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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
//! ## Gecko profiler marker support
//!
//! This marker API has a few different functions that you can use to mark a part of your code.
//! There are three main marker functions to use from Rust: [`add_untyped_marker`],
//! [`add_text_marker`] and [`add_marker`]. They are similar to what we have on
//! the C++ side. Please take a look at the marker documentation in the Firefox
//! source docs to learn more about them:
//!
//! ### Simple marker without any additional data
//!
//! The simplest way to add a marker without any additional information is the
//! [`add_untyped_marker`] API. You can use it to mark a part of the code with
//! only a name. E.g.:
//!
//! ```
//! gecko_profiler::add_untyped_marker(
//! // Name of the marker as a string.
//! "Marker Name",
//! // Category with an optional sub-category.
//! gecko_profiler_category!(Graphics, DisplayListBuilding),
//! // MarkerOptions that keeps options like marker timing and marker stack.
//! Default::default(),
//! );
//! ```
//!
//! Please see the [`gecko_profiler_category!`], [`MarkerOptions`],[`MarkerTiming`]
//! and [`MarkerStack`] to learn more about these.
//!
//! You can also give explicit [`MarkerOptions`] value like these:
//!
//! ```
//! // With both timing and stack fields:
//! MarkerOptions { timing: MarkerTiming::instant_now(), stack: MarkerStack::Full }
//! // Or with some fields as default:
//! MarkerOptions { timing: MarkerTiming::instant_now(), ..Default::default() }
//! ```
//!
//! ### Marker with only an additional text for more information:
//!
//! The next and slightly more advanced API is [`add_text_marker`].
//! This is used to add a marker name + a string value for extra information.
//! E.g.:
//!
//! ```
//! let info = "info about this marker";
//! ...
//! gecko_profiler::add_text_marker(
//! // Name of the marker as a string.
//! "Marker Name",
//! // Category with an optional sub-category.
//! gecko_profiler_category!(DOM),
//! // MarkerOptions that keeps options like marker timing and marker stack.
//! MarkerOptions {
//! timing: MarkerTiming::instant_now(),
//! ..Default::default()
//! },
//! // Additional information as a string.
//! info,
//! );
//! ```
//!
//! ### Marker with a more complex payload and different visualization in the profiler front-end.
//!
//! [`add_marker`] is the most advanced API that you can use to add different types
//! of values as data to your marker and customize the visualization of that marker
//! in the profiler front-end (profiler.firefox.com).
//!
//! To be able to add a a marker, first you need to create your marker payload
//! struct in your codebase and implement the [`ProfilerMarker`] trait like this:
//!
//! ```
//! #[derive(Serialize, Deserialize, Debug)]
//! pub struct TestMarker {
//! a: u32,
//! b: CowString,
//! }
//!
//! // Please see the documentation of [`ProfilerMarker`].
//! impl gecko_profiler::ProfilerMarker for TestMarker {
//! fn marker_type_name() -> &'static str {
//! "marker type from rust"
//! }
//! fn marker_type_display() -> gecko_profiler::MarkerSchema {
//! use gecko_profiler::marker::schema::*;
//! let mut schema = MarkerSchema::new(&[Location::MarkerChart]);
//! schema.set_chart_label("Name: {marker.name}");
//! schema.set_tooltip_label("{marker.data.a}");
//! schema.add_key_label_format("a", "A Value", Format::Integer);
//! schema.add_key_label_format("b", "B Value", Format::String);
//! schema
//! }
//! fn stream_json_marker_data(&self, json_writer: &mut gecko_profiler::JSONWriter) {
//! json_writer.int_property("a", self.a.into());
//! json_writer.string_property("b", self.b.as_ref());
//! }
//! }
//! ```
//!
//! Once you've created this payload and implemented the [`ProfilerMarker`], you
//! can now add this marker in the code that you would like to measure. E.g.:
//!
//! ```
//! gecko_profiler::add_marker(
//! // Name of the marker as a string.
//! "Marker Name",
//! // Category with an optional sub-category.
//! gecko_profiler_category!(Graphics, DisplayListBuilding),
//! // MarkerOptions that keeps options like marker timing and marker stack.
//! Default::default(),
//! // Marker payload.
//! TestMarker {a: 12, b: "hello".to_owned()},
//! );
//! ```
pub(crate) mod deserializer_tags_state;
pub mod options;
pub mod schema;
pub use options::*;
pub use schema::MarkerSchema;
use crate::gecko_bindings::{bindings, profiling_categories::ProfilingCategoryPair};
use crate::json_writer::JSONWriter;
use crate::marker::deserializer_tags_state::get_or_insert_deserializer_tag;
use crate::ProfilerTime;
use serde::{de::DeserializeOwned, Deserialize, Serialize};
use std::borrow::Cow;
use std::os::raw::c_char;
/// Can be serialized/deserialized but does not allocate if built from
/// a `&'static str`.
pub type CowString = Cow<'static, str>;
/// Marker API to add a new simple marker without any payload.
/// Please see the module documentation on how to add a marker with this API.
pub fn add_untyped_marker(name: &str, category: ProfilingCategoryPair, mut options: MarkerOptions) {
if !crate::profiler_state::can_accept_markers() {
// Nothing to do.
return;
}
unsafe {
bindings::gecko_profiler_add_marker_untyped(
name.as_ptr() as *const c_char,
name.len(),
category.to_cpp_enum_value(),
options.timing.0.as_mut_ptr(),
options.stack,
)
}
}
/// Marker API to add a new marker with additional text for details.
/// Please see the module documentation on how to add a marker with this API.
pub fn add_text_marker(
name: &str,
category: ProfilingCategoryPair,
mut options: MarkerOptions,
text: &str,
) {
if !crate::profiler_state::can_accept_markers() {
// Nothing to do.
return;
}
unsafe {
bindings::gecko_profiler_add_marker_text(
name.as_ptr() as *const c_char,
name.len(),
category.to_cpp_enum_value(),
options.timing.0.as_mut_ptr(),
options.stack,
text.as_ptr() as *const c_char,
text.len(),
)
}
}
/// RAII-style scoped text marker
/// This is a Rust-style equivalent of the C++ AUTO_PROFILER_MARKER_TEXT
/// Profiler markers are emitted at when an AutoProfilerTextMarker is
/// created, and when it is dropped (destroyed).
pub struct AutoProfilerTextMarker<'a> {
name: &'a str,
category: ProfilingCategoryPair,
options: MarkerOptions,
text: &'a str,
// We store the start time separately from the MarkerTiming inside
// MarkerOptions, as once we have "put it in" a marker timing, there's
// currently no API way to "get it out" again.
start: ProfilerTime,
}
impl<'a> AutoProfilerTextMarker<'a> {
/// Construct an AutoProfilerTextMarker, if the profiler is accepting markers.
pub fn new(
name: &'a str,
category: ProfilingCategoryPair,
options: MarkerOptions,
text: &'a str,
) -> Option<AutoProfilerTextMarker<'a>> {
if !crate::profiler_state::can_accept_markers() {
return None;
}
let start = ProfilerTime::now();
Some(AutoProfilerTextMarker {
name,
category,
options,
text,
start,
})
}
}
impl<'a> Drop for AutoProfilerTextMarker<'a> {
fn drop(&mut self) {
add_text_marker(
self.name,
self.category,
self.options
.with_timing(MarkerTiming::interval_until_now_from(self.start.clone())),
self.text,
);
}
}
/// Create an RAII-style text marker. See AutoProfilerTextMarker for more
/// details.
///
/// The arguments to this macro correspond exactly to the
/// AutoProfilerTextMarker::new constructor.
///
/// Example usage:
/// ```rust
/// auto_profiler_marker_text!(
/// "BlobRasterization",
/// gecko_profiler_category!(Graphics),
/// Default::default(),
/// "Webrender".into()
/// );
/// ```
///
#[cfg(feature = "enabled")]
#[macro_export]
macro_rules! auto_profiler_marker_text {
($name:expr, $category:expr,$options:expr, $text:expr) => {
let _macro_created_rust_text_marker =
$crate::AutoProfilerTextMarker::new($name, $category, $options, $text);
};
}
#[cfg(not(feature = "enabled"))]
#[macro_export]
macro_rules! auto_profiler_marker_text {
($name:expr, $category:expr,$options:expr, $text:expr) => {
// Do nothing if the profiler is not enabled
};
}
/// Trait that every profiler marker payload struct needs to implement.
/// This will tell the profiler back-end how to serialize it as json and
/// the front-end how to display the marker.
/// Please also see the documentation here:
///
/// - `marker_type_name`: Returns a static string as the marker type name. This
/// should be unique and it is used to keep track of the type of markers in the
/// profiler storage, and to identify them uniquely on the profiler front-end.
/// - `marker_type_display`: Where and how to display the marker and its data.
/// Returns a `MarkerSchema` object which will be forwarded to the profiler
/// front-end.
/// - `stream_json_marker_data`: Data specific to this marker type should be
/// serialized to JSON for the profiler front-end. All the common marker data
/// like marker name, category, timing will be serialized automatically. But
/// marker specific data should be serialized here.
pub trait ProfilerMarker: Serialize + DeserializeOwned {
/// A static method that returns the name of the marker type.
fn marker_type_name() -> &'static str;
/// A static method that returns a `MarkerSchema`, which contains all the
/// information needed to stream the display schema associated with a
/// marker type.
fn marker_type_display() -> MarkerSchema;
/// A method that streams the marker payload data as JSON object properties.
/// Please see the [JSONWriter] struct to see its methods.
fn stream_json_marker_data(&self, json_writer: &mut JSONWriter);
}
/// A function that deserializes the marker payload and streams it to the JSON.
unsafe fn transmute_and_stream<T>(
payload: *const u8,
payload_size: usize,
json_writer: &mut JSONWriter,
) where
T: ProfilerMarker,
{
let payload_slice = std::slice::from_raw_parts(payload, payload_size);
let payload: T = bincode::deserialize(&payload_slice).unwrap();
payload.stream_json_marker_data(json_writer);
}
/// Main marker API to add a new marker to profiler buffer.
/// Please see the module documentation on how to add a marker with this API.
pub fn add_marker<T>(
name: &str,
category: ProfilingCategoryPair,
mut options: MarkerOptions,
payload: T,
) where
T: ProfilerMarker + 'static,
{
if !crate::profiler_state::can_accept_markers() {
// Nothing to do.
return;
}
let encoded_payload: Vec<u8> = bincode::serialize(&payload).unwrap();
let payload_size = encoded_payload.len();
let marker_tag = get_or_insert_deserializer_tag::<T>();
unsafe {
bindings::gecko_profiler_add_marker(
name.as_ptr() as *const c_char,
name.len(),
category.to_cpp_enum_value(),
options.timing.0.as_mut_ptr(),
options.stack,
marker_tag,
encoded_payload.as_ptr(),
payload_size,
)
}
}
/// Tracing marker type for Rust code.
/// This must be kept in sync with the `mozilla::baseprofiler::markers::Tracing`
/// C++ counterpart.
#[derive(Serialize, Deserialize, Debug)]
pub struct Tracing(pub CowString);
impl Tracing {
pub fn from_str(s: &'static str) -> Self {
Tracing(Cow::Borrowed(s))
}
}
impl ProfilerMarker for Tracing {
fn marker_type_name() -> &'static str {
"tracing"
}
fn stream_json_marker_data(&self, json_writer: &mut JSONWriter) {
if self.0.len() != 0 {
json_writer.string_property("category", &self.0);
}
}
// Tracing marker is a bit special because we have the same schema in the
// C++ side. This function will only get called when no Tracing markers are
// generated from the C++ side. But, most of the time, this will not be called
// when there is another C++ Tracing marker.
fn marker_type_display() -> MarkerSchema {
use crate::marker::schema::*;
let mut schema = MarkerSchema::new(&[
Location::MarkerChart,
Location::MarkerTable,
Location::TimelineOverview,
]);
schema.add_key_label_format("category", "Type", Format::String);
schema
}
}
/// RAII-style scoped tracing marker for Rust code.
/// This is a Rust-style equivalent of the C++ AUTO_PROFILER_TRACING_MARKER
/// Profiler markers are emitted at when an AutoProfilerTracingMarker is
/// created, and when it is dropped (destroyed).
pub struct AutoProfilerTracingMarker<'a> {
name: &'a str,
category: ProfilingCategoryPair,
options: MarkerOptions,
payload: CowString,
}
impl<'a> AutoProfilerTracingMarker<'a> {
pub fn new(
name: &'a str,
category: ProfilingCategoryPair,
options: MarkerOptions,
payload: CowString,
) -> Option<AutoProfilerTracingMarker<'a>> {
if !crate::profiler_state::can_accept_markers() {
return None;
}
// Record our starting marker.
add_marker(
name,
category,
options.with_timing(MarkerTiming::interval_start(ProfilerTime::now())),
Tracing(payload.clone()),
);
Some(AutoProfilerTracingMarker {
name,
category,
options,
payload,
})
}
}
impl<'a> Drop for AutoProfilerTracingMarker<'a> {
fn drop(&mut self) {
// If we have an AutoProfilerTracingMarker object, then the profiler was
// running + accepting markers when it was *created*. We have no
// guarantee that it's still running though, so check again! If the
// profiler has stopped, then there's no point recording the second of a
// pair of markers.
if !crate::profiler_state::can_accept_markers() {
return;
}
// record the ending marker
add_marker(
self.name,
self.category,
self.options
.with_timing(MarkerTiming::interval_end(ProfilerTime::now())),
Tracing(self.payload.clone()),
);
}
}
/// Create an RAII-style tracing marker. See AutoProfilerTracingMarker for more
/// details.
///
/// The arguments to this macro correspond exactly to the
/// AutoProfilerTracingMarker::new constructor.
///
/// Example usage:
/// ```rust
/// auto_profiler_marker_tracing!(
/// "BlobRasterization",
/// gecko_profiler_category!(Graphics),
/// Default::default(),
/// "Webrender".to_string()
/// );
/// ```
///
#[cfg(feature = "enabled")]
#[macro_export]
macro_rules! auto_profiler_marker_tracing {
($name:expr, $category:expr,$options:expr, $payload:expr) => {
let _macro_created_rust_tracing_marker =
$crate::AutoProfilerTracingMarker::new($name, $category, $options, $payload);
};
}
#[cfg(not(feature = "enabled"))]
#[macro_export]
macro_rules! auto_profiler_marker_tracing {
($name:expr, $category:expr,$options:expr, $payload:expr) => {
// Do nothing if the profiler is not enabled
};
}