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|
/*
* litmus.c -- Implementation of the LITMUS syscalls,
* the LITMUS intialization code,
* and the procfs interface..
*/
#include <asm/uaccess.h>
#include <linux/uaccess.h>
#include <linux/sysrq.h>
#include <linux/module.h>
#include <linux/proc_fs.h>
#include <linux/slab.h>
#include <litmus/litmus.h>
#include <linux/sched.h>
#include <litmus/sched_plugin.h>
#include <litmus/bheap.h>
#include <litmus/trace.h>
#include <litmus/rt_domain.h>
/* Number of RT tasks that exist in the system */
atomic_t rt_task_count = ATOMIC_INIT(0);
static DEFINE_SPINLOCK(task_transition_lock);
/* Give log messages sequential IDs. */
atomic_t __log_seq_no = ATOMIC_INIT(0);
/* current master CPU for handling timer IRQs */
atomic_t release_master_cpu = ATOMIC_INIT(NO_CPU);
static struct kmem_cache * bheap_node_cache;
extern struct kmem_cache * release_heap_cache;
struct bheap_node* bheap_node_alloc(int gfp_flags)
{
return kmem_cache_alloc(bheap_node_cache, gfp_flags);
}
void bheap_node_free(struct bheap_node* hn)
{
kmem_cache_free(bheap_node_cache, hn);
}
struct release_heap* release_heap_alloc(int gfp_flags);
void release_heap_free(struct release_heap* rh);
/*
* sys_set_task_rt_param
* @pid: Pid of the task which scheduling parameters must be changed
* @param: New real-time extension parameters such as the execution cost and
* period
* Syscall for manipulating with task rt extension params
* Returns EFAULT if param is NULL.
* ESRCH if pid is not corrsponding
* to a valid task.
* EINVAL if either period or execution cost is <=0
* EPERM if pid is a real-time task
* 0 if success
*
* Only non-real-time tasks may be configured with this system call
* to avoid races with the scheduler. In practice, this means that a
* task's parameters must be set _before_ calling sys_prepare_rt_task()
*
* find_task_by_vpid() assumes that we are in the same namespace of the
* target.
*/
asmlinkage long sys_set_rt_task_param(pid_t pid, struct rt_task __user * param)
{
struct rt_task tp;
struct task_struct *target;
int retval = -EINVAL;
printk("Setting up rt task parameters for process %d.\n", pid);
if (pid < 0 || param == 0) {
goto out;
}
if (copy_from_user(&tp, param, sizeof(tp))) {
retval = -EFAULT;
goto out;
}
/* Task search and manipulation must be protected */
read_lock_irq(&tasklist_lock);
if (!(target = find_task_by_vpid(pid))) {
retval = -ESRCH;
goto out_unlock;
}
if (is_realtime(target)) {
/* The task is already a real-time task.
* We cannot not allow parameter changes at this point.
*/
retval = -EBUSY;
goto out_unlock;
}
if (tp.exec_cost <= 0)
goto out_unlock;
if (tp.period <= 0)
goto out_unlock;
if (!cpu_online(tp.cpu))
goto out_unlock;
if (tp.period < tp.exec_cost)
{
printk(KERN_INFO "litmus: real-time task %d rejected "
"because wcet > period\n", pid);
goto out_unlock;
}
target->rt_param.task_params = tp;
retval = 0;
out_unlock:
read_unlock_irq(&tasklist_lock);
out:
return retval;
}
/*
* Getter of task's RT params
* returns EINVAL if param or pid is NULL
* returns ESRCH if pid does not correspond to a valid task
* returns EFAULT if copying of parameters has failed.
*
* find_task_by_vpid() assumes that we are in the same namespace of the
* target.
*/
asmlinkage long sys_get_rt_task_param(pid_t pid, struct rt_task __user * param)
{
int retval = -EINVAL;
struct task_struct *source;
struct rt_task lp;
if (param == 0 || pid < 0)
goto out;
read_lock(&tasklist_lock);
if (!(source = find_task_by_vpid(pid))) {
retval = -ESRCH;
goto out_unlock;
}
lp = source->rt_param.task_params;
read_unlock(&tasklist_lock);
/* Do copying outside the lock */
retval =
copy_to_user(param, &lp, sizeof(lp)) ? -EFAULT : 0;
return retval;
out_unlock:
read_unlock(&tasklist_lock);
out:
return retval;
}
/*
* This is the crucial function for periodic task implementation,
* It checks if a task is periodic, checks if such kind of sleep
* is permitted and calls plugin-specific sleep, which puts the
* task into a wait array.
* returns 0 on successful wakeup
* returns EPERM if current conditions do not permit such sleep
* returns EINVAL if current task is not able to go to sleep
*/
asmlinkage long sys_complete_job(void)
{
int retval = -EPERM;
if (!is_realtime(current)) {
retval = -EINVAL;
goto out;
}
/* Task with negative or zero period cannot sleep */
if (get_rt_period(current) <= 0) {
retval = -EINVAL;
goto out;
}
/* The plugin has to put the task into an
* appropriate queue and call schedule
*/
retval = litmus->complete_job();
out:
return retval;
}
/* This is an "improved" version of sys_complete_job that
* addresses the problem of unintentionally missing a job after
* an overrun.
*
* returns 0 on successful wakeup
* returns EPERM if current conditions do not permit such sleep
* returns EINVAL if current task is not able to go to sleep
*/
asmlinkage long sys_wait_for_job_release(unsigned int job)
{
int retval = -EPERM;
if (!is_realtime(current)) {
retval = -EINVAL;
goto out;
}
/* Task with negative or zero period cannot sleep */
if (get_rt_period(current) <= 0) {
retval = -EINVAL;
goto out;
}
retval = 0;
/* first wait until we have "reached" the desired job
*
* This implementation has at least two problems:
*
* 1) It doesn't gracefully handle the wrap around of
* job_no. Since LITMUS is a prototype, this is not much
* of a problem right now.
*
* 2) It is theoretically racy if a job release occurs
* between checking job_no and calling sleep_next_period().
* A proper solution would requiring adding another callback
* in the plugin structure and testing the condition with
* interrupts disabled.
*
* FIXME: At least problem 2 should be taken care of eventually.
*/
while (!retval && job > current->rt_param.job_params.job_no)
/* If the last job overran then job <= job_no and we
* don't send the task to sleep.
*/
retval = litmus->complete_job();
out:
return retval;
}
/* This is a helper syscall to query the current job sequence number.
*
* returns 0 on successful query
* returns EPERM if task is not a real-time task.
* returns EFAULT if &job is not a valid pointer.
*/
asmlinkage long sys_query_job_no(unsigned int __user *job)
{
int retval = -EPERM;
if (is_realtime(current))
retval = put_user(current->rt_param.job_params.job_no, job);
return retval;
}
/* sys_null_call() is only used for determining raw system call
* overheads (kernel entry, kernel exit). It has no useful side effects.
* If ts is non-NULL, then the current Feather-Trace time is recorded.
*/
asmlinkage long sys_null_call(cycles_t __user *ts)
{
long ret = 0;
cycles_t now;
if (ts) {
now = get_cycles();
ret = put_user(now, ts);
}
return ret;
}
/* p is a real-time task. Re-init its state as a best-effort task. */
static void reinit_litmus_state(struct task_struct* p, int restore)
{
struct rt_task user_config = {};
__user short *np_flag = NULL;
if (restore) {
/* Safe user-space provided configuration data. */
user_config = p->rt_param.task_params;
np_flag = p->rt_param.np_flag;
}
/* We probably should not be inheriting any task's priority
* at this point in time.
*/
WARN_ON(p->rt_param.inh_task);
/* We need to restore the priority of the task. */
// __setscheduler(p, p->rt_param.old_policy, p->rt_param.old_prio);
/* Cleanup everything else. */
memset(&p->rt_param, 0, sizeof(p->rt_param));
/* Restore preserved fields. */
if (restore) {
p->rt_param.task_params = user_config;
p->rt_param.np_flag = np_flag;
}
}
long litmus_admit_task(struct task_struct* tsk)
{
long retval = 0;
unsigned long flags;
BUG_ON(is_realtime(tsk));
if (get_rt_period(tsk) == 0 ||
get_exec_cost(tsk) > get_rt_period(tsk)) {
TRACE_TASK(tsk, "litmus admit: invalid task parameters "
"(%lu, %lu)\n",
get_exec_cost(tsk), get_rt_period(tsk));
retval = -EINVAL;
goto out;
}
if (!cpu_online(get_partition(tsk))) {
TRACE_TASK(tsk, "litmus admit: cpu %d is not online\n",
get_partition(tsk));
retval = -EINVAL;
goto out;
}
INIT_LIST_HEAD(&tsk_rt(tsk)->list);
/* avoid scheduler plugin changing underneath us */
spin_lock_irqsave(&task_transition_lock, flags);
/* allocate heap node for this task */
tsk_rt(tsk)->heap_node = bheap_node_alloc(GFP_ATOMIC);
tsk_rt(tsk)->rel_heap = release_heap_alloc(GFP_ATOMIC);
if (!tsk_rt(tsk)->heap_node || !tsk_rt(tsk)->rel_heap) {
printk(KERN_WARNING "litmus: no more heap node memory!?\n");
bheap_node_free(tsk_rt(tsk)->heap_node);
release_heap_free(tsk_rt(tsk)->rel_heap);
retval = -ENOMEM;
goto out_unlock;
} else {
bheap_node_init(&tsk_rt(tsk)->heap_node, tsk);
}
retval = litmus->admit_task(tsk);
if (!retval) {
sched_trace_task_name(tsk);
sched_trace_task_param(tsk);
atomic_inc(&rt_task_count);
}
out_unlock:
spin_unlock_irqrestore(&task_transition_lock, flags);
out:
return retval;
}
void litmus_exit_task(struct task_struct* tsk)
{
if (is_realtime(tsk)) {
sched_trace_task_completion(tsk, 1);
litmus->task_exit(tsk);
BUG_ON(bheap_node_in_heap(tsk_rt(tsk)->heap_node));
bheap_node_free(tsk_rt(tsk)->heap_node);
release_heap_free(tsk_rt(tsk)->rel_heap);
atomic_dec(&rt_task_count);
reinit_litmus_state(tsk, 1);
}
}
/* Switching a plugin in use is tricky.
* We must watch out that no real-time tasks exists
* (and that none is created in parallel) and that the plugin is not
* currently in use on any processor (in theory).
*
* For now, we don't enforce the second part since it is unlikely to cause
* any trouble by itself as long as we don't unload modules.
*/
int switch_sched_plugin(struct sched_plugin* plugin)
{
unsigned long flags;
int ret = 0;
BUG_ON(!plugin);
/* stop task transitions */
spin_lock_irqsave(&task_transition_lock, flags);
/* don't switch if there are active real-time tasks */
if (atomic_read(&rt_task_count) == 0) {
ret = litmus->deactivate_plugin();
if (0 != ret)
goto out;
ret = plugin->activate_plugin();
if (0 != ret) {
printk(KERN_INFO "Can't activate %s (%d).\n",
plugin->plugin_name, ret);
plugin = &linux_sched_plugin;
}
printk(KERN_INFO "Switching to LITMUS^RT plugin %s.\n", plugin->plugin_name);
litmus = plugin;
} else
ret = -EBUSY;
out:
spin_unlock_irqrestore(&task_transition_lock, flags);
return ret;
}
/* Called upon fork.
* p is the newly forked task.
*/
void litmus_fork(struct task_struct* p)
{
if (is_realtime(p))
/* clean out any litmus related state, don't preserve anything*/
reinit_litmus_state(p, 0);
}
/* Called upon execve().
* current is doing the exec.
* Don't let address space specific stuff leak.
*/
void litmus_exec(void)
{
struct task_struct* p = current;
if (is_realtime(p)) {
WARN_ON(p->rt_param.inh_task);
p->rt_param.np_flag = NULL;
}
}
void exit_litmus(struct task_struct *dead_tsk)
{
if (is_realtime(dead_tsk))
litmus_exit_task(dead_tsk);
}
#ifdef CONFIG_MAGIC_SYSRQ
int sys_kill(int pid, int sig);
static void sysrq_handle_kill_rt_tasks(int key, struct tty_struct *tty)
{
struct task_struct *t;
read_lock(&tasklist_lock);
for_each_process(t) {
if (is_realtime(t)) {
sys_kill(t->pid, SIGKILL);
}
}
read_unlock(&tasklist_lock);
}
static struct sysrq_key_op sysrq_kill_rt_tasks_op = {
.handler = sysrq_handle_kill_rt_tasks,
.help_msg = "quit-rt-tasks(X)",
.action_msg = "sent SIGKILL to all LITMUS^RT real-time tasks",
};
#endif
/* in litmus/sync.c */
int count_tasks_waiting_for_release(void);
static int proc_read_stats(char *page, char **start,
off_t off, int count,
int *eof, void *data)
{
int len;
len = snprintf(page, PAGE_SIZE,
"real-time tasks = %d\n"
"ready for release = %d\n",
atomic_read(&rt_task_count),
count_tasks_waiting_for_release());
return len;
}
static int proc_read_plugins(char *page, char **start,
off_t off, int count,
int *eof, void *data)
{
int len;
len = print_sched_plugins(page, PAGE_SIZE);
return len;
}
static int proc_read_curr(char *page, char **start,
off_t off, int count,
int *eof, void *data)
{
int len;
len = snprintf(page, PAGE_SIZE, "%s\n", litmus->plugin_name);
return len;
}
static int proc_write_curr(struct file *file,
const char *buffer,
unsigned long count,
void *data)
{
int len, ret;
char name[65];
struct sched_plugin* found;
if(count > 64)
len = 64;
else
len = count;
if(copy_from_user(name, buffer, len))
return -EFAULT;
name[len] = '\0';
/* chomp name */
if (len > 1 && name[len - 1] == '\n')
name[len - 1] = '\0';
found = find_sched_plugin(name);
if (found) {
ret = switch_sched_plugin(found);
if (ret != 0)
printk(KERN_INFO "Could not switch plugin: %d\n", ret);
} else
printk(KERN_INFO "Plugin '%s' is unknown.\n", name);
return len;
}
static int proc_read_release_master(char *page, char **start,
off_t off, int count,
int *eof, void *data)
{
int len, master;
master = atomic_read(&release_master_cpu);
if (master == NO_CPU)
len = snprintf(page, PAGE_SIZE, "NO_CPU\n");
else
len = snprintf(page, PAGE_SIZE, "%d\n", master);
return len;
}
static int proc_write_release_master(struct file *file,
const char *buffer,
unsigned long count,
void *data)
{
int cpu, err, online = 0;
char msg[64];
if (count > 63)
return -EINVAL;
if (copy_from_user(msg, buffer, count))
return -EFAULT;
/* terminate */
msg[count] = '\0';
/* chomp */
if (count > 1 && msg[count - 1] == '\n')
msg[count - 1] = '\0';
if (strcmp(msg, "NO_CPU") == 0) {
atomic_set(&release_master_cpu, NO_CPU);
return count;
} else {
err = sscanf(msg, "%d", &cpu);
if (err == 1 && cpu >= 0 && (online = cpu_online(cpu))) {
atomic_set(&release_master_cpu, cpu);
return count;
} else {
TRACE("invalid release master: '%s' "
"(err:%d cpu:%d online:%d)\n",
msg, err, cpu, online);
return -EINVAL;
}
}
}
static struct proc_dir_entry *litmus_dir = NULL,
*curr_file = NULL,
*stat_file = NULL,
*plugs_file = NULL,
*release_master_file = NULL;
static int __init init_litmus_proc(void)
{
litmus_dir = proc_mkdir("litmus", NULL);
if (!litmus_dir) {
printk(KERN_ERR "Could not allocate LITMUS^RT procfs entry.\n");
return -ENOMEM;
}
curr_file = create_proc_entry("active_plugin",
0644, litmus_dir);
if (!curr_file) {
printk(KERN_ERR "Could not allocate active_plugin "
"procfs entry.\n");
return -ENOMEM;
}
curr_file->read_proc = proc_read_curr;
curr_file->write_proc = proc_write_curr;
release_master_file = create_proc_entry("release_master",
0644, litmus_dir);
if (!release_master_file) {
printk(KERN_ERR "Could not allocate release_master "
"procfs entry.\n");
return -ENOMEM;
}
release_master_file->read_proc = proc_read_release_master;
release_master_file->write_proc = proc_write_release_master;
stat_file = create_proc_read_entry("stats", 0444, litmus_dir,
proc_read_stats, NULL);
plugs_file = create_proc_read_entry("plugins", 0444, litmus_dir,
proc_read_plugins, NULL);
return 0;
}
static void exit_litmus_proc(void)
{
if (plugs_file)
remove_proc_entry("plugins", litmus_dir);
if (stat_file)
remove_proc_entry("stats", litmus_dir);
if (curr_file)
remove_proc_entry("active_plugin", litmus_dir);
if (litmus_dir)
remove_proc_entry("litmus", NULL);
}
extern struct sched_plugin linux_sched_plugin;
static int __init _init_litmus(void)
{
/* Common initializers,
* mode change lock is used to enforce single mode change
* operation.
*/
printk("Starting LITMUS^RT kernel\n");
register_sched_plugin(&linux_sched_plugin);
bheap_node_cache = KMEM_CACHE(bheap_node, SLAB_PANIC);
release_heap_cache = KMEM_CACHE(release_heap, SLAB_PANIC);
#ifdef CONFIG_MAGIC_SYSRQ
/* offer some debugging help */
if (!register_sysrq_key('x', &sysrq_kill_rt_tasks_op))
printk("Registered kill rt tasks magic sysrq.\n");
else
printk("Could not register kill rt tasks magic sysrq.\n");
#endif
init_litmus_proc();
return 0;
}
static void _exit_litmus(void)
{
exit_litmus_proc();
kmem_cache_destroy(bheap_node_cache);
kmem_cache_destroy(release_heap_cache);
}
module_init(_init_litmus);
module_exit(_exit_litmus);
|