// 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, You can obtain one at https://mozilla.org/MPL/2.0/.
mod common;
use crate::common::*;
use chrono::prelude::*;
use serde_json::json;
use glean_core::metrics::*;
use glean_core::storage::StorageManager;
use glean_core::{CommonMetricData, Lifetime};
// SKIPPED from glean-ac: datetime deserializer should correctly parse integers
// This test doesn't really apply to rkv
#[test]
fn datetime_serializer_should_correctly_serialize_datetime() {
let expected_value =
"1983-04-13T12:09+00:00";
let (
mut tempdir, _) = tempdir();
{
// We give tempdir to the `new_glean` function...
let (glean, dir) = new_glean(Some(tempdir));
// And then we get it back once that function returns.
tempdir = dir;
let metric = DatetimeMetric::new(
CommonMetricData {
name:
"datetime_metric".into(),
category:
"telemetry".into(),
send_in_pings: vec![
"store1".into()],
disabled:
false,
lifetime: Lifetime::User,
..Default::default()
},
TimeUnit::Minute,
);
// `1983-04-13T12:09:14.274+00:00` will be truncated to Minute resolution.
let dt = FixedOffset::east(
0)
.ymd(
1983,
4,
13)
.and_hms_milli(
12,
9,
14,
274);
metric.set_sync(&glean, Some(dt.into()));
let snapshot = StorageManager
.snapshot_as_json(glean.storage(),
"store1",
true)
.unwrap();
assert_eq!(
json!({
"datetime": {
"telemetry.datetime_metric": expected_value}}),
snapshot
);
}
// Make a new Glean instance here, which should force reloading of the data from disk
// so we can ensure it persisted, because it has User lifetime
{
let (glean, _t) = new_glean(Some(tempdir));
let snapshot = StorageManager
.snapshot_as_json(glean.storage(),
"store1",
true)
.unwrap();
assert_eq!(
json!({
"datetime": {
"telemetry.datetime_metric": expected_value}}),
snapshot
);
}
}
#[test]
fn set_value_properly_sets_the_value_in_all_stores() {
let (glean, _t) = new_glean(None);
let store_names: Vec<String> = vec![
"store1".into(),
"store2".into()];
let metric = DatetimeMetric::new(
CommonMetricData {
name:
"datetime_metric".into(),
category:
"telemetry".into(),
send_in_pings: store_names.clone(),
disabled:
false,
lifetime: Lifetime::Ping,
..Default::default()
},
TimeUnit::Nanosecond,
);
// `1983-04-13T12:09:14.274+00:00` will be truncated to Minute resolution.
let dt = FixedOffset::east(
0)
.ymd(
1983,
4,
13)
.and_hms_nano(
12,
9,
14,
1_
560_
274);
metric.set_sync(&glean, Some(dt.into()));
for store_name
in store_names {
assert_eq!(
"1983-04-13T12:09:14.001560274+00:00",
metric
.get_value_as_string(&glean, Some(store_name))
.unwrap()
);
}
}
// SKIPPED from glean-ac: getSnapshot() returns null if nothing is recorded in the store
// This test doesn't really apply to rkv
// SKIPPED from glean-ac: getSnapshot() correctly clears the stores
// This test doesn't really apply to rkv
#[test]
fn test_that_truncation_works() {
let (glean, _t) = new_glean(None);
// `1985-07-03T12:09:14.000560274+01:00`
let high_res_datetime = FixedOffset::east(
3600)
.ymd(
1985,
7,
3)
.and_hms_nano(
12,
9,
14,
1_
560_
274);
let store_name =
"store1";
// Create an helper struct for defining the truncation cases.
struct TestCase {
case_name: &
'static str,
desired_resolution: TimeUnit,
expected_result: &
'static str,
}
// Define the single test cases.
let test_cases = vec![
TestCase {
case_name:
"nano",
desired_resolution: TimeUnit::Nanosecond,
expected_result:
"1985-07-03T12:09:14.001560274+01:00",
},
TestCase {
case_name:
"micro",
desired_resolution: TimeUnit::Microsecond,
expected_result:
"1985-07-03T12:09:14.001560+01:00",
},
TestCase {
case_name:
"milli",
desired_resolution: TimeUnit::Millisecond,
expected_result:
"1985-07-03T12:09:14.001+01:00",
},
TestCase {
case_name:
"second",
desired_resolution: TimeUnit::Second,
expected_result:
"1985-07-03T12:09:14+01:00",
},
TestCase {
case_name:
"minute",
desired_resolution: TimeUnit::Minute,
expected_result:
"1985-07-03T12:09+01:00",
},
TestCase {
case_name:
"hour",
desired_resolution: TimeUnit::Hour,
expected_result:
"1985-07-03T12+01:00",
},
TestCase {
case_name:
"day",
desired_resolution: TimeUnit::Day,
expected_result:
"1985-07-03+01:00",
},
];
// Execute them all.
for t
in test_cases {
let metric = DatetimeMetric::new(
CommonMetricData {
name: format!(
"datetime_metric_{}", t.case_name),
category:
"telemetry".into(),
send_in_pings: vec![store_name.into()],
disabled:
false,
lifetime: Lifetime::User,
..Default::default()
},
t.desired_resolution,
);
metric.set_sync(&glean, Some(high_res_datetime.into()));
assert_eq!(
t.expected_result,
metric
.get_value_as_string(&glean, Some(store_name.into()))
.unwrap()
);
}
}