Iguazio API lib for time-series DB access and Prometheus TSDB storage driver.
Note: This project is still under development, it requires the latest 1.7 release of iguazio DB (with Blob functions)
Iguazio provides a real-time flexible document database engine which accelerates popular BigData and open-source frameworks such as Spark and Presto, as well as provide AWS compatible data APIs (DynamoDB, Kinesis, S3).
Iguazio DB engine runs at the speed of in-memory databases, but uses lower cost and higher density (NVMe) Flash, it has a unique low-level design with highly parallel processing and OS bypass which treats Flash as async memory pages.
Iguazio DB low-level APIs (v3io) has rich API semantics and multiple indexing types, those allow it to run multiple workloads and processing engines on exactly the same data, and consistently read/write the data in different tools.
This project uses v3io semantics (row & col layouts, arrays, random & sequential indexes, etc.) to provide extremely fast and scalable Time Series database engine which can be accessed simultaneously by multiple engines and APIs, such as:
- Prometheus Time Series DB (for metrics scraping & queries)
- nuclio serverless functions (for real-time ingestion, stream processing or queries)
- Iguazio DynamoDB API (with extensions)
- Apache Presto & Spark (future item, for SQL & AI)
- Built-in CLI (tsdbctl) for DB creation, ingestion, and queries
nuclio supports HTTP and a large variety of streaming/triggering options (Kafka, Kinesis , Azure event-hub, RabbitMQ, NATS, Iguazio streams, MQTT, Cron tasks), it provides automatic deployment and auto-scaling enabling ingestion from variety of sources at endless scalability. using nuclio functions can be customized to pre-process incoming data e.g. examine metric data, alert, convert formats, etc.
The solution stores the raw data in highly compressed column chunks (using Gorilla/XOR compression variation), with one chunk for every n hours (1hr default), queries will only retrieve and decompress the specific columns based on the requested time range.
Users can define pre-aggregates (count, avg, sum, min, max, stddev, stdvar, last, rate) which use v3io update expressions and store data consistently in arrays per user defined intervals (RollupMin) and/or dimensions (labels).
High-resolution queries will detect the pre-aggregates automatically and selectively access the array ranges (skip chunk retrieval, decompression, and aggregation) which significantly accelerate searches and provide real-time response. an extension supports overlapping aggregates (retrieve last 1hr, 6h, 12hr, 24hr stats in a single request), this is currently not possible via the standard Prometheus TSDB API.
The data can be partitioned to multiple tables (e.g. one per week) or use a cyclic table (goes back to the first chunk after it reached the end), multiple tables are stored in a hierarchy under the specified path.
Metric names and labels are stored in search optimized keys and string attributes. Iguazio DB engine can run full dimension scan (searches) in the rate of millions of metrics per second, or use selective range based queries to access a specific metric family.
The use of v3io random access keys (Hash based) allow real-time sample data ingestion/retrieval and stream processing.
To maintain high-performance over low-speed connections we implement auto IO throttling, if the link is slow multiple samples will be pushed in a single operation, users can configure the maximum allowed batch (trade efficiency with consistency). IO is done using multiple parallel connections/workers enabling maximum throughput regardless of the link latency.
The code is separated to Prometheus compliant adapter in /promtsdb and more generic/advanced adapter in /pkg/tsdb, you should use the latter for custom functions and code. See a full usage example in v3iotsdb_test.go, both have similar semantics.
For Prometheus you would need to use the fork found in https://github.com/v3io/prometheus, it already loads this
library, you would need to place a v3io-tsdb-config.yaml file with relevant configuration in the same folder as the Prometheus
executable (see details on configurations below).
A developer using this library should first create a TSDB, this can be done using the CLI or an API call (CreateTSDB)
which builds the TSDB metadata in the DB. To use the DB you should create an Adapter using the method NewV3ioAdapter()
, with the adapter he can create an Appender for adding samples or Querier for querying the database and retrieving
a set of metrics or aggregates, see the following sections for details.
A user can run the CLI to add (append) or query the DB, to use the CLI, build the code under tsdbctl, it has built-in help, see the following add/query examples:
# create a DB with expected ingestion rate of one sample per second and some aggregates (at 30 min interval)
# and cross-label aggregates for "host"
tsdbctl create -t <table> --ingestion-rate 1/s -a count,sum,max -i 30m -l label1
# display DB info with metric names (types)
tsdbctl info -t <table> -n
# append a sample (73.2) to the specified metric type (cpu) + labels at the current time
tsdbctl add -t <table> cpu os=win,node=xyz123 -d 73.2
# display all the CPU metrics for win servers from the last hours, in CSV format
tsdbctl query -t <table> cpu -f "os=='win'" -l 1h -o csv
For use with nuclio function you can see function example under \nuclio
The first step is to create a TSDB, this is done only once per TSDB and generates the required metadata and configuration such as partitioning strategy, retention, aggregates, etc. this can be done via the CLI or a function call.
// Load v3io connection/path details (see YAML below)
v3iocfg, err := config.GetOrLoadFromFile("v3io-tsdb-config.yaml")
if err != nil {
// TODO: handle error
}
// Specify the default DB configuration (can be modified per partition)
samplesIngestionRate = "1/s"
aggregationGranularity = "1h"
aggregatesList = "scount,avg,min,max"
crossLabel = "label1,label2;label3"
schema, err := schema.NewSchema(v3iocfg, samplesIngestionRate, aggregationGranularity, aggregatesList, crossLabel)
if err != nil {
// TODO: handle error
}
return tsdb.CreateTSDB(v3iocfg, schema)If you plan on using pre-aggregation to speed aggregate queries you should specify the
Rollups(function list) andRollupMin(bucket time in minutes) parameters, the supported aggregation functions are: count, sum, avg, min, max, stddev, stdvar.
In order to use the TSDB we need to create an adapter, the NewV3ioAdapter function accepts 3
parameters: the configuration structure, v3io data container object and logger object. The last 2 are optional, in case
you already have container and logger (when using nuclio data bindings).
Configuration is specified in a YAML or JSON format, and can be read from a file using config.GetOrLoadFromFile(path string)
or can be loaded from a local buffer using config.GetOrLoadFromData(data []byte).
You can see details on the configuration options in the V3IO TSDB config.go source file.
A template configuration file is found at examples/v3io-tsdb-config.yaml.template.
You can use it as a reference for creating your own TSDB configuration file.
For example:
webApiEndpoint: "192.168.1.100:8081"
container: "tsdb"
username: "johnd"
password: "OpenSesame"Following is an example of code for creating an adapter:
// create configuration object from file
cfg, err := config.GetOrLoadFromFile("v3io-tsdb-config.yaml")
if err != nil {
// TODO: handle error
}
// create and start a new TSDB adapter
adapter, err := tsdb.NewV3ioAdapter(cfg, nil, nil)
if err != nil {
// TODO: handle error
}The Appender interface is used to ingest metrics data, there are two functions for it: Add and AddFast which can be
after we used Add (using the refID returned by Add) to reduce some lookup/hash overhead.
Example:
// create an Appender interface
appender, err := adapter.Appender()
if err != nil {
panic(err)
}
// create metrics labels, `__name__` label specify the metric type (e.g. cpu, temperature, ..)
// the other labels can be used in searches (filtering or grouping) or aggregations
// use utils.LabelsFromStrings(s ...string) for string list input or utils.LabelsFromMap(m map[string]string) for map input
lset := utils.LabelsFromStrings("__name__","http_req", "method", "post")
// Add a sample with current time (in milisec) and the value of 7.9
ref, err := appender.Add(lset, time.Now().Unix * 1000, 7.9)
if err != nil {
panic(err)
}
// Add a second sample using AddFast and the refID from Add
err := appender.AddFast(nil, ref, time.Now().Unix * 1000 + 1000, 8.3)
if err != nil {
panic(err)
}The Querier interface is used to query the database and return one or more metrics, we first need to create a Querier,
once we did we can use Select() which will return a list of series (as an iterator object).
Every returned series have two interfaces, Labels() which returns the series or aggregate labels, and Iterator()
which returns an iterator over the series or aggregate values.
The Select() call accepts a SelectParams parameter which has the following properties:
- From (int64) - a timestamp in milliseconds specifying the start time of the query
- To (int64) - a timestamp in milliseconds specifying the end time of the query
- Name (string) - optional, comma separated metric types (e.g. cpu, memory, ..), specifying it accelerate performance (use range queries)
- Step (int64) - optional, the step interval in milliseconds used for the aggregation functions or for downsampling raw data
- Functions (string) - optional, a comma separated list of aggregation functions e.g.
"count,sum,avg,stddev" - Filter (string) - optional, V3IO GetItems filter expression for selecting the desired metrics e.g.
_name=='http_req' - GroupBy (string) - optional, a comma seperated list of labels to group the results by e.g.
"method" - RequestedColumns ([]RequestedColumn) - optional, as an alternative to
Name&Functiona user can pass a list ofRequestedColumnobject that specify which metrics and aggregates to query. Using this API it is possible to query several metrics in the same query.
Using Functions and Step is optional, use it only when you are interested in pre-aggregation and the step is >> than
the sampling interval (and preferably equal or greater than the partition RollupMin interval).
There are two types of aggregates:
- aggregates over time - aggregates the data into buckets over a period of time. This will result in a series for every unique label set per aggregate.
- aggregates across series - aggregates the data for all the different label sets into one series per aggregate. Add an
_allsuffix to the aggregate name to use this kind of aggregation.
In both cases, the Aggregate label will be added to that series with the function name.
But, a user can use an aggregate over time or aggregate across series but not both in the same query.
creating a querier:
qry, err := adapter.QuerierV2()
if err != nil {
panic(err)
}Simple select example (no aggregates):
params := &pquerier.SelectParams{Name: "http_req",
Filter: "method=='post'",
From: minTime,
To: maxTime}
set, err := qry.Select(params)Select using aggregates:
params := &pquerier.SelectParams{Name: "http_req",
Filter: "method=='post'",
From: minTime,
To: maxTime,
Step: 1000*3600,
Functions: "count,avg,sum,max"}
set, err := qry.Select(params)Select using RequestedColumns:
wantedColumns: []pquerier.RequestedColumn{{Metric: "http_req", Function: "avg"},
{Metric: "http_req", Function: "count"},
{Metric: "http_req", Function: "max"},
{Metric: "tcp_req", Function: "avg"}}
params := &pquerier.SelectParams{RequestedColumns: wantedColumns
Filter: "method=='post'",
From: minTime,
To: maxTime,
Step: 1000*3600}
set, err := qry.Select(params)Once we obtain a set using one of the methods above we can iterate over the set and the individual series in the following way:
for set.Next() {
if set.Err() != nil {
panic(set.Err())
}
series := set.At()
fmt.Println("\nLables:", series.Labels())
iter := series.Iterator()
for iter.Next() {
if iter.Err() != nil {
panic(iter.Err())
}
t, v := iter.At()
fmt.Printf("t=%d,v=%.2f ", t, v)
}
fmt.Println()
}
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