A Haskell tile server that produces GeoJSON or MVT (Mapbox Vector Tiles) from a PostGIS database.
./hastile starter --dbConnection "host=localhost port=5432 user=dba password=password dbname=mapdata" --port 8080 --host "http://localhost" --cfgFile hastile-config.json
Install Haskell Stack:
- curl -sSL https://get.haskellstack.org/ | sh
sudo apt-get install libgmp-dev postgresql gdal-bin postgis libgeos-dev libpq-dev
brew install gmp postgresql gdal postgis geos libpq
Point the server at a PostgreSQL (9.6+) database with the PostGIS extension enabled. It will automatically render tables with a "wkb_geometry" column and serve them as layers.
For example:
stack buildstack exec -- hastile starter --dbConnection "host=localhost port=5432 user=dba password=password dbname=mapdata" --port 8080 --host "http://localhost" --cfgFile hastile-config.json
Tiles will be available at: http://localhost:8080/table_name/z/x/y.mvt
A configuration file will be created automatically although not used (see running in Server mode below).
GET / (application/json) - Returns the current configuration.
POST / (application/json) - Add/overwite many layer configurations.
POST /layername (application/json) - Add/overwrite a single layer configuration.
GET /layername[.json] (application/json) - Return TileJSON for a tile layer.
GET /layername/Z/X/Y.<mvt|pbf> (application/vnd.mapbox-vector-tile) - Return Mapnik Vector Tile for given layername, Zoom, (X,Y).
GET /layername/Z/X/Y.json (application/json) - Return GeoJSON for given layername, Zoom, (X,Y).
GET /token (application/json) - Returns tokens and authorised layers.
GET /token/tokenid (application/json) - Returns the authorised layers for the given token.
POST /token (application/json) - A token and authorised layers to upsert the token database.
DELETE /token/tokenid (application/json) - Delete the given token from the token database.
The POST / with multiple layer configuration or POST /layername with a layer configuration allows you to change the layers that Hastile serves up
and will save the configuration file to disk.
To create a new layer:
curl -d '{ "layer_name": { "table-name": "...", "format": "geojson", "quantize": 2, "simplify": {} } }' -H "Content-Type: application/json" -X POST http://localhost:8080/
To modify an existing layer:
curl -d '{ "table-name": "...", "format": "geojson", "quantize": 2, "simplify": {} }' -H "Content-Type: application/json" -X POST http://localhost:8080/layer_name
Example:
"rail_network": {
"security": "public",
"table-name": "suburbanrail_hastile",
"format": "wkb-properties",
"minzoom": 0,
"maxzoom": 20,
"bounds": [ 144.94932174682617, -37.82449737924566, 144.97901916503906, -37.84788365473107 ],
"format": "wkb-properties",
"last-modified": "2018-10-31 09:09:39 +1000",
"quantize": 4,
"simplify": {
"12": "douglas-peucker"
}
}| Attributes | |
|---|---|
| layer-name string |
The unique key to the layer configuration |
| Attributes | |
|---|---|
| security string |
"public" - allow anyone to request "private" - require a valid token (using ?token=xxxx). |
| table-name string |
The unique key to the layer. |
| format string |
"source" - a normal table "wkb-properties" - combination of JSON hash and wkb_geometry columns "geojson" - combination of GeoJSON, JSON hash of properties and wkb geomtry columns. |
| last-modified date |
Last time the layer has been update, used to return the Last-Modified HTTP header. |
| quantize integer |
Positive integer, amount to round and remove duplicates (10 is probably the most, 1 is typical). |
| simplify map |
A map of zoom levels to simplification settings. |
| minzoom int |
0..30 Minimum zoom level to render, otherwise returns 404. Adds setting to TileJSON. |
| maxzoom int |
0..30 Maximum zoom level to render, otherwise returns 404. Adds setting to TileJSON. |
| bounds array float |
Bounds are represented in WGS:84 latitude and longitude values. Adds settings to TileJSON. |
| Attributes | |
|---|---|
| zoom-level string |
The zoom level (>=) to apply the layer simplification algorithm. |
| Attributes | |
|---|---|
| algorithm-name string |
"douglas-peucker" - apply the Ramer-Douglas-Peucker algorithm (epsilon of 1.0). |
Building:
stack buildstack test
Server mode makes more features available:
- Token based security (private layers),
- Metrics (prometheus)
A token table is required for token security. This is required for "private" layers.
- Create a postgres database to store the tokens table:
createdb -O dba db_nameIf you don't have thecreatedbutility then use themigrationtool :
./db/migration createdb db_name dba - Initialize the DB :
./db/migration init "postgresql://db_user:password@db_server:db_port/db_name" - Run the migrations :
./db/migration migrate "postgresql://db_user:password@db_server:db_port/db_name" - Use the
migrationtool for migrations :
./db/migration --help
To insert or update a token:
curl -d '{ "token": "abcd", "layers": ["layer1", "layer2"] }' -H "Content-Type: application/json" -X POST http://localhost:8080/token
To delete a token:
curl -H "Content-Type: application/json" -X DELETE http://localhost:8080/token/abcd
To run Hastile in server mode you must use a configuration file:
stack exec -- hastile server --configFile hastile-config.json
The file contains settings for the database connection and layer configuration, for example:
{
"db-connection": "host=example.com port=5432 user=tiler password=123abc dbname=notoracle"
"layers": {
"layer1": {
"table_name": "layer1_table",
"format": "wkb-properties",
"last-modified": "2017-01-15T23:49:36Z"
},
"layer2": {
"table_name": "layer2_table",
"format": "geojson",
"last-modified": "2017-01-15T23:49:36Z"
}
}
}Where, db-connection is a PostgreSQL connection string.
To construct a table with a GeoJSON feature with all properties containing arbitrary columns from a table, create a materialized view like:
CREATE MATERIALIZED VIEW layer1_table as SELECT jsonb_build_object(
'type', 'Feature',
'id', ogc_fid,
'geometry', ST_AsGeoJSON(wkb_geometry)::jsonb,
'properties', to_jsonb(row) - 'ogc_fid' - 'wkb_geometry'
)::json as geojson, (to_jsonb(row) - 'wkb_geometry') :: JSON as properties,row.wkb_geometry as wkb_geometry FROM (SELECT * FROM source_layer1_table) row;This will create the two columns required: geojson (a GeoJSON feature in JSON format) and the geometry column.
You can configure other database, mapnik and HTTP port settings too:
{
"db-pool-size": 10,
"db-timeout": 5,
"port": 8080
}If you want to combine multiple tables into a single layer you can use UNION and MATERIALIZED VIEWS and then query it directly:
CREATE MATERIALIZED VIEW layers AS
SELECT geojson FROM layer1_table
UNION
SELECT geojson FROM layer2_tableChanging the configuration to:
"layers": {
"layer": {
...
}
}To start the server:
./hastile server --configFile FILEPATH
To run with GHC Metrics:
./hastile server --configFile FILEPATH +RTS -T
Hastile docs are generated using mkdocs.
Preview docs locally by using mkdocs serve or mkdocs build. Then deploy to https://indicatrix.github.io/hastile using mkdocs gh-deploy. This command will deploy to the gh-pages branch as outlined here.
We assume tiles are requested in the spherical mercator (EPSG 3857 AKA EPSG 900913 AKA Webby McWebcator). Furthermore, map data is assumed to be stored in EPSG 4326.