gecko/services/metrics/storage.jsm

2190 lines
67 KiB
JavaScript

/* 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 MERGED_COMPARTMENT
"use strict";
this.EXPORTED_SYMBOLS = [
"DailyValues",
"MetricsStorageBackend",
"dateToDays",
"daysToDate",
];
const {utils: Cu} = Components;
const MILLISECONDS_PER_DAY = 24 * 60 * 60 * 1000;
#endif
Cu.import("resource://gre/modules/Promise.jsm");
Cu.import("resource://gre/modules/Sqlite.jsm");
Cu.import("resource://gre/modules/AsyncShutdown.jsm");
Cu.import("resource://gre/modules/Task.jsm");
Cu.import("resource://gre/modules/Log.jsm");
Cu.import("resource://services-common/utils.js");
// These do not account for leap seconds. Meh.
function dateToDays(date) {
return Math.floor(date.getTime() / MILLISECONDS_PER_DAY);
}
function daysToDate(days) {
return new Date(days * MILLISECONDS_PER_DAY);
}
/**
* Represents a collection of per-day values.
*
* This is a proxy around a Map which can transparently round Date instances to
* their appropriate key.
*
* This emulates Map by providing .size and iterator support. Note that keys
* from the iterator are Date instances corresponding to midnight of the start
* of the day. get(), has(), and set() are modeled as getDay(), hasDay(), and
* setDay(), respectively.
*
* All days are defined in terms of UTC (as opposed to local time).
*/
this.DailyValues = function () {
this._days = new Map();
};
DailyValues.prototype = Object.freeze({
__iterator__: function () {
for (let [k, v] of this._days) {
yield [daysToDate(k), v];
}
},
get size() {
return this._days.size;
},
hasDay: function (date) {
return this._days.has(dateToDays(date));
},
getDay: function (date) {
return this._days.get(dateToDays(date));
},
setDay: function (date, value) {
this._days.set(dateToDays(date), value);
},
appendValue: function (date, value) {
let key = dateToDays(date);
if (this._days.has(key)) {
return this._days.get(key).push(value);
}
this._days.set(key, [value]);
},
});
/**
* DATABASE INFO
* =============
*
* We use a SQLite database as the backend for persistent storage of metrics
* data.
*
* Every piece of recorded data is associated with a measurement. A measurement
* is an entity with a name and version. Each measurement is associated with a
* named provider.
*
* When the metrics system is initialized, we ask providers (the entities that
* emit data) to configure the database for storage of their data. They tell
* storage what their requirements are. For example, they'll register
* named daily counters associated with specific measurements.
*
* Recorded data is stored differently depending on the requirements for
* storing it. We have facilities for storing the following classes of data:
*
* 1) Counts of event/field occurrences aggregated by day.
* 2) Discrete values of fields aggregated by day.
* 3) Discrete values of fields aggregated by day max 1 per day (last write
* wins).
* 4) Discrete values of fields max 1 (last write wins).
*
* Most data is aggregated per day mainly for privacy reasons. This does throw
* away potentially useful data. But, it's not currently used, so there is no
* need to keep the granular information.
*
* Database Schema
* ---------------
*
* This database contains the following tables:
*
* providers -- Maps provider string name to an internal ID.
* provider_state -- Holds opaque persisted state for providers.
* measurements -- Holds the set of known measurements (name, version,
* provider tuples).
* types -- The data types that can be stored in measurements/fields.
* fields -- Describes entities that occur within measurements.
* daily_counters -- Holds daily-aggregated counts of events. Each row is
* associated with a field and a day.
* daily_discrete_numeric -- Holds numeric values for fields grouped by day.
* Each row contains a discrete value associated with a field that occurred
* on a specific day. There can be multiple rows per field per day.
* daily_discrete_text -- Holds text values for fields grouped by day. Each
* row contains a discrete value associated with a field that occurred on a
* specific day.
* daily_last_numeric -- Holds numeric values where the last encountered
* value for a given day is retained.
* daily_last_text -- Like daily_last_numeric except for text values.
* last_numeric -- Holds the most recent value for a numeric field.
* last_text -- Like last_numeric except for text fields.
*
* Notes
* -----
*
* It is tempting to use SQLite's julianday() function to store days that
* things happened. However, a Julian Day begins at *noon* in 4714 B.C. This
* results in weird half day offsets from UNIX time. So, we instead store
* number of days since UNIX epoch, not Julian.
*/
/**
* All of our SQL statements are stored in a central mapping so they can easily
* be audited for security, perf, etc.
*/
const SQL = {
// Create the providers table.
createProvidersTable: "\
CREATE TABLE providers (\
id INTEGER PRIMARY KEY AUTOINCREMENT, \
name TEXT, \
UNIQUE (name) \
)",
createProviderStateTable: "\
CREATE TABLE provider_state (\
id INTEGER PRIMARY KEY AUTOINCREMENT, \
provider_id INTEGER, \
name TEXT, \
VALUE TEXT, \
UNIQUE (provider_id, name), \
FOREIGN KEY (provider_id) REFERENCES providers(id) ON DELETE CASCADE\
)",
createProviderStateProviderIndex: "\
CREATE INDEX i_provider_state_provider_id ON provider_state (provider_id)",
createMeasurementsTable: "\
CREATE TABLE measurements (\
id INTEGER PRIMARY KEY AUTOINCREMENT, \
provider_id INTEGER, \
name TEXT, \
version INTEGER, \
UNIQUE (provider_id, name, version), \
FOREIGN KEY (provider_id) REFERENCES providers(id) ON DELETE CASCADE\
)",
createMeasurementsProviderIndex: "\
CREATE INDEX i_measurements_provider_id ON measurements (provider_id)",
createMeasurementsView: "\
CREATE VIEW v_measurements AS \
SELECT \
providers.id AS provider_id, \
providers.name AS provider_name, \
measurements.id AS measurement_id, \
measurements.name AS measurement_name, \
measurements.version AS measurement_version \
FROM providers, measurements \
WHERE \
measurements.provider_id = providers.id",
createTypesTable: "\
CREATE TABLE types (\
id INTEGER PRIMARY KEY AUTOINCREMENT, \
name TEXT, \
UNIQUE (name)\
)",
createFieldsTable: "\
CREATE TABLE fields (\
id INTEGER PRIMARY KEY AUTOINCREMENT, \
measurement_id INTEGER, \
name TEXT, \
value_type INTEGER , \
UNIQUE (measurement_id, name), \
FOREIGN KEY (measurement_id) REFERENCES measurements(id) ON DELETE CASCADE \
FOREIGN KEY (value_type) REFERENCES types(id) ON DELETE CASCADE \
)",
createFieldsMeasurementIndex: "\
CREATE INDEX i_fields_measurement_id ON fields (measurement_id)",
createFieldsView: "\
CREATE VIEW v_fields AS \
SELECT \
providers.id AS provider_id, \
providers.name AS provider_name, \
measurements.id AS measurement_id, \
measurements.name AS measurement_name, \
measurements.version AS measurement_version, \
fields.id AS field_id, \
fields.name AS field_name, \
types.id AS type_id, \
types.name AS type_name \
FROM providers, measurements, fields, types \
WHERE \
fields.measurement_id = measurements.id \
AND measurements.provider_id = providers.id \
AND fields.value_type = types.id",
createDailyCountersTable: "\
CREATE TABLE daily_counters (\
field_id INTEGER, \
day INTEGER, \
value INTEGER, \
UNIQUE(field_id, day), \
FOREIGN KEY (field_id) REFERENCES fields(id) ON DELETE CASCADE\
)",
createDailyCountersFieldIndex: "\
CREATE INDEX i_daily_counters_field_id ON daily_counters (field_id)",
createDailyCountersDayIndex: "\
CREATE INDEX i_daily_counters_day ON daily_counters (day)",
createDailyCountersView: "\
CREATE VIEW v_daily_counters AS SELECT \
providers.id AS provider_id, \
providers.name AS provider_name, \
measurements.id AS measurement_id, \
measurements.name AS measurement_name, \
measurements.version AS measurement_version, \
fields.id AS field_id, \
fields.name AS field_name, \
daily_counters.day AS day, \
daily_counters.value AS value \
FROM providers, measurements, fields, daily_counters \
WHERE \
daily_counters.field_id = fields.id \
AND fields.measurement_id = measurements.id \
AND measurements.provider_id = providers.id",
createDailyDiscreteNumericsTable: "\
CREATE TABLE daily_discrete_numeric (\
id INTEGER PRIMARY KEY AUTOINCREMENT, \
field_id INTEGER, \
day INTEGER, \
value INTEGER, \
FOREIGN KEY (field_id) REFERENCES fields(id) ON DELETE CASCADE\
)",
createDailyDiscreteNumericsFieldIndex: "\
CREATE INDEX i_daily_discrete_numeric_field_id \
ON daily_discrete_numeric (field_id)",
createDailyDiscreteNumericsDayIndex: "\
CREATE INDEX i_daily_discrete_numeric_day \
ON daily_discrete_numeric (day)",
createDailyDiscreteTextTable: "\
CREATE TABLE daily_discrete_text (\
id INTEGER PRIMARY KEY AUTOINCREMENT, \
field_id INTEGER, \
day INTEGER, \
value TEXT, \
FOREIGN KEY (field_id) REFERENCES fields(id) ON DELETE CASCADE\
)",
createDailyDiscreteTextFieldIndex: "\
CREATE INDEX i_daily_discrete_text_field_id \
ON daily_discrete_text (field_id)",
createDailyDiscreteTextDayIndex: "\
CREATE INDEX i_daily_discrete_text_day \
ON daily_discrete_text (day)",
createDailyDiscreteView: "\
CREATE VIEW v_daily_discrete AS \
SELECT \
providers.id AS provider_id, \
providers.name AS provider_name, \
measurements.id AS measurement_id, \
measurements.name AS measurement_name, \
measurements.version AS measurement_version, \
fields.id AS field_id, \
fields.name AS field_name, \
daily_discrete_numeric.id AS value_id, \
daily_discrete_numeric.day AS day, \
daily_discrete_numeric.value AS value, \
\"numeric\" AS value_type \
FROM providers, measurements, fields, daily_discrete_numeric \
WHERE \
daily_discrete_numeric.field_id = fields.id \
AND fields.measurement_id = measurements.id \
AND measurements.provider_id = providers.id \
UNION ALL \
SELECT \
providers.id AS provider_id, \
providers.name AS provider_name, \
measurements.id AS measurement_id, \
measurements.name AS measurement_name, \
measurements.version AS measurement_version, \
fields.id AS field_id, \
fields.name AS field_name, \
daily_discrete_text.id AS value_id, \
daily_discrete_text.day AS day, \
daily_discrete_text.value AS value, \
\"text\" AS value_type \
FROM providers, measurements, fields, daily_discrete_text \
WHERE \
daily_discrete_text.field_id = fields.id \
AND fields.measurement_id = measurements.id \
AND measurements.provider_id = providers.id \
ORDER BY day ASC, value_id ASC",
createLastNumericTable: "\
CREATE TABLE last_numeric (\
field_id INTEGER PRIMARY KEY, \
day INTEGER, \
value NUMERIC, \
FOREIGN KEY (field_id) REFERENCES fields(id) ON DELETE CASCADE\
)",
createLastTextTable: "\
CREATE TABLE last_text (\
field_id INTEGER PRIMARY KEY, \
day INTEGER, \
value TEXT, \
FOREIGN KEY (field_id) REFERENCES fields(id) ON DELETE CASCADE\
)",
createLastView: "\
CREATE VIEW v_last AS \
SELECT \
providers.id AS provider_id, \
providers.name AS provider_name, \
measurements.id AS measurement_id, \
measurements.name AS measurement_name, \
measurements.version AS measurement_version, \
fields.id AS field_id, \
fields.name AS field_name, \
last_numeric.day AS day, \
last_numeric.value AS value, \
\"numeric\" AS value_type \
FROM providers, measurements, fields, last_numeric \
WHERE \
last_numeric.field_id = fields.id \
AND fields.measurement_id = measurements.id \
AND measurements.provider_id = providers.id \
UNION ALL \
SELECT \
providers.id AS provider_id, \
providers.name AS provider_name, \
measurements.id AS measurement_id, \
measurements.name AS measurement_name, \
measurements.version AS measurement_version, \
fields.id AS field_id, \
fields.name AS field_name, \
last_text.day AS day, \
last_text.value AS value, \
\"text\" AS value_type \
FROM providers, measurements, fields, last_text \
WHERE \
last_text.field_id = fields.id \
AND fields.measurement_id = measurements.id \
AND measurements.provider_id = providers.id",
createDailyLastNumericTable: "\
CREATE TABLE daily_last_numeric (\
field_id INTEGER, \
day INTEGER, \
value NUMERIC, \
UNIQUE (field_id, day) \
FOREIGN KEY (field_id) REFERENCES fields(id) ON DELETE CASCADE\
)",
createDailyLastNumericFieldIndex: "\
CREATE INDEX i_daily_last_numeric_field_id ON daily_last_numeric (field_id)",
createDailyLastNumericDayIndex: "\
CREATE INDEX i_daily_last_numeric_day ON daily_last_numeric (day)",
createDailyLastTextTable: "\
CREATE TABLE daily_last_text (\
field_id INTEGER, \
day INTEGER, \
value TEXT, \
UNIQUE (field_id, day) \
FOREIGN KEY (field_id) REFERENCES fields(id) ON DELETE CASCADE\
)",
createDailyLastTextFieldIndex: "\
CREATE INDEX i_daily_last_text_field_id ON daily_last_text (field_id)",
createDailyLastTextDayIndex: "\
CREATE INDEX i_daily_last_text_day ON daily_last_text (day)",
createDailyLastView: "\
CREATE VIEW v_daily_last AS \
SELECT \
providers.id AS provider_id, \
providers.name AS provider_name, \
measurements.id AS measurement_id, \
measurements.name AS measurement_name, \
measurements.version AS measurement_version, \
fields.id AS field_id, \
fields.name AS field_name, \
daily_last_numeric.day AS day, \
daily_last_numeric.value AS value, \
\"numeric\" as value_type \
FROM providers, measurements, fields, daily_last_numeric \
WHERE \
daily_last_numeric.field_id = fields.id \
AND fields.measurement_id = measurements.id \
AND measurements.provider_id = providers.id \
UNION ALL \
SELECT \
providers.id AS provider_id, \
providers.name AS provider_name, \
measurements.id AS measurement_id, \
measurements.name AS measurement_name, \
measurements.version AS measurement_version, \
fields.id AS field_id, \
fields.name AS field_name, \
daily_last_text.day AS day, \
daily_last_text.value AS value, \
\"text\" as value_type \
FROM providers, measurements, fields, daily_last_text \
WHERE \
daily_last_text.field_id = fields.id \
AND fields.measurement_id = measurements.id \
AND measurements.provider_id = providers.id",
// Mutation.
addProvider: "INSERT INTO providers (name) VALUES (:provider)",
setProviderState: "\
INSERT OR REPLACE INTO provider_state \
(provider_id, name, value) \
VALUES (:provider_id, :name, :value)",
addMeasurement: "\
INSERT INTO measurements (provider_id, name, version) \
VALUES (:provider_id, :measurement, :version)",
addType: "INSERT INTO types (name) VALUES (:name)",
addField: "\
INSERT INTO fields (measurement_id, name, value_type) \
VALUES (:measurement_id, :field, :value_type)",
incrementDailyCounterFromFieldID: "\
INSERT OR REPLACE INTO daily_counters VALUES (\
:field_id, \
:days, \
COALESCE(\
(SELECT value FROM daily_counters WHERE \
field_id = :field_id AND day = :days \
), \
0\
) + :by)",
deleteLastNumericFromFieldID: "\
DELETE FROM last_numeric WHERE field_id = :field_id",
deleteLastTextFromFieldID: "\
DELETE FROM last_text WHERE field_id = :field_id",
setLastNumeric: "\
INSERT OR REPLACE INTO last_numeric VALUES (:field_id, :days, :value)",
setLastText: "\
INSERT OR REPLACE INTO last_text VALUES (:field_id, :days, :value)",
setDailyLastNumeric: "\
INSERT OR REPLACE INTO daily_last_numeric VALUES (:field_id, :days, :value)",
setDailyLastText: "\
INSERT OR REPLACE INTO daily_last_text VALUES (:field_id, :days, :value)",
addDailyDiscreteNumeric: "\
INSERT INTO daily_discrete_numeric \
(field_id, day, value) VALUES (:field_id, :days, :value)",
addDailyDiscreteText: "\
INSERT INTO daily_discrete_text \
(field_id, day, value) VALUES (:field_id, :days, :value)",
pruneOldDailyCounters: "DELETE FROM daily_counters WHERE day < :days",
pruneOldDailyDiscreteNumeric: "DELETE FROM daily_discrete_numeric WHERE day < :days",
pruneOldDailyDiscreteText: "DELETE FROM daily_discrete_text WHERE day < :days",
pruneOldDailyLastNumeric: "DELETE FROM daily_last_numeric WHERE day < :days",
pruneOldDailyLastText: "DELETE FROM daily_last_text WHERE day < :days",
pruneOldLastNumeric: "DELETE FROM last_numeric WHERE day < :days",
pruneOldLastText: "DELETE FROM last_text WHERE day < :days",
// Retrieval.
getProviderID: "SELECT id FROM providers WHERE name = :provider",
getProviders: "SELECT id, name FROM providers",
getProviderStateWithName: "\
SELECT value FROM provider_state \
WHERE provider_id = :provider_id \
AND name = :name",
getMeasurements: "SELECT * FROM v_measurements",
getMeasurementID: "\
SELECT id FROM measurements \
WHERE provider_id = :provider_id \
AND name = :measurement \
AND version = :version",
getFieldID: "\
SELECT id FROM fields \
WHERE measurement_id = :measurement_id \
AND name = :field \
AND value_type = :value_type \
",
getTypes: "SELECT * FROM types",
getTypeID: "SELECT id FROM types WHERE name = :name",
getDailyCounterCountsFromFieldID: "\
SELECT day, value FROM daily_counters \
WHERE field_id = :field_id \
ORDER BY day ASC",
getDailyCounterCountFromFieldID: "\
SELECT value FROM daily_counters \
WHERE field_id = :field_id \
AND day = :days",
getMeasurementDailyCounters: "\
SELECT field_name, day, value FROM v_daily_counters \
WHERE measurement_id = :measurement_id",
getFieldInfo: "SELECT * FROM v_fields",
getLastNumericFromFieldID: "\
SELECT day, value FROM last_numeric WHERE field_id = :field_id",
getLastTextFromFieldID: "\
SELECT day, value FROM last_text WHERE field_id = :field_id",
getMeasurementLastValues: "\
SELECT field_name, day, value FROM v_last \
WHERE measurement_id = :measurement_id",
getDailyDiscreteNumericFromFieldID: "\
SELECT day, value FROM daily_discrete_numeric \
WHERE field_id = :field_id \
ORDER BY day ASC, id ASC",
getDailyDiscreteNumericFromFieldIDAndDay: "\
SELECT day, value FROM daily_discrete_numeric \
WHERE field_id = :field_id AND day = :days \
ORDER BY id ASC",
getDailyDiscreteTextFromFieldID: "\
SELECT day, value FROM daily_discrete_text \
WHERE field_id = :field_id \
ORDER BY day ASC, id ASC",
getDailyDiscreteTextFromFieldIDAndDay: "\
SELECT day, value FROM daily_discrete_text \
WHERE field_id = :field_id AND day = :days \
ORDER BY id ASC",
getMeasurementDailyDiscreteValues: "\
SELECT field_name, day, value_id, value FROM v_daily_discrete \
WHERE measurement_id = :measurement_id \
ORDER BY day ASC, value_id ASC",
getDailyLastNumericFromFieldID: "\
SELECT day, value FROM daily_last_numeric \
WHERE field_id = :field_id \
ORDER BY day ASC",
getDailyLastNumericFromFieldIDAndDay: "\
SELECT day, value FROM daily_last_numeric \
WHERE field_id = :field_id AND day = :days",
getDailyLastTextFromFieldID: "\
SELECT day, value FROM daily_last_text \
WHERE field_id = :field_id \
ORDER BY day ASC",
getDailyLastTextFromFieldIDAndDay: "\
SELECT day, value FROM daily_last_text \
WHERE field_id = :field_id AND day = :days",
getMeasurementDailyLastValues: "\
SELECT field_name, day, value FROM v_daily_last \
WHERE measurement_id = :measurement_id",
};
function dailyKeyFromDate(date) {
let year = String(date.getUTCFullYear());
let month = String(date.getUTCMonth() + 1);
let day = String(date.getUTCDate());
if (month.length < 2) {
month = "0" + month;
}
if (day.length < 2) {
day = "0" + day;
}
return year + "-" + month + "-" + day;
}
/**
* Create a new backend instance bound to a SQLite database at the given path.
*
* This returns a promise that will resolve to a `MetricsStorageSqliteBackend`
* instance. The resolved instance will be initialized and ready for use.
*
* Very few consumers have a need to call this. Instead, a higher-level entity
* likely calls this and sets up the database connection for a service or
* singleton.
*/
this.MetricsStorageBackend = function (path) {
return Task.spawn(function initTask() {
let connection = yield Sqlite.openConnection({
path: path,
// There should only be one connection per database, so we disable this
// for perf reasons.
sharedMemoryCache: false,
});
// If we fail initializing the storage object, we need to close the
// database connection or else Storage will assert on shutdown.
let storage;
try {
storage = new MetricsStorageSqliteBackend(connection);
yield storage._init();
} catch (ex) {
yield connection.close();
throw ex;
}
throw new Task.Result(storage);
});
};
// Expose an asynchronous barrier `shutdown` that clients may use to
// perform last minute cleanup and shutdown requests before this module
// is shut down.
// See the documentation of AsyncShutdown.Barrier for more details.
let shutdown = new AsyncShutdown.Barrier("Metrics Storage Backend");
this.MetricsStorageBackend.shutdown = shutdown.client;
Sqlite.shutdown.addBlocker("Metrics Storage: Shutting down",
() => shutdown.wait());
/**
* Manages storage of metrics data in a SQLite database.
*
* This is the main type used for interfacing with the database.
*
* Instances of this should be obtained by calling MetricsStorageConnection().
*
* The current implementation will not work if the database is mutated by
* multiple connections because of the way we cache primary keys.
*
* FUTURE enforce 1 read/write connection per database limit.
*/
function MetricsStorageSqliteBackend(connection) {
this._log = Log.repository.getLogger("Services.Metrics.MetricsStorage");
this._connection = connection;
this._enabledWALCheckpointPages = null;
// Integer IDs to string name.
this._typesByID = new Map();
// String name to integer IDs.
this._typesByName = new Map();
// Maps provider names to integer IDs.
this._providerIDs = new Map();
// Maps :-delimited strings of [provider name, name, version] to integer IDs.
this._measurementsByInfo = new Map();
// Integer IDs to Arrays of [provider name, name, version].
this._measurementsByID = new Map();
// Integer IDs to Arrays of [measurement id, field name, value name]
this._fieldsByID = new Map();
// Maps :-delimited strings of [measurement id, field name] to integer ID.
this._fieldsByInfo = new Map();
// Maps measurement ID to sets of field IDs.
this._fieldsByMeasurement = new Map();
this._queuedOperations = [];
this._queuedInProgress = false;
}
MetricsStorageSqliteBackend.prototype = Object.freeze({
// Max size (in kibibytes) the WAL log is allowed to grow to before it is
// checkpointed.
//
// This was first deployed in bug 848136. We want a value large enough
// that we aren't checkpointing all the time. However, we want it
// small enough so we don't have to read so much when we open the
// database.
MAX_WAL_SIZE_KB: 512,
FIELD_DAILY_COUNTER: "daily-counter",
FIELD_DAILY_DISCRETE_NUMERIC: "daily-discrete-numeric",
FIELD_DAILY_DISCRETE_TEXT: "daily-discrete-text",
FIELD_DAILY_LAST_NUMERIC: "daily-last-numeric",
FIELD_DAILY_LAST_TEXT: "daily-last-text",
FIELD_LAST_NUMERIC: "last-numeric",
FIELD_LAST_TEXT: "last-text",
_BUILTIN_TYPES: [
"FIELD_DAILY_COUNTER",
"FIELD_DAILY_DISCRETE_NUMERIC",
"FIELD_DAILY_DISCRETE_TEXT",
"FIELD_DAILY_LAST_NUMERIC",
"FIELD_DAILY_LAST_TEXT",
"FIELD_LAST_NUMERIC",
"FIELD_LAST_TEXT",
],
// Statements that are used to create the initial DB schema.
_SCHEMA_STATEMENTS: [
"createProvidersTable",
"createProviderStateTable",
"createProviderStateProviderIndex",
"createMeasurementsTable",
"createMeasurementsProviderIndex",
"createMeasurementsView",
"createTypesTable",
"createFieldsTable",
"createFieldsMeasurementIndex",
"createFieldsView",
"createDailyCountersTable",
"createDailyCountersFieldIndex",
"createDailyCountersDayIndex",
"createDailyCountersView",
"createDailyDiscreteNumericsTable",
"createDailyDiscreteNumericsFieldIndex",
"createDailyDiscreteNumericsDayIndex",
"createDailyDiscreteTextTable",
"createDailyDiscreteTextFieldIndex",
"createDailyDiscreteTextDayIndex",
"createDailyDiscreteView",
"createDailyLastNumericTable",
"createDailyLastNumericFieldIndex",
"createDailyLastNumericDayIndex",
"createDailyLastTextTable",
"createDailyLastTextFieldIndex",
"createDailyLastTextDayIndex",
"createDailyLastView",
"createLastNumericTable",
"createLastTextTable",
"createLastView",
],
// Statements that are used to prune old data.
_PRUNE_STATEMENTS: [
"pruneOldDailyCounters",
"pruneOldDailyDiscreteNumeric",
"pruneOldDailyDiscreteText",
"pruneOldDailyLastNumeric",
"pruneOldDailyLastText",
"pruneOldLastNumeric",
"pruneOldLastText",
],
/**
* Close the database connection.
*
* This should be called on all instances or the SQLite layer may complain
* loudly. After this has been called, the connection cannot be used.
*
* @return Promise<> A promise fulfilled once the connection is closed.
* This promise never rejects.
*/
close: function () {
return Task.spawn(function doClose() {
// There is some light magic involved here. First, we enqueue an
// operation to ensure that all pending operations have the opportunity
// to execute. We additionally execute a SQL operation. Due to the FIFO
// execution order of issued statements, this will cause us to wait on
// any outstanding statements before closing.
try {
yield this.enqueueOperation(function dummyOperation() {
return this._connection.execute("SELECT 1");
}.bind(this));
} catch (ex) {}
try {
yield this._connection.close();
} finally {
this._connection = null;
}
}.bind(this));
},
/**
* Whether a provider is known to exist.
*
* @param provider
* (string) Name of the provider.
*/
hasProvider: function (provider) {
return this._providerIDs.has(provider);
},
/**
* Whether a measurement is known to exist.
*
* @param provider
* (string) Name of the provider.
* @param name
* (string) Name of the measurement.
* @param version
* (Number) Integer measurement version.
*/
hasMeasurement: function (provider, name, version) {
return this._measurementsByInfo.has([provider, name, version].join(":"));
},
/**
* Whether a named field exists in a measurement.
*
* @param measurementID
* (Number) The integer primary key of the measurement.
* @param field
* (string) The name of the field to look for.
*/
hasFieldFromMeasurement: function (measurementID, field) {
return this._fieldsByInfo.has([measurementID, field].join(":"));
},
/**
* Whether a field is known.
*
* @param provider
* (string) Name of the provider having the field.
* @param measurement
* (string) Name of the measurement in the provider having the field.
* @param field
* (string) Name of the field in the measurement.
*/
hasField: function (provider, measurement, version, field) {
let key = [provider, measurement, version].join(":");
let measurementID = this._measurementsByInfo.get(key);
if (!measurementID) {
return false;
}
return this.hasFieldFromMeasurement(measurementID, field);
},
/**
* Look up the integer primary key of a provider.
*
* @param provider
* (string) Name of the provider.
*/
providerID: function (provider) {
return this._providerIDs.get(provider);
},
/**
* Look up the integer primary key of a measurement.
*
* @param provider
* (string) Name of the provider.
* @param measurement
* (string) Name of the measurement.
* @param version
* (Number) Integer version of the measurement.
*/
measurementID: function (provider, measurement, version) {
return this._measurementsByInfo.get([provider, measurement, version].join(":"));
},
fieldIDFromMeasurement: function (measurementID, field) {
return this._fieldsByInfo.get([measurementID, field].join(":"));
},
fieldID: function (provider, measurement, version, field) {
let measurementID = this.measurementID(provider, measurement, version);
if (!measurementID) {
return null;
}
return this.fieldIDFromMeasurement(measurementID, field);
},
measurementHasAnyDailyCounterFields: function (measurementID) {
return this.measurementHasAnyFieldsOfTypes(measurementID,
[this.FIELD_DAILY_COUNTER]);
},
measurementHasAnyLastFields: function (measurementID) {
return this.measurementHasAnyFieldsOfTypes(measurementID,
[this.FIELD_LAST_NUMERIC,
this.FIELD_LAST_TEXT]);
},
measurementHasAnyDailyLastFields: function (measurementID) {
return this.measurementHasAnyFieldsOfTypes(measurementID,
[this.FIELD_DAILY_LAST_NUMERIC,
this.FIELD_DAILY_LAST_TEXT]);
},
measurementHasAnyDailyDiscreteFields: function (measurementID) {
return this.measurementHasAnyFieldsOfTypes(measurementID,
[this.FIELD_DAILY_DISCRETE_NUMERIC,
this.FIELD_DAILY_DISCRETE_TEXT]);
},
measurementHasAnyFieldsOfTypes: function (measurementID, types) {
if (!this._fieldsByMeasurement.has(measurementID)) {
return false;
}
let fieldIDs = this._fieldsByMeasurement.get(measurementID);
for (let fieldID of fieldIDs) {
let fieldType = this._fieldsByID.get(fieldID)[2];
if (types.indexOf(fieldType) != -1) {
return true;
}
}
return false;
},
/**
* Register a measurement with the backend.
*
* Measurements must be registered before storage can be allocated to them.
*
* A measurement consists of a string name and integer version attached
* to a named provider.
*
* This returns a promise that resolves to the storage ID for this
* measurement.
*
* If the measurement is not known to exist, it is registered with storage.
* If the measurement has already been registered, this is effectively a
* no-op (that still returns a promise resolving to the storage ID).
*
* @param provider
* (string) Name of the provider this measurement belongs to.
* @param name
* (string) Name of this measurement.
* @param version
* (Number) Integer version of this measurement.
*/
registerMeasurement: function (provider, name, version) {
if (this.hasMeasurement(provider, name, version)) {
return CommonUtils.laterTickResolvingPromise(
this.measurementID(provider, name, version));
}
// Registrations might not be safe to perform in parallel with provider
// operations. So, we queue them.
let self = this;
return this.enqueueOperation(function createMeasurementOperation() {
return Task.spawn(function createMeasurement() {
let providerID = self._providerIDs.get(provider);
if (!providerID) {
yield self._connection.executeCached(SQL.addProvider, {provider: provider});
let rows = yield self._connection.executeCached(SQL.getProviderID,
{provider: provider});
providerID = rows[0].getResultByIndex(0);
self._providerIDs.set(provider, providerID);
}
let params = {
provider_id: providerID,
measurement: name,
version: version,
};
yield self._connection.executeCached(SQL.addMeasurement, params);
let rows = yield self._connection.executeCached(SQL.getMeasurementID, params);
let measurementID = rows[0].getResultByIndex(0);
self._measurementsByInfo.set([provider, name, version].join(":"), measurementID);
self._measurementsByID.set(measurementID, [provider, name, version]);
self._fieldsByMeasurement.set(measurementID, new Set());
throw new Task.Result(measurementID);
});
});
},
/**
* Register a field with the backend.
*
* Fields are what recorded pieces of data are primarily associated with.
*
* Fields are associated with measurements. Measurements must be registered
* via `registerMeasurement` before fields can be registered. This is
* enforced by this function requiring the database primary key of the
* measurement as an argument.
*
* @param measurementID
* (Number) Integer primary key of measurement this field belongs to.
* @param field
* (string) Name of this field.
* @param valueType
* (string) Type name of this field. Must be a registered type. Is
* likely one of the FIELD_ constants on this type.
*
* @return Promise<integer>
*/
registerField: function (measurementID, field, valueType) {
if (!valueType) {
throw new Error("Value type must be defined.");
}
if (!this._measurementsByID.has(measurementID)) {
throw new Error("Measurement not known: " + measurementID);
}
if (!this._typesByName.has(valueType)) {
throw new Error("Unknown value type: " + valueType);
}
let typeID = this._typesByName.get(valueType);
if (!typeID) {
throw new Error("Undefined type: " + valueType);
}
if (this.hasFieldFromMeasurement(measurementID, field)) {
let id = this.fieldIDFromMeasurement(measurementID, field);
let existingType = this._fieldsByID.get(id)[2];
if (valueType != existingType) {
throw new Error("Field already defined with different type: " + existingType);
}
return CommonUtils.laterTickResolvingPromise(
this.fieldIDFromMeasurement(measurementID, field));
}
let self = this;
return Task.spawn(function createField() {
let params = {
measurement_id: measurementID,
field: field,
value_type: typeID,
};
yield self._connection.executeCached(SQL.addField, params);
let rows = yield self._connection.executeCached(SQL.getFieldID, params);
let fieldID = rows[0].getResultByIndex(0);
self._fieldsByID.set(fieldID, [measurementID, field, valueType]);
self._fieldsByInfo.set([measurementID, field].join(":"), fieldID);
self._fieldsByMeasurement.get(measurementID).add(fieldID);
throw new Task.Result(fieldID);
});
},
/**
* Initializes this instance with the database.
*
* This performs 2 major roles:
*
* 1) Set up database schema (creates tables).
* 2) Synchronize database with local instance.
*/
_init: function() {
let self = this;
return Task.spawn(function initTask() {
// 0. Database file and connection configuration.
// This should never fail. But, we assume the default of 1024 in case it
// does.
let rows = yield self._connection.execute("PRAGMA page_size");
let pageSize = 1024;
if (rows.length) {
pageSize = rows[0].getResultByIndex(0);
}
self._log.debug("Page size is " + pageSize);
// Ensure temp tables are stored in memory, not on disk.
yield self._connection.execute("PRAGMA temp_store=MEMORY");
let journalMode;
rows = yield self._connection.execute("PRAGMA journal_mode=WAL");
if (rows.length) {
journalMode = rows[0].getResultByIndex(0);
}
self._log.info("Journal mode is " + journalMode);
if (journalMode == "wal") {
self._enabledWALCheckpointPages =
Math.ceil(self.MAX_WAL_SIZE_KB * 1024 / pageSize);
self._log.info("WAL auto checkpoint pages: " +
self._enabledWALCheckpointPages);
// We disable auto checkpoint during initialization to make it
// quicker.
yield self.setAutoCheckpoint(0);
} else {
if (journalMode != "truncate") {
// Fall back to truncate (which is faster than delete).
yield self._connection.execute("PRAGMA journal_mode=TRUNCATE");
}
// And always use full synchronous mode to reduce possibility for data
// loss.
yield self._connection.execute("PRAGMA synchronous=FULL");
}
let doCheckpoint = false;
// 1. Create the schema.
yield self._connection.executeTransaction(function ensureSchema(conn) {
let schema = yield conn.getSchemaVersion();
if (schema == 0) {
self._log.info("Creating database schema.");
for (let k of self._SCHEMA_STATEMENTS) {
yield self._connection.execute(SQL[k]);
}
yield self._connection.setSchemaVersion(1);
doCheckpoint = true;
} else if (schema != 1) {
throw new Error("Unknown database schema: " + schema);
} else {
self._log.debug("Database schema up to date.");
}
});
// 2. Retrieve existing types.
yield self._connection.execute(SQL.getTypes, null, function onRow(row) {
let id = row.getResultByName("id");
let name = row.getResultByName("name");
self._typesByID.set(id, name);
self._typesByName.set(name, id);
});
// 3. Populate built-in types with database.
let missingTypes = [];
for (let type of self._BUILTIN_TYPES) {
type = self[type];
if (self._typesByName.has(type)) {
continue;
}
missingTypes.push(type);
}
// Don't perform DB transaction unless there is work to do.
if (missingTypes.length) {
yield self._connection.executeTransaction(function populateBuiltinTypes() {
for (let type of missingTypes) {
let params = {name: type};
yield self._connection.executeCached(SQL.addType, params);
let rows = yield self._connection.executeCached(SQL.getTypeID, params);
let id = rows[0].getResultByIndex(0);
self._typesByID.set(id, type);
self._typesByName.set(type, id);
}
});
doCheckpoint = true;
}
// 4. Obtain measurement info.
yield self._connection.execute(SQL.getMeasurements, null, function onRow(row) {
let providerID = row.getResultByName("provider_id");
let providerName = row.getResultByName("provider_name");
let measurementID = row.getResultByName("measurement_id");
let measurementName = row.getResultByName("measurement_name");
let measurementVersion = row.getResultByName("measurement_version");
self._providerIDs.set(providerName, providerID);
let info = [providerName, measurementName, measurementVersion].join(":");
self._measurementsByInfo.set(info, measurementID);
self._measurementsByID.set(measurementID, info);
self._fieldsByMeasurement.set(measurementID, new Set());
});
// 5. Obtain field info.
yield self._connection.execute(SQL.getFieldInfo, null, function onRow(row) {
let measurementID = row.getResultByName("measurement_id");
let fieldID = row.getResultByName("field_id");
let fieldName = row.getResultByName("field_name");
let typeName = row.getResultByName("type_name");
self._fieldsByID.set(fieldID, [measurementID, fieldName, typeName]);
self._fieldsByInfo.set([measurementID, fieldName].join(":"), fieldID);
self._fieldsByMeasurement.get(measurementID).add(fieldID);
});
// Perform a checkpoint after initialization (if needed) and
// enable auto checkpoint during regular operation.
if (doCheckpoint) {
yield self.checkpoint();
}
yield self.setAutoCheckpoint(1);
});
},
/**
* Prune all data from earlier than the specified date.
*
* Data stored on days before the specified Date will be permanently
* deleted.
*
* This returns a promise that will be resolved when data has been deleted.
*
* @param date
* (Date) Old data threshold.
* @return Promise<>
*/
pruneDataBefore: function (date) {
let statements = this._PRUNE_STATEMENTS;
let self = this;
return this.enqueueOperation(function doPrune() {
return self._connection.executeTransaction(function prune(conn) {
let days = dateToDays(date);
let params = {days: days};
for (let name of statements) {
yield conn.execute(SQL[name], params);
}
});
});
},
/**
* Reduce memory usage as much as possible.
*
* This returns a promise that will be resolved on completion.
*
* @return Promise<>
*/
compact: function () {
let self = this;
return this.enqueueOperation(function doCompact() {
self._connection.discardCachedStatements();
return self._connection.shrinkMemory();
});
},
/**
* Checkpoint writes requiring flush to disk.
*
* This is called to persist queued and non-flushed writes to disk.
* It will force an fsync, so it is expensive and should be used
* sparingly.
*/
checkpoint: function () {
if (!this._enabledWALCheckpointPages) {
return CommonUtils.laterTickResolvingPromise();
}
return this.enqueueOperation(function checkpoint() {
this._log.info("Performing manual WAL checkpoint.");
return this._connection.execute("PRAGMA wal_checkpoint");
}.bind(this));
},
setAutoCheckpoint: function (on) {
// If we aren't in WAL mode, wal_autocheckpoint won't do anything so
// we no-op.
if (!this._enabledWALCheckpointPages) {
return CommonUtils.laterTickResolvingPromise();
}
let val = on ? this._enabledWALCheckpointPages : 0;
return this.enqueueOperation(function setWALCheckpoint() {
this._log.info("Setting WAL auto checkpoint to " + val);
return this._connection.execute("PRAGMA wal_autocheckpoint=" + val);
}.bind(this));
},
/**
* Ensure a field ID matches a specified type.
*
* This is called internally as part of adding values to ensure that
* the type of a field matches the operation being performed.
*/
_ensureFieldType: function (id, type) {
let info = this._fieldsByID.get(id);
if (!info || !Array.isArray(info)) {
throw new Error("Unknown field ID: " + id);
}
if (type != info[2]) {
throw new Error("Field type does not match the expected for this " +
"operation. Actual: " + info[2] + "; Expected: " +
type);
}
},
/**
* Enqueue a storage operation to be performed when the database is ready.
*
* The primary use case of this function is to prevent potentially
* conflicting storage operations from being performed in parallel. By
* calling this function, passed storage operations will be serially
* executed, avoiding potential order of operation issues.
*
* The passed argument is a function that will perform storage operations.
* The function should return a promise that will be resolved when all
* storage operations have been completed.
*
* The passed function may be executed immediately. If there are already
* queued operations, it will be appended to the queue and executed after all
* before it have finished.
*
* This function returns a promise that will be resolved or rejected with
* the same value that the function's promise was resolved or rejected with.
*
* @param func
* (function) Function performing storage interactions.
* @return Promise<>
*/
enqueueOperation: function (func) {
if (typeof(func) != "function") {
throw new Error("enqueueOperation expects a function. Got: " + typeof(func));
}
this._log.trace("Enqueueing operation.");
let deferred = Promise.defer();
this._queuedOperations.push([func, deferred]);
if (this._queuedOperations.length == 1) {
this._popAndPerformQueuedOperation();
}
return deferred.promise;
},
/**
* Enqueue a function to be performed as a transaction.
*
* The passed function should be a generator suitable for calling with
* `executeTransaction` from the SQLite connection.
*/
enqueueTransaction: function (func, type) {
return this.enqueueOperation(
this._connection.executeTransaction.bind(this._connection, func, type)
);
},
_popAndPerformQueuedOperation: function () {
if (!this._queuedOperations.length || this._queuedInProgress) {
return;
}
this._log.trace("Performing queued operation.");
let [func, deferred] = this._queuedOperations.shift();
let promise;
try {
this._queuedInProgress = true;
promise = func();
} catch (ex) {
this._log.warn("Queued operation threw during execution: " +
CommonUtils.exceptionStr(ex));
this._queuedInProgress = false;
deferred.reject(ex);
this._popAndPerformQueuedOperation();
return;
}
if (!promise || typeof(promise.then) != "function") {
let msg = "Queued operation did not return a promise: " + func;
this._log.warn(msg);
this._queuedInProgress = false;
deferred.reject(new Error(msg));
this._popAndPerformQueuedOperation();
return;
}
promise.then(
function onSuccess(result) {
this._log.trace("Queued operation completed.");
this._queuedInProgress = false;
deferred.resolve(result);
this._popAndPerformQueuedOperation();
}.bind(this),
function onError(error) {
this._log.warn("Failure when performing queued operation: " +
CommonUtils.exceptionStr(error));
this._queuedInProgress = false;
deferred.reject(error);
this._popAndPerformQueuedOperation();
}.bind(this)
);
},
/**
* Obtain all values associated with a measurement.
*
* This returns a promise that resolves to an object. The keys of the object
* are:
*
* days -- DailyValues where the values are Maps of field name to data
* structures. The data structures could be simple (string or number) or
* Arrays if the field type allows multiple values per day.
*
* singular -- Map of field names to values. This holds all fields that
* don't have a temporal component.
*
* @param id
* (Number) Primary key of measurement whose values to retrieve.
*/
getMeasurementValues: function (id) {
let deferred = Promise.defer();
let days = new DailyValues();
let singular = new Map();
let self = this;
this.enqueueOperation(function enqueuedGetMeasurementValues() {
return Task.spawn(function fetchMeasurementValues() {
function handleResult(data) {
for (let [field, values] of data) {
for (let [day, value] of Iterator(values)) {
if (!days.hasDay(day)) {
days.setDay(day, new Map());
}
days.getDay(day).set(field, value);
}
}
}
if (self.measurementHasAnyDailyCounterFields(id)) {
let counters = yield self.getMeasurementDailyCountersFromMeasurementID(id);
handleResult(counters);
}
if (self.measurementHasAnyDailyLastFields(id)) {
let dailyLast = yield self.getMeasurementDailyLastValuesFromMeasurementID(id);
handleResult(dailyLast);
}
if (self.measurementHasAnyDailyDiscreteFields(id)) {
let dailyDiscrete = yield self.getMeasurementDailyDiscreteValuesFromMeasurementID(id);
handleResult(dailyDiscrete);
}
if (self.measurementHasAnyLastFields(id)) {
let last = yield self.getMeasurementLastValuesFromMeasurementID(id);
for (let [field, value] of last) {
singular.set(field, value);
}
}
});
}).then(function onSuccess() {
deferred.resolve({singular: singular, days: days});
}, function onError(error) {
deferred.reject(error);
});
return deferred.promise;
},
//---------------------------------------------------------------------------
// Low-level storage operations
//
// These will be performed immediately (or at least as soon as the underlying
// connection allows them to be.) It is recommended to call these from within
// a function added via `enqueueOperation()` or they may inadvertently be
// performed during another enqueued operation, which may be a transaction
// that is rolled back.
// ---------------------------------------------------------------------------
/**
* Set state for a provider.
*
* Providers have the ability to register persistent state with the backend.
* Persistent state doesn't expire. The format of the data is completely up
* to the provider beyond the requirement that values be UTF-8 strings.
*
* This returns a promise that will be resolved when the underlying database
* operation has completed.
*
* @param provider
* (string) Name of the provider.
* @param key
* (string) Key under which to store this state.
* @param value
* (string) Value for this state.
* @return Promise<>
*/
setProviderState: function (provider, key, value) {
if (typeof(key) != "string") {
throw new Error("State key must be a string. Got: " + key);
}
if (typeof(value) != "string") {
throw new Error("State value must be a string. Got: " + value);
}
let id = this.providerID(provider);
if (!id) {
throw new Error("Unknown provider: " + provider);
}
return this._connection.executeCached(SQL.setProviderState, {
provider_id: id,
name: key,
value: value,
});
},
/**
* Obtain named state for a provider.
*
*
* The returned promise will resolve to the state from the database or null
* if the key is not stored.
*
* @param provider
* (string) The name of the provider whose state to obtain.
* @param key
* (string) The state's key to retrieve.
*
* @return Promise<data>
*/
getProviderState: function (provider, key) {
let id = this.providerID(provider);
if (!id) {
throw new Error("Unknown provider: " + provider);
}
let conn = this._connection;
return Task.spawn(function queryDB() {
let rows = yield conn.executeCached(SQL.getProviderStateWithName, {
provider_id: id,
name: key,
});
if (!rows.length) {
throw new Task.Result(null);
}
throw new Task.Result(rows[0].getResultByIndex(0));
});
},
/**
* Increment a daily counter from a numeric field id.
*
* @param id
* (integer) Primary key of field to increment.
* @param date
* (Date) When the increment occurred. This is typically "now" but can
* be explicitly defined for events that occurred in the past.
* @param by
* (integer) How much to increment the value by. Defaults to 1.
*/
incrementDailyCounterFromFieldID: function (id, date=new Date(), by=1) {
this._ensureFieldType(id, this.FIELD_DAILY_COUNTER);
let params = {
field_id: id,
days: dateToDays(date),
by: by,
};
return this._connection.executeCached(SQL.incrementDailyCounterFromFieldID,
params);
},
/**
* Obtain all counts for a specific daily counter.
*
* @param id
* (integer) The ID of the field being retrieved.
*/
getDailyCounterCountsFromFieldID: function (id) {
this._ensureFieldType(id, this.FIELD_DAILY_COUNTER);
let self = this;
return Task.spawn(function fetchCounterDays() {
let rows = yield self._connection.executeCached(SQL.getDailyCounterCountsFromFieldID,
{field_id: id});
let result = new DailyValues();
for (let row of rows) {
let days = row.getResultByIndex(0);
let counter = row.getResultByIndex(1);
let date = daysToDate(days);
result.setDay(date, counter);
}
throw new Task.Result(result);
});
},
/**
* Get the value of a daily counter for a given day.
*
* @param field
* (integer) Field ID to retrieve.
* @param date
* (Date) Date for day from which to obtain data.
*/
getDailyCounterCountFromFieldID: function (field, date) {
this._ensureFieldType(field, this.FIELD_DAILY_COUNTER);
let params = {
field_id: field,
days: dateToDays(date),
};
let self = this;
return Task.spawn(function fetchCounter() {
let rows = yield self._connection.executeCached(SQL.getDailyCounterCountFromFieldID,
params);
if (!rows.length) {
throw new Task.Result(null);
}
throw new Task.Result(rows[0].getResultByIndex(0));
});
},
/**
* Define the value for a "last numeric" field.
*
* The previous value (if any) will be replaced by the value passed, even if
* the date of the incoming value is older than what's recorded in the
* database.
*
* @param fieldID
* (Number) Integer primary key of field to update.
* @param value
* (Number) Value to record.
* @param date
* (Date) When this value was produced.
*/
setLastNumericFromFieldID: function (fieldID, value, date=new Date()) {
this._ensureFieldType(fieldID, this.FIELD_LAST_NUMERIC);
if (typeof(value) != "number") {
throw new Error("Value is not a number: " + value);
}
let params = {
field_id: fieldID,
days: dateToDays(date),
value: value,
};
return this._connection.executeCached(SQL.setLastNumeric, params);
},
/**
* Define the value of a "last text" field.
*
* See `setLastNumericFromFieldID` for behavior.
*/
setLastTextFromFieldID: function (fieldID, value, date=new Date()) {
this._ensureFieldType(fieldID, this.FIELD_LAST_TEXT);
if (typeof(value) != "string") {
throw new Error("Value is not a string: " + value);
}
let params = {
field_id: fieldID,
days: dateToDays(date),
value: value,
};
return this._connection.executeCached(SQL.setLastText, params);
},
/**
* Obtain the value of a "last numeric" field.
*
* This returns a promise that will be resolved with an Array of [date, value]
* if a value is known or null if no last value is present.
*
* @param fieldID
* (Number) Integer primary key of field to retrieve.
*/
getLastNumericFromFieldID: function (fieldID) {
this._ensureFieldType(fieldID, this.FIELD_LAST_NUMERIC);
let self = this;
return Task.spawn(function fetchLastField() {
let rows = yield self._connection.executeCached(SQL.getLastNumericFromFieldID,
{field_id: fieldID});
if (!rows.length) {
throw new Task.Result(null);
}
let row = rows[0];
let days = row.getResultByIndex(0);
let value = row.getResultByIndex(1);
throw new Task.Result([daysToDate(days), value]);
});
},
/**
* Obtain the value of a "last text" field.
*
* See `getLastNumericFromFieldID` for behavior.
*/
getLastTextFromFieldID: function (fieldID) {
this._ensureFieldType(fieldID, this.FIELD_LAST_TEXT);
let self = this;
return Task.spawn(function fetchLastField() {
let rows = yield self._connection.executeCached(SQL.getLastTextFromFieldID,
{field_id: fieldID});
if (!rows.length) {
throw new Task.Result(null);
}
let row = rows[0];
let days = row.getResultByIndex(0);
let value = row.getResultByIndex(1);
throw new Task.Result([daysToDate(days), value]);
});
},
/**
* Delete the value (if any) in a "last numeric" field.
*/
deleteLastNumericFromFieldID: function (fieldID) {
this._ensureFieldType(fieldID, this.FIELD_LAST_NUMERIC);
return this._connection.executeCached(SQL.deleteLastNumericFromFieldID,
{field_id: fieldID});
},
/**
* Delete the value (if any) in a "last text" field.
*/
deleteLastTextFromFieldID: function (fieldID) {
this._ensureFieldType(fieldID, this.FIELD_LAST_TEXT);
return this._connection.executeCached(SQL.deleteLastTextFromFieldID,
{field_id: fieldID});
},
/**
* Record a value for a "daily last numeric" field.
*
* The field can hold 1 value per calendar day. If the field already has a
* value for the day specified (defaults to now), that value will be
* replaced, even if the date specified is older (within the day) than the
* previously recorded value.
*
* @param fieldID
* (Number) Integer primary key of field.
* @param value
* (Number) Value to record.
* @param date
* (Date) When the value was produced. Defaults to now.
*/
setDailyLastNumericFromFieldID: function (fieldID, value, date=new Date()) {
this._ensureFieldType(fieldID, this.FIELD_DAILY_LAST_NUMERIC);
let params = {
field_id: fieldID,
days: dateToDays(date),
value: value,
};
return this._connection.executeCached(SQL.setDailyLastNumeric, params);
},
/**
* Record a value for a "daily last text" field.
*
* See `setDailyLastNumericFromFieldID` for behavior.
*/
setDailyLastTextFromFieldID: function (fieldID, value, date=new Date()) {
this._ensureFieldType(fieldID, this.FIELD_DAILY_LAST_TEXT);
let params = {
field_id: fieldID,
days: dateToDays(date),
value: value,
};
return this._connection.executeCached(SQL.setDailyLastText, params);
},
/**
* Obtain value(s) from a "daily last numeric" field.
*
* This returns a promise that resolves to a DailyValues instance. If `date`
* is specified, that instance will have at most 1 entry. If there is no
* `date` constraint, then all stored values will be retrieved.
*
* @param fieldID
* (Number) Integer primary key of field to retrieve.
* @param date optional
* (Date) If specified, only return data for this day.
*
* @return Promise<DailyValues>
*/
getDailyLastNumericFromFieldID: function (fieldID, date=null) {
this._ensureFieldType(fieldID, this.FIELD_DAILY_LAST_NUMERIC);
let params = {field_id: fieldID};
let name = "getDailyLastNumericFromFieldID";
if (date) {
params.days = dateToDays(date);
name = "getDailyLastNumericFromFieldIDAndDay";
}
return this._getDailyLastFromFieldID(name, params);
},
/**
* Obtain value(s) from a "daily last text" field.
*
* See `getDailyLastNumericFromFieldID` for behavior.
*/
getDailyLastTextFromFieldID: function (fieldID, date=null) {
this._ensureFieldType(fieldID, this.FIELD_DAILY_LAST_TEXT);
let params = {field_id: fieldID};
let name = "getDailyLastTextFromFieldID";
if (date) {
params.days = dateToDays(date);
name = "getDailyLastTextFromFieldIDAndDay";
}
return this._getDailyLastFromFieldID(name, params);
},
_getDailyLastFromFieldID: function (name, params) {
let self = this;
return Task.spawn(function fetchDailyLastForField() {
let rows = yield self._connection.executeCached(SQL[name], params);
let result = new DailyValues();
for (let row of rows) {
let d = daysToDate(row.getResultByIndex(0));
let value = row.getResultByIndex(1);
result.setDay(d, value);
}
throw new Task.Result(result);
});
},
/**
* Add a new value for a "daily discrete numeric" field.
*
* This appends a new value to the list of values for a specific field. All
* values are retained. Duplicate values are allowed.
*
* @param fieldID
* (Number) Integer primary key of field.
* @param value
* (Number) Value to record.
* @param date optional
* (Date) When this value occurred. Values are bucketed by day.
*/
addDailyDiscreteNumericFromFieldID: function (fieldID, value, date=new Date()) {
this._ensureFieldType(fieldID, this.FIELD_DAILY_DISCRETE_NUMERIC);
if (typeof(value) != "number") {
throw new Error("Number expected. Got: " + value);
}
let params = {
field_id: fieldID,
days: dateToDays(date),
value: value,
};
return this._connection.executeCached(SQL.addDailyDiscreteNumeric, params);
},
/**
* Add a new value for a "daily discrete text" field.
*
* See `addDailyDiscreteNumericFromFieldID` for behavior.
*/
addDailyDiscreteTextFromFieldID: function (fieldID, value, date=new Date()) {
this._ensureFieldType(fieldID, this.FIELD_DAILY_DISCRETE_TEXT);
if (typeof(value) != "string") {
throw new Error("String expected. Got: " + value);
}
let params = {
field_id: fieldID,
days: dateToDays(date),
value: value,
};
return this._connection.executeCached(SQL.addDailyDiscreteText, params);
},
/**
* Obtain values for a "daily discrete numeric" field.
*
* This returns a promise that resolves to a `DailyValues` instance. If
* `date` is specified, there will be at most 1 key in that instance. If
* not, all data from the database will be retrieved.
*
* Values in that instance will be arrays of the raw values.
*
* @param fieldID
* (Number) Integer primary key of field to retrieve.
* @param date optional
* (Date) Day to obtain data for. Date can be any time in the day.
*/
getDailyDiscreteNumericFromFieldID: function (fieldID, date=null) {
this._ensureFieldType(fieldID, this.FIELD_DAILY_DISCRETE_NUMERIC);
let params = {field_id: fieldID};
let name = "getDailyDiscreteNumericFromFieldID";
if (date) {
params.days = dateToDays(date);
name = "getDailyDiscreteNumericFromFieldIDAndDay";
}
return this._getDailyDiscreteFromFieldID(name, params);
},
/**
* Obtain values for a "daily discrete text" field.
*
* See `getDailyDiscreteNumericFromFieldID` for behavior.
*/
getDailyDiscreteTextFromFieldID: function (fieldID, date=null) {
this._ensureFieldType(fieldID, this.FIELD_DAILY_DISCRETE_TEXT);
let params = {field_id: fieldID};
let name = "getDailyDiscreteTextFromFieldID";
if (date) {
params.days = dateToDays(date);
name = "getDailyDiscreteTextFromFieldIDAndDay";
}
return this._getDailyDiscreteFromFieldID(name, params);
},
_getDailyDiscreteFromFieldID: function (name, params) {
let self = this;
return Task.spawn(function fetchDailyDiscreteValuesForField() {
let rows = yield self._connection.executeCached(SQL[name], params);
let result = new DailyValues();
for (let row of rows) {
let d = daysToDate(row.getResultByIndex(0));
let value = row.getResultByIndex(1);
result.appendValue(d, value);
}
throw new Task.Result(result);
});
},
/**
* Obtain the counts of daily counters in a measurement.
*
* This returns a promise that resolves to a Map of field name strings to
* DailyValues that hold per-day counts.
*
* @param id
* (Number) Integer primary key of measurement.
*
* @return Promise<Map>
*/
getMeasurementDailyCountersFromMeasurementID: function (id) {
let self = this;
return Task.spawn(function fetchDailyCounters() {
let rows = yield self._connection.execute(SQL.getMeasurementDailyCounters,
{measurement_id: id});
let result = new Map();
for (let row of rows) {
let field = row.getResultByName("field_name");
let date = daysToDate(row.getResultByName("day"));
let value = row.getResultByName("value");
if (!result.has(field)) {
result.set(field, new DailyValues());
}
result.get(field).setDay(date, value);
}
throw new Task.Result(result);
});
},
/**
* Obtain the values of "last" fields from a measurement.
*
* This returns a promise that resolves to a Map of field name to an array
* of [date, value].
*
* @param id
* (Number) Integer primary key of measurement whose data to retrieve.
*
* @return Promise<Map>
*/
getMeasurementLastValuesFromMeasurementID: function (id) {
let self = this;
return Task.spawn(function fetchMeasurementLastValues() {
let rows = yield self._connection.execute(SQL.getMeasurementLastValues,
{measurement_id: id});
let result = new Map();
for (let row of rows) {
let date = daysToDate(row.getResultByIndex(1));
let value = row.getResultByIndex(2);
result.set(row.getResultByIndex(0), [date, value]);
}
throw new Task.Result(result);
});
},
/**
* Obtain the values of "last daily" fields from a measurement.
*
* This returns a promise that resolves to a Map of field name to DailyValues
* instances. Each DailyValues instance has days for which a daily last value
* is defined. The values in each DailyValues are the raw last value for that
* day.
*
* @param id
* (Number) Integer primary key of measurement whose data to retrieve.
*
* @return Promise<Map>
*/
getMeasurementDailyLastValuesFromMeasurementID: function (id) {
let self = this;
return Task.spawn(function fetchMeasurementDailyLastValues() {
let rows = yield self._connection.execute(SQL.getMeasurementDailyLastValues,
{measurement_id: id});
let result = new Map();
for (let row of rows) {
let field = row.getResultByName("field_name");
let date = daysToDate(row.getResultByName("day"));
let value = row.getResultByName("value");
if (!result.has(field)) {
result.set(field, new DailyValues());
}
result.get(field).setDay(date, value);
}
throw new Task.Result(result);
});
},
/**
* Obtain the values of "daily discrete" fields from a measurement.
*
* This obtains all discrete values for all "daily discrete" fields in a
* measurement.
*
* This returns a promise that resolves to a Map. The Map's keys are field
* string names. Values are `DailyValues` instances. The values inside
* the `DailyValues` are arrays of the raw discrete values.
*
* @param id
* (Number) Integer primary key of measurement.
*
* @return Promise<Map>
*/
getMeasurementDailyDiscreteValuesFromMeasurementID: function (id) {
let deferred = Promise.defer();
let result = new Map();
this._connection.execute(SQL.getMeasurementDailyDiscreteValues,
{measurement_id: id}, function onRow(row) {
let field = row.getResultByName("field_name");
let date = daysToDate(row.getResultByName("day"));
let value = row.getResultByName("value");
if (!result.has(field)) {
result.set(field, new DailyValues());
}
result.get(field).appendValue(date, value);
}).then(function onComplete() {
deferred.resolve(result);
}, function onError(error) {
deferred.reject(error);
});
return deferred.promise;
},
});
// Alias built-in field types to public API.
for (let property of MetricsStorageSqliteBackend.prototype._BUILTIN_TYPES) {
this.MetricsStorageBackend[property] = MetricsStorageSqliteBackend.prototype[property];
}