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implement.h
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implement.h
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/*
* implement.h
*
* Definitions that don't need to be public.
*
* Keeps all the internals out of pthread.h
*
* --------------------------------------------------------------------------
*
* Pthreads-embedded (PTE) - POSIX Threads Library for embedded systems
* Copyright(C) 2008 Jason Schmidlapp
*
* Contact Email: [email protected]
*
*
* Pthreads-embedded (PTE) - POSIX Threads Library for embedded systems
* Copyright(C) 2008 Jason Schmidlapp
*
* Contact Email: [email protected]
*
*
* Based upon Pthreads-win32 - POSIX Threads Library for Win32
* Copyright(C) 1998 John E. Bossom
* Copyright(C) 1999,2005 Pthreads-win32 contributors
*
* Contact Email: [email protected]
*
* The original list of contributors to the Pthreads-win32 project
* is contained in the file CONTRIBUTORS.ptw32 included with the
* source code distribution. The list can also be seen at the
* following World Wide Web location:
* http://sources.redhat.com/pthreads-win32/contributors.html
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library in the file COPYING.LIB;
* if not, write to the Free Software Foundation, Inc.,
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
*/
#ifndef _IMPLEMENT_H
#define _IMPLEMENT_H
#include "pte_osal.h"
/* use local include files during development */
#include "semaphore.h"
#include "sched.h"
typedef enum
{
/*
* This enumeration represents the state of the thread;
* The thread is still "alive" if the numeric value of the
* state is greater or equal "PThreadStateRunning".
*/
PThreadStateInitial = 0, /* Thread not running */
PThreadStateRunning, /* Thread alive & kicking */
PThreadStateSuspended, /* Thread alive but suspended */
PThreadStateCancelPending, /* Thread alive but is */
/* has cancelation pending. */
PThreadStateCanceling, /* Thread alive but is */
/* in the process of terminating */
/* due to a cancellation request */
PThreadStateException, /* Thread alive but exiting */
/* due to an exception */
PThreadStateLast
}
PThreadState;
typedef struct pte_thread_t_ pte_thread_t;
struct pte_thread_t_
{
pte_osThreadHandle threadId; /* OS specific thread handle */
pthread_t ptHandle; /* This thread's permanent pthread_t handle */
pte_thread_t * prevReuse; /* Links threads on reuse stack */
volatile PThreadState state;
void *exitStatus;
void *parms;
int ptErrno;
int detachState;
pthread_mutex_t threadLock; /* Used for serialised access to public thread state */
int sched_priority; /* As set, not as currently is */
pthread_mutex_t cancelLock; /* Used for async-cancel safety */
int cancelState;
int cancelType;
int cancelEvent;
#ifdef PTE_CLEANUP_C
jmp_buf start_mark;
#endif /* PTE_CLEANUP_C */
int implicit:
1;
void *keys;
void *nextAssoc;
};
/*
* Special value to mark attribute objects as valid.
*/
#define PTE_ATTR_VALID ((unsigned long) 0xC4C0FFEE)
struct pthread_attr_t_
{
unsigned long valid;
void *stackaddr;
size_t stacksize;
int detachstate;
struct sched_param param;
int inheritsched;
int contentionscope;
};
/*
* ====================
* ====================
* Semaphores, Mutexes and Condition Variables
* ====================
* ====================
*/
struct sem_t_
{
int value;
pthread_mutex_t lock;
pte_osSemaphoreHandle sem;
};
#define PTE_OBJECT_AUTO_INIT ((void *) -1)
#define PTE_OBJECT_INVALID 0
struct pthread_mutex_t_
{
pte_osSemaphoreHandle handle;
int lock_idx;
/* Provides exclusive access to mutex state
via the Interlocked* mechanism.
0: unlocked/free.
1: locked - no other waiters.
-1: locked - with possible other waiters.
*/
int recursive_count; /* Number of unlocks a thread needs to perform
before the lock is released (recursive
mutexes only). */
int kind; /* Mutex type. */
pthread_t ownerThread;
};
struct pthread_mutexattr_t_
{
int pshared;
int kind;
};
/*
* Possible values, other than PTE_OBJECT_INVALID,
* for the "interlock" element in a spinlock.
*
* In this implementation, when a spinlock is initialised,
* the number of cpus available to the process is checked.
* If there is only one cpu then "interlock" is set equal to
* PTE_SPIN_USE_MUTEX and u.mutex is a initialised mutex.
* If the number of cpus is greater than 1 then "interlock"
* is set equal to PTE_SPIN_UNLOCKED and the number is
* stored in u.cpus. This arrangement allows the spinlock
* routines to attempt an InterlockedCompareExchange on "interlock"
* immediately and, if that fails, to try the inferior mutex.
*
* "u.cpus" isn't used for anything yet, but could be used at
* some point to optimise spinlock behaviour.
*/
#define PTE_SPIN_UNLOCKED (1)
#define PTE_SPIN_LOCKED (2)
#define PTE_SPIN_USE_MUTEX (3)
struct pthread_spinlock_t_
{
int interlock; /* Locking element for multi-cpus. */
union
{
int cpus; /* No. of cpus if multi cpus, or */
pthread_mutex_t mutex; /* mutex if single cpu. */
} u;
};
struct pthread_barrier_t_
{
unsigned int nCurrentBarrierHeight;
unsigned int nInitialBarrierHeight;
int iStep;
int pshared;
sem_t semBarrierBreeched[2];
};
struct pthread_barrierattr_t_
{
int pshared;
};
struct pthread_key_t_
{
unsigned key;
void (*destructor) (void *);
pthread_mutex_t keyLock;
void *threads;
};
typedef struct ThreadParms ThreadParms;
typedef struct ThreadKeyAssoc ThreadKeyAssoc;
struct ThreadParms
{
pthread_t tid;
void *(*start) (void *);
void *arg;
};
struct pthread_cond_t_
{
long nWaitersBlocked; /* Number of threads blocked */
long nWaitersGone; /* Number of threads timed out */
long nWaitersToUnblock; /* Number of threads to unblock */
sem_t semBlockQueue; /* Queue up threads waiting for the */
/* condition to become signalled */
sem_t semBlockLock; /* Semaphore that guards access to */
/* | waiters blocked count/block queue */
/* +-> Mandatory Sync.LEVEL-1 */
pthread_mutex_t mtxUnblockLock; /* Mutex that guards access to */
/* | waiters (to)unblock(ed) counts */
/* +-> Optional* Sync.LEVEL-2 */
pthread_cond_t next; /* Doubly linked list */
pthread_cond_t prev;
};
struct pthread_condattr_t_
{
int pshared;
};
#define PTE_RWLOCK_MAGIC 0xfacade2
struct pthread_rwlock_t_
{
pthread_mutex_t mtxExclusiveAccess;
pthread_mutex_t mtxSharedAccessCompleted;
pthread_cond_t cndSharedAccessCompleted;
int nSharedAccessCount;
int nExclusiveAccessCount;
int nCompletedSharedAccessCount;
int nMagic;
};
struct pthread_rwlockattr_t_
{
int pshared;
};
/*
* MCS lock queue node - see pte_MCS_lock.c
*/
struct pte_mcs_node_t_
{
struct pte_mcs_node_t_ **lock; /* ptr to tail of queue */
struct pte_mcs_node_t_ *next; /* ptr to successor in queue */
unsigned int readyFlag; /* set after lock is released by
predecessor */
unsigned int nextFlag; /* set after 'next' ptr is set by
successor */
};
typedef struct pte_mcs_node_t_ pte_mcs_local_node_t;
typedef struct pte_mcs_node_t_ *pte_mcs_lock_t;
struct ThreadKeyAssoc
{
/*
* Purpose:
* This structure creates an association between a thread and a key.
* It is used to implement the implicit invocation of a user defined
* destroy routine for thread specific data registered by a user upon
* exiting a thread.
*
* Graphically, the arrangement is as follows, where:
*
* K - Key with destructor
* (head of chain is key->threads)
* T - Thread that has called pthread_setspecific(Kn)
* (head of chain is thread->keys)
* A - Association. Each association is a node at the
* intersection of two doubly-linked lists.
*
* T1 T2 T3
* | | |
* | | |
* K1 -----+-----A-----A----->
* | | |
* | | |
* K2 -----A-----A-----+----->
* | | |
* | | |
* K3 -----A-----+-----A----->
* | | |
* | | |
* V V V
*
* Access to the association is guarded by two locks: the key's
* general lock (guarding the row) and the thread's general
* lock (guarding the column). This avoids the need for a
* dedicated lock for each association, which not only consumes
* more handles but requires that: before the lock handle can
* be released - both the key must be deleted and the thread
* must have called the destructor. The two-lock arrangement
* allows the resources to be freed as soon as either thread or
* key is concluded.
*
* To avoid deadlock: whenever both locks are required, the key
* and thread locks are always acquired in the order: key lock
* then thread lock. An exception to this exists when a thread
* calls the destructors, however this is done carefully to
* avoid deadlock.
*
* An association is created when a thread first calls
* pthread_setspecific() on a key that has a specified
* destructor.
*
* An association is destroyed either immediately after the
* thread calls the key destructor function on thread exit, or
* when the key is deleted.
*
* Attributes:
* thread
* reference to the thread that owns the
* association. This is actually the pointer to the
* thread struct itself. Since the association is
* destroyed before the thread exits, this can never
* point to a different logical thread to the one that
* created the assoc, i.e. after thread struct reuse.
*
* key
* reference to the key that owns the association.
*
* nextKey
* The pthread_t->keys attribute is the head of a
* chain of associations that runs through the nextKey
* link. This chain provides the 1 to many relationship
* between a pthread_t and all pthread_key_t on which
* it called pthread_setspecific.
*
* prevKey
* Similarly.
*
* nextThread
* The pthread_key_t->threads attribute is the head of
* a chain of assoctiations that runs through the
* nextThreads link. This chain provides the 1 to many
* relationship between a pthread_key_t and all the
* PThreads that have called pthread_setspecific for
* this pthread_key_t.
*
* prevThread
* Similarly.
*
* Notes:
* 1) As soon as either the key or the thread is no longer
* referencing the association, it can be destroyed. The
* association will be removed from both chains.
*
* 2) An association is only created by
* pthread_setspecific if the user provided a
* destroyRoutine when they created the key.
*
*
*/
pte_thread_t * thread;
pthread_key_t key;
ThreadKeyAssoc *nextKey;
ThreadKeyAssoc *nextThread;
ThreadKeyAssoc *prevKey;
ThreadKeyAssoc *prevThread;
};
/*
* Services available through EXCEPTION_PTE_SERVICES
* and also used [as parameters to pte_throw()] as
* generic exception selectors.
*/
#define PTE_EPS_EXIT (1)
#define PTE_EPS_CANCEL (2)
/* Useful macros */
#define PTE_MAX(a,b) ((a)<(b)?(b):(a))
#define PTE_MIN(a,b) ((a)>(b)?(b):(a))
/* Thread Reuse stack bottom marker. Must not be NULL or any valid pointer to memory. */
#define PTE_THREAD_REUSE_EMPTY ((pte_thread_t *) 1)
extern int pte_processInitialized;
extern pte_thread_t * pte_threadReuseTop;
extern pte_thread_t * pte_threadReuseBottom;
extern pthread_key_t pte_selfThreadKey;
extern pthread_key_t pte_cleanupKey;
extern pthread_cond_t pte_cond_list_head;
extern pthread_cond_t pte_cond_list_tail;
extern int pte_mutex_default_kind;
extern int pte_concurrency;
extern int pte_features;
extern pte_osMutexHandle pte_thread_reuse_lock;
extern pte_osMutexHandle pte_mutex_test_init_lock;
extern pte_osMutexHandle pte_cond_list_lock;
extern pte_osMutexHandle pte_cond_test_init_lock;
extern pte_osMutexHandle pte_rwlock_test_init_lock;
extern pte_osMutexHandle pte_spinlock_test_init_lock;
#ifdef __cplusplus
extern "C"
{
#endif /* __cplusplus */
/*
* =====================
* =====================
* Forward Declarations
* =====================
* =====================
*/
int pte_is_attr (const pthread_attr_t * attr);
int pte_cond_check_need_init (pthread_cond_t * cond);
int pte_mutex_check_need_init (pthread_mutex_t * mutex);
int pte_rwlock_check_need_init (pthread_rwlock_t * rwlock);
int pte_spinlock_check_need_init (pthread_spinlock_t * lock);
int pte_processInitialize (void);
void pte_processTerminate (void);
void pte_threadDestroy (pthread_t tid);
void pte_threadExitAndDestroy (pthread_t tid);
void pte_pop_cleanup_all (int execute);
pthread_t pte_new (void);
pthread_t pte_threadReusePop (void);
void pte_threadReusePush (pthread_t thread);
int pte_getprocessors (int *count);
int pte_setthreadpriority (pthread_t thread, int policy, int priority);
void pte_rwlock_cancelwrwait (void *arg);
int pte_threadStart (void *vthreadParms);
void pte_callUserDestroyRoutines (pthread_t thread);
int pte_tkAssocCreate (pte_thread_t * thread, pthread_key_t key);
void pte_tkAssocDestroy (ThreadKeyAssoc * assoc);
int sem_wait_nocancel (sem_t * sem);
unsigned int pte_relmillisecs (const struct timespec * abstime);
void pte_mcs_lock_acquire (pte_mcs_lock_t * lock, pte_mcs_local_node_t * node);
void pte_mcs_lock_release (pte_mcs_local_node_t * node);
/* Declared in private.c */
void pte_throw (unsigned int exception);
int pte_cancellable_wait (pte_osSemaphoreHandle semHandle, unsigned int* timeout);
#define PTE_ATOMIC_EXCHANGE pte_osAtomicExchange
#define PTE_ATOMIC_EXCHANGE_ADD pte_osAtomicExchangeAdd
#define PTE_ATOMIC_COMPARE_EXCHANGE pte_osAtomicCompareExchange
#define PTE_ATOMIC_DECREMENT pte_osAtomicDecrement
#define PTE_ATOMIC_INCREMENT pte_osAtomicIncrement
int pte_thread_detach_np();
int pte_thread_detach_and_exit_np();
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* _IMPLEMENT_H */