gecko-dev/toolkit/components/telemetry/nsITelemetry.idl

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/* -*- Mode: C++; c-basic-offset: 2; indent-tabs-mode: nil; tab-width: 8 -*- */
/* 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/. */
#include "nsISupports.idl"
#include "nsIFile.idl"
[scriptable,function, uuid(3d3b9075-5549-4244-9c08-b64fefa1dd60)]
interface nsIFetchTelemetryDataCallback : nsISupports
{
void complete();
};
[scriptable, uuid(273d2dd0-6c63-475a-b864-cb65160a1909)]
interface nsITelemetry : nsISupports
{
/**
* Histogram types:
* HISTOGRAM_EXPONENTIAL - buckets increase exponentially
* HISTOGRAM_LINEAR - buckets increase linearly
* HISTOGRAM_BOOLEAN - For storing 0/1 values
* HISTOGRAM_FLAG - For storing a single value; its count is always == 1.
* HISTOGRAM_COUNT - For storing counter values without bucketing.
* HISTOGRAM_CATEGORICAL - For storing enumerated values by label.
*/
const unsigned long HISTOGRAM_EXPONENTIAL = 0;
const unsigned long HISTOGRAM_LINEAR = 1;
const unsigned long HISTOGRAM_BOOLEAN = 2;
const unsigned long HISTOGRAM_FLAG = 3;
const unsigned long HISTOGRAM_COUNT = 4;
const unsigned long HISTOGRAM_CATEGORICAL = 5;
/**
* Scalar types:
* SCALAR_COUNT - for storing a numeric value
* SCALAR_STRING - for storing a string value
* SCALAR_BOOLEAN - for storing a boolean value
*/
const unsigned long SCALAR_COUNT = 0;
const unsigned long SCALAR_STRING = 1;
const unsigned long SCALAR_BOOLEAN = 2;
/**
* Dataset types:
* DATASET_RELEASE_CHANNEL_OPTOUT - the basic dataset that is on-by-default on all channels
* DATASET_RELEASE_CHANNEL_OPTIN - the extended dataset that is opt-in on release,
* opt-out on pre-release channels.
*/
const unsigned long DATASET_RELEASE_CHANNEL_OPTOUT = 0;
const unsigned long DATASET_RELEASE_CHANNEL_OPTIN = 1;
/**
* An object containing a snapshot from all of the currently registered histograms.
* { name1: {data1}, name2:{data2}...}
* where data is consists of the following properties:
* min - Minimal bucket size
* max - Maximum bucket size
* histogram_type - HISTOGRAM_EXPONENTIAL, HISTOGRAM_LINEAR, HISTOGRAM_BOOLEAN
* or HISTOGRAM_COUNT
* counts - array representing contents of the buckets in the histogram
* ranges - an array with calculated bucket sizes
* sum - sum of the bucket contents
* static - true for histograms defined in TelemetryHistograms.h, false for ones defined with newHistogram
*/
[implicit_jscontext]
readonly attribute jsval histogramSnapshots;
/**
* Get a snapshot of the internally duplicated subsession histograms.
* @param clear Whether to clear out the subsession histograms after snapshotting.
* @return An object as histogramSnapshots, except this contains the internally duplicated histograms for subsession telemetry.
*/
[implicit_jscontext]
jsval snapshotSubsessionHistograms([optional] in boolean clear);
/**
* The amount of time, in milliseconds, that the last session took
* to shutdown. Reads as 0 to indicate failure.
*/
readonly attribute uint32_t lastShutdownDuration;
/**
* The number of failed profile lock attempts that have occurred prior to
* successfully locking the profile
*/
readonly attribute uint32_t failedProfileLockCount;
/*
* An object containing information about slow SQL statements.
*
* {
* mainThread: { "sqlString1": [<hit count>, <total time>], "sqlString2": [...], ... },
* otherThreads: { "sqlString3": [<hit count>, <total time>], "sqlString4": [...], ... }
* }
*
* where:
* mainThread: Slow statements that executed on the main thread
* otherThreads: Slow statements that executed on a non-main thread
* sqlString - String of the offending statement (see note)
* hit count - The number of times this statement required longer than the threshold time to execute
* total time - The sum of all execution times above the threshold time for this statement
*
* Note that dynamic SQL strings and SQL strings executed against addon DBs could contain private information.
* This property represents such SQL as aggregate database-level stats and the sqlString contains the database
* filename instead.
*/
[implicit_jscontext]
readonly attribute jsval slowSQL;
/*
* See slowSQL above.
*
* An object containing full strings of every slow SQL statement if toolkit.telemetry.debugSlowSql = true
* The returned SQL strings may contain private information and should not be reported to Telemetry.
*/
[implicit_jscontext]
readonly attribute jsval debugSlowSQL;
/*
* An object containing information about Webrtc related stats. For now it
* only contains local and remote ICE candidates avaiable when a Webrtc
* PeerConnection gets terminated.
*/
[implicit_jscontext]
readonly attribute jsval webrtcStats;
/**
* A number representing the highest number of concurrent threads
* reached during this session.
*/
readonly attribute uint32_t maximalNumberOfConcurrentThreads;
/*
* An array of chrome hang reports. Each element is a hang report represented
* as an object containing the hang duration, call stack PCs and information
* about modules in memory.
*/
[implicit_jscontext]
readonly attribute jsval chromeHangs;
/*
* An array of thread hang stats,
* [<thread>, <thread>, ...]
* <thread> represents a single thread,
* {"name": "<name>",
* "activity": <time>,
* "hangs": [<hang>, <hang>, ...]}
* <time> represents a histogram of time intervals in milliseconds,
* with the same format as histogramSnapshots
* <hang> represents a particular hang,
* {"stack": <stack>, "nativeStack": <stack>, "histogram": <time>}
* <stack> represents the hang's stack,
* ["<frame_0>", "<frame_1>", ...]
*/
[implicit_jscontext]
readonly attribute jsval threadHangStats;
/*
* An object with two fields: memoryMap and stacks.
* * memoryMap is a list of loaded libraries.
* * stacks is a list of stacks. Each stack is a list of pairs of the form
* [moduleIndex, offset]. The moduleIndex is an index into the memoryMap and
* offset is an offset in the library at memoryMap[moduleIndex].
* This format is used to make it easier to send the stacks to the
* symbolication server.
*/
[implicit_jscontext]
readonly attribute jsval lateWrites;
/**
* Returns an array whose values are the names of histograms defined
* in Histograms.json.
*
* @param dataset - DATASET_RELEASE_CHANNEL_OPTOUT or DATASET_RELEASE_CHANNEL_OPTIN
*/
void registeredHistograms(in uint32_t dataset,
out uint32_t count,
[retval, array, size_is(count)] out string histograms);
/**
* Create and return a histogram. Parameters:
*
* @param name Unique histogram name
* @param expiration Expiration version
* @param type - HISTOGRAM_EXPONENTIAL, HISTOGRAM_LINEAR or HISTOGRAM_BOOLEAN
* @param min - Minimal bucket size
* @param max - Maximum bucket size
* @param bucket_count - number of buckets in the histogram.
* The returned object has the following functions:
* add(int) - Adds an int value to the appropriate bucket
* snapshot() - Returns a snapshot of the histogram with the same data fields as in histogramSnapshots()
* clear() - Zeros out the histogram's buckets and sum
* dataset() - identifies what dataset this is in: DATASET_RELEASE_CHANNEL_OPTOUT or ...OPTIN
*/
[implicit_jscontext, optional_argc]
jsval newHistogram(in ACString name, in ACString expiration,
in unsigned long histogram_type,
[optional] in uint32_t min,
[optional] in uint32_t max,
[optional] in uint32_t bucket_count);
/**
* Create a histogram using the current state of an existing histogram. The
* existing histogram must be registered in TelemetryHistograms.h.
*
* @param name Unique histogram name
* @param existing_name Existing histogram name
* The returned object has the same functions as a histogram returned from newHistogram.
*/
[implicit_jscontext]
jsval histogramFrom(in ACString name, in ACString existing_name);
/**
* Same as newHistogram above, but for histograms registered in TelemetryHistograms.h.
*
* @param id - unique identifier from TelemetryHistograms.h
*/
[implicit_jscontext]
jsval getHistogramById(in ACString id);
/*
* An object containing a snapshot from all of the currently registered keyed histograms.
* { name1: {histogramData1}, name2:{histogramData2}...}
* where the histogramData is as described in histogramSnapshots.
*/
[implicit_jscontext]
readonly attribute jsval keyedHistogramSnapshots;
/**
* Create and return a keyed histogram. Parameters:
*
* @param name Unique histogram name
* @param expiration Expiration version
* @param type - HISTOGRAM_EXPONENTIAL, HISTOGRAM_LINEAR, HISTOGRAM_BOOLEAN, HISTOGRAM_FLAG or HISTOGRAM_COUNT
* @param min - Minimal bucket size
* @param max - Maximum bucket size
* @param bucket_count - number of buckets in the histogram.
* The returned object has the following functions:
* add(string key, [optional] int) - Add an int value to the histogram for that key. If no histogram for that key exists yet, it is created.
* snapshot([optional] string key) - If key is provided, returns a snapshot for the histogram with that key or null. If key is not provided, returns the snapshots of all the registered keys in the form {key1: snapshot1, key2: snapshot2, ...}.
* keys() - Returns an array with the string keys of the currently registered histograms
* clear() - Clears the registered histograms from this.
* dataset() - identifies what dataset this is in: DATASET_RELEASE_CHANNEL_OPTOUT or ...OPTIN
*/
[implicit_jscontext, optional_argc]
jsval newKeyedHistogram(in ACString name,
in ACString expiration,
in unsigned long histogram_type,
[optional] in uint32_t min,
[optional] in uint32_t max,
[optional] in uint32_t bucket_count);
/**
* Returns an array whose values are the names of histograms defined
* in Histograms.json.
*
* @param dataset - DATASET_RELEASE_CHANNEL_OPTOUT or ...OPTIN
*/
void registeredKeyedHistograms(in uint32_t dataset, out uint32_t count,
[retval, array, size_is(count)] out string histograms);
/**
* Same as newKeyedHistogram above, but for histograms registered in TelemetryHistograms.h.
*
* @param id - unique identifier from TelemetryHistograms.h
* The returned object has the same functions as a histogram returned from newKeyedHistogram.
*/
[implicit_jscontext]
jsval getKeyedHistogramById(in ACString id);
/**
* A flag indicating if Telemetry can record base data (FHR data). This is true if the
* FHR data reporting service or self-support are enabled.
*
* In the unlikely event that adding a new base probe is needed, please check the data
* collection wiki at https://wiki.mozilla.org/Firefox/Data_Collection and talk to the
* Telemetry team.
*/
attribute boolean canRecordBase;
/**
* A flag indicating if Telemetry is allowed to record extended data. Returns false if
* the user hasn't opted into "extended Telemetry" on the Release channel, when the
* user has explicitly opted out of Telemetry on Nightly/Aurora/Beta or if manually
* set to false during tests.
*
* Set this to false in tests to disable gathering of extended telemetry statistics.
*/
attribute boolean canRecordExtended;
/**
* A flag indicating whether Telemetry can submit official results (for base or extended
* data). This is true on official, non-debug builds with built in support for Mozilla
* Telemetry reporting.
*/
readonly attribute boolean isOfficialTelemetry;
/** Addon telemetry hooks */
/**
* Register a histogram for an addon. Throws an error if the
* histogram name has been registered previously.
*
* @param addon_id - Unique ID of the addon
* @param name - Unique histogram name
* @param histogram_type - HISTOGRAM_EXPONENTIAL, HISTOGRAM_LINEAR,
* HISTOGRAM_BOOLEAN or HISTOGRAM_COUNT
* @param min - Minimal bucket size
* @param max - Maximum bucket size
* @param bucket_count - number of buckets in the histogram
*/
[optional_argc]
void registerAddonHistogram(in ACString addon_id, in ACString name,
in unsigned long histogram_type,
[optional] in uint32_t min,
[optional] in uint32_t max,
[optional] in uint32_t bucket_count);
/**
* Return a histogram previously registered via
* registerAddonHistogram. Throws an error if the id/name combo has
* not been registered via registerAddonHistogram.
*
* @param addon_id - Unique ID of the addon
* @param name - Registered histogram name
*
* The returned object has the same functions as a histogram returned
* from newHistogram.
*/
[implicit_jscontext]
jsval getAddonHistogram(in ACString addon_id, in ACString name);
/**
* Delete all histograms associated with the given addon id.
*
* @param addon_id - Unique ID of the addon
*/
void unregisterAddonHistograms(in ACString addon_id);
/**
* Enable/disable recording for this histogram at runtime.
* Recording is enabled by default, unless listed at kRecordingInitiallyDisabledIDs[].
* Name must be a valid Histogram identifier, otherwise an assertion will be triggered.
*
* @param id - unique identifier from histograms.json
* @param enabled - whether or not to enable recording from now on.
*/
void setHistogramRecordingEnabled(in ACString id, in boolean enabled);
/**
* An object containing a snapshot from all of the currently
* registered addon histograms.
* { addon-id1 : data1, ... }
*
* where data is an object whose properties are the names of the
* addon's histograms and whose corresponding values are as in
* histogramSnapshots.
*/
[implicit_jscontext]
readonly attribute jsval addonHistogramSnapshots;
/**
* Read data from the previous run. After the callback is called, the last
* shutdown time is available in lastShutdownDuration and any late
* writes in lateWrites.
*/
void asyncFetchTelemetryData(in nsIFetchTelemetryDataCallback aCallback);
/**
* Get statistics of file IO reports, null, if not recorded.
*
* The statistics are returned as an object whose propoerties are the names
* of the files that have been accessed and whose corresponding values are
* arrays of size three, representing startup, normal, and shutdown stages.
* Each stage's entry is either null or an array with the layout
* [total_time, #creates, #reads, #writes, #fsyncs, #stats]
*/
[implicit_jscontext]
readonly attribute jsval fileIOReports;
/**
* Return the number of seconds since process start using monotonic
* timestamps (unaffected by system clock changes).
* @throws NS_ERROR_NOT_AVAILABLE if TimeStamp doesn't have the data.
*/
double msSinceProcessStart();
/**
* Adds the value to the given scalar.
*
* @param aName The scalar name.
* @param aValue The numeric value to add to the scalar. Only unsigned integers supported.
*/
[implicit_jscontext]
void scalarAdd(in ACString aName, in jsval aValue);
/**
* Sets the scalar to the given value.
*
* @param aName The scalar name.
* @param aValue The value to set the scalar to. If the type of aValue doesn't match the
* type of the scalar, the function will fail. For scalar string types, the this
* is truncated to 50 characters.
*/
[implicit_jscontext]
void scalarSet(in ACString aName, in jsval aValue);
/**
* Sets the scalar to the maximum of the current and the passed value.
*
* @param aName The scalar name.
* @param aValue The numeric value to set the scalar to. Only unsigned integers supported.
*/
[implicit_jscontext]
void scalarSetMaximum(in ACString aName, in jsval aValue);
/**
* Serializes the scalars from the given dataset to a JSON-style object and resets them.
* The returned structure looks like:
* { "group1.probe": 1, "group1.other_probe": false, ... }
*
* @param aDataset DATASET_RELEASE_CHANNEL_OPTOUT or DATASET_RELEASE_CHANNEL_OPTIN.
* @param [aClear=false] Whether to clear out the scalars after snapshotting.
*/
[implicit_jscontext, optional_argc]
jsval snapshotScalars(in uint32_t aDataset, [optional] in boolean aClear);
/**
* Resets all the stored scalars. This is intended to be only used in tests.
*/
void clearScalars();
};