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Gorge

Release

Gorge is a service which harvests hydrological data (river's discharge and water level) on schedule. Harvested data is stored in database and can be queried later.

Table of contents

Why should I use it?

This project is mainly intended for whitewater enthusiasts. Currently, there are several projects that harvest and/or publish hydrological data for kayakers and other river folks. There's certain level of duplication, because these projects harvest data from the same sources. So, if you have a project and want to add new data source(s) to it, you have 3 choices:

  1. Write parser/harvester yourself and harvest data yourself
  2. Reuse parser/harvester from another project, but harvest data yourself
  3. Cooperate with another project to reduce load on the original data source

So how can gorge/whitewater.guide help you? Currently, you can harvest data from whitewater.guide (which uses gorge internally to publish it). It's available via our GRAPHQL endpoint. Please respect the original data licenses. This is option 3.

If you prefer option 2, you can run gorge server in docker container and use our scripts to harvest data, so you don't have to write them yourself.

Gorge was designed with 2 more features in mind. These features are not implemented yet, but they should not take long for us to implement in case someone would like to use them:

  • standalone distribution. Gorge can be distributed as standalone linux/mac/windows program, so you can execute it from cli and get harvested results in your stdout. In case you don't want docker and gorge server.
  • pushing data downstream. Instead of pulling data from gorge, we can make gorge push data to your project.

Data sources

You can find the list of our data sources and their statuses here

Usage

Gorge is distributed as a ~130Mb docker image with two binary files:

  • gorge-server (entrypoint) - web server with REST API
  • gorge-cli - command-line client for this server. Since image is distroless, use docker exec gorge gorge-cli to call it

Setting up database

Gorge database schemas for postgres and sqlite can be found here.

In postgres table measurements is partitioned. Make sure you have pg_partman extension installed. Managing partitions is your responsibility. We use run partman.run_maintenance_proc with pg_cron (because AWS RDS doesn't yet support partman_bgw yet); Also we use dump_partitions.py script from partman.

Gorge is compatible with TimescaleDB extension. To use it, run following query while measurements table is still empty.

SELECT create_hypertable('measurements', 'timestamp');

Launching

gorge-server accepts configuration via cli arguments (use gorge-server --help). You can pass them via docker-compose command field, like this:

command:
  [
    "--pg-db",
    "gorge",
    "--debug",
    "--log-format",
    "plain",
    "--db-chunk-size",
    "1000",
  ]

Here is the list of available flags:

--cache string                   either 'inmemory' or 'redis' (default "redis")
--db string                      either 'inmemory' or 'postgres' (default "postgres")
--db-chunk-size int              measurements will be saved to db in chunks of this size. When set to 0, they will be saved in one chunk, which can cause errors
--debug                          enables debug mode, sets log level to debug
--endpoint string                endpoint path (default "/")
--hooks-health-cron string       cron expression for running health notifier (default "0 0 * * *")
--hooks-health-headers strings   headers to set on request, in 'Header: Value' format, similar to curl  (default [])
--hooks-health-threshold int     hours required to pass since last successful execution to consider job unhealthy (default 48)
--hooks-health-url string        external endpoint to call with list of unhealthy jobs
--http-proxy string              HTTP client proxy (for example, you can use mitm for local development)
--http-timeout int               Request timeout in seconds (default 60)
--http-user-agent string         User agent for requests sent from scripts. Leave empty to use fake browser agent (default "whitewater.guide robot")
--http-without-tls               Disable TLS for some gauges
--log-format string              set this to 'json' to output log in json (default "json")
--log-level string               log level. Leave empty to discard logs (default "info")
--pg-db string                   postgres database (default "postgres")
--pg-host string                 postgres host (default "db")
--pg-password string             postgres password [env POSTGRES_PASSWORD]
--pg-user string                 postgres user (default "postgres")
--port string                    port (default "7080")
--redis-host string              redis host (default "redis")
--redis-port string              redis port (default "6379")

Gorge uses database to store harvested measurements and scheduled jobs. It comes with postgres and sqlite drivers. Gorge will initialize all the required tables. Check out sql migration file if you're curious about db schema.

Gorge uses cache to store safe-to-lose data: latest measurement from each gauge and harvest statuses. It comes with redis (recommended) and embedded redis drivers.

Gorge server is supposed to be running in private network. It doesn't support HTTPS. If you want to expose it to public, use reverse proxy.

Working with API

Below is the list of endpoints exposed by gorge server. You can use request.http files in project root and script directories to play with running server.

  • GET /version

    Returns running server version:

    {
      "version": "1.0.0"
    }
  • GET /scripts

    Returns array of available scripts with their harvest modes:

    [
      {
        "name": "sepa",
        "mode": "oneByOne"
      },
      {
        "name": "switzerland",
        "mode": "allAtOnce"
      }
    ]
  • POST /upstream/{script}/gauges

    Lists gauges available for harvest in an upstream source.

    URL parameters:

    • script - script name for upstream source

    POST body contains JSON that contains script-specific parameters. For example, it can contain authentication credentials for protected sources. Another example is all_at_once test script, which accepts gauges JSON parameter to specify number of gauges to return.

    Returns JSON array of gauges. For example:

    [
      {
        "script": "tirol", // script name
        "code": "201012", // gauge code in upstream source
        "name": "Lech / Steeg", // gauge name
        "url": "https://apps.tirol.gv.at/hydro/#/Wasserstand/?station=201012", // upstream gauge webpage for humans
        "levelUnit": "cm", // units of water level measurement, if gauge provides water level
        "flowUnit": "cm", // units of water discharge measurement, if gauge provides discharge
        "location": {
          // gauge location in EPSG4326 coordinate system, if provided
          "latitude": 47.24192,
          "longitude": 10.2935,
          "altitude": 1109
        }
      }
    ]
  • POST /upstream/{script}/measurements?codes=[codes]&since=[since]

    Harvests measurements directly from upstream source without saving them.

    URL parameters:

    • script - script name for upstream source
    • codes - comma-separated list of gauge codes to return. This parameter is required for one-by-one scripts. For all-at-once scripts it's optional, and without it all gauges will be returned.
    • since - optional unix timestamp indicating start of the period you want to get measurements from. This is passed directly to upstream, if it support such parameter (very few actually do)

    POST body contains JSON that contains script-specific parameters. For example, it can contain authentication credentials for protected sources. Another example is all_at_once test script, which accepts min, max and value JSON parameters to control produced values.

    Returns JSON array of measurements. For example:

    [
      {
        "script": "tirol", // script name
        "code": "201178", // gauge code
        "timestamp": "2020-02-25T17:15:00Z", // timestamp in RFC3339
        "level": 212.3, // water level value, if provided, otherwise null
        "flow": null // water discharge value, if provided, otherwise null
      }
    ]
  • GET /jobs

    Returns array of running jobs:

    [
      {
        "id": "3382456e-4242-11e8-aa0e-134a9bf0be3b", // unique job id
        "script": "norway", // job script
        "gauges": {
          // array of gauges that this job harvests
          "100.1": null,
          "103.1": {
            // it's possible to set script-specific parameter for each individual gauge
            "version": 2
          }
        },
        "cron": "38 * * * *", // job's cron schedule, for all-at-once jobs
        "options": {
          // script-specific parameters
          "csv": true
        },
        "status": {
          // information about running job
          "lastRun": "2020-02-25T17:44:00Z", // latest execution timestamp
          "lastSuccess": "2020-02-25T17:44:00Z", // latest successful (>0 measurements harvested) execution timestamp (optional)
          "count": 10, // number of measurements harvested during latest execution
          "nextRun": "2020-02-25T17:46:00Z", // next execution timestamp
          "error": "somethin went wrong" // latest execution error (optional)
        }
      }
    ]
  • GET /jobs/{jobId}

    URL parameters:

    • jobId - harvest job id

    Returns the job description. It's same as item in /jobs array, but without status

    {
      "id": "3382456e-4242-11e8-aa0e-134a9bf0be3b",
      "script": "norway",
      "gauges": {
        "100.1": null,
        "103.1": {
          "version": 2
        }
      },
      "cron": "38 * * * *",
      "options": null
    }
  • GET /jobs/{jobId}/gauges

    URL parameters:

    • jobId - harvest job

    Returns map object with gauge statuses, where keys are gauge codes and values are statuses:

    [
      {
      "010802": {
        "lastRun": "2020-02-24T18:00:00Z",
        "lastSuccess": "2020-02-24T18:00:00Z",
        "count": 10,
        "nextRun": "2020-02-25T18:00:00Z"
      }
    ]
  • POST /jobs

    Adds new job.

    POST body must contain JSON job description. For example:

    {
      "id": "78a9e166-2a73-4be2-a3fb-71d254eb7868", // unique id, must be set by client
      "script": "one_by_one", // script for this job
      "gauges": {
        // list of gauges
        "g000": null, // set to null if gauge has no script-specific options
        "g001": { "version": 2 } // or pass script-specific options
      },
      "options": {
        // optional, common script-specific options
        "auth": "some_token"
      },
      "cron": "10 * * * *" // cron schedule required for all-at-once scripts
    }

    Returns same object in case of success, error object otherwise

  • DELETE /jobs/{jobId}

    URL parameters:

    • jobId - harvest job id

    Stop the job and deletes it from schedule

  • GET /measurements/{script}/{code}?from=[from]&to=[to]

    URL parameters:

    • script - script name
    • code - optional, gauge code
    • from - optional unix timestamp indicating start of the period you want to get measurements from. Default to 30 days from now.
    • to - optional unix timestamp indicating end of the period you want to get measurements from. Defaults to now.

    Returns array of measurements that were harvested and stored in gorge database for given script (and gauge). Resulting JSON is same as in /upstream/{script}/measurements

  • GET /measurements/{script}/{code}/latest

    URL parameters:

    • script - script name, required
    • code - gauge code, optional

    Returns array of measurements for given script or gauge. For each gauge, only latest measurement will be returned. Resulting JSON is same as in /upstream/{script}/measurements

  • GET /measurements/{script}/{code}/nearest?to=[to]

    URL parameters:

    • script - script name, required
    • code - gauge code, optional
    • to - required unix timstamp indicating

    For given script and code, returns one measurement that is nearest to timestamp provided via to query string. If no measurements +- 1 hour of given timestamps are found, returns null

  • GET /measurements/latest?scripts=[scripts]

    URL parameters:

    • scripts - comma-separated list of script names, required

    Same as GET /measurements/{script}/{code}/latest but allows to return latest measurements from multiple scripts at once.

Available scripts

List of available scripts is here

Health notifications

Gorge can call your webhooks when some of the running scripts haven't harvested any data for a period of time.

To configure healthcheck, use --health--xxx cli arguments. For example:

command:
  [
    
    '--hooks-health-cron',
    '0 0 * * *', # check health every midnight

    '--hooks-health-threshold',
    '48', # scripts that haven't harvested anything within last 48 hours are considered unhealthy

    '--hooks-health-url',
    'http://host.docker.internal:3333/gorge/health', # so POST request will be made to this endpoint

    '--hooks-health-headers',
    'x-api-key: __test_gorge_health_key__', # multiple headers can be set on this request
  ]

Example of this POST request payload:

[
    {
        "id": "2f915d20-ffe6-11e8-8919-9f370230d1ae",
        "script": "chile",
        "lastRun": "2021-12-13T07:57:59Z"
    },
    {
        "id": "e3c0c89a-7c72-11e9-8abd-cfc3ab2b843d",
        "script": "quebec",
        "lastRun": "2021-12-13T07:57:00Z",
        "lastSuccess": "2021-12-10T09:22:00Z"
    }
]

Other

There're Typescript type definitions for the API available on NPM

Development

Inside container

Preferred way of development is to develop inside docker container. I do this in VS Code. The repo already contains .devcontainer configuration.

If you use docker-compose.yml you need .env.development file where you can put env variables with secrets for scripts. The app will work without those variables, but docker-compose requires .env.development file to be present. If you use VS Code, .devcontainer takes care of this.

Some tests require postgres. You cannot run them inside docker container (unless you want to mess with docker-inside-docker). They're excluded from main test set, I run them using make test-nodocker from host machine or CI environment.

Docker-compose stack comes with mitmproxy. You can monitor your development server requests at http://localhost:6081 on host machine.

On host machine

If you want to develop on host machine, you'll need following libraries installed on it (they're installed in docker image, see Dockerfile for more info):

  • libproj library, to convert coordinate systems. Currently version 8.2.1 is required. It's built manually using ./build-proj.sh script, because we want to build it without curl and tiff dependencies, which are problematic for static linking and are not needed anyway

Also you'll need following go tools:

  • modd - live reloading tool, not really required, but some might prefer such workflow
  • golangci-lint - not a requirement, but this is the linter of choice and CI uses it

These tools are installed locally (see tools.go), but you should make sure that binaries are in your PATH

Building and running

Take a look at Makefile. Here are the highlights:

  • make run builds and launches server and cli, provides live reloading and tests
  • make build builds gorge-server and gorge-cli binaries in /go/bin directory
  • make test runs all tests expect postgres tests
  • make test-nodocker runs all test including postgres tests
  • make lint runs linter

Writing scripts

Here are some recommendations for writing scripts for new sources

  • Examine testscripts package, which contains simplest test scripts. Then examine existing scripts. Some of them process JSON and CSV sources, other parse raw HTML pages.
  • Write tests, but when testing, do not use calls to real URLs, because unit tests can flood upstream with requests
  • Round locations to 5 digits precision link, round levels and flows to what seems reasonable
  • When converting coordinates, use core.ToEPSG4326 utility function. It uses PROJ internally
  • Use core.Client http client, which sets timeout, user-agent and has various helpers
  • Do not bother with sorting results - this is done by script consumers
  • Do not filter by codes and since inside worker. They are meant to be passed to upstream. Empty codes for all-at-once script must return all available measurements.
  • Return null value (nulltype.NullFloat64{}) for level/flow when it's not provided
  • Pay extra attention to time zones!
  • Pass variables like access keys via script options, but provide environment variable fallbacks
  • Provide sample http requests (see requests.http files)
  • Be forgiving when handling errors: only exit harvest function on real stoppers. If a single JSON object/CSV line causes error - log it then process next entry.

TODO

  • Virtual gauges
    • Statuses
    • What happens when one component is broken?
  • Authorization
  • Pushing data downstream to peer projects (webhooks)
  • Subscriptions
  • Advanced scheduling with time affinity
  • Send logs to sentry
  • Per-script binaries for third-party consumption
  • GRAPHQL api with sources and local gauges
  • (DX) add git pre-push hooks to test and lint

License

MIT