Author: Pekka Riikonen <priikone@silcnet.org>
- Copyright (C) 1998 - 2001 Pekka Riikonen
+ Copyright (C) 1998 - 2005 Pekka Riikonen
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
- the Free Software Foundation; either version 2 of the License, or
- (at your option) any later version.
-
+ the Free Software Foundation; version 2 of the License.
+
This program 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
#include "silcincludes.h"
-/* Routine to remove the task. Implemented in silctask.c. */
-int silc_task_remove(SilcTaskQueue queue, SilcTask task);
-
-/* System specific routines. Implemented under unix/ and win32/. */
-
-/* System specific select(). */
-int silc_select(int n, fd_set *readfds, fd_set *writefds,
- fd_set *exceptfds, struct timeval *timeout);
-
-/* Initializes the wakeup of the scheduler. In multi-threaded environment
- the scheduler needs to be wakenup when tasks are added or removed from
- the task queues. This will initialize the wakeup for the scheduler.
- Any tasks that needs to be registered must be registered to the `queue'.
- It is guaranteed that the scheduler will automatically free any
- registered tasks in this queue. This is system specific routine. */
-void *silc_schedule_wakeup_init(void *queue);
-
-/* Uninitializes the system specific wakeup. */
-void silc_schedule_wakeup_uninit(void *context);
-
-/* Wakes up the scheduler. This is platform specific routine */
-void silc_schedule_wakeup_internal(void *context);
-
-/* Structure holding list of file descriptors, scheduler is supposed to
- be listenning. The max_fd field is the maximum number of possible file
- descriptors in the list. This value is set at the initialization
- of the scheduler and it usually is the maximum number of connections
- allowed. */
-typedef struct {
- int *fd;
- uint32 last_fd;
- uint32 max_fd;
-} SilcScheduleFdList;
-
-/*
- SILC Scheduler structure.
-
- This is the actual schedule object in SILC. Both SILC client and server
- uses this same scheduler. Actually, this scheduler could be used by any
- program needing scheduling.
-
- Following short description of the fields:
-
- SilcTaskQueue fd_queue
-
- Task queue hook for non-timeout tasks. Usually this means that these
- tasks perform different kind of I/O on file descriptors. File
- descriptors are usually network sockets but they actually can be
- any file descriptors. This hook is initialized in silc_schedule_init
- function. Timeout tasks should not be added to this queue because
- they will never expire.
-
- SilcTaskQueue timeout_queue
-
- Task queue hook for timeout tasks. This hook is reserved specificly
- for tasks with timeout. Non-timeout tasks should not be added to this
- queue because they will never get scheduled. This hook is also
- initialized in silc_schedule_init function.
-
- SilcTaskQueue generic_queue
-
- Task queue hook for generic tasks. This hook is reserved specificly
- for generic tasks, tasks that apply to all file descriptors, except
- to those that have specificly registered a non-timeout task. This hook
- is also initialized in silc_schedule_init function.
-
- SilcScheduleFdList fd_list
-
- List of file descriptors the scheduler is supposed to be listenning.
- This is updated internally.
-
- struct timeval *timeout;
-
- Pointer to the schedules next timeout. Value of this timeout is
- automatically updated in the silc_schedule function.
-
- int valid
-
- Marks validity of the scheduler. This is a boolean value. When this
- is false the scheduler is terminated and the program will end. This
- set to true when the scheduler is initialized with silc_schedule_init
- function.
+/* Platform specific implementation */
+extern const SilcScheduleOps schedule_ops;
- fd_set in
- fd_set out
+static void silc_schedule_task_remove(SilcSchedule schedule, SilcTask task);
+static void silc_schedule_dispatch_fd(SilcSchedule schedule);
+static void silc_schedule_dispatch_timeout(SilcSchedule schedule,
+ bool dispatch_all);
- File descriptor sets for select(). These are automatically managed
- by the scheduler and should not be touched otherwise.
+/* Fd task hash table destructor */
- int max_fd
-
- Number of maximum file descriptors for select(). This, as well, is
- managed automatically by the scheduler and should be considered to
- be read-only field otherwise.
-
- void *wakeup
+static void silc_schedule_fd_destructor(void *key, void *context,
+ void *user_context)
+{
+ silc_free(context);
+}
- System specific wakeup context. On multi-threaded environments the
- scheduler needs to be wakenup (in the thread) when tasks are added
- or removed. This is initialized by silc_schedule_wakeup_init.
+/* Initializes the scheduler. This returns the scheduler context that
+ is given as arugment usually to all silc_schedule_* functions.
+ The `max_tasks' indicates the number of maximum tasks that the
+ scheduler can handle. The `app_context' is application specific
+ context that is delivered to task callbacks. */
-*/
-struct SilcScheduleStruct {
- SilcTaskQueue fd_queue;
- SilcTaskQueue timeout_queue;
- SilcTaskQueue generic_queue;
- SilcScheduleFdList fd_list;
- struct timeval *timeout;
- bool valid;
- fd_set in;
- fd_set out;
- int max_fd;
- void *wakeup;
- SILC_MUTEX_DEFINE(lock);
- bool is_locked;
-};
-
-/* Initializes the scheduler. Sets the non-timeout task queue hook and
- the timeout task queue hook. This must be called before the scheduler
- is able to work. This will allocate the queue pointers if they are
- not allocated. Returns the scheduler context that must be freed by
- the silc_schedule_uninit function. */
-
-SilcSchedule silc_schedule_init(SilcTaskQueue *fd_queue,
- SilcTaskQueue *timeout_queue,
- SilcTaskQueue *generic_queue,
- int max_fd)
+SilcSchedule silc_schedule_init(int max_tasks, void *app_context)
{
SilcSchedule schedule;
- int i;
SILC_LOG_DEBUG(("Initializing scheduler"));
schedule = silc_calloc(1, sizeof(*schedule));
+ if (!schedule)
+ return NULL;
+
+ schedule->fd_queue =
+ silc_hash_table_alloc(0, silc_hash_uint, NULL, NULL, NULL,
+ silc_schedule_fd_destructor, NULL, TRUE);
+ if (!schedule->fd_queue)
+ return NULL;
- /* Register the task queues if they are not registered already. In SILC
- we have by default three task queues. One task queue for non-timeout
- tasks which perform different kind of I/O on file descriptors, timeout
- task queue for timeout tasks, and, generic non-timeout task queue whose
- tasks apply to all connections. */
- if (!*fd_queue)
- silc_task_queue_alloc(schedule, fd_queue, TRUE);
- if (!*timeout_queue)
- silc_task_queue_alloc(schedule, timeout_queue, TRUE);
- if (!*generic_queue)
- silc_task_queue_alloc(schedule, generic_queue, TRUE);
-
- /* Initialize the scheduler */
- schedule->fd_queue = *fd_queue;
- schedule->timeout_queue = *timeout_queue;
- schedule->generic_queue = *generic_queue;
- schedule->fd_list.fd = silc_calloc(max_fd, sizeof(*schedule->fd_list.fd));
- schedule->fd_list.last_fd = 0;
- schedule->fd_list.max_fd = max_fd;
- schedule->timeout = NULL;
+ silc_list_init(schedule->timeout_queue, struct SilcTaskTimeoutStruct, next);
+
+ schedule->app_context = app_context;
schedule->valid = TRUE;
- FD_ZERO(&schedule->in);
- FD_ZERO(&schedule->out);
- schedule->max_fd = -1;
- for (i = 0; i < max_fd; i++)
- schedule->fd_list.fd[i] = -1;
+ schedule->max_tasks = max_tasks;
+ /* Allocate scheduler lock */
silc_mutex_alloc(&schedule->lock);
- /* Initialize the wakeup */
- schedule->wakeup = silc_schedule_wakeup_init(schedule->fd_queue);
+ /* Initialize the platform specific scheduler. */
+ schedule->internal = schedule_ops.init(schedule, app_context);
return schedule;
}
bool silc_schedule_uninit(SilcSchedule schedule)
{
-
SILC_LOG_DEBUG(("Uninitializing scheduler"));
if (schedule->valid == TRUE)
return FALSE;
+ /* Dispatch all timeouts before going away */
+ SILC_SCHEDULE_LOCK(schedule);
+ silc_schedule_dispatch_timeout(schedule, TRUE);
+ SILC_SCHEDULE_UNLOCK(schedule);
+
+ /* Deliver signals before going away */
+ if (schedule->signal_tasks) {
+ schedule_ops.signals_call(schedule, schedule->internal);
+ schedule->signal_tasks = FALSE;
+ }
+
/* Unregister all tasks */
- if (schedule->fd_queue)
- silc_task_remove(schedule->fd_queue, SILC_ALL_TASKS);
- if (schedule->timeout_queue)
- silc_task_remove(schedule->timeout_queue, SILC_ALL_TASKS);
- if (schedule->generic_queue)
- silc_task_remove(schedule->generic_queue, SILC_ALL_TASKS);
+ silc_schedule_task_remove(schedule, SILC_ALL_TASKS);
+ silc_schedule_task_remove(schedule, SILC_ALL_TASKS);
/* Unregister all task queues */
- if (schedule->fd_queue)
- silc_task_queue_free(schedule->fd_queue);
- if (schedule->timeout_queue)
- silc_task_queue_free(schedule->timeout_queue);
- if (schedule->generic_queue)
- silc_task_queue_free(schedule->generic_queue);
-
- /* Clear the fd list */
- if (schedule->fd_list.fd) {
- memset(schedule->fd_list.fd, -1, schedule->fd_list.max_fd);
- silc_free(schedule->fd_list.fd);
- }
+ silc_hash_table_free(schedule->fd_queue);
- /* Uninit the wakeup */
- silc_schedule_wakeup_uninit(schedule->wakeup);
+ /* Uninit the platform specific scheduler. */
+ schedule_ops.uninit(schedule, schedule->internal);
silc_mutex_free(schedule->lock);
+ silc_free(schedule);
return TRUE;
}
-/* Stops the schedule even if it is not supposed to be stopped yet.
- After calling this, one should call silc_schedule_uninit (after the
+/* Stops the schedule even if it is not supposed to be stopped yet.
+ After calling this, one should call silc_schedule_uninit (after the
silc_schedule has returned). */
void silc_schedule_stop(SilcSchedule schedule)
{
SILC_LOG_DEBUG(("Stopping scheduler"));
- silc_mutex_lock(schedule->lock);
+ SILC_SCHEDULE_LOCK(schedule);
schedule->valid = FALSE;
- silc_mutex_unlock(schedule->lock);
+ SILC_SCHEDULE_UNLOCK(schedule);
}
-/* Sets a file descriptor to be listened by select() in scheduler. One can
- call this directly if wanted. This can be called multiple times for
- one file descriptor to set different iomasks. */
+/* Executes file descriptor tasks. Invalid tasks are removed here. */
-void silc_schedule_set_listen_fd(SilcSchedule schedule, int fd, uint32 iomask)
+static void silc_schedule_dispatch_fd(SilcSchedule schedule)
{
- silc_mutex_lock(schedule->lock);
-
- schedule->fd_list.fd[fd] = iomask;
-
- if (fd > schedule->fd_list.last_fd)
- schedule->fd_list.last_fd = fd;
-
- silc_mutex_unlock(schedule->lock);
+ SilcHashTableList htl;
+ SilcTask t;
+ SilcTaskFd task;
+ SilcUInt32 fd;
+
+ silc_hash_table_list(schedule->fd_queue, &htl);
+ while (silc_hash_table_get(&htl, (void **)&fd, (void **)&task)) {
+ t = (SilcTask)task;
+
+ if (!t->valid) {
+ silc_schedule_task_remove(schedule, t);
+ continue;
+ }
+ if (!task->events || !task->revents)
+ continue;
+
+ /* Is the task ready for reading */
+ if (task->revents & SILC_TASK_READ) {
+ SILC_SCHEDULE_UNLOCK(schedule);
+ t->callback(schedule, schedule->app_context, SILC_TASK_READ,
+ task->fd, t->context);
+ SILC_SCHEDULE_LOCK(schedule);
+ }
+
+ /* Is the task ready for writing */
+ if (t->valid && task->revents & SILC_TASK_WRITE) {
+ SILC_SCHEDULE_UNLOCK(schedule);
+ t->callback(schedule, schedule->app_context, SILC_TASK_WRITE,
+ task->fd, t->context);
+ SILC_SCHEDULE_LOCK(schedule);
+ }
+
+ /* Remove if task was invalidated in the task callback */
+ if (!t->valid)
+ silc_schedule_task_remove(schedule, t);
+ }
+ silc_hash_table_list_reset(&htl);
}
-/* Removes a file descriptor from listen list. */
+/* Executes all tasks whose timeout has expired. The task is removed from
+ the task queue after the callback function has returned. Also, invalid
+ tasks are removed here. */
-void silc_schedule_unset_listen_fd(SilcSchedule schedule, int fd)
+static void silc_schedule_dispatch_timeout(SilcSchedule schedule,
+ bool dispatch_all)
{
- silc_mutex_lock(schedule->lock);
+ SilcTask t;
+ SilcTaskTimeout task;
+ struct timeval curtime;
+ int count = 0;
+
+ SILC_LOG_DEBUG(("Running timeout tasks"));
+
+ silc_gettimeofday(&curtime);
+
+ /* First task in the task queue has always the earliest timeout. */
+ silc_list_start(schedule->timeout_queue);
+ while ((task = silc_list_get(schedule->timeout_queue)) != SILC_LIST_END) {
+ t = (SilcTask)task;
- schedule->fd_list.fd[fd] = -1;
-
- if (fd == schedule->fd_list.last_fd) {
- int i;
+ /* Remove invalid task */
+ if (!t->valid) {
+ silc_schedule_task_remove(schedule, t);
+ continue;
+ }
- for (i = fd; i >= 0; i--)
- if (schedule->fd_list.fd[i] != -1)
+ /* Execute the task if the timeout has expired */
+ if (dispatch_all || silc_compare_timeval(&task->timeout, &curtime)) {
+ SILC_SCHEDULE_UNLOCK(schedule);
+ t->callback(schedule, schedule->app_context, SILC_TASK_EXPIRE, 0,
+ t->context);
+ SILC_SCHEDULE_LOCK(schedule);
+
+ /* Remove the expired task */
+ silc_schedule_task_remove(schedule, t);
+
+ /* Balance when we have lots of small timeouts */
+ if ((++count) > 50)
break;
+ }
+ }
+}
+
+/* Calculates next timeout. This is the timeout value when at earliest some
+ of the timeout tasks expire. If this is in the past, they will be
+ dispatched now. */
- schedule->fd_list.last_fd = i < 0 ? 0 : i;
+static void silc_schedule_select_timeout(SilcSchedule schedule)
+{
+ SilcTask t;
+ SilcTaskTimeout task;
+ struct timeval curtime;
+ bool dispatch = TRUE;
+
+ /* Get the current time */
+ silc_gettimeofday(&curtime);
+ schedule->has_timeout = FALSE;
+
+ /* First task in the task queue has always the earliest timeout. */
+ silc_list_start(schedule->timeout_queue);
+ while ((task = silc_list_get(schedule->timeout_queue)) != SILC_LIST_END) {
+ t = (SilcTask)task;
+
+ /* Remove invalid task */
+ if (!t->valid) {
+ silc_schedule_task_remove(schedule, t);
+ continue;
+ }
+
+ /* If the timeout is in past, we will run the task and all other
+ timeout tasks from the past. */
+ if (silc_compare_timeval(&task->timeout, &curtime) && dispatch) {
+ silc_schedule_dispatch_timeout(schedule, FALSE);
+ if (!schedule->valid)
+ return;
+
+ /* Start selecting new timeout again after dispatch */
+ silc_list_start(schedule->timeout_queue);
+ dispatch = FALSE;
+ continue;
+ }
+
+ /* Calculate the next timeout */
+ curtime.tv_sec = task->timeout.tv_sec - curtime.tv_sec;
+ curtime.tv_usec = task->timeout.tv_usec - curtime.tv_usec;
+ if (curtime.tv_sec < 0)
+ curtime.tv_sec = 0;
+
+ /* We wouldn't want to go under zero, check for it. */
+ if (curtime.tv_usec < 0) {
+ curtime.tv_sec -= 1;
+ if (curtime.tv_sec < 0)
+ curtime.tv_sec = 0;
+ curtime.tv_usec += 1000000L;
+ }
+
+ break;
}
- silc_mutex_unlock(schedule->lock);
+ /* Save the timeout */
+ if (task) {
+ schedule->timeout = curtime;
+ schedule->has_timeout = TRUE;
+ SILC_LOG_DEBUG(("timeout: sec=%d, usec=%d", schedule->timeout.tv_sec,
+ schedule->timeout.tv_usec));
+ }
}
-/* Executes tasks matching the file descriptor set by select(). The task
- remains on the task queue after execution. Invalid tasks are removed
- here from the task queue. This macro is used by silc_schedule function.
- We don't have to care about the tasks priority here because the tasks
- are sorted in their priority order already at the registration phase. */
-/* This must be called holding the schedule->lock and the
- schedule->fd_queue->lock. */
-
-#define SILC_SCHEDULE_RUN_TASKS \
-do { \
- queue = schedule->fd_queue; \
- if (queue && queue->valid == TRUE && queue->task) { \
- task = queue->task; \
- \
- /* Walk thorugh all tasks in the particular task queue and \
- execute the callback functions of those tasks matching the \
- fd set by select(). */ \
- while(1) { \
- /* Validity of the task is checked always before and after \
- execution beacuse the task might have been unregistered \
- in the callback function, ie. it is not valid anymore. */ \
- \
- if (task->valid) { \
- /* Task ready for reading */ \
- if ((FD_ISSET(task->fd, &schedule->in)) && \
- (task->iomask & (1L << SILC_TASK_READ))) { \
- silc_mutex_unlock(queue->lock); \
- silc_mutex_unlock(schedule->lock); \
- task->callback(queue, SILC_TASK_READ, task->context, task->fd); \
- silc_mutex_lock(schedule->lock); \
- silc_mutex_lock(queue->lock); \
- is_run = TRUE; \
- } \
- } \
- \
- if (task->valid) { \
- /* Task ready for writing */ \
- if ((FD_ISSET(task->fd, &schedule->out)) && \
- (task->iomask & (1L << SILC_TASK_WRITE))) { \
- silc_mutex_unlock(queue->lock); \
- silc_mutex_unlock(schedule->lock); \
- task->callback(queue, SILC_TASK_WRITE, task->context, task->fd); \
- silc_mutex_lock(schedule->lock); \
- silc_mutex_lock(queue->lock); \
- is_run = TRUE; \
- } \
- } \
- \
- if (!task->valid) { \
- /* Invalid (unregistered) tasks are removed from the \
- task queue. */ \
- if (queue->task == task->next) { \
- silc_task_remove(queue, task); \
- break; \
- } \
- \
- task = task->next; \
- silc_task_remove(queue, task->prev); \
- continue; \
- } \
- \
- /* Break if there isn't more tasks in the queue */ \
- if (queue->task == task->next) \
- break; \
- \
- task = task->next; \
- } \
- } \
-} while(0)
-
-/* Selects tasks to be listened by select(). These are the non-timeout
- tasks. This checks the scheduler's fd list. This macro is used by
- silc_schedule function. */
-/* This must be called holding schedule->lock. */
-
-#define SILC_SCHEDULE_SELECT_TASKS \
-do { \
- for (i = 0; i <= schedule->fd_list.last_fd; i++) { \
- if (schedule->fd_list.fd[i] != -1) { \
- \
- /* Set the max fd value for select() to listen */ \
- if (i > schedule->max_fd) \
- schedule->max_fd = i; \
- \
- /* Add tasks for reading */ \
- if ((schedule->fd_list.fd[i] & (1L << SILC_TASK_READ))) \
- FD_SET(i, &schedule->in); \
- \
- /* Add tasks for writing */ \
- if ((schedule->fd_list.fd[i] & (1L << SILC_TASK_WRITE))) \
- FD_SET(i, &schedule->out); \
- } \
- } \
-} while(0)
-
-/* Executes all tasks whose timeout has expired. The task is removed from
- the task queue after the callback function has returned. Also, invalid
- tasks are removed here. The current time must be get before calling this
- macro. This macro is used by silc_schedule function. We don't have to
- care about priorities because tasks are already sorted in their priority
- order at the registration phase. */
-/* This must be called with holding the schedule->lock and the
- schedule->timeout_queue->lock */
-
-#define SILC_SCHEDULE_RUN_TIMEOUT_TASKS \
-do { \
- queue = schedule->timeout_queue; \
- if (queue && queue->valid == TRUE && queue->task) { \
- task = queue->task; \
- \
- /* Walk thorugh all tasks in the particular task queue \
- and run all the expired tasks. */ \
- while(1) { \
- /* Execute the task if the timeout has expired */ \
- if (silc_task_timeout_compare(&task->timeout, &curtime)) { \
- \
- /* Task ready for reading */ \
- if (task->valid) { \
- if ((task->iomask & (1L << SILC_TASK_READ))) { \
- silc_mutex_unlock(queue->lock); \
- silc_mutex_unlock(schedule->lock); \
- task->callback(queue, SILC_TASK_READ, \
- task->context, task->fd); \
- silc_mutex_lock(schedule->lock); \
- silc_mutex_lock(queue->lock); \
- } \
- } \
- \
- /* Task ready for writing */ \
- if (task->valid) { \
- if ((task->iomask & (1L << SILC_TASK_WRITE))) { \
- silc_mutex_unlock(queue->lock); \
- silc_mutex_unlock(schedule->lock); \
- task->callback(queue, SILC_TASK_WRITE, \
- task->context, task->fd); \
- silc_mutex_lock(schedule->lock); \
- silc_mutex_lock(queue->lock); \
- } \
- } \
- \
- /* Break if there isn't more tasks in the queue */ \
- if (queue->task == task->next) { \
- /* Remove the task from queue */ \
- silc_task_remove(queue, task); \
- break; \
- } \
- \
- task = task->next; \
- \
- /* Remove the task from queue */ \
- silc_task_remove(queue, task->prev); \
- } else { \
- /* The timeout hasn't expired, check for next one */ \
- \
- /* Break if there isn't more tasks in the queue */ \
- if (queue->task == task->next) \
- break; \
- \
- task = task->next; \
- } \
- } \
- } \
-} while(0)
-
-/* Calculates next timeout for select(). This is the timeout value
- when at earliest some of the timeout tasks expire. If this is in the
- past, they will be run now. This macro is used by the silc_schedule
- function. */
-/* This must be called with holding the schedule->lock and the
- schedule->timeout_queue->lock */
-
-#define SILC_SCHEDULE_SELECT_TIMEOUT \
-do { \
- if (schedule->timeout_queue && schedule->timeout_queue->valid == TRUE) { \
- queue = schedule->timeout_queue; \
- task = NULL; \
- \
- /* Get the current time */ \
- silc_gettimeofday(&curtime); \
- schedule->timeout = NULL; \
- \
- /* First task in the task queue has always the smallest timeout. */ \
- task = queue->task; \
- while(1) { \
- if (task && task->valid == TRUE) { \
- \
- /* If the timeout is in past, we will run the task and all other \
- timeout tasks from the past. */ \
- if (silc_task_timeout_compare(&task->timeout, &curtime)) { \
- SILC_SCHEDULE_RUN_TIMEOUT_TASKS; \
- \
- /* The task(s) has expired and doesn't exist on the task queue \
- anymore. We continue with new timeout. */ \
- queue = schedule->timeout_queue; \
- task = queue->task; \
- if (task == NULL || task->valid == FALSE) \
- break; \
- goto cont; \
- } else { \
- cont: \
- /* Calculate the next timeout for select() */ \
- queue->timeout.tv_sec = task->timeout.tv_sec - curtime.tv_sec; \
- queue->timeout.tv_usec = task->timeout.tv_usec - curtime.tv_usec; \
- if (queue->timeout.tv_sec < 0) \
- queue->timeout.tv_sec = 0; \
- \
- /* We wouldn't want to go under zero, check for it. */ \
- if (queue->timeout.tv_usec < 0) { \
- queue->timeout.tv_sec -= 1; \
- if (queue->timeout.tv_sec < 0) \
- queue->timeout.tv_sec = 0; \
- queue->timeout.tv_usec += 1000000L; \
- } \
- } \
- /* We've got the timeout value */ \
- break; \
- } else { \
- /* Task is not valid, remove it and try next one. */ \
- silc_task_remove(queue, task); \
- task = queue->task; \
- if (queue->task == NULL) \
- break; \
- } \
- } \
- /* Save the timeout */ \
- if (task) \
- schedule->timeout = &queue->timeout; \
- } \
-} while(0)
-
-/* Execute generic tasks. These are executed only and only if for the
- specific fd there wasn't other non-timeout tasks. This checks the earlier
- set fd list, thus the generic tasks apply to all specified fd's. All the
- generic tasks are executed at once. */
-/* This must be called holding the schedule->lock and the
- schedule->generic_queue->lock. */
-
-#define SILC_SCHEDULE_RUN_GENERIC_TASKS \
-do { \
- if (is_run == FALSE) { \
- SILC_LOG_DEBUG(("Running generic tasks")); \
- for (i = 0; i <= schedule->fd_list.last_fd; i++) \
- if (schedule->fd_list.fd[i] != -1) { \
- \
- /* Check whether this fd is select()ed. */ \
- if ((FD_ISSET(i, &schedule->in)) || (FD_ISSET(i, &schedule->out))) { \
- \
- /* It was selected. Now find the tasks from task queue and execute \
- all generic tasks. */ \
- if (schedule->generic_queue && schedule->generic_queue->valid) { \
- queue = schedule->generic_queue; \
- \
- if (!queue->task) \
- break; \
- \
- task = queue->task; \
- \
- while(1) { \
- /* Validity of the task is checked always before and after \
- execution beacuse the task might have been unregistered \
- in the callback function, ie. it is not valid anymore. */ \
- \
- if (task->valid && schedule->fd_list.fd[i] != -1) { \
- /* Task ready for reading */ \
- if ((schedule->fd_list.fd[i] & (1L << SILC_TASK_READ))) { \
- silc_mutex_unlock(queue->lock); \
- silc_mutex_unlock(schedule->lock); \
- task->callback(queue, SILC_TASK_READ, \
- task->context, i); \
- silc_mutex_lock(schedule->lock); \
- silc_mutex_lock(queue->lock); \
- } \
- } \
- \
- if (task->valid && schedule->fd_list.fd[i] != -1) { \
- /* Task ready for writing */ \
- if ((schedule->fd_list.fd[i] & (1L << SILC_TASK_WRITE))) { \
- silc_mutex_unlock(queue->lock); \
- silc_mutex_unlock(schedule->lock); \
- task->callback(queue, SILC_TASK_WRITE, \
- task->context, i); \
- silc_mutex_lock(schedule->lock); \
- silc_mutex_lock(queue->lock); \
- } \
- } \
- \
- if (!task->valid) { \
- /* Invalid (unregistered) tasks are removed from the \
- task queue. */ \
- if (queue->task == task->next) { \
- silc_task_remove(queue, task); \
- break; \
- } \
- \
- task = task->next; \
- silc_task_remove(queue, task->prev); \
- continue; \
- } \
- \
- /* Break if there isn't more tasks in the queue */ \
- if (queue->task == task->next) \
- break; \
- \
- task = task->next; \
- } \
- } \
- } \
- } \
- } \
-} while(0)
+/* Runs the scheduler once and then returns. */
bool silc_schedule_one(SilcSchedule schedule, int timeout_usecs)
{
struct timeval timeout;
- int is_run, i;
- SilcTask task;
- SilcTaskQueue queue;
- struct timeval curtime;
int ret;
SILC_LOG_DEBUG(("In scheduler loop"));
if (!schedule->is_locked)
- silc_mutex_lock(schedule->lock);
+ SILC_SCHEDULE_LOCK(schedule);
+
+ /* Deliver signals if any has been set to be called */
+ if (schedule->signal_tasks) {
+ SILC_SCHEDULE_UNLOCK(schedule);
+ schedule_ops.signals_call(schedule, schedule->internal);
+ schedule->signal_tasks = FALSE;
+ SILC_SCHEDULE_LOCK(schedule);
+ }
- /* If the task queues aren't initialized or we aren't valid anymore
- we will return */
- if ((!schedule->fd_queue && !schedule->timeout_queue
- && !schedule->generic_queue) || schedule->valid == FALSE) {
+ /* Check if scheduler is valid */
+ if (schedule->valid == FALSE) {
SILC_LOG_DEBUG(("Scheduler not valid anymore, exiting"));
+ if (!schedule->is_locked)
+ SILC_SCHEDULE_UNLOCK(schedule);
return FALSE;
}
- /* Clear everything */
- FD_ZERO(&schedule->in);
- FD_ZERO(&schedule->out);
- schedule->max_fd = -1;
- is_run = FALSE;
+ /* Calculate next timeout for silc_select(). This is the timeout value
+ when at earliest some of the timeout tasks expire. This may dispatch
+ already expired timeouts. */
+ silc_schedule_select_timeout(schedule);
- /* Calculate next timeout for silc_select(). This is the timeout value
- when at earliest some of the timeout tasks expire. */
- silc_mutex_lock(schedule->timeout_queue->lock);
- SILC_SCHEDULE_SELECT_TIMEOUT;
- silc_mutex_unlock(schedule->timeout_queue->lock);
-
- /* Add the file descriptors to the fd sets. These are the non-timeout
- tasks. The silc_select() listens to these file descriptors. */
- SILC_SCHEDULE_SELECT_TASKS;
-
- if (schedule->max_fd == -1 && !schedule->timeout)
+ /* Check if scheduler is valid */
+ if (schedule->valid == FALSE) {
+ SILC_LOG_DEBUG(("Scheduler not valid anymore, exiting"));
+ if (!schedule->is_locked)
+ SILC_SCHEDULE_UNLOCK(schedule);
return FALSE;
-
- if (schedule->timeout) {
- SILC_LOG_DEBUG(("timeout: sec=%d, usec=%d", schedule->timeout->tv_sec,
- schedule->timeout->tv_usec));
}
if (timeout_usecs >= 0) {
timeout.tv_sec = 0;
timeout.tv_usec = timeout_usecs;
- schedule->timeout = &timeout;
+ schedule->timeout = timeout;
+ schedule->has_timeout = TRUE;
}
- silc_mutex_unlock(schedule->lock);
-
- /* This is the main select(). The program blocks here until some
+ /* This is the main silc_select(). The program blocks here until some
of the selected file descriptors change status or the selected
timeout expires. */
SILC_LOG_DEBUG(("Select"));
- ret = silc_select(schedule->max_fd + 1, &schedule->in,
- &schedule->out, 0, schedule->timeout);
-
- silc_mutex_lock(schedule->lock);
+ ret = schedule_ops.select(schedule, schedule->internal);
switch (ret) {
case -1:
case 0:
/* Timeout */
SILC_LOG_DEBUG(("Running timeout tasks"));
- silc_mutex_lock(schedule->timeout_queue->lock);
- silc_gettimeofday(&curtime);
- SILC_SCHEDULE_RUN_TIMEOUT_TASKS;
- silc_mutex_unlock(schedule->timeout_queue->lock);
+ silc_schedule_dispatch_timeout(schedule, FALSE);
break;
default:
/* There is some data available now */
- SILC_LOG_DEBUG(("Running non-timeout tasks"));
- silc_mutex_lock(schedule->fd_queue->lock);
- SILC_SCHEDULE_RUN_TASKS;
- silc_mutex_unlock(schedule->fd_queue->lock);
-
- silc_mutex_lock(schedule->generic_queue->lock);
- SILC_SCHEDULE_RUN_GENERIC_TASKS;
- silc_mutex_unlock(schedule->generic_queue->lock);
+ SILC_LOG_DEBUG(("Running fd tasks"));
+ silc_schedule_dispatch_fd(schedule);
break;
}
if (!schedule->is_locked)
- silc_mutex_unlock(schedule->lock);
+ SILC_SCHEDULE_UNLOCK(schedule);
return TRUE;
}
return;
}
- silc_mutex_lock(schedule->lock);
+ SILC_SCHEDULE_LOCK(schedule);
schedule->is_locked = TRUE;
/* Start the scheduler loop */
- while (silc_schedule_one(schedule, -1))
+ while (silc_schedule_one(schedule, -1))
;
- silc_mutex_unlock(schedule->lock);
+ SILC_SCHEDULE_UNLOCK(schedule);
}
/* Wakes up the scheduler. This is used only in multi-threaded
{
#ifdef SILC_THREADS
SILC_LOG_DEBUG(("Wakeup scheduler"));
- silc_mutex_lock(schedule->lock);
- silc_schedule_wakeup_internal(schedule->wakeup);
- silc_mutex_unlock(schedule->lock);
+ SILC_SCHEDULE_LOCK(schedule);
+ schedule_ops.wakeup(schedule, schedule->internal);
+ SILC_SCHEDULE_UNLOCK(schedule);
#endif
}
+
+/* Returns the application specific context that was saved into the
+ scheduler in silc_schedule_init function. The context is also
+ returned to application in task callback functions, but this function
+ may be used to get it as well if needed. */
+
+void *silc_schedule_get_context(SilcSchedule schedule)
+{
+ return schedule->app_context;
+}
+
+/* Add new task to the scheduler */
+
+SilcTask silc_schedule_task_add(SilcSchedule schedule, SilcUInt32 fd,
+ SilcTaskCallback callback, void *context,
+ long seconds, long useconds,
+ SilcTaskType type)
+{
+ SilcTask task = NULL;
+
+ if (!schedule->valid)
+ return NULL;
+
+ SILC_SCHEDULE_LOCK(schedule);
+
+ if (type == SILC_TASK_TIMEOUT) {
+ SilcTaskTimeout tmp, prev, ttask = silc_calloc(1, sizeof(*ttask));
+ if (!ttask)
+ goto out;
+
+ SILC_LOG_DEBUG(("Registering new timeout task %p", ttask));
+
+ ttask->header.type = 1;
+ ttask->header.callback = callback;
+ ttask->header.context = context;
+ ttask->header.valid = TRUE;
+
+ /* Add timeout */
+ if ((seconds + useconds) > 0) {
+ silc_gettimeofday(&ttask->timeout);
+ ttask->timeout.tv_sec += seconds + (useconds / 1000000L);
+ ttask->timeout.tv_usec += (useconds % 1000000L);
+ if (ttask->timeout.tv_usec > 999999L) {
+ ttask->timeout.tv_sec += 1;
+ ttask->timeout.tv_usec -= 1000000L;
+ }
+ }
+
+ /* Add task to correct spot so that the first task in the list has
+ the earliest timeout. */
+ silc_list_start(schedule->timeout_queue);
+ prev = NULL;
+ while ((tmp = silc_list_get(schedule->timeout_queue)) != SILC_LIST_END) {
+ /* If we have shorter timeout, we have found our spot */
+ if (silc_compare_timeval(&ttask->timeout, &tmp->timeout)) {
+ silc_list_insert(schedule->timeout_queue, prev, ttask);
+ break;
+ }
+ prev = tmp;
+ }
+ if (!tmp)
+ silc_list_add(schedule->timeout_queue, ttask);
+
+ task = (SilcTask)ttask;
+ } else {
+ /* Check if fd is already added */
+ if (silc_hash_table_find(schedule->fd_queue, SILC_32_TO_PTR(fd),
+ NULL, NULL))
+ goto out;
+
+ /* Check max tasks */
+ if (schedule->max_tasks > 0 &&
+ silc_hash_table_count(schedule->fd_queue) >= schedule->max_tasks) {
+ SILC_LOG_WARNING(("Scheduler task limit reached: cannot add new task"));
+ goto out;
+ }
+
+ SilcTaskFd ftask = silc_calloc(1, sizeof(*ftask));
+ if (!ftask)
+ goto out;
+
+ SILC_LOG_DEBUG(("Registering new fd task %p fd=%d", ftask, fd));
+
+ ftask->header.type = 0;
+ ftask->header.callback = callback;
+ ftask->header.context = context;
+ ftask->header.valid = TRUE;
+ ftask->events = SILC_TASK_READ;
+ ftask->fd = fd;
+
+ /* Add task */
+ silc_hash_table_add(schedule->fd_queue, SILC_32_TO_PTR(fd), ftask);
+
+ task = (SilcTask)ftask;
+ }
+
+ out:
+ SILC_SCHEDULE_UNLOCK(schedule);
+ return task;
+}
+
+/* Invalidates task */
+
+void silc_schedule_task_del(SilcSchedule schedule, SilcTask task)
+{
+ if (task == SILC_ALL_TASKS) {
+ SilcTask task;
+ SilcHashTableList htl;
+
+ SILC_LOG_DEBUG(("Unregister all tasks"));
+
+ SILC_SCHEDULE_LOCK(schedule);
+
+ /* Delete from fd queue */
+ silc_hash_table_list(schedule->fd_queue, &htl);
+ while (silc_hash_table_get(&htl, NULL, (void **)&task))
+ task->valid = FALSE;
+ silc_hash_table_list_reset(&htl);
+
+ /* Delete from timeout queue */
+ silc_list_start(schedule->timeout_queue);
+ while ((task = (SilcTask)silc_list_get(schedule->timeout_queue))
+ != SILC_LIST_END)
+ task->valid = FALSE;
+
+ SILC_SCHEDULE_UNLOCK(schedule);
+ return;
+ }
+
+ SILC_LOG_DEBUG(("Unregistering task %p", task));
+ SILC_SCHEDULE_LOCK(schedule);
+ task->valid = FALSE;
+ SILC_SCHEDULE_UNLOCK(schedule);
+}
+
+/* Invalidate task by fd */
+
+void silc_schedule_task_del_by_fd(SilcSchedule schedule, SilcUInt32 fd)
+{
+ SilcTask task;
+
+ SILC_LOG_DEBUG(("Unregister task by fd %d", fd));
+
+ SILC_SCHEDULE_LOCK(schedule);
+
+ /* fd is unique, so there is only one task with this fd in the table */
+ if (silc_hash_table_find(schedule->fd_queue, SILC_32_TO_PTR(fd), NULL,
+ (void **)&task))
+ task->valid = FALSE;
+
+ SILC_SCHEDULE_UNLOCK(schedule);
+}
+
+/* Invalidate task by task callback. */
+
+void silc_schedule_task_del_by_callback(SilcSchedule schedule,
+ SilcTaskCallback callback)
+{
+ SilcTask task;
+ SilcHashTableList htl;
+
+ SILC_LOG_DEBUG(("Unregister task by callback"));
+
+ SILC_SCHEDULE_LOCK(schedule);
+
+ /* Delete from fd queue */
+ silc_hash_table_list(schedule->fd_queue, &htl);
+ while (silc_hash_table_get(&htl, NULL, (void **)&task)) {
+ if (task->callback == callback)
+ task->valid = FALSE;
+ }
+ silc_hash_table_list_reset(&htl);
+
+ /* Delete from timeout queue */
+ silc_list_start(schedule->timeout_queue);
+ while ((task = (SilcTask)silc_list_get(schedule->timeout_queue))
+ != SILC_LIST_END) {
+ if (task->callback == callback)
+ task->valid = FALSE;
+ }
+
+ SILC_SCHEDULE_UNLOCK(schedule);
+}
+
+/* Invalidate task by context. */
+
+void silc_schedule_task_del_by_context(SilcSchedule schedule, void *context)
+{
+ SilcTask task;
+ SilcHashTableList htl;
+
+ SILC_LOG_DEBUG(("Unregister task by context"));
+
+ SILC_SCHEDULE_LOCK(schedule);
+
+ /* Delete from fd queue */
+ silc_hash_table_list(schedule->fd_queue, &htl);
+ while (silc_hash_table_get(&htl, NULL, (void **)&task)) {
+ if (task->context == context)
+ task->valid = FALSE;
+ }
+ silc_hash_table_list_reset(&htl);
+
+ /* Delete from timeout queue */
+ silc_list_start(schedule->timeout_queue);
+ while ((task = (SilcTask)silc_list_get(schedule->timeout_queue))
+ != SILC_LIST_END) {
+ if (task->context == context)
+ task->valid = FALSE;
+ }
+
+ SILC_SCHEDULE_UNLOCK(schedule);
+}
+
+/* Invalidate task by all */
+
+void silc_schedule_task_del_by_all(SilcSchedule schedule, int fd,
+ SilcTaskCallback callback, void *context)
+{
+ SilcTask task;
+
+ SILC_LOG_DEBUG(("Unregister task by fd, callback and context"));
+
+ /* For fd task, callback and context is irrelevant as fd is unique */
+ if (fd)
+ silc_schedule_task_del_by_fd(schedule, fd);
+
+ SILC_SCHEDULE_LOCK(schedule);
+
+ /* Delete from timeout queue */
+ silc_list_start(schedule->timeout_queue);
+ while ((task = (SilcTask)silc_list_get(schedule->timeout_queue))
+ != SILC_LIST_END) {
+ if (task->callback == callback && task->context == context)
+ task->valid = FALSE;
+ }
+
+ SILC_SCHEDULE_UNLOCK(schedule);
+}
+
+/* Removes task from the scheduler. This must be called with scheduler
+ locked. */
+
+static void silc_schedule_task_remove(SilcSchedule schedule, SilcTask task)
+{
+ SilcTaskFd ftask;
+ SilcTaskTimeout ttask;
+
+ if (task == SILC_ALL_TASKS) {
+ SilcTask task;
+ SilcHashTableList htl;
+ SilcUInt32 fd;
+
+ /* Delete from fd queue */
+ silc_hash_table_list(schedule->fd_queue, &htl);
+ while (silc_hash_table_get(&htl, (void **)&fd, (void **)&task))
+ silc_hash_table_del(schedule->fd_queue, SILC_32_TO_PTR(fd));
+ silc_hash_table_list_reset(&htl);
+
+ /* Delete from timeout queue */
+ silc_list_start(schedule->timeout_queue);
+ while ((task = (SilcTask)silc_list_get(schedule->timeout_queue))
+ != SILC_LIST_END) {
+ silc_list_del(schedule->timeout_queue, task);
+ silc_free(task);
+ }
+
+ return;
+ }
+
+ /* Delete from timeout queue */
+ if (task->type == 1) {
+ silc_list_start(schedule->timeout_queue);
+ while ((ttask = silc_list_get(schedule->timeout_queue)) != SILC_LIST_END) {
+ if (ttask == (SilcTaskTimeout)task) {
+ silc_list_del(schedule->timeout_queue, ttask);
+ silc_free(ttask);
+ break;
+ }
+ }
+
+ return;
+ }
+
+ /* Delete from fd queue */
+ ftask = (SilcTaskFd)task;
+ silc_hash_table_del(schedule->fd_queue, SILC_32_TO_PTR(ftask->fd));
+}
+
+/* Sets a file descriptor to be listened by scheduler. One can call this
+ directly if wanted. This can be called multiple times for one file
+ descriptor to set different iomasks. */
+
+void silc_schedule_set_listen_fd(SilcSchedule schedule, SilcUInt32 fd,
+ SilcTaskEvent mask, bool send_events)
+{
+ SilcTaskFd task;
+
+ if (!schedule->valid)
+ return;
+
+ SILC_SCHEDULE_LOCK(schedule);
+
+ if (silc_hash_table_find(schedule->fd_queue, SILC_32_TO_PTR(fd),
+ NULL, (void **)&task)) {
+ task->events = mask;
+ if (send_events) {
+ task->revents = mask;
+ silc_schedule_dispatch_fd(schedule);
+ }
+ }
+
+ SILC_SCHEDULE_UNLOCK(schedule);
+}
+
+/* Removes a file descriptor from listen list. */
+
+void silc_schedule_unset_listen_fd(SilcSchedule schedule, SilcUInt32 fd)
+{
+ silc_schedule_set_listen_fd(schedule, fd, 0, FALSE);
+}
+
+/* Register a new signal */
+
+void silc_schedule_signal_register(SilcSchedule schedule, SilcUInt32 signal,
+ SilcTaskCallback callback, void *context)
+{
+ schedule_ops.signal_register(schedule, schedule->internal, signal,
+ callback, context);
+}
+
+/* Unregister a new signal */
+
+void silc_schedule_signal_unregister(SilcSchedule schedule, SilcUInt32 signal,
+ SilcTaskCallback callback, void *context)
+{
+ schedule_ops.signal_unregister(schedule, schedule->internal, signal,
+ callback, context);
+}
+
+/* Call signal indicated by `signal'. */
+
+void silc_schedule_signal_call(SilcSchedule schedule, SilcUInt32 signal)
+{
+ /* Mark that signals needs to be delivered later. */
+ schedule_ops.signal_call(schedule, schedule->internal, signal);
+ schedule->signal_tasks = TRUE;
+}