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Refine the implementation of NiceValue

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LI Qing 2024-03-12 10:48:46 +08:00 committed by volcano
parent db3a31d42e
commit f9839299b2
5 changed files with 53 additions and 54 deletions
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5
src/libos/src/fs/procfs/pid/stat.rs
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@ -36,8 +36,9 @@ impl ProcINode for ProcStatINode {
let stime = 0;
let cutime = 0;
let cstime = 0;
let priority = main_thread.nice().read().unwrap().to_priority_val();
let nice = main_thread.nice().read().unwrap().raw_val();
// Convert [19,-20] to [39,0].
let priority = main_thread.nice().read().unwrap().to_raw_val() + 20;
let nice = main_thread.nice().read().unwrap().to_raw_val();
let num_threads = self.0.threads().len();
let itrealvalue = 0;
let starttime = self.0.start_time();

3
src/libos/src/process/thread/mod.rs
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@ -42,6 +42,9 @@ pub struct Thread {
fs: FsViewRef,
files: FileTableRef,
sched: SchedAgentRef,
// According to POSIX, the nice value is a per-process setting.
// In our implementation, the threads belong to same process
// share the same nice value.
nice: NiceValueRef,
rlimits: ResourceLimitsRef,
// Signal

38
src/libos/src/sched/do_priority.rs
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@ -2,18 +2,17 @@ use super::priority::{NiceValue, PrioWhich};
use crate::prelude::*;
use crate::process::table::{get_all_processes, get_pgrp, get_process};
pub fn do_set_priority(which: PrioWhich, who: i32, prio: NiceValue) -> Result<()> {
pub fn do_set_priority(which: PrioWhich, who: i32, nice: NiceValue) -> Result<()> {
debug!(
"set_priority: which: {:?}, who: {}, prio: {:?}",
which, who, prio
"set_priority: which: {:?}, who: {}, nice: {:?}",
which, who, nice
);
let processes = get_processes(which, who)?;
for process in processes.iter() {
let main_thread = process
.main_thread()
.ok_or_else(|| errno!(ESRCH, "invalid pid"))?;
*main_thread.nice().write().unwrap() = prio;
for thread in process.threads().iter() {
*thread.nice().write().unwrap() = nice;
}
}
Ok(())
}
@ -22,27 +21,25 @@ pub fn do_get_priority(which: PrioWhich, who: i32) -> Result<NiceValue> {
debug!("get_priority: which: {:?}, who: {}", which, who);
let processes = get_processes(which, who)?;
let prio = {
let mut prio = NiceValue::max_value();
let nice = {
let mut nice = NiceValue::MAX;
for process in processes.iter() {
let main_thread = process
.main_thread()
.ok_or_else(|| errno!(ESRCH, "invalid pid"))?;
let nice_value = main_thread.nice().read().unwrap();
let current_nice = main_thread.nice().read().unwrap();
// Returns the highest priority enjoyed by the processes
if *nice_value < prio {
prio = *nice_value;
if *current_nice < nice {
nice = *current_nice;
}
}
prio
nice
};
Ok(prio)
Ok(nice)
}
// According to POSIX, the nice value is a per-process setting.
// In our implementation, the threads belong to same process share the same nice value.
fn get_processes(which: PrioWhich, who: i32) -> Result<Vec<crate::process::ProcessRef>> {
Ok(match which {
let processes = match which {
PrioWhich::PRIO_PROCESS => {
let process = if who == 0 {
current!().process().clone()
@ -67,5 +64,10 @@ fn get_processes(which: PrioWhich, who: i32) -> Result<Vec<crate::process::Proce
return_errno!(ESRCH, "no such user");
}
}
})
};
if processes.is_empty() {
return_errno!(ESRCH, "no such process");
}
Ok(processes)
}

53
src/libos/src/sched/priority.rs
View File

@ -21,55 +21,48 @@ impl TryFrom<i32> for PrioWhich {
}
}
/// Process priority value
/// Process scheduling nice value.
///
/// Lower values give a process a higher scheduling priority.
#[derive(Copy, Clone, Debug, Default, PartialEq, PartialOrd)]
pub struct NiceValue {
value: i32,
value: i8,
}
impl NiceValue {
const MAX_PRIO: i32 = 19;
pub const MAX: Self = Self { value: 19 };
const MIN_PRIO: i32 = -20;
pub const MIN: Self = Self { value: -20 };
pub fn max_value() -> Self {
Self {
value: Self::MAX_PRIO,
/// Create a nice value from a raw value.
///
/// The raw value given beyond the range are automatically adjusted
/// to the nearest boundary value.
pub fn new(raw: i8) -> Self {
if raw < Self::MIN.value {
Self::MIN
} else if raw > Self::MAX.value {
Self::MAX
} else {
Self { value: raw }
}
}
pub fn min_value() -> Self {
Self {
value: Self::MIN_PRIO,
}
}
pub fn raw_val(&self) -> i32 {
/// Convert to the raw value with range [19, -20].
pub fn to_raw_val(self) -> i8 {
self.value
}
/// Convert [19,-20] to priority value [39,0].
pub fn to_priority_val(&self) -> i32 {
self.value - Self::MIN_PRIO
}
/// Convert [19,-20] to rlimit style value [1,40].
pub fn to_rlimit_val(&self) -> i32 {
Self::MAX_PRIO - self.value + 1
}
}
impl From<i32> for NiceValue {
fn from(raw: i32) -> Self {
let value = if raw < Self::MIN_PRIO {
Self::MIN_PRIO
} else if raw > Self::MAX_PRIO {
Self::MAX_PRIO
let adj_raw = if raw > i8::MAX as i32 {
i8::MAX
} else if raw < i8::MIN as i32 {
i8::MIN
} else {
raw
raw as i8
};
Self { value }
Self::new(adj_raw)
}
}

8
src/libos/src/sched/syscalls.rs
View File

@ -83,16 +83,16 @@ pub fn do_getcpu(cpu_ptr: *mut u32, node_ptr: *mut u32) -> Result<isize> {
pub fn do_set_priority(which: i32, who: i32, prio: i32) -> Result<isize> {
let which = PrioWhich::try_from(which)?;
let prio = NiceValue::from(prio);
super::do_priority::do_set_priority(which, who, prio)?;
let nice = NiceValue::from(prio);
super::do_priority::do_set_priority(which, who, nice)?;
Ok(0)
}
pub fn do_get_priority(which: i32, who: i32) -> Result<isize> {
let which = PrioWhich::try_from(which)?;
let prio = super::do_priority::do_get_priority(which, who)?;
let nice = super::do_priority::do_get_priority(which, who)?;
// To avoid negative return values, "getpriority()" will
// not return the normal nice-value, but a negated value that
// has been offset by 20 (ie it returns 40..1 instead of -20..19)
Ok(prio.to_rlimit_val() as isize)
Ok((20 - nice.to_raw_val()) as _)
}