] @options[:config_files] << file end # Bind the server to +url+. "tcp://", "unix://" and "ssl://" are the only # accepted protocols. Multiple urls can be bound to, calling +bind+ does # not overwrite previous bindings. # # The default is "tcp://0.0.0.0:9292". # # You can use query parameters within the url to specify options: # # * Set the socket backlog depth with +backlog+, default is 1024. # * Set up an SSL certificate with +key+ & +cert+. # * Set whether to optimize for low latency instead of throughput with # +low_latency+, default is to not optimize for low latency. This is done # via +Socket::TCP_NODELAY+. # * Set socket permissions with +umask+. # # @example Backlog depth # bind 'unix:///var/run/puma.sock?backlog=512' # @example SSL cert # bind 'ssl://127.0.0.1:9292?key=key.key&cert=cert.pem' # @example Disable optimization for low latency # bind 'tcp://0.0.0.0:9292?low_latency=false' # @example Socket permissions # bind 'unix:///var/run/puma.sock?umask=0111' # @see Puma::Runner#load_and_bind # @see Puma::Cluster#run # def bind(url) @options[:binds] ||= [] @options[:binds] << url end def clear_binds! @options[:binds] = [] end # Bind to (systemd) activated sockets, regardless of configured binds. # # Systemd can present sockets as file descriptors that are already opened. # By default Puma will use these but only if it was explicitly told to bind # to the socket. If not, it will close the activated sockets. This means # all configuration is duplicated. # # Binds can contain additional configuration, but only SSL config is really # relevant since the unix and TCP socket options are ignored. # # This means there is a lot of duplicated configuration for no additional # value in most setups. This method tells the launcher to bind to all # activated sockets, regardless of existing bind. # # To clear configured binds, the value only can be passed. This will clear # out any binds that may have been configured. # # @example Use any systemd activated sockets as well as configured binds # bind_to_activated_sockets # # @example Only bind to systemd activated sockets, ignoring other binds # bind_to_activated_sockets 'only' def bind_to_activated_sockets(bind=true) @options[:bind_to_activated_sockets] = bind end # Define the TCP port to bind to. Use +bind+ for more advanced options. # # @example # port 9292 def port(port, host=nil) host ||= default_host bind URI::Generic.build(scheme: 'tcp', host: host, port: Integer(port)).to_s end # Define how long persistent connections can be idle before Puma closes them. # @see Puma::Server.new def persistent_timeout(seconds) @options[:persistent_timeout] = Integer(seconds) end # Define how long the tcp socket stays open, if no data has been received. # @see Puma::Server.new def first_data_timeout(seconds) @options[:first_data_timeout] = Integer(seconds) 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 # When shutting down, drain the accept socket of pending connections and # process 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. # @see Puma::Server#graceful_shutdown # def drain_on_shutdown(which=true) @options[:drain_on_shutdown] = which end # Set the environment in which the rack's app will run. The value must be # a string. # # The default is "development". # # @example # environment 'production' def environment(environment) @options[:environment] = environment end # How long to wait for threads to stop when shutting them # down. Defaults to :forever. Specifying :immediately will cause # Puma to kill the threads immediately. Otherwise the value # is the number of seconds to wait. # # Puma always waits a few seconds after killing a thread for it to try # to finish up it's work, even in :immediately mode. # @see Puma::Server#graceful_shutdown def force_shutdown_after(val=:forever) i = case val when :forever -1 when :immediately 0 else Float(val) end @options[:force_shutdown_after] = i end # Code to run before doing a restart. This code should # close log files, database connections, etc. # # This can be called multiple times to add code each time. # # @example # on_restart do # puts 'On restart...' # end def on_restart(&block) @options[:on_restart] ||= [] @options[: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. # # @example # restart_command '/u/app/lolcat/bin/restart_puma' def restart_command(cmd) @options[:restart_cmd] = cmd.to_s end # Store the pid of the server in the file at "path". # # @example # pidfile '/u/apps/lolcat/tmp/pids/puma.pid' def pidfile(path) @options[:pidfile] = path.to_s end # Disable request logging, if this isn't used it'll be enabled by default. # # @example # quiet 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. # # The default is "config.ru". # # @example # rackup '/u/apps/lolcat/config.ru' def rackup(path) @options[:rackup] ||= path.to_s end # Allows setting `env['rack.url_scheme']`. # Only necessary if X-Forwarded-Proto is not being set by your proxy # Normal values are 'http' or 'https'. def rack_url_scheme(scheme=nil) @options[:rack_url_scheme] = scheme end def early_hints(answer=true) @options[:early_hints] = answer end # Redirect +STDOUT+ and +STDERR+ to files specified. The +append+ parameter # specifies whether the output is appended, the default is +false+. # # @example # stdout_redirect '/app/lolcat/log/stdout', '/app/lolcat/log/stderr' # @example # stdout_redirect '/app/lolcat/log/stdout', '/app/lolcat/log/stderr', true def stdout_redirect(stdout=nil, stderr=nil, append=false) @options[:redirect_stdout] = stdout @options[:redirect_stderr] = stderr @options[:redirect_append] = append end def log_formatter(&block) @options[:log_formatter] = block end # Configure +min+ to be the minimum number of threads to use to answer # requests and +max+ the maximum. # # The default is the environment variables +PUMA_MIN_THREADS+ / +PUMA_MAX_THREADS+ # (or +MIN_THREADS+ / +MAX_THREADS+ if the +PUMA_+ variables aren't set). # # If these environment variables aren't set, the default is "0, 5" in MRI or "0, 16" for other interpreters. # # @example # threads 0, 16 # @example # threads 5, 5 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 # Instead of using +bind+ and manually constructing a URI like: # # bind 'ssl://127.0.0.1:9292?key=key_path&cert=cert_path' # # you can use the this method. # # When binding on localhost you don't need to specify +cert+ and +key+, # Puma will assume you are using the +localhost+ gem and try to load the # appropriate files. # # @example # ssl_bind '127.0.0.1', '9292', { # cert: path_to_cert, # key: path_to_key, # ssl_cipher_filter: cipher_filter, # optional # verify_mode: verify_mode, # default 'none' # verification_flags: flags, # optional, not supported by JRuby # } # # @example Using self-signed certificate with the +localhost+ gem: # ssl_bind '127.0.0.1', '9292' # # @example Alternatively, you can provide +cert_pem+ and +key_pem+: # ssl_bind '127.0.0.1', '9292', { # cert_pem: File.read(path_to_cert), # key_pem: File.read(path_to_key), # } # # @example For JRuby, two keys are required: +keystore+ & +keystore_pass+ # ssl_bind '127.0.0.1', '9292', { # keystore: path_to_keystore, # keystore_pass: password, # ssl_cipher_list: cipher_list, # optional # verify_mode: verify_mode # default 'none' # } def ssl_bind(host, port, opts = {}) add_pem_values_to_options_store(opts) bind self.class.ssl_bind_str(host, port, opts) end # Use +path+ as the file to store the server info state. This is # used by +pumactl+ to query and control the server. # # @example # state_path '/u/apps/lolcat/tmp/pids/puma.state' def state_path(path) @options[:state] = path.to_s end # Use +permission+ to restrict permissions for the state file. # # @example # state_permission 0600 # @version 5.0.0 # def state_permission(permission) @options[:state_permission] = permission end # How many worker processes to run. Typically this is set to # the number of available cores. # # The default is the value of the environment variable +WEB_CONCURRENCY+ if # set, otherwise 0. # # @note Cluster mode only. # @see Puma::Cluster def workers(count) @options[:workers] = count.to_i end # Disable warning message when running in cluster mode with a single worker. # # Cluster mode has some overhead of running an additional 'control' process # in order to manage the cluster. If only running a single worker it is # likely not worth paying that overhead vs running in single mode with # additional threads instead. # # There are some scenarios where running cluster mode with a single worker # may still be warranted and valid under certain deployment scenarios, see # https://github.com/puma/puma/issues/2534 # # Moving from workers = 1 to workers = 0 will save 10-30% of memory use. # # @note Cluster mode only. def silence_single_worker_warning @options[:silence_single_worker_warning] = true end # 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 several hooks. # # @note Cluster mode only. # @example # before_fork do # puts "Starting workers..." # end def before_fork(&block) @options[:before_fork] ||= [] @options[:before_fork] << block end # Code to run in a worker when it boots to setup # the process before booting the app. # # This can be called multiple times to add several hooks. # # @note Cluster mode only. # @example # on_worker_boot do # puts 'Before worker boot...' # end def on_worker_boot(&block) @options[:before_worker_boot] ||= [] @options[:before_worker_boot] << block end # 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 several hooks. # # @note Cluster mode only. # @example # on_worker_shutdown do # puts 'On worker shutdown...' # end def on_worker_shutdown(&block) @options[:before_worker_shutdown] ||= [] @options[:before_worker_shutdown] << block end # Code to run in the master right before a worker is started. The worker's # index is passed as an argument. # # This can be called multiple times to add several hooks. # # @note Cluster mode only. # @example # on_worker_fork do # puts 'Before worker fork...' # end def on_worker_fork(&block) @options[:before_worker_fork] ||= [] @options[:before_worker_fork] << block end # Code to run in the master after a worker has been started. The worker's # index is passed as an argument. # # This is called everytime a worker is to be started. # # @note Cluster mode only. # @example # after_worker_fork do # puts 'After worker fork...' # end def after_worker_fork(&block) @options[:after_worker_fork] ||= [] @options[:after_worker_fork] << block end alias_method :after_worker_boot, :after_worker_fork # When `fork_worker` is enabled, code to run in Worker 0 # before all other workers are re-forked from this process, # after the server has temporarily stopped serving requests # (once per complete refork cycle). # # This can be used to trigger extra garbage-collection to maximize # copy-on-write efficiency, or close any connections to remote servers # (database, Redis, ...) that were opened while the server was running. # # This can be called multiple times to add several hooks. # # @note Cluster mode with `fork_worker` enabled only. # @example # on_refork do # 3.times {GC.start} # end # @version 5.0.0 # def on_refork(&block) @options[:before_refork] ||= [] @options[:before_refork] << block end # Code to run out-of-band when the worker is idle. # These hooks run immediately after a request has finished # processing and there are no busy threads on the worker. # The worker doesn't accept new requests until this code finishes. # # This hook is useful for running out-of-band garbage collection # or scheduling asynchronous tasks to execute after a response. # # This can be called multiple times to add several hooks. def out_of_band(&block) @options[:out_of_band] ||= [] @options[:out_of_band] << block end # The directory to operate out of. # # The default is the current directory. # # @example # directory '/u/apps/lolcat' def directory(dir) @options[:directory] = dir.to_s end # Preload the application before starting the workers; this conflicts with # phased restart feature. On by default if your app uses more than 1 worker. # # @note Cluster mode only. # @example # preload_app! def preload_app!(answer=true) @options[:preload_app] = answer end # Use +obj+ or +block+ as the low level error handler. This allows the # configuration file to change the default error on the server. # # @example # lowlevel_error_handler do |err| # [200, {}, ["error page"]] # end 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. # # @see extra_runtime_dependencies # # @note This is incompatible with +preload_app!+. # @note This is only supported for RubyGems 2.2+ def prune_bundler(answer=true) @options[:prune_bundler] = answer end # By default, Puma will raise SignalException when SIGTERM is received. In # environments where SIGTERM is something expected, you can suppress these # with this option. # # This can be useful for example in Kubernetes, where rolling restart is # guaranteed usually on infrastructure level. # # @example # raise_exception_on_sigterm false # @see Puma::Launcher#setup_signals # @see Puma::Cluster#setup_signals # def raise_exception_on_sigterm(answer=true) @options[:raise_exception_on_sigterm] = answer end # When using prune_bundler, if extra runtime dependencies need to be loaded to # initialize your app, then this setting can be used. This includes any Puma plugins. # # Before bundler is pruned, the gem names supplied will be looked up in the bundler # context and then loaded again after bundler is pruned. # Only applies if prune_bundler is used. # # @example # extra_runtime_dependencies ['gem_name_1', 'gem_name_2'] # @example # extra_runtime_dependencies ['puma_worker_killer', 'puma-heroku'] # @see Puma::Launcher#extra_runtime_deps_directories # def extra_runtime_dependencies(answer = []) @options[:extra_runtime_dependencies] = Array(answer) end # Additional text to display in process listing. # # If you do not specify a tag, Puma will infer it. If you do not want Puma # to add a tag, use an empty string. # # @example # tag 'app name' # @example # tag '' def tag(string) @options[:tag] = string.to_s end # Change the default interval for checking workers. # # The default value is 5 seconds. # # @note Cluster mode only. # @example # worker_check_interval 5 # @see Puma::Cluster#check_workers # def worker_check_interval(interval) @options[:worker_check_interval] = Integer(interval) end # Verifies that all workers have checked in to the master process within # the given timeout. If not the worker process will be restarted. This is # not a request timeout, it is to protect against a hung or dead process. # Setting this value will not protect against slow requests. # # The minimum value is 6 seconds, the default value is 60 seconds. # # @note Cluster mode only. # @example # worker_timeout 60 # @see Puma::Cluster::Worker#ping_timeout # def worker_timeout(timeout) timeout = Integer(timeout) min = @options.fetch(:worker_check_interval, Puma::ConfigDefault::DefaultWorkerCheckInterval) if timeout <= min raise "The minimum worker_timeout must be greater than the worker reporting interval (#{min})" end @options[:worker_timeout] = timeout end # Change the default worker timeout for booting. # # If unspecified, this defaults to the value of worker_timeout. # # @note Cluster mode only. # # @example # worker_boot_timeout 60 # @see Puma::Cluster::Worker#ping_timeout # def worker_boot_timeout(timeout) @options[:worker_boot_timeout] = Integer(timeout) end # Set the timeout for worker shutdown. # # @note Cluster mode only. # @see Puma::Cluster::Worker#term # def worker_shutdown_timeout(timeout) @options[:worker_shutdown_timeout] = Integer(timeout) end # Set the strategy for worker culling. # # There are two possible values: # # 1. **:youngest** - the youngest workers (i.e. the workers that were # the most recently started) will be culled. # 2. **:oldest** - the oldest workers (i.e. the workers that were started # the longest time ago) will be culled. # # @note Cluster mode only. # @example # worker_culling_strategy :oldest # @see Puma::Cluster#cull_workers # def worker_culling_strategy(strategy) stategy = strategy.to_sym if ![:youngest, :oldest].include?(strategy) raise "Invalid value for worker_culling_strategy - #{stategy}" end @options[:worker_culling_strategy] = strategy 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. # @see Puma::Server 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 # Attempts to route traffic to less-busy workers by causing them to delay # listening on the socket, allowing workers which are not processing any # requests to pick up new requests first. # # Only works on MRI. For all other interpreters, this setting does nothing. # @see Puma::Server#handle_servers # @see Puma::ThreadPool#wait_for_less_busy_worker # @version 5.0.0 # def wait_for_less_busy_worker(val=0.005) @options[:wait_for_less_busy_worker] = val.to_f 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 5 possible values: # # 1. **:socket** (the default) - read the peername from the socket using the # syscall. This is the normal behavior. If this fails for any reason (e.g., # if the peer disconnects between the connection being accepted and the getpeername # system call), Puma will return "0.0.0.0" # 2. **:localhost** - set the remote address to "127.0.0.1" # 3. **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. If this header is absent, # Puma will fall back to the behavior of :socket # 4. **proxy_protocol: :v1**- set the remote address to the value read from the # HAproxy PROXY protocol, version 1. If the request does not have the PROXY # protocol attached to it, will fall back to :socket # 5. **\** - 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.tr("-", "_") elsif protocol_version = val[:proxy_protocol] @options[:remote_address] = :proxy_protocol protocol_version = protocol_version.downcase.to_sym unless [:v1].include?(protocol_version) raise "Invalid value for proxy_protocol - #{protocol_version.inspect}" end @options[:remote_address_proxy_protocol] = protocol_version else raise "Invalid value for set_remote_address - #{val.inspect}" end else raise "Invalid value for set_remote_address - #{val}" end end # When enabled, workers will be forked from worker 0 instead of from the master process. # This option is similar to `preload_app` because the app is preloaded before forking, # but it is compatible with phased restart. # # This option also enables the `refork` command (SIGURG), which optimizes copy-on-write performance # in a running app. # # A refork will automatically trigger once after the specified number of requests # (default 1000), or pass 0 to disable auto refork. # # @note Cluster mode only. # @version 5.0.0 # def fork_worker(after_requests=1000) @options[:fork_worker] = Integer(after_requests) end # When enabled, Puma will GC 4 times before forking workers. # If available (Ruby 2.7+), we will also call GC.compact. # Not recommended for non-MRI Rubies. # # Based on the work of Koichi Sasada and Aaron Patterson, this option may # decrease memory utilization of preload-enabled cluster-mode Pumas. It will # also increase time to boot and fork. See your logs for details on how much # time this adds to your boot process. For most apps, it will be less than one # second. # # @see Puma::Cluster#nakayoshi_gc # @version 5.0.0 # def nakayoshi_fork(enabled=true) @options[:nakayoshi_fork] = enabled end # The number of requests to attempt inline before sending a client back to # the reactor to be subject to normal ordering. # def max_fast_inline(num_of_requests) @options[:max_fast_inline] = Float(num_of_requests) end # Specify the backend for the IO selector. # # Provided values will be passed directly to +NIO::Selector.new+, with the # exception of +:auto+ which will let nio4r choose the backend. # # Check the documentation of +NIO::Selector.backends+ for the list of valid # options. Note that the available options on your system will depend on the # operating system. If you want to use the pure Ruby backend (not # recommended due to its comparatively low performance), set environment # variable +NIO4R_PURE+ to +true+. # # The default is +:auto+. # # @see https://github.com/socketry/nio4r/blob/master/lib/nio/selector.rb # def io_selector_backend(backend) @options[:io_selector_backend] = backend.to_sym end def mutate_stdout_and_stderr_to_sync_on_write(enabled=true) @options[:mutate_stdout_and_stderr_to_sync_on_write] = enabled end private # To avoid adding cert_pem and key_pem as URI params, we store them on the # options[:store] from where Puma binder knows how to find and extract them. def add_pem_values_to_options_store(opts) return if defined?(JRUBY_VERSION) @options[:store] ||= [] # Store cert_pem and key_pem to options[:store] if present [:cert, :key].each do |v| opt_key = :"#{v}_pem" if opts[opt_key] index = @options[:store].length @options[:store] << opts[opt_key] opts[v] = "store:#{index}" end end end end end