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Boxiang Sun
Pyston
Commits
612c89f0
Commit
612c89f0
authored
Jun 13, 2015
by
Chris Toshok
Browse files
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Plain Diff
undo the threading changes
parent
c0ffc375
Changes
3
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Showing
3 changed files
with
118 additions
and
112 deletions
+118
-112
src/core/threading.cpp
src/core/threading.cpp
+106
-32
src/core/threading.h
src/core/threading.h
+8
-76
src/runtime/generator.cpp
src/runtime/generator.cpp
+4
-4
No files found.
src/core/threading.cpp
View file @
612c89f0
...
@@ -51,16 +51,78 @@ PthreadFastMutex threading_lock;
...
@@ -51,16 +51,78 @@ PthreadFastMutex threading_lock;
// be checked while the threading_lock is held; might not be worth it.
// be checked while the threading_lock is held; might not be worth it.
int
num_starting_threads
(
0
);
int
num_starting_threads
(
0
);
ThreadStateInternal
::
ThreadStateInternal
(
void
*
stack_start
,
pthread_t
pthread_id
,
PyThreadState
*
public_thread_state
)
class
ThreadStateInternal
{
:
saved
(
false
),
stack_start
(
stack_start
),
pthread_id
(
pthread_id
),
public_thread_state
(
public_thread_state
)
{
private:
}
bool
saved
;
ucontext_t
ucontext
;
public:
void
*
stack_start
;
struct
StackInfo
{
BoxedGenerator
*
next_generator
;
void
*
stack_start
;
void
*
stack_limit
;
StackInfo
(
BoxedGenerator
*
next_generator
,
void
*
stack_start
,
void
*
stack_limit
)
:
next_generator
(
next_generator
),
stack_start
(
stack_start
),
stack_limit
(
stack_limit
)
{
#if STACK_GROWS_DOWN
assert
(
stack_start
>
stack_limit
);
assert
((
char
*
)
stack_start
-
(
char
*
)
stack_limit
<
(
1L
<<
30
));
#else
assert
(
stack_start
<
stack_limit
);
assert
((
char
*
)
stack_limit
-
(
char
*
)
stack_start
<
(
1L
<<
30
));
#endif
}
};
std
::
vector
<
StackInfo
>
previous_stacks
;
pthread_t
pthread_id
;
PyThreadState
*
public_thread_state
;
ThreadStateInternal
(
void
*
stack_start
,
pthread_t
pthread_id
,
PyThreadState
*
public_thread_state
)
:
saved
(
false
),
stack_start
(
stack_start
),
pthread_id
(
pthread_id
),
public_thread_state
(
public_thread_state
)
{}
void
saveCurrent
()
{
assert
(
!
saved
);
getcontext
(
&
ucontext
);
saved
=
true
;
}
void
ThreadStateInternal
::
accept
(
gc
::
GCVisitor
*
v
)
{
void
popCurrent
()
{
assert
(
saved
);
saved
=
false
;
}
bool
isValid
()
{
return
saved
;
}
ucontext_t
*
getContext
()
{
return
&
ucontext
;
}
void
pushGenerator
(
BoxedGenerator
*
g
,
void
*
new_stack_start
,
void
*
old_stack_limit
)
{
previous_stacks
.
emplace_back
(
g
,
this
->
stack_start
,
old_stack_limit
);
this
->
stack_start
=
new_stack_start
;
}
void
popGenerator
()
{
assert
(
previous_stacks
.
size
());
StackInfo
&
stack
=
previous_stacks
.
back
();
stack_start
=
stack
.
stack_start
;
previous_stacks
.
pop_back
();
}
void
assertNoGenerators
()
{
assert
(
previous_stacks
.
size
()
==
0
);
}
void
accept
(
gc
::
GCVisitor
*
v
)
{
auto
pub_state
=
public_thread_state
;
auto
pub_state
=
public_thread_state
;
v
->
visitIf
(
pub_state
->
curexc_type
);
if
(
pub_state
->
curexc_type
)
v
->
visitIf
(
pub_state
->
curexc_value
);
v
->
visit
(
pub_state
->
curexc_type
);
v
->
visitIf
(
pub_state
->
curexc_traceback
);
if
(
pub_state
->
curexc_value
)
v
->
visitIf
(
pub_state
->
dict
);
v
->
visit
(
pub_state
->
curexc_value
);
if
(
pub_state
->
curexc_traceback
)
v
->
visit
(
pub_state
->
curexc_traceback
);
if
(
pub_state
->
dict
)
v
->
visit
(
pub_state
->
dict
);
for
(
auto
&
stack_info
:
previous_stacks
)
{
for
(
auto
&
stack_info
:
previous_stacks
)
{
v
->
visit
(
stack_info
.
next_generator
);
v
->
visit
(
stack_info
.
next_generator
);
...
@@ -70,10 +132,22 @@ void ThreadStateInternal::accept(gc::GCVisitor* v) {
...
@@ -70,10 +132,22 @@ void ThreadStateInternal::accept(gc::GCVisitor* v) {
v
->
visitPotentialRange
((
void
**
)
stack_info
.
stack_start
,
(
void
**
)
stack_info
.
stack_limit
);
v
->
visitPotentialRange
((
void
**
)
stack_info
.
stack_start
,
(
void
**
)
stack_info
.
stack_limit
);
#endif
#endif
}
}
}
};
static
std
::
unordered_map
<
pthread_t
,
ThreadStateInternal
*>
current_threads
;
static
__thread
ThreadStateInternal
*
current_internal_thread_state
=
0
;
void
pushGenerator
(
BoxedGenerator
*
g
,
void
*
new_stack_start
,
void
*
old_stack_limit
)
{
assert
(
new_stack_start
);
assert
(
old_stack_limit
);
assert
(
current_internal_thread_state
);
current_internal_thread_state
->
pushGenerator
(
g
,
new_stack_start
,
old_stack_limit
);
}
}
static
std
::
unordered_map
<
pthread_t
,
ThreadStateInternal
*>
current_threads
;
void
popGenerator
()
{
__thread
ThreadStateInternal
*
ThreadStateInternal
::
current
=
0
;
assert
(
current_internal_thread_state
);
current_internal_thread_state
->
popGenerator
();
}
// These are guarded by threading_lock
// These are guarded by threading_lock
static
int
signals_waiting
(
0
);
static
int
signals_waiting
(
0
);
...
@@ -111,10 +185,10 @@ static void visitLocalStack(gc::GCVisitor* v) {
...
@@ -111,10 +185,10 @@ static void visitLocalStack(gc::GCVisitor* v) {
assert
(
sizeof
(
registers
)
%
8
==
0
);
assert
(
sizeof
(
registers
)
%
8
==
0
);
v
->
visitPotentialRange
((
void
**
)
&
registers
,
(
void
**
)((
&
registers
)
+
1
));
v
->
visitPotentialRange
((
void
**
)
&
registers
,
(
void
**
)((
&
registers
)
+
1
));
assert
(
ThreadStateInternal
::
current
);
assert
(
current_internal_thread_state
);
#if STACK_GROWS_DOWN
#if STACK_GROWS_DOWN
void
*
stack_low
=
getCurrentStackLimit
();
void
*
stack_low
=
getCurrentStackLimit
();
void
*
stack_high
=
ThreadStateInternal
::
current
->
stack_start
;
void
*
stack_high
=
current_internal_thread_state
->
stack_start
;
#else
#else
void
*
stack_low
=
current_thread_state
->
stack_start
;
void
*
stack_low
=
current_thread_state
->
stack_start
;
void
*
stack_high
=
getCurrentStackLimit
();
void
*
stack_high
=
getCurrentStackLimit
();
...
@@ -123,7 +197,7 @@ static void visitLocalStack(gc::GCVisitor* v) {
...
@@ -123,7 +197,7 @@ static void visitLocalStack(gc::GCVisitor* v) {
assert
(
stack_low
<
stack_high
);
assert
(
stack_low
<
stack_high
);
v
->
visitPotentialRange
((
void
**
)
stack_low
,
(
void
**
)
stack_high
);
v
->
visitPotentialRange
((
void
**
)
stack_low
,
(
void
**
)
stack_high
);
ThreadStateInternal
::
current
->
accept
(
v
);
current_internal_thread_state
->
accept
(
v
);
}
}
void
visitAllStacks
(
gc
::
GCVisitor
*
v
)
{
void
visitAllStacks
(
gc
::
GCVisitor
*
v
)
{
...
@@ -198,7 +272,7 @@ static void _thread_context_dump(int signum, siginfo_t* info, void* _context) {
...
@@ -198,7 +272,7 @@ static void _thread_context_dump(int signum, siginfo_t* info, void* _context) {
printf
(
"old rip: 0x%lx
\n
"
,
(
intptr_t
)
context
->
uc_mcontext
.
gregs
[
REG_RIP
]);
printf
(
"old rip: 0x%lx
\n
"
,
(
intptr_t
)
context
->
uc_mcontext
.
gregs
[
REG_RIP
]);
}
}
assert
(
ThreadStateInternal
::
current
==
current_threads
[
tid
]);
assert
(
current_internal_thread_state
==
current_threads
[
tid
]);
pushThreadState
(
current_threads
[
tid
],
context
);
pushThreadState
(
current_threads
[
tid
],
context
);
signals_waiting
--
;
signals_waiting
--
;
}
}
...
@@ -238,8 +312,8 @@ static void* _thread_start(void* _arg) {
...
@@ -238,8 +312,8 @@ static void* _thread_start(void* _arg) {
#else
#else
void
*
stack_bottom
=
stack_start
;
void
*
stack_bottom
=
stack_start
;
#endif
#endif
ThreadStateInternal
::
current
=
new
ThreadStateInternal
(
stack_bottom
,
current_thread
,
&
cur_thread_state
);
current_internal_thread_state
=
new
ThreadStateInternal
(
stack_bottom
,
current_thread
,
&
cur_thread_state
);
current_threads
[
current_thread
]
=
ThreadStateInternal
::
current
;
current_threads
[
current_thread
]
=
current_internal_thread_state
;
num_starting_threads
--
;
num_starting_threads
--
;
...
@@ -251,7 +325,7 @@ static void* _thread_start(void* _arg) {
...
@@ -251,7 +325,7 @@ static void* _thread_start(void* _arg) {
assert
(
!
PyErr_Occurred
());
assert
(
!
PyErr_Occurred
());
void
*
rtn
=
start_func
(
arg1
,
arg2
,
arg3
);
void
*
rtn
=
start_func
(
arg1
,
arg2
,
arg3
);
ThreadStateInternal
::
current
->
assertNoGenerators
();
current_internal_thread_state
->
assertNoGenerators
();
{
{
LOCK_REGION
(
&
threading_lock
);
LOCK_REGION
(
&
threading_lock
);
...
@@ -260,7 +334,7 @@ static void* _thread_start(void* _arg) {
...
@@ -260,7 +334,7 @@ static void* _thread_start(void* _arg) {
if
(
VERBOSITY
()
>=
2
)
if
(
VERBOSITY
()
>=
2
)
printf
(
"thread tid=%ld exited
\n
"
,
current_thread
);
printf
(
"thread tid=%ld exited
\n
"
,
current_thread
);
}
}
ThreadStateInternal
::
current
=
0
;
current_internal_thread_state
=
0
;
return
rtn
;
return
rtn
;
}
}
...
@@ -338,9 +412,9 @@ static void* find_stack() {
...
@@ -338,9 +412,9 @@ static void* find_stack() {
void
registerMainThread
()
{
void
registerMainThread
()
{
LOCK_REGION
(
&
threading_lock
);
LOCK_REGION
(
&
threading_lock
);
assert
(
!
ThreadStateInternal
::
current
);
assert
(
!
current_internal_thread_state
);
ThreadStateInternal
::
current
=
new
ThreadStateInternal
(
find_stack
(),
pthread_self
(),
&
cur_thread_state
);
current_internal_thread_state
=
new
ThreadStateInternal
(
find_stack
(),
pthread_self
(),
&
cur_thread_state
);
current_threads
[
pthread_self
()]
=
ThreadStateInternal
::
current
;
current_threads
[
pthread_self
()]
=
current_internal_thread_state
;
struct
sigaction
act
;
struct
sigaction
act
;
memset
(
&
act
,
0
,
sizeof
(
act
));
memset
(
&
act
,
0
,
sizeof
(
act
));
...
@@ -356,8 +430,8 @@ void registerMainThread() {
...
@@ -356,8 +430,8 @@ void registerMainThread() {
}
}
void
finishMainThread
()
{
void
finishMainThread
()
{
assert
(
ThreadStateInternal
::
current
);
assert
(
current_internal_thread_state
);
ThreadStateInternal
::
current
->
assertNoGenerators
();
current_internal_thread_state
->
assertNoGenerators
();
// TODO maybe this is the place to wait for non-daemon threads?
// TODO maybe this is the place to wait for non-daemon threads?
}
}
...
@@ -377,8 +451,8 @@ extern "C" void beginAllowThreads() noexcept {
...
@@ -377,8 +451,8 @@ extern "C" void beginAllowThreads() noexcept {
{
{
LOCK_REGION
(
&
threading_lock
);
LOCK_REGION
(
&
threading_lock
);
assert
(
ThreadStateInternal
::
current
);
assert
(
current_internal_thread_state
);
ThreadStateInternal
::
current
->
saveCurrent
();
current_internal_thread_state
->
saveCurrent
();
}
}
}
}
...
@@ -386,8 +460,8 @@ extern "C" void endAllowThreads() noexcept {
...
@@ -386,8 +460,8 @@ extern "C" void endAllowThreads() noexcept {
{
{
LOCK_REGION
(
&
threading_lock
);
LOCK_REGION
(
&
threading_lock
);
assert
(
ThreadStateInternal
::
current
);
assert
(
current_internal_thread_state
);
ThreadStateInternal
::
current
->
popCurrent
();
current_internal_thread_state
->
popCurrent
();
}
}
...
...
src/core/threading.h
View file @
612c89f0
...
@@ -22,7 +22,6 @@
...
@@ -22,7 +22,6 @@
#include "core/common.h"
#include "core/common.h"
#include "core/thread_utils.h"
#include "core/thread_utils.h"
#include "core/types.h"
namespace
pyston
{
namespace
pyston
{
class
Box
;
class
Box
;
...
@@ -34,81 +33,6 @@ class GCVisitor;
...
@@ -34,81 +33,6 @@ class GCVisitor;
namespace
threading
{
namespace
threading
{
class
ThreadStateInternal
{
private:
bool
saved
;
ucontext_t
ucontext
;
void
_popGenerator
()
{
assert
(
previous_stacks
.
size
());
StackInfo
&
stack
=
previous_stacks
.
back
();
stack_start
=
stack
.
stack_start
;
previous_stacks
.
pop_back
();
}
void
_pushGenerator
(
BoxedGenerator
*
g
,
void
*
new_stack_start
,
void
*
old_stack_limit
)
{
previous_stacks
.
emplace_back
(
g
,
this
->
stack_start
,
old_stack_limit
);
this
->
stack_start
=
new_stack_start
;
}
public:
static
__thread
ThreadStateInternal
*
current
;
void
*
stack_start
;
struct
StackInfo
{
BoxedGenerator
*
next_generator
;
void
*
stack_start
;
void
*
stack_limit
;
StackInfo
(
BoxedGenerator
*
next_generator
,
void
*
stack_start
,
void
*
stack_limit
)
:
next_generator
(
next_generator
),
stack_start
(
stack_start
),
stack_limit
(
stack_limit
)
{
#if STACK_GROWS_DOWN
assert
(
stack_start
>
stack_limit
);
assert
((
char
*
)
stack_start
-
(
char
*
)
stack_limit
<
(
1L
<<
30
));
#else
assert
(
stack_start
<
stack_limit
);
assert
((
char
*
)
stack_limit
-
(
char
*
)
stack_start
<
(
1L
<<
30
));
#endif
}
};
std
::
vector
<
StackInfo
>
previous_stacks
;
pthread_t
pthread_id
;
PyThreadState
*
public_thread_state
;
ThreadStateInternal
(
void
*
stack_start
,
pthread_t
pthread_id
,
PyThreadState
*
public_thread_state
);
void
saveCurrent
()
{
assert
(
!
saved
);
getcontext
(
&
ucontext
);
saved
=
true
;
}
void
popCurrent
()
{
assert
(
saved
);
saved
=
false
;
}
bool
isValid
()
const
{
return
saved
;
}
ucontext_t
*
getContext
()
{
return
&
ucontext
;
}
void
assertNoGenerators
()
{
assert
(
previous_stacks
.
size
()
==
0
);
}
void
accept
(
gc
::
GCVisitor
*
v
);
// Some hooks to keep track of the list of stacks that this thread has been using.
// Every time we switch to a new generator, we need to pass a reference to the generator
// itself (so we can access the registers it is saving), the location of the new stack, and
// where we stopped executing on the old stack.
inline
static
void
pushGenerator
(
BoxedGenerator
*
g
,
void
*
new_stack_start
,
void
*
old_stack_limit
)
{
assert
(
new_stack_start
);
assert
(
old_stack_limit
);
assert
(
ThreadStateInternal
::
current
);
current
->
_pushGenerator
(
g
,
new_stack_start
,
old_stack_limit
);
}
inline
static
void
popGenerator
()
{
assert
(
ThreadStateInternal
::
current
);
current
->
_popGenerator
();
}
};
// Whether or not a second thread was ever started:
// Whether or not a second thread was ever started:
bool
threadWasStarted
();
bool
threadWasStarted
();
...
@@ -123,6 +47,14 @@ void finishMainThread();
...
@@ -123,6 +47,14 @@ void finishMainThread();
// stacks and thread-local PyThreadState objects
// stacks and thread-local PyThreadState objects
void
visitAllStacks
(
gc
::
GCVisitor
*
v
);
void
visitAllStacks
(
gc
::
GCVisitor
*
v
);
// Some hooks to keep track of the list of stacks that this thread has been using.
// Every time we switch to a new generator, we need to pass a reference to the generator
// itself (so we can access the registers it is saving), the location of the new stack, and
// where we stopped executing on the old stack.
void
pushGenerator
(
BoxedGenerator
*
g
,
void
*
new_stack_start
,
void
*
old_stack_limit
);
void
popGenerator
();
#ifndef THREADING_USE_GIL
#ifndef THREADING_USE_GIL
#define THREADING_USE_GIL 1
#define THREADING_USE_GIL 1
#define THREADING_USE_GRWL 0
#define THREADING_USE_GRWL 0
...
...
src/runtime/generator.cpp
View file @
612c89f0
...
@@ -90,7 +90,7 @@ void generatorEntry(BoxedGenerator* g) {
...
@@ -90,7 +90,7 @@ void generatorEntry(BoxedGenerator* g) {
assert
(
g
->
cls
==
generator_cls
);
assert
(
g
->
cls
==
generator_cls
);
assert
(
g
->
function
->
cls
==
function_cls
);
assert
(
g
->
function
->
cls
==
function_cls
);
threading
::
ThreadStateInternal
::
pushGenerator
(
g
,
g
->
stack_begin
,
g
->
returnContext
);
threading
::
pushGenerator
(
g
,
g
->
stack_begin
,
g
->
returnContext
);
try
{
try
{
RegisterHelper
context_registerer
(
g
,
__builtin_frame_address
(
0
));
RegisterHelper
context_registerer
(
g
,
__builtin_frame_address
(
0
));
...
@@ -107,7 +107,7 @@ void generatorEntry(BoxedGenerator* g) {
...
@@ -107,7 +107,7 @@ void generatorEntry(BoxedGenerator* g) {
// we returned from the body of the generator. next/send/throw will notify the caller
// we returned from the body of the generator. next/send/throw will notify the caller
g
->
entryExited
=
true
;
g
->
entryExited
=
true
;
threading
::
ThreadStateInternal
::
popGenerator
();
threading
::
popGenerator
();
}
}
swapContext
(
&
g
->
context
,
g
->
returnContext
,
0
);
swapContext
(
&
g
->
context
,
g
->
returnContext
,
0
);
}
}
...
@@ -264,9 +264,9 @@ extern "C" Box* yield(BoxedGenerator* obj, Box* value) {
...
@@ -264,9 +264,9 @@ extern "C" Box* yield(BoxedGenerator* obj, Box* value) {
BoxedGenerator
*
self
=
static_cast
<
BoxedGenerator
*>
(
obj
);
BoxedGenerator
*
self
=
static_cast
<
BoxedGenerator
*>
(
obj
);
self
->
returnValue
=
value
;
self
->
returnValue
=
value
;
threading
::
ThreadStateInternal
::
popGenerator
();
threading
::
popGenerator
();
swapContext
(
&
self
->
context
,
self
->
returnContext
,
0
);
swapContext
(
&
self
->
context
,
self
->
returnContext
,
0
);
threading
::
ThreadStateInternal
::
pushGenerator
(
obj
,
obj
->
stack_begin
,
obj
->
returnContext
);
threading
::
pushGenerator
(
obj
,
obj
->
stack_begin
,
obj
->
returnContext
);
// if the generator receives a exception from the caller we have to throw it
// if the generator receives a exception from the caller we have to throw it
if
(
self
->
exception
.
type
)
{
if
(
self
->
exception
.
type
)
{
...
...
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