use crate::cold_path;
use crate::fx::FxHashMap;
use std::borrow::Borrow;
use std::collections::hash_map::Entry;
use std::convert::Into;
use std::error::Error;
use std::fs;
use std::path::Path;
use std::process;
use std::sync::Arc;
use std::time::{Duration, Instant};
use std::u32;
use measureme::{EventId, EventIdBuilder, SerializableString, StringId};
use parking_lot::RwLock;
#[cfg(not(windows))]
type SerializationSink = measureme::MmapSerializationSink;
#[cfg(windows)]
type SerializationSink = measureme::FileSerializationSink;
type Profiler = measureme::Profiler<SerializationSink>;
#[derive(Clone, Copy, Debug, PartialEq, Eq, Ord, PartialOrd)]
pub enum ProfileCategory {
Parsing,
Expansion,
TypeChecking,
BorrowChecking,
Codegen,
Linking,
Other,
}
bitflags::bitflags! {
struct EventFilter: u32 {
const GENERIC_ACTIVITIES = 1 << 0;
const QUERY_PROVIDERS = 1 << 1;
const QUERY_CACHE_HITS = 1 << 2;
const QUERY_BLOCKED = 1 << 3;
const INCR_CACHE_LOADS = 1 << 4;
const QUERY_KEYS = 1 << 5;
const FUNCTION_ARGS = 1 << 6;
const LLVM = 1 << 7;
const DEFAULT = Self::GENERIC_ACTIVITIES.bits |
Self::QUERY_PROVIDERS.bits |
Self::QUERY_BLOCKED.bits |
Self::INCR_CACHE_LOADS.bits;
const ARGS = Self::QUERY_KEYS.bits | Self::FUNCTION_ARGS.bits;
}
}
const EVENT_FILTERS_BY_NAME: &[(&str, EventFilter)] = &[
("none", EventFilter::empty()),
("all", EventFilter::all()),
("default", EventFilter::DEFAULT),
("generic-activity", EventFilter::GENERIC_ACTIVITIES),
("query-provider", EventFilter::QUERY_PROVIDERS),
("query-cache-hit", EventFilter::QUERY_CACHE_HITS),
("query-blocked", EventFilter::QUERY_BLOCKED),
("incr-cache-load", EventFilter::INCR_CACHE_LOADS),
("query-keys", EventFilter::QUERY_KEYS),
("function-args", EventFilter::FUNCTION_ARGS),
("args", EventFilter::ARGS),
("llvm", EventFilter::LLVM),
];
pub struct QueryInvocationId(pub u32);
#[derive(Clone)]
pub struct SelfProfilerRef {
profiler: Option<Arc<SelfProfiler>>,
event_filter_mask: EventFilter,
print_verbose_generic_activities: bool,
print_extra_verbose_generic_activities: bool,
}
impl SelfProfilerRef {
pub fn new(
profiler: Option<Arc<SelfProfiler>>,
print_verbose_generic_activities: bool,
print_extra_verbose_generic_activities: bool,
) -> SelfProfilerRef {
let event_filter_mask =
profiler.as_ref().map(|p| p.event_filter_mask).unwrap_or(EventFilter::empty());
SelfProfilerRef {
profiler,
event_filter_mask,
print_verbose_generic_activities,
print_extra_verbose_generic_activities,
}
}
#[inline(always)]
fn exec<F>(&self, event_filter: EventFilter, f: F) -> TimingGuard<'_>
where
F: for<'a> FnOnce(&'a SelfProfiler) -> TimingGuard<'a>,
{
#[inline(never)]
fn cold_call<F>(profiler_ref: &SelfProfilerRef, f: F) -> TimingGuard<'_>
where
F: for<'a> FnOnce(&'a SelfProfiler) -> TimingGuard<'a>,
{
let profiler = profiler_ref.profiler.as_ref().unwrap();
f(&**profiler)
}
if unlikely!(self.event_filter_mask.contains(event_filter)) {
cold_call(self, f)
} else {
TimingGuard::none()
}
}
pub fn verbose_generic_activity<'a>(
&'a self,
event_label: &'static str,
) -> VerboseTimingGuard<'a> {
let message =
if self.print_verbose_generic_activities { Some(event_label.to_owned()) } else { None };
VerboseTimingGuard::start(message, self.generic_activity(event_label))
}
pub fn extra_verbose_generic_activity<'a, A>(
&'a self,
event_label: &'static str,
event_arg: A,
) -> VerboseTimingGuard<'a>
where
A: Borrow<str> + Into<String>,
{
let message = if self.print_extra_verbose_generic_activities {
Some(format!("{}({})", event_label, event_arg.borrow()))
} else {
None
};
VerboseTimingGuard::start(message, self.generic_activity_with_arg(event_label, event_arg))
}
#[inline(always)]
pub fn generic_activity(&self, event_label: &'static str) -> TimingGuard<'_> {
self.exec(EventFilter::GENERIC_ACTIVITIES, |profiler| {
let event_label = profiler.get_or_alloc_cached_string(event_label);
let event_id = EventId::from_label(event_label);
TimingGuard::start(profiler, profiler.generic_activity_event_kind, event_id)
})
}
#[inline(always)]
pub fn generic_activity_with_arg<A>(
&self,
event_label: &'static str,
event_arg: A,
) -> TimingGuard<'_>
where
A: Borrow<str> + Into<String>,
{
self.exec(EventFilter::GENERIC_ACTIVITIES, |profiler| {
let builder = EventIdBuilder::new(&profiler.profiler);
let event_label = profiler.get_or_alloc_cached_string(event_label);
let event_id = if profiler.event_filter_mask.contains(EventFilter::FUNCTION_ARGS) {
let event_arg = profiler.get_or_alloc_cached_string(event_arg);
builder.from_label_and_arg(event_label, event_arg)
} else {
builder.from_label(event_label)
};
TimingGuard::start(profiler, profiler.generic_activity_event_kind, event_id)
})
}
#[inline(always)]
pub fn query_provider(&self) -> TimingGuard<'_> {
self.exec(EventFilter::QUERY_PROVIDERS, |profiler| {
TimingGuard::start(profiler, profiler.query_event_kind, EventId::INVALID)
})
}
#[inline(always)]
pub fn query_cache_hit(&self, query_invocation_id: QueryInvocationId) {
self.instant_query_event(
|profiler| profiler.query_cache_hit_event_kind,
query_invocation_id,
EventFilter::QUERY_CACHE_HITS,
);
}
#[inline(always)]
pub fn query_blocked(&self) -> TimingGuard<'_> {
self.exec(EventFilter::QUERY_BLOCKED, |profiler| {
TimingGuard::start(profiler, profiler.query_blocked_event_kind, EventId::INVALID)
})
}
#[inline(always)]
pub fn incr_cache_loading(&self) -> TimingGuard<'_> {
self.exec(EventFilter::INCR_CACHE_LOADS, |profiler| {
TimingGuard::start(
profiler,
profiler.incremental_load_result_event_kind,
EventId::INVALID,
)
})
}
#[inline(always)]
fn instant_query_event(
&self,
event_kind: fn(&SelfProfiler) -> StringId,
query_invocation_id: QueryInvocationId,
event_filter: EventFilter,
) {
drop(self.exec(event_filter, |profiler| {
let event_id = StringId::new_virtual(query_invocation_id.0);
let thread_id = std::thread::current().id().as_u64() as u32;
profiler.profiler.record_instant_event(
event_kind(profiler),
EventId::from_virtual(event_id),
thread_id,
);
TimingGuard::none()
}));
}
pub fn with_profiler(&self, f: impl FnOnce(&SelfProfiler)) {
if let Some(profiler) = &self.profiler {
f(&profiler)
}
}
#[inline]
pub fn enabled(&self) -> bool {
self.profiler.is_some()
}
#[inline]
pub fn llvm_recording_enabled(&self) -> bool {
self.event_filter_mask.contains(EventFilter::LLVM)
}
#[inline]
pub fn get_self_profiler(&self) -> Option<Arc<SelfProfiler>> {
self.profiler.clone()
}
}
pub struct SelfProfiler {
profiler: Profiler,
event_filter_mask: EventFilter,
string_cache: RwLock<FxHashMap<String, StringId>>,
query_event_kind: StringId,
generic_activity_event_kind: StringId,
incremental_load_result_event_kind: StringId,
query_blocked_event_kind: StringId,
query_cache_hit_event_kind: StringId,
}
impl SelfProfiler {
pub fn new(
output_directory: &Path,
crate_name: Option<&str>,
event_filters: &Option<Vec<String>>,
) -> Result<SelfProfiler, Box<dyn Error>> {
fs::create_dir_all(output_directory)?;
let crate_name = crate_name.unwrap_or("unknown-crate");
let filename = format!("{}-{}.rustc_profile", crate_name, process::id());
let path = output_directory.join(&filename);
let profiler = Profiler::new(&path)?;
let query_event_kind = profiler.alloc_string("Query");
let generic_activity_event_kind = profiler.alloc_string("GenericActivity");
let incremental_load_result_event_kind = profiler.alloc_string("IncrementalLoadResult");
let query_blocked_event_kind = profiler.alloc_string("QueryBlocked");
let query_cache_hit_event_kind = profiler.alloc_string("QueryCacheHit");
let mut event_filter_mask = EventFilter::empty();
if let Some(ref event_filters) = *event_filters {
let mut unknown_events = vec![];
for item in event_filters {
if let Some(&(_, mask)) =
EVENT_FILTERS_BY_NAME.iter().find(|&(name, _)| name == item)
{
event_filter_mask |= mask;
} else {
unknown_events.push(item.clone());
}
}
if !unknown_events.is_empty() {
unknown_events.sort();
unknown_events.dedup();
warn!(
"Unknown self-profiler events specified: {}. Available options are: {}.",
unknown_events.join(", "),
EVENT_FILTERS_BY_NAME
.iter()
.map(|&(name, _)| name.to_string())
.collect::<Vec<_>>()
.join(", ")
);
}
} else {
event_filter_mask = EventFilter::DEFAULT;
}
Ok(SelfProfiler {
profiler,
event_filter_mask,
string_cache: RwLock::new(FxHashMap::default()),
query_event_kind,
generic_activity_event_kind,
incremental_load_result_event_kind,
query_blocked_event_kind,
query_cache_hit_event_kind,
})
}
pub fn alloc_string<STR: SerializableString + ?Sized>(&self, s: &STR) -> StringId {
self.profiler.alloc_string(s)
}
pub fn get_or_alloc_cached_string<A>(&self, s: A) -> StringId
where
A: Borrow<str> + Into<String>,
{
{
let string_cache = self.string_cache.read();
if let Some(&id) = string_cache.get(s.borrow()) {
return id;
}
}
let mut string_cache = self.string_cache.write();
match string_cache.entry(s.into()) {
Entry::Occupied(e) => *e.get(),
Entry::Vacant(e) => {
let string_id = self.profiler.alloc_string(&e.key()[..]);
*e.insert(string_id)
}
}
}
pub fn map_query_invocation_id_to_string(&self, from: QueryInvocationId, to: StringId) {
let from = StringId::new_virtual(from.0);
self.profiler.map_virtual_to_concrete_string(from, to);
}
pub fn bulk_map_query_invocation_id_to_single_string<I>(&self, from: I, to: StringId)
where
I: Iterator<Item = QueryInvocationId> + ExactSizeIterator,
{
let from = from.map(|qid| StringId::new_virtual(qid.0));
self.profiler.bulk_map_virtual_to_single_concrete_string(from, to);
}
pub fn query_key_recording_enabled(&self) -> bool {
self.event_filter_mask.contains(EventFilter::QUERY_KEYS)
}
pub fn event_id_builder(&self) -> EventIdBuilder<'_, SerializationSink> {
EventIdBuilder::new(&self.profiler)
}
}
#[must_use]
pub struct TimingGuard<'a>(Option<measureme::TimingGuard<'a, SerializationSink>>);
impl<'a> TimingGuard<'a> {
#[inline]
pub fn start(
profiler: &'a SelfProfiler,
event_kind: StringId,
event_id: EventId,
) -> TimingGuard<'a> {
let thread_id = std::thread::current().id().as_u64() as u32;
let raw_profiler = &profiler.profiler;
let timing_guard =
raw_profiler.start_recording_interval_event(event_kind, event_id, thread_id);
TimingGuard(Some(timing_guard))
}
#[inline]
pub fn finish_with_query_invocation_id(self, query_invocation_id: QueryInvocationId) {
if let Some(guard) = self.0 {
cold_path(|| {
let event_id = StringId::new_virtual(query_invocation_id.0);
let event_id = EventId::from_virtual(event_id);
guard.finish_with_override_event_id(event_id);
});
}
}
#[inline]
pub fn none() -> TimingGuard<'a> {
TimingGuard(None)
}
#[inline(always)]
pub fn run<R>(self, f: impl FnOnce() -> R) -> R {
let _timer = self;
f()
}
}
#[must_use]
pub struct VerboseTimingGuard<'a> {
start_and_message: Option<(Instant, String)>,
_guard: TimingGuard<'a>,
}
impl<'a> VerboseTimingGuard<'a> {
pub fn start(message: Option<String>, _guard: TimingGuard<'a>) -> Self {
VerboseTimingGuard { _guard, start_and_message: message.map(|msg| (Instant::now(), msg)) }
}
#[inline(always)]
pub fn run<R>(self, f: impl FnOnce() -> R) -> R {
let _timer = self;
f()
}
}
impl Drop for VerboseTimingGuard<'_> {
fn drop(&mut self) {
if let Some((start, ref message)) = self.start_and_message {
print_time_passes_entry(true, &message[..], start.elapsed());
}
}
}
pub fn print_time_passes_entry(do_it: bool, what: &str, dur: Duration) {
if !do_it {
return;
}
let mem_string = match get_resident() {
Some(n) => {
let mb = n as f64 / 1_000_000.0;
format!("; rss: {}MB", mb.round() as usize)
}
None => String::new(),
};
println!("time: {}{}\t{}", duration_to_secs_str(dur), mem_string, what);
}
pub fn duration_to_secs_str(dur: std::time::Duration) -> String {
const NANOS_PER_SEC: f64 = 1_000_000_000.0;
let secs = dur.as_secs() as f64 + dur.subsec_nanos() as f64 / NANOS_PER_SEC;
format!("{:.3}", secs)
}
#[cfg(unix)]
fn get_resident() -> Option<usize> {
let field = 1;
let contents = fs::read("/proc/self/statm").ok()?;
let contents = String::from_utf8(contents).ok()?;
let s = contents.split_whitespace().nth(field)?;
let npages = s.parse::<usize>().ok()?;
Some(npages * 4096)
}
#[cfg(windows)]
fn get_resident() -> Option<usize> {
use std::mem::{self, MaybeUninit};
use winapi::shared::minwindef::DWORD;
use winapi::um::processthreadsapi::GetCurrentProcess;
use winapi::um::psapi::{GetProcessMemoryInfo, PROCESS_MEMORY_COUNTERS};
let mut pmc = MaybeUninit::<PROCESS_MEMORY_COUNTERS>::uninit();
match unsafe {
GetProcessMemoryInfo(GetCurrentProcess(), pmc.as_mut_ptr(), mem::size_of_val(&pmc) as DWORD)
} {
0 => None,
_ => {
let pmc = unsafe { pmc.assume_init() };
Some(pmc.WorkingSetSize as usize)
}
}
}