Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

403WebShell
403Webshell
Server IP : 66.29.132.124  /  Your IP : 3.145.103.119
Web Server : LiteSpeed
System : Linux business141.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64
User : wavevlvu ( 1524)
PHP Version : 7.4.33
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : OFF  |  Pkexec : OFF
Directory :  /opt/alt/ruby25/lib64/ruby/2.5.0/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :


[ Back ]     

Current File : /opt/alt/ruby25/lib64/ruby/2.5.0/debug.rb
# frozen_string_literal: true
# Copyright (C) 2000  Network Applied Communication Laboratory, Inc.
# Copyright (C) 2000  Information-technology Promotion Agency, Japan
# Copyright (C) 2000-2003  NAKAMURA, Hiroshi  <nahi@ruby-lang.org>

require 'continuation'

if $SAFE > 0
  STDERR.print "-r debug.rb is not available in safe mode\n"
  exit 1
end

require 'tracer'
require 'pp'

class Tracer # :nodoc:
  def Tracer.trace_func(*vars)
    Single.trace_func(*vars)
  end
end

SCRIPT_LINES__ = {} unless defined? SCRIPT_LINES__ # :nodoc:

##
# This library provides debugging functionality to Ruby.
#
# To add a debugger to your code, start by requiring +debug+ in your
# program:
#
#   def say(word)
#     require 'debug'
#     puts word
#   end
#
# This will cause Ruby to interrupt execution and show a prompt when the +say+
# method is run.
#
# Once you're inside the prompt, you can start debugging your program.
#
#   (rdb:1) p word
#   "hello"
#
# == Getting help
#
# You can get help at any time by pressing +h+.
#
#   (rdb:1) h
#   Debugger help v.-0.002b
#   Commands
#     b[reak] [file:|class:]<line|method>
#     b[reak] [class.]<line|method>
#                                set breakpoint to some position
#     wat[ch] <expression>       set watchpoint to some expression
#     cat[ch] (<exception>|off)  set catchpoint to an exception
#     b[reak]                    list breakpoints
#     cat[ch]                    show catchpoint
#     del[ete][ nnn]             delete some or all breakpoints
#     disp[lay] <expression>     add expression into display expression list
#     undisp[lay][ nnn]          delete one particular or all display expressions
#     c[ont]                     run until program ends or hit breakpoint
#     s[tep][ nnn]               step (into methods) one line or till line nnn
#     n[ext][ nnn]               go over one line or till line nnn
#     w[here]                    display frames
#     f[rame]                    alias for where
#     l[ist][ (-|nn-mm)]         list program, - lists backwards
#                                nn-mm lists given lines
#     up[ nn]                    move to higher frame
#     down[ nn]                  move to lower frame
#     fin[ish]                   return to outer frame
#     tr[ace] (on|off)           set trace mode of current thread
#     tr[ace] (on|off) all       set trace mode of all threads
#     q[uit]                     exit from debugger
#     v[ar] g[lobal]             show global variables
#     v[ar] l[ocal]              show local variables
#     v[ar] i[nstance] <object>  show instance variables of object
#     v[ar] c[onst] <object>     show constants of object
#     m[ethod] i[nstance] <obj>  show methods of object
#     m[ethod] <class|module>    show instance methods of class or module
#     th[read] l[ist]            list all threads
#     th[read] c[ur[rent]]       show current thread
#     th[read] [sw[itch]] <nnn>  switch thread context to nnn
#     th[read] stop <nnn>        stop thread nnn
#     th[read] resume <nnn>      resume thread nnn
#     p expression               evaluate expression and print its value
#     h[elp]                     print this help
#     <everything else>          evaluate
#
# == Usage
#
# The following is a list of common functionalities that the debugger
# provides.
#
# === Navigating through your code
#
# In general, a debugger is used to find bugs in your program, which
# often means pausing execution and inspecting variables at some point
# in time.
#
# Let's look at an example:
#
#   def my_method(foo)
#     require 'debug'
#     foo = get_foo if foo.nil?
#     raise if foo.nil?
#   end
#
# When you run this program, the debugger will kick in just before the
# +foo+ assignment.
#
#   (rdb:1) p foo
#   nil
#
# In this example, it'd be interesting to move to the next line and
# inspect the value of +foo+ again. You can do that by pressing +n+:
#
#   (rdb:1) n # goes to next line
#   (rdb:1) p foo
#   nil
#
# You now know that the original value of +foo+ was nil, and that it
# still was nil after calling +get_foo+.
#
# Other useful commands for navigating through your code are:
#
# +c+::
#   Runs the program until it either exists or encounters another breakpoint.
#   You usually press +c+ when you are finished debugging your program and
#   want to resume its execution.
# +s+::
#   Steps into method definition. In the previous example, +s+ would take you
#   inside the method definition of +get_foo+.
# +r+::
#   Restart the program.
# +q+::
#   Quit the program.
#
# === Inspecting variables
#
# You can use the debugger to easily inspect both local and global variables.
# We've seen how to inspect local variables before:
#
#   (rdb:1) p my_arg
#   42
#
# You can also pretty print the result of variables or expressions:
#
#   (rdb:1) pp %w{a very long long array containing many words}
#   ["a",
#    "very",
#    "long",
#    ...
#   ]
#
# You can list all local variables with +v l+:
#
#   (rdb:1) v l
#     foo => "hello"
#
# Similarly, you can show all global variables with +v g+:
#
#   (rdb:1) v g
#     all global variables
#
# Finally, you can omit +p+ if you simply want to evaluate a variable or
# expression
#
#   (rdb:1) 5**2
#   25
#
# === Going beyond basics
#
# Ruby Debug provides more advanced functionalities like switching
# between threads, setting breakpoints and watch expressions, and more.
# The full list of commands is available at any time by pressing +h+.
#
# == Staying out of trouble
#
# Make sure you remove every instance of +require 'debug'+ before
# shipping your code. Failing to do so may result in your program
# hanging unpredictably.
#
# Debug is not available in safe mode.

class DEBUGGER__
  MUTEX = Thread::Mutex.new # :nodoc:

  class Context # :nodoc:
    DEBUG_LAST_CMD = []

    begin
      require 'readline'
      def readline(prompt, hist)
        Readline::readline(prompt, hist)
      end
    rescue LoadError
      def readline(prompt, hist)
        STDOUT.print prompt
        STDOUT.flush
        line = STDIN.gets
        exit unless line
        line.chomp!
        line
      end
      USE_READLINE = false
    end

    def initialize
      if Thread.current == Thread.main
        @stop_next = 1
      else
        @stop_next = 0
      end
      @last_file = nil
      @file = nil
      @line = nil
      @no_step = nil
      @frames = []
      @finish_pos = 0
      @trace = false
      @catch = "StandardError"
      @suspend_next = false
    end

    def stop_next(n=1)
      @stop_next = n
    end

    def set_suspend
      @suspend_next = true
    end

    def clear_suspend
      @suspend_next = false
    end

    def suspend_all
      DEBUGGER__.suspend
    end

    def resume_all
      DEBUGGER__.resume
    end

    def check_suspend
      while MUTEX.synchronize {
          if @suspend_next
            DEBUGGER__.waiting.push Thread.current
            @suspend_next = false
            true
          end
        }
      end
    end

    def trace?
      @trace
    end

    def set_trace(arg)
      @trace = arg
    end

    def stdout
      DEBUGGER__.stdout
    end

    def break_points
      DEBUGGER__.break_points
    end

    def display
      DEBUGGER__.display
    end

    def context(th)
      DEBUGGER__.context(th)
    end

    def set_trace_all(arg)
      DEBUGGER__.set_trace(arg)
    end

    def set_last_thread(th)
      DEBUGGER__.set_last_thread(th)
    end

    def debug_eval(str, binding)
      begin
        eval(str, binding)
      rescue StandardError, ScriptError => e
        at = eval("caller(1)", binding)
        stdout.printf "%s:%s\n", at.shift, e.to_s.sub(/\(eval\):1:(in `.*?':)?/, '')
        for i in at
          stdout.printf "\tfrom %s\n", i
        end
        throw :debug_error
      end
    end

    def debug_silent_eval(str, binding)
      begin
        eval(str, binding)
      rescue StandardError, ScriptError
        nil
      end
    end

    def var_list(ary, binding)
      ary.sort!
      for v in ary
        stdout.printf "  %s => %s\n", v, eval(v.to_s, binding).inspect
      end
    end

    def debug_variable_info(input, binding)
      case input
      when /^\s*g(?:lobal)?\s*$/
        var_list(global_variables, binding)

      when /^\s*l(?:ocal)?\s*$/
        var_list(eval("local_variables", binding), binding)

      when /^\s*i(?:nstance)?\s+/
        obj = debug_eval($', binding)
        var_list(obj.instance_variables, obj.instance_eval{binding()})

      when /^\s*c(?:onst(?:ant)?)?\s+/
        obj = debug_eval($', binding)
        unless obj.kind_of? Module
          stdout.print "Should be Class/Module: ", $', "\n"
        else
          var_list(obj.constants, obj.module_eval{binding()})
        end
      end
    end

    def debug_method_info(input, binding)
      case input
      when /^i(:?nstance)?\s+/
        obj = debug_eval($', binding)

        len = 0
        for v in obj.methods.sort
          len += v.size + 1
          if len > 70
            len = v.size + 1
            stdout.print "\n"
          end
          stdout.print v, " "
        end
        stdout.print "\n"

      else
        obj = debug_eval(input, binding)
        unless obj.kind_of? Module
          stdout.print "Should be Class/Module: ", input, "\n"
        else
          len = 0
          for v in obj.instance_methods(false).sort
            len += v.size + 1
            if len > 70
              len = v.size + 1
              stdout.print "\n"
            end
            stdout.print v, " "
          end
          stdout.print "\n"
        end
      end
    end

    def thnum
      num = DEBUGGER__.instance_eval{@thread_list[Thread.current]}
      unless num
        DEBUGGER__.make_thread_list
        num = DEBUGGER__.instance_eval{@thread_list[Thread.current]}
      end
      num
    end

    def debug_command(file, line, id, binding)
      MUTEX.lock
      unless defined?($debugger_restart) and $debugger_restart
        callcc{|c| $debugger_restart = c}
      end
      set_last_thread(Thread.current)
      frame_pos = 0
      binding_file = file
      binding_line = line
      previous_line = nil
      if ENV['EMACS']
        stdout.printf "\032\032%s:%d:\n", binding_file, binding_line
      else
        stdout.printf "%s:%d:%s", binding_file, binding_line,
          line_at(binding_file, binding_line)
      end
      @frames[0] = [binding, file, line, id]
      display_expressions(binding)
      prompt = true
      while prompt and input = readline("(rdb:%d) "%thnum(), true)
        catch(:debug_error) do
          if input == ""
            next unless DEBUG_LAST_CMD[0]
            input = DEBUG_LAST_CMD[0]
            stdout.print input, "\n"
          else
            DEBUG_LAST_CMD[0] = input
          end

          case input
          when /^\s*tr(?:ace)?(?:\s+(on|off))?(?:\s+(all))?$/
            if defined?( $2 )
              if $1 == 'on'
                set_trace_all true
              else
                set_trace_all false
              end
            elsif defined?( $1 )
              if $1 == 'on'
                set_trace true
              else
                set_trace false
              end
            end
            if trace?
              stdout.print "Trace on.\n"
            else
              stdout.print "Trace off.\n"
            end

          when /^\s*b(?:reak)?\s+(?:(.+):)?([^.:]+)$/
            pos = $2
            if $1
              klass = debug_silent_eval($1, binding)
              file = $1
            end
            if pos =~ /^\d+$/
              pname = pos
              pos = pos.to_i
            else
              pname = pos = pos.intern.id2name
            end
            break_points.push [true, 0, klass || file, pos]
            stdout.printf "Set breakpoint %d at %s:%s\n", break_points.size, klass || file, pname

          when /^\s*b(?:reak)?\s+(.+)[#.]([^.:]+)$/
            pos = $2.intern.id2name
            klass = debug_eval($1, binding)
            break_points.push [true, 0, klass, pos]
            stdout.printf "Set breakpoint %d at %s.%s\n", break_points.size, klass, pos

          when /^\s*wat(?:ch)?\s+(.+)$/
            exp = $1
            break_points.push [true, 1, exp]
            stdout.printf "Set watchpoint %d:%s\n", break_points.size, exp

          when /^\s*b(?:reak)?$/
            if break_points.find{|b| b[1] == 0}
              n = 1
              stdout.print "Breakpoints:\n"
              break_points.each do |b|
                if b[0] and b[1] == 0
                  stdout.printf "  %d %s:%s\n", n, b[2], b[3]
                end
                n += 1
              end
            end
            if break_points.find{|b| b[1] == 1}
              n = 1
              stdout.print "\n"
              stdout.print "Watchpoints:\n"
              for b in break_points
                if b[0] and b[1] == 1
                  stdout.printf "  %d %s\n", n, b[2]
                end
                n += 1
              end
            end
            if break_points.size == 0
              stdout.print "No breakpoints\n"
            else
              stdout.print "\n"
            end

          when /^\s*del(?:ete)?(?:\s+(\d+))?$/
            pos = $1
            unless pos
              input = readline("Clear all breakpoints? (y/n) ", false)
              if input == "y"
                for b in break_points
                  b[0] = false
                end
              end
            else
              pos = pos.to_i
              if break_points[pos-1]
                break_points[pos-1][0] = false
              else
                stdout.printf "Breakpoint %d is not defined\n", pos
              end
            end

          when /^\s*disp(?:lay)?\s+(.+)$/
            exp = $1
            display.push [true, exp]
            stdout.printf "%d: ", display.size
            display_expression(exp, binding)

          when /^\s*disp(?:lay)?$/
            display_expressions(binding)

          when /^\s*undisp(?:lay)?(?:\s+(\d+))?$/
            pos = $1
            unless pos
              input = readline("Clear all expressions? (y/n) ", false)
              if input == "y"
                for d in display
                  d[0] = false
                end
              end
            else
              pos = pos.to_i
              if display[pos-1]
                display[pos-1][0] = false
              else
                stdout.printf "Display expression %d is not defined\n", pos
              end
            end

          when /^\s*c(?:ont)?$/
            prompt = false

          when /^\s*s(?:tep)?(?:\s+(\d+))?$/
            if $1
              lev = $1.to_i
            else
              lev = 1
            end
            @stop_next = lev
            prompt = false

          when /^\s*n(?:ext)?(?:\s+(\d+))?$/
            if $1
              lev = $1.to_i
            else
              lev = 1
            end
            @stop_next = lev
            @no_step = @frames.size - frame_pos
            prompt = false

          when /^\s*w(?:here)?$/, /^\s*f(?:rame)?$/
            display_frames(frame_pos)

          when /^\s*l(?:ist)?(?:\s+(.+))?$/
            if not $1
              b = previous_line ? previous_line + 10 : binding_line - 5
              e = b + 9
            elsif $1 == '-'
              b = previous_line ? previous_line - 10 : binding_line - 5
              e = b + 9
            else
              b, e = $1.split(/[-,]/)
              if e
                b = b.to_i
                e = e.to_i
              else
                b = b.to_i - 5
                e = b + 9
              end
            end
            previous_line = b
            display_list(b, e, binding_file, binding_line)

          when /^\s*up(?:\s+(\d+))?$/
            previous_line = nil
            if $1
              lev = $1.to_i
            else
              lev = 1
            end
            frame_pos += lev
            if frame_pos >= @frames.size
              frame_pos = @frames.size - 1
              stdout.print "At toplevel\n"
            end
            binding, binding_file, binding_line = @frames[frame_pos]
            stdout.print format_frame(frame_pos)

          when /^\s*down(?:\s+(\d+))?$/
            previous_line = nil
            if $1
              lev = $1.to_i
            else
              lev = 1
            end
            frame_pos -= lev
            if frame_pos < 0
              frame_pos = 0
              stdout.print "At stack bottom\n"
            end
            binding, binding_file, binding_line = @frames[frame_pos]
            stdout.print format_frame(frame_pos)

          when /^\s*fin(?:ish)?$/
            if frame_pos == @frames.size
              stdout.print "\"finish\" not meaningful in the outermost frame.\n"
            else
              @finish_pos = @frames.size - frame_pos
              frame_pos = 0
              prompt = false
            end

          when /^\s*cat(?:ch)?(?:\s+(.+))?$/
            if $1
              excn = $1
              if excn == 'off'
                @catch = nil
                stdout.print "Clear catchpoint.\n"
              else
                @catch = excn
                stdout.printf "Set catchpoint %s.\n", @catch
              end
            else
              if @catch
                stdout.printf "Catchpoint %s.\n", @catch
              else
                stdout.print "No catchpoint.\n"
              end
            end

          when /^\s*q(?:uit)?$/
            input = readline("Really quit? (y/n) ", false)
            if input == "y"
              exit!  # exit -> exit!: No graceful way to stop threads...
            end

          when /^\s*v(?:ar)?\s+/
            debug_variable_info($', binding)

          when /^\s*m(?:ethod)?\s+/
            debug_method_info($', binding)

          when /^\s*th(?:read)?\s+/
            if DEBUGGER__.debug_thread_info($', binding) == :cont
              prompt = false
            end

          when /^\s*pp\s+/
            PP.pp(debug_eval($', binding), stdout)

          when /^\s*p\s+/
            stdout.printf "%s\n", debug_eval($', binding).inspect

          when /^\s*r(?:estart)?$/
            $debugger_restart.call

          when /^\s*h(?:elp)?$/
            debug_print_help()

          else
            v = debug_eval(input, binding)
            stdout.printf "%s\n", v.inspect
          end
        end
      end
      MUTEX.unlock
      resume_all
    end

    def debug_print_help
      stdout.print <<EOHELP
Debugger help v.-0.002b
Commands
  b[reak] [file:|class:]<line|method>
  b[reak] [class.]<line|method>
                             set breakpoint to some position
  wat[ch] <expression>       set watchpoint to some expression
  cat[ch] (<exception>|off)  set catchpoint to an exception
  b[reak]                    list breakpoints
  cat[ch]                    show catchpoint
  del[ete][ nnn]             delete some or all breakpoints
  disp[lay] <expression>     add expression into display expression list
  undisp[lay][ nnn]          delete one particular or all display expressions
  c[ont]                     run until program ends or hit breakpoint
  s[tep][ nnn]               step (into methods) one line or till line nnn
  n[ext][ nnn]               go over one line or till line nnn
  w[here]                    display frames
  f[rame]                    alias for where
  l[ist][ (-|nn-mm)]         list program, - lists backwards
                             nn-mm lists given lines
  up[ nn]                    move to higher frame
  down[ nn]                  move to lower frame
  fin[ish]                   return to outer frame
  tr[ace] (on|off)           set trace mode of current thread
  tr[ace] (on|off) all       set trace mode of all threads
  q[uit]                     exit from debugger
  v[ar] g[lobal]             show global variables
  v[ar] l[ocal]              show local variables
  v[ar] i[nstance] <object>  show instance variables of object
  v[ar] c[onst] <object>     show constants of object
  m[ethod] i[nstance] <obj>  show methods of object
  m[ethod] <class|module>    show instance methods of class or module
  th[read] l[ist]            list all threads
  th[read] c[ur[rent]]       show current thread
  th[read] [sw[itch]] <nnn>  switch thread context to nnn
  th[read] stop <nnn>        stop thread nnn
  th[read] resume <nnn>      resume thread nnn
  pp expression              evaluate expression and pretty_print its value
  p expression               evaluate expression and print its value
  r[estart]                  restart program
  h[elp]                     print this help
  <everything else>          evaluate
EOHELP
    end

    def display_expressions(binding)
      n = 1
      for d in display
        if d[0]
          stdout.printf "%d: ", n
          display_expression(d[1], binding)
        end
        n += 1
      end
    end

    def display_expression(exp, binding)
      stdout.printf "%s = %s\n", exp, debug_silent_eval(exp, binding).to_s
    end

    def frame_set_pos(file, line)
      if @frames[0]
        @frames[0][1] = file
        @frames[0][2] = line
      end
    end

    def display_frames(pos)
      0.upto(@frames.size - 1) do |n|
        if n == pos
          stdout.print "--> "
        else
          stdout.print "    "
        end
        stdout.print format_frame(n)
      end
    end

    def format_frame(pos)
      _, file, line, id = @frames[pos]
      sprintf "#%d %s:%s%s\n", pos + 1, file, line,
        (id ? ":in `#{id.id2name}'" : "")
    end

    def script_lines(file, line)
      unless (lines = SCRIPT_LINES__[file]) and lines != true
        Tracer::Single.get_line(file, line) if File.exist?(file)
        lines = SCRIPT_LINES__[file]
        lines = nil if lines == true
      end
      lines
    end

    def display_list(b, e, file, line)
      if lines = script_lines(file, line)
        stdout.printf "[%d, %d] in %s\n", b, e, file
        b.upto(e) do |n|
          if n > 0 && lines[n-1]
            if n == line
              stdout.printf "=> %d  %s\n", n, lines[n-1].chomp
            else
              stdout.printf "   %d  %s\n", n, lines[n-1].chomp
            end
          end
        end
      else
        stdout.printf "No sourcefile available for %s\n", file
      end
    end

    def line_at(file, line)
      lines = script_lines(file, line)
      if lines and line = lines[line-1]
        return line
      end
      return "\n"
    end

    def debug_funcname(id)
      if id.nil?
        "toplevel"
      else
        id.id2name
      end
    end

    def check_break_points(file, klass, pos, binding, id)
      return false if break_points.empty?
      n = 1
      for b in break_points
        if b[0]           # valid
          if b[1] == 0    # breakpoint
            if (b[2] == file and b[3] == pos) or
                (klass and b[2] == klass and b[3] == pos)
              stdout.printf "Breakpoint %d, %s at %s:%s\n", n, debug_funcname(id), file, pos
              return true
            end
          elsif b[1] == 1 # watchpoint
            if debug_silent_eval(b[2], binding)
              stdout.printf "Watchpoint %d, %s at %s:%s\n", n, debug_funcname(id), file, pos
              return true
            end
          end
        end
        n += 1
      end
      return false
    end

    def excn_handle(file, line, id, binding)
      if $!.class <= SystemExit
        set_trace_func nil
        exit
      end

      if @catch and ($!.class.ancestors.find { |e| e.to_s == @catch })
        stdout.printf "%s:%d: `%s' (%s)\n", file, line, $!, $!.class
        fs = @frames.size
        tb = caller(0)[-fs..-1]
        if tb
          for i in tb
            stdout.printf "\tfrom %s\n", i
          end
        end
        suspend_all
        debug_command(file, line, id, binding)
      end
    end

    def trace_func(event, file, line, id, binding, klass)
      Tracer.trace_func(event, file, line, id, binding, klass) if trace?
      context(Thread.current).check_suspend
      @file = file
      @line = line
      case event
      when 'line'
        frame_set_pos(file, line)
        if !@no_step or @frames.size == @no_step
          @stop_next -= 1
          @stop_next = -1 if @stop_next < 0
        elsif @frames.size < @no_step
          @stop_next = 0          # break here before leaving...
        else
          # nothing to do. skipped.
        end
        if @stop_next == 0 or check_break_points(file, nil, line, binding, id)
          @no_step = nil
          suspend_all
          debug_command(file, line, id, binding)
        end

      when 'call'
        @frames.unshift [binding, file, line, id]
        if check_break_points(file, klass, id.id2name, binding, id)
          suspend_all
          debug_command(file, line, id, binding)
        end

      when 'c-call'
        frame_set_pos(file, line)

      when 'class'
        @frames.unshift [binding, file, line, id]

      when 'return', 'end'
        if @frames.size == @finish_pos
          @stop_next = 1
          @finish_pos = 0
        end
        @frames.shift

      when 'raise'
        excn_handle(file, line, id, binding)

      end
      @last_file = file
    end
  end

  trap("INT") { DEBUGGER__.interrupt }
  @last_thread = Thread::main
  @max_thread = 1
  @thread_list = {Thread::main => 1}
  @break_points = []
  @display = []
  @waiting = []
  @stdout = STDOUT

  class << DEBUGGER__
    # Returns the IO used as stdout. Defaults to STDOUT
    def stdout
      @stdout
    end

    # Sets the IO used as stdout. Defaults to STDOUT
    def stdout=(s)
      @stdout = s
    end

    # Returns the display expression list
    #
    # See DEBUGGER__ for more usage
    def display
      @display
    end

    # Returns the list of break points where execution will be stopped.
    #
    # See DEBUGGER__ for more usage
    def break_points
      @break_points
    end

    # Returns the list of waiting threads.
    #
    # When stepping through the traces of a function, thread gets suspended, to
    # be resumed later.
    def waiting
      @waiting
    end

    def set_trace( arg )
      MUTEX.synchronize do
        make_thread_list
        for th, in @thread_list
          context(th).set_trace arg
        end
      end
      arg
    end

    def set_last_thread(th)
      @last_thread = th
    end

    def suspend
      MUTEX.synchronize do
        make_thread_list
        for th, in @thread_list
          next if th == Thread.current
          context(th).set_suspend
        end
      end
      # Schedule other threads to suspend as soon as possible.
      Thread.pass
    end

    def resume
      MUTEX.synchronize do
        make_thread_list
        @thread_list.each do |th,|
          next if th == Thread.current
          context(th).clear_suspend
        end
        waiting.each do |th|
          th.run
        end
        waiting.clear
      end
      # Schedule other threads to restart as soon as possible.
      Thread.pass
    end

    def context(thread=Thread.current)
      c = thread[:__debugger_data__]
      unless c
        thread[:__debugger_data__] = c = Context.new
      end
      c
    end

    def interrupt
      context(@last_thread).stop_next
    end

    def get_thread(num)
      th = @thread_list.key(num)
      unless th
        @stdout.print "No thread ##{num}\n"
        throw :debug_error
      end
      th
    end

    def thread_list(num)
      th = get_thread(num)
      if th == Thread.current
        @stdout.print "+"
      else
        @stdout.print " "
      end
      @stdout.printf "%d ", num
      @stdout.print th.inspect, "\t"
      file = context(th).instance_eval{@file}
      if file
        @stdout.print file,":",context(th).instance_eval{@line}
      end
      @stdout.print "\n"
    end

    # Prints all threads in @thread_list to @stdout. Returns a sorted array of
    # values from the @thread_list hash.
    #
    # While in the debugger you can list all of
    # the threads with: <b>DEBUGGER__.thread_list_all</b>
    #
    #   (rdb:1) DEBUGGER__.thread_list_all
    #   +1 #<Thread:0x007fb2320c03f0 run> debug_me.rb.rb:3
    #    2 #<Thread:0x007fb23218a538@debug_me.rb.rb:3 sleep>
    #    3 #<Thread:0x007fb23218b0f0@debug_me.rb.rb:3 sleep>
    #   [1, 2, 3]
    #
    # Your current thread is indicated by a <b>+</b>
    #
    # Additionally you can list all threads with <b>th l</b>
    #
    #   (rdb:1) th l
    #    +1 #<Thread:0x007f99328c0410 run>  debug_me.rb:3
    #     2 #<Thread:0x007f9932938230@debug_me.rb:3 sleep> debug_me.rb:3
    #     3 #<Thread:0x007f9932938e10@debug_me.rb:3 sleep> debug_me.rb:3
    #
    # See DEBUGGER__ for more usage.

    def thread_list_all
      for th in @thread_list.values.sort
        thread_list(th)
      end
    end

    def make_thread_list
      hash = {}
      for th in Thread::list
        if @thread_list.key? th
          hash[th] = @thread_list[th]
        else
          @max_thread += 1
          hash[th] = @max_thread
        end
      end
      @thread_list = hash
    end

    def debug_thread_info(input, binding)
      case input
      when /^l(?:ist)?/
        make_thread_list
        thread_list_all

      when /^c(?:ur(?:rent)?)?$/
        make_thread_list
        thread_list(@thread_list[Thread.current])

      when /^(?:sw(?:itch)?\s+)?(\d+)/
        make_thread_list
        th = get_thread($1.to_i)
        if th == Thread.current
          @stdout.print "It's the current thread.\n"
        else
          thread_list(@thread_list[th])
          context(th).stop_next
          th.run
          return :cont
        end

      when /^stop\s+(\d+)/
        make_thread_list
        th = get_thread($1.to_i)
        if th == Thread.current
          @stdout.print "It's the current thread.\n"
        elsif th.stop?
          @stdout.print "Already stopped.\n"
        else
          thread_list(@thread_list[th])
          context(th).suspend
        end

      when /^resume\s+(\d+)/
        make_thread_list
        th = get_thread($1.to_i)
        if th == Thread.current
          @stdout.print "It's the current thread.\n"
        elsif !th.stop?
          @stdout.print "Already running."
        else
          thread_list(@thread_list[th])
          th.run
        end
      end
    end
  end

  stdout.printf "Debug.rb\n"
  stdout.printf "Emacs support available.\n\n"
  RubyVM::InstructionSequence.compile_option = {
    trace_instruction: true
  }
  set_trace_func proc { |event, file, line, id, binding, klass, *rest|
    DEBUGGER__.context.trace_func event, file, line, id, binding, klass
  }
end

Youez - 2016 - github.com/yon3zu
LinuXploit