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#include <litmus/fdso.h>
#ifdef CONFIG_LITMUS_LOCKING
#include <litmus/sched_plugin.h>
#include <litmus/trace.h>
#include <litmus/litmus.h>
#ifdef CONFIG_LITMUS_DGL_SUPPORT
#include <linux/uaccess.h>
#endif
#if defined(CONFIG_LITMUS_AFFINITY_LOCKING) && defined(CONFIG_LITMUS_NVIDIA)
#include <litmus/gpu_affinity.h>
#endif
static int create_generic_lock(void** obj_ref, obj_type_t type, void* __user arg);
static int open_generic_lock(struct od_table_entry* entry, void* __user arg);
static int close_generic_lock(struct od_table_entry* entry);
static void destroy_generic_lock(obj_type_t type, void* sem);
struct fdso_ops generic_lock_ops = {
.create = create_generic_lock,
.open = open_generic_lock,
.close = close_generic_lock,
.destroy = destroy_generic_lock
};
static atomic_t lock_id_gen = ATOMIC_INIT(0);
static inline bool is_lock(struct od_table_entry* entry)
{
return entry->class == &generic_lock_ops;
}
static inline struct litmus_lock* get_lock(struct od_table_entry* entry)
{
BUG_ON(!is_lock(entry));
return (struct litmus_lock*) entry->obj->obj;
}
static int create_generic_lock(void** obj_ref, obj_type_t type, void* __user arg)
{
struct litmus_lock* lock;
int err;
err = litmus->allocate_lock(&lock, type, arg);
if (err == 0) {
#ifdef CONFIG_LITMUS_NESTED_LOCKING
lock->nest.lock = lock;
lock->nest.hp_waiter_eff_prio = NULL;
INIT_BINHEAP_NODE(&lock->nest.hp_binheap_node);
if(!lock->nest.hp_waiter_ptr) {
TRACE_CUR("BEWARE: hp_waiter_ptr should probably not be NULL in "
"most uses. (exception: IKGLP donors)\n");
}
#endif
lock->type = type;
lock->ident = atomic_inc_return(&lock_id_gen);
*obj_ref = lock;
}
return err;
}
static int open_generic_lock(struct od_table_entry* entry, void* __user arg)
{
struct litmus_lock* lock = get_lock(entry);
if (lock->ops->open)
return lock->ops->open(lock, arg);
else
return 0; /* default: any task can open it */
}
static int close_generic_lock(struct od_table_entry* entry)
{
struct litmus_lock* lock = get_lock(entry);
if (lock->ops->close)
return lock->ops->close(lock);
else
return 0; /* default: closing succeeds */
}
static void destroy_generic_lock(obj_type_t type, void* obj)
{
struct litmus_lock* lock = (struct litmus_lock*) obj;
lock->ops->deallocate(lock);
}
asmlinkage long sys_litmus_lock(int lock_od)
{
long err = -EINVAL;
struct od_table_entry* entry;
struct litmus_lock* l;
TS_LOCK_START;
entry = get_entry_for_od(lock_od);
if (entry && is_lock(entry)) {
l = get_lock(entry);
//TRACE_CUR("attempts to lock 0x%p\n", l);
TRACE_CUR("attempts to lock %d\n", l->ident);
err = l->ops->lock(l);
}
/* Note: task my have been suspended or preempted in between! Take
* this into account when computing overheads. */
TS_LOCK_END;
return err;
}
asmlinkage long sys_litmus_unlock(int lock_od)
{
long err = -EINVAL;
struct od_table_entry* entry;
struct litmus_lock* l;
TS_UNLOCK_START;
entry = get_entry_for_od(lock_od);
if (entry && is_lock(entry)) {
l = get_lock(entry);
//TRACE_CUR("attempts to unlock 0x%p\n", l);
TRACE_CUR("attempts to unlock %d\n", l->ident);
err = l->ops->unlock(l);
}
/* Note: task my have been preempted in between! Take this into
* account when computing overheads. */
TS_UNLOCK_END;
return err;
}
struct task_struct* __waitqueue_remove_first(wait_queue_head_t *wq)
{
wait_queue_t* q;
struct task_struct* t = NULL;
if (waitqueue_active(wq)) {
q = list_entry(wq->task_list.next,
wait_queue_t, task_list);
t = (struct task_struct*) q->private;
__remove_wait_queue(wq, q);
}
return(t);
}
#ifdef CONFIG_LITMUS_NESTED_LOCKING
void print_hp_waiters(struct binheap_node* n, int depth)
{
struct litmus_lock *l;
struct nested_info *nest;
char padding[81] = " ";
struct task_struct *hp = NULL;
struct task_struct *hp_eff = NULL;
struct task_struct *node_prio = NULL;
if(n == NULL) {
TRACE("+-> %p\n", NULL);
return;
}
nest = binheap_entry(n, struct nested_info, hp_binheap_node);
l = nest->lock;
if(depth*2 <= 80)
padding[depth*2] = '\0';
if(nest->hp_waiter_ptr && *(nest->hp_waiter_ptr)) {
hp = *(nest->hp_waiter_ptr);
if(tsk_rt(hp)->inh_task) {
hp_eff = tsk_rt(hp)->inh_task;
}
}
node_prio = nest->hp_waiter_eff_prio;
TRACE("%s+-> %s/%d [waiter = %s/%d] [waiter's inh = %s/%d] (lock = %d)\n",
padding,
(node_prio) ? node_prio->comm : "nil",
(node_prio) ? node_prio->pid : -1,
(hp) ? hp->comm : "nil",
(hp) ? hp->pid : -1,
(hp_eff) ? hp_eff->comm : "nil",
(hp_eff) ? hp_eff->pid : -1,
l->ident);
if(n->left) print_hp_waiters(n->left, depth+1);
if(n->right) print_hp_waiters(n->right, depth+1);
}
#endif
#ifdef CONFIG_LITMUS_DGL_SUPPORT
void select_next_lock(dgl_wait_state_t* dgl_wait /*, struct litmus_lock* prev_lock*/)
{
/*
We pick the next lock in reverse order. This causes inheritance propagation
from locks received earlier to flow in the same direction as regular nested
locking. This might make fine-grain DGL easier in the future.
*/
BUG_ON(tsk_rt(dgl_wait->task)->blocked_lock);
//WARN_ON(dgl_wait->locks[dgl_wait->last_primary] != prev_lock);
// note reverse order
for(dgl_wait->last_primary = dgl_wait->last_primary - 1;
dgl_wait->last_primary >= 0;
--(dgl_wait->last_primary)){
if(!dgl_wait->locks[dgl_wait->last_primary]->ops->is_owner(
dgl_wait->locks[dgl_wait->last_primary], dgl_wait->task)) {
tsk_rt(dgl_wait->task)->blocked_lock =
dgl_wait->locks[dgl_wait->last_primary];
mb();
TRACE_CUR("New blocked lock is %d\n",
dgl_wait->locks[dgl_wait->last_primary]->ident);
break;
}
}
}
int dgl_wake_up(wait_queue_t *wq_node, unsigned mode, int sync, void *key)
{
// should never be called.
BUG();
return 1;
}
void __waitqueue_dgl_remove_first(wait_queue_head_t *wq,
dgl_wait_state_t** dgl_wait,
struct task_struct **task)
{
wait_queue_t *q;
*dgl_wait = NULL;
*task = NULL;
if (waitqueue_active(wq)) {
q = list_entry(wq->task_list.next,
wait_queue_t, task_list);
if(q->func == dgl_wake_up) {
*dgl_wait = (dgl_wait_state_t*) q->private;
}
else {
*task = (struct task_struct*) q->private;
}
__remove_wait_queue(wq, q);
}
}
void init_dgl_waitqueue_entry(wait_queue_t *wq_node, dgl_wait_state_t* dgl_wait)
{
init_waitqueue_entry(wq_node, dgl_wait->task);
wq_node->private = dgl_wait;
wq_node->func = dgl_wake_up;
}
static long do_litmus_dgl_lock(dgl_wait_state_t *dgl_wait)
{
int i;
unsigned long irqflags; //, dummyflags;
raw_spinlock_t *dgl_lock = litmus->get_dgl_spinlock(dgl_wait->task);
BUG_ON(dgl_wait->task != current);
raw_spin_lock_irqsave(dgl_lock, irqflags);
dgl_wait->nr_remaining = dgl_wait->size;
TRACE_CUR("Locking DGL with size %d\n", dgl_wait->size);
// try to acquire each lock. enqueue (non-blocking) if it is unavailable.
for(i = 0; i < dgl_wait->size; ++i) {
struct litmus_lock *l = dgl_wait->locks[i];
// dgl_lock() must set task state to TASK_UNINTERRUPTIBLE if task blocks.
if(l->ops->dgl_lock(l, dgl_wait, &dgl_wait->wq_nodes[i])) {
--(dgl_wait->nr_remaining);
TRACE_CUR("Acquired lock %d immediatly.\n", l->ident);
}
}
if(dgl_wait->nr_remaining == 0) {
// acquired entire group immediatly
TRACE_CUR("Acquired all locks in DGL immediatly!\n");
}
else {
TRACE_CUR("As many as %d locks in DGL are pending. Suspending.\n",
dgl_wait->nr_remaining);
#if defined(CONFIG_LITMUS_AFFINITY_LOCKING) && defined(CONFIG_LITMUS_NVIDIA)
// KLUDGE: don't count this suspension as time in the critical gpu
// critical section
if(tsk_rt(dgl_wait->task)->held_gpus) {
tsk_rt(dgl_wait->task)->suspend_gpu_tracker_on_block = 1;
}
#endif
// note reverse order. see comments in select_next_lock for reason.
for(i = dgl_wait->size - 1; i >= 0; --i) {
struct litmus_lock *l = dgl_wait->locks[i];
if(!l->ops->is_owner(l, dgl_wait->task)) { // double-check to be thread safe
TRACE_CUR("Activating priority inheritance on lock %d\n",
l->ident);
TS_DGL_LOCK_SUSPEND;
l->ops->enable_priority(l, dgl_wait);
dgl_wait->last_primary = i;
TRACE_CUR("Suspending for lock %d\n", l->ident);
raw_spin_unlock_irqrestore(dgl_lock, irqflags); // free dgl_lock before suspending
schedule(); // suspend!!!
TS_DGL_LOCK_RESUME;
TRACE_CUR("Woken up from DGL suspension.\n");
goto all_acquired; // we should hold all locks when we wake up.
}
}
TRACE_CUR("Didn't have to suspend after all, but calling schedule() anyway.\n");
//BUG();
}
raw_spin_unlock_irqrestore(dgl_lock, irqflags);
all_acquired:
// FOR SANITY CHECK FOR TESTING
// for(i = 0; i < dgl_wait->size; ++i) {
// struct litmus_lock *l = dgl_wait->locks[i];
// BUG_ON(!l->ops->is_owner(l, dgl_wait->task));
// }
TRACE_CUR("Acquired entire DGL\n");
return 0;
}
static int supports_dgl(struct litmus_lock *l)
{
struct litmus_lock_ops* ops = l->ops;
return (ops->dgl_lock &&
ops->is_owner &&
ops->enable_priority);
}
asmlinkage long sys_litmus_dgl_lock(void* __user usr_dgl_ods, int dgl_size)
{
struct task_struct *t = current;
long err = -EINVAL;
int dgl_ods[MAX_DGL_SIZE];
int i;
dgl_wait_state_t dgl_wait_state; // lives on the stack until all resources in DGL are held.
if(dgl_size > MAX_DGL_SIZE || dgl_size < 1)
goto out;
if(!access_ok(VERIFY_READ, usr_dgl_ods, dgl_size*(sizeof(int))))
goto out;
if(__copy_from_user(&dgl_ods, usr_dgl_ods, dgl_size*(sizeof(int))))
goto out;
if (!is_realtime(t)) {
err = -EPERM;
goto out;
}
for(i = 0; i < dgl_size; ++i) {
struct od_table_entry *entry = get_entry_for_od(dgl_ods[i]);
if(entry && is_lock(entry)) {
dgl_wait_state.locks[i] = get_lock(entry);
if(!supports_dgl(dgl_wait_state.locks[i])) {
TRACE_CUR("Lock %d does not support all required DGL operations.\n",
dgl_wait_state.locks[i]->ident);
goto out;
}
}
else {
TRACE_CUR("Invalid lock identifier\n");
goto out;
}
}
dgl_wait_state.task = t;
dgl_wait_state.size = dgl_size;
TS_DGL_LOCK_START;
err = do_litmus_dgl_lock(&dgl_wait_state);
/* Note: task my have been suspended or preempted in between! Take
* this into account when computing overheads. */
TS_DGL_LOCK_END;
out:
return err;
}
static long do_litmus_dgl_unlock(struct litmus_lock* dgl_locks[], int dgl_size)
{
int i;
long err = 0;
TRACE_CUR("Unlocking a DGL of %d size\n", dgl_size);
for(i = dgl_size - 1; i >= 0; --i) { // unlock in reverse order
struct litmus_lock *l = dgl_locks[i];
long tmp_err;
TRACE_CUR("Unlocking lock %d of DGL.\n", l->ident);
tmp_err = l->ops->unlock(l);
if(tmp_err) {
TRACE_CUR("There was an error unlocking %d: %d.\n", l->ident, tmp_err);
err = tmp_err;
}
}
TRACE_CUR("DGL unlocked. err = %d\n", err);
return err;
}
asmlinkage long sys_litmus_dgl_unlock(void* __user usr_dgl_ods, int dgl_size)
{
long err = -EINVAL;
int dgl_ods[MAX_DGL_SIZE];
struct od_table_entry* entry;
int i;
struct litmus_lock* dgl_locks[MAX_DGL_SIZE];
if(dgl_size > MAX_DGL_SIZE || dgl_size < 1)
goto out;
if(!access_ok(VERIFY_READ, usr_dgl_ods, dgl_size*(sizeof(int))))
goto out;
if(__copy_from_user(&dgl_ods, usr_dgl_ods, dgl_size*(sizeof(int))))
goto out;
for(i = 0; i < dgl_size; ++i) {
entry = get_entry_for_od(dgl_ods[i]);
if(entry && is_lock(entry)) {
dgl_locks[i] = get_lock(entry);
if(!supports_dgl(dgl_locks[i])) {
TRACE_CUR("Lock %d does not support all required DGL operations.\n",
dgl_locks[i]->ident);
goto out;
}
}
else {
TRACE_CUR("Invalid lock identifier\n");
goto out;
}
}
TS_DGL_UNLOCK_START;
err = do_litmus_dgl_unlock(dgl_locks, dgl_size);
/* Note: task my have been suspended or preempted in between! Take
* this into account when computing overheads. */
TS_DGL_UNLOCK_END;
out:
return err;
}
#else // CONFIG_LITMUS_DGL_SUPPORT
asmlinkage long sys_litmus_dgl_lock(void* __user usr_dgl_ods, int dgl_size)
{
return -ENOSYS;
}
asmlinkage long sys_litmus_dgl_unlock(void* __user usr_dgl_ods, int dgl_size)
{
return -ENOSYS;
}
#endif
#else // CONFIG_LITMUS_LOCKING
struct fdso_ops generic_lock_ops = {};
asmlinkage long sys_litmus_lock(int sem_od)
{
return -ENOSYS;
}
asmlinkage long sys_litmus_unlock(int sem_od)
{
return -ENOSYS;
}
#endif
|