291 lines
13 KiB
C
291 lines
13 KiB
C
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/* Copyright 2016 Google Inc.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License. */
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#ifndef NSYNC_INTERNAL_COMMON_H_
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#define NSYNC_INTERNAL_COMMON_H_
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#include "nsync_cpp.h"
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#include "platform.h"
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#include "nsync_atomic.h"
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#include "sem.h"
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#include "nsync_waiter.h"
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#include "dll.h"
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#include "nsync_mu.h"
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#include "nsync_note.h"
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/* Annotations for race detectors. */
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#if defined(__has_feature) && !defined(__SANITIZE_THREAD__)
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#if __has_feature(thread_sanitizer) /* used by clang */
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#define __SANITIZE_THREAD__ 1 /* GCC uses this; fake it in clang */
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#endif
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#endif
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#if defined(__SANITIZE_THREAD__)
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NSYNC_C_START_
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void AnnotateIgnoreWritesBegin(const char* file, int line);
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void AnnotateIgnoreWritesEnd(const char* file, int line);
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void AnnotateIgnoreReadsBegin(const char* file, int line);
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void AnnotateIgnoreReadsEnd(const char* file, int line);
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NSYNC_C_END_
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#define IGNORE_RACES_START() \
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do { \
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AnnotateIgnoreReadsBegin(__FILE__, __LINE__); \
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AnnotateIgnoreWritesBegin(__FILE__, __LINE__); \
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} while (0)
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#define IGNORE_RACES_END() \
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do { \
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AnnotateIgnoreWritesEnd(__FILE__, __LINE__); \
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AnnotateIgnoreReadsEnd(__FILE__, __LINE__); \
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} while (0)
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#else
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#define IGNORE_RACES_START()
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#define IGNORE_RACES_END()
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#endif
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#ifndef NSYNC_DEBUG
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#define NSYNC_DEBUG 0
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#endif
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NSYNC_CPP_START_
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/* Yield the CPU. Platform specific. */
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void nsync_yield_ (void);
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/* Retrieve the per-thread cache of the waiter object. Platform specific. */
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void *nsync_per_thread_waiter_ (void (*dest) (void *));
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/* Set the per-thread cache of the waiter object. Platform specific. */
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void nsync_set_per_thread_waiter_ (void *v, void (*dest) (void *));
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/* Used in spinloops to delay resumption of the loop.
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Usage:
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unsigned attempts = 0;
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while (try_something) {
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attempts = nsync_spin_delay_ (attempts);
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} */
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unsigned nsync_spin_delay_ (unsigned attempts);
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/* Spin until (*w & test) == 0, then atomically perform *w = ((*w | set) &
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~clear), perform an acquire barrier, and return the previous value of *w.
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*/
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uint32_t nsync_spin_test_and_set_ (nsync_atomic_uint32_ *w, uint32_t test,
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uint32_t set, uint32_t clear);
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/* Abort after printing the nul-temrinated string s[]. */
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void nsync_panic_ (const char *s);
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/* ---------- */
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#define MIN_(a_,b_) ((a_) < (b_)? (a_) : (b_))
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#define MAX_(a_,b_) ((a_) > (b_)? (a_) : (b_))
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/* ---------- */
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/* Fields in nsync_mu.word.
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- At least one of the MU_WLOCK or MU_RLOCK_FIELD fields must be zero.
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- MU_WLOCK indicates that a write lock is held.
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- MU_RLOCK_FIELD is a count of readers with read locks.
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- MU_SPINLOCK represents a spinlock that must be held when manipulating the
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waiter queue.
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- MU_DESIG_WAKER indicates that a former waiter has been woken, but has
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neither acquired the lock nor gone back to sleep. Legal to fail to set it;
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illegal to set it when no such waiter exists.
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- MU_WAITING indicates whether the waiter queue is non-empty.
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The following bits should be zero if MU_WAITING is zero.
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- MU_CONDITION indicates that some waiter may have an associated condition
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(from nsync_mu_wait, etc.). Legal to set it with no such waiter exists,
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but illegal to fail to set it with such a waiter.
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- MU_WRITER_WAITING indicates that a reader that has not yet blocked
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at least once should not acquire in order not to starve waiting writers.
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It set when a writer blocks or a reader is woken with a writer waiting.
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It is reset when a writer acquires, but set again when that writer
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releases if it wakes readers and there is a waiting writer.
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- MU_LONG_WAIT indicates that a waiter has been woken many times but
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repeatedly failed to acquire when competing for the lock. This is used
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only to prevent long-term starvation by writers. The thread that sets it
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clears it when if acquires.
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- MU_ALL_FALSE indicates that a complete scan of the waiter list found no
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waiters with true conditions, and the lock has not been acquired by a
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writer since then. This allows a reader lock to be released without
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testing conditions again. It is legal to fail to set this, but illegal
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to set it inappropriately.
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*/
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#define MU_WLOCK ((uint32_t) (1 << 0)) /* writer lock is held. */
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#define MU_SPINLOCK ((uint32_t) (1 << 1)) /* spinlock is held (protects waiters). */
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#define MU_WAITING ((uint32_t) (1 << 2)) /* waiter list is non-empty. */
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#define MU_DESIG_WAKER ((uint32_t) (1 << 3)) /* a former waiter awoke, and hasn't yet acquired or slept anew */
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#define MU_CONDITION ((uint32_t) (1 << 4)) /* the wait list contains some conditional waiters. */
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#define MU_WRITER_WAITING ((uint32_t) (1 << 5)) /* there is a writer waiting */
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#define MU_LONG_WAIT ((uint32_t) (1 << 6)) /* the waiter at the head of the queue has been waiting a long time */
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#define MU_ALL_FALSE ((uint32_t) (1 << 7)) /* all waiter conditions are false */
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#define MU_RLOCK ((uint32_t) (1 << 8)) /* low-order bit of reader count, which uses rest of word */
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/* The constants below are derived from those above. */
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#define MU_RLOCK_FIELD (~(uint32_t) (MU_RLOCK - 1)) /* mask of reader count field */
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#define MU_ANY_LOCK (MU_WLOCK | MU_RLOCK_FIELD) /* mask for any lock held */
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#define MU_WZERO_TO_ACQUIRE (MU_ANY_LOCK | MU_LONG_WAIT) /* bits to be zero to acquire write lock */
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#define MU_WADD_TO_ACQUIRE (MU_WLOCK) /* add to acquire a write lock */
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#define MU_WHELD_IF_NON_ZERO (MU_WLOCK) /* if any of these bits are set, write lock is held */
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#define MU_WSET_WHEN_WAITING (MU_WAITING | MU_WRITER_WAITING) /* a writer is waiting */
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#define MU_WCLEAR_ON_ACQUIRE (MU_WRITER_WAITING) /* clear MU_WRITER_WAITING when a writer acquires */
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#define MU_WCLEAR_ON_UNCONTENDED_RELEASE (MU_ALL_FALSE) /* clear if a writer releases w/o waking */
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/* bits to be zero to acquire read lock */
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#define MU_RZERO_TO_ACQUIRE (MU_WLOCK | MU_WRITER_WAITING | MU_LONG_WAIT)
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#define MU_RADD_TO_ACQUIRE (MU_RLOCK) /* add to acquire a read lock */
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#define MU_RHELD_IF_NON_ZERO (MU_RLOCK_FIELD) /* if any of these bits are set, read lock is held */
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#define MU_RSET_WHEN_WAITING (MU_WAITING) /* indicate that some thread is waiting */
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#define MU_RCLEAR_ON_ACQUIRE ((uint32_t) 0) /* nothing to clear when a read acquires */
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#define MU_RCLEAR_ON_UNCONTENDED_RELEASE ((uint32_t) 0) /* nothing to clear when a read releases */
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/* A lock_type holds the values needed to manipulate a mu in some mode (read or
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write). This allows some of the code to be generic, and parameterized by
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the lock type. */
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typedef struct lock_type_s {
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uint32_t zero_to_acquire; /* bits that must be zero to acquire */
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uint32_t add_to_acquire; /* constant to add to acquire */
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uint32_t held_if_non_zero; /* if any of these bits are set, the lock is held */
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uint32_t set_when_waiting; /* set when thread waits */
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uint32_t clear_on_acquire; /* clear when thread acquires */
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uint32_t clear_on_uncontended_release; /* clear when thread releases without waking */
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} lock_type;
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/* writer_type points to a lock_type that describes how to manipulate a mu for a writer. */
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extern lock_type *nsync_writer_type_;
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/* reader_type points to a lock_type that describes how to manipulate a mu for a reader. */
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extern lock_type *nsync_reader_type_;
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/* ---------- */
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/* Bits in nsync_cv.word */
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#define CV_SPINLOCK ((uint32_t) (1 << 0)) /* protects waiters */
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#define CV_NON_EMPTY ((uint32_t) (1 << 1)) /* waiters list is non-empty */
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/* ---------- */
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/* Hold a pair of condition function and its argument. */
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struct wait_condition_s {
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int (*f) (const void *v);
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const void *v;
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int (*eq) (const void *a, const void *b);
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};
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/* Return whether wait conditions *a_ and *b_ are equal and non-null. */
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#define WAIT_CONDITION_EQ(a_, b_) ((a_)->f != NULL && (a_)->f == (b_)->f && \
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((a_)->v == (b_)->v || \
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((a_)->eq != NULL && (*(a_)->eq) ((a_)->v, (b_)->v))))
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/* If a waiter has waited this many times, it may set the MU_LONG_WAIT bit. */
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#define LONG_WAIT_THRESHOLD 30
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/* ---------- */
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#define NOTIFIED_TIME(n_) (ATM_LOAD_ACQ (&(n_)->notified) != 0? nsync_time_zero : \
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(n_)->expiry_time_valid? (n_)->expiry_time : nsync_time_no_deadline)
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/* A waiter represents a single waiter on a cv or a mu.
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To wait:
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Allocate a waiter struct *w with new_waiter(), set w.waiting=1, and
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w.cv_mu=nil or to the associated mu if waiting on a condition variable, then
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queue w.nsync_dll on some queue, and then wait using:
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while (ATM_LOAD_ACQ (&w.waiting) != 0) { nsync_mu_semaphore_p (&w.sem); }
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Return *w to the freepool by calling free_waiter (w).
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To wakeup:
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Remove *w from the relevant queue then:
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ATM_STORE_REL (&w.waiting, 0);
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nsync_mu_semaphore_v (&w.sem); */
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typedef struct {
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uint32_t tag; /* debug DLL_NSYNC_WAITER, DLL_WAITER, DLL_WAITER_SAMECOND */
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nsync_semaphore sem; /* Thread waits on this semaphore. */
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struct nsync_waiter_s nw; /* An embedded nsync_waiter_s. */
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struct nsync_mu_s_ *cv_mu; /* pointer to nsync_mu associated with a cv wait */
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lock_type *l_type; /* Lock type of the mu, or nil if not associated with a mu. */
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nsync_atomic_uint32_ remove_count; /* count of removals from queue */
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struct wait_condition_s cond; /* A condition on which to acquire a mu. */
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nsync_dll_element_ same_condition; /* Links neighbours in nw.q with same non-nil condition. */
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int flags; /* see WAITER_* bits below */
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} waiter;
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static const uint32_t WAITER_TAG = 0x0590239f;
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static const uint32_t NSYNC_WAITER_TAG = 0x726d2ba9;
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#define WAITER_RESERVED 0x1 /* waiter reserved by a thread, even when not in use */
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#define WAITER_IN_USE 0x2 /* waiter in use by a thread */
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#define CONTAINER(t_,f_,p_) ((t_ *) (((char *) (p_)) - offsetof (t_, f_)))
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#define ASSERT(x) do { if (!(x)) { *(volatile int *)0 = 0; } } while (0)
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/* Return a pointer to the nsync_waiter_s containing nsync_dll_element_ *e. */
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#define DLL_NSYNC_WAITER(e) (NSYNC_DEBUG? nsync_dll_nsync_waiter_ (e) : \
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((struct nsync_waiter_s *)((e)->container)))
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struct nsync_waiter_s *nsync_dll_nsync_waiter_ (nsync_dll_element_ *e);
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/* Return a pointer to the waiter struct that *e is embedded in, where *e is an nw.q field. */
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#define DLL_WAITER(e) (NSYNC_DEBUG? nsync_dll_waiter_ (e) : \
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CONTAINER (waiter, nw, DLL_NSYNC_WAITER(e)))
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waiter *nsync_dll_waiter_ (nsync_dll_element_ *e);
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/* Return a pointer to the waiter struct that *e is embedded in, where *e is a
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same_condition field. */
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#define DLL_WAITER_SAMECOND(e) (NSYNC_DEBUG? nsync_dll_waiter_samecond_ (e) : \
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((waiter *) ((e)->container)))
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waiter *nsync_dll_waiter_samecond_ (nsync_dll_element_ *e);
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/* Return a pointer to an unused waiter struct.
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Ensures that the enclosed timer is stopped and its channel drained. */
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waiter *nsync_waiter_new_ (void);
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/* Return an unused waiter struct *w to the free pool. */
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void nsync_waiter_free_ (waiter *w);
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/* ---------- */
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/* The internals of an nync_note. See internal/note.c for details of locking
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discipline. */
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struct nsync_note_s_ {
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nsync_dll_element_ parent_child_link; /* parent's children, under parent->note_mu */
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int expiry_time_valid; /* whether expiry_time is valid; r/o after init */
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nsync_time expiry_time; /* expiry time, if expiry_time_valid != 0; r/o after init */
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nsync_mu note_mu; /* protects fields below except "notified" */
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nsync_cv no_children_cv; /* signalled when children becomes empty */
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uint32_t disconnecting; /* non-zero => node is being disconnected */
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nsync_atomic_uint32_ notified; /* non-zero if the note has been notified */
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struct nsync_note_s_ *parent; /* points to parent, if any */
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nsync_dll_element_ *children; /* list of children */
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nsync_dll_element_ *waiters; /* list of waiters */
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};
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/* ---------- */
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void nsync_mu_lock_slow_ (nsync_mu *mu, waiter *w, uint32_t clear, lock_type *l_type);
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void nsync_mu_unlock_slow_ (nsync_mu *mu, lock_type *l_type);
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nsync_dll_list_ nsync_remove_from_mu_queue_ (nsync_dll_list_ mu_queue, nsync_dll_element_ *e);
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void nsync_maybe_merge_conditions_ (nsync_dll_element_ *p, nsync_dll_element_ *n);
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nsync_time nsync_note_notified_deadline_ (nsync_note n);
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int nsync_sem_wait_with_cancel_ (waiter *w, nsync_time abs_deadline,
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nsync_note cancel_note);
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NSYNC_CPP_END_
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#endif /*NSYNC_INTERNAL_COMMON_H_*/
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