/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2; -*- */ /* 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 http://mozilla.org/MPL/2.0/. */ #ifndef Telemetry_h__ #define Telemetry_h__ #include "mozilla/Maybe.h" #include "mozilla/TelemetryEventEnums.h" #include "mozilla/TelemetryHistogramEnums.h" #include "mozilla/TelemetryScalarEnums.h" #include "mozilla/TimeStamp.h" #include "nsString.h" #include "nsTArray.h" #include "nsXULAppAPI.h" /****************************************************************************** * This implements the Telemetry system. * It allows recording into histograms as well some more specialized data * points and gives access to the data. * * For documentation on how to add and use new Telemetry probes, see: * https://firefox-source-docs.mozilla.org/toolkit/components/telemetry/start/adding-a-new-probe.html * * For more general information on Telemetry see: * https://wiki.mozilla.org/Telemetry *****************************************************************************/ namespace mozilla { namespace Telemetry { struct HistogramAccumulation; struct KeyedHistogramAccumulation; struct ScalarAction; struct KeyedScalarAction; struct ChildEventData; struct EventExtraEntry { nsCString key; nsCString value; }; /** * Initialize the Telemetry service on the main thread at startup. */ void Init(); /** * Shutdown the Telemetry service. */ void ShutdownTelemetry(); /** * Adds sample to a histogram defined in TelemetryHistogramEnums.h * * @param id - histogram id * @param sample - value to record. */ void Accumulate(HistogramID id, uint32_t sample); /** * Adds an array of samples to a histogram defined in TelemetryHistograms.h * @param id - histogram id * @param samples - values to record. */ void Accumulate(HistogramID id, const nsTArray& samples); /** * Adds sample to a keyed histogram defined in TelemetryHistogramEnums.h * * @param id - keyed histogram id * @param key - the string key * @param sample - (optional) value to record, defaults to 1. */ void Accumulate(HistogramID id, const nsCString& key, uint32_t sample = 1); /** * Adds an array of samples to a histogram defined in TelemetryHistograms.h * @param id - histogram id * @param samples - values to record. * @param key - the string key */ void Accumulate(HistogramID id, const nsCString& key, const nsTArray& samples); /** * Adds a sample to a histogram defined in TelemetryHistogramEnums.h. * This function is here to support telemetry measurements from Java, * where we have only names and not numeric IDs. You should almost * certainly be using the by-enum-id version instead of this one. * * @param name - histogram name * @param sample - value to record */ void Accumulate(const char* name, uint32_t sample); /** * Adds a sample to a histogram defined in TelemetryHistogramEnums.h. * This function is here to support telemetry measurements from Java, * where we have only names and not numeric IDs. You should almost * certainly be using the by-enum-id version instead of this one. * * @param name - histogram name * @param key - the string key * @param sample - sample - (optional) value to record, defaults to 1. */ void Accumulate(const char* name, const nsCString& key, uint32_t sample = 1); /** * Adds sample to a categorical histogram defined in TelemetryHistogramEnums.h * This is the typesafe - and preferred - way to use the categorical histograms * by passing values from the corresponding Telemetry::LABELS_* enum. * * @param enumValue - Label value from one of the Telemetry::LABELS_* enums. */ template void AccumulateCategorical(E enumValue) { static_assert(IsCategoricalLabelEnum::value, "Only categorical label enum types are supported."); Accumulate(static_cast(CategoricalLabelId::value), static_cast(enumValue)); }; /** * Adds an array of samples to categorical histograms defined in * TelemetryHistogramEnums.h This is the typesafe - and preferred - way to use * the categorical histograms by passing values from the corresponding * Telemetry::LABELS_* enums. * * @param enumValues - Array of labels from Telemetry::LABELS_* enums. */ template void AccumulateCategorical(const nsTArray& enumValues) { static_assert(IsCategoricalLabelEnum::value, "Only categorical label enum types are supported."); nsTArray intSamples(enumValues.Length()); for (E aValue : enumValues) { intSamples.AppendElement(static_cast(aValue)); } HistogramID categoricalId = static_cast(CategoricalLabelId::value); Accumulate(categoricalId, intSamples); } /** * Adds sample to a keyed categorical histogram defined in * TelemetryHistogramEnums.h This is the typesafe - and preferred - way to use * the keyed categorical histograms by passing values from the corresponding * Telemetry::LABELS_* enum. * * @param key - the string key * @param enumValue - Label value from one of the Telemetry::LABELS_* enums. */ template void AccumulateCategoricalKeyed(const nsCString& key, E enumValue) { static_assert(IsCategoricalLabelEnum::value, "Only categorical label enum types are supported."); Accumulate(static_cast(CategoricalLabelId::value), key, static_cast(enumValue)); }; /** * Adds an array of samples to a keyed categorical histogram defined in * TelemetryHistogramEnums.h. This is the typesafe - and preferred - way to use * the keyed categorical histograms by passing values from the corresponding * Telemetry::LABELS_*enum. * * @param key - the string key * @param enumValue - Label value from one of the Telemetry::LABELS_* enums. */ template void AccumulateCategoricalKeyed(const nsCString& key, const nsTArray& enumValues) { static_assert(IsCategoricalLabelEnum::value, "Only categorical label enum types are supported."); nsTArray intSamples(enumValues.Length()); for (E aValue : enumValues) { intSamples.AppendElement(static_cast(aValue)); } Accumulate(static_cast(CategoricalLabelId::value), key, intSamples); }; /** * Adds sample to a categorical histogram defined in TelemetryHistogramEnums.h * This string will be matched against the labels defined in Histograms.json. * If the string does not match a label defined for the histogram, nothing will * be recorded. * * @param id - The histogram id. * @param label - A string label value that is defined in Histograms.json for * this histogram. */ void AccumulateCategorical(HistogramID id, const nsCString& label); /** * Adds an array of samples to a categorical histogram defined in * Histograms.json * * @param id - The histogram id * @param labels - The array of labels to accumulate */ void AccumulateCategorical(HistogramID id, const nsTArray& labels); /** * Adds time delta in milliseconds to a histogram defined in * TelemetryHistogramEnums.h * * @param id - histogram id * @param start - start time * @param end - end time */ void AccumulateTimeDelta(HistogramID id, TimeStamp start, TimeStamp end = TimeStamp::Now()); /** * Adds time delta in milliseconds to a keyed histogram defined in * TelemetryHistogramEnums.h * * @param id - histogram id * @param key - the string key * @param start - start time * @param end - end time */ void AccumulateTimeDelta(HistogramID id, const nsCString& key, TimeStamp start, TimeStamp end = TimeStamp::Now()); /** * Enable/disable recording for this histogram in this process at runtime. * Recording is enabled by default, unless listed at * kRecordingInitiallyDisabledIDs[]. id must be a valid telemetry enum, * * @param id - histogram id * @param enabled - whether or not to enable recording from now on. */ void SetHistogramRecordingEnabled(HistogramID id, bool enabled); const char* GetHistogramName(HistogramID id); class MOZ_RAII RuntimeAutoTimer { public: explicit RuntimeAutoTimer(Telemetry::HistogramID aId, TimeStamp aStart = TimeStamp::Now()) : id(aId), start(aStart) {} explicit RuntimeAutoTimer(Telemetry::HistogramID aId, const nsCString& aKey, TimeStamp aStart = TimeStamp::Now()) : id(aId), key(aKey), start(aStart) { MOZ_ASSERT(!aKey.IsEmpty(), "The key must not be empty."); } ~RuntimeAutoTimer() { if (key.IsEmpty()) { AccumulateTimeDelta(id, start); } else { AccumulateTimeDelta(id, key, start); } } private: Telemetry::HistogramID id; const nsCString key; const TimeStamp start; }; template class MOZ_RAII AutoTimer { public: explicit AutoTimer(TimeStamp aStart = TimeStamp::Now()) : start(aStart) {} explicit AutoTimer(const nsCString& aKey, TimeStamp aStart = TimeStamp::Now()) : start(aStart), key(aKey) { MOZ_ASSERT(!aKey.IsEmpty(), "The key must not be empty."); } ~AutoTimer() { if (key.IsEmpty()) { AccumulateTimeDelta(id, start); } else { AccumulateTimeDelta(id, key, start); } } private: const TimeStamp start; const nsCString key; }; class MOZ_RAII RuntimeAutoCounter { public: explicit RuntimeAutoCounter(HistogramID aId, uint32_t counterStart = 0) : id(aId), counter(counterStart) {} ~RuntimeAutoCounter() { Accumulate(id, counter); } // Prefix increment only, to encourage good habits. void operator++() { if (NS_WARN_IF(counter == std::numeric_limits::max())) { return; } ++counter; } // Chaining doesn't make any sense, don't return anything. void operator+=(int increment) { if (NS_WARN_IF(increment > 0 && static_cast(increment) > (std::numeric_limits::max() - counter))) { counter = std::numeric_limits::max(); return; } if (NS_WARN_IF(increment < 0 && static_cast(-increment) > counter)) { counter = std::numeric_limits::min(); return; } counter += increment; } private: HistogramID id; uint32_t counter; }; template class MOZ_RAII AutoCounter { public: explicit AutoCounter(uint32_t counterStart = 0) : counter(counterStart) {} ~AutoCounter() { Accumulate(id, counter); } // Prefix increment only, to encourage good habits. void operator++() { if (NS_WARN_IF(counter == std::numeric_limits::max())) { return; } ++counter; } // Chaining doesn't make any sense, don't return anything. void operator+=(int increment) { if (NS_WARN_IF(increment > 0 && static_cast(increment) > (std::numeric_limits::max() - counter))) { counter = std::numeric_limits::max(); return; } if (NS_WARN_IF(increment < 0 && static_cast(-increment) > counter)) { counter = std::numeric_limits::min(); return; } counter += increment; } private: uint32_t counter; }; /** * Indicates whether Telemetry base data recording is turned on. Added for * future uses. */ bool CanRecordBase(); /** * Indicates whether Telemetry extended data recording is turned on. This is * intended to guard calls to Accumulate when the statistic being recorded is * expensive to compute. */ bool CanRecordExtended(); /** * Indicates whether Telemetry release data recording is turned on. Usually * true. * * @see nsITelemetry.canRecordReleaseData */ bool CanRecordReleaseData(); /** * Indicates whether Telemetry pre-release data recording is turned on. Tends * to be true on pre-release channels. * * @see nsITelemetry.canRecordPrereleaseData */ bool CanRecordPrereleaseData(); /** * Records slow SQL statements for Telemetry reporting. * * @param statement - offending SQL statement to record * @param dbName - DB filename * @param delay - execution time in milliseconds */ void RecordSlowSQLStatement(const nsACString& statement, const nsACString& dbName, uint32_t delay); /** * Initialize I/O Reporting * Initially this only records I/O for files in the binary directory. * * @param aXreDir - XRE directory */ void InitIOReporting(nsIFile* aXreDir); /** * Set the profile directory. Once called, files in the profile directory will * be included in I/O reporting. We can't use the directory * service to obtain this information because it isn't running yet. */ void SetProfileDir(nsIFile* aProfD); /** * Called to inform Telemetry that startup has completed. */ void LeavingStartupStage(); /** * Called to inform Telemetry that shutdown is commencing. */ void EnteringShutdownStage(); /** * Thresholds for a statement to be considered slow, in milliseconds */ const uint32_t kSlowSQLThresholdForMainThread = 50; const uint32_t kSlowSQLThresholdForHelperThreads = 100; /** * Record a failed attempt at locking the user's profile. * * @param aProfileDir The profile directory whose lock attempt failed */ void WriteFailedProfileLock(nsIFile* aProfileDir); /** * Adds the value to the given scalar. * * @param aId The scalar enum id. * @param aValue The value to add to the scalar. */ void ScalarAdd(mozilla::Telemetry::ScalarID aId, uint32_t aValue); /** * Sets the scalar to the given value. * * @param aId The scalar enum id. * @param aValue The value to set the scalar to. */ void ScalarSet(mozilla::Telemetry::ScalarID aId, uint32_t aValue); /** * Sets the scalar to the given value. * * @param aId The scalar enum id. * @param aValue The value to set the scalar to. */ void ScalarSet(mozilla::Telemetry::ScalarID aId, bool aValue); /** * Sets the scalar to the given value. * * @param aId The scalar enum id. * @param aValue The value to set the scalar to, truncated to * 50 characters if exceeding that length. */ void ScalarSet(mozilla::Telemetry::ScalarID aId, const nsAString& aValue); /** * Sets the scalar to the maximum of the current and the passed value. * * @param aId The scalar enum id. * @param aValue The value the scalar is set to if its greater * than the current value. */ void ScalarSetMaximum(mozilla::Telemetry::ScalarID aId, uint32_t aValue); /** * Adds the value to the given scalar. * * @param aId The scalar enum id. * @param aKey The scalar key. * @param aValue The value to add to the scalar. */ void ScalarAdd(mozilla::Telemetry::ScalarID aId, const nsAString& aKey, uint32_t aValue); /** * Sets the scalar to the given value. * * @param aId The scalar enum id. * @param aKey The scalar key. * @param aValue The value to set the scalar to. */ void ScalarSet(mozilla::Telemetry::ScalarID aId, const nsAString& aKey, uint32_t aValue); /** * Sets the scalar to the given value. * * @param aId The scalar enum id. * @param aKey The scalar key. * @param aValue The value to set the scalar to. */ void ScalarSet(mozilla::Telemetry::ScalarID aId, const nsAString& aKey, bool aValue); /** * Sets the scalar to the maximum of the current and the passed value. * * @param aId The scalar enum id. * @param aKey The scalar key. * @param aValue The value the scalar is set to if its greater * than the current value. */ void ScalarSetMaximum(mozilla::Telemetry::ScalarID aId, const nsAString& aKey, uint32_t aValue); template class MOZ_RAII AutoScalarTimer { public: explicit AutoScalarTimer(TimeStamp aStart = TimeStamp::Now()) : start(aStart) {} explicit AutoScalarTimer(const nsAString& aKey, TimeStamp aStart = TimeStamp::Now()) : start(aStart), key(aKey) { MOZ_ASSERT(!aKey.IsEmpty(), "The key must not be empty."); } ~AutoScalarTimer() { TimeStamp end = TimeStamp::Now(); uint32_t delta = static_cast((end - start).ToMilliseconds()); if (key.IsEmpty()) { mozilla::Telemetry::ScalarSet(id, delta); } else { mozilla::Telemetry::ScalarSet(id, key, delta); } } private: const TimeStamp start; const nsString key; }; /** * Records an event. See the Event documentation for more information: * https://firefox-source-docs.mozilla.org/toolkit/components/telemetry/telemetry/collection/events.html * * @param aId The event enum id. * @param aValue Optional. The event value. * @param aExtra Optional. The event's extra key/value pairs. */ void RecordEvent(mozilla::Telemetry::EventID aId, const mozilla::Maybe& aValue, const mozilla::Maybe>& aExtra); /** * Enables recording of events in a category. * Events default to recording disabled. * This toggles recording for all events in the specified category. * * @param aCategory The category name. * @param aEnabled Whether recording should be enabled or disabled. */ void SetEventRecordingEnabled(const nsACString& aCategory, bool aEnabled); } // namespace Telemetry } // namespace mozilla #endif // Telemetry_h__