DTRACE_SCHED(4) | Device Drivers Manual | DTRACE_SCHED(4) |
dtrace_sched
— a
DTrace provider for tracing CPU scheduling events
sched:::change-pri
(struct
thread *, struct proc
*, uint8_t);
sched:::dequeue
(struct
thread *, struct proc
*, void *);
sched:::enqueue
(struct
thread *, struct proc
*, void *,
int);
sched:::lend-pri
(struct
thread *, struct proc
*, uint8_t,
struct thread *);
sched:::load-change
(int,
int);
sched:::off-cpu
(struct
thread *, struct proc
*);
sched:::on-cpu
();
sched:::preempt
();
sched:::remain-cpu
();
sched:::surrender
(struct
thread *, struct proc
*);
sched:::sleep
();
sched:::tick
(struct
thread *, struct proc
*);
sched:::wakeup
(struct
thread *, struct proc
*);
The DTrace sched
provider allows the
tracing of events related to CPU scheduling in the 4BSD and ULE
schedulers.
The
sched:::change-pri
()
probe fires when a thread's active scheduling priority is about to be
updated. The first two arguments are the thread whose priority is about to
be changed, and the corresponding process. The third argument is the new
absolute priority for the thread, while the current value is given by
args[0]->td_priority
. The
sched:::lend-pri
()
probe fires when the currently-running thread elevates the priority of
another thread via priority lending. The first two arguments are the thread
whose priority is about to be changed, and the corresponding process. The
third argument is the new absolute priority for the thread. The fourth
argument is the currently-running thread.
The
sched:::dequeue
()
probe fires immediately before a runnable thread is removed from a scheduler
run queue. This may occur when the thread is about to begin execution on a
CPU, or because the thread is being migrated to a different run queue. The
latter event may occur in several circumstances: the scheduler may be
attempting to rebalance load between multiple CPUs, the thread's scheduling
priority may have changed, or the thread's CPU affinity settings may have
changed. The first two arguments to
sched:::dequeue
() are the thread and corresponding
process. The third argument is currently always
NULL
. The
sched:::enqueue
()
probe fires when a runnable thread is about to be added to a scheduler run
queue. Its first two arguments are the thread and corresponding process. The
third argument is currently always NULL
. The fourth
argument is a boolean value that is non-zero if the thread is enqueued at
the beginning of its run queue slot, and zero if the thread is instead
enqueued at the end.
The
sched:::load-change
()
probe fires after the load of a thread queue is adjusted. The first argument
is the cpuid for the CPU associated with the thread queue, and the second
argument is the adjusted load of the thread queue, i.e., the number of
elements in the queue.
The
sched:::off-cpu
()
probe is triggered by the scheduler suspending execution of the
currently-running thread, and the
sched:::on-cpu
()
probe fires when the current thread has been selected to run on a CPU and is
about to begin or resume execution. The arguments to
sched:::off-cpu
() are the thread and corresponding
process selected to run following the currently-running thread. If these two
threads are the same, the sched:::remain-cpu
() probe
will fire instead.
The
sched:::surrender
()
probe fires when the scheduler is called upon to make a scheduling decision
by a thread running on a different CPU, via an interprocessor interrupt. The
arguments to this probe are the interrupted thread and its corresponding
process. This probe currently always fires in the context of the interrupted
thread.
The
sched:::preempt
()
probe will fire immediately before the currently-running thread is
preempted. When this occurs, the scheduler will select a new thread to run,
and one of the sched:::off-cpu
() or
sched:::remain-cpu
()
probes will subsequently fire, depending on whether or not the scheduler
selects the preempted thread.
The
sched:::sleep
()
probe fires immediately before the currently-running thread is about to
suspend execution and begin waiting for a condition to be met. The
sched:::wakeup
()
probe fires when a thread is set up to resume execution after having gone to
sleep. Its arguments are the thread being awoken, and the corresponding
process.
The
sched:::tick
()
fires before each scheduler clock tick. Its arguments are the
currently-running thread and its corresponding process.
The sched
provider probes use the kernel
types struct proc and struct
thread to represent processes and threads, respectively. These
structures have many fields and are defined in
sys/proc.h. In a probe body, the currently-running
thread can always be obtained with the curthread
global variable, which has type struct thread *. For
example, when a running thread is about to sleep, the
sched:::sleep
() probe fires in the context of that
thread, which can be accessed using curthread. The
curcpu global variable contains the cpuid of the CPU
on which the currently-running thread is executing.
The following script gives a breakdown of CPU utilization by process name:
sched:::on-cpu { self->ts = timestamp; } sched:::off-cpu /self->ts != 0/ { @[execname] = sum((timestamp - self->ts) / 1000); self->ts = 0; }
Here, DTrace stores a timestamp each time a thread is scheduled to run, and computes the time elapsed in microseconds when it is descheduled. The results are summed by process name.
This provider is not compatible with the
sched
provider found in Solaris. In particular, the
probe argument types are native FreeBSD types, and
the sched:::cpucaps-sleep
(),
sched:::cpucaps-wakeup
(),
sched:::schedctl-nopreempt
(),
sched:::schedctl-preempt
(), and
sched:::schedctl-yield
() probes are not available in
FreeBSD.
The sched:::lend-pri
() and
sched:::load-change
() probes are specific to
FreeBSD.
dtrace(1), sched_4bsd(4), sched_ule(4), SDT(9), sleepqueue(9)
The sched
provider first appeared in
FreeBSD 8.4 and 9.1.
This manual page was written by Mark Johnston <markj@FreeBSD.org>.
April 18, 2015 | Debian |