/debug

Debugging functionality for Ruby

Primary LanguageRubyBSD 2-Clause "Simplified" LicenseBSD-2-Clause

Ruby

debug.rb

This library provides debugging functionality to Ruby.

This debug.rb is replacement of traditional lib/debug.rb standard library which is implemented by set_trace_func. New debug.rb has several advantages:

  • Fast: No performance penalty on non-stepping mode and non-breakpoints.
  • Remote debugging: Support remote debugging natively.
  • Extensible: application can introduce debugging support with several ways:
    • By rdbg command
    • By loading libraries with -r command line option
    • By calling Ruby's method explicitly
  • Misc
    • Support threads (almost done) and ractors (TODO).
    • Support suspending and entering to the console debugging with Ctrl-C at most of timing.
    • Show parameters on backtrace command.
    • Support recording & reply debugging.

Installation

$ gem install debug

or specify -Ipath/to/debug/lib in RUBYOPT or each ruby command-line option, especially for debug this gem development.

If you use Bundler, write the following line to your Gemfile.

gem "debug", ">= 1.0.0"

HOW TO USE

To use a debugger, roughly you will do the following steps:

  1. Set breakpoints.
  2. Run a program with the debugger.
  3. At the breakpoint, enter the debugger console.
  4. Use debug commands.

Invoke with the debugger

There are several options for (1) and (2). Please choose your favorite way.

Modify source code with binding.break (similar to binding.pry or binding.irb)

If you can modify the source code, you can use the debugger by adding require 'debug' line at the top of your program and putting binding.break method (binding.b for short) into lines where you want to stop as breakpoints like binding.pry and binding.irb. After that, you run the program as usual and you will enter the debug console at breakpoints you inserted.

The following example shows the demonstration of binding.break.

$ cat target.rb                        # Sample program
require 'debug'

a = 1
b = 2
binding.break                          # Program will stop here
c = 3
d = 4
binding.break                          # Program will stop here
p [a, b, c, d]

$ ruby target.rb                       # Run the program normally.
DEBUGGER: Session start (pid: 7604)
[1, 10] in target.rb
      1| require 'debug'
      2|
      3| a = 1
      4| b = 2
=>    5| binding.break                 # Now you can see it stops at this line
      6| c = 3
      7| d = 4
      8| binding.break
      9| p [a, b, c, d]
     10|
=>#0    <main> at target.rb:5

(rdbg) info locals                     # You can show local variables
=>#0    <main> at target.rb:5
%self => main
a => 1
b => 2
c => nil
d => nil

(rdbg) continue                        # Continue the execution
[3, 11] in target.rb
      3| a = 1
      4| b = 2
      5| binding.break
      6| c = 3
      7| d = 4
=>    8| binding.break                 # Again the program stops at here
      9| p [a, b, c, d]
     10|
     11| __END__
=>#0    <main> at target.rb:8

(rdbg) info locals                     # And you can see the updated local variables
=>#0    <main> at target.rb:8
%self => main
a => 1
b => 2
c => 3
d => 4

(rdbg) continue
[1, 2, 3, 4]

Invoke the program from the debugger as a traditional debuggers

If you don't want to modify the source code, you can set breakpoints with a debug command break (b for short). Using rdbg command to launch the program without any modifications, you can run the program with the debugger.

$ cat target.rb                        # Sample program
a = 1
b = 2
c = 3
d = 4
p [a, b, c, d]

$ rdbg target.rb                       # run like `ruby target.rb`
DEBUGGER: Session start (pid: 7656)
[1, 7] in target.rb
=>    1| a = 1
      2| b = 2
      3| c = 3
      4| d = 4
      5| p [a, b, c, d]
      6|
      7| __END__
=>#0    <main> at target.rb:1

(rdbg)

rdbg command suspends the program at the beginning of the given script (target.rb in this case) and you can use debug commands. (rdbg) is prompt. Let's set breakpoints on line 3 and line 5 with break command (b for short).

(rdbg) break 3                         # set breakpoint at line 3
#0  BP - Line  /mnt/c/ko1/src/rb/ruby-debug/target.rb:3 (line)

(rdbg) b 5                             # set breakpoint at line 5
#1  BP - Line  /mnt/c/ko1/src/rb/ruby-debug/target.rb:5 (line)

(rdbg) break                           # show all registered breakpoints
#0  BP - Line  /mnt/c/ko1/src/rb/ruby-debug/target.rb:3 (line)
#1  BP - Line  /mnt/c/ko1/src/rb/ruby-debug/target.rb:5 (line)

You can see that two breakpoints are registered. Let's continue the program by continue command.

(rdbg) continue
[1, 7] in target.rb
      1| a = 1
      2| b = 2
=>    3| c = 3
      4| d = 4
      5| p [a, b, c, d]
      6|
      7| __END__
=>#0    <main> at target.rb:3

Stop by #0  BP - Line  /mnt/c/ko1/src/rb/ruby-debug/target.rb:3 (line)

(rdbg)

You can see that we can stop at line 3. Let's see the local variables with info command, and continue. You can also confirm that the program will suspend at line 5 and you can use info command again.

(rdbg) info
=>#0    <main> at target.rb:3
%self => main
a => 1
b => 2
c => nil
d => nil

(rdbg) continue
[1, 7] in target.rb
      1| a = 1
      2| b = 2
      3| c = 3
      4| d = 4
=>    5| p [a, b, c, d]
      6|
      7| __END__
=>#0    <main> at target.rb:5

Stop by #1  BP - Line  /mnt/c/ko1/src/rb/ruby-debug/target.rb:5 (line)

(rdbg) info
=>#0    <main> at target.rb:5
%self => main
a => 1
b => 2
c => 3
d => 4

(rdbg) continue
[1, 2, 3, 4]

By the way, using rdbg command you can suspend your application with C-c (SIGINT) and enter the debug console. It will help that if you want to know what the program is doing.

Use rdbg with commands written in Ruby

If you want to run a command written in Ruby like like rake, rails, bundle, rspec and so on, you can use rdbg -c option.

  • Without -c option, rdbg <name> means that <name> is Ruby script and invoke it like ruby <name> with the debugger.
  • With -c option, rdbg -c <name> means that <name> is command in PATH and simply invoke it with the debugger.

Examples:

  • rdbg -c -- rails server
  • rdbg -c -- bundle exec ruby foo.rb
  • rdbg -c -- bundle exec rake test
  • rdbg -c -- ruby target.rb is same as rdbg target.rb

NOTE: -- is needed to separate the command line options for rdbg and invoking command. For example, rdbg -c rake -T is recognized like rdbg -c -T -- rake. It should be rdbg -c -- rake -T.

NOTE: If you want to use bundler (bundle command), you need to write gem debug line in your Gemfile.

Using VSCode

Like other languages, you can use this debugger on the VSCode.

  1. Install VSCode rdbg Ruby Debugger - Visual Studio Marketplace
  2. Open .rb file (e.g. target.rb)
  3. Register breakpoints with "Toggle breakpoint" in Run menu (or type F9 key)
  4. Choose "Start debugging" in "Run" menu (or type F5 key)
  5. You will see a dialog "Debug command line" and you can choose your favorite command line your want to run.
  6. Chosen command line is invoked with rdbg -c and VSCode shows the details at breakpoints.

Please refer Debugging in Visual Studio Code for operations on VSCode.

You can configure the extension in .vscode/launch.json. Please see the extension page for more details.

Remote debugging

You can use this debugger as a remote debugger. For example, it will help the following situations:

  • Your application does not run on TTY and it is hard to use binding.pry or binding.irb.
    • Your application is running on Docker container and there is no TTY.
    • Your application is running as a daemon.
    • Your application uses pipe for STDIN or STDOUT.
  • Your application is running as a daemon and you want to query the running status (checking a backtrace and so on).

You can run your application as a remote debuggee and the remote debugger console can attach to the debuggee anytime.

Invoke as a remote debuggee

There are two ways to invoke a script as remote debuggee: Use rdbg --open and require debug/open (or debug/open_nonstop).

rdbg --open (or rdbg -O for short)

You can run a script with rdbg --open target.rb command and run a target.rb as a debuggee program. It also opens the network port and suspends at the beginning of target.rb.

$ exe/rdbg --open target.rb
DEBUGGER: Session start (pid: 7773)
DEBUGGER: Debugger can attach via UNIX domain socket (/home/ko1/.ruby-debug-sock/ruby-debug-ko1-7773)
DEBUGGER: wait for debugger connection...

By default, rdbg --open uses UNIX domain socket and generates path name automatically (/home/ko1/.ruby-debug-sock/ruby-debug-ko1-7773 in this case).

You can connect to the debuggee with rdbg --attach command (rdbg -A for short).

$ rdbg -A
[1, 7] in target.rb
=>    1| a = 1
      2| b = 2
      3| c = 3
      4| d = 4
      5| p [a, b, c, d]
      6|
      7| __END__
=>#0    <main> at target.rb:1

(rdbg:remote)

If there is no other opening ports on the default directory, rdbg --attach command chooses the only one opening UNIX domain socket and connect to it. If there are more files, you need to specify the file.

When rdbg --attach connects to the debuggee, you can use any debug commands (set breakpoints, continue the program and so on) like local debug console. When an debuggee program exits, the remote console will also terminate.

NOTE: If you use quit command, only remote console exits and the debuggee program continues to run (and you can connect it again). If you want to exit the debuggee program, use kill command.

If you want to use TCP/IP for the remote debugging, you need to specify the port and host with --port like rdbg --open --port 12345 and it binds to localhost:12345.

To connect to the debuggee, you need to specify the port.

$ rdbg --attach 12345

If you want to choose the host to bind, you can use --host option. Note that all messages communicated between the debugger and the debuggee are NOT encrypted so please use remote debugging carefully.

require 'debug/open' in a program

If you can modify the program, you can open debugging port by adding require 'debug/open' line in the program.

If you don't want to stop the program at the beginning, you can also use require 'debug/open_nonstop'. Using debug/open_nonstop is useful if you want to open a backdoor to the application. However, it is also danger because it can become another vulnerability. Please use it carefully.

By default, UNIX domain socket is used for the debugging port. To use TCP/IP, you can set the RUBY_DEBUG_PORT environment variable.

$ RUBY_DEBUG_PORT=12345 ruby target.rb

Configuration

You can configure the debugger's behavior with debug commands and environment variables. When the debug session is started, initial scripts are loaded so you can put your favorite configurations in the initial scripts.

Configuration list

You can configure debugger's behavior with environment variables and config command. Each configuration has environment variable and the name which can be specified by config command.

# configuration example
config set log_level INFO
config set no_color true
  • UI

    • RUBY_DEBUG_LOG_LEVEL (log_level): Log level same as Logger (default: WARN)
    • RUBY_DEBUG_SHOW_SRC_LINES (show_src_lines): Show n lines source code on breakpoint (default: 10 lines)
    • RUBY_DEBUG_SHOW_FRAMES (show_frames): Show n frames on breakpoint (default: 2 frames)
    • RUBY_DEBUG_USE_SHORT_PATH (use_short_path): Show shorten PATH (like $(Gem)/foo.rb)
    • RUBY_DEBUG_NO_COLOR (no_color): Do not use colorize (default: false)
    • RUBY_DEBUG_NO_SIGINT_HOOK (no_sigint_hook): Do not suspend on SIGINT (default: false)
    • RUBY_DEBUG_NO_RELINE (no_reline): Do not use Reline library (default: false)
  • CONTROL

    • RUBY_DEBUG_SKIP_PATH (skip_path): Skip showing/entering frames for given paths (default: [])
    • RUBY_DEBUG_SKIP_NOSRC (skip_nosrc): Skip on no source code lines (default: false)
    • RUBY_DEBUG_KEEP_ALLOC_SITE (keep_alloc_site): Keep allocation site and p, pp shows it (default: false)
    • RUBY_DEBUG_POSTMORTEM (postmortem): Enable postmortem debug (default: false)
    • RUBY_DEBUG_PARENT_ON_FORK (parent_on_fork): Keep debugging parent process on fork (default: false)
    • RUBY_DEBUG_SIGDUMP_SIG (sigdump_sig): Sigdump signal (default: disabled)
  • BOOT

    • RUBY_DEBUG_NONSTOP (nonstop): Nonstop mode
    • RUBY_DEBUG_STOP_AT_LOAD (stop_at_load): Stop at just loading location
    • RUBY_DEBUG_INIT_SCRIPT (init_script): debug command script path loaded at first stop
    • RUBY_DEBUG_COMMANDS (commands): debug commands invoked at first stop. commands should be separated by ';;'
    • RUBY_DEBUG_NO_RC (no_rc): ignore loading ~/.rdbgrc(.rb)
  • REMOTE

    • RUBY_DEBUG_PORT (port): TCP/IP remote debugging: port
    • RUBY_DEBUG_HOST (host): TCP/IP remote debugging: host (localhost if not given)
    • RUBY_DEBUG_SOCK_PATH (sock_path): UNIX Domain Socket remote debugging: socket path
    • RUBY_DEBUG_SOCK_DIR (sock_dir): UNIX Domain Socket remote debugging: socket directory
    • RUBY_DEBUG_COOKIE (cookie): Cookie for negotiation

Initial scripts

If there is ~/.rdbgrc, the file is loaded as an initial script (which contains debug commands) when the debug session is started.

  • RUBY_DEBUG_INIT_SCRIPT environment variable can specify the initial script file.
  • You can specify the initial script with rdbg -x initial_script (like gdb's -x option).

Initial scripts are useful to write your favorite configurations. For example, you can set break points with break file:123 in ~/.rdbgrc.

If there are ~/.rdbgrc.rb is available, it is also loaded as a ruby script at same timing.

Debug command on the debug console

On the debug console, you can use the following debug commands.

There are additional features:

  • <expr> without debug command is almost same as pp <expr>.
    • If the input line <expr> does NOT start with any debug command, the line <expr> will be evaluated as a Ruby expression and the result will be printed with pp method. So that the input foo.bar is same as pp foo.bar.
    • If <expr> is recognized as a debug command, of course it is not evaluated as a Ruby expression, but is executed as debug command. For example, you can not evaluate such single letter local variables i, b, n, c because they are single letter debug commands. Use p i instead.
  • Enter without any input repeats the last command (useful when repeating steps).
  • Ctrl-D is equal to quit command.
  • debug command compare sheet - Google Sheets

You can use the following debug commands. Each command should be written in 1 line. The [...] notation means this part can be eliminate. For example, s[tep] means s or step are valid command. ste is not valid. The <...> notation means the argument.

Control flow

  • s[tep]
    • Step in. Resume the program until next breakable point.
  • s[tep] <n>
    • Step in, resume the program at <n>th breakable point.
  • n[ext]
    • Step over. Resume the program until next line.
  • n[ext] <n>
    • Step over, same as step <n>.
  • fin[ish]
    • Finish this frame. Resume the program until the current frame is finished.
  • fin[ish] <n>
    • Finish frames, same as step <n>.
  • c[ontinue]
    • Resume the program.
  • q[uit] or Ctrl-D
    • Finish debugger (with the debuggee process on non-remote debugging).
  • q[uit]!
    • Same as q[uit] but without the confirmation prompt.
  • kill
    • Stop the debuggee process with Kernal#exit!.
  • kill!
    • Same as kill but without the confirmation prompt.
  • sigint
    • Execute SIGINT handler registerred by the debuggee.
    • Note that this command should be used just after stop by SIGINT.

Breakpoint

  • b[reak]
    • Show all breakpoints.
  • b[reak] <line>
    • Set breakpoint on <line> at the current frame's file.
  • b[reak] <file>:<line> or <file> <line>
    • Set breakpoint on <file>:<line>.
  • b[reak] <class>#<name>
    • Set breakpoint on the method <class>#<name>.
  • b[reak] <expr>.<name>
    • Set breakpoint on the method <expr>.<name>.
  • b[reak] ... if: <expr>
    • break if <expr> is true at specified location.
  • b[reak] ... pre: <command>
    • break and run <command> before stopping.
  • b[reak] ... do: <command>
    • break and run <command>, and continue.
  • b[reak] if: <expr>
    • break if: <expr> is true at any lines.
    • Note that this feature is super slow.
  • catch <Error>
    • Set breakpoint on raising <Error>.
  • watch @ivar
    • Stop the execution when the result of current scope's @ivar is changed.
    • Note that this feature is super slow.
  • del[ete]
    • delete all breakpoints.
  • del[ete] <bpnum>
    • delete specified breakpoint.

Information

  • bt or backtrace
    • Show backtrace (frame) information.
  • bt <num> or backtrace <num>
    • Only shows first <num> frames.
  • bt /regexp/ or backtrace /regexp/
    • Only shows frames with method name or location info that matches /regexp/.
  • bt <num> /regexp/ or backtrace <num> /regexp/
    • Only shows first <num> frames with method name or location info that matches /regexp/.
  • l[ist]
    • Show current frame's source code.
    • Next list command shows the successor lines.
  • l[ist] -
    • Show predecessor lines as opposed to the list command.
  • l[ist] <start> or l[ist] <start>-<end>
    • Show current frame's source code from the line to if given.
  • edit
    • Open the current file on the editor (use EDITOR environment variable).
    • Note that edited file will not be reloaded.
  • edit <file>
    • Open on the editor.
  • i[nfo]
    • Show information about current frame (local/instance variables and defined constants).
  • i[nfo] l[ocal[s]]
    • Show information about the current frame (local variables)
    • It includes self as %self and a return value as %return.
  • i[nfo] i[var[s]] or i[nfo] instance
    • Show information about instance variables about self.
  • i[nfo] c[onst[s]] or i[nfo] constant[s]
    • Show information about accessible constants except toplevel constants.
  • i[nfo] g[lobal[s]]
    • Show information about global variables
  • i[nfo] ... </pattern/>
    • Filter the output with </pattern/>.
  • i[nfo] th[read[s]]
    • Show all threads (same as th[read]).
  • o[utline] or ls
    • Show you available methods, constants, local variables, and instance variables in the current scope.
  • o[utline] <expr> or ls <expr>
    • Show you available methods and instance variables of the given object.
    • If the object is a class/module, it also lists its constants.
  • display
    • Show display setting.
  • display <expr>
    • Show the result of <expr> at every suspended timing.
  • undisplay
    • Remove all display settings.
  • undisplay <displaynum>
    • Remove a specified display setting.

Frame control

  • f[rame]
    • Show the current frame.
  • f[rame] <framenum>
    • Specify a current frame. Evaluation are run on specified frame.
  • up
    • Specify the upper frame.
  • down
    • Specify the lower frame.

Evaluate

  • p <expr>
    • Evaluate like p <expr> on the current frame.
  • pp <expr>
    • Evaluate like pp <expr> on the current frame.
  • eval <expr>
    • Evaluate <expr> on the current frame.
  • irb
    • Invoke irb on the current frame.

Trace

  • trace
    • Show available tracers list.
  • trace line
    • Add a line tracer. It indicates line events.
  • trace call
    • Add a call tracer. It indicate call/return events.
  • trace exception
    • Add an exception tracer. It indicates raising exceptions.
  • trace object <expr>
    • Add an object tracer. It indicates that an object by <expr> is passed as a parameter or a receiver on method call.
  • trace ... </pattern/>
    • Indicates only matched events to </pattern/> (RegExp).
  • trace ... into: <file>
    • Save trace information into: <file>.
  • trace off <num>
    • Disable tracer specified by <num> (use trace command to check the numbers).
  • trace off [line|call|pass]
    • Disable all tracers. If <type> is provided, disable specified type tracers.
  • record
    • Show recording status.
  • record [on|off]
    • Start/Stop recording.
  • step back
    • Start replay. Step back with the last execution log.
    • s[tep] does stepping forward with the last log.
  • step reset
    • Stop replay .

Thread control

  • th[read]
    • Show all threads.
  • th[read] <thnum>
    • Switch thread specified by <thnum>.

Configuration

  • config
    • Show all configuration with description.
  • config <name>
    • Show current configuration of .
  • config set <name> <val> or config <name> = <val>
    • Set to .
  • config append <name> <val> or config <name> << <val>
    • Append <val> to <name> if it is an array.
  • config unset <name>
    • Set to default.
  • source <file>
    • Evaluate lines in <file> as debug commands.

Help

  • h[elp]
    • Show help for all commands.
  • h[elp] <command>
    • Show help for the given command.

Debugger API

Start debugging

Start by requiring a library

You can start debugging without rdbg command by requiring the following libraries:

  • require 'debug': Same as rdbg --nonstop --no-sigint-hook.
  • require 'debug/start': Same as rdbg.
  • require 'debug/open': Same as rdbg --open.
  • require 'debug/open_nonstop': Same as rdbg --open --nonstop.

You need to require one of them at the very beginning of the application. Using ruby -r (for example ruby -r debug/start target.rb) is another way to invoke with debugger.

NOTE: Until Ruby 3.0, there is old lib/debug.rb standard library. So that if this gem is not installed, or if Gemfile missed to list this gem and bundle exec is used, you will see the following output:

$ ruby -r debug -e0
.../2.7.3/lib/ruby/2.7.0/x86_64-linux/continuation.so: warning: callcc is obsolete; use Fiber instead
Debug.rb
Emacs support available.

.../2.7.3/lib/ruby/2.7.0/rubygems/core_ext/kernel_require.rb:162:    if RUBYGEMS_ACTIVATION_MONITOR.respond_to?(:mon_owned?)
(rdb:1)

lib/debug.rb was not maintained well in recent years, and the purpose of this library is to rewrite old lib/debug.rb with recent techniques.

Start by method

After loading debug/session, you can start debug session with the following methods. They are convenient if you want to specify debug configurations in your program.

  • DEBUGGER__.start(**kw): start debug session with local console.
  • DEBUGGER__.open(**kw): open debug port with configuration (without configurations open with UNIX domain socket)
  • DEBUGGER__.open_unix(**kw): open debug port with UNIX domain socket
  • DEBUGGER__.open_tcp(**kw): open debug port with TCP/IP

For example:

require 'debug/session'
DEBUGGER__.start(no_color: true,    # disable colorize
                 log_level: 'INFO') # Change log_level to INFO

... # your application code

binding.break method

binding.break (or binding.b) set breakpoints at written line. It also has several keywords.

If do: 'command' is specified, the debugger suspends the program and run the command as a debug command and continue the program. It is useful if you only want to call a debug command and don't want to stop there.

def initialize
  @a = 1
  binding.b do: 'watch @a'
end

On this case, register a watch breakpoint for @a and continue to run.

If pre: 'command' is specified, the debugger suspends the program and run the command as a debug command, and keep suspend. It is useful if you have operations before suspend.

def foo
  binding.b pre: 'p bar()'
  ...
end

On this case, you can see the result of bar() every time you stop there.

rdbg command help

exe/rdbg [options] -- [debuggee options]

Debug console mode:
    -n, --nonstop                    Do not stop at the beginning of the script.
    -e DEBUG_COMMAND                 Execute debug command at the beginning of the script.
    -x, --init-script=FILE           Execute debug command in the FILE.
        --no-rc                      Ignore ~/.rdbgrc
        --no-color                   Disable colorize
        --no-sigint-hook             Disable to trap SIGINT
    -c, --command                    Enable command mode.
                                     The first argument should be a command name in $PATH.
                                     Example: 'rdbg -c bundle exec rake test'

    -O, --open                       Start remote debugging with opening the network port.
                                     If TCP/IP options are not given,
                                     a UNIX domain socket will be used.
        --sock-path=SOCK_PATH        UNIX Domain socket path
        --port=PORT                  Listening TCP/IP port
        --host=HOST                  Listening TCP/IP host
        --cookie=COOKIE              Set a cookie for connection

  Debug console mode runs Ruby program with the debug console.

  'rdbg target.rb foo bar'                starts like 'ruby target.rb foo bar'.
  'rdbg -- -r foo -e bar'                 starts like 'ruby -r foo -e bar'.
  'rdbg -c rake test'                     starts like 'rake test'.
  'rdbg -c -- rake test -t'               starts like 'rake test -t'.
  'rdbg -c bundle exec rake test'         starts like 'bundle exec rake test'.
  'rdbg -O target.rb foo bar'             starts and accepts attaching with UNIX domain socket.
  'rdbg -O --port 1234 target.rb foo bar' starts accepts attaching with TCP/IP localhost:1234.
  'rdbg -O --port 1234 -- -r foo -e bar'  starts accepts attaching with TCP/IP localhost:1234.

Attach mode:
    -A, --attach                     Attach to debuggee process.

  Attach mode attaches the remote debug console to the debuggee process.

  'rdbg -A'           tries to connect via UNIX domain socket.
                      If there are multiple processes are waiting for the
                      debugger connection, list possible debuggee names.
  'rdbg -A path'      tries to connect via UNIX domain socket with given path name.
  'rdbg -A port'      tries to connect to localhost:port via TCP/IP.
  'rdbg -A host port' tries to connect to host:port via TCP/IP.

Other options:
    -h, --help                       Print help
        --util=NAME                  Utility mode (used by tools)
        --stop-at-load               Stop immediately when the debugging feature is loaded.

NOTE
  All messages communicated between a debugger and a debuggee are *NOT* encrypted.
  Please use the remote debugging feature carefully.

Contributing

Bug reports and pull requests are welcome on GitHub at https://github.com/ruby/debug. This debugger is not mature so your feedback will help us.

Please also check the contributing guideline.

Acknowledgement