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Firestorm is the low-overhead intrusive flamegraph profiler for Rust.

Crates.io Documentation MIT licensed

Tenets of the design

For instrumenting start here.

For profiling start here.

Firestorm uses inferno under the hood for displaying the flamegraphs. Firestorm would not be possible without their contribution.


Tenets of the design

Firestorm is performance. When you are writing a library that is the fastest in its class, you need a profiler that has the same ideals. When Firestorm is not enabled (the default) all invocations compile down to a no-op. When Firestorm is enabled, it makes no heap allocations and avoids as much work as possible in the critical section.

Firestorm is ubiquitous. When Firestorm is enabled by the application layer for profiling, it is enabled for all dependencies - transitively. This happens without needing to add feature flags to libraries or even be aware which libraries use Firestorm. By avoiding making Firestorm a part of a library's public API, combined with the fact that Firestorm compiles down to a no-op when not used... adding Firestorm to a library should be a no-brainer. This is good because applications benefit as more libraries adopt Firestorm.

Firestorm is insight. After profiling, Firestorm offers three different ways to view the data - each looking at the performance of the run from a different angle.


Instrumenting

First, add Firestorm to your dependencies in Cargo.toml:

[dependencies]
firestorm = "0.4"

Then, import Firestorm's profiling macros. I recommend doing this in a crate prelude module.

pub(crate) use firestorm::{
    profile_fn,
    profile_method,
    profile_section
};

Lastly, invoke the macros in your functions.

fn fn_name<T>(param: T) {
    // Call profile_fn at the top of your function, specifying the function name.
    // You can optionally add generic parameters, too
    profile_fn!(T, fn_name);

    // If a function is complex, profile a section.
    {
        profile_section!(inner);

        // Optional: manually drop.
        // Section automatically drops when going out of scope.
        drop(inner);
    }
}

fn method_name(&self) {
    // profile_method automatically captures the type of Self
    profile_method!(method_name);
}

Important tips for instrumenting libraries:

  • Do NOT target an exact version of Firestorm. Eg: Do not use firestorm = "=0.4.1". Use firestorm = "0.4.1" instead. This is an important part of Firestorm's backward compatibility policy. If firestorm-core needs to be updated, all major versions will receive a patch so that all versions of Firestorm are enabled. Targeting a specific version may prevent libraries from sharing the firestorm-core dependency or being enabled transitively.
  • Do NOT put firestorm in [dev-dependencies]. Always put firestorm in [dependencies].
  • Do NOT enable any firestorm features in your library code, such as enable_system_time. Doing so would prevent Firestorm from compiling down to a no-op when not in use.
  • Do NOT hide the use of Firestorm behind a feature flags or [cfg()]. Firestorm should always be in use and does not affect compile time or performance unless enabled.

Profiling

To enable profiling, Firestorm needs an additional feature specified in Cargo.toml:

[dependencies]
firestorm = { version="0.4", features=["enable_system_time"] }

Profile the session and save the result:

// Runs the function and saves the flamegraph to the supplied directory.
// Make sure this is an empty directory so that no important files are overwritten.
if firestorm::enabled() {
    firestorm::bench("./flames/", instrumented_function).unwrap();
}

After running the above, there will be a firestorm.html in the target directory and a /firestorm subdirectory with supporting files. Open firestorm.html to view the results.

There are three output flamegraphs to aggregate the data in different ways. The dropdown on the top-left switches modes.

Time-Axis

Time Axis

This mode displays a separate bar for each invocation of every function. It's called "Time-Axis" because the data is as-if the y axis is time. This is especially useful if you want to differentiate between many short calls to a function vs one long call. This has the most information but can be a bit noisy.

Merged

Merged

This mode displays one bar for each path through the callstack. Multiple invocations can be displayed in a single bar. This aggregates more information. Like the Time-Axis mode, the width of a bar represents the function's total time - including both own-time and called function times.

Own-Time

Own Time

This mode displays each function's own time as a sideways bar graph regardless of what it was called by. The ordering is the most time expended at the bottom, and the "stack" has nothing to do with which function calls the others. Unfortunately our flamegraph dependency doesn't understand this, so just ignore that part. Firestorm should improve the display method here but it's too useful to leave out of this first version for that.

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