From daa3fc9bff55c1f8368a464ec802ab620901344e Mon Sep 17 00:00:00 2001 From: Florian Weimer Date: Tue, 22 Jun 2021 09:50:27 +0200 Subject: rt: Move generic implementation from sysdeps/pthread to rt The pthread-based implementation is the generic one. Replacing the stubs makes it clear that they do not have to be adjusted for the libpthread move. Result of: git mv -f sysdeps/pthread/aio_misc.h sysdeps/generic/ git mv sysdeps/pthread/timer_routines.c sysdeps/htl/ git mv -f sysdeps/pthread/{aio,lio,timer}_*.c rt/ Followed by manual adjustment of the #include paths in sysdeps/unix/sysv/linux/wordsize-64, and a move of the version definitions formerly in sysdeps/pthread/Versions. Reviewed-by: Adhemerval Zanella --- rt/aio_misc.c | 699 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++- 1 file changed, 696 insertions(+), 3 deletions(-) (limited to 'rt/aio_misc.c') diff --git a/rt/aio_misc.c b/rt/aio_misc.c index 2332f3ed53..b95f07d9d3 100644 --- a/rt/aio_misc.c +++ b/rt/aio_misc.c @@ -1,6 +1,7 @@ -/* Handle general operations. Stub version. - Copyright (C) 2001-2021 Free Software Foundation, Inc. +/* Handle general operations. + Copyright (C) 1997-2021 Free Software Foundation, Inc. This file is part of the GNU C Library. + Contributed by Ulrich Drepper , 1997. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public @@ -17,12 +18,704 @@ . */ #include +#include +#include +#include +#include +#include +#include +#include +#include +#include #include -/* This file is for internal code needed by the aio_* implementation. */ +#ifndef aio_create_helper_thread +# define aio_create_helper_thread __aio_create_helper_thread +extern inline int +__aio_create_helper_thread (pthread_t *threadp, void *(*tf) (void *), void *arg) +{ + pthread_attr_t attr; + + /* Make sure the thread is created detached. */ + pthread_attr_init (&attr); + pthread_attr_setdetachstate (&attr, PTHREAD_CREATE_DETACHED); + + int ret = pthread_create (threadp, &attr, tf, arg); + + (void) pthread_attr_destroy (&attr); + return ret; +} +#endif + +static void add_request_to_runlist (struct requestlist *newrequest); + +/* Pool of request list entries. */ +static struct requestlist **pool; + +/* Number of total and allocated pool entries. */ +static size_t pool_max_size; +static size_t pool_size; + +/* We implement a two dimensional array but allocate each row separately. + The macro below determines how many entries should be used per row. + It should better be a power of two. */ +#define ENTRIES_PER_ROW 32 + +/* How many rows we allocate at once. */ +#define ROWS_STEP 8 + +/* List of available entries. */ +static struct requestlist *freelist; + +/* List of request waiting to be processed. */ +static struct requestlist *runlist; + +/* Structure list of all currently processed requests. */ +static struct requestlist *requests; + +/* Number of threads currently running. */ +static int nthreads; + +/* Number of threads waiting for work to arrive. */ +static int idle_thread_count; + + +/* These are the values used to optimize the use of AIO. The user can + overwrite them by using the `aio_init' function. */ +static struct aioinit optim = +{ + 20, /* int aio_threads; Maximal number of threads. */ + 64, /* int aio_num; Number of expected simultaneous requests. */ + 0, + 0, + 0, + 0, + 1, + 0 +}; + + +/* Since the list is global we need a mutex protecting it. */ +pthread_mutex_t __aio_requests_mutex = PTHREAD_RECURSIVE_MUTEX_INITIALIZER_NP; + +/* When you add a request to the list and there are idle threads present, + you signal this condition variable. When a thread finishes work, it waits + on this condition variable for a time before it actually exits. */ +pthread_cond_t __aio_new_request_notification = PTHREAD_COND_INITIALIZER; + + +/* Functions to handle request list pool. */ +static struct requestlist * +get_elem (void) +{ + struct requestlist *result; + + if (freelist == NULL) + { + struct requestlist *new_row; + int cnt; + + assert (sizeof (struct aiocb) == sizeof (struct aiocb64)); + + if (pool_size + 1 >= pool_max_size) + { + size_t new_max_size = pool_max_size + ROWS_STEP; + struct requestlist **new_tab; + + new_tab = (struct requestlist **) + realloc (pool, new_max_size * sizeof (struct requestlist *)); + + if (new_tab == NULL) + return NULL; + + pool_max_size = new_max_size; + pool = new_tab; + } + + /* Allocate the new row. */ + cnt = pool_size == 0 ? optim.aio_num : ENTRIES_PER_ROW; + new_row = (struct requestlist *) calloc (cnt, + sizeof (struct requestlist)); + if (new_row == NULL) + return NULL; + + pool[pool_size++] = new_row; + + /* Put all the new entries in the freelist. */ + do + { + new_row->next_prio = freelist; + freelist = new_row++; + } + while (--cnt > 0); + } + + result = freelist; + freelist = freelist->next_prio; + + return result; +} + + +void +__aio_free_request (struct requestlist *elem) +{ + elem->running = no; + elem->next_prio = freelist; + freelist = elem; +} + + +struct requestlist * +__aio_find_req (aiocb_union *elem) +{ + struct requestlist *runp = requests; + int fildes = elem->aiocb.aio_fildes; + + while (runp != NULL && runp->aiocbp->aiocb.aio_fildes < fildes) + runp = runp->next_fd; + + if (runp != NULL) + { + if (runp->aiocbp->aiocb.aio_fildes != fildes) + runp = NULL; + else + while (runp != NULL && runp->aiocbp != elem) + runp = runp->next_prio; + } + + return runp; +} + + +struct requestlist * +__aio_find_req_fd (int fildes) +{ + struct requestlist *runp = requests; + + while (runp != NULL && runp->aiocbp->aiocb.aio_fildes < fildes) + runp = runp->next_fd; + + return (runp != NULL && runp->aiocbp->aiocb.aio_fildes == fildes + ? runp : NULL); +} + + +void +__aio_remove_request (struct requestlist *last, struct requestlist *req, + int all) +{ + assert (req->running == yes || req->running == queued + || req->running == done); + + if (last != NULL) + last->next_prio = all ? NULL : req->next_prio; + else + { + if (all || req->next_prio == NULL) + { + if (req->last_fd != NULL) + req->last_fd->next_fd = req->next_fd; + else + requests = req->next_fd; + if (req->next_fd != NULL) + req->next_fd->last_fd = req->last_fd; + } + else + { + if (req->last_fd != NULL) + req->last_fd->next_fd = req->next_prio; + else + requests = req->next_prio; + + if (req->next_fd != NULL) + req->next_fd->last_fd = req->next_prio; + + req->next_prio->last_fd = req->last_fd; + req->next_prio->next_fd = req->next_fd; + + /* Mark this entry as runnable. */ + req->next_prio->running = yes; + } + + if (req->running == yes) + { + struct requestlist *runp = runlist; + + last = NULL; + while (runp != NULL) + { + if (runp == req) + { + if (last == NULL) + runlist = runp->next_run; + else + last->next_run = runp->next_run; + break; + } + last = runp; + runp = runp->next_run; + } + } + } +} + + +/* The thread handler. */ +static void *handle_fildes_io (void *arg); + + +/* User optimization. */ void __aio_init (const struct aioinit *init) { + /* Get the mutex. */ + pthread_mutex_lock (&__aio_requests_mutex); + + /* Only allow writing new values if the table is not yet allocated. */ + if (pool == NULL) + { + optim.aio_threads = init->aio_threads < 1 ? 1 : init->aio_threads; + assert (powerof2 (ENTRIES_PER_ROW)); + optim.aio_num = (init->aio_num < ENTRIES_PER_ROW + ? ENTRIES_PER_ROW + : init->aio_num & ~(ENTRIES_PER_ROW - 1)); + } + + if (init->aio_idle_time != 0) + optim.aio_idle_time = init->aio_idle_time; + + /* Release the mutex. */ + pthread_mutex_unlock (&__aio_requests_mutex); } weak_alias (__aio_init, aio_init) + + +/* The main function of the async I/O handling. It enqueues requests + and if necessary starts and handles threads. */ +struct requestlist * +__aio_enqueue_request (aiocb_union *aiocbp, int operation) +{ + int result = 0; + int policy, prio; + struct sched_param param; + struct requestlist *last, *runp, *newp; + int running = no; + + if (operation == LIO_SYNC || operation == LIO_DSYNC) + aiocbp->aiocb.aio_reqprio = 0; + else if (aiocbp->aiocb.aio_reqprio < 0 +#ifdef AIO_PRIO_DELTA_MAX + || aiocbp->aiocb.aio_reqprio > AIO_PRIO_DELTA_MAX +#endif + ) + { + /* Invalid priority value. */ + __set_errno (EINVAL); + aiocbp->aiocb.__error_code = EINVAL; + aiocbp->aiocb.__return_value = -1; + return NULL; + } + + /* Compute priority for this request. */ + pthread_getschedparam (pthread_self (), &policy, ¶m); + prio = param.sched_priority - aiocbp->aiocb.aio_reqprio; + + /* Get the mutex. */ + pthread_mutex_lock (&__aio_requests_mutex); + + last = NULL; + runp = requests; + /* First look whether the current file descriptor is currently + worked with. */ + while (runp != NULL + && runp->aiocbp->aiocb.aio_fildes < aiocbp->aiocb.aio_fildes) + { + last = runp; + runp = runp->next_fd; + } + + /* Get a new element for the waiting list. */ + newp = get_elem (); + if (newp == NULL) + { + pthread_mutex_unlock (&__aio_requests_mutex); + __set_errno (EAGAIN); + return NULL; + } + newp->aiocbp = aiocbp; + newp->waiting = NULL; + + aiocbp->aiocb.__abs_prio = prio; + aiocbp->aiocb.__policy = policy; + aiocbp->aiocb.aio_lio_opcode = operation; + aiocbp->aiocb.__error_code = EINPROGRESS; + aiocbp->aiocb.__return_value = 0; + + if (runp != NULL + && runp->aiocbp->aiocb.aio_fildes == aiocbp->aiocb.aio_fildes) + { + /* The current file descriptor is worked on. It makes no sense + to start another thread since this new thread would fight + with the running thread for the resources. But we also cannot + say that the thread processing this desriptor shall immediately + after finishing the current job process this request if there + are other threads in the running queue which have a higher + priority. */ + + /* Simply enqueue it after the running one according to the + priority. */ + last = NULL; + while (runp->next_prio != NULL + && runp->next_prio->aiocbp->aiocb.__abs_prio >= prio) + { + last = runp; + runp = runp->next_prio; + } + + newp->next_prio = runp->next_prio; + runp->next_prio = newp; + + running = queued; + } + else + { + running = yes; + /* Enqueue this request for a new descriptor. */ + if (last == NULL) + { + newp->last_fd = NULL; + newp->next_fd = requests; + if (requests != NULL) + requests->last_fd = newp; + requests = newp; + } + else + { + newp->next_fd = last->next_fd; + newp->last_fd = last; + last->next_fd = newp; + if (newp->next_fd != NULL) + newp->next_fd->last_fd = newp; + } + + newp->next_prio = NULL; + last = NULL; + } + + if (running == yes) + { + /* We try to create a new thread for this file descriptor. The + function which gets called will handle all available requests + for this descriptor and when all are processed it will + terminate. + + If no new thread can be created or if the specified limit of + threads for AIO is reached we queue the request. */ + + /* See if we need to and are able to create a thread. */ + if (nthreads < optim.aio_threads && idle_thread_count == 0) + { + pthread_t thid; + + running = newp->running = allocated; + + /* Now try to start a thread. */ + result = aio_create_helper_thread (&thid, handle_fildes_io, newp); + if (result == 0) + /* We managed to enqueue the request. All errors which can + happen now can be recognized by calls to `aio_return' and + `aio_error'. */ + ++nthreads; + else + { + /* Reset the running flag. The new request is not running. */ + running = newp->running = yes; + + if (nthreads == 0) + { + /* We cannot create a thread in the moment and there is + also no thread running. This is a problem. `errno' is + set to EAGAIN if this is only a temporary problem. */ + __aio_remove_request (last, newp, 0); + } + else + result = 0; + } + } + } + + /* Enqueue the request in the run queue if it is not yet running. */ + if (running == yes && result == 0) + { + add_request_to_runlist (newp); + + /* If there is a thread waiting for work, then let it know that we + have just given it something to do. */ + if (idle_thread_count > 0) + pthread_cond_signal (&__aio_new_request_notification); + } + + if (result == 0) + newp->running = running; + else + { + /* Something went wrong. */ + __aio_free_request (newp); + aiocbp->aiocb.__error_code = result; + __set_errno (result); + newp = NULL; + } + + /* Release the mutex. */ + pthread_mutex_unlock (&__aio_requests_mutex); + + return newp; +} + + +static void * +handle_fildes_io (void *arg) +{ + pthread_t self = pthread_self (); + struct sched_param param; + struct requestlist *runp = (struct requestlist *) arg; + aiocb_union *aiocbp; + int policy; + int fildes; + + pthread_getschedparam (self, &policy, ¶m); + + do + { + /* If runp is NULL, then we were created to service the work queue + in general, not to handle any particular request. In that case we + skip the "do work" stuff on the first pass, and go directly to the + "get work off the work queue" part of this loop, which is near the + end. */ + if (runp == NULL) + pthread_mutex_lock (&__aio_requests_mutex); + else + { + /* Hopefully this request is marked as running. */ + assert (runp->running == allocated); + + /* Update our variables. */ + aiocbp = runp->aiocbp; + fildes = aiocbp->aiocb.aio_fildes; + + /* Change the priority to the requested value (if necessary). */ + if (aiocbp->aiocb.__abs_prio != param.sched_priority + || aiocbp->aiocb.__policy != policy) + { + param.sched_priority = aiocbp->aiocb.__abs_prio; + policy = aiocbp->aiocb.__policy; + pthread_setschedparam (self, policy, ¶m); + } + + /* Process request pointed to by RUNP. We must not be disturbed + by signals. */ + if ((aiocbp->aiocb.aio_lio_opcode & 127) == LIO_READ) + { + if (sizeof (off_t) != sizeof (off64_t) + && aiocbp->aiocb.aio_lio_opcode & 128) + aiocbp->aiocb.__return_value = + TEMP_FAILURE_RETRY (__pread64 (fildes, (void *) + aiocbp->aiocb64.aio_buf, + aiocbp->aiocb64.aio_nbytes, + aiocbp->aiocb64.aio_offset)); + else + aiocbp->aiocb.__return_value = + TEMP_FAILURE_RETRY (__libc_pread (fildes, + (void *) + aiocbp->aiocb.aio_buf, + aiocbp->aiocb.aio_nbytes, + aiocbp->aiocb.aio_offset)); + + if (aiocbp->aiocb.__return_value == -1 && errno == ESPIPE) + /* The Linux kernel is different from others. It returns + ESPIPE if using pread on a socket. Other platforms + simply ignore the offset parameter and behave like + read. */ + aiocbp->aiocb.__return_value = + TEMP_FAILURE_RETRY (read (fildes, + (void *) aiocbp->aiocb64.aio_buf, + aiocbp->aiocb64.aio_nbytes)); + } + else if ((aiocbp->aiocb.aio_lio_opcode & 127) == LIO_WRITE) + { + if (sizeof (off_t) != sizeof (off64_t) + && aiocbp->aiocb.aio_lio_opcode & 128) + aiocbp->aiocb.__return_value = + TEMP_FAILURE_RETRY (__pwrite64 (fildes, (const void *) + aiocbp->aiocb64.aio_buf, + aiocbp->aiocb64.aio_nbytes, + aiocbp->aiocb64.aio_offset)); + else + aiocbp->aiocb.__return_value = + TEMP_FAILURE_RETRY (__libc_pwrite (fildes, (const void *) + aiocbp->aiocb.aio_buf, + aiocbp->aiocb.aio_nbytes, + aiocbp->aiocb.aio_offset)); + + if (aiocbp->aiocb.__return_value == -1 && errno == ESPIPE) + /* The Linux kernel is different from others. It returns + ESPIPE if using pwrite on a socket. Other platforms + simply ignore the offset parameter and behave like + write. */ + aiocbp->aiocb.__return_value = + TEMP_FAILURE_RETRY (write (fildes, + (void *) aiocbp->aiocb64.aio_buf, + aiocbp->aiocb64.aio_nbytes)); + } + else if (aiocbp->aiocb.aio_lio_opcode == LIO_DSYNC) + aiocbp->aiocb.__return_value = + TEMP_FAILURE_RETRY (fdatasync (fildes)); + else if (aiocbp->aiocb.aio_lio_opcode == LIO_SYNC) + aiocbp->aiocb.__return_value = + TEMP_FAILURE_RETRY (fsync (fildes)); + else + { + /* This is an invalid opcode. */ + aiocbp->aiocb.__return_value = -1; + __set_errno (EINVAL); + } + + /* Get the mutex. */ + pthread_mutex_lock (&__aio_requests_mutex); + + if (aiocbp->aiocb.__return_value == -1) + aiocbp->aiocb.__error_code = errno; + else + aiocbp->aiocb.__error_code = 0; + + /* Send the signal to notify about finished processing of the + request. */ + __aio_notify (runp); + + /* For debugging purposes we reset the running flag of the + finished request. */ + assert (runp->running == allocated); + runp->running = done; + + /* Now dequeue the current request. */ + __aio_remove_request (NULL, runp, 0); + if (runp->next_prio != NULL) + add_request_to_runlist (runp->next_prio); + + /* Free the old element. */ + __aio_free_request (runp); + } + + runp = runlist; + + /* If the runlist is empty, then we sleep for a while, waiting for + something to arrive in it. */ + if (runp == NULL && optim.aio_idle_time >= 0) + { + struct timespec now; + struct timespec wakeup_time; + + ++idle_thread_count; + __clock_gettime (CLOCK_REALTIME, &now); + wakeup_time.tv_sec = now.tv_sec + optim.aio_idle_time; + wakeup_time.tv_nsec = now.tv_nsec; + if (wakeup_time.tv_nsec >= 1000000000) + { + wakeup_time.tv_nsec -= 1000000000; + ++wakeup_time.tv_sec; + } + pthread_cond_timedwait (&__aio_new_request_notification, + &__aio_requests_mutex, + &wakeup_time); + --idle_thread_count; + runp = runlist; + } + + if (runp == NULL) + --nthreads; + else + { + assert (runp->running == yes); + runp->running = allocated; + runlist = runp->next_run; + + /* If we have a request to process, and there's still another in + the run list, then we need to either wake up or create a new + thread to service the request that is still in the run list. */ + if (runlist != NULL) + { + /* There are at least two items in the work queue to work on. + If there are other idle threads, then we should wake them + up for these other work elements; otherwise, we should try + to create a new thread. */ + if (idle_thread_count > 0) + pthread_cond_signal (&__aio_new_request_notification); + else if (nthreads < optim.aio_threads) + { + pthread_t thid; + pthread_attr_t attr; + + /* Make sure the thread is created detached. */ + pthread_attr_init (&attr); + pthread_attr_setdetachstate (&attr, PTHREAD_CREATE_DETACHED); + + /* Now try to start a thread. If we fail, no big deal, + because we know that there is at least one thread (us) + that is working on AIO operations. */ + if (pthread_create (&thid, &attr, handle_fildes_io, NULL) + == 0) + ++nthreads; + } + } + } + + /* Release the mutex. */ + pthread_mutex_unlock (&__aio_requests_mutex); + } + while (runp != NULL); + + return NULL; +} + + +/* Free allocated resources. */ +libc_freeres_fn (free_res) +{ + size_t row; + + for (row = 0; row < pool_max_size; ++row) + free (pool[row]); + + free (pool); +} + + +/* Add newrequest to the runlist. The __abs_prio flag of newrequest must + be correctly set to do this. Also, you had better set newrequest's + "running" flag to "yes" before you release your lock or you'll throw an + assertion. */ +static void +add_request_to_runlist (struct requestlist *newrequest) +{ + int prio = newrequest->aiocbp->aiocb.__abs_prio; + struct requestlist *runp; + + if (runlist == NULL || runlist->aiocbp->aiocb.__abs_prio < prio) + { + newrequest->next_run = runlist; + runlist = newrequest; + } + else + { + runp = runlist; + + while (runp->next_run != NULL + && runp->next_run->aiocbp->aiocb.__abs_prio >= prio) + runp = runp->next_run; + + newrequest->next_run = runp->next_run; + runp->next_run = newrequest; + } +} -- cgit 1.4.1