/* thread.h: Locking and threading module definitions Copyright 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2007, 2008, 2009, 2010 Red Hat, Inc. This file is part of Cygwin. This software is a copyrighted work licensed under the terms of the Cygwin license. Please consult the file "CYGWIN_LICENSE" for details. */ #ifndef _THREAD_H #define _THREAD_H #define LOCK_MMAP_LIST 1 #define WRITE_LOCK 1 #define READ_LOCK 2 #include #include #include "security.h" #include enum cw_sig_wait { cw_sig_nosig, cw_sig_eintr, cw_sig_resume }; enum cw_cancel_action { cw_cancel_self, cw_no_cancel_self, cw_no_cancel }; DWORD cancelable_wait (HANDLE, DWORD, const cw_cancel_action = cw_cancel_self, const enum cw_sig_wait = cw_sig_nosig) __attribute__ ((regparm (3))); class fast_mutex { public: fast_mutex () : lock_counter (0), win32_obj_id (0) { } ~fast_mutex () { if(win32_obj_id) CloseHandle (win32_obj_id); } bool init () { lock_counter = 0; win32_obj_id = ::CreateEvent (&sec_none_nih, false, false, NULL); if (!win32_obj_id) { debug_printf ("CreateEvent failed. %E"); return false; } return true; } void lock () { if (InterlockedIncrement ((long *) &lock_counter) != 1) cancelable_wait (win32_obj_id, INFINITE, cw_no_cancel, cw_sig_resume); } void unlock () { if (InterlockedDecrement ((long *) &lock_counter)) ::SetEvent (win32_obj_id); } private: unsigned long lock_counter; HANDLE win32_obj_id; }; class per_process; class pinfo; #define PTHREAD_MAGIC 0xdf0df045 #define PTHREAD_MUTEX_MAGIC PTHREAD_MAGIC+1 #define PTHREAD_KEY_MAGIC PTHREAD_MAGIC+2 #define PTHREAD_ATTR_MAGIC PTHREAD_MAGIC+3 #define PTHREAD_MUTEXATTR_MAGIC PTHREAD_MAGIC+4 #define PTHREAD_COND_MAGIC PTHREAD_MAGIC+5 #define PTHREAD_CONDATTR_MAGIC PTHREAD_MAGIC+6 #define SEM_MAGIC PTHREAD_MAGIC+7 #define PTHREAD_ONCE_MAGIC PTHREAD_MAGIC+8 #define PTHREAD_RWLOCK_MAGIC PTHREAD_MAGIC+9 #define PTHREAD_RWLOCKATTR_MAGIC PTHREAD_MAGIC+10 #define MUTEX_OWNER_ANONYMOUS ((pthread_t) -1) typedef unsigned long thread_magic_t; /* verifyable_object should not be defined here - it's a general purpose class */ class verifyable_object { public: thread_magic_t magic; verifyable_object (thread_magic_t verifyer): magic (verifyer) {} virtual ~verifyable_object () { magic = 0; } }; typedef enum { VALID_OBJECT, INVALID_OBJECT, VALID_STATIC_OBJECT } verifyable_object_state; template inline void List_insert (list_node *&head, list_node *node) { if (!node) return; do node->next = head; while (InterlockedCompareExchangePointer (&head, node, node->next) != node->next); } template inline void List_remove (fast_mutex &mx, list_node *&head, list_node const *node) { if (!node) return; mx.lock (); if (head) { if (InterlockedCompareExchangePointer (&head, node->next, node) != node) { list_node *cur = head; while (cur->next && node != cur->next) cur = cur->next; if (node == cur->next) cur->next = cur->next->next; } } mx.unlock (); } template class List { public: List() : head(NULL) { mx_init (); } ~List() { } void fixup_after_fork () { mx_init (); } void insert (list_node *node) { List_insert (head, node); } void remove (list_node *node) { List_remove (mx, head, node); } void for_each (void (list_node::*callback) ()) { mx.lock (); list_node *cur = head; while (cur) { (cur->*callback) (); cur = cur->next; } mx.unlock (); } fast_mutex mx; list_node *head; protected: void mx_init () { if (!mx.init ()) api_fatal ("Could not create mutex for list synchronisation."); } }; class pthread_key: public verifyable_object { DWORD tls_index; public: static bool is_good_object (pthread_key_t const *); int set (const void *value) {TlsSetValue (tls_index, (void *) value); return 0;} void *get () const {return TlsGetValue (tls_index);} pthread_key (void (*)(void *)); ~pthread_key (); static void fixup_before_fork () { keys.for_each (&pthread_key::_fixup_before_fork); } static void fixup_after_fork () { keys.fixup_after_fork (); keys.for_each (&pthread_key::_fixup_after_fork); } static void run_all_destructors () { keys.for_each (&pthread_key::run_destructor); } /* List support calls */ class pthread_key *next; private: static List keys; void _fixup_before_fork (); void _fixup_after_fork (); void (*destructor) (void *); void run_destructor (); void *fork_buf; }; class pthread_attr: public verifyable_object { public: static bool is_good_object(pthread_attr_t const *); int joinable; int contentionscope; int inheritsched; struct sched_param schedparam; size_t stacksize; pthread_attr (); ~pthread_attr (); }; class pthread_mutexattr: public verifyable_object { public: static bool is_good_object(pthread_mutexattr_t const *); int pshared; int mutextype; pthread_mutexattr (); ~pthread_mutexattr (); }; class pthread_mutex: public verifyable_object { public: static void init_mutex (); static int init (pthread_mutex_t *, const pthread_mutexattr_t *attr, const pthread_mutex_t); static bool is_good_object (pthread_mutex_t const *); static bool is_initializer (pthread_mutex_t const *); static bool is_initializer_or_object (pthread_mutex_t const *); static bool is_initializer_or_bad_object (pthread_mutex_t const *); int lock (); int trylock (); int unlock (); int destroy (); void set_type (int in_type) {type = in_type;} int lock_recursive () { if (recursion_counter == UINT_MAX) return EAGAIN; recursion_counter++; return 0; } bool can_be_unlocked (); pthread_mutex (pthread_mutexattr * = NULL); pthread_mutex (pthread_mutex_t *, pthread_mutexattr *); ~pthread_mutex (); class pthread_mutex *next; static void fixup_after_fork () { mutexes.fixup_after_fork (); mutexes.for_each (&pthread_mutex::_fixup_after_fork); } private: unsigned long lock_counter; HANDLE win32_obj_id; unsigned int recursion_counter; LONG condwaits; pthread_t owner; #ifdef DEBUGGING DWORD tid; /* the thread id of the owner */ #endif int type; int pshared; void set_owner (pthread_t self) { recursion_counter = 1; owner = self; #ifdef DEBUGGING tid = GetCurrentThreadId (); #endif } static const pthread_t _new_mutex; static const pthread_t _unlocked_mutex; static const pthread_t _destroyed_mutex; bool no_owner (); void _fixup_after_fork (); static List mutexes; static fast_mutex mutex_initialization_lock; friend class pthread_cond; }; #define WAIT_CANCELED (WAIT_OBJECT_0 + 1) #define WAIT_SIGNALED (WAIT_OBJECT_0 + 2) class _cygtls; class pthread: public verifyable_object { public: HANDLE win32_obj_id; class pthread_attr attr; void *(*function) (void *); void *arg; void *return_ptr; bool valid; bool suspended; int cancelstate, canceltype; _cygtls *cygtls; HANDLE cancel_event; pthread_t joiner; virtual bool create (void *(*)(void *), pthread_attr *, void *); pthread (); virtual ~pthread (); static void init_mainthread (); static bool is_good_object(pthread_t const *); static void atforkprepare(); static void atforkparent(); static void atforkchild(); /* API calls */ static int cancel (pthread_t); static int join (pthread_t * thread, void **return_val); static int detach (pthread_t * thread); static int create (pthread_t * thread, const pthread_attr_t * attr, void *(*start_routine) (void *), void *arg); static int once (pthread_once_t *, void (*)(void)); static int atfork(void (*)(void), void (*)(void), void (*)(void)); static int suspend (pthread_t * thread); static int resume (pthread_t * thread); virtual void exit (void *value_ptr) __attribute__ ((noreturn)); virtual int cancel (); virtual void testcancel (); static void static_cancel_self (); virtual int setcancelstate (int state, int *oldstate); virtual int setcanceltype (int type, int *oldtype); virtual void push_cleanup_handler (__pthread_cleanup_handler *handler); virtual void pop_cleanup_handler (int const execute); static pthread* self (); static DWORD WINAPI thread_init_wrapper (void *); virtual unsigned long getsequence_np(); static int equal (pthread_t t1, pthread_t t2) { return t1 == t2; } /* List support calls */ class pthread *next; static void fixup_after_fork () { threads.fixup_after_fork (); threads.for_each (&pthread::_fixup_after_fork); } static void suspend_all_except_self () { threads.for_each (&pthread::suspend_except_self); } static void resume_all () { threads.for_each (&pthread::resume); } private: static List threads; DWORD thread_id; __pthread_cleanup_handler *cleanup_stack; pthread_mutex mutex; _cygtls *parent_tls; void suspend_except_self (); void resume (); void _fixup_after_fork (); void pop_all_cleanup_handlers (); void precreate (pthread_attr *); void postcreate (); bool create_cancel_event (); static void set_tls_self_pointer (pthread *); void cancel_self (); DWORD get_thread_id (); }; class pthread_null : public pthread { public: static pthread *get_null_pthread(); ~pthread_null(); /* From pthread These should never get called * as the ojbect is not verifyable */ bool create (void *(*)(void *), pthread_attr *, void *); void exit (void *value_ptr) __attribute__ ((noreturn)); int cancel (); void testcancel (); int setcancelstate (int state, int *oldstate); int setcanceltype (int type, int *oldtype); void push_cleanup_handler (__pthread_cleanup_handler *handler); void pop_cleanup_handler (int const execute); unsigned long getsequence_np(); private: pthread_null (); static pthread_null _instance; }; class pthread_condattr: public verifyable_object { public: static bool is_good_object(pthread_condattr_t const *); int shared; pthread_condattr (); ~pthread_condattr (); }; class pthread_cond: public verifyable_object { public: static bool is_good_object (pthread_cond_t const *); static bool is_initializer (pthread_cond_t const *); static bool is_initializer_or_object (pthread_cond_t const *); static bool is_initializer_or_bad_object (pthread_cond_t const *); static void init_mutex (); static int init (pthread_cond_t *, const pthread_condattr_t *); int shared; unsigned long waiting; unsigned long pending; HANDLE sem_wait; pthread_mutex mtx_in; pthread_mutex mtx_out; pthread_mutex_t mtx_cond; void unblock (const bool all); int wait (pthread_mutex_t mutex, DWORD dwMilliseconds = INFINITE); pthread_cond (pthread_condattr *); ~pthread_cond (); class pthread_cond * next; static void fixup_after_fork () { conds.fixup_after_fork (); conds.for_each (&pthread_cond::_fixup_after_fork); } private: void _fixup_after_fork (); static List conds; static fast_mutex cond_initialization_lock; }; class pthread_rwlockattr: public verifyable_object { public: static bool is_good_object(pthread_rwlockattr_t const *); int shared; pthread_rwlockattr (); ~pthread_rwlockattr (); }; class pthread_rwlock: public verifyable_object { public: static bool is_good_object (pthread_rwlock_t const *); static bool is_initializer (pthread_rwlock_t const *); static bool is_initializer_or_object (pthread_rwlock_t const *); static bool is_initializer_or_bad_object (pthread_rwlock_t const *); static void init_mutex (); static int init (pthread_rwlock_t *, const pthread_rwlockattr_t *); int shared; unsigned long waiting_readers; unsigned long waiting_writers; pthread_t writer; struct RWLOCK_READER { struct RWLOCK_READER *next; pthread_t thread; unsigned long n; } *readers; fast_mutex readers_mx; int rdlock (); int tryrdlock (); int wrlock (); int trywrlock (); int unlock (); pthread_mutex mtx; pthread_cond cond_readers; pthread_cond cond_writers; pthread_rwlock (pthread_rwlockattr *); ~pthread_rwlock (); class pthread_rwlock * next; static void fixup_after_fork () { rwlocks.fixup_after_fork (); rwlocks.for_each (&pthread_rwlock::_fixup_after_fork); } private: static List rwlocks; void add_reader (struct RWLOCK_READER *rd); void remove_reader (struct RWLOCK_READER *rd); struct RWLOCK_READER *lookup_reader (pthread_t thread); void release () { if (waiting_writers) { if (!readers) cond_writers.unblock (false); } else if (waiting_readers) cond_readers.unblock (true); } static void rdlock_cleanup (void *arg); static void wrlock_cleanup (void *arg); void _fixup_after_fork (); static fast_mutex rwlock_initialization_lock; }; class pthread_once { public: pthread_mutex_t mutex; int state; }; /* shouldn't be here */ class semaphore: public verifyable_object { public: static bool is_good_object(sem_t const *); /* API calls */ static int init (sem_t *sem, int pshared, unsigned int value); static int destroy (sem_t *sem); static sem_t *open (unsigned long long hash, LUID luid, int fd, int oflag, mode_t mode, unsigned int value, bool &wasopen); static int close (sem_t *sem); static int wait (sem_t *sem); static int post (sem_t *sem); static int getvalue (sem_t *sem, int *sval); static int trywait (sem_t *sem); static int timedwait (sem_t *sem, const struct timespec *abstime); static int getinternal (sem_t *sem, int *sfd, unsigned long long *shash, LUID *sluid, unsigned int *sval); HANDLE win32_obj_id; int shared; long currentvalue; int fd; unsigned long long hash; LUID luid; sem_t *sem; semaphore (int, unsigned int); semaphore (unsigned long long, LUID, int, sem_t *, int, mode_t, unsigned int); ~semaphore (); class semaphore * next; static void fixup_after_fork () { semaphores.fixup_after_fork (); semaphores.for_each (&semaphore::_fixup_after_fork); } static void terminate () { semaphores.for_each (&semaphore::_terminate); } private: int _wait (); void _post (); int _getvalue (int *sval); int _trywait (); int _timedwait (const struct timespec *abstime); void _fixup_after_fork (); void _terminate (); static List semaphores; }; class callback { public: void (*cb)(void); class callback * next; }; struct MTinterface { // General int concurrency; long int threadcount; callback *pthread_prepare; callback *pthread_child; callback *pthread_parent; void Init (); void fixup_before_fork (); void fixup_after_fork (); #if 0 // avoid initialization since zero is implied and MTinterface () : concurrency (0), threadcount (0), pthread_prepare (NULL), pthread_child (NULL), pthread_parent (NULL) { } #endif }; #define MT_INTERFACE user_data->threadinterface #endif // _THREAD_H