static int vperfctr_enable_control(struct vperfctr *perfctr, struct task_struct *tsk)
{
int err;
unsigned int next_cstatus;
unsigned int nrctrs, i;
if (perfctr->cpu_state.control.header.nractrs ||
perfctr->cpu_state.control.header.nrictrs) {
cpumask_t old_mask, new_mask;
//old_mask = tsk->cpus_allowed;
old_mask = tsk->cpu_mask;
cpus_andnot(new_mask, old_mask, perfctr_cpus_forbidden_mask);
if (cpus_empty(new_mask))
return -EINVAL;
if (!cpus_equal(new_mask, old_mask))
set_cpus_allowed(tsk, new_mask);
}
perfctr->cpu_state.user.cstatus = 0;
perfctr->resume_cstatus = 0;
/* remote access note: perfctr_cpu_update_control() is ok */
err = perfctr_cpu_update_control(&perfctr->cpu_state, 0);
if (err < 0)
return err;
next_cstatus = perfctr->cpu_state.user.cstatus;
if (!perfctr_cstatus_enabled(next_cstatus))
return 0;
if (!perfctr_cstatus_has_tsc(next_cstatus))
perfctr->cpu_state.user.tsc_sum = 0;
nrctrs = perfctr_cstatus_nrctrs(next_cstatus);
for(i = 0; i < nrctrs; ++i)
if (!(perfctr->preserve & (1<<i)))
perfctr->cpu_state.user.pmc[i].sum = 0;
spin_lock(&perfctr->children_lock);
perfctr->inheritance_id = new_inheritance_id();
memset(&perfctr->children, 0, sizeof perfctr->children);
spin_unlock(&perfctr->children_lock);
return 0;
}
static int do_vperfctr_control(struct vperfctr *perfctr,
const struct vperfctr_control __user *argp,
unsigned int argbytes,
struct task_struct *tsk)
{
struct vperfctr_control *control;
int err;
unsigned int next_cstatus;
unsigned int nrctrs, i;
if (!tsk) {
return -ESRCH; /* attempt to update unlinked perfctr */
}
/* The control object can be large (over 300 bytes on i386),
so kmalloc() it instead of storing it on the stack.
We must use task-private storage to prevent racing with a
monitor process attaching to us before the non-preemptible
perfctr update step. Therefore we cannot store the copy
in the perfctr object itself. */
control = kmalloc(sizeof(*control), GFP_USER);
if (!control) {
return -ENOMEM;
}
err = -EINVAL;
if (argbytes > sizeof *control) {
goto out_kfree;
}
err = -EFAULT;
if (copy_from_user(control, argp, argbytes)) {
goto out_kfree;
}
if (argbytes < sizeof *control)
memset((char*)control + argbytes, 0, sizeof *control - argbytes);
// figure out what is happening in the following 'if' loop
if (control->cpu_control.nractrs || control->cpu_control.nrictrs) {
cpumask_t old_mask, new_mask;
old_mask = tsk->cpus_allowed;
cpus_andnot(new_mask, old_mask, perfctr_cpus_forbidden_mask);
err = -EINVAL;
if (cpus_empty(new_mask)) {
goto out_kfree;
}
if (!cpus_equal(new_mask, old_mask))
set_cpus_allowed(tsk, new_mask);
}
/* PREEMPT note: preemption is disabled over the entire
region since we're updating an active perfctr. */
preempt_disable();
// the task whose control register I am changing might actually be
// in suspended state. That can happen when the other is executing
// under the control of another task as in the case of debugging
// or ptrace. However, if the write_control is done for the current
// executing process, first suspend them and then do the update
// why are we resetting 'perfctr->cpu_state.cstatus' ?
if (IS_RUNNING(perfctr)) {
if (tsk == current)
vperfctr_suspend(perfctr);
// not sure why we are zeroing out the following explicitly
perfctr->cpu_state.cstatus = 0;
vperfctr_clear_iresume_cstatus(perfctr);
}
// coying the user-specified control values to 'state'
perfctr->cpu_state.control = control->cpu_control;
/* remote access note: perfctr_cpu_update_control() is ok */
err = perfctr_cpu_update_control(&perfctr->cpu_state, 0);
if (err < 0) {
goto out;
}
next_cstatus = perfctr->cpu_state.cstatus;
if (!perfctr_cstatus_enabled(next_cstatus))
goto out;
/* XXX: validate si_signo? */
perfctr->si_signo = control->si_signo;
if (!perfctr_cstatus_has_tsc(next_cstatus))
perfctr->cpu_state.tsc_sum = 0;
nrctrs = perfctr_cstatus_nrctrs(next_cstatus);
for(i = 0; i < nrctrs; ++i)
if (!(control->preserve & (1<<i)))
perfctr->cpu_state.pmc[i].sum = 0;
// I am not sure why we are removing the inheritance just because
// we updated the control information. True, because the children might
// be performing something else. So, the control will have to be set
// before spawning any children
spin_lock(&perfctr->children_lock);
perfctr->inheritance_id = new_inheritance_id();
memset(&perfctr->children, 0, sizeof perfctr->children);
spin_unlock(&perfctr->children_lock);
if (tsk == current) {
vperfctr_resume(perfctr);
}
out:
preempt_enable();
out_kfree:
kfree(control);
return err;
}
