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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
use std::borrow::Cow;
use std::collections::{hash_map::Entry, HashMap};
use std::sync::{Arc, Mutex};
use crate::common_metric_data::{CommonMetricData, CommonMetricDataInternal};
use crate::error_recording::{record_error, test_get_num_recorded_errors, ErrorType};
use crate::histogram::HistogramType;
use crate::metrics::{
BooleanMetric, CounterMetric, CustomDistributionMetric, MemoryDistributionMetric, MemoryUnit,
Metric, MetricType, QuantityMetric, StringMetric, TimeUnit, TimingDistributionMetric,
};
use crate::Glean;
const MAX_LABELS: usize = 16;
const OTHER_LABEL: &str = "__other__";
const MAX_LABEL_LENGTH: usize = 71;
/// A labeled counter.
pub type LabeledCounter = LabeledMetric<CounterMetric>;
/// A labeled boolean.
pub type LabeledBoolean = LabeledMetric<BooleanMetric>;
/// A labeled string.
pub type LabeledString = LabeledMetric<StringMetric>;
/// A labeled custom_distribution.
pub type LabeledCustomDistribution = LabeledMetric<CustomDistributionMetric>;
/// A labeled memory_distribution.
pub type LabeledMemoryDistribution = LabeledMetric<MemoryDistributionMetric>;
/// A labeled timing_distribution.
pub type LabeledTimingDistribution = LabeledMetric<TimingDistributionMetric>;
/// A labeled quantity
pub type LabeledQuantity = LabeledMetric<QuantityMetric>;
/// The metric data needed to construct inner submetrics.
///
/// Different Labeled metrics require different amounts and kinds of information to
/// be constructed.
pub enum LabeledMetricData {
/// The common case: just a CMD.
#[allow(missing_docs)]
Common { cmd: CommonMetricData },
/// The custom_distribution-specific case.
#[allow(missing_docs)]
CustomDistribution {
cmd: CommonMetricData,
range_min: i64,
range_max: i64,
bucket_count: i64,
histogram_type: HistogramType,
},
/// The memory_distribution-specific case.
#[allow(missing_docs)]
MemoryDistribution {
cmd: CommonMetricData,
unit: MemoryUnit,
},
/// The timing_distribution-specific case.
#[allow(missing_docs)]
TimingDistribution {
cmd: CommonMetricData,
unit: TimeUnit,
},
}
/// A labeled metric.
///
/// Labeled metrics allow to record multiple sub-metrics of the same type under different string labels.
#[derive(Debug)]
pub struct LabeledMetric<T> {
labels: Option<Vec<Cow<'static, str>>>,
/// Type of the underlying metric
/// We hold on to an instance of it, which is cloned to create new modified instances.
submetric: T,
/// A map from a unique ID for the labeled submetric to a handle of an instantiated
/// metric type.
label_map: Mutex<HashMap<String, Arc<T>>>,
}
/// Sealed traits protect against downstream implementations.
///
/// We wrap it in a private module that is inaccessible outside of this module.
mod private {
use super::LabeledMetricData;
use crate::metrics::{
BooleanMetric, CounterMetric, CustomDistributionMetric, MemoryDistributionMetric,
QuantityMetric, StringMetric, TimingDistributionMetric,
};
/// The sealed labeled trait.
///
/// This also allows us to hide methods, that are only used internally
/// and should not be visible to users of the object implementing the
/// `Labeled<T>` trait.
pub trait Sealed {
/// Create a new `glean_core` metric from the metadata.
fn new_inner(meta: LabeledMetricData) -> Self;
}
impl Sealed for CounterMetric {
fn new_inner(meta: LabeledMetricData) -> Self {
match meta {
LabeledMetricData::Common { cmd } => Self::new(cmd),
_ => panic!("Incorrect construction of Labeled<CounterMetric>"),
}
}
}
impl Sealed for BooleanMetric {
fn new_inner(meta: LabeledMetricData) -> Self {
match meta {
LabeledMetricData::Common { cmd } => Self::new(cmd),
_ => panic!("Incorrect construction of Labeled<BooleanMetric>"),
}
}
}
impl Sealed for StringMetric {
fn new_inner(meta: LabeledMetricData) -> Self {
match meta {
LabeledMetricData::Common { cmd } => Self::new(cmd),
_ => panic!("Incorrect construction of Labeled<StringMetric>"),
}
}
}
impl Sealed for CustomDistributionMetric {
fn new_inner(meta: LabeledMetricData) -> Self {
match meta {
LabeledMetricData::CustomDistribution {
cmd,
range_min,
range_max,
bucket_count,
histogram_type,
} => Self::new(cmd, range_min, range_max, bucket_count, histogram_type),
_ => panic!("Incorrect construction of Labeled<CustomDistributionMetric>"),
}
}
}
impl Sealed for MemoryDistributionMetric {
fn new_inner(meta: LabeledMetricData) -> Self {
match meta {
LabeledMetricData::MemoryDistribution { cmd, unit } => Self::new(cmd, unit),
_ => panic!("Incorrect construction of Labeled<MemoryDistributionMetric>"),
}
}
}
impl Sealed for TimingDistributionMetric {
fn new_inner(meta: LabeledMetricData) -> Self {
match meta {
LabeledMetricData::TimingDistribution { cmd, unit } => Self::new(cmd, unit),
_ => panic!("Incorrect construction of Labeled<TimingDistributionMetric>"),
}
}
}
impl Sealed for QuantityMetric {
fn new_inner(meta: LabeledMetricData) -> Self {
match meta {
LabeledMetricData::Common { cmd } => Self::new(cmd),
_ => panic!("Incorrect construction of Labeled<QuantityMetric>"),
}
}
}
}
/// Trait for metrics that can be nested inside a labeled metric.
pub trait AllowLabeled: MetricType {
/// Create a new labeled metric.
fn new_labeled(meta: LabeledMetricData) -> Self;
}
// Implement the trait for everything we marked as allowed.
impl<T> AllowLabeled for T
where
T: MetricType,
T: private::Sealed,
{
fn new_labeled(meta: LabeledMetricData) -> Self {
T::new_inner(meta)
}
}
impl<T> LabeledMetric<T>
where
T: AllowLabeled + Clone,
{
/// Creates a new labeled metric from the given metric instance and optional list of labels.
///
/// See [`get`](LabeledMetric::get) for information on how static or dynamic labels are handled.
pub fn new(
meta: LabeledMetricData,
labels: Option<Vec<Cow<'static, str>>>,
) -> LabeledMetric<T> {
let submetric = T::new_labeled(meta);
LabeledMetric::new_inner(submetric, labels)
}
fn new_inner(submetric: T, labels: Option<Vec<Cow<'static, str>>>) -> LabeledMetric<T> {
let label_map = Default::default();
LabeledMetric {
labels,
submetric,
label_map,
}
}
/// Creates a new metric with a specific label.
///
/// This is used for static labels where we can just set the name to be `name/label`.
fn new_metric_with_name(&self, name: String) -> T {
self.submetric.with_name(name)
}
/// Creates a new metric with a specific label.
///
/// This is used for dynamic labels where we have to actually validate and correct the
/// label later when we have a Glean object.
fn new_metric_with_dynamic_label(&self, label: String) -> T {
self.submetric.with_dynamic_label(label)
}
/// Creates a static label.
///
/// # Safety
///
/// Should only be called when static labels are available on this metric.
///
/// # Arguments
///
/// * `label` - The requested label
///
/// # Returns
///
/// The requested label if it is in the list of allowed labels.
/// Otherwise `OTHER_LABEL` is returned.
fn static_label<'a>(&self, label: &'a str) -> &'a str {
debug_assert!(self.labels.is_some());
let labels = self.labels.as_ref().unwrap();
if labels.iter().any(|l| l == label) {
label
} else {
OTHER_LABEL
}
}
/// Gets a specific metric for a given label.
///
/// If a set of acceptable labels were specified in the `metrics.yaml` file,
/// and the given label is not in the set, it will be recorded under the special `OTHER_LABEL` label.
///
/// If a set of acceptable labels was not specified in the `metrics.yaml` file,
/// only the first 16 unique labels will be used.
/// After that, any additional labels will be recorded under the special `OTHER_LABEL` label.
///
/// Labels must be `snake_case` and less than 30 characters.
/// If an invalid label is used, the metric will be recorded in the special `OTHER_LABEL` label.
pub fn get<S: AsRef<str>>(&self, label: S) -> Arc<T> {
let label = label.as_ref();
// The handle is a unique number per metric.
// The label identifies the submetric.
let id = format!("{}/{}", self.submetric.meta().base_identifier(), label);
let mut map = self.label_map.lock().unwrap();
match map.entry(id) {
Entry::Occupied(entry) => Arc::clone(entry.get()),
Entry::Vacant(entry) => {
// We have 2 scenarios to consider:
// * Static labels. No database access needed. We just look at what is in memory.
// * Dynamic labels. We look up in the database all previously stored
// labels in order to keep a maximum of allowed labels. This is done later
// when the specific metric is actually recorded, when we are guaranteed to have
// an initialized Glean object.
let metric = match self.labels {
Some(_) => {
let label = self.static_label(label);
self.new_metric_with_name(combine_base_identifier_and_label(
&self.submetric.meta().inner.name,
label,
))
}
None => self.new_metric_with_dynamic_label(label.to_string()),
};
let metric = Arc::new(metric);
entry.insert(Arc::clone(&metric));
metric
}
}
}
/// **Exported for test purposes.**
///
/// Gets the number of recorded errors for the given metric and error type.
///
/// # Arguments
///
/// * `error` - The type of error
///
/// # Returns
///
/// The number of errors reported.
pub fn test_get_num_recorded_errors(&self, error: ErrorType) -> i32 {
crate::block_on_dispatcher();
crate::core::with_glean(|glean| {
test_get_num_recorded_errors(glean, self.submetric.meta(), error).unwrap_or(0)
})
}
}
/// Combines a metric's base identifier and label
pub fn combine_base_identifier_and_label(base_identifer: &str, label: &str) -> String {
format!("{}/{}", base_identifer, label)
}
/// Strips the label off of a complete identifier
pub fn strip_label(identifier: &str) -> &str {
identifier.split_once('/').map_or(identifier, |s| s.0)
}
/// Validates a dynamic label, changing it to `OTHER_LABEL` if it's invalid.
///
/// Checks the requested label against limitations, such as the label length and allowed
/// characters.
///
/// # Arguments
///
/// * `label` - The requested label
///
/// # Returns
///
/// The entire identifier for the metric, including the base identifier and the corrected label.
/// The errors are logged.
pub fn validate_dynamic_label(
glean: &Glean,
meta: &CommonMetricDataInternal,
base_identifier: &str,
label: &str,
) -> String {
let key = combine_base_identifier_and_label(base_identifier, label);
for store in &meta.inner.send_in_pings {
if glean.storage().has_metric(meta.inner.lifetime, store, &key) {
return key;
}
}
let mut label_count = 0;
let prefix = &key[..=base_identifier.len()];
let mut snapshotter = |_: &[u8], _: &Metric| {
label_count += 1;
};
let lifetime = meta.inner.lifetime;
for store in &meta.inner.send_in_pings {
glean
.storage()
.iter_store_from(lifetime, store, Some(prefix), &mut snapshotter);
}
let error = if label_count >= MAX_LABELS {
true
} else if label.len() > MAX_LABEL_LENGTH {
let msg = format!(
"label length {} exceeds maximum of {}",
label.len(),
MAX_LABEL_LENGTH
);
record_error(glean, meta, ErrorType::InvalidLabel, msg, None);
true
} else if label.chars().any(|c| !c.is_ascii() || c.is_ascii_control()) {
let msg = format!("label must be printable ascii, got '{}'", label);
record_error(glean, meta, ErrorType::InvalidLabel, msg, None);
true
} else {
false
};
if error {
combine_base_identifier_and_label(base_identifier, OTHER_LABEL)
} else {
key
}
}