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An Erlang ingester for GreptimeDB, which is compatible with GreptimeDB protocol and lightweight.

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greptimedb-ingester-erl

Tests Coverage Status

An Erlang client library for GreptimeDB.

0.1.0: only working for GreptimeDB 0.2, otherwise for the latest GreptimeDB releases.

Usage

Start the application:

    application:ensure_all_started(greptimedb).

Start the client:

    Options =
      [{endpoints, [{http, "localhost", 4001}]},
       {pool, greptimedb_client_pool},
       {pool_size, 5},
       {grpc_hints, #{}},
       {pool_type, random},
       {timeunit, ms}].
    {ok, Client} = greptimedb:start_client(Options).

Write data by rows:

    Metric = <<"temperatures">>,
    Points =
        [#{fields => #{<<"temperature">> => 1},
           tags =>
               #{<<"from">> => <<"mqttx_4b963a8e">>,
                 <<"host">> => <<"serverA">>,
                 <<"qos">> => greptimedb_values:int64_value(0),
                 <<"region">> => <<"hangzhou">>},
           timestamp => 1619775142098},
         #{fields => #{<<"temperature">> => 2},
           tags =>
               #{<<"from">> => <<"mqttx_4b963a8e">>,
                 <<"host">> => <<"serverB">>,
                 <<"qos">> => greptimedb_values:int64_value(1),
                 <<"region">> => <<"ningbo">>,
                 <<"to">> => <<"kafka">>},
           timestamp => 1619775143098}],

    {ok, #{response := {affected_rows, #{value := 2}}}} =
        greptimedb:write(Client, Metric, Points).

Write data specifying timeunit:

   Metric = #{table => <<"temperatures_nanosec">>,
              timeunit => nanosecond},
   Points =
        [#{fields => #{<<"temperature">> => 1},
           tags =>
               #{<<"from">> => <<"mqttx_4b963a8e">>,
                 <<"host">> => <<"serverA">>,
                 <<"qos">> => greptimedb_values:int64_value(0),
                 <<"region">> => <<"hangzhou">>},
           timestamp => 1705946037724448346}],

    {ok, #{response := {affected_rows, #{value := 1}}}} =
        greptimedb:write(Client, Metric, Points).

Write in async:

Ref = make_ref(),
Pid = self(),
ResultCallback = {fun(Reply) -> Pid ! {{Ref, reply}, Reply} end, []},

ok = greptimedb:async_write(Client, Metric, Points, ResultCallback),
receive
    {{Ref, reply}, Reply} ->
        io:format("Reply ~w~n", [Reply])
end.

Batch write:

Metric1 = <<"temperatures">>,
Points1 = [...],
Metric2 = <<"humidities">>,
Points2 = [...],
Batch = [{Metric1, Points1}, {Metric2, Points}],

{ok, _} = greptimedb:write_batch(Client, Batch).

Batch write in async:

Batch = ...,
Ref = make_ref(),
Pid = self(),
ResultCallback = {fun(Reply) -> Pid ! {{Ref, reply}, Reply} end, []},

ok = greptimedb:async_write_batch(Client, Batch, ResultCallback),
receive
    {{Ref, reply}, Reply} ->
        io:format("Reply ~w~n", [Reply])
end.

Streaming write:

    Points1 = [ ... ],
    Points2 = [ ... ],

    {ok, Stream} = greptimedb:write_stream(Client),
    greptimedb_stream:write(Stream, "Metric1", Points1),
    greptimedb_stream:write(Stream, "Metric2", Points2),
    {ok, _} = greptimedb_stream:finish(Stream).

Stop the client:

    greptimedb:stop_client(Client).

Check if the client is alive:

    true = greptimedb:is_alive(Client),

Connect GreptimeDB with authentication:

    Options =
      [{endpoints, [{http, "localhost", 4001}]},
       {pool, greptimedb_client_pool},
       {pool_size, 5},
       {pool_type, random},
       {timeunit, ms},
       {auth, {basic, #{username => <<"greptime_user">>, password => <<"greptime_pwd">>}}}].
    {ok, Client} = greptimedb:start_client(Options).

Write to GreptimeCloud

GreptimeCloud is a fully-managed GreptimeDB as a service in the cloud.

After you creating a service, you must have the following info via connect:

  • Host the service host to connect,
  • Port, gRPC port, default is 5001,
  • Database, the database to write,
  • Username, the service username,
  • Password, the service password.

Connect to GreptimeCloud with authentication:

  Host = ...,
  Database = ...,
  Username = ...,
  Password = ...,

  Options =
      [{endpoints, [{https, Host, 5001}]},
       {pool, greptimedb_client_pool},
       {pool_size, 5},
       {pool_type, random},
       {timeunit, ms},
       {dbname, Database},
       {auth, {basic, #{username => Username, password => Password }}}],

  {ok, Client} = greptimedb:start_client(Options),

  Metric = <"temperatures">>,
  Points =
      [#{fields => #{<<"temperature">> => 1},
         tags =>
             #{<<"from">> => <<"mqttx_4b963a8e">>,
               <<"host">> => <<"serverA">>,
               <<"qos">> => greptimedb_values:int64_value(0),
               <<"region">> => <<"hangzhou">>},
         timestamp => 1619775142098},
       #{fields => #{<<"temperature">> => 2},
         tags =>
             #{<<"from">> => <<"mqttx_4b963a8e">>,
               <<"host">> => <<"serverB">>,
               <<"qos">> => greptimedb_values:int64_value(1),
               <<"region">> => <<"ningbo">>,
               <<"to">> => <<"kafka">>},
         timestamp => 1619775143098}],

  greptimedb:write(Client, Metric, Points).

We change the endpoint scheme from http to https and set the dbname option.

APIs guide

Client options

A proper list contains:

  • endpoints: List of the GreptimeDB server address in the form of {http, host, port}
  • pool, pool_size etc.: the client pool settings
  • grpc_opts: grpxbox client options
  • grpc_hints: a map for GreptimeDB gRPC insertion hints, for example#{ <<"append_mode">> => <<"true">> } to enable append mode when creating tables automatically. Valid hints include:
    • append_mode: true or false to enable append mode, default is false,
    • ttl: time to live, the table ttl option,
    • merge_mode: last_row or last_non_null, default is last_row,
    • auto_create_table: true or false, whether to create tables automatically when writing data, default is false,
    • More about these table options, please read the doc.
  • ssl_opts: when the endpoint scheme is https, the ssl options to use([] by default).
  • auth: authentication options, {auth, {basic, #{username => <<"greptime_user">>, password => <<"greptime_pwd">>}}} for example.
  • timeunit: Timestamp unit, supports:
    • ns or nanosecond
    • us or microsecond
    • ms or millisecond
    • s or second
  • dbname: the default database to write, public by default. Change it to the servce database name when connecting to GreptimeCloud.

Write and datatypes

The metric name can be a string or binary. If you want to set the database, the metric name can be set in the form of {dbname, metric}. The data will be written into greptime-public by default.

Write each row by greptimedb:write/3 function. Every row contains:

  • fields: the metric fields, the default type is FLOAT64.
  • tags: the metric tags, the default type is STRING.
  • timestamp: the metric timestamp, the default type is TIMESTAMP_MILLISECOND.

Of course, you can write other types by using functions in greptimedb_values.

Build and test

Build:

$ rebar3 compile

Test:

$ rebar3 do ct,eunit

Performance

Finish benchmark,
  series: 5000,
  concurrency: 10,
  cost: 48 seconds,
  rows: 10000000,
  TPS: 208333.33333333334

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An Erlang ingester for GreptimeDB, which is compatible with GreptimeDB protocol and lightweight.

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