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ruby--ruby/test/ruby/test_thread.rb

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# -*- coding: us-ascii -*-
require 'test/unit'
require 'thread'
class TestThread < Test::Unit::TestCase
class Thread < ::Thread
Threads = []
def self.new(*)
th = super
Threads << th
th
end
end
def setup
Thread::Threads.clear
end
def teardown
Thread::Threads.each do |t|
t.kill if t.alive?
begin
t.join
rescue Exception
end
end
end
def test_inspect
th = Module.new {break module_eval("class C\u{30b9 30ec 30c3 30c9} < Thread; self; end")}.start{}
assert_match(/::C\u{30b9 30ec 30c3 30c9}:/, th.inspect)
ensure
th.join
end
def test_main_thread_variable_in_enumerator
assert_equal Thread.main, Thread.current
Thread.current.thread_variable_set :foo, "bar"
thread, value = Fiber.new {
Fiber.yield [Thread.current, Thread.current.thread_variable_get(:foo)]
}.resume
assert_equal Thread.current, thread
assert_equal Thread.current.thread_variable_get(:foo), value
end
def test_thread_variable_in_enumerator
Thread.new {
Thread.current.thread_variable_set :foo, "bar"
thread, value = Fiber.new {
Fiber.yield [Thread.current, Thread.current.thread_variable_get(:foo)]
}.resume
assert_equal Thread.current, thread
assert_equal Thread.current.thread_variable_get(:foo), value
}.join
end
def test_thread_variables
assert_equal [], Thread.new { Thread.current.thread_variables }.join.value
t = Thread.new {
Thread.current.thread_variable_set(:foo, "bar")
Thread.current.thread_variables
}
assert_equal [:foo], t.join.value
end
def test_thread_variable?
Thread.new { assert_not_send([Thread.current, :thread_variable?, "foo"]) }.value
t = Thread.new {
Thread.current.thread_variable_set("foo", "bar")
}.join
assert_send([t, :thread_variable?, "foo"])
assert_send([t, :thread_variable?, :foo])
assert_not_send([t, :thread_variable?, :bar])
end
def test_thread_variable_strings_and_symbols_are_the_same_key
t = Thread.new {}.join
t.thread_variable_set("foo", "bar")
assert_equal "bar", t.thread_variable_get(:foo)
end
def test_thread_variable_frozen
t = Thread.new { }.join
t.freeze
assert_raise(RuntimeError) do
t.thread_variable_set(:foo, "bar")
end
end
def test_mutex_synchronize
m = Mutex.new
r = 0
num_threads = 10
loop=100
(1..num_threads).map{
Thread.new{
loop.times{
m.synchronize{
tmp = r
# empty and waste loop for making thread preemption
100.times {
}
r = tmp + 1
}
}
}
}.each{|e|
e.join
}
assert_equal(num_threads*loop, r)
end
def test_mutex_synchronize_yields_no_block_params
bug8097 = '[ruby-core:53424] [Bug #8097]'
assert_empty(Mutex.new.synchronize {|*params| break params}, bug8097)
end
def test_local_barrier
dir = File.dirname(__FILE__)
lbtest = File.join(dir, "lbtest.rb")
$:.unshift File.join(File.dirname(dir), 'ruby')
$:.shift
3.times {
`#{EnvUtil.rubybin} #{lbtest}`
assert_not_predicate($?, :coredump?, '[ruby-dev:30653]')
}
end
def test_priority
c1 = c2 = 0
run = true
t1 = Thread.new { c1 += 1 while run }
t1.priority = 3
t2 = Thread.new { c2 += 1 while run }
t2.priority = -3
assert_equal(3, t1.priority)
assert_equal(-3, t2.priority)
sleep 0.5
5.times do
assert_not_predicate(t1, :stop?)
assert_not_predicate(t2, :stop?)
break if c1 > c2
sleep 0.1
end
run = false
t1.kill
t2.kill
assert_operator(c1, :>, c2, "[ruby-dev:33124]") # not guaranteed
end
def test_new
assert_raise(ThreadError) do
Thread.new
end
t1 = Thread.new { sleep }
assert_raise(ThreadError) do
t1.instance_eval { initialize { } }
end
t2 = Thread.new(&method(:sleep).to_proc)
assert_raise(ThreadError) do
t2.instance_eval { initialize { } }
end
ensure
t1.kill if t1
t2.kill if t2
end
def test_join
t = Thread.new { sleep }
assert_nil(t.join(0.05))
ensure
t.kill if t
end
def test_join2
ok = false
t1 = Thread.new { ok = true; sleep }
Thread.pass until ok
Thread.pass until t1.stop?
t2 = Thread.new do
Thread.pass while ok
t1.join(0.01)
end
t3 = Thread.new do
ok = false
t1.join
end
assert_nil(t2.value)
t1.wakeup
assert_equal(t1, t3.value)
ensure
t1.kill if t1
t2.kill if t2
t3.kill if t3
end
def test_kill_main_thread
assert_in_out_err([], <<-INPUT, %w(1), [])
p 1
Thread.kill Thread.current
p 2
INPUT
end
def test_kill_wrong_argument
bug4367 = '[ruby-core:35086]'
assert_raise(TypeError, bug4367) {
Thread.kill(nil)
}
o = Object.new
assert_raise(TypeError, bug4367) {
Thread.kill(o)
}
end
def test_kill_thread_subclass
c = Class.new(Thread)
t = c.new { sleep 10 }
assert_nothing_raised { Thread.kill(t) }
assert_equal(nil, t.value)
end
def test_exit
s = 0
Thread.new do
s += 1
Thread.exit
s += 2
end.join
assert_equal(1, s)
end
def test_wakeup
s = 0
t = Thread.new do
s += 1
Thread.stop
s += 1
end
Thread.pass until t.stop?
assert_equal(1, s)
t.wakeup
Thread.pass while t.alive?
assert_equal(2, s)
assert_raise(ThreadError) { t.wakeup }
ensure
t.kill if t
end
def test_stop
assert_in_out_err([], <<-INPUT, %w(2), [])
begin
Thread.stop
p 1
rescue ThreadError
p 2
end
INPUT
end
def test_list
assert_in_out_err([], <<-INPUT) do |r, e|
t1 = Thread.new { sleep }
Thread.pass
t2 = Thread.new { loop { Thread.pass } }
Thread.new { }.join
p [Thread.current, t1, t2].map{|t| t.object_id }.sort
p Thread.list.map{|t| t.object_id }.sort
INPUT
assert_equal(r.first, r.last)
assert_equal([], e)
end
end
def test_main
assert_in_out_err([], <<-INPUT, %w(true false), [])
p Thread.main == Thread.current
Thread.new { p Thread.main == Thread.current }.join
INPUT
end
def test_abort_on_exception
assert_in_out_err([], <<-INPUT, %w(false 1), [])
p Thread.abort_on_exception
begin
t = Thread.new { raise }
Thread.pass until t.stop?
p 1
rescue
p 2
end
INPUT
assert_in_out_err([], <<-INPUT, %w(true 2), [])
Thread.abort_on_exception = true
p Thread.abort_on_exception
begin
Thread.new { raise }
sleep 0.5
p 1
rescue
p 2
end
INPUT
assert_in_out_err(%w(--disable-gems -d), <<-INPUT, %w(false 2), %r".+")
p Thread.abort_on_exception
begin
t = Thread.new { raise }
Thread.pass until t.stop?
p 1
rescue
p 2
end
INPUT
assert_in_out_err([], <<-INPUT, %w(false true 2), [])
p Thread.abort_on_exception
begin
ok = false
t = Thread.new { Thread.pass until ok; raise }
t.abort_on_exception = true
p t.abort_on_exception
ok = 1
sleep 1
p 1
rescue
p 2
end
INPUT
end
def test_status_and_stop_p
a = ::Thread.new { raise("die now") }
b = Thread.new { Thread.stop }
c = Thread.new { Thread.exit }
e = Thread.current
Thread.pass while a.alive? or !b.stop? or c.alive?
assert_equal(nil, a.status)
assert_predicate(a, :stop?)
assert_equal("sleep", b.status)
assert_predicate(b, :stop?)
assert_equal(false, c.status)
assert_match(/^#<TestThread::Thread:.* dead>$/, c.inspect)
assert_predicate(c, :stop?)
es1 = e.status
es2 = e.stop?
assert_equal(["run", false], [es1, es2])
ensure
a.kill if a
b.kill if b
c.kill if c
end
def test_switch_while_busy_loop
bug1402 = "[ruby-dev:38319] [Bug #1402]"
flag = true
th = Thread.current
waiter = Thread.start {
sleep 0.1
flag = false
sleep 1
th.raise(bug1402)
}
assert_nothing_raised(RuntimeError, bug1402) do
nil while flag
end
assert(!flag, bug1402)
ensure
waiter.kill.join
end
def test_safe_level
ok = false
t = Thread.new do
EnvUtil.suppress_warning do
$SAFE = 1
end
ok = true
sleep
end
Thread.pass until ok
assert_equal(0, Thread.current.safe_level)
assert_equal(1, t.safe_level)
ensure
t.kill if t
end
def test_thread_local
t = Thread.new { sleep }
assert_equal(false, t.key?(:foo))
t["foo"] = "foo"
t["bar"] = "bar"
t["baz"] = "baz"
assert_equal(true, t.key?(:foo))
assert_equal(true, t.key?("foo"))
assert_equal(false, t.key?(:qux))
assert_equal(false, t.key?("qux"))
assert_equal([:foo, :bar, :baz], t.keys)
ensure
t.kill if t
end
def test_thread_local_security
assert_raise(RuntimeError) do
Thread.new do
Thread.current[:foo] = :bar
Thread.current.freeze
Thread.current[:foo] = :baz
end.join
end
end
def test_thread_local_dynamic_symbol
bug10667 = '[ruby-core:67185] [Bug #10667]'
t = Thread.new {}.join
key_str = "foo#{rand}"
key_sym = key_str.to_sym
t.thread_variable_set(key_str, "bar")
assert_equal("bar", t.thread_variable_get(key_str), "#{bug10667}: string key")
assert_equal("bar", t.thread_variable_get(key_sym), "#{bug10667}: symbol key")
end
def test_select_wait
assert_nil(IO.select(nil, nil, nil, 0.001))
t = Thread.new do
IO.select(nil, nil, nil, nil)
end
Thread.pass until t.stop?
assert_predicate(t, :alive?)
t.kill
end
def test_mutex_deadlock
m = Mutex.new
m.synchronize do
assert_raise(ThreadError) do
m.synchronize do
assert(false)
end
end
end
end
def test_mutex_interrupt
m = Mutex.new
m.lock
t = Thread.new do
m.lock
:foo
end
Thread.pass until t.stop?
t.kill
assert_nil(t.value)
end
def test_mutex_illegal_unlock
m = Mutex.new
m.lock
assert_raise(ThreadError) do
Thread.new do
m.unlock
end.join
end
end
def test_mutex_fifo_like_lock
m1 = Mutex.new
m2 = Mutex.new
m1.lock
m2.lock
m1.unlock
m2.unlock
assert_equal(false, m1.locked?)
assert_equal(false, m2.locked?)
m3 = Mutex.new
m1.lock
m2.lock
m3.lock
m1.unlock
m2.unlock
m3.unlock
assert_equal(false, m1.locked?)
assert_equal(false, m2.locked?)
assert_equal(false, m3.locked?)
end
def test_mutex_trylock
m = Mutex.new
assert_equal(true, m.try_lock)
assert_equal(false, m.try_lock, '[ruby-core:20943]')
Thread.new{
assert_equal(false, m.try_lock)
}.join
m.unlock
end
def test_recursive_outer
arr = []
obj = Struct.new(:foo, :visited).new(arr, false)
arr << obj
def obj.hash
self[:visited] = true
super
raise "recursive_outer should short circuit intermediate calls"
end
assert_nothing_raised {arr.hash}
assert(obj[:visited], "obj.hash was not called")
end
def test_thread_instance_variable
bug4389 = '[ruby-core:35192]'
assert_in_out_err([], <<-INPUT, %w(), [], bug4389)
class << Thread.current
@data = :data
end
INPUT
end
def test_no_valid_cfp
skip 'with win32ole, cannot run this testcase because win32ole redefines Thread#intialize' if defined?(WIN32OLE)
bug5083 = '[ruby-dev:44208]'
assert_equal([], Thread.new(&Module.method(:nesting)).value, bug5083)
assert_instance_of(Thread, Thread.new(:to_s, &Class.new.method(:undef_method)).join, bug5083)
end
def make_handle_interrupt_test_thread1 flag
r = []
ready_p = false
done = false
th = Thread.new{
begin
Thread.handle_interrupt(RuntimeError => flag){
begin
ready_p = true
sleep 0.01 until done
rescue
r << :c1
end
}
rescue
r << :c2
end
}
Thread.pass until ready_p
th.raise
begin
done = true
th.join
rescue
r << :c3
end
r
end
def test_handle_interrupt
[[:never, :c2],
[:immediate, :c1],
[:on_blocking, :c1]].each{|(flag, c)|
assert_equal([flag, c], [flag] + make_handle_interrupt_test_thread1(flag))
}
# TODO: complex cases are needed.
end
def test_handle_interrupt_invalid_argument
assert_raise(ArgumentError) {
Thread.handle_interrupt(RuntimeError => :immediate) # no block
}
assert_raise(ArgumentError) {
Thread.handle_interrupt(RuntimeError => :xyzzy) {}
}
assert_raise(TypeError) {
Thread.handle_interrupt([]) {} # array
}
end
def for_test_handle_interrupt_with_return
Thread.handle_interrupt(Object => :never){
Thread.current.raise RuntimeError.new("have to be rescured")
return
}
rescue
end
def test_handle_interrupt_with_return
assert_nothing_raised do
for_test_handle_interrupt_with_return
_dummy_for_check_ints=nil
end
end
def test_handle_interrupt_with_break
assert_nothing_raised do
begin
Thread.handle_interrupt(Object => :never){
Thread.current.raise RuntimeError.new("have to be rescured")
break
}
rescue
end
_dummy_for_check_ints=nil
end
end
def test_handle_interrupt_blocking
r=:ng
e=Class.new(Exception)
th_s = Thread.current
begin
th = Thread.start{
Thread.handle_interrupt(Object => :on_blocking){
begin
Thread.pass until r == :wait
Thread.current.raise RuntimeError
r = :ok
sleep
ensure
th_s.raise e, "raise from ensure", $@
end
}
}
assert_raise(e) {r = :wait; sleep 1}
assert_raise(RuntimeError) {th.join(0)}
ensure
th.kill
end
assert_equal(:ok,r)
end
def test_handle_interrupt_and_io
assert_in_out_err([], <<-INPUT, %w(ok), [])
th_waiting = true
t = Thread.new {
Thread.handle_interrupt(RuntimeError => :on_blocking) {
nil while th_waiting
# async interrupt should be raised _before_ writing puts arguments
puts "ng"
}
}
Thread.pass while t.stop?
t.raise RuntimeError
th_waiting = false
t.join rescue nil
puts "ok"
INPUT
end
def test_handle_interrupt_and_p
assert_in_out_err([], <<-INPUT, %w(:ok :ok), [])
th_waiting = false
t = Thread.new {
Thread.handle_interrupt(RuntimeError => :on_blocking) {
th_waiting = true
nil while th_waiting
# p shouldn't provide interruptible point
p :ok
p :ok
}
}
Thread.pass until th_waiting
t.raise RuntimeError
th_waiting = false
t.join rescue nil
INPUT
end
def test_handle_interrupted?
q = Queue.new
Thread.handle_interrupt(RuntimeError => :never){
done = false
th = Thread.new{
q.push :e
begin
begin
Thread.pass until done
rescue => e
q.push :ng1
end
begin
Thread.handle_interrupt(Object => :immediate){} if Thread.pending_interrupt?
rescue RuntimeError => e
q.push :ok
end
rescue => e
q.push :ng2
ensure
q.push :ng3
end
}
q.pop
th.raise
done = true
th.join
assert_equal(:ok, q.pop)
}
end
def test_thread_timer_and_ensure
assert_normal_exit(<<_eom, 'r36492', timeout: 3)
flag = false
t = Thread.new do
begin
sleep
ensure
1 until flag
end
end
Thread.pass until t.status == "sleep"
t.kill
t.alive? == true
flag = true
t.join
_eom
end
def test_uninitialized
c = Class.new(Thread)
c.class_eval { def initialize; end }
assert_raise(ThreadError) { c.new.start }
end
def test_backtrace
Thread.new{
assert_equal(Array, Thread.main.backtrace.class)
}.join
t = Thread.new{}
t.join
assert_equal(nil, t.backtrace)
end
def test_thread_timer_and_interrupt
bug5757 = '[ruby-dev:44985]'
t0 = Time.now.to_f
pid = nil
cmd = 'Signal.trap(:INT, "DEFAULT"); r,=IO.pipe; Thread.start {Thread.pass until Thread.main.stop?; puts; STDOUT.flush}; r.read'
opt = {}
opt[:new_pgroup] = true if /mswin|mingw/ =~ RUBY_PLATFORM
s, _err = EnvUtil.invoke_ruby(['-e', cmd], "", true, true, opt) do |in_p, out_p, err_p, cpid|
out_p.gets
pid = cpid
Process.kill(:SIGINT, pid)
Process.wait(pid)
[$?, err_p.read]
end
t1 = Time.now.to_f
assert_equal(pid, s.pid, bug5757)
assert_equal([false, true, false, Signal.list["INT"]],
[s.exited?, s.signaled?, s.stopped?, s.termsig],
"[s.exited?, s.signaled?, s.stopped?, s.termsig]")
assert_in_delta(t1 - t0, 1, 1, bug5757)
end
def test_thread_join_in_trap
assert_separately [], <<-'EOS'
Signal.trap(:INT, "DEFAULT")
t0 = Thread.current
assert_nothing_raised{
t = Thread.new {Thread.pass until t0.stop?; Process.kill(:INT, $$)}
Signal.trap :INT do
t.join
end
t.join
}
EOS
end
def test_thread_value_in_trap
assert_separately [], <<-'EOS'
Signal.trap(:INT, "DEFAULT")
t0 = Thread.current
t = Thread.new {Thread.pass until t0.stop?; Process.kill(:INT, $$); :normal_end}
Signal.trap :INT do
t.value
end
assert_equal(:normal_end, t.value)
EOS
end
def test_thread_join_current
assert_raise(ThreadError) do
Thread.current.join
end
end
def test_thread_join_main_thread
assert_raise(ThreadError) do
Thread.new(Thread.current) {|t|
t.join
}.join
end
end
def test_main_thread_status_at_exit
assert_in_out_err([], <<-'INPUT', ["false false aborting"], [])
require 'thread'
q = Queue.new
Thread.new(Thread.current) {|mth|
begin
q.push nil
mth.run
Thread.pass until mth.stop?
p :mth_stopped # don't run if killed by rb_thread_terminate_all
ensure
puts "#{mth.alive?} #{mth.status} #{Thread.current.status}"
end
}
q.pop
INPUT
end
def test_thread_status_in_trap
# when running trap handler, Thread#status must show "run"
# Even though interrupted from sleeping function
assert_in_out_err([], <<-INPUT, %w(sleep run), [])
Signal.trap(:INT) {
puts Thread.current.status
exit
}
t = Thread.current
Thread.new(Thread.current) {|mth|
Thread.pass until t.stop?
puts mth.status
Process.kill(:INT, $$)
}
sleep 0.1
INPUT
end
# Bug #7450
def test_thread_status_raise_after_kill
ary = []
t = Thread.new {
begin
ary << Thread.current.status
sleep #1
ensure
begin
ary << Thread.current.status
sleep #2
ensure
ary << Thread.current.status
end
end
}
begin
Thread.pass until ary.size >= 1
Thread.pass until t.stop?
t.kill # wake up sleep #1
Thread.pass until ary.size >= 2
Thread.pass until t.stop?
t.raise "wakeup" # wake up sleep #2
Thread.pass while t.alive?
assert_equal(ary, ["run", "aborting", "aborting"])
ensure
t.join rescue nil
end
end
def test_mutex_owned
mutex = Mutex.new
assert_equal(mutex.owned?, false)
mutex.synchronize {
# Now, I have the mutex
assert_equal(mutex.owned?, true)
}
assert_equal(mutex.owned?, false)
end
def test_mutex_owned2
begin
mutex = Mutex.new
th = Thread.new {
# lock forever
mutex.lock
sleep
}
# acquired by another thread.
Thread.pass until mutex.locked?
assert_equal(mutex.owned?, false)
ensure
th.kill if th
end
end
* vm.c: support variable VM/Machine stack sizes. Specified by the following environment variaables: - RUBY_THREAD_VM_STACK_SIZE: vm stack size used at thread creation. default: 128KB (32bit CPU) or 256KB (64bit CPU). - RUBY_THREAD_MACHINE_STACK_SIZE: machine stack size used at thread creation. default: 512KB or 1024KB. - RUBY_FIBER_VM_STACK_SIZE: vm stack size used at fiber creation. default: 64KB or 128KB. - RUBY_FIBER_MACHINE_STACK_SIZE: machine stack size used at fiber creation. default: 256KB or 256KB. This values are specified at launched timing. You can not change these values at running time. Environ variables are only *hints* because: - They are aligned to 4KB. - They have minimum values (depend on OSs). - Machine stack settings are ignored by some OSs. Default values especially fiber stack sizes are increased. This change affect Fiber's behavior: (1) You can run more complex program on a Fiber. (2) You can not make many (thousands) Fibers because of lack of address space (on 32bit CPU). If (2) bothers you, (a) Use 64bit CPU with big memory, or (b) Specify RUBY_FIBER_(VM|MACHINE)_STACK_SIZE correctly. You need to choose correct stack size carefully. These values are completely rely on systems (OS/compiler and so on). * vm_core.h (rb_vm_t::default_params): add to record above settings. * vm.c (RubyVM::DEFAULT_PARAMS): add new constant to see above setting. * thread_pthread.c: support RUBY_THREAD_MACHINE_STACK_SIZE. * cont.c: support RUBY_FIBER_(VM|MACHINE)_STACK_SIZE. * test/ruby/test_fiber.rb: add tests for above. * test/ruby/test_thread.rb: ditto. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@38478 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2012-12-19 17:29:18 -05:00
def test_mutex_unlock_on_trap
assert_in_out_err([], <<-INPUT, %w(locked unlocked false), [])
m = Mutex.new
trapped = false
Signal.trap("INT") { |signo|
m.unlock
trapped = true
puts "unlocked"
}
m.lock
puts "locked"
Process.kill("INT", $$)
Thread.pass until trapped
puts m.locked?
INPUT
end
* vm.c: support variable VM/Machine stack sizes. Specified by the following environment variaables: - RUBY_THREAD_VM_STACK_SIZE: vm stack size used at thread creation. default: 128KB (32bit CPU) or 256KB (64bit CPU). - RUBY_THREAD_MACHINE_STACK_SIZE: machine stack size used at thread creation. default: 512KB or 1024KB. - RUBY_FIBER_VM_STACK_SIZE: vm stack size used at fiber creation. default: 64KB or 128KB. - RUBY_FIBER_MACHINE_STACK_SIZE: machine stack size used at fiber creation. default: 256KB or 256KB. This values are specified at launched timing. You can not change these values at running time. Environ variables are only *hints* because: - They are aligned to 4KB. - They have minimum values (depend on OSs). - Machine stack settings are ignored by some OSs. Default values especially fiber stack sizes are increased. This change affect Fiber's behavior: (1) You can run more complex program on a Fiber. (2) You can not make many (thousands) Fibers because of lack of address space (on 32bit CPU). If (2) bothers you, (a) Use 64bit CPU with big memory, or (b) Specify RUBY_FIBER_(VM|MACHINE)_STACK_SIZE correctly. You need to choose correct stack size carefully. These values are completely rely on systems (OS/compiler and so on). * vm_core.h (rb_vm_t::default_params): add to record above settings. * vm.c (RubyVM::DEFAULT_PARAMS): add new constant to see above setting. * thread_pthread.c: support RUBY_THREAD_MACHINE_STACK_SIZE. * cont.c: support RUBY_FIBER_(VM|MACHINE)_STACK_SIZE. * test/ruby/test_fiber.rb: add tests for above. * test/ruby/test_thread.rb: ditto. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@38478 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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def invoke_rec script, vm_stack_size, machine_stack_size, use_length = true
env = {}
env['RUBY_THREAD_VM_STACK_SIZE'] = vm_stack_size.to_s if vm_stack_size
env['RUBY_THREAD_MACHINE_STACK_SIZE'] = machine_stack_size.to_s if machine_stack_size
out, = EnvUtil.invoke_ruby([env, '-e', script], '', true, true)
use_length ? out.length : out
end
def test_stack_size
h_default = eval(invoke_rec('p RubyVM::DEFAULT_PARAMS', nil, nil, false))
h_0 = eval(invoke_rec('p RubyVM::DEFAULT_PARAMS', 0, 0, false))
h_large = eval(invoke_rec('p RubyVM::DEFAULT_PARAMS', 1024 * 1024 * 10, 1024 * 1024 * 10, false))
assert_operator(h_default[:thread_vm_stack_size], :>, h_0[:thread_vm_stack_size],
"0 thread_vm_stack_size")
assert_operator(h_default[:thread_vm_stack_size], :<, h_large[:thread_vm_stack_size],
"large thread_vm_stack_size")
assert_operator(h_default[:thread_machine_stack_size], :>=, h_0[:thread_machine_stack_size],
"0 thread_machine_stack_size")
assert_operator(h_default[:thread_machine_stack_size], :<=, h_large[:thread_machine_stack_size],
"large thread_machine_stack_size")
end
* vm.c: support variable VM/Machine stack sizes. Specified by the following environment variaables: - RUBY_THREAD_VM_STACK_SIZE: vm stack size used at thread creation. default: 128KB (32bit CPU) or 256KB (64bit CPU). - RUBY_THREAD_MACHINE_STACK_SIZE: machine stack size used at thread creation. default: 512KB or 1024KB. - RUBY_FIBER_VM_STACK_SIZE: vm stack size used at fiber creation. default: 64KB or 128KB. - RUBY_FIBER_MACHINE_STACK_SIZE: machine stack size used at fiber creation. default: 256KB or 256KB. This values are specified at launched timing. You can not change these values at running time. Environ variables are only *hints* because: - They are aligned to 4KB. - They have minimum values (depend on OSs). - Machine stack settings are ignored by some OSs. Default values especially fiber stack sizes are increased. This change affect Fiber's behavior: (1) You can run more complex program on a Fiber. (2) You can not make many (thousands) Fibers because of lack of address space (on 32bit CPU). If (2) bothers you, (a) Use 64bit CPU with big memory, or (b) Specify RUBY_FIBER_(VM|MACHINE)_STACK_SIZE correctly. You need to choose correct stack size carefully. These values are completely rely on systems (OS/compiler and so on). * vm_core.h (rb_vm_t::default_params): add to record above settings. * vm.c (RubyVM::DEFAULT_PARAMS): add new constant to see above setting. * thread_pthread.c: support RUBY_THREAD_MACHINE_STACK_SIZE. * cont.c: support RUBY_FIBER_(VM|MACHINE)_STACK_SIZE. * test/ruby/test_fiber.rb: add tests for above. * test/ruby/test_thread.rb: ditto. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@38478 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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def test_vm_machine_stack_size
script = 'def rec; print "."; STDOUT.flush; rec; end; rec'
* vm.c: support variable VM/Machine stack sizes. Specified by the following environment variaables: - RUBY_THREAD_VM_STACK_SIZE: vm stack size used at thread creation. default: 128KB (32bit CPU) or 256KB (64bit CPU). - RUBY_THREAD_MACHINE_STACK_SIZE: machine stack size used at thread creation. default: 512KB or 1024KB. - RUBY_FIBER_VM_STACK_SIZE: vm stack size used at fiber creation. default: 64KB or 128KB. - RUBY_FIBER_MACHINE_STACK_SIZE: machine stack size used at fiber creation. default: 256KB or 256KB. This values are specified at launched timing. You can not change these values at running time. Environ variables are only *hints* because: - They are aligned to 4KB. - They have minimum values (depend on OSs). - Machine stack settings are ignored by some OSs. Default values especially fiber stack sizes are increased. This change affect Fiber's behavior: (1) You can run more complex program on a Fiber. (2) You can not make many (thousands) Fibers because of lack of address space (on 32bit CPU). If (2) bothers you, (a) Use 64bit CPU with big memory, or (b) Specify RUBY_FIBER_(VM|MACHINE)_STACK_SIZE correctly. You need to choose correct stack size carefully. These values are completely rely on systems (OS/compiler and so on). * vm_core.h (rb_vm_t::default_params): add to record above settings. * vm.c (RubyVM::DEFAULT_PARAMS): add new constant to see above setting. * thread_pthread.c: support RUBY_THREAD_MACHINE_STACK_SIZE. * cont.c: support RUBY_FIBER_(VM|MACHINE)_STACK_SIZE. * test/ruby/test_fiber.rb: add tests for above. * test/ruby/test_thread.rb: ditto. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@38478 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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size_default = invoke_rec script, nil, nil
assert_operator(size_default, :>, 0, "default size")
* vm.c: support variable VM/Machine stack sizes. Specified by the following environment variaables: - RUBY_THREAD_VM_STACK_SIZE: vm stack size used at thread creation. default: 128KB (32bit CPU) or 256KB (64bit CPU). - RUBY_THREAD_MACHINE_STACK_SIZE: machine stack size used at thread creation. default: 512KB or 1024KB. - RUBY_FIBER_VM_STACK_SIZE: vm stack size used at fiber creation. default: 64KB or 128KB. - RUBY_FIBER_MACHINE_STACK_SIZE: machine stack size used at fiber creation. default: 256KB or 256KB. This values are specified at launched timing. You can not change these values at running time. Environ variables are only *hints* because: - They are aligned to 4KB. - They have minimum values (depend on OSs). - Machine stack settings are ignored by some OSs. Default values especially fiber stack sizes are increased. This change affect Fiber's behavior: (1) You can run more complex program on a Fiber. (2) You can not make many (thousands) Fibers because of lack of address space (on 32bit CPU). If (2) bothers you, (a) Use 64bit CPU with big memory, or (b) Specify RUBY_FIBER_(VM|MACHINE)_STACK_SIZE correctly. You need to choose correct stack size carefully. These values are completely rely on systems (OS/compiler and so on). * vm_core.h (rb_vm_t::default_params): add to record above settings. * vm.c (RubyVM::DEFAULT_PARAMS): add new constant to see above setting. * thread_pthread.c: support RUBY_THREAD_MACHINE_STACK_SIZE. * cont.c: support RUBY_FIBER_(VM|MACHINE)_STACK_SIZE. * test/ruby/test_fiber.rb: add tests for above. * test/ruby/test_thread.rb: ditto. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@38478 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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size_0 = invoke_rec script, 0, nil
assert_operator(size_default, :>, size_0, "0 size")
* vm.c: support variable VM/Machine stack sizes. Specified by the following environment variaables: - RUBY_THREAD_VM_STACK_SIZE: vm stack size used at thread creation. default: 128KB (32bit CPU) or 256KB (64bit CPU). - RUBY_THREAD_MACHINE_STACK_SIZE: machine stack size used at thread creation. default: 512KB or 1024KB. - RUBY_FIBER_VM_STACK_SIZE: vm stack size used at fiber creation. default: 64KB or 128KB. - RUBY_FIBER_MACHINE_STACK_SIZE: machine stack size used at fiber creation. default: 256KB or 256KB. This values are specified at launched timing. You can not change these values at running time. Environ variables are only *hints* because: - They are aligned to 4KB. - They have minimum values (depend on OSs). - Machine stack settings are ignored by some OSs. Default values especially fiber stack sizes are increased. This change affect Fiber's behavior: (1) You can run more complex program on a Fiber. (2) You can not make many (thousands) Fibers because of lack of address space (on 32bit CPU). If (2) bothers you, (a) Use 64bit CPU with big memory, or (b) Specify RUBY_FIBER_(VM|MACHINE)_STACK_SIZE correctly. You need to choose correct stack size carefully. These values are completely rely on systems (OS/compiler and so on). * vm_core.h (rb_vm_t::default_params): add to record above settings. * vm.c (RubyVM::DEFAULT_PARAMS): add new constant to see above setting. * thread_pthread.c: support RUBY_THREAD_MACHINE_STACK_SIZE. * cont.c: support RUBY_FIBER_(VM|MACHINE)_STACK_SIZE. * test/ruby/test_fiber.rb: add tests for above. * test/ruby/test_thread.rb: ditto. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@38478 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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size_large = invoke_rec script, 1024 * 1024 * 10, nil
assert_operator(size_default, :<, size_large, "large size")
end
* vm.c: support variable VM/Machine stack sizes. Specified by the following environment variaables: - RUBY_THREAD_VM_STACK_SIZE: vm stack size used at thread creation. default: 128KB (32bit CPU) or 256KB (64bit CPU). - RUBY_THREAD_MACHINE_STACK_SIZE: machine stack size used at thread creation. default: 512KB or 1024KB. - RUBY_FIBER_VM_STACK_SIZE: vm stack size used at fiber creation. default: 64KB or 128KB. - RUBY_FIBER_MACHINE_STACK_SIZE: machine stack size used at fiber creation. default: 256KB or 256KB. This values are specified at launched timing. You can not change these values at running time. Environ variables are only *hints* because: - They are aligned to 4KB. - They have minimum values (depend on OSs). - Machine stack settings are ignored by some OSs. Default values especially fiber stack sizes are increased. This change affect Fiber's behavior: (1) You can run more complex program on a Fiber. (2) You can not make many (thousands) Fibers because of lack of address space (on 32bit CPU). If (2) bothers you, (a) Use 64bit CPU with big memory, or (b) Specify RUBY_FIBER_(VM|MACHINE)_STACK_SIZE correctly. You need to choose correct stack size carefully. These values are completely rely on systems (OS/compiler and so on). * vm_core.h (rb_vm_t::default_params): add to record above settings. * vm.c (RubyVM::DEFAULT_PARAMS): add new constant to see above setting. * thread_pthread.c: support RUBY_THREAD_MACHINE_STACK_SIZE. * cont.c: support RUBY_FIBER_(VM|MACHINE)_STACK_SIZE. * test/ruby/test_fiber.rb: add tests for above. * test/ruby/test_thread.rb: ditto. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@38478 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2012-12-19 17:29:18 -05:00
def test_machine_stack_size
* vm.c: support variable VM/Machine stack sizes. Specified by the following environment variaables: - RUBY_THREAD_VM_STACK_SIZE: vm stack size used at thread creation. default: 128KB (32bit CPU) or 256KB (64bit CPU). - RUBY_THREAD_MACHINE_STACK_SIZE: machine stack size used at thread creation. default: 512KB or 1024KB. - RUBY_FIBER_VM_STACK_SIZE: vm stack size used at fiber creation. default: 64KB or 128KB. - RUBY_FIBER_MACHINE_STACK_SIZE: machine stack size used at fiber creation. default: 256KB or 256KB. This values are specified at launched timing. You can not change these values at running time. Environ variables are only *hints* because: - They are aligned to 4KB. - They have minimum values (depend on OSs). - Machine stack settings are ignored by some OSs. Default values especially fiber stack sizes are increased. This change affect Fiber's behavior: (1) You can run more complex program on a Fiber. (2) You can not make many (thousands) Fibers because of lack of address space (on 32bit CPU). If (2) bothers you, (a) Use 64bit CPU with big memory, or (b) Specify RUBY_FIBER_(VM|MACHINE)_STACK_SIZE correctly. You need to choose correct stack size carefully. These values are completely rely on systems (OS/compiler and so on). * vm_core.h (rb_vm_t::default_params): add to record above settings. * vm.c (RubyVM::DEFAULT_PARAMS): add new constant to see above setting. * thread_pthread.c: support RUBY_THREAD_MACHINE_STACK_SIZE. * cont.c: support RUBY_FIBER_(VM|MACHINE)_STACK_SIZE. * test/ruby/test_fiber.rb: add tests for above. * test/ruby/test_thread.rb: ditto. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@38478 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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# check machine stack size
# Note that machine stack size may not change size (depend on OSs)
script = 'def rec; print "."; STDOUT.flush; 1.times{1.times{1.times{rec}}}; end; Thread.new{rec}.join'
* vm.c: support variable VM/Machine stack sizes. Specified by the following environment variaables: - RUBY_THREAD_VM_STACK_SIZE: vm stack size used at thread creation. default: 128KB (32bit CPU) or 256KB (64bit CPU). - RUBY_THREAD_MACHINE_STACK_SIZE: machine stack size used at thread creation. default: 512KB or 1024KB. - RUBY_FIBER_VM_STACK_SIZE: vm stack size used at fiber creation. default: 64KB or 128KB. - RUBY_FIBER_MACHINE_STACK_SIZE: machine stack size used at fiber creation. default: 256KB or 256KB. This values are specified at launched timing. You can not change these values at running time. Environ variables are only *hints* because: - They are aligned to 4KB. - They have minimum values (depend on OSs). - Machine stack settings are ignored by some OSs. Default values especially fiber stack sizes are increased. This change affect Fiber's behavior: (1) You can run more complex program on a Fiber. (2) You can not make many (thousands) Fibers because of lack of address space (on 32bit CPU). If (2) bothers you, (a) Use 64bit CPU with big memory, or (b) Specify RUBY_FIBER_(VM|MACHINE)_STACK_SIZE correctly. You need to choose correct stack size carefully. These values are completely rely on systems (OS/compiler and so on). * vm_core.h (rb_vm_t::default_params): add to record above settings. * vm.c (RubyVM::DEFAULT_PARAMS): add new constant to see above setting. * thread_pthread.c: support RUBY_THREAD_MACHINE_STACK_SIZE. * cont.c: support RUBY_FIBER_(VM|MACHINE)_STACK_SIZE. * test/ruby/test_fiber.rb: add tests for above. * test/ruby/test_thread.rb: ditto. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@38478 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2012-12-19 17:29:18 -05:00
vm_stack_size = 1024 * 1024
size_default = invoke_rec script, vm_stack_size, nil
size_0 = invoke_rec script, vm_stack_size, 0
assert_operator(size_default, :>=, size_0, "0 size")
* vm.c: support variable VM/Machine stack sizes. Specified by the following environment variaables: - RUBY_THREAD_VM_STACK_SIZE: vm stack size used at thread creation. default: 128KB (32bit CPU) or 256KB (64bit CPU). - RUBY_THREAD_MACHINE_STACK_SIZE: machine stack size used at thread creation. default: 512KB or 1024KB. - RUBY_FIBER_VM_STACK_SIZE: vm stack size used at fiber creation. default: 64KB or 128KB. - RUBY_FIBER_MACHINE_STACK_SIZE: machine stack size used at fiber creation. default: 256KB or 256KB. This values are specified at launched timing. You can not change these values at running time. Environ variables are only *hints* because: - They are aligned to 4KB. - They have minimum values (depend on OSs). - Machine stack settings are ignored by some OSs. Default values especially fiber stack sizes are increased. This change affect Fiber's behavior: (1) You can run more complex program on a Fiber. (2) You can not make many (thousands) Fibers because of lack of address space (on 32bit CPU). If (2) bothers you, (a) Use 64bit CPU with big memory, or (b) Specify RUBY_FIBER_(VM|MACHINE)_STACK_SIZE correctly. You need to choose correct stack size carefully. These values are completely rely on systems (OS/compiler and so on). * vm_core.h (rb_vm_t::default_params): add to record above settings. * vm.c (RubyVM::DEFAULT_PARAMS): add new constant to see above setting. * thread_pthread.c: support RUBY_THREAD_MACHINE_STACK_SIZE. * cont.c: support RUBY_FIBER_(VM|MACHINE)_STACK_SIZE. * test/ruby/test_fiber.rb: add tests for above. * test/ruby/test_thread.rb: ditto. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@38478 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2012-12-19 17:29:18 -05:00
size_large = invoke_rec script, vm_stack_size, 1024 * 1024 * 10
assert_operator(size_default, :<=, size_large, "large size")
end unless /mswin|mingw/ =~ RUBY_PLATFORM
def test_blocking_mutex_unlocked_on_fork
bug8433 = '[ruby-core:55102] [Bug #8433]'
mutex = Mutex.new
flag = false
mutex.lock
th = Thread.new do
mutex.synchronize do
flag = true
sleep
end
end
Thread.pass until th.stop?
mutex.unlock
pid = Process.fork do
exit(mutex.locked?)
end
th.kill
pid, status = Process.waitpid2(pid)
assert_equal(false, status.success?, bug8433)
end if Process.respond_to?(:fork)
def test_fork_in_thread
bug9751 = '[ruby-core:62070] [Bug #9751]'
f = nil
th = Thread.start do
unless f = IO.popen("-")
STDERR.reopen(STDOUT)
exit
end
Process.wait2(f.pid)
end
unless th.join(3)
Process.kill(:QUIT, f.pid)
Process.kill(:KILL, f.pid) unless th.join(1)
end
_, status = th.value
output = f.read
f.close
assert_not_predicate(status, :signaled?, FailDesc[status, bug9751, output])
assert_predicate(status, :success?, bug9751)
end if Process.respond_to?(:fork)
def test_subclass_no_initialize
t = Module.new do
break eval("class C\u{30b9 30ec 30c3 30c9} < Thread; self; end")
end
t.class_eval do
def initialize
end
end
assert_raise_with_message(ThreadError, /C\u{30b9 30ec 30c3 30c9}/) do
t.new {}
end
end
def test_thread_name
t = Thread.start { sleep }
t.name = 'foo'
assert_equal 'foo', t.name
ensure
t.kill
t.join
end
end