0c7e0c3aa5
I just noticed one while writing #14719, and then grepped and couldn't stop. r? @nox Source-Repo: https://github.com/servo/servo Source-Revision: 7fc9047d22147cf419d2551350421e23105e6f0e |
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Cargo.toml | ||
README.md | ||
heartbeats.rs | ||
lib.rs | ||
mem.rs | ||
time.rs | ||
trace-dump-epilogue-1.html | ||
trace-dump-epilogue-2.html | ||
trace-dump-prologue-1.html | ||
trace-dump-prologue-2.html | ||
trace-dump.css | ||
trace-dump.js | ||
trace_dump.rs |
README.md
This crate hosts the Servo profiler.
Its APIs can be found in the profile_traits
crate.
Heartbeats
Heartbeats allow fine-grained timing and energy profiling of Servo tasks specified in the ProfilerCategory
enum (see the profile_traits::time
module).
When enabled, a heartbeat is issued for each profiler category event.
They also compute the average performance and power for three levels of granularity:
- Global: the entire runtime.
- Window: the category's last
N
events, whereN
is the size of a sliding window. - Instant: the category's most recent event.
Enabling
Heartbeats are enabled for categories by setting proper environment variables prior to launching Servo.
For each desired category, set the SERVO_HEARTBEAT_ENABLE_MyCategory
environment variable to any value (an empty string will do) where MyCategory
is the ProfilerCategory
name exactly as it appears in the enum.
For example:
SERVO_HEARTBEAT_ENABLE_LayoutPerform=""
Then set the SERVO_HEARTBEAT_LOG_MyCategory
environment variable so Servo knows where to write the results.
For example:
SERVO_HEARTBEAT_LOG_LayoutPerform="/tmp/heartbeat-LayoutPerform.log"
The target directory must already exist and be writeable.
Results are written to the log file every N
heartbeats and when the profiler shuts down.
You can optionally specify the size of the sliding window by setting SERVO_HEARTBEAT_WINDOW_MyCategory
to a positive integer value.
The default value is 20
.
For example:
SERVO_HEARTBEAT_WINDOW_LayoutPerform=20
The window size is also how many heartbeats will be stored in memory.
Log Files
Log files are whitespace-delimited.
HB
is the heartbeat number, ordered by when they are registered (not necessarily start or end time!).
The count starts at 0
.
Tag
is a client-specified identifier for each heartbeat.
Servo does not use this, so the value is always 0
.
Work
is the amount of work completed for a particular heartbeat and is used in computing performance.
At this time, Servo simply specifies 1
unit of work for each heartbeat.
Time
and Energy
have Start
and End
values as captured during runtime.
Time is measured in nanoseconds and energy is measured in microjoules.
Work
, Time
, and Energy
also have Global
and Window
values which are the summed over the entire runtime and sliding window period, respectively.
Perf
(performance) and Pwr
(power) have Global
, Window
, and Instant
values as described above.
Energy Profiling
Energy monitoring is hardware and platform-specific, so it is only enabled with the energy-profiling
feature.
To use energy profiling, you must have a compatible energymon-default
implementation installed to your system as energymon-default-static
when building Servo.
Otherwise a default dummy implementation is used.
The library is linked through a chain of dependencies:
- servo::profile_traits
- energymon - Rust abstractions
- energymon-default-sys - Rust bindings to
energymon-default.h
- energymon-default-static: A statically linked C library installed to the system that implements
energymon.h
andenergymon-default.h
- energymon-default-static: A statically linked C library installed to the system that implements
- energymon-default-sys - Rust bindings to
- energymon - Rust abstractions
For instructions on building existing native libraries, visit the energymon project source.
You may also write your own implementation of energymon.h
and energymon-default.h
and install it as energymon-default-static
where pkg-config can find it.
Once you install the proper library, you will need to rebuild the energymon-default-sys
crate.
The most straightforward way to do this is to do a clean build of Servo.
To build Servo with the energy-profiling
feature enabled, pass --features "energy-profiling"
to the mach
command, e.g.:
./mach build -r --features "energy-profiling"
When running Servo, you will want to enable the desired Heartbeats to record the results.