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/* vim:set ts=2 sw=2 sts=0 et: */
/* Any copyright is dedicated to the Public Domain.
* http://creativecommons.org/publicdomain/zero/1.0/
*/
#include "gtest/gtest.h"
#include "js/Conversions.h"
#include "mozilla/Telemetry.h"
#include "TelemetryFixture.h"
#include "TelemetryTestHelpers.h"
using namespace mozilla;
using namespace TelemetryTestHelpers;
TEST_F(TelemetryTestFixture, AccumulateCountHistogram) {
const uint32_t kExpectedValue = 200;
AutoJSContextWithGlobal cx(mCleanGlobal);
const char* telemetryTestCountName =
Telemetry::GetHistogramName(Telemetry::TELEMETRY_TEST_COUNT);
ASSERT_STREQ(telemetryTestCountName, "TELEMETRY_TEST_COUNT")
<< "The histogram name is wrong";
GetAndClearHistogram(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_COUNT"_ns,
false);
// Accumulate in the histogram
Telemetry::Accumulate(Telemetry::TELEMETRY_TEST_COUNT, kExpectedValue / 2);
Telemetry::Accumulate("TELEMETRY_TEST_COUNT", kExpectedValue / 2);
// Get a snapshot for all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, telemetryTestCountName, &snapshot,
false);
// Get the histogram from the snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), telemetryTestCountName, snapshot, &histogram);
// Get "sum" property from histogram
JS::Rooted<JS::Value> sum(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "sum", histogram, &sum);
// Check that the "sum" stored in the histogram matches with |kExpectedValue|
uint32_t uSum = 0;
JS::ToUint32(cx.GetJSContext(), sum, &uSum);
ASSERT_EQ(uSum, kExpectedValue)
<< "The histogram is not returning expected value";
}
TEST_F(TelemetryTestFixture, AccumulateKeyedCountHistogram) {
const uint32_t kExpectedValue = 100;
AutoJSContextWithGlobal cx(mCleanGlobal);
GetAndClearHistogram(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_KEYED_COUNT"_ns, true);
// Accumulate data in the provided key within the histogram
Telemetry::Accumulate(Telemetry::TELEMETRY_TEST_KEYED_COUNT, "sample"_ns,
kExpectedValue);
// Get a snapshot for all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_KEYED_COUNT",
&snapshot, true);
// Get the histogram from the snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_KEYED_COUNT", snapshot,
&histogram);
// Get "sample" property from histogram
JS::Rooted<JS::Value> expectedKeyData(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "sample", histogram, &expectedKeyData);
// Get "sum" property from keyed data
JS::Rooted<JS::Value> sum(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "sum", expectedKeyData, &sum);
// Check that the sum stored in the histogram matches with |kExpectedValue|
uint32_t uSum = 0;
JS::ToUint32(cx.GetJSContext(), sum, &uSum);
ASSERT_EQ(uSum, kExpectedValue)
<< "The histogram is not returning expected sum";
}
TEST_F(TelemetryTestFixture, TestKeyedKeysHistogram) {
AutoJSContextWithGlobal cx(mCleanGlobal);
JS::Rooted<JS::Value> testHistogram(cx.GetJSContext());
JS::Rooted<JS::Value> rval(cx.GetJSContext());
GetAndClearHistogram(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_KEYED_KEYS"_ns, true);
// Test the accumulation on both the allowed and unallowed keys, using
// the API that accepts histogram IDs.
Telemetry::Accumulate(Telemetry::TELEMETRY_TEST_KEYED_KEYS, "not-allowed"_ns,
1);
Telemetry::Accumulate(Telemetry::TELEMETRY_TEST_KEYED_KEYS, "testkey"_ns, 0);
// Do the same, using the API that accepts the histogram name as a string.
Telemetry::Accumulate("TELEMETRY_TEST_KEYED_KEYS", "not-allowed"_ns, 1);
Telemetry::Accumulate("TELEMETRY_TEST_KEYED_KEYS", "CommonKey"_ns, 1);
// Get a snapshot for all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_KEYED_KEYS",
&snapshot, true);
// Get the histogram from the snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_KEYED_KEYS", snapshot,
&histogram);
// Get "testkey" property from histogram and check that it stores the correct
// data.
JS::Rooted<JS::Value> expectedKeyData(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "testkey", histogram, &expectedKeyData);
ASSERT_TRUE(!expectedKeyData.isUndefined())
<< "Cannot find the expected key in the histogram data";
JS::Rooted<JS::Value> sum(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "sum", expectedKeyData, &sum);
uint32_t uSum = 0;
JS::ToUint32(cx.GetJSContext(), sum, &uSum);
ASSERT_EQ(uSum, 0U)
<< "The histogram is not returning expected sum for 'testkey'";
// Do the same for the "CommonKey" property.
GetProperty(cx.GetJSContext(), "CommonKey", histogram, &expectedKeyData);
ASSERT_TRUE(!expectedKeyData.isUndefined())
<< "Cannot find the expected key in the histogram data";
GetProperty(cx.GetJSContext(), "sum", expectedKeyData, &sum);
JS::ToUint32(cx.GetJSContext(), sum, &uSum);
ASSERT_EQ(uSum, 1U)
<< "The histogram is not returning expected sum for 'CommonKey'";
GetProperty(cx.GetJSContext(), "not-allowed", histogram, &expectedKeyData);
ASSERT_TRUE(expectedKeyData.isUndefined())
<< "Unallowed keys must not be recorded in the histogram data";
// The 'not-allowed' key accumulation for 'TELEMETRY_TESTED_KEYED_KEYS' was
// attemtped twice, so we expect the count of
// 'telemetry.accumulate_unknown_histogram_keys' to be 2
const uint32_t expectedAccumulateUnknownCount = 2;
JS::Rooted<JS::Value> scalarsSnapshot(cx.GetJSContext());
GetScalarsSnapshot(true, cx.GetJSContext(), &scalarsSnapshot);
CheckKeyedUintScalar("telemetry.accumulate_unknown_histogram_keys",
"TELEMETRY_TEST_KEYED_KEYS", cx.GetJSContext(),
scalarsSnapshot, expectedAccumulateUnknownCount);
}
TEST_F(TelemetryTestFixture, AccumulateCategoricalHistogram) {
const uint32_t kExpectedValue = 2;
AutoJSContextWithGlobal cx(mCleanGlobal);
GetAndClearHistogram(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_CATEGORICAL"_ns, false);
// Accumulate one unit into the categorical histogram with label
// Telemetry::LABELS_TELEMETRY_TEST_CATEGORICAL::CommonLabel
Telemetry::AccumulateCategorical(
Telemetry::LABELS_TELEMETRY_TEST_CATEGORICAL::CommonLabel);
// Accumulate another unit into the same categorical histogram using a string
// label
Telemetry::AccumulateCategorical(Telemetry::TELEMETRY_TEST_CATEGORICAL,
"CommonLabel"_ns);
// Get a snapshot for all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_CATEGORICAL",
&snapshot, false);
// Get our histogram from the snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_CATEGORICAL", snapshot,
&histogram);
// Get values object from histogram. Each entry in the object maps to a label
// in the histogram.
JS::Rooted<JS::Value> values(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "values", histogram, &values);
// Get the value for the label we care about
JS::Rooted<JS::Value> value(cx.GetJSContext());
GetElement(cx.GetJSContext(),
static_cast<uint32_t>(
Telemetry::LABELS_TELEMETRY_TEST_CATEGORICAL::CommonLabel),
values, &value);
// Check that the value stored in the histogram matches with |kExpectedValue|
uint32_t uValue = 0;
JS::ToUint32(cx.GetJSContext(), value, &uValue);
ASSERT_EQ(uValue, kExpectedValue)
<< "The histogram is not returning expected value";
}
TEST_F(TelemetryTestFixture, AccumulateKeyedCategoricalHistogram) {
const uint32_t kSampleExpectedValue = 2;
const uint32_t kOtherSampleExpectedValue = 1;
AutoJSContextWithGlobal cx(mCleanGlobal);
GetAndClearHistogram(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_KEYED_CATEGORICAL"_ns, true);
// Accumulate one unit into the categorical histogram with label
// Telemetry::LABELS_TELEMETRY_TEST_KEYED_CATEGORICAL::CommonLabel
Telemetry::AccumulateCategoricalKeyed(
"sample"_ns,
Telemetry::LABELS_TELEMETRY_TEST_KEYED_CATEGORICAL::CommonLabel);
// Accumulate another unit into the same categorical histogram
Telemetry::AccumulateCategoricalKeyed(
"sample"_ns,
Telemetry::LABELS_TELEMETRY_TEST_KEYED_CATEGORICAL::CommonLabel);
// Accumulate another unit into a different categorical histogram
Telemetry::AccumulateCategoricalKeyed(
"other-sample"_ns,
Telemetry::LABELS_TELEMETRY_TEST_KEYED_CATEGORICAL::CommonLabel);
// Get a snapshot for all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_KEYED_CATEGORICAL", &snapshot, true);
// Get the histogram from the snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_KEYED_CATEGORICAL", snapshot,
&histogram);
// Check that the sample histogram contains the values we expect
JS::Rooted<JS::Value> sample(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "sample", histogram, &sample);
// Get values object from sample. Each entry in the object maps to a label in
// the histogram.
JS::Rooted<JS::Value> sampleValues(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "values", sample, &sampleValues);
// Get the value for the label we care about
JS::Rooted<JS::Value> sampleValue(cx.GetJSContext());
GetElement(
cx.GetJSContext(),
static_cast<uint32_t>(
Telemetry::LABELS_TELEMETRY_TEST_KEYED_CATEGORICAL::CommonLabel),
sampleValues, &sampleValue);
// Check that the value stored in the histogram matches with
// |kSampleExpectedValue|
uint32_t uSampleValue = 0;
JS::ToUint32(cx.GetJSContext(), sampleValue, &uSampleValue);
ASSERT_EQ(uSampleValue, kSampleExpectedValue)
<< "The sample histogram is not returning expected value";
// Check that the other-sample histogram contains the values we expect
JS::Rooted<JS::Value> otherSample(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "other-sample", histogram, &otherSample);
// Get values object from the other-sample. Each entry in the object maps to a
// label in the histogram.
JS::Rooted<JS::Value> otherValues(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "values", otherSample, &otherValues);
// Get the value for the label we care about
JS::Rooted<JS::Value> otherValue(cx.GetJSContext());
GetElement(
cx.GetJSContext(),
static_cast<uint32_t>(
Telemetry::LABELS_TELEMETRY_TEST_KEYED_CATEGORICAL::CommonLabel),
otherValues, &otherValue);
// Check that the value stored in the histogram matches with
// |kOtherSampleExpectedValue|
uint32_t uOtherValue = 0;
JS::ToUint32(cx.GetJSContext(), otherValue, &uOtherValue);
ASSERT_EQ(uOtherValue, kOtherSampleExpectedValue)
<< "The other-sample histogram is not returning expected value";
}
TEST_F(TelemetryTestFixture, AccumulateCountHistogram_MultipleSamples) {
nsTArray<uint32_t> samples({4, 4, 4});
const uint32_t kExpectedSum = 12;
AutoJSContextWithGlobal cx(mCleanGlobal);
GetAndClearHistogram(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_COUNT"_ns,
false);
// Accumulate in histogram
Telemetry::Accumulate(Telemetry::TELEMETRY_TEST_COUNT, samples);
// Get a snapshot of all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_COUNT", &snapshot,
false);
// Get histogram from snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_COUNT", snapshot, &histogram);
// Get "sum" from histogram
JS::Rooted<JS::Value> sum(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "sum", histogram, &sum);
// Check that sum matches with aValue
uint32_t uSum = 0;
JS::ToUint32(cx.GetJSContext(), sum, &uSum);
ASSERT_EQ(uSum, kExpectedSum)
<< "This histogram is not returning expected value";
}
TEST_F(TelemetryTestFixture, AccumulateLinearHistogram_MultipleSamples) {
nsTArray<uint32_t> samples({4, 4, 4});
const uint32_t kExpectedCount = 3;
AutoJSContextWithGlobal cx(mCleanGlobal);
GetAndClearHistogram(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_LINEAR"_ns, false);
// Accumulate in the histogram
Telemetry::Accumulate(Telemetry::TELEMETRY_TEST_LINEAR, samples);
// Get a snapshot of all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_LINEAR",
&snapshot, false);
// Get histogram from snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_LINEAR", snapshot, &histogram);
// Get "values" object from histogram
JS::Rooted<JS::Value> values(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "values", histogram, &values);
// Index 0 is only for values less than 'low'. Values within range start at
// index 1
JS::Rooted<JS::Value> count(cx.GetJSContext());
const uint32_t index = 1;
GetElement(cx.GetJSContext(), index, values, &count);
// Check that this count matches with nSamples
uint32_t uCount = 0;
JS::ToUint32(cx.GetJSContext(), count, &uCount);
ASSERT_EQ(uCount, kExpectedCount)
<< "The histogram did not accumulate the correct number of values";
}
TEST_F(TelemetryTestFixture, AccumulateLinearHistogram_DifferentSamples) {
nsTArray<uint32_t> samples(
{4, 8, 2147483646, uint32_t(INT_MAX) + 1, UINT32_MAX});
AutoJSContextWithGlobal cx(mCleanGlobal);
mTelemetry->ClearScalars();
GetAndClearHistogram(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_LINEAR"_ns, false);
// Accumulate in histogram
Telemetry::Accumulate(Telemetry::TELEMETRY_TEST_LINEAR, samples);
// Get a snapshot of all histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_LINEAR",
&snapshot, false);
// Get histogram from snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_LINEAR", snapshot, &histogram);
// Get values object from histogram
JS::Rooted<JS::Value> values(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "values", histogram, &values);
// Get values in first and last buckets
JS::Rooted<JS::Value> countFirst(cx.GetJSContext());
JS::Rooted<JS::Value> countLast(cx.GetJSContext());
const uint32_t firstIndex = 1;
// Buckets are indexed by their start value
const uint32_t lastIndex = INT32_MAX - 1;
GetElement(cx.GetJSContext(), firstIndex, values, &countFirst);
GetElement(cx.GetJSContext(), lastIndex, values, &countLast);
// Check that the values match
uint32_t uCountFirst = 0;
uint32_t uCountLast = 0;
JS::ToUint32(cx.GetJSContext(), countFirst, &uCountFirst);
JS::ToUint32(cx.GetJSContext(), countLast, &uCountLast);
const uint32_t kExpectedCountFirst = 2;
// We expect 2147483646 to be in the last bucket, as well the two samples
// above 2^31 (prior to bug 1438335, values between INT_MAX and UINT32_MAX
// would end up as 0s)
const uint32_t kExpectedCountLast = 3;
ASSERT_EQ(uCountFirst, kExpectedCountFirst)
<< "The first bucket did not accumulate the correct number of values";
ASSERT_EQ(uCountLast, kExpectedCountLast)
<< "The last bucket did not accumulate the correct number of values";
// We accumulated two values that had to be clamped. We expect the count in
// 'telemetry.accumulate_clamped_values' to be 2 (only one storage).
const uint32_t expectedAccumulateClampedCount = 2;
JS::Rooted<JS::Value> scalarsSnapshot(cx.GetJSContext());
GetScalarsSnapshot(true, cx.GetJSContext(), &scalarsSnapshot);
CheckKeyedUintScalar("telemetry.accumulate_clamped_values",
"TELEMETRY_TEST_LINEAR", cx.GetJSContext(),
scalarsSnapshot, expectedAccumulateClampedCount);
}
TEST_F(TelemetryTestFixture, AccumulateKeyedCountHistogram_MultipleSamples) {
const nsTArray<uint32_t> samples({5, 10, 15});
const uint32_t kExpectedSum = 5 + 10 + 15;
AutoJSContextWithGlobal cx(mCleanGlobal);
GetAndClearHistogram(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_KEYED_COUNT"_ns, true);
// Accumulate data in the provided key within the histogram
Telemetry::Accumulate(Telemetry::TELEMETRY_TEST_KEYED_COUNT, "sample"_ns,
samples);
// Get a snapshot for all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_KEYED_COUNT",
&snapshot, true);
// Get the histogram from the snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_KEYED_COUNT", snapshot,
&histogram);
// Get "sample" property from histogram
JS::Rooted<JS::Value> expectedKeyData(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "sample", histogram, &expectedKeyData);
// Get "sum" property from keyed data
JS::Rooted<JS::Value> sum(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "sum", expectedKeyData, &sum);
// Check that the sum stored in the histogram matches with |kExpectedSum|
uint32_t uSum = 0;
JS::ToUint32(cx.GetJSContext(), sum, &uSum);
ASSERT_EQ(uSum, kExpectedSum)
<< "The histogram is not returning expected sum";
}
TEST_F(TelemetryTestFixture, TestKeyedLinearHistogram_MultipleSamples) {
AutoJSContextWithGlobal cx(mCleanGlobal);
mTelemetry->ClearScalars();
GetAndClearHistogram(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_KEYED_LINEAR"_ns, true);
const nsTArray<uint32_t> samples({1, 5, 250000, UINT_MAX});
// Test the accumulation on the key 'testkey', using
// the API that accepts histogram IDs.
Telemetry::Accumulate(Telemetry::TELEMETRY_TEST_KEYED_LINEAR, "testkey"_ns,
samples);
// Get a snapshot for all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_KEYED_LINEAR",
&snapshot, true);
// Get the histogram from the snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_KEYED_LINEAR", snapshot,
&histogram);
// Get "testkey" property from histogram.
JS::Rooted<JS::Value> expectedKeyData(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "testkey", histogram, &expectedKeyData);
ASSERT_TRUE(!expectedKeyData.isUndefined())
<< "Cannot find the expected key in the histogram data";
// Get values object from 'testkey' histogram.
JS::Rooted<JS::Value> values(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "values", expectedKeyData, &values);
// Get values in first and last buckets.
JS::Rooted<JS::Value> countFirst(cx.GetJSContext());
JS::Rooted<JS::Value> countLast(cx.GetJSContext());
const uint32_t firstIndex = 1;
// Buckets are indexed by their start value
const uint32_t lastIndex = 250000;
GetElement(cx.GetJSContext(), firstIndex, values, &countFirst);
GetElement(cx.GetJSContext(), lastIndex, values, &countLast);
// Check that the values match.
uint32_t uCountFirst = 0;
uint32_t uCountLast = 0;
JS::ToUint32(cx.GetJSContext(), countFirst, &uCountFirst);
JS::ToUint32(cx.GetJSContext(), countLast, &uCountLast);
const uint32_t kExpectedCountFirst = 2;
const uint32_t kExpectedCountLast = 2;
ASSERT_EQ(uCountFirst, kExpectedCountFirst)
<< "The first bucket did not accumulate the correct number of values for "
"key 'testkey'";
ASSERT_EQ(uCountLast, kExpectedCountLast)
<< "The last bucket did not accumulate the correct number of values for "
"key 'testkey'";
// We accumulated one keyed values that had to be clamped. We expect the
// count in 'telemetry.accumulate_clamped_values' to be 1
const uint32_t expectedAccumulateClampedCount = 1;
JS::Rooted<JS::Value> scalarsSnapshot(cx.GetJSContext());
GetScalarsSnapshot(true, cx.GetJSContext(), &scalarsSnapshot);
CheckKeyedUintScalar("telemetry.accumulate_clamped_values",
"TELEMETRY_TEST_KEYED_LINEAR", cx.GetJSContext(),
scalarsSnapshot, expectedAccumulateClampedCount);
}
TEST_F(TelemetryTestFixture, TestKeyedKeysHistogram_MultipleSamples) {
AutoJSContextWithGlobal cx(mCleanGlobal);
mTelemetry->ClearScalars();
const nsTArray<uint32_t> samples({false, false, true, 32, true});
GetAndClearHistogram(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_KEYED_KEYS"_ns, true);
// Test the accumulation on both the allowed and unallowed keys, using
// the API that accepts histogram IDs.
Telemetry::Accumulate(Telemetry::TELEMETRY_TEST_KEYED_KEYS, "not-allowed"_ns,
samples);
Telemetry::Accumulate(Telemetry::TELEMETRY_TEST_KEYED_KEYS, "testkey"_ns,
samples);
// Get a snapshot for all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_KEYED_KEYS",
&snapshot, true);
// Get the histogram from the snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_KEYED_KEYS", snapshot,
&histogram);
// Get "testkey" property from histogram and check that it stores the correct
// data.
JS::Rooted<JS::Value> testKeyData(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "testkey", histogram, &testKeyData);
ASSERT_TRUE(!testKeyData.isUndefined())
<< "Cannot find the key 'testkey' in the histogram data";
JS::Rooted<JS::Value> values(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "values", testKeyData, &values);
// Get values in buckets 0,1,2
const uint32_t falseIndex = 0;
const uint32_t trueIndex = 1;
const uint32_t otherIndex = 2;
JS::Rooted<JS::Value> countFalse(cx.GetJSContext());
JS::Rooted<JS::Value> countTrue(cx.GetJSContext());
JS::Rooted<JS::Value> countOther(cx.GetJSContext());
GetElement(cx.GetJSContext(), falseIndex, values, &countFalse);
GetElement(cx.GetJSContext(), trueIndex, values, &countTrue);
GetElement(cx.GetJSContext(), otherIndex, values, &countOther);
uint32_t uCountFalse = 0;
uint32_t uCountTrue = 0;
uint32_t uCountOther = 0;
JS::ToUint32(cx.GetJSContext(), countFalse, &uCountFalse);
JS::ToUint32(cx.GetJSContext(), countTrue, &uCountTrue);
JS::ToUint32(cx.GetJSContext(), countOther, &uCountOther);
const uint32_t kExpectedCountFalse = 2;
const uint32_t kExpectedCountTrue = 3;
const uint32_t kExpectedCountOther = 0;
ASSERT_EQ(uCountFalse, kExpectedCountFalse)
<< "The histogram did not accumulate the correct number of 'false' "
"booleans for key 'testkey'";
ASSERT_EQ(uCountTrue, kExpectedCountTrue)
<< "The histogram did not accumulate the correct number of 'true' "
"booleans for key 'testkey'";
ASSERT_EQ(uCountOther, kExpectedCountOther)
<< "The histogram did not accumulate the correct number of undefined "
"values for key 'testkey'";
// Here we check that we are not accumulating to a different (but still
// 'allowed') key. Get "CommonKey" property from histogram and check that it
// has no data. Since we accumulated no data to it, commonKeyData should be
// undefined.
JS::Rooted<JS::Value> commonKeyData(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "CommonKey", histogram, &commonKeyData);
ASSERT_TRUE(commonKeyData.isUndefined())
<< "Found data in key 'CommonKey' even though we accumulated no data to "
"it";
// Here we check that our function does not allow accumulation into unallowed
// keys. Get 'not-allowed' property from histogram and check that this also
// has no data. This should contain no data because this key is not allowed.
JS::Rooted<JS::Value> notAllowedKeyData(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "not-allowed", histogram, ¬AllowedKeyData);
ASSERT_TRUE(notAllowedKeyData.isUndefined())
<< "Found data in key 'not-allowed' even though accumuling data to it is "
"not allowed";
// The 'not-allowed' key accumulation for 'TELEMETRY_TESTED_KEYED_KEYS' was
// attemtped once, so we expect the count of
// 'telemetry.accumulate_unknown_histogram_keys' to be 1
const uint32_t expectedAccumulateUnknownCount = 1;
JS::Rooted<JS::Value> scalarsSnapshot(cx.GetJSContext());
GetScalarsSnapshot(true, cx.GetJSContext(), &scalarsSnapshot);
CheckKeyedUintScalar("telemetry.accumulate_unknown_histogram_keys",
"TELEMETRY_TEST_KEYED_KEYS", cx.GetJSContext(),
scalarsSnapshot, expectedAccumulateUnknownCount);
}
TEST_F(TelemetryTestFixture,
AccumulateCategoricalHistogram_MultipleStringLabels) {
const uint32_t kExpectedValue = 2;
const nsTArray<nsCString> labels({"CommonLabel"_ns, "CommonLabel"_ns});
AutoJSContextWithGlobal cx(mCleanGlobal);
GetAndClearHistogram(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_CATEGORICAL"_ns, false);
// Accumulate the units into a categorical histogram using a string label
Telemetry::AccumulateCategorical(Telemetry::TELEMETRY_TEST_CATEGORICAL,
labels);
// Get a snapshot for all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_CATEGORICAL",
&snapshot, false);
// Get our histogram from the snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_CATEGORICAL", snapshot,
&histogram);
// Get values object from histogram. Each entry in the object maps to a label
// in the histogram.
JS::Rooted<JS::Value> values(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "values", histogram, &values);
// Get the value for the label we care about
JS::Rooted<JS::Value> value(cx.GetJSContext());
GetElement(cx.GetJSContext(),
static_cast<uint32_t>(
Telemetry::LABELS_TELEMETRY_TEST_CATEGORICAL::CommonLabel),
values, &value);
// Check that the value stored in the histogram matches with |kExpectedValue|
uint32_t uValue = 0;
JS::ToUint32(cx.GetJSContext(), value, &uValue);
ASSERT_EQ(uValue, kExpectedValue)
<< "The histogram is not returning expected value";
// Now we check for no accumulation when a bad label is present in the array.
//
// The 'values' property is not initialized unless data is accumulated so
// keeping another test to check for this case alone is wasteful as we will
// have to accumulate some data anyway.
const nsTArray<nsCString> badLabelArray({"CommonLabel"_ns, "BadLabel"_ns});
// Try to accumulate the array into the histogram.
Telemetry::AccumulateCategorical(Telemetry::TELEMETRY_TEST_CATEGORICAL,
badLabelArray);
// Get snapshot of all the histograms
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_CATEGORICAL",
&snapshot, false);
// Get our histogram from the snapshot
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_CATEGORICAL", snapshot,
&histogram);
// Get values array from histogram
GetProperty(cx.GetJSContext(), "values", histogram, &values);
// Get the value for the label we care about
GetElement(cx.GetJSContext(),
static_cast<uint32_t>(
Telemetry::LABELS_TELEMETRY_TEST_CATEGORICAL::CommonLabel),
values, &value);
// Check that the value stored in the histogram matches with |kExpectedValue|
uValue = 0;
JS::ToUint32(cx.GetJSContext(), value, &uValue);
ASSERT_EQ(uValue, kExpectedValue)
<< "The histogram accumulated data when it should not have";
}
TEST_F(TelemetryTestFixture,
AccumulateCategoricalHistogram_MultipleEnumValues) {
const uint32_t kExpectedValue = 2;
const nsTArray<Telemetry::LABELS_TELEMETRY_TEST_CATEGORICAL> enumLabels(
{Telemetry::LABELS_TELEMETRY_TEST_CATEGORICAL::CommonLabel,
Telemetry::LABELS_TELEMETRY_TEST_CATEGORICAL::CommonLabel});
AutoJSContextWithGlobal cx(mCleanGlobal);
GetAndClearHistogram(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_CATEGORICAL"_ns, false);
// Accumulate the units into a categorical histogram using the enumLabels
// array
Telemetry::AccumulateCategorical<
Telemetry::LABELS_TELEMETRY_TEST_CATEGORICAL>(enumLabels);
// Get a snapshot for all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_CATEGORICAL",
&snapshot, false);
// Get our histogram from the snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_CATEGORICAL", snapshot,
&histogram);
// Get values object from histogram. Each entry in the object maps to a label
// in the histogram.
JS::Rooted<JS::Value> values(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "values", histogram, &values);
// Get the value for the label we care about
JS::Rooted<JS::Value> value(cx.GetJSContext());
GetElement(cx.GetJSContext(),
static_cast<uint32_t>(
Telemetry::LABELS_TELEMETRY_TEST_CATEGORICAL::CommonLabel),
values, &value);
// Check that the value stored in the histogram matches with |kExpectedValue|
uint32_t uValue = 0;
JS::ToUint32(cx.GetJSContext(), value, &uValue);
ASSERT_EQ(uValue, kExpectedValue)
<< "The histogram is not returning expected value";
}
TEST_F(TelemetryTestFixture,
AccumulateKeyedCategoricalHistogram_MultipleEnumValues) {
const uint32_t kExpectedCommonLabel = 2;
const uint32_t kExpectedLabel2 = 1;
const nsTArray<Telemetry::LABELS_TELEMETRY_TEST_KEYED_CATEGORICAL> enumLabels(
{Telemetry::LABELS_TELEMETRY_TEST_KEYED_CATEGORICAL::CommonLabel,
Telemetry::LABELS_TELEMETRY_TEST_KEYED_CATEGORICAL::CommonLabel,
Telemetry::LABELS_TELEMETRY_TEST_KEYED_CATEGORICAL::Label2});
AutoJSContextWithGlobal cx(mCleanGlobal);
GetAndClearHistogram(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_KEYED_CATEGORICAL"_ns, true);
// Accumulate the array into the categorical keyed histogram
Telemetry::AccumulateCategoricalKeyed("sampleKey"_ns, enumLabels);
// Get a snapshot for all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_KEYED_CATEGORICAL", &snapshot, true);
// Get the histogram from the snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_KEYED_CATEGORICAL", snapshot,
&histogram);
// Check that the sampleKey histogram contains correct number of CommonLabel
// samples
JS::Rooted<JS::Value> sample(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "sampleKey", histogram, &sample);
// Get values object from the sample. Each entry in the object maps to a label
// in the histogram.
JS::Rooted<JS::Value> sampleKeyValues(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "values", sample, &sampleKeyValues);
// Get the count of CommonLabel
JS::Rooted<JS::Value> commonLabelValue(cx.GetJSContext());
GetElement(
cx.GetJSContext(),
static_cast<uint32_t>(
Telemetry::LABELS_TELEMETRY_TEST_KEYED_CATEGORICAL::CommonLabel),
sampleKeyValues, &commonLabelValue);
// Check that the value stored in the histogram matches with
// |kExpectedCommonLabel|
uint32_t uCommonLabelValue = 0;
JS::ToUint32(cx.GetJSContext(), commonLabelValue, &uCommonLabelValue);
ASSERT_EQ(uCommonLabelValue, kExpectedCommonLabel)
<< "The sampleKey histogram did not accumulate the correct number of "
"CommonLabel samples";
// Check that the sampleKey histogram contains the correct number of Label2
// values Get the count of Label2
JS::Rooted<JS::Value> label2Value(cx.GetJSContext());
GetElement(cx.GetJSContext(),
static_cast<uint32_t>(
Telemetry::LABELS_TELEMETRY_TEST_KEYED_CATEGORICAL::Label2),
sampleKeyValues, &label2Value);
// Check that the value stored in the histogram matches with |kExpectedLabel2|
uint32_t uLabel2Value = 0;
JS::ToUint32(cx.GetJSContext(), label2Value, &uLabel2Value);
ASSERT_EQ(uLabel2Value, kExpectedLabel2)
<< "The sampleKey histogram did not accumulate the correct number of "
"Label2 samples";
}
TEST_F(TelemetryTestFixture, AccumulateTimeDelta) {
const uint32_t kExpectedValue = 100;
const TimeStamp start = TimeStamp::Now();
const TimeDuration delta = TimeDuration::FromMilliseconds(50);
AutoJSContextWithGlobal cx(mCleanGlobal);
GetAndClearHistogram(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_COUNT"_ns,
false);
// Accumulate in the histogram
Telemetry::AccumulateTimeDelta(Telemetry::TELEMETRY_TEST_COUNT, start - delta,
start);
Telemetry::AccumulateTimeDelta(Telemetry::TELEMETRY_TEST_COUNT, start - delta,
start);
Telemetry::AccumulateTimeDelta(Telemetry::TELEMETRY_TEST_COUNT, start, start);
// end > start timestamp gives zero contribution
Telemetry::AccumulateTimeDelta(Telemetry::TELEMETRY_TEST_COUNT, start + delta,
start);
// Get a snapshot for all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_COUNT", &snapshot,
false);
// Get the histogram from the snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_COUNT", snapshot, &histogram);
// Get "sum" property from histogram
JS::Rooted<JS::Value> sum(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "sum", histogram, &sum);
// Check that the "sum" stored in the histogram matches with |kExpectedValue|
uint32_t uSum = 0;
JS::ToUint32(cx.GetJSContext(), sum, &uSum);
ASSERT_EQ(uSum, kExpectedValue)
<< "The histogram is not returning expected value";
}
TEST_F(TelemetryTestFixture, AccumulateKeyedTimeDelta) {
const uint32_t kExpectedValue = 100;
const TimeStamp start = TimeStamp::Now();
const TimeDuration delta = TimeDuration::FromMilliseconds(50);
AutoJSContextWithGlobal cx(mCleanGlobal);
GetAndClearHistogram(cx.GetJSContext(), mTelemetry,
"TELEMETRY_TEST_KEYED_COUNT"_ns, true);
// Accumulate time delta in the provided key within the histogram
Telemetry::AccumulateTimeDelta(Telemetry::TELEMETRY_TEST_KEYED_COUNT,
"sample"_ns, start - delta, start);
Telemetry::AccumulateTimeDelta(Telemetry::TELEMETRY_TEST_KEYED_COUNT,
"sample"_ns, start - delta, start);
// end > start timestamp gives zero contribution
Telemetry::AccumulateTimeDelta(Telemetry::TELEMETRY_TEST_KEYED_COUNT,
"sample"_ns, start + delta, start);
Telemetry::AccumulateTimeDelta(Telemetry::TELEMETRY_TEST_KEYED_COUNT,
"sample"_ns, start, start);
// Get a snapshot for all the histograms
JS::Rooted<JS::Value> snapshot(cx.GetJSContext());
GetSnapshots(cx.GetJSContext(), mTelemetry, "TELEMETRY_TEST_KEYED_COUNT",
&snapshot, true);
// Get the histogram from the snapshot
JS::Rooted<JS::Value> histogram(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "TELEMETRY_TEST_KEYED_COUNT", snapshot,
&histogram);
// Get "sample" property from histogram
JS::Rooted<JS::Value> expectedKeyData(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "sample", histogram, &expectedKeyData);
// Get "sum" property from keyed data
JS::Rooted<JS::Value> sum(cx.GetJSContext());
GetProperty(cx.GetJSContext(), "sum", expectedKeyData, &sum);
// Check that the sum stored in the histogram matches with |kExpectedValue|
uint32_t uSum = 0;
JS::ToUint32(cx.GetJSContext(), sum, &uSum);
ASSERT_EQ(uSum, kExpectedValue)
<< "The histogram is not returning expected sum";
}
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