# frozen_string_literal: false require "test/unit" require "objspace" begin require "json" rescue LoadError end class TestObjSpace < Test::Unit::TestCase def test_memsize_of assert_equal(0, ObjectSpace.memsize_of(true)) assert_equal(0, ObjectSpace.memsize_of(nil)) assert_equal(0, ObjectSpace.memsize_of(1)) assert_kind_of(Integer, ObjectSpace.memsize_of(Object.new)) assert_kind_of(Integer, ObjectSpace.memsize_of(Class)) assert_kind_of(Integer, ObjectSpace.memsize_of("")) assert_kind_of(Integer, ObjectSpace.memsize_of([])) assert_kind_of(Integer, ObjectSpace.memsize_of({})) assert_kind_of(Integer, ObjectSpace.memsize_of(//)) f = File.new(__FILE__) assert_kind_of(Integer, ObjectSpace.memsize_of(f)) f.close assert_kind_of(Integer, ObjectSpace.memsize_of(/a/.match("a"))) assert_kind_of(Integer, ObjectSpace.memsize_of(Struct.new(:a))) assert_operator(ObjectSpace.memsize_of(Regexp.new("(a)"*1000).match("a"*1000)), :>, ObjectSpace.memsize_of(//.match(""))) end def test_memsize_of_root_shared_string a = "hello" * 5 b = a.dup c = nil ObjectSpace.each_object(String) {|x| break c = x if x == a and x.frozen?} rv_size = GC::INTERNAL_CONSTANTS[:RVALUE_SIZE] assert_equal([rv_size, rv_size, 26 + rv_size], [a, b, c].map {|x| ObjectSpace.memsize_of(x)}) end def test_argf_memsize size = ObjectSpace.memsize_of(ARGF) assert_kind_of(Integer, size) assert_operator(size, :>, 0) argf = ARGF.dup argf.inplace_mode = nil size = ObjectSpace.memsize_of(argf) argf.inplace_mode = "inplace_mode_suffix" assert_equal(size, ObjectSpace.memsize_of(argf)) end def test_memsize_of_all assert_kind_of(Integer, a = ObjectSpace.memsize_of_all) assert_kind_of(Integer, b = ObjectSpace.memsize_of_all(String)) assert_operator(a, :>, b) assert_operator(a, :>, 0) assert_operator(b, :>, 0) assert_raise(TypeError) {ObjectSpace.memsize_of_all('error')} end def test_count_objects_size res = ObjectSpace.count_objects_size assert_not_empty(res) assert_operator(res[:TOTAL], :>, 0) end def test_count_objects_size_with_hash arg = {} ObjectSpace.count_objects_size(arg) assert_not_empty(arg) arg = {:TOTAL => 1 } ObjectSpace.count_objects_size(arg) assert_not_empty(arg) end def test_count_objects_size_with_wrong_type assert_raise(TypeError) { ObjectSpace.count_objects_size(0) } end def test_count_nodes res = ObjectSpace.count_nodes assert_not_empty(res) arg = {} ObjectSpace.count_nodes(arg) assert_not_empty(arg) bug8014 = '[ruby-core:53130] [Bug #8014]' assert_empty(arg.select {|k, v| !(Symbol === k && Integer === v)}, bug8014) end if false def test_count_tdata_objects res = ObjectSpace.count_tdata_objects assert_not_empty(res) arg = {} ObjectSpace.count_tdata_objects(arg) assert_not_empty(arg) end def test_count_imemo_objects res = ObjectSpace.count_imemo_objects assert_not_empty(res) assert_not_nil(res[:imemo_cref]) assert_not_empty res.inspect arg = {} res = ObjectSpace.count_imemo_objects(arg) assert_not_empty(res) end def test_memsize_of_iseq skip # To debug iseqw = RubyVM::InstructionSequence.compile('def a; a = :b; a; end') base_obj_size = ObjectSpace.memsize_of(Object.new) assert_operator(ObjectSpace.memsize_of(iseqw), :>, base_obj_size) end def test_reachable_objects_from opts = %w[--disable-gem --disable=frozen-string-literal -robjspace] assert_separately opts, "#{<<-"begin;"}\n#{<<-'end;'}" begin; assert_equal(nil, ObjectSpace.reachable_objects_from(nil)) assert_equal([Array, 'a', 'b', 'c'], ObjectSpace.reachable_objects_from(['a', 'b', 'c'])) assert_equal([Array, 'a', 'a', 'a'], ObjectSpace.reachable_objects_from(['a', 'a', 'a'])) assert_equal([Array, 'a', 'a'], ObjectSpace.reachable_objects_from(['a', v = 'a', v])) assert_equal([Array, 'a'], ObjectSpace.reachable_objects_from([v = 'a', v, v])) long_ary = Array.new(1_000){''} max = 0 ObjectSpace.each_object{|o| refs = ObjectSpace.reachable_objects_from(o) max = [refs.size, max].max unless refs.nil? refs.each_with_index {|ro, i| assert_not_nil(ro, "#{i}: this referenced object is internal object") } end } assert_operator(max, :>=, long_ary.size+1, "1000 elems + Array class") end; end def test_reachable_objects_from_root root_objects = ObjectSpace.reachable_objects_from_root assert_operator(root_objects.size, :>, 0) root_objects.each{|category, objects| assert_kind_of(String, category) assert_kind_of(Array, objects) assert_operator(objects.size, :>, 0) } end def test_reachable_objects_size assert_separately %w[--disable-gem -robjspace], "#{<<~"begin;"}\n#{<<~'end;'}" begin; ObjectSpace.each_object{|o| ObjectSpace.reachable_objects_from(o).each{|reached_obj| size = ObjectSpace.memsize_of(reached_obj) assert_kind_of(Integer, size) assert_operator(size, :>=, 0) } } end; end def test_trace_object_allocations_stop_first assert_separately([], "#{<<~"begin;"}\n#{<<~'end;'}") begin; require "objspace" # Make sure stopping before the tracepoints are initialized doesn't raise. See [Bug #17020] ObjectSpace.trace_object_allocations_stop end; end def test_trace_object_allocations ObjectSpace.trace_object_allocations_clear # clear object_table to get rid of erroneous detection for c0 Class.name o0 = Object.new ObjectSpace.trace_object_allocations{ o1 = Object.new; line1 = __LINE__; c1 = GC.count o2 = "xyzzy" ; line2 = __LINE__; c2 = GC.count o3 = [1, 2] ; line3 = __LINE__; c3 = GC.count assert_equal(nil, ObjectSpace.allocation_sourcefile(o0)) assert_equal(nil, ObjectSpace.allocation_sourceline(o0)) assert_equal(nil, ObjectSpace.allocation_generation(o0)) assert_equal(line1, ObjectSpace.allocation_sourceline(o1)) assert_equal(__FILE__, ObjectSpace.allocation_sourcefile(o1)) assert_equal(c1, ObjectSpace.allocation_generation(o1)) assert_equal(Class.name, ObjectSpace.allocation_class_path(o1)) assert_equal(:new, ObjectSpace.allocation_method_id(o1)) assert_equal(__FILE__, ObjectSpace.allocation_sourcefile(o2)) assert_equal(line2, ObjectSpace.allocation_sourceline(o2)) assert_equal(c2, ObjectSpace.allocation_generation(o2)) assert_equal(self.class.name, ObjectSpace.allocation_class_path(o2)) assert_equal(__method__, ObjectSpace.allocation_method_id(o2)) assert_equal(__FILE__, ObjectSpace.allocation_sourcefile(o3)) assert_equal(line3, ObjectSpace.allocation_sourceline(o3)) assert_equal(c3, ObjectSpace.allocation_generation(o3)) assert_equal(self.class.name, ObjectSpace.allocation_class_path(o3)) assert_equal(__method__, ObjectSpace.allocation_method_id(o3)) } end def test_trace_object_allocations_start_stop_clear ObjectSpace.trace_object_allocations_clear # clear object_table to get rid of erroneous detection for obj3 GC.disable # suppress potential object reuse. see [Bug #11271] begin ObjectSpace.trace_object_allocations_start begin ObjectSpace.trace_object_allocations_start begin ObjectSpace.trace_object_allocations_start obj0 = Object.new ensure ObjectSpace.trace_object_allocations_stop obj1 = Object.new end ensure ObjectSpace.trace_object_allocations_stop obj2 = Object.new end ensure ObjectSpace.trace_object_allocations_stop obj3 = Object.new end assert_equal(__FILE__, ObjectSpace.allocation_sourcefile(obj0)) assert_equal(__FILE__, ObjectSpace.allocation_sourcefile(obj1)) assert_equal(__FILE__, ObjectSpace.allocation_sourcefile(obj2)) assert_equal(nil , ObjectSpace.allocation_sourcefile(obj3)) # after tracing ObjectSpace.trace_object_allocations_clear assert_equal(nil, ObjectSpace.allocation_sourcefile(obj0)) assert_equal(nil, ObjectSpace.allocation_sourcefile(obj1)) assert_equal(nil, ObjectSpace.allocation_sourcefile(obj2)) assert_equal(nil, ObjectSpace.allocation_sourcefile(obj3)) ensure GC.enable end def test_trace_object_allocations_gc_stress EnvUtil.under_gc_stress do ObjectSpace.trace_object_allocations{ proc{} } end assert true # success end def test_dump_flags info = ObjectSpace.dump("foo".freeze) assert_match(/"wb_protected":true, "old":true/, info) assert_match(/"fstring":true/, info) JSON.parse(info) if defined?(JSON) end def test_dump_to_default line = nil info = nil ObjectSpace.trace_object_allocations do line = __LINE__ + 1 str = "hello world" info = ObjectSpace.dump(str) end assert_dump_object(info, line) end def test_dump_to_io line = nil info = IO.pipe do |r, w| th = Thread.start {r.read} ObjectSpace.trace_object_allocations do line = __LINE__ + 1 str = "hello world" ObjectSpace.dump(str, output: w) end w.close th.value end assert_dump_object(info, line) end def assert_dump_object(info, line) loc = caller_locations(1, 1)[0] assert_match(/"type":"STRING"/, info) assert_match(/"embedded":true, "bytesize":11, "value":"hello world", "encoding":"UTF-8"/, info) assert_match(/"file":"#{Regexp.escape __FILE__}", "line":#{line}/, info) assert_match(/"method":"#{loc.base_label}"/, info) JSON.parse(info) if defined?(JSON) end def test_dump_control_char assert_include(ObjectSpace.dump("\x0f"), '"value":"\u000f"') assert_include(ObjectSpace.dump("\C-?"), '"value":"\u007f"') end def test_dump_special_consts # [ruby-core:69692] [Bug #11291] assert_equal('null', ObjectSpace.dump(nil)) assert_equal('true', ObjectSpace.dump(true)) assert_equal('false', ObjectSpace.dump(false)) assert_equal('0', ObjectSpace.dump(0)) assert_equal('{"type":"SYMBOL", "value":"foo"}', ObjectSpace.dump(:foo)) end def test_dump_singleton_class assert_include(ObjectSpace.dump(Object), '"name":"Object"') assert_include(ObjectSpace.dump(Kernel), '"name":"Kernel"') assert_include(ObjectSpace.dump(Object.new.singleton_class), '"real_class_name":"Object"') singleton = Object.new.singleton_class singleton_dump = ObjectSpace.dump(singleton) assert_include(singleton_dump, '"singleton":true') if defined?(JSON) assert_equal(Object, singleton.superclass) superclass_address = JSON.parse(ObjectSpace.dump(Object)).fetch('address') assert_equal(superclass_address, JSON.parse(singleton_dump).fetch('superclass')) end end def test_dump_special_floats assert_match(/"value":"NaN"/, ObjectSpace.dump(Float::NAN)) assert_match(/"value":"Inf"/, ObjectSpace.dump(Float::INFINITY)) assert_match(/"value":"\-Inf"/, ObjectSpace.dump(-Float::INFINITY)) end def test_dump_dynamic_symbol dump = ObjectSpace.dump(("foobar%x" % rand(0x10000)).to_sym) assert_match(/"type":"SYMBOL"/, dump) assert_match(/"value":"foobar\h+"/, dump) end def test_dump_includes_imemo_type assert_in_out_err(%w[-robjspace], "#{<<-"begin;"}\n#{<<-'end;'}") do |output, error| begin; def dump_my_heap_please ObjectSpace.dump_all(output: :stdout) end p dump_my_heap_please end; assert_equal 'nil', output.pop heap = output.find_all { |l| obj = JSON.parse(l) obj['type'] == "IMEMO" && obj['imemo_type'] } assert_operator heap.length, :>, 0 end end def test_dump_all_full assert_in_out_err(%w[-robjspace], "#{<<-"begin;"}\n#{<<-'end;'}") do |output, error| begin; def dump_my_heap_please ObjectSpace.dump_all(output: :stdout, full: true) end p dump_my_heap_please end; assert_equal 'nil', output.pop heap = output.find_all { |l| JSON.parse(l)['type'] == "NONE" } assert_operator heap.length, :>, 0 end end def test_dump_all_single_generation assert_in_out_err(%w[-robjspace], "#{<<-"begin;"}\n#{<<-'end;'}") do |output, error| begin; def dump_my_heap_please GC.start ObjectSpace.trace_object_allocations_start gc_gen = GC.count puts gc_gen @obj1 = Object.new GC.start @obj2 = Object.new ObjectSpace.dump_all(output: :stdout, since: gc_gen) end p dump_my_heap_please end; assert_equal 'nil', output.pop since = output.shift.to_i assert_operator output.size, :>, 0 generations = output.map { |l| JSON.parse(l)["generation"] }.uniq.sort assert_equal [since, since + 1], generations end end def test_dump_addresses_match_dump_all_addresses assert_in_out_err(%w[-robjspace], "#{<<-"begin;"}\n#{<<-'end;'}") do |output, error| begin; def dump_my_heap_please obj = Object.new puts ObjectSpace.dump(obj) ObjectSpace.dump_all(output: $stdout) end p $stdout == dump_my_heap_please end; assert_equal 'true', output.pop needle = JSON.parse(output.first) addr = needle['address'] found = output.drop(1).find { |l| JSON.parse(l)['address'] == addr } assert found, "object #{addr} should be findable in full heap dump" end end def test_dump_class_addresses_match_dump_all_addresses assert_in_out_err(%w[-robjspace], "#{<<-"begin;"}\n#{<<-'end;'}") do |output, error| begin; def dump_my_heap_please obj = Object.new puts ObjectSpace.dump(obj) ObjectSpace.dump_all(output: $stdout) end p $stdout == dump_my_heap_please end; assert_equal 'true', output.pop needle = JSON.parse(output.first) addr = needle['class'] found = output.drop(1).find { |l| JSON.parse(l)['address'] == addr } assert found, "object #{addr} should be findable in full heap dump" end end def test_dump_escapes_method_name method_name = "foo\"bar" klass = Class.new do define_method(method_name) { "TEST STRING" } end ObjectSpace.trace_object_allocations_start obj = klass.new.send(method_name) dump = ObjectSpace.dump(obj) assert_includes dump, '"method":"foo\"bar"' parsed = JSON.parse(dump) assert_equal "foo\"bar", parsed["method"] ensure ObjectSpace.trace_object_allocations_stop end def test_dump_reference_addresses_match_dump_all_addresses assert_in_out_err(%w[-robjspace], "#{<<-"begin;"}\n#{<<-'end;'}") do |output, error| begin; def dump_my_heap_please obj = Object.new obj2 = Object.new obj2.instance_variable_set(:@ref, obj) puts ObjectSpace.dump(obj) ObjectSpace.dump_all(output: $stdout) end p $stdout == dump_my_heap_please end; assert_equal 'true', output.pop needle = JSON.parse(output.first) addr = needle['address'] found = output.drop(1).find { |l| (JSON.parse(l)['references'] || []).include? addr } assert found, "object #{addr} should be findable in full heap dump" end end def test_dump_all entry = /"bytesize":11, "value":"TEST STRING", "encoding":"UTF-8", "file":"-", "line":4, "method":"dump_my_heap_please", "generation":/ opts = %w[--disable-gem --disable=frozen-string-literal -robjspace] assert_in_out_err(opts, "#{<<-"begin;"}#{<<-'end;'}") do |output, error| begin; def dump_my_heap_please ObjectSpace.trace_object_allocations_start GC.start str = "TEST STRING".force_encoding("UTF-8") ObjectSpace.dump_all(output: :stdout) end p dump_my_heap_please end; assert_equal 'nil', output.pop assert_match(entry, output.grep(/TEST STRING/).join("\n")) end assert_in_out_err(%w[-robjspace], "#{<<-"begin;"}#{<<-'end;'}") do |(output), (error)| begin; def dump_my_heap_please ObjectSpace.trace_object_allocations_start GC.start (str = "TEST STRING").force_encoding("UTF-8") ObjectSpace.dump_all().path end puts dump_my_heap_please end; assert_nil(error) dump = File.readlines(output) File.unlink(output) assert_match(entry, dump.grep(/TEST STRING/).join("\n")) end if defined?(JSON) args = [ "-rjson", "-", EnvUtil.rubybin, "--disable=gems", "-robjspace", "-eObjectSpace.dump_all(output: :stdout)", ] assert_ruby_status(args, "#{<<~"begin;"}\n#{<<~"end;"}") begin; IO.popen(ARGV) do |f| f.each_line.map { |x| JSON.load(x) } end end; end end def test_dump_uninitialized_file assert_in_out_err(%[-robjspace], <<-RUBY) do |(output), (error)| puts ObjectSpace.dump(File.allocate) RUBY assert_nil error assert_match(/"type":"FILE"/, output) assert_not_match(/"fd":/, output) end end def traverse_classes klass h = {} while klass && !h.has_key?(klass) h[klass] = true klass = ObjectSpace.internal_class_of(klass) end end def test_internal_class_of i = 0 ObjectSpace.each_object{|o| traverse_classes ObjectSpace.internal_class_of(o) i += 1 } assert_operator i, :>, 0 end def test_internal_class_of_on_ast children = ObjectSpace.reachable_objects_from(RubyVM::AbstractSyntaxTree.parse("kadomatsu")) children.each {|child| ObjectSpace.internal_class_of(child).itself} # this used to crash end def test_name_error_message begin bar rescue => err _, m = ObjectSpace.reachable_objects_from(err) end assert_equal(m, m.clone) end def traverse_super_classes klass while klass klass = ObjectSpace.internal_super_of(klass) end end def all_super_classes klass klasses = [] while klass klasses << klass klass = ObjectSpace.internal_super_of(klass) end klasses end def test_internal_super_of klasses = all_super_classes(String) String.ancestors.each{|k| case k when Class assert_equal(true, klasses.include?(k), k.inspect) when Module assert_equal(false, klasses.include?(k), k.inspect) # Internal object (T_ICLASS) end } i = 0 ObjectSpace.each_object(Module){|o| traverse_super_classes ObjectSpace.internal_super_of(o) i += 1 } assert_operator i, :>, 0 end def test_count_symbols assert_separately(%w[-robjspace], "#{<<~';;;'}") h0 = ObjectSpace.count_symbols syms = (1..128).map{|i| ("xyzzy#{i}_#{Process.pid}_#{rand(1_000_000)}_" * 128).to_sym} syms << Class.new{define_method(syms[-1]){}} h = ObjectSpace.count_symbols m = proc {h0.inspect + "\n" + h.inspect} assert_equal 127, h[:mortal_dynamic_symbol] - h0[:mortal_dynamic_symbol], m assert_equal 1, h[:immortal_dynamic_symbol] - h0[:immortal_dynamic_symbol], m assert_operator h[:immortal_static_symbol], :>=, Object.methods.size, m assert_equal h[:immortal_symbol], h[:immortal_dynamic_symbol] + h[:immortal_static_symbol], m ;;; end def test_anonymous_class_name assert_not_include ObjectSpace.dump(Class.new), '"name"' assert_not_include ObjectSpace.dump(Module.new), '"name"' end end