diff options
-rw-r--r-- | ChangeLog | 40 | ||||
-rw-r--r-- | attr.c | 9 | ||||
-rw-r--r-- | create.c | 62 | ||||
-rw-r--r-- | exit.c | 34 | ||||
-rw-r--r-- | global.c | 6 | ||||
-rw-r--r-- | implement.h | 18 | ||||
-rw-r--r-- | private.c | 20 | ||||
-rw-r--r-- | pthread.h | 2 | ||||
-rw-r--r-- | sync.c | 165 |
9 files changed, 260 insertions, 96 deletions
@@ -1,3 +1,43 @@ +Sat Jul 25 00:00:13 1998 Ross Johnson <rpj@ixobrychus.canberra.edu.au> + + * create.c (_pthread_start_call): Set thread priority. Ensure our + thread entry is removed from the thread table but only if + pthread_detach() was called and there are no waiting joins. + (pthread_create): Set detach flag in thread entry if the + thread is created PTHREAD_CREATE_DETACHED. + + * pthread.h (pthread_attr_t): Rename member "detachedstate". + + * attr.c (pthread_attr_init): Rename attr members. + + * exit.c (pthread_exit): Fix indirection mistake. + + * implement.h (_PTHREAD_THREADS_TABLE_INDEX): Add. + + * exit.c (_pthread_vacuum): Fix incorrect args to + _pthread_handler_pop_all() calls. + Make thread entry removal conditional. + + * sync.c (pthread_join): Add multiple join and async detach handling. + + * implement.h (_PTHREAD_THREADS_TABLE_INDEX): Add. + + * global.c (_pthread_threads_mutex_table): Add. + + * implement.h (_pthread_once_flag): Remove. + (_pthread_once_lock): Ditto. + (_pthread_threads_mutex_table): Add. + + * global.c (_pthread_once_flag): Remove. + (_pthread_once_lock): Ditto. + + * sync.c (pthread_join): Fix tests involving new return value + from _pthread_find_thread_entry(). + (pthread_detach): Ditto. + + * private.c (_pthread_find_thread_entry): Failure return code + changed from -1 to NULL. + Fri Jul 24 23:09:33 1998 Ross Johnson <rpj@ixobrychus.canberra.edu.au> * create.c (pthread_create): Change . to -> in sigmask memcpy() args. @@ -98,9 +98,14 @@ pthread_attr_init(pthread_attr_t *attr) attr->stacksize = PTHREAD_STACK_MIN; #endif - attr->cancelability = PTHREAD_CANCEL_ENABLE; + attr->cancelstate = PTHREAD_CANCEL_ENABLE; attr->canceltype = PTHREAD_CANCEL_DEFERRED; - attr->detached = PTHREAD_CREATE_JOINABLE; + attr->detachedstate = PTHREAD_CREATE_JOINABLE; + memset(&(attr->sigmask), 0, sizeof(sigset_t)); + + /* Priority uses Win32 priority values. */ + int priority = THREAD_PRIORITY_NORMAL; + attr->valid = 0; return 0; @@ -14,30 +14,35 @@ #include "implement.h" unsigned -_pthread_start_call(void * thisarg) +_pthread_start_call(void * us_arg) { /* We're now in a running thread. Any local variables here are on this threads private stack so we're safe to leave data in them until we leave. */ - _pthread_threads_thread__t * this; + _pthread_threads_thread__t * us; + pthread_mutex_t * us_thread_mutex; _pthread_call_t * call; unsigned (*func)(void *); void * arg; unsigned ret; int from; - this = (_pthread_threads_thread__t *) thisarg; + us = (_pthread_threads_thread__t *) us_arg; - if (this->detached == PTHREAD_CREATE_DETACHED) + /* FIXME: For now, if priority setting fails then at least ensure + that our records reflect true reality. */ + if (SetThreadPriority((HANDLE) us->thread, us->attr.priority) == FALSE) { - (void) CloseHandle(this->thread); + us->attr.priority = GetThreadPriority((HANDLE) us->thread); } - func = this->call.routine; - arg = this->call.arg; + func = us->call.routine; + arg = us->call.arg; + + us_thread_mutex = _PTHREAD_THREAD_MUTEX(us); /* FIXME: Should we be using sigsetjmp() here instead. */ - from = setjmp(this->call.env); + from = setjmp(us->call.env); if (from == 0) { @@ -45,6 +50,21 @@ _pthread_start_call(void * thisarg) ret = (*func)(arg); _pthread_vacuum(); + + /* Remove the thread entry on exit only if pthread_detach() + was called and there are no waiting joins. */ + + /* CRITICAL SECTION */ + pthread_mutex_lock(us_thread_mutex); + + if (us->detach == TRUE + && us->join_count == 0) + { + _pthread_delete_thread_entry(us); + } + + pthread_mutex_lock(us_thread_mutex); + /* END CRITICAL SECTION */ } else { @@ -52,10 +72,26 @@ _pthread_start_call(void * thisarg) func() called pthread_exit() which called longjmp(). */ _pthread_vacuum(); - /* Never returns. */ - _endthreadex(0); + /* Remove the thread entry on exit only if pthread_detach() + was called and there are no waiting joins. */ + + /* CRITICAL SECTION */ + pthread_mutex_lock(us_thread_mutex); + + if (us->detach == TRUE + && us->join_count == 0) + { + _pthread_delete_thread_entry(us); + } + + pthread_mutex_lock(us_thread_mutex); + /* END CRITICAL SECTION */ + + ret = 0; } + /* From Win32's point of view we always return naturally from our + start routine and so it should clean up it's own thread residue. */ return ret; } @@ -78,9 +114,9 @@ pthread_create(pthread_t *thread, { attr_copy = &(this->attr); + /* Map given attributes otherwise just use default values. */ if (attr != NULL) { - /* Map attributes. */ if (attr_copy->stacksize == 0) { attr_copy->stacksize = PTHREAD_STACK_MIN; @@ -88,12 +124,14 @@ pthread_create(pthread_t *thread, attr_copy->cancelstate = attr->cancelstate; attr_copy->canceltype = attr->canceltype; - attr_copy->detached = attr->detached; + attr_copy->detachedstate = attr->detachedstate; attr_copy->priority = attr->priority; #if HAVE_SIGSET_T memcpy(&(attr_copy->sigmask), &(attr->sigmask), sizeof(sigset_t)); #endif /* HAVE_SIGSET_T */ + + this->detach = (attr->detachedstate == PTHREAD_CREATE_DETACHED); } /* Start running, not suspended. */ @@ -6,31 +6,28 @@ * a thread. */ -#include <windows.h> -#include <process.h> #include "pthread.h" #include "implement.h" void _pthread_vacuum(void) { - /* This function can be called from pthread_exit(), or from - _pthread_start_call() in which case cleanupstack should be - empty but destructorstack still needs to be run. */ - _pthread_threads_thread_t * this; + /* Run all the handlers. */ + _pthread_handler_pop_all(_PTHREAD_CLEANUP_STACK, + _PTHREAD_HANDLER_EXECUTE); - this = *_PTHREAD_THIS; + _pthread_handler_pop_all(_PTHREAD_DESTRUCTOR_STACK, + _PTHREAD_HANDLER_EXECUTE); - /* Run all the handlers. */ - _pthread_handler_pop_all(&(this->cleanupstack), _PTHREAD_HANDLER_EXECUTE); - _pthread_handler_pop_all(&(this->destructorstack), _PTHREAD_HANDLER_EXECUTE); + /* Pop any atfork handlers without executing them. */ + _pthread_handler_pop_all(_PTHREAD_FORKPREPARE_STACK, + _PTHREAD_HANDLER_NOEXECUTE); - /* Pop any atfork handlers to free storage. */ - _pthread_handler_pop_all(&(this->forkprepare), _PTHREAD_HANDLER_NOEXECUTE); - _pthread_handler_pop_all(&(this->forkparent), _PTHREAD_HANDLER_NOEXECUTE); - _pthread_handler_pop_all(&(this->forkchild), _PTHREAD_HANDLER_NOEXECUTE); + _pthread_handler_pop_all(_PTHREAD_FORKPARENT_STACK, + _PTHREAD_HANDLER_NOEXECUTE); - _pthread_delete_thread_entry(NULL); + _pthread_handler_pop_all(_PTHREAD_FORKCHILD_STACK, + _PTHREAD_HANDLER_NOEXECUTE); } void @@ -40,14 +37,13 @@ pthread_exit(void * value) this = _PTHREAD_THIS; + /* Copy value into the thread entry so it can be given + to any joining threads. */ if (this->joinvalueptr != NULL) { - *(this->joinvalueptr) = value; + this->joinvalueptr = value; } - /* FIXME: More to do here. IE, if pthread_detach() was called - and value != NULL, do we free(value)? */ - /* Teleport back to _pthread_start_call() to cleanup and exit. */ longjmp(this->call.env, 1); } @@ -15,8 +15,8 @@ pthread_mutex_t _pthread_count_mutex = PTHREAD_MUTEX_INITIALIZER; DWORD _pthread_threads_count = 0; +/* Per thread management storage. */ _pthread_threads_thread_t _pthread_threads_table[PTHREAD_THREADS_MAX]; -unsigned short _pthread_once_flag; - -pthread_mutex_t _pthread_once_lock = PTHREAD_MUTEX_INITIALIZER; +/* Per thread mutex locks. */ +pthread_mutex_t _pthread_threads_mutex_table[PTHREAD_THREADS_MAX]; diff --git a/implement.h b/implement.h index 033e0e8..807bf0e 100644 --- a/implement.h +++ b/implement.h @@ -38,11 +38,23 @@ typedef struct { jmpbuf env; } _pthread_call_t; +/* Macro to return the address of the thread entry of the calling thread. */ #define _PTHREAD_THIS (_pthread_find_thread_entry(pthread_this())) +/* Macro to compute the address of a given handler stack. */ #define _PTHREAD_STACK(stack) \ ((_pthread_handler_node_t *) &(_PTHREAD_THIS)->cleanupstack + stack); +/* Macro to compute the table index of a thread entry from it's entry + address. */ +#define _PTHREAD_THREADS_TABLE_INDEX(this) \ + ((_pthread_threads_table_t *) this - \ + (_pthread_threads_table_t *) _pthread_threads_threads_table) + +/* Macro to compute the address of a per-thread mutex lock. */ +#define _PTHREAD_THREAD_MUTEX(this) \ + (&_pthread_threads_mutex_table[_PTHREAD_THREADS_TABLE_INDEX(this)]) + /* An element in the thread table. */ typedef struct _pthread_threads_thread _pthread_threads_thread_t; @@ -52,6 +64,7 @@ struct _pthread_threads_thread { _pthread_call_t call; int cancelthread; void ** joinvalueptr; + int join_count; _pthread_handler_node_t * cleanupstack; _pthread_handler_node_t * destructorstack; _pthread_handler_node_t * forkpreparestack; @@ -102,10 +115,7 @@ extern DWORD _pthread_threads_count; extern _pthread_threads_thread_t _pthread_threads_table[]; -extern unsigned short _pthread_once_flag; - -extern pthread_mutex_t _pthread_once_lock; - +extern pthread_mutex_t _pthread_threads_mutex_table[]; #endif /* _IMPLEMENT_H */ @@ -98,35 +98,27 @@ _pthread_find_thread_entry(pthread_t thread) if (this->thread == NULL || this == start) { /* Failed to find the thread. */ - return -1; + return NULL; } return this; } void -_pthread_delete_thread_entry(_pthread_threads_thread_t * this) +_pthread_delete_thread_entry(_pthread_threads_thread_t * thread_entry) { /* We don't check that the thread has been properly cleaned up, so it had better be done already. */ - _pthread_threads_thread_t * this; - _pthread_threads_thread_t * entry; /* CRITICAL SECTION */ pthread_mutex_lock(&_pthread_count_mutex); - /* If this is not NULL then we are removing an entry for a - failed thread start. If this is NULL we need to get this - here within the critical section. */ - if (this == NULL) - { - this = _PTHREAD_THIS; - } + /* Remove the thread entry if necessary. */ - if (this->thread != NULL) + if (thread_entry->thread != NULL) { - this->thread = NULL; - + thread_entry->thread = NULL; + if (_pthread_threads_count > 0) { _pthread_threads_count--; @@ -91,7 +91,7 @@ typedef struct { int cancelstate; /* PTHREAD_CANCEL_DISABLE PTHREAD_CANCEL_ENABLE */ - int detached; /* PTHREAD_CREATE_DETACHED + int detachedstate; /* PTHREAD_CREATE_DETACHED PTHREAD_CREATE_JOINABLE */ int canceltype; /* PTHREAD_CANCEL_ASYNCHRONOUS @@ -6,63 +6,147 @@ * synchronisation. */ +/* POSIX STANDARD: A thread may pass a value pointer to some data via + pthread_exit(). That pointer will be stored in a location supplied + as an argument to pthread_join(). + + IMPLEMENTATION: The value_ptr is stored in the thread entry. When + pthread_join() wakes up after waiting, or immediately if the target + thread has already terminated but is not detached, the value + pointer from pthread_exit() will be copied to *value_ptr. + + If the target thread does not become detached in the mean time, all + waiting joins on that thread will get the value pointer. The last + waiting join will delete the target thread entry. + + ---- + + POSIX STANDARD: The results of multiple simultaneous calls to + pthread_join() specifying the same target thread are undefined. + + IMPLEMENTATION: Any such join that occurs before the first such + join wakes up, or the thread is otherwise detached (by a call to + pthread_detach), will return successfully with the value that was + passed to pthread_exit(). After the last such join returns, the + target thread will have be detached and it's entry removed from the + thread table. + + Until the target thread entry is deleted it will be counted against + {PTHREAD_COUNT_MAX}. + + ---- + + ---- + + POSIX STANDARD: It is unspecified whether a thread that has exited + but remains unjoined counts against {PTHREAD_COUNT_MAX}. + + IMPLEMENTATION: A thread that has exited but remains unjoined will + be counted against {PTHREAD_COUNT_MAX}. The first call to + pthread_join() or pthread_detach() will remove the target thread's + table entry and decrement the count. + + ---- */ + +#include <windows.h> #include "pthread.h" +#include "implement.h" int pthread_join(pthread_t thread, void ** valueptr) { LPDWORD exitcode; int detachstate; - pthread_t us = pthread_self(); + _pthread_threads_thread_t * target; /* First check if we are trying to join to ourselves. */ - if (pthread_equal(thread, us) == 0) + if (thread == pthread_self()) { return EDEADLK; } /* Find the thread. */ - this = _pthread_find_thread_entry(thread); + target = _pthread_find_thread_entry(thread); - if (this == -1) + if (target != NULL) { - return ESRCH; - } + pthread_mutex_t * target_thread_mutex; + int ret; - /* If the thread is detached, then join will return immediately. */ + target_thread_mutex = _PTHREAD_THREAD_MUTEX(target); - if (pthread_attr_getdetachedstate(&(this->attr), &detachstate) != 0 - || detachstate == PTHREAD_CREATE_DETACHED) - { - return EINVAL; - } + /* CRITICAL SECTION */ + pthread_mutex_lock(target_thread_mutex); - this->joinvalueptr = valueptr; + /* If the thread is in DETACHED state, then join will return + immediately. */ - /* Wait on the kernel thread object. */ - switch (WaitForSingleObject(thread, INFINITE)) - { - case WAIT_FAILED: - /* The thread does not exist. */ - return ESRCH; - case WAIT_OBJECT_0: - /* The thread has finished. */ - break; - default: - /* This should never happen. */ - break; - } - - /* We don't get the exit code as a result of the last operation, - so we do it now. */ + if (target->detach == TRUE) + { + return EINVAL; + } - if (GetExitCodeThread(thread, exitcode) != TRUE) - { - return ESRCH; + target->join_count++; + + pthread_mutex_lock(target_thread_mutex); + /* END CRITICAL SECTION */ + + /* Wait on the kernel thread object. */ + switch (WaitForSingleObject(thread, INFINITE)) + { + case WAIT_FAILED: + /* The thread does not exist. */ + return ESRCH; + case WAIT_OBJECT_0: + /* The thread has finished. */ + break; + default: + /* This should never happen. */ + break; + } + + /* We know the target thread entry still exists at this point + because we incremented join_count above after checking. The + thread entry will not be removed until join_count == 0 again, + ie. when the last waiting join has passed through the + following critical section. */ + + /* CRITICAL SECTION */ + pthread_mutex_lock(target_thread_mutex); + + /* Collect the value pointer passed to pthread_exit(). If + another thread detaches our target thread while we're + waiting, then we report a deadlock as it likely that storage + pointed to by target->joinvalueptr has been freed or + otherwise no longer valid. */ + + if (target->detach == TRUE) + { + ret = EDEADLK; + } + else + { + *value_ptr = target->joinvalueptr; + ret = 0; + } + + target->join_count--; + + /* If we're the last join to return then we are responsible for + removing the target thread's table entry. */ + if (target->join_count == 0) + { + _pthread_delete_thread_entry(target); + } + + pthread_mutex_lock(target_thread_mutex); + /* END CRITICAL SECTION */ + + return ret; } - /* FIXME: this is wrong. */ - return &exitcode; + /* Thread not found. */ + return ESRCH; } int @@ -73,7 +157,7 @@ pthread_detach(pthread_t thread) this = _pthread_find_thread_entry(thread); - if (this == -1) + if (this == NULL) { return ESRCH; } @@ -84,11 +168,10 @@ pthread_detach(pthread_t thread) { return EINVAL; } - - this->attr.detached = PTHREAD_CREATE_DETACHED; - if (CloseHandle(thread) != TRUE) - { - return ESRCH; - } + + /* This is all we do here - the rest is done either when the thread + exits or when pthread_join() exits. */ + this->detach = TRUE; + return 0; } |