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|
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* Copyright by the Board of Trustees of the University of Illinois. *
* All rights reserved. *
* *
* This file is part of HDF5. The full HDF5 copyright notice, including *
* terms governing use, modification, and redistribution, is contained in *
* the COPYING file, which can be found at the root of the source code *
* distribution tree, or in https://www.hdfgroup.org/licenses. *
* If you do not have access to either file, you may request a copy from *
* help@hdfgroup.org. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*
* Purpose: This file contains the framework for ensuring that the global
* library lock is held when an API routine is called. This
* framework works in concert with the FUNC_ENTER_API / FUNC_LEAVE_API
* macros defined in H5private.h.
*
* Note: Because this threadsafety framework operates outside the library,
* it does not use the error stack.
*/
/****************/
/* Module Setup */
/****************/
/***********/
/* Headers */
/***********/
#include "H5private.h" /* Generic Functions */
#include "H5Eprivate.h" /* Error handling */
#ifdef H5_HAVE_THREADSAFE
/****************/
/* Local Macros */
/****************/
/******************/
/* Local Typedefs */
/******************/
/* Cancelability structure */
typedef struct H5TS_cancel_struct {
int previous_state;
unsigned int cancel_count;
} H5TS_cancel_t;
#ifndef H5_HAVE_WIN_THREADS
/* An H5TS_tid_t is a record of a thread identifier that is
* available for reuse.
*/
struct _tid;
typedef struct _tid H5TS_tid_t;
struct _tid {
H5TS_tid_t *next;
uint64_t id;
};
#endif
/********************/
/* Local Prototypes */
/********************/
static void H5TS__key_destructor(void *key_val);
#ifndef H5_HAVE_WIN_THREADS
static void H5TS_tid_destructor(void *_v);
static void H5TS_tid_init(void);
#endif
/*********************/
/* Package Variables */
/*********************/
/*****************************/
/* Library Private Variables */
/*****************************/
/* Global variable definitions */
#ifdef H5_HAVE_WIN_THREADS
H5TS_once_t H5TS_first_init_g;
#else
H5TS_once_t H5TS_first_init_g = PTHREAD_ONCE_INIT;
#endif
/* Thread-local keys, used by other interfaces */
/* Error stack */
H5TS_key_t H5TS_errstk_key_g;
/* Function stack */
#ifdef H5_HAVE_CODESTACK
H5TS_key_t H5TS_funcstk_key_g;
#endif
/* API context */
H5TS_key_t H5TS_apictx_key_g;
/*******************/
/* Local Variables */
/*******************/
/* Thread-local keys, used in this module */
static H5TS_key_t H5TS_cancel_key_s; /* Thread cancellation state */
#ifndef H5_HAVE_WIN_THREADS
/* Pointer to first free thread ID record or NULL. */
static H5TS_tid_t *H5TS_tid_next_free = NULL;
static uint64_t H5TS_tid_next_id = 0;
/* Mutual exclusion for access to H5TS_tid_next_free and H5TS_tid_next_id. */
static pthread_mutex_t H5TS_tid_mtx;
/* Key for thread-local storage of the thread ID. */
static H5TS_key_t H5TS_tid_key;
#endif
/*--------------------------------------------------------------------------
* Function: H5TS__key_destructor
*
* Returns: void
*
* Description:
* Frees the memory for a key. Called by each thread as it exits.
* Currently all the thread-specific information for all keys are simple
* structures allocated with malloc, so we can free them all uniformly.
*
* Programmer: Quincey Koziol
* February 7, 2003
*--------------------------------------------------------------------------
*/
static void
H5TS__key_destructor(void *key_val)
{
/* Use HDfree here instead of H5MM_xfree(), to avoid calling the H5CS routines */
if (key_val != NULL)
HDfree(key_val);
} /* end H5TS__key_destructor() */
#ifndef H5_HAVE_WIN_THREADS
/*--------------------------------------------------------------------------
* Function: H5TS_tid_destructor
*
* Returns: void
*
* Description:
* When a thread shuts down, put its ID record on the free list.
*--------------------------------------------------------------------------
*/
static void
H5TS_tid_destructor(void *_v)
{
H5TS_tid_t *tid = _v;
if (tid == NULL)
return;
/* TBD use an atomic CAS */
pthread_mutex_lock(&H5TS_tid_mtx);
tid->next = H5TS_tid_next_free;
H5TS_tid_next_free = tid;
pthread_mutex_unlock(&H5TS_tid_mtx);
}
/*--------------------------------------------------------------------------
* Function: H5TS_tid_init
*
* Returns: void
*
* Description:
* Initialization for integer thread identifiers.
*--------------------------------------------------------------------------
*/
static void
H5TS_tid_init(void)
{
pthread_mutex_init(&H5TS_tid_mtx, NULL);
pthread_key_create(&H5TS_tid_key, H5TS_tid_destructor);
}
#endif
#ifdef H5_HAVE_WIN_THREADS
/*--------------------------------------------------------------------------
* Function: H5TS_win32_process_enter
*
* Returns: TRUE on success, FALSE on failure
*
* Description:
* Per-process setup on Windows when using Win32 threads.
*
*--------------------------------------------------------------------------
*/
H5_DLL BOOL CALLBACK
H5TS_win32_process_enter(PINIT_ONCE InitOnce, PVOID Parameter, PVOID *lpContex)
{
BOOL ret_value = TRUE;
/* initialize global API mutex lock */
InitializeCriticalSection(&H5_g.init_lock.CriticalSection);
/* Set up thread local storage */
if (TLS_OUT_OF_INDEXES == (H5TS_errstk_key_g = TlsAlloc()))
ret_value = FALSE;
#ifdef H5_HAVE_CODESTACK
if (TLS_OUT_OF_INDEXES == (H5TS_funcstk_key_g = TlsAlloc()))
ret_value = FALSE;
#endif
if (TLS_OUT_OF_INDEXES == (H5TS_apictx_key_g = TlsAlloc()))
ret_value = FALSE;
return ret_value;
} /* H5TS_win32_process_enter() */
/*--------------------------------------------------------------------------
* Function: H5TS_win32_thread_enter
*
* Returns: SUCCEED/FAIL
*
* Description:
* Per-thread setup on Windows when using Win32 threads.
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_win32_thread_enter(void)
{
herr_t ret_value = SUCCEED;
/* Currently a placeholder function. TLS setup is performed
* elsewhere in the library.
*
* WARNING: Do NOT use C standard library functions here.
* CRT functions are not allowed in DllMain, which is where this code
* is used.
*/
return ret_value;
} /* H5TS_win32_thread_enter() */
/*--------------------------------------------------------------------------
* Function: H5TS_win32_process_exit
*
* Returns: void
*
* Description:
* Per-process cleanup on Windows when using Win32 threads.
*
*--------------------------------------------------------------------------
*/
void
H5TS_win32_process_exit(void)
{
/* Windows uses a different thread local storage mechanism which does
* not support auto-freeing like pthreads' keys.
*
* This function is currently registered via atexit() and is called
* AFTER H5_term_library().
*/
/* Clean up critical section resources (can't fail) */
DeleteCriticalSection(&H5_g.init_lock.CriticalSection);
/* Clean up per-process thread local storage */
TlsFree(H5TS_errstk_key_g);
#ifdef H5_HAVE_CODESTACK
TlsFree(H5TS_funcstk_key_g);
#endif
TlsFree(H5TS_apictx_key_g);
return;
} /* end H5TS_win32_process_exit() */
/*--------------------------------------------------------------------------
* Function: H5TS_win32_thread_exit
*
* Returns: SUCCEED/FAIL
*
* Description:
* Per-thread cleanup on Windows when using Win32 threads.
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_win32_thread_exit(void)
{
LPVOID lpvData;
herr_t ret_value = SUCCEED;
/* Windows uses a different thread local storage mechanism which does
* not support auto-freeing like pthreads' keys.
*
* WARNING: Do NOT use C standard library functions here.
* CRT functions are not allowed in DllMain, which is where this code
* is used.
*/
/* Clean up per-thread thread local storage */
lpvData = TlsGetValue(H5TS_errstk_key_g);
if (lpvData)
LocalFree((HLOCAL)lpvData);
#ifdef H5_HAVE_CODESTACK
lpvData = TlsGetValue(H5TS_funcstk_key_g);
if (lpvData)
LocalFree((HLOCAL)lpvData);
#endif
lpvData = TlsGetValue(H5TS_apictx_key_g);
if (lpvData)
LocalFree((HLOCAL)lpvData);
return ret_value;
} /* end H5TS_win32_thread_exit() */
#endif /* H5_HAVE_WIN_THREADS */
#ifndef H5_HAVE_WIN_THREADS
/*--------------------------------------------------------------------------
* Function: H5TS_thread_id
*
* Returns: An integer identifier for the current thread
*
* Description:
* The ID satisfies the following properties:
*
* 1 1 <= ID <= UINT64_MAX
* 2 ID is constant over the thread's lifetime.
* 3 No two threads share an ID during their lifetimes.
* 4 A thread's ID is available for reuse as soon as it is joined.
*
* ID 0 is reserved. H5TS_thread_id() returns 0 if the library was not
* built with thread safety or if an error prevents it from assigning an
* ID.
*
*--------------------------------------------------------------------------
*/
uint64_t
H5TS_thread_id(void)
{
H5TS_tid_t *tid = pthread_getspecific(H5TS_tid_key);
H5TS_tid_t proto_tid;
/* An ID is already assigned. */
if (tid != NULL)
return tid->id;
/* An ID is *not* already assigned: reuse an ID that's on the
* free list, or else generate a new ID.
*
* Allocating memory while holding a mutex is bad form, so
* point `tid` at `proto_tid` if we need to allocate some
* memory.
*/
pthread_mutex_lock(&H5TS_tid_mtx);
if ((tid = H5TS_tid_next_free) != NULL)
H5TS_tid_next_free = tid->next;
else if (H5TS_tid_next_id != UINT64_MAX) {
tid = &proto_tid;
tid->id = ++H5TS_tid_next_id;
}
pthread_mutex_unlock(&H5TS_tid_mtx);
/* If a prototype ID record was established, copy it to the heap. */
if (tid == &proto_tid)
if ((tid = HDmalloc(sizeof(*tid))) != NULL)
*tid = proto_tid;
if (tid == NULL)
return 0;
/* Finish initializing the ID record and set a thread-local pointer
* to it.
*/
tid->next = NULL;
if (pthread_setspecific(H5TS_tid_key, tid) != 0) {
H5TS_tid_destructor(tid);
return 0;
}
return tid->id;
}
/*--------------------------------------------------------------------------
* Function: H5TS_pthread_first_thread_init
*
* Returns: void
*
* Description:
* Initialization of global API lock, keys for per-thread error stacks and
* cancallability information. Called by the first thread that enters the
* library.
*
* Programmer: Chee Wai LEE
* May 2, 2000
*
*--------------------------------------------------------------------------
*/
void
H5TS_pthread_first_thread_init(void)
{
H5_g.H5_libinit_g = FALSE; /* Library hasn't been initialized */
H5_g.H5_libterm_g = FALSE; /* Library isn't being shutdown */
#ifdef H5_HAVE_WIN32_API
#ifdef PTW32_STATIC_LIB
pthread_win32_process_attach_np();
#endif
#endif
/* initialize global API mutex lock */
#ifdef H5_USE_RECURSIVE_WRITER_LOCKS
H5TS_rw_lock_init(&H5_g.init_rw_lock, H5TS_RW_LOCK_POLICY_FAVOR_WRITERS);
#else
pthread_mutex_init(&H5_g.init_lock.atomic_lock, NULL);
pthread_cond_init(&H5_g.init_lock.cond_var, NULL);
H5_g.init_lock.lock_count = 0;
#endif
/* Initialize integer thread identifiers. */
H5TS_tid_init();
/* initialize key for thread-specific error stacks */
pthread_key_create(&H5TS_errstk_key_g, H5TS__key_destructor);
#ifdef H5_HAVE_CODESTACK
/* initialize key for thread-specific function stacks */
pthread_key_create(&H5TS_funcstk_key_g, H5TS__key_destructor);
#endif
/* initialize key for thread-specific API contexts */
pthread_key_create(&H5TS_apictx_key_g, H5TS__key_destructor);
/* initialize key for thread cancellability mechanism */
pthread_key_create(&H5TS_cancel_key_s, H5TS__key_destructor);
} /* end H5TS_pthread_first_thread_init() */
#endif /* H5_HAVE_WIN_THREADS */
/*--------------------------------------------------------------------------
* Function: H5TS_mutex_lock
*
*
* Returns: SUCCEED/FAIL
*
* Description:
* Recursive lock semantics for HDF5 (locking) -
* Multiple acquisition of a lock by a thread is permitted with a
* corresponding unlock operation required.
*
* Programmer: Chee Wai LEE
* May 2, 2000
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_mutex_lock(H5TS_mutex_t *mutex)
{
herr_t ret_value = SUCCEED;
#ifdef H5_HAVE_WIN_THREADS
EnterCriticalSection(&mutex->CriticalSection);
#else
/* Acquire the library lock */
if (pthread_mutex_lock(&mutex->atomic_lock) != 0)
return FAIL;
/* Check if this thread already owns the lock */
if (mutex->lock_count && pthread_equal(pthread_self(), mutex->owner_thread))
/* already owned by self - increment count */
mutex->lock_count++;
else {
/* Wait until the lock is released by current owner thread */
while (mutex->lock_count)
pthread_cond_wait(&mutex->cond_var, &mutex->atomic_lock);
/* After we've received the signal, take ownership of the mutex */
mutex->owner_thread = pthread_self();
mutex->lock_count = 1;
} /* end else */
/* Release the library lock */
if (pthread_mutex_unlock(&mutex->atomic_lock) != 0)
ret_value = FAIL;
#endif
return ret_value;
} /* end H5TS_mutex_lock() */
/*--------------------------------------------------------------------------
* Function: H5TS_mutex_unlock
*
* Returns: SUCCEED/FAIL
*
* Description:
* Recursive lock semantics for HDF5 (unlocking) -
* Multiple acquisition of a lock by a thread is permitted with a
* corresponding unlock operation required.
*
* Programmer: Chee Wai LEE
* May 2, 2000
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_mutex_unlock(H5TS_mutex_t *mutex)
{
herr_t ret_value = SUCCEED;
#ifdef H5_HAVE_WIN_THREADS
/* Releases ownership of the specified critical section object. */
LeaveCriticalSection(&mutex->CriticalSection);
#else
/* Decrement the lock count for this thread */
if (pthread_mutex_lock(&mutex->atomic_lock) != 0)
return FAIL;
mutex->lock_count--;
if (pthread_mutex_unlock(&mutex->atomic_lock) != 0)
ret_value = FAIL;
/* If the lock count drops to zero, signal the condition variable, to
* wake another thread.
*/
if (mutex->lock_count == 0)
if (pthread_cond_signal(&mutex->cond_var) != 0)
ret_value = FAIL;
#endif /* H5_HAVE_WIN_THREADS */
return ret_value;
} /* H5TS_mutex_unlock */
/*--------------------------------------------------------------------------
* Function: H5TS_cancel_count_inc
*
* Returns: SUCCEED/FAIL
*
* Description:
* Creates a cancellation counter for a thread if it is the first time
* the thread is entering the library.
*
* if counter value is zero, then set cancelability type of the thread
* to PTHREAD_CANCEL_DISABLE as thread is entering the library and store
* the previous cancelability type into cancellation counter.
*
* Increase the counter value by 1.
*
* Programmer: Chee Wai LEE
* May 2, 2000
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_cancel_count_inc(void)
{
herr_t ret_value = SUCCEED;
#ifndef H5_HAVE_WIN_THREADS
H5TS_cancel_t *cancel_counter;
/* Acquire the thread's cancellation counter */
cancel_counter = (H5TS_cancel_t *)H5TS_get_thread_local_value(H5TS_cancel_key_s);
/* Check if it's created yet */
if (!cancel_counter) {
/*
* First time thread calls library - create new counter and associate
* with key.
*
* Don't use H5MM calls here since the destructor has to use HDfree in
* order to avoid codestack calls.
*/
cancel_counter = HDcalloc(1, sizeof(*cancel_counter));
if (NULL == cancel_counter) {
HERROR(H5E_RESOURCE, H5E_NOSPACE, "memory allocation failed");
return FAIL;
}
/* Set the thread's cancellation counter with the new object */
if (pthread_setspecific(H5TS_cancel_key_s, (void *)cancel_counter) != 0) {
HDfree(cancel_counter);
return FAIL;
}
}
/* Check if thread entering library */
if (cancel_counter->cancel_count == 0)
/* Set cancellation state to 'disable', and remember previous state */
if (pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, &cancel_counter->previous_state) != 0)
ret_value = FAIL;
/* Increment # of times the library API was re-entered, to avoid resetting
* previous cancellation state until the final API routine is returning.
*/
++cancel_counter->cancel_count;
#endif /* H5_HAVE_WIN_THREADS */
return ret_value;
} /* end H5TS_cancel_count_inc() */
/*--------------------------------------------------------------------------
* Function: H5TS_cancel_count_dec
*
* Returns: SUCCEED/FAIL
*
* Description:
* If counter value is one, then set cancelability type of the thread
* to the previous cancelability type stored in the cancellation counter.
* (the thread is leaving the library).
*
* Decrement the counter value by 1.
*
* Programmer: Chee Wai LEE
* May 2, 2000
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_cancel_count_dec(void)
{
herr_t ret_value = SUCCEED;
#ifndef H5_HAVE_WIN_THREADS
H5TS_cancel_t *cancel_counter;
/* Acquire the thread's cancellation counter */
cancel_counter = (H5TS_cancel_t *)H5TS_get_thread_local_value(H5TS_cancel_key_s);
/* Check for leaving last API routine */
if (cancel_counter->cancel_count == 1)
/* Reset to previous thread cancellation state, if last API */
if (pthread_setcancelstate(cancel_counter->previous_state, NULL) != 0)
ret_value = FAIL;
/* Decrement cancellation counter */
--cancel_counter->cancel_count;
#endif /* H5_HAVE_WIN_THREADS */
return ret_value;
} /* end H5TS_cancel_count_dec() */
#ifdef H5_USE_RECURSIVE_WRITER_LOCKS
/*--------------------------------------------------------------------------
* Function: H5TS_alloc_rec_entry_count
*
* Returns:
* Pointer to allocated and initialized instance of
* H5TS_rec_entry_count, or NULL on failure.
*
* Description:
* Allocate and initalize an instance of H5TS_rec_entry_count.
*
* Programmer: John Mainzer
* August 28, 2020
*
*--------------------------------------------------------------------------
*/
H5TS_rec_entry_count *
H5TS_alloc_rec_entry_count(hbool_t write_lock)
{
H5TS_rec_entry_count *ret_value = NULL;
ret_value = HDmalloc(sizeof(*ret_value));
if (ret_value) {
ret_value->magic = H5TS_RW_ENTRY_COUNT_MAGIC;
ret_value->write_lock = write_lock;
ret_value->rec_lock_count = 1;
}
return ret_value;
} /* end H5TS_alloc_rec_entry_count() */
/*--------------------------------------------------------------------------
* Function: H5TS_free_rec_entry_count
*
* Returns: void
*
* Description:
* Frees the supplied instance of H5TS_rec_entry_count.
*
* Programmer: John Mainzer
* August 28, 2020
*
*--------------------------------------------------------------------------
*/
void
H5TS_free_rec_entry_count(void *target)
{
H5TS_rec_entry_count *count;
count = (H5TS_rec_entry_count *)target;
HDassert(count);
HDassert(count->magic == H5TS_RW_ENTRY_COUNT_MAGIC);
count->magic = 0;
HDfree(count);
return;
} /* end H5TS_free_rec_entry_count() */
/*--------------------------------------------------------------------------
* Function: H5TS_rw_lock_init
*
* Returns: SUCCEED/FAIL
*
* Description:
* Initialize the supplied instance of H5TS_rw_lock_t.
*
* Programmer: John Mainzer
* August 28, 2020
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_rw_lock_init(H5TS_rw_lock_t *rw_lock, int policy)
{
herr_t ret_value = SUCCEED;
/* Sanity checks -- until other policies are implemented,
* policy must equal H5TS_RW_LOCK_POLICY_FAVOR_WRITERS.
*/
if ((rw_lock == NULL) || (policy != H5TS_RW_LOCK_POLICY_FAVOR_WRITERS)) {
ret_value = FAIL;
}
/* NOTE: Win32 thread init functions tend to have a return type of void while
* Pthreads return an int. We've gone with the lowest common denominator
* here, but we're going to have to better abstract this in the future.
*/
/* Initialize the mutex */
if (ret_value == SUCCEED)
if (H5TS_mutex_init(&(rw_lock->mutex)) != 0)
ret_value = FAIL;
/* Initialize the waiting readers cv */
if (ret_value == SUCCEED)
if (H5TS_cond_init(&(rw_lock->readers_cv)) != 0)
ret_value = FAIL;
/* Initialize the waiting writers cv */
if (ret_value == SUCCEED)
if (H5TS_cond_init(&(rw_lock->writers_cv)) != 0)
ret_value = FAIL;
/* Initialize the counts key */
if (ret_value == SUCCEED)
if (pthread_key_create(&(rw_lock->rec_entry_count_key), H5TS_free_rec_entry_count) != 0)
ret_value = FAIL;
if (ret_value == SUCCEED) {
/* Initialize scalar fields */
rw_lock->magic = H5TS_RW_LOCK_MAGIC;
rw_lock->policy = policy;
rw_lock->waiting_readers_count = 0;
rw_lock->waiting_writers_count = 0;
rw_lock->active_readers = 0;
rw_lock->active_writers = 0;
rw_lock->stats.read_locks_granted = 0;
rw_lock->stats.read_locks_released = 0;
rw_lock->stats.real_read_locks_granted = 0;
rw_lock->stats.real_read_locks_released = 0;
rw_lock->stats.max_read_locks = 0;
rw_lock->stats.max_read_lock_recursion_depth = 0;
rw_lock->stats.read_locks_delayed = 0;
rw_lock->stats.max_read_locks_pending = 0;
rw_lock->stats.write_locks_granted = 0;
rw_lock->stats.write_locks_released = 0;
rw_lock->stats.real_write_locks_granted = 0;
rw_lock->stats.real_write_locks_released = 0;
rw_lock->stats.max_write_locks = 0;
rw_lock->stats.max_write_lock_recursion_depth = 0;
rw_lock->stats.write_locks_delayed = 0;
rw_lock->stats.max_write_locks_pending = 0;
}
return ret_value;
} /* end H5TS_rw_lock_init() */
/*--------------------------------------------------------------------------
* Function: H5TS_rw_lock_destroy
*
* Returns: SUCCEED/FAIL
*
* Description:
* Take down an instance of H5TS_rw_lock_t. All mutex, condition
* variables, and keys are destroyed, and magic is set to an invalid
* value. However, the instance of H5TS_rw_lock_t is not
* freed.
*
* Programmer: John Mainzer
* August 28, 2020
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_rw_lock_destroy(H5TS_rw_lock_t *rw_lock)
{
herr_t ret_value = SUCCEED;
if ((rw_lock == NULL) || (rw_lock->magic != H5TS_RW_LOCK_MAGIC)) {
ret_value = FAIL;
}
else {
/* We are commited to the destroy at this point. Set magic
* to an invalid value, and call the appropriate pthread
* destroy routines. Call them all, even if one fails along
* the way.
*/
rw_lock->magic = 0;
if (H5TS_mutex_destroy(&(rw_lock->mutex)) < 0)
ret_value = FAIL;
if (H5TS_cond_destroy(&(rw_lock->readers_cv)) < 0)
ret_value = FAIL;
if (H5TS_cond_destroy(&(rw_lock->writers_cv)) < 0)
ret_value = FAIL;
if (pthread_key_delete(rw_lock->rec_entry_count_key) < 0)
ret_value = FAIL;
}
return ret_value;
} /* end H5TS_rw_lock_destroy() */
/*--------------------------------------------------------------------------
* Function: H5TS_rw_rdlock
*
* Returns: SUCCEED/FAIL
*
* Description:
* Attempt to obtain a read lock on the associated recursive read / write
* lock.
*
* Programmer: John Mainzer
* August 28, 2020
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_rw_rdlock(H5TS_rw_lock_t *rw_lock)
{
hbool_t have_mutex = FALSE;
int result;
H5TS_rec_entry_count *count;
herr_t ret_value = SUCCEED;
if ((rw_lock == NULL) || (rw_lock->magic != H5TS_RW_LOCK_MAGIC)) {
ret_value = FAIL;
}
/* Obtain the mutex */
if (ret_value == SUCCEED) {
if (H5TS_mutex_lock_simple(&(rw_lock->mutex)) != 0)
ret_value = FAIL;
else
have_mutex = TRUE;
}
/* If there is no specific data for this thread, this is an
* initial read lock request.
*/
if (ret_value == SUCCEED) {
count = (H5TS_rec_entry_count *)H5TS_get_thread_local_value(rw_lock->rec_entry_count_key);
if (count) { /* This is a recursive lock */
if ((count->write_lock) || (rw_lock->active_readers == 0) || (rw_lock->active_writers != 0)) {
ret_value = FAIL;
}
else {
count->rec_lock_count++;
H5TS_update_stats_rd_lock(rw_lock, count);
}
}
else { /* This is an initial read lock request */
switch (rw_lock->policy) {
case H5TS_RW_LOCK_POLICY_FAVOR_WRITERS:
if ((rw_lock->active_writers != 0) || (rw_lock->waiting_writers_count != 0)) {
int delayed = rw_lock->waiting_readers_count + 1;
H5TS_update_stats_rd_lock_delay(rw_lock, delayed);
}
while ((rw_lock->active_writers != 0) || (rw_lock->waiting_writers_count != 0)) {
rw_lock->waiting_readers_count++;
result = H5TS_cond_wait(&(rw_lock->readers_cv), &(rw_lock->mutex));
rw_lock->waiting_readers_count--;
if (result != 0) {
ret_value = FAIL;
break;
}
}
break;
default:
ret_value = FAIL;
break;
}
if ((ret_value == SUCCEED) && (NULL == (count = H5TS_alloc_rec_entry_count(FALSE)))) {
ret_value = FAIL;
}
if ((ret_value == SUCCEED) &&
(H5TS_set_thread_local_value(rw_lock->rec_entry_count_key, (void *)count) != 0)) {
ret_value = FAIL;
}
if (ret_value == SUCCEED) {
rw_lock->active_readers++;
HDassert(count->rec_lock_count == 1);
H5TS_update_stats_rd_lock(rw_lock, count);
}
}
}
if (have_mutex) {
H5TS_mutex_unlock_simple(&(rw_lock->mutex));
}
return ret_value;
} /* end H5TS_rw_rdlock() */
/*--------------------------------------------------------------------------
* Function: H5TS_rw_wrlock
*
* Returns: SUCCEED/FAIL
*
* Description:
* Attempt to obtain a write lock on the associated recursive read / write
* lock.
*
* Programmer: John Mainzer
* August 28, 2020
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_rw_wrlock(H5TS_rw_lock_t *rw_lock)
{
hbool_t have_mutex = FALSE;
int result;
H5TS_rec_entry_count *count;
herr_t ret_value = SUCCEED;
if ((rw_lock == NULL) || (rw_lock->magic != H5TS_RW_LOCK_MAGIC)) {
ret_value = FAIL;
}
/* Obtain the mutex */
if (ret_value == SUCCEED) {
if (H5TS_mutex_lock_simple(&(rw_lock->mutex)) != 0)
ret_value = FAIL;
else
have_mutex = TRUE;
}
/* If there is no specific data for this thread, this is an
* initial write lock request.
*/
if (ret_value == SUCCEED) {
count = (H5TS_rec_entry_count *)H5TS_get_thread_local_value(rw_lock->rec_entry_count_key);
if (count) { /* this is a recursive lock */
if ((!(count->write_lock)) || (rw_lock->active_readers != 0) || (rw_lock->active_writers != 1)) {
ret_value = FAIL;
}
else {
count->rec_lock_count++;
H5TS_update_stats_wr_lock(rw_lock, count);
}
}
else { /* This is an initial write lock request */
switch (rw_lock->policy) {
case H5TS_RW_LOCK_POLICY_FAVOR_WRITERS:
if ((rw_lock->active_readers > 0) || (rw_lock->active_writers > 0)) {
int delayed = rw_lock->waiting_writers_count + 1;
H5TS_update_stats_wr_lock_delay(rw_lock, delayed);
}
while ((rw_lock->active_readers > 0) || (rw_lock->active_writers > 0)) {
rw_lock->waiting_writers_count++;
result = H5TS_cond_wait(&(rw_lock->writers_cv), &(rw_lock->mutex));
rw_lock->waiting_writers_count--;
if (result != 0) {
ret_value = FAIL;
break;
}
}
break;
default:
ret_value = FAIL;
break;
}
if ((ret_value == SUCCEED) && (NULL == (count = H5TS_alloc_rec_entry_count(TRUE)))) {
ret_value = FAIL;
}
if ((ret_value == SUCCEED) &&
(H5TS_set_thread_local_value(rw_lock->rec_entry_count_key, (void *)count) != 0)) {
ret_value = FAIL;
}
if (ret_value == SUCCEED) {
rw_lock->active_writers++;
HDassert(count->rec_lock_count == 1);
H5TS_update_stats_wr_lock(rw_lock, count);
}
}
}
if (have_mutex) {
H5TS_mutex_unlock_simple(&(rw_lock->mutex));
}
return ret_value;
} /* end H5TS_rw_wrlock() */
/*--------------------------------------------------------------------------
* Function: H5TS_rw_unlock
*
* Returns: SUCCEED/FAIL
*
* Description:
* Attempt to unlock either a read or a write lock on the supplied
* recursive read / write lock.
*
* Programmer: John Mainzer
* August 28, 2020
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_rw_unlock(H5TS_rw_lock_t *rw_lock)
{
hbool_t have_mutex = FALSE;
hbool_t discard_rec_count = FALSE;
H5TS_rec_entry_count *count;
herr_t ret_value = SUCCEED;
if ((rw_lock == NULL) || (rw_lock->magic != H5TS_RW_LOCK_MAGIC)) {
ret_value = FAIL;
}
/* Obtain the mutex */
if (ret_value == SUCCEED) {
if (H5TS_mutex_lock_simple(&(rw_lock->mutex)) != 0)
ret_value = FAIL;
else
have_mutex = TRUE;
}
/* If there is no specific data for this thread, no lock was held,
* and thus the unlock call must fail.
*/
if (ret_value == SUCCEED) {
count = (H5TS_rec_entry_count *)H5TS_get_thread_local_value(rw_lock->rec_entry_count_key);
HDassert(count);
HDassert(count->magic == H5TS_RW_ENTRY_COUNT_MAGIC);
HDassert(count->rec_lock_count > 0);
if (NULL == count) {
ret_value = FAIL;
}
else if (count->magic != H5TS_RW_ENTRY_COUNT_MAGIC) {
ret_value = FAIL;
}
else if (count->rec_lock_count <= 0) { /* Corrupt count? */
ret_value = FAIL;
}
else if (count->write_lock) { /* Drop a write lock */
HDassert((rw_lock->active_readers == 0) && (rw_lock->active_writers == 1));
if ((rw_lock->active_readers != 0) || (rw_lock->active_writers != 1)) {
ret_value = FAIL;
}
else {
count->rec_lock_count--;
HDassert(count->rec_lock_count >= 0);
if (count->rec_lock_count == 0) {
/* Make note that we must discard the
* recursive entry counter so it will not
* confuse us on the next lock request.
*/
discard_rec_count = TRUE;
/* Drop the write lock -- will signal later if needed */
rw_lock->active_writers--;
HDassert(rw_lock->active_writers == 0);
}
}
H5TS_update_stats_wr_unlock(rw_lock, count);
}
else { /* drop a read lock */
HDassert((rw_lock->active_readers > 0) && (rw_lock->active_writers == 0));
if ((rw_lock->active_readers <= 0) || (rw_lock->active_writers != 0)) {
ret_value = FAIL;
}
else {
count->rec_lock_count--;
HDassert(count->rec_lock_count >= 0);
if (count->rec_lock_count == 0) {
/* Make note that we must discard the
* recursive entry counter so it will not
* confuse us on the next lock request.
*/
discard_rec_count = TRUE;
/* Drop the read lock -- will signal later if needed */
rw_lock->active_readers--;
}
}
H5TS_update_stats_rd_unlock(rw_lock, count);
}
if ((ret_value == SUCCEED) && (rw_lock->active_readers == 0) && (rw_lock->active_writers == 0)) {
/* No locks held -- signal condition variables if required */
switch (rw_lock->policy) {
case H5TS_RW_LOCK_POLICY_FAVOR_WRITERS:
#ifdef H5_HAVE_WIN_THREADS
if (rw_lock->waiting_writers_count > 0)
H5TS_cond_signal(&(rw_lock->writers_cv));
else if (rw_lock->waiting_readers_count > 0)
H5TS_cond_broadcast(&(rw_lock->readers_cv));
#else
if (rw_lock->waiting_writers_count > 0) {
if (H5TS_cond_signal(&(rw_lock->writers_cv)) != 0)
ret_value = FAIL;
}
else if (rw_lock->waiting_readers_count > 0) {
if (H5TS_cond_broadcast(&(rw_lock->readers_cv)) != 0)
ret_value = FAIL;
}
#endif
break;
default:
ret_value = FAIL;
break;
}
}
}
/* If we are really dropping the lock, must set the value of
* rec_entry_count_key for this thread to NULL, so that
* when this thread next requests a lock, it will appear
* as an initial lock, not a recursive lock.
*/
if (discard_rec_count) {
HDassert(count);
if (H5TS_set_thread_local_value(rw_lock->rec_entry_count_key, (void *)NULL) != 0) {
ret_value = FAIL;
}
H5TS_free_rec_entry_count((void *)count);
count = NULL;
}
if (have_mutex) {
H5TS_mutex_unlock_simple(&(rw_lock->mutex));
}
return ret_value;
} /* end H5TS_rw_unlock() */
/*--------------------------------------------------------------------------
* Function: H5TS_rw_lock_get_stats
*
* Returns: SUCCEED/FAIL
*
* Description:
* Obtain a copy of the current statistics on the supplied
* recursive read / write lock. Note that to obtain a consistent
* set of statistics, the function must obtain the lock mutex.
*
* Programmer: John Mainzer
* August 28, 2020
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_rw_lock_get_stats(H5TS_rw_lock_t *rw_lock, H5TS_rw_lock_stats_t *stats)
{
hbool_t have_mutex = FALSE;
herr_t ret_value = SUCCEED;
if ((rw_lock == NULL) || (rw_lock->magic != H5TS_RW_LOCK_MAGIC) || (stats == NULL)) {
ret_value = FAIL;
}
/* Obtain the mutex */
if (ret_value == SUCCEED) {
if (H5TS_mutex_lock_simple(&(rw_lock->mutex)) != 0)
ret_value = FAIL;
else
have_mutex = TRUE;
}
if (ret_value == SUCCEED) {
*stats = rw_lock->stats;
}
if (have_mutex) {
H5TS_mutex_unlock_simple(&(rw_lock->mutex));
}
return ret_value;
} /* end H5TS_rw_lock_get_stats() */
/*--------------------------------------------------------------------------
* Function: H5TS_rw_lock_reset_stats
*
* Returns: SUCCEED/FAIL
*
* Description:
* Reset the statistics for the supplied recursive read / write lock.
* Note that to reset the statistics consistently, the function must
* obtain the lock mutex.
*
* Programmer: John Mainzer
* August 28, 2020
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_rw_lock_reset_stats(H5TS_rw_lock_t *rw_lock)
{
hbool_t have_mutex = FALSE;
/* NOTE: Update this initializer if you modify H5TS_rw_lock_stats_t */
static const H5TS_rw_lock_stats_t reset_stats = {/* read_locks_granted = */ 0,
/* read_locks_released = */ 0,
/* real_read_locks_granted = */ 0,
/* real_read_locks_released = */ 0,
/* max_read_locks = */ 0,
/* max_read_lock_recursion_depth = */ 0,
/* read_locks_delayed = */ 0,
/* max_read_locks_pending = */ 0,
/* write_locks_granted = */ 0,
/* write_locks_released = */ 0,
/* real_write_locks_granted = */ 0,
/* real_write_locks_released = */ 0,
/* max_write_locks = */ 0,
/* max_write_lock_recursion_depth = */ 0,
/* write_locks_delayed = */ 0,
/* max_write_locks_pending = */ 0};
herr_t ret_value = SUCCEED;
if ((rw_lock == NULL) || (rw_lock->magic != H5TS_RW_LOCK_MAGIC)) {
ret_value = FAIL;
}
/* Obtain the mutex */
if (ret_value == SUCCEED) {
if (H5TS_mutex_lock_simple(&(rw_lock->mutex)) != 0)
ret_value = FAIL;
else
have_mutex = TRUE;
}
if (ret_value == SUCCEED) {
rw_lock->stats = reset_stats;
}
if (have_mutex) {
H5TS_mutex_unlock_simple(&(rw_lock->mutex));
}
return ret_value;
} /* end H5TS_rw_lock_reset_stats() */
/*--------------------------------------------------------------------------
* Function: H5TS_rw_lock_print_stats
*
* Returns: SUCCEED/FAIL
*
* Description:
* Print the supplied pthresds recursive R/W lock statistics to
* standard out.
*
* UPDATE THIS FUNCTION IF YOU MODIFY H5TS_rw_lock_stats_t.
*
* Programmer: John Mainzer
* August 28, 2020
*
*--------------------------------------------------------------------------
*/
herr_t
H5TS_rw_lock_print_stats(const char *header_str, H5TS_rw_lock_stats_t *stats)
{
herr_t ret_value = SUCCEED;
if ((header_str == NULL) || (stats == NULL)) {
ret_value = FAIL;
}
else {
HDfprintf(stdout, "\n\n%s\n\n", header_str);
HDfprintf(stdout, " read_locks_granted = %" PRId64 "\n", stats->read_locks_granted);
HDfprintf(stdout, " read_locks_released = %" PRId64 "\n", stats->read_locks_released);
HDfprintf(stdout, " real_read_locks_granted = %" PRId64 "\n", stats->real_read_locks_granted);
HDfprintf(stdout, " real_read_locks_released = %" PRId64 "\n",
stats->real_read_locks_released);
HDfprintf(stdout, " max_read_locks = %" PRId64 "\n", stats->max_read_locks);
HDfprintf(stdout, " max_read_lock_recursion_depth = %" PRId64 "\n",
stats->max_read_lock_recursion_depth);
HDfprintf(stdout, " read_locks_delayed = %" PRId64 "\n", stats->read_locks_delayed);
HDfprintf(stdout, " max_read_locks_pending = %" PRId64 "\n", stats->max_read_locks_pending);
HDfprintf(stdout, " write_locks_granted = %" PRId64 "\n", stats->write_locks_granted);
HDfprintf(stdout, " write_locks_released = %" PRId64 "\n", stats->write_locks_released);
HDfprintf(stdout, " real_write_locks_granted = %" PRId64 "\n",
stats->real_write_locks_granted);
HDfprintf(stdout, " real_write_locks_released = %" PRId64 "\n",
stats->real_write_locks_released);
HDfprintf(stdout, " max_write_locks = %" PRId64 "\n", stats->max_write_locks);
HDfprintf(stdout, " max_write_lock_recursion_depth = %" PRId64 "\n",
stats->max_write_lock_recursion_depth);
HDfprintf(stdout, " write_locks_delayed = %" PRId64 "\n", stats->write_locks_delayed);
HDfprintf(stdout, " max_write_locks_pending = %" PRId64 "\n\n",
stats->max_write_locks_pending);
}
return ret_value;
} /* end H5TS_rw_lock_print_stats() */
#endif /* H5_USE_RECURSIVE_WRITER_LOCKS */
/*--------------------------------------------------------------------------
* NAME
* H5TS_create_thread
*
* RETURNS
* Thread identifier.
*
* DESCRIPTION
* Spawn off a new thread calling function 'func' with input 'udata'.
*
* PROGRAMMER: Mike McGreevy
* August 31, 2010
*
*--------------------------------------------------------------------------
*/
H5TS_thread_t
H5TS_create_thread(void *(*func)(void *), H5TS_attr_t *attr, void *udata)
{
H5TS_thread_t ret_value;
#ifdef H5_HAVE_WIN_THREADS
/* When calling C runtime functions, you should use _beginthread or
* _beginthreadex instead of CreateThread. Threads created with
* CreateThread risk being killed in low-memory situations. Since we
* only create threads in our test code, this is unlikely to be an issue
* and we'll use the easier-to-deal-with CreateThread for now.
*
* NOTE: _beginthread() auto-recycles its handle when execution completes
* so you can't wait on it, making it unsuitable for the existing
* test code.
*/
ret_value = CreateThread(NULL, 0, (LPTHREAD_START_ROUTINE)func, udata, 0, NULL);
#else /* H5_HAVE_WIN_THREADS */
pthread_create(&ret_value, attr, (void *(*)(void *))func, udata);
#endif /* H5_HAVE_WIN_THREADS */
return ret_value;
} /* end H5TS_create_thread() */
#endif /* H5_HAVE_THREADSAFE */
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