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/*
* Definition of the scheduler plugin interface.
*
*/
#ifndef _LINUX_RT_PARAM_H_
#define _LINUX_RT_PARAM_H_
/* Litmus time type. */
typedef unsigned long long lt_t;
static inline int lt_after(lt_t a, lt_t b)
{
return ((long long) b) - ((long long) a) < 0;
}
#define lt_before(a, b) lt_after(b, a)
static inline int lt_after_eq(lt_t a, lt_t b)
{
return ((long long) a) - ((long long) b) >= 0;
}
#define lt_before_eq(a, b) lt_after_eq(b, a)
/* different types of clients */
typedef enum {
RT_CLASS_HARD,
RT_CLASS_SOFT,
RT_CLASS_BEST_EFFORT
} task_class_t;
typedef enum {
NO_ENFORCEMENT, /* job may overrun unhindered */
QUANTUM_ENFORCEMENT, /* budgets are only checked on quantum boundaries */
PRECISE_ENFORCEMENT /* NOT IMPLEMENTED - enforced with hrtimers */
} budget_policy_t;
typedef long fpbuf_t;
typedef struct
{
fpbuf_t val;
} fp_t;
struct rt_task {
lt_t exec_cost;
lt_t period;
lt_t phase;
unsigned int cpu;
task_class_t cls;
budget_policy_t budget_policy; /* ignored by pfair */
/* AEDZL - feedback control parameters set by user */
fp_t a;
fp_t b;
};
/* The definition of the data that is shared between the kernel and real-time
* tasks via a shared page (see litmus/ctrldev.c).
*
* WARNING: User space can write to this, so don't trust
* the correctness of the fields!
*
* This servees two purposes: to enable efficient signaling
* of non-preemptive sections (user->kernel) and
* delayed preemptions (kernel->user), and to export
* some real-time relevant statistics such as preemption and
* migration data to user space. We can't use a device to export
* statistics because we want to avoid system call overhead when
* determining preemption/migration overheads).
*/
struct control_page {
/* Is the task currently in a non-preemptive section? */
int np_flag;
/* Should the task call into the kernel when it leaves
* its non-preemptive section? */
int delayed_preemption;
/* to be extended */
};
/* don't export internal data structures to user space (liblitmus) */
#ifdef __KERNEL__
struct _rt_domain;
struct bheap_node;
struct release_heap;
struct rt_job {
/* Time instant the the job was or will be released. */
lt_t release;
/* What is the current deadline? */
lt_t deadline;
/* How much service has this job received so far? */
lt_t exec_time;
#ifdef CONFIG_PLUGIN_EDZL
/* boolean indicating zero-laxity state. We will
set this flag explicitly at zero-laxity detection.
This makes priority comparison operations more
predictable since laxity varies with time */
int zero_laxity;
#endif
/* Which job is this. This is used to let user space
* specify which job to wait for, which is important if jobs
* overrun. If we just call sys_sleep_next_period() then we
* will unintentionally miss jobs after an overrun.
*
* Increase this sequence number when a job is released.
*/
unsigned int job_no;
};
struct pfair_param;
/* RT task parameters for scheduling extensions
* These parameters are inherited during clone and therefore must
* be explicitly set up before the task set is launched.
*/
struct rt_param {
/* is the task sleeping? */
unsigned int flags:8;
/* do we need to check for srp blocking? */
unsigned int srp_non_recurse:1;
/* is the task present? (true if it can be scheduled) */
unsigned int present:1;
/* user controlled parameters */
struct rt_task task_params;
/* timing parameters */
struct rt_job job_params;
#ifdef CONFIG_PLUGIN_EDZL
unsigned int zl_timer_armed:1;
/* used to trigger zero-laxity detection */
struct hrtimer zl_timer;
#ifdef CONFIG_PLUGIN_AEDZL
fp_t zl_util_est;
fp_t zl_accum_err;
#endif
#endif
/* task representing the current "inherited" task
* priority, assigned by inherit_priority and
* return priority in the scheduler plugins.
* could point to self if PI does not result in
* an increased task priority.
*/
struct task_struct* inh_task;
#ifdef CONFIG_NP_SECTION
/* For the FMLP under PSN-EDF, it is required to make the task
* non-preemptive from kernel space. In order not to interfere with
* user space, this counter indicates the kernel space np setting.
* kernel_np > 0 => task is non-preemptive
*/
unsigned int kernel_np;
#endif
/* This field can be used by plugins to store where the task
* is currently scheduled. It is the responsibility of the
* plugin to avoid race conditions.
*
* This used by GSN-EDF and PFAIR.
*/
volatile int scheduled_on;
/* Is the stack of the task currently in use? This is updated by
* the LITMUS core.
*
* Be careful to avoid deadlocks!
*/
volatile int stack_in_use;
/* This field can be used by plugins to store where the task
* is currently linked. It is the responsibility of the plugin
* to avoid race conditions.
*
* Used by GSN-EDF.
*/
volatile int linked_on;
/* PFAIR/PD^2 state. Allocated on demand. */
struct pfair_param* pfair;
/* Fields saved before BE->RT transition.
*/
int old_policy;
int old_prio;
/* ready queue for this task */
struct _rt_domain* domain;
/* heap element for this task
*
* Warning: Don't statically allocate this node. The heap
* implementation swaps these between tasks, thus after
* dequeuing from a heap you may end up with a different node
* then the one you had when enqueuing the task. For the same
* reason, don't obtain and store references to this node
* other than this pointer (which is updated by the heap
* implementation).
*/
struct bheap_node* heap_node;
struct release_heap* rel_heap;
/* Used by rt_domain to queue task in release list.
*/
struct list_head list;
/* Pointer to the page shared between userspace and kernel. */
struct control_page * ctrl_page;
};
/* Possible RT flags */
#define RT_F_RUNNING 0x00000000
#define RT_F_SLEEP 0x00000001
#define RT_F_EXIT_SEM 0x00000008
#endif
#endif
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