/* * Copyright (c) 1995 John Birrell . * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by John Birrell. * 4. Neither the name of the author nor the names of any co-contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY JOHN BIRRELL AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * */ #include #include #ifdef _THREAD_SAFE #include #include "pthread_private.h" int _thread_fd_table_init(int fd) { int ret = 0; int status; /* Block signals: */ _thread_kern_sig_block(&status); /* Check if the file descriptor is out of range: */ if (fd < 0 || fd >= _thread_dtablesize) { /* Return a bad file descriptor error: */ _thread_seterrno(_thread_run, EBADF); ret = -1; } /* * Check if memory has already been allocated for this file * descriptor: */ else if (_thread_fd_table[fd] != NULL) { } /* Allocate memory for the file descriptor table entry: */ else if ((_thread_fd_table[fd] = (struct fd_table_entry *) malloc(sizeof(struct fd_table_entry))) == NULL) { /* Return a bad file descriptor error: */ _thread_seterrno(_thread_run, EBADF); ret = -1; } else { /* Initialise the file locks: */ _thread_fd_table[fd]->r_owner = NULL; _thread_fd_table[fd]->w_owner = NULL; _thread_fd_table[fd]->r_fname = NULL; _thread_fd_table[fd]->w_fname = NULL; _thread_fd_table[fd]->r_lineno = 0;; _thread_fd_table[fd]->w_lineno = 0;; _thread_fd_table[fd]->r_lockcount = 0;; _thread_fd_table[fd]->w_lockcount = 0;; /* Default the flags: */ _thread_fd_table[fd]->flags = 0; /* Initialise the read/write queues: */ _thread_queue_init(&_thread_fd_table[fd]->r_queue); _thread_queue_init(&_thread_fd_table[fd]->w_queue); } /* Unblock signals: */ _thread_kern_sig_unblock(status); /* Return the completion status: */ return (ret); } void _thread_fd_unlock(int fd, int lock_type) { int ret; int status; /* Block signals while the file descriptor lock is tested: */ _thread_kern_sig_block(&status); /* * Check that the file descriptor table is initialised for this * entry: */ if ((ret = _thread_fd_table_init(fd)) != 0) { } else { /* Check if the running thread owns the read lock: */ if (_thread_fd_table[fd]->r_owner == _thread_run) { /* Check the file descriptor and lock types: */ if (lock_type == FD_READ || lock_type == FD_RDWR) { /* * Decrement the read lock count for the * running thread: */ _thread_fd_table[fd]->r_lockcount--; /* * Check if the running thread still has read * locks on this file descriptor: */ if (_thread_fd_table[fd]->r_lockcount != 0) { } /* * Get the next thread in the queue for a * read lock on this file descriptor: */ else if ((_thread_fd_table[fd]->r_owner = _thread_queue_deq(&_thread_fd_table[fd]->r_queue)) == NULL) { } else { /* * Set the state of the new owner of * the thread to running: */ _thread_fd_table[fd]->r_owner->state = PS_RUNNING; /* * Reset the number of read locks. * This will be incremented by the * new owner of the lock when it sees * that it has the lock. */ _thread_fd_table[fd]->r_lockcount = 0; } } } /* Check if the running thread owns the write lock: */ if (_thread_fd_table[fd]->w_owner == _thread_run) { /* Check the file descriptor and lock types: */ if (lock_type == FD_WRITE || lock_type == FD_RDWR) { /* * Decrement the write lock count for the * running thread: */ _thread_fd_table[fd]->w_lockcount--; /* * Check if the running thread still has * write locks on this file descriptor: */ if (_thread_fd_table[fd]->w_lockcount != 0) { } /* * Get the next thread in the queue for a * write lock on this file descriptor: */ else if ((_thread_fd_table[fd]->w_owner = _thread_queue_deq(&_thread_fd_table[fd]->w_queue)) == NULL) { } else { /* * Set the state of the new owner of * the thread to running: */ _thread_fd_table[fd]->w_owner->state = PS_RUNNING; /* * Reset the number of write locks. * This will be incremented by the * new owner of the lock when it * sees that it has the lock. */ _thread_fd_table[fd]->w_lockcount = 0; } } } } /* Unblock signals again: */ _thread_kern_sig_unblock(status); /* Nothing to return. */ return; } int _thread_fd_lock(int fd, int lock_type, struct timespec * timeout, char *fname, int lineno) { int ret; int status; /* Block signals while the file descriptor lock is tested: */ _thread_kern_sig_block(&status); /* * Check that the file descriptor table is initialised for this * entry: */ if ((ret = _thread_fd_table_init(fd)) != 0) { } else { /* Check the file descriptor and lock types: */ if (lock_type == FD_READ || lock_type == FD_RDWR) { /* * Enter a loop to wait for the file descriptor to be * locked for read for the current thread: */ while (_thread_fd_table[fd]->r_owner != _thread_run) { /* * Check if the file descriptor is locked by * another thread: */ if (_thread_fd_table[fd]->r_owner != NULL) { /* * Another thread has locked the file * descriptor for read, so join the * queue of threads waiting for a * read lock on this file descriptor: */ _thread_queue_enq(&_thread_fd_table[fd]->r_queue, _thread_run); /* * Save the file descriptor details * in the thread structure for the * running thread: */ _thread_run->data.fd.fd = fd; _thread_run->data.fd.branch = lineno; _thread_run->data.fd.fname = fname; /* Set the timeout: */ _thread_kern_set_timeout(timeout); /* * Schedule this thread to wait on * the read lock. It will only be * woken when it becomes the next in * the queue and is granted access * to the lock by the thread * that is unlocking the file * descriptor. */ _thread_kern_sched_state(PS_FDLR_WAIT, __FILE__, __LINE__); /* * Block signals so that the file * descriptor lock can again be * tested: */ _thread_kern_sig_block(NULL); } else { /* * The running thread now owns the * read lock on this file descriptor: */ _thread_fd_table[fd]->r_owner = _thread_run; /* * Reset the number of read locks for * this file descriptor: */ _thread_fd_table[fd]->r_lockcount = 0; /* * Save the source file details for * debugging: */ _thread_fd_table[fd]->r_fname = fname; _thread_fd_table[fd]->r_lineno = lineno; } } /* Increment the read lock count: */ _thread_fd_table[fd]->r_lockcount++; } /* Check the file descriptor and lock types: */ if (lock_type == FD_WRITE || lock_type == FD_RDWR) { /* * Enter a loop to wait for the file descriptor to be * locked for write for the current thread: */ while (_thread_fd_table[fd]->w_owner != _thread_run) { /* * Check if the file descriptor is locked by * another thread: */ if (_thread_fd_table[fd]->w_owner != NULL) { /* * Another thread has locked the file * descriptor for write, so join the * queue of threads waiting for a * write lock on this file * descriptor: */ _thread_queue_enq(&_thread_fd_table[fd]->w_queue, _thread_run); /* * Save the file descriptor details * in the thread structure for the * running thread: */ _thread_run->data.fd.fd = fd; _thread_run->data.fd.branch = lineno; _thread_run->data.fd.fname = fname; /* Set the timeout: */ _thread_kern_set_timeout(timeout); /* * Schedule this thread to wait on * the write lock. It will only be * woken when it becomes the next in * the queue and is granted access to * the lock by the thread that is * unlocking the file descriptor. */ _thread_kern_sched_state(PS_FDLW_WAIT, __FILE__, __LINE__); /* * Block signals so that the file * descriptor lock can again be * tested: */ _thread_kern_sig_block(NULL); } else { /* * The running thread now owns the * write lock on this file * descriptor: */ _thread_fd_table[fd]->w_owner = _thread_run; /* * Reset the number of write locks * for this file descriptor: */ _thread_fd_table[fd]->w_lockcount = 0; /* * Save the source file details for * debugging: */ _thread_fd_table[fd]->w_fname = fname; _thread_fd_table[fd]->w_lineno = lineno; } } /* Increment the write lock count: */ _thread_fd_table[fd]->w_lockcount++; } } /* Unblock signals again: */ _thread_kern_sig_unblock(status); /* Return the completion status: */ return (ret); } #endif