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internals:internals-datasette-urls | internals | internals-datasette-urls | datasette.urls | The datasette.urls object contains methods for building URLs to pages within Datasette. Plugins should use this to link to pages, since these methods take into account any base_url configuration setting that might be in effect. datasette.urls.instance(format=None) Returns the URL to the Datasette instance root page. This is usually "/" . datasette.urls.path(path, format=None) Takes a path and returns the full path, taking base_url into account. For example, datasette.urls.path("-/logout") will return the path to the logout page, which will be "/-/logout" by default or /prefix-path/-/logout if base_url is set to /prefix-path/ datasette.urls.logout() Returns the URL to the logout page, usually "/-/logout" datasette.urls.static(path) Returns the URL of one of Datasette's default static assets, for example "/-/static/app.css" datasette.urls.static_plugins(plugin_name, path) Returns the URL of one of the static assets belonging to a plugin. datasette.urls.static_plugins("datasette_cluster_map", "datasette-cluster-map.js") would return "/-/static-plugins/datasette_cluster_map/datasette-cluster-map.js" datasette.urls.static(path) … | ["Internals for plugins", "Datasette class"] | [] |
internals:internals-response-asgi-send | internals | internals-response-asgi-send | Returning a response with .asgi_send(send) | In most cases you will return Response objects from your own view functions. You can also use a Response instance to respond at a lower level via ASGI, for example if you are writing code that uses the asgi_wrapper(datasette) hook. Create a Response object and then use await response.asgi_send(send) , passing the ASGI send function. For example: async def require_authorization(scope, receive, send): response = Response.text( "401 Authorization Required", headers={ "www-authenticate": 'Basic realm="Datasette", charset="UTF-8"' }, status=401, ) await response.asgi_send(send) | ["Internals for plugins", "Response class"] | [] |
internals:internals-response-set-cookie | internals | internals-response-set-cookie | Setting cookies with response.set_cookie() | To set cookies on the response, use the response.set_cookie(...) method. The method signature looks like this: def set_cookie( self, key, value="", max_age=None, expires=None, path="/", domain=None, secure=False, httponly=False, samesite="lax", ): ... You can use this with datasette.sign() to set signed cookies. Here's how you would set the ds_actor cookie for use with Datasette authentication : response = Response.redirect("/") response.set_cookie( "ds_actor", datasette.sign({"a": {"id": "cleopaws"}}, "actor"), ) return response | ["Internals for plugins", "Response class"] | [] |
internals:internals-utils-derive-named-parameters | internals | internals-utils-derive-named-parameters | derive_named_parameters(db, sql) | Derive the list of named parameters referenced in a SQL query, using an explain query executed against the provided database. async datasette.utils. derive_named_parameters db : Database sql : str List [ str ] Given a SQL statement, return a list of named parameters that are used in the statement e.g. for select * from foo where id=:id this would return ["id"] | ["Internals for plugins", "The datasette.utils module"] | [] |
internals:internals-utils-parse-metadata | internals | internals-utils-parse-metadata | parse_metadata(content) | This function accepts a string containing either JSON or YAML, expected to be of the format described in Metadata . It returns a nested Python dictionary representing the parsed data from that string. If the metadata cannot be parsed as either JSON or YAML the function will raise a utils.BadMetadataError exception. datasette.utils. parse_metadata content : str dict Detects if content is JSON or YAML and parses it appropriately. | ["Internals for plugins", "The datasette.utils module"] | [] |
internals:internals-database | internals | internals-database | Database class | Instances of the Database class can be used to execute queries against attached SQLite databases, and to run introspection against their schemas. | ["Internals for plugins"] | [] |
internals:internals-datasette | internals | internals-datasette | Datasette class | This object is an instance of the Datasette class, passed to many plugin hooks as an argument called datasette . You can create your own instance of this - for example to help write tests for a plugin - like so: from datasette.app import Datasette # With no arguments a single in-memory database will be attached datasette = Datasette() # The files= argument can load files from disk datasette = Datasette(files=["/path/to/my-database.db"]) # Pass metadata as a JSON dictionary like this datasette = Datasette( files=["/path/to/my-database.db"], metadata={ "databases": { "my-database": { "description": "This is my database" } } }, ) Constructor parameters include: files=[...] - a list of database files to open immutables=[...] - a list of database files to open in immutable mode metadata={...} - a dictionary of Metadata config_dir=... - the configuration directory to use, stored in datasette.config_dir | ["Internals for plugins"] | [] |
internals:internals-internal | internals | internals-internal | Datasette's internal database | Datasette maintains an "internal" SQLite database used for configuration, caching, and storage. Plugins can store configuration, settings, and other data inside this database. By default, Datasette will use a temporary in-memory SQLite database as the internal database, which is created at startup and destroyed at shutdown. Users of Datasette can optionally pass in a --internal flag to specify the path to a SQLite database to use as the internal database, which will persist internal data across Datasette instances. Datasette maintains tables called catalog_databases , catalog_tables , catalog_columns , catalog_indexes , catalog_foreign_keys with details of the attached databases and their schemas. These tables should not be considered a stable API - they may change between Datasette releases. The internal database is not exposed in the Datasette application by default, which means private data can safely be stored without worry of accidentally leaking information through the default Datasette interface and API. However, other plugins do have full read and write access to the internal database. Plugins can access this database by calling internal_db = datasette.get_internal_database() and then executing queries using the Database API . Plugin authors are asked to practice good etiquette when using the internal database, as all plugins use the same database to store data. For example: Use a unique prefix when creating tables, indices, and triggers in the internal database. If your plugin is called datasette-xyz , then prefix names with datasette_xyz_* . Avoid long-running write statements that may stall or block other plugins that are trying to write at the same time. Use temporary tables or shared in-memory attached databases when possible. … | ["Internals for plugins"] | [] |
internals:internals-multiparams | internals | internals-multiparams | The MultiParams class | request.args is a MultiParams object - a dictionary-like object which provides access to query string parameters that may have multiple values. Consider the query string ?foo=1&foo=2&bar=3 - with two values for foo and one value for bar . request.args[key] - string Returns the first value for that key, or raises a KeyError if the key is missing. For the above example request.args["foo"] would return "1" . request.args.get(key) - string or None Returns the first value for that key, or None if the key is missing. Pass a second argument to specify a different default, e.g. q = request.args.get("q", "") . request.args.getlist(key) - list of strings Returns the list of strings for that key. request.args.getlist("foo") would return ["1", "2"] in the above example. request.args.getlist("bar") would return ["3"] . If the key is missing an empty list will be returned. request.args.keys() - list of strings Returns the list of available keys - for the example this would be ["foo", "bar"] . key in request.args - True or False You can use if key in request.args to check if a key is present. for key in request.args - iterator This lets you loop through every available key. le… | ["Internals for plugins"] | [] |
internals:internals-response | internals | internals-response | Response class | The Response class can be returned from view functions that have been registered using the register_routes(datasette) hook. The Response() constructor takes the following arguments: body - string The body of the response. status - integer (optional) The HTTP status - defaults to 200. headers - dictionary (optional) A dictionary of extra HTTP headers, e.g. {"x-hello": "world"} . content_type - string (optional) The content-type for the response. Defaults to text/plain . For example: from datasette.utils.asgi import Response response = Response( "<xml>This is XML</xml>", content_type="application/xml; charset=utf-8", ) The quickest way to create responses is using the Response.text(...) , Response.html(...) , Response.json(...) or Response.redirect(...) helper methods: from datasette.utils.asgi import Response html_response = Response.html("This is HTML") json_response = Response.json({"this_is": "json"}) text_response = Response.text( "This will become utf-8 encoded text" ) # Redirects are served as 302, unless you pass status=301: redirect_response = Response.redirect( "https://latest.datasette.io/" ) Each of these responses will use the correct corresponding content-type - text/html; charset=utf-8 , application/json; charset=utf-8 or text/plain; charset=utf-8 respectively. Each of the helper methods take optional status= and headers= argument… | ["Internals for plugins"] | [] |
internals:internals-shortcuts | internals | internals-shortcuts | Import shortcuts | The following commonly used symbols can be imported directly from the datasette module: from datasette import Response from datasette import Forbidden from datasette import NotFound from datasette import hookimpl from datasette import actor_matches_allow | ["Internals for plugins"] | [] |
introspection:jsondataview-actor | introspection | jsondataview-actor | /-/actor | Shows the currently authenticated actor. Useful for debugging Datasette authentication plugins. { "actor": { "id": 1, "username": "some-user" } } | ["Introspection"] | [] |
introspection:messagesdebugview | introspection | messagesdebugview | /-/messages | The debug tool at /-/messages can be used to set flash messages to try out that feature. See .add_message(request, message, type=datasette.INFO) for details of this feature. | ["Introspection"] | [] |
json_api:column-filter-arguments | json_api | column-filter-arguments | Column filter arguments | You can filter the data returned by the table based on column values using a query string argument. ?column__exact=value or ?_column=value Returns rows where the specified column exactly matches the value. ?column__not=value Returns rows where the column does not match the value. ?column__contains=value Rows where the string column contains the specified value ( column like "%value%" in SQL). ?column__notcontains=value Rows where the string column does not contain the specified value ( column not like "%value%" in SQL). ?column__endswith=value Rows where the string column ends with the specified value ( column like "%value" in SQL). ?column__startswith=value Rows where the string column starts with the specified value ( column like "value%" in SQL). ?column__gt=value Rows which are greater than the specified value. ?column__gte=value Rows which… | ["JSON API", "Table arguments"] | [] |
json_api:rowdeleteview | json_api | rowdeleteview | Deleting a row | To delete a row, make a POST to /<database>/<table>/<row-pks>/-/delete . This requires the delete-row permission. POST /<database>/<table>/<row-pks>/-/delete Content-Type: application/json Authorization: Bearer dstok_<rest-of-token> <row-pks> here is the tilde-encoded primary key value of the row to delete - or a comma-separated list of primary key values if the table has a composite primary key. If successful, this will return a 200 status code and a {"ok": true} response body. Any errors will return {"errors": ["... descriptive message ..."], "ok": false} , and a 400 status code for a bad input or a 403 status code for an authentication or permission error. | ["JSON API", "The JSON write API"] | [] |
json_api:rowupdateview | json_api | rowupdateview | Updating a row | To update a row, make a POST to /<database>/<table>/<row-pks>/-/update . This requires the update-row permission. POST /<database>/<table>/<row-pks>/-/update Content-Type: application/json Authorization: Bearer dstok_<rest-of-token> { "update": { "text_column": "New text string", "integer_column": 3, "float_column": 3.14 } } <row-pks> here is the tilde-encoded primary key value of the row to update - or a comma-separated list of primary key values if the table has a composite primary key. You only need to pass the columns you want to update. Any other columns will be left unchanged. If successful, this will return a 200 status code and a {"ok": true} response body. Add "return": true to the request body to return the updated row: { "update": { "title": "New title" }, "return": true } The returned JSON will look like this: { "ok": true, "row": { "id": 1, "title": "New title", "other_column": "Will be present here too" } } Any errors will return {"errors": ["... descriptive message ..."], "ok": false} , and a 400 status code for a bad input or a 403 status code for an authentication or permission error. Pass "alter: true to automatically add any missing columns to the table. This requires the alter-table permission. | ["JSON API", "The JSON write API"] | [] |
json_api:tablecreateview | json_api | tablecreateview | Creating a table | To create a table, make a POST to /<database>/-/create . This requires the create-table permission. POST /<database>/-/create Content-Type: application/json Authorization: Bearer dstok_<rest-of-token> { "table": "name_of_new_table", "columns": [ { "name": "id", "type": "integer" }, { "name": "title", "type": "text" } ], "pk": "id" } The JSON here describes the table that will be created: table is the name of the table to create. This field is required. columns is a list of columns to create. Each column is a dictionary with name and type keys. name is the name of the column. This is required. type is the type of the column. This is optional - if not provided, text will be assumed. The valid types are text , integer , float and blob . pk is the primary key for the table. This is optional - if not provided, Datasette will create a SQLite table with a hidden rowid column. If the primary key is an integer column, it will be configured to automatically increment for each new record. If you set this to id without including an id column in the list of columns , Datasette will create an auto-incrementing integer ID column for you. pks can be used instead of pk to create a compound primary key. It should be a JSON list of column names to use in that primary key. … | ["JSON API", "The JSON write API"] | [] |
json_api:tablecreateview-example | json_api | tablecreateview-example | Creating a table from example data | Instead of specifying columns directly you can instead pass a single example row or a list of rows . Datasette will create a table with a schema that matches those rows and insert them for you: POST /<database>/-/create Content-Type: application/json Authorization: Bearer dstok_<rest-of-token> { "table": "creatures", "rows": [ { "id": 1, "name": "Tarantula" }, { "id": 2, "name": "Kākāpō" } ], "pk": "id" } Doing this requires both the create-table and insert-row permissions. The 201 response here will be similar to the columns form, but will also include the number of rows that were inserted as row_count : { "ok": true, "database": "data", "table": "creatures", "table_url": "http://127.0.0.1:8001/data/creatures", "table_api_url": "http://127.0.0.1:8001/data/creatures.json", "schema": "CREATE TABLE [creatures] (\n [id] INTEGER PRIMARY KEY,\n [name] TEXT\n)", "row_count": 2 } You can call the create endpoint multiple times for the same table provided you are specifying the table using the rows or row option. New rows will be inserted into the table each time. This means you can use this API if you are unsure if the relevant table has been created yet. If you pass a row to the create endpoint with a primary key that already exists you will get an error that looks like this: { "ok": false, "errors": [ "UNIQUE constraint failed: creatures.id" ] } You can avoid this error by passing the same "ignore": true or "replace": true options to the create endpoint as you can to the insert endpoint . To use the "replace": true option you will also need the update-row permission. Pass "alter": true to automatically add any missing columns to t… | ["JSON API", "The JSON write API"] | [] |
json_api:tabledropview | json_api | tabledropview | Dropping tables | To drop a table, make a POST to /<database>/<table>/-/drop . This requires the drop-table permission. POST /<database>/<table>/-/drop Content-Type: application/json Authorization: Bearer dstok_<rest-of-token> Without a POST body this will return a status 200 with a note about how many rows will be deleted: { "ok": true, "database": "<database>", "table": "<table>", "row_count": 5, "message": "Pass \"confirm\": true to confirm" } If you pass the following POST body: { "confirm": true } Then the table will be dropped and a status 200 response of {"ok": true} will be returned. Any errors will return {"errors": ["... descriptive message ..."], "ok": false} , and a 400 status code for a bad input or a 403 status code for an authentication or permission error. | ["JSON API", "The JSON write API"] | [] |
json_api:tableinsertview | json_api | tableinsertview | Inserting rows | This requires the insert-row permission. A single row can be inserted using the "row" key: POST /<database>/<table>/-/insert Content-Type: application/json Authorization: Bearer dstok_<rest-of-token> { "row": { "column1": "value1", "column2": "value2" } } If successful, this will return a 201 status code and the newly inserted row, for example: { "rows": [ { "id": 1, "column1": "value1", "column2": "value2" } ] } To insert multiple rows at a time, use the same API method but send a list of dictionaries as the "rows" key: POST /<database>/<table>/-/insert Content-Type: application/json Authorization: Bearer dstok_<rest-of-token> { "rows": [ { "column1": "value1", "column2": "value2" }, { "column1": "value3", "column2": "value4" } ] } If successful, this will return a 201 status code and a {"ok": true} response body. The maximum number rows that can be submitted at once defaults to 100, but this can be changed using the max_insert_rows setting. To return the newly inserted rows, add the "return": true key to the request body: { "rows": [ { "column1": "value1", "column2": "value2" }, { "column1": "value3", "column2": "value4" } ], "return": true } This will return the same "rows" key as the single row example above. There is a small performance penalty for using this option. If any of your rows have a primary key that is already in use, you will get an error and none of the rows will be inserted: { "ok": false, "errors": [ "UNIQUE constraint failed: new_table… | ["JSON API", "The JSON write API"] | [] |
json_api:tableupsertview | json_api | tableupsertview | Upserting rows | An upsert is an insert or update operation. If a row with a matching primary key already exists it will be updated - otherwise a new row will be inserted. The upsert API is mostly the same shape as the insert API . It requires both the insert-row and update-row permissions. POST /<database>/<table>/-/upsert Content-Type: application/json Authorization: Bearer dstok_<rest-of-token> { "rows": [ { "id": 1, "title": "Updated title for 1", "description": "Updated description for 1" }, { "id": 2, "description": "Updated description for 2", }, { "id": 3, "title": "Item 3", "description": "Description for 3" } ] } Imagine a table with a primary key of id and which already has rows with id values of 1 and 2 . The above example will: Update the row with id of 1 to set both title and description to the new values Update the row with id of 2 to set title to the new value - description will be left unchanged Insert a new row with id of 3 and both title and description set to the new values Similar to /-/insert , a row key with an object can be used instead of a rows array to upsert a single row. If successful, this will return a 200 status code and a {"ok": true} response body. Add "return": true to the request body to return full copies of the affected rows after they have been inserted or updated: { "rows": [ { "id": 1, "title": "Updated title for 1", "description": "Updated descri… | ["JSON API", "The JSON write API"] | [] |
json_api:expand-foreign-keys | json_api | expand-foreign-keys | Expanding foreign key references | Datasette can detect foreign key relationships and resolve those references into labels. The HTML interface does this by default for every detected foreign key column - you can turn that off using ?_labels=off . You can request foreign keys be expanded in JSON using the _labels=on or _label=COLUMN special query string parameters. Here's what an expanded row looks like: [ { "rowid": 1, "TreeID": 141565, "qLegalStatus": { "value": 1, "label": "Permitted Site" }, "qSpecies": { "value": 1, "label": "Myoporum laetum :: Myoporum" }, "qAddress": "501X Baker St", "SiteOrder": 1 } ] The column in the foreign key table that is used for the label can be specified in metadata.json - see Specifying the label column for a table . | ["JSON API"] | [] |
json_api:id2 | json_api | id2 | Table arguments | The Datasette table view takes a number of special query string arguments. | ["JSON API"] | [] |
json_api:json-api-cors | json_api | json-api-cors | Enabling CORS | If you start Datasette with the --cors option, each JSON endpoint will be served with the following additional HTTP headers: [[[cog from datasette.utils import add_cors_headers import textwrap headers = {} add_cors_headers(headers) output = "\n".join("{}: {}".format(k, v) for k, v in headers.items()) cog.out("\n::\n\n") cog.out(textwrap.indent(output, ' ')) cog.out("\n\n") ]]] Access-Control-Allow-Origin: * Access-Control-Allow-Headers: Authorization, Content-Type Access-Control-Expose-Headers: Link Access-Control-Allow-Methods: GET, POST, HEAD, OPTIONS Access-Control-Max-Age: 3600 [[[end]]] This allows JavaScript running on any domain to make cross-origin requests to interact with the Datasette API. If you start Datasette without the --cors option only JavaScript running on the same domain as Datasette will be able to access the API. Here's how to serve data.db with CORS enabled: datasette data.db --cors | ["JSON API"] | [] |
json_api:json-api-default | json_api | json-api-default | Default representation | The default JSON representation of data from a SQLite table or custom query looks like this: { "ok": true, "rows": [ { "id": 3, "name": "Detroit" }, { "id": 2, "name": "Los Angeles" }, { "id": 4, "name": "Memnonia" }, { "id": 1, "name": "San Francisco" } ], "truncated": false } "ok" is always true if an error did not occur. The "rows" key is a list of objects, each one representing a row. The "truncated" key lets you know if the query was truncated. This can happen if a SQL query returns more than 1,000 results (or the max_returned_rows setting). For table pages, an additional key "next" may be present. This indicates that the next page in the pagination set can be retrieved using ?_next=VALUE . | ["JSON API"] | [] |
json_api:json-api-discover-alternate | json_api | json-api-discover-alternate | Discovering the JSON for a page | Most of the HTML pages served by Datasette provide a mechanism for discovering their JSON equivalents using the HTML link mechanism. You can find this near the top of the source code of those pages, looking like this: <link rel="alternate" type="application/json+datasette" href="https://latest.datasette.io/fixtures/sortable.json"> The JSON URL is also made available in a Link HTTP header for the page: Link: https://latest.datasette.io/fixtures/sortable.json; rel="alternate"; type="application/json+datasette" | ["JSON API"] | [] |
json_api:json-api-shapes | json_api | json-api-shapes | Different shapes | The _shape parameter can be used to access alternative formats for the rows key which may be more convenient for your application. There are three options: ?_shape=objects - "rows" is a list of JSON key/value objects - the default ?_shape=arrays - "rows" is a list of lists, where the order of values in each list matches the order of the columns ?_shape=array - a JSON array of objects - effectively just the "rows" key from the default representation ?_shape=array&_nl=on - a newline-separated list of JSON objects ?_shape=arrayfirst - a flat JSON array containing just the first value from each row ?_shape=object - a JSON object keyed using the primary keys of the rows _shape=arrays looks like this: { "ok": true, "next": null, "rows": [ [3, "Detroit"], [2, "Los Angeles"], [4, "Memnonia"], [1, "San Francisco"] ] } _shape=array looks like this: [ { "id": 3, "name": "Detroit" }, { "id": 2, "name": "Los Angeles" }, { "id": 4, "name": "Memnonia" }, { "id": 1, "name": "San Francisco" } ] _shape=array&_nl=on looks like this: {"id": 1, "value": "Myoporum laetum :: Myoporum"} {"id": 2, "value": "Metrosideros excelsa :: New Zealand Xmas Tree"} {"id": 3, "value": "Pinus radiata :: Monterey Pine"} _shape=arrayfirst looks like this: [1, 2, 3] _shape=object looks like this: { "1": { "id": 1, "value": "Myoporum laetum :: Myoporum" }, "2": { "id": 2, "value": "Metrosideros excelsa :… | ["JSON API"] | [] |
json_api:json-api-write | json_api | json-api-write | The JSON write API | Datasette provides a write API for JSON data. This is a POST-only API that requires an authenticated API token, see API Tokens . The token will need to have the specified Permissions . | ["JSON API"] | [] |
javascript_plugins:javascript-plugins-makeabovetablepanelconfigs | javascript_plugins | javascript-plugins-makeabovetablepanelconfigs | makeAboveTablePanelConfigs() | This method should return a JavaScript array of objects defining additional panels to be added to the top of the table page. Each object should have the following: id - string A unique string ID for the panel, for example map-panel label - string A human-readable label for the panel render(node) - function A function that will be called with a DOM node to render the panel into This example shows how a plugin might define a single panel: document.addEventListener('datasette_init', function(ev) { ev.detail.registerPlugin('panel-plugin', { version: 0.1, makeAboveTablePanelConfigs: () => { return [ { id: 'first-panel', label: 'First panel', render: node => { node.innerHTML = '<h2>My custom panel</h2><p>This is a custom panel that I added using a JavaScript plugin</p>'; } } ] } }); }); When a page with a table loads, all registered plugins that implement makeAboveTablePanelConfigs() will be called and panels they return will be added to the top of the table page. | ["JavaScript plugins", "JavaScript plugin objects"] | [] |
javascript_plugins:javascript-plugins-makecolumnactions | javascript_plugins | javascript-plugins-makecolumnactions | makeColumnActions(columnDetails) | This method, if present, will be called when Datasette is rendering the cog action menu icons that appear at the top of the table view. By default these include options like "Sort ascending/descending" and "Facet by this", but plugins can return additional actions to be included in this menu. The method will be called with a columnDetails object with the following keys: columnName - string The name of the column columnNotNull - boolean True if the column is defined as NOT NULL columnType - string The SQLite data type of the column isPk - boolean True if the column is part of the primary key It should return a JavaScript array of objects each with a label and onClick property: label - string The human-readable label for the action onClick(evt) - function A function that will be called when the action is clicked The evt object passed to the onClick is the standard browser event object that triggered the click. This example plugin adds two menu items - one to copy … | ["JavaScript plugins", "JavaScript plugin objects"] | [] |
javascript_plugins:id2 | javascript_plugins | id2 | JavaScript plugin objects | JavaScript plugins are blocks of code that can be registered with Datasette using the registerPlugin() method on the datasetteManager object. The implementation object passed to this method should include a version key defining the plugin version, and one or more of the following named functions providing the implementation of the plugin: | ["JavaScript plugins"] | [] |
javascript_plugins:javascript-datasette-init | javascript_plugins | javascript-datasette-init | The datasette_init event | Datasette emits a custom event called datasette_init when the page is loaded. This event is dispatched on the document object, and includes a detail object with a reference to the datasetteManager object. Your JavaScript code can listen out for this event using document.addEventListener() like this: document.addEventListener("datasette_init", function (evt) { const manager = evt.detail; console.log("Datasette version:", manager.VERSION); }); | ["JavaScript plugins"] | [] |
javascript_plugins:javascript-datasette-manager | javascript_plugins | javascript-datasette-manager | datasetteManager | The datasetteManager object VERSION - string The version of Datasette plugins - Map() A Map of currently loaded plugin names to plugin implementations registerPlugin(name, implementation) Call this to register a plugin, passing its name and implementation selectors - object An object providing named aliases to useful CSS selectors, listed below | ["JavaScript plugins"] | [] |
javascript_plugins:javascript-datasette-manager-selectors | javascript_plugins | javascript-datasette-manager-selectors | Selectors | These are available on the selectors property of the datasetteManager object. const DOM_SELECTORS = { /** Should have one match */ jsonExportLink: ".export-links a[href*=json]", /** Event listeners that go outside of the main table, e.g. existing scroll listener */ tableWrapper: ".table-wrapper", table: "table.rows-and-columns", aboveTablePanel: ".above-table-panel", // These could have multiple matches /** Used for selecting table headers. Use makeColumnActions if you want to add menu items. */ tableHeaders: `table.rows-and-columns th`, /** Used to add "where" clauses to query using direct manipulation */ filterRows: ".filter-row", /** Used to show top available enum values for a column ("facets") */ facetResults: ".facet-results [data-column]", }; | ["JavaScript plugins"] | [] |
metadata:database-level-metadata | metadata | database-level-metadata | Database-level metadata | "Database-level" metadata refers to fields that can be specified for each database in a Datasette instance. These attributes should be listed under a database inside the "databases" field. The following are the full list of allowed database-level metadata fields: source source_url license license_url about about_url | ["Metadata", "Metadata reference"] | [] |
metadata:table-level-metadata | metadata | table-level-metadata | Table-level metadata | "Table-level" metadata refers to fields that can be specified for each table in a Datasette instance. These attributes should be listed under a specific table using the "tables" field. The following are the full list of allowed table-level metadata fields: source source_url license license_url about about_url hidden sort/sort_desc size sortable_columns label_column facets fts_table fts_pk searchmode columns | ["Metadata", "Metadata reference"] | [] |
metadata:top-level-metadata | metadata | top-level-metadata | Top-level metadata | "Top-level" metadata refers to fields that can be specified at the root level of a metadata file. These attributes are meant to describe the entire Datasette instance. The following are the full list of allowed top-level metadata fields: title description description_html license license_url source source_url | ["Metadata", "Metadata reference"] | [] |
metadata:id2 | metadata | id2 | Metadata reference | A full reference of every supported option in a metadata.json or metadata.yaml file. | ["Metadata"] | [] |
metadata:label-columns | metadata | label-columns | Specifying the label column for a table | Datasette's HTML interface attempts to display foreign key references as labelled hyperlinks. By default, it looks for referenced tables that only have two columns: a primary key column and one other. It assumes that the second column should be used as the link label. If your table has more than two columns you can specify which column should be used for the link label with the label_column property: [[[cog metadata_example(cog, { "databases": { "database1": { "tables": { "example_table": { "label_column": "title" } } } } }) ]]] [[[end]]] | ["Metadata"] | [] |
metadata:metadata-default-sort | metadata | metadata-default-sort | Setting a default sort order | By default Datasette tables are sorted by primary key. You can over-ride this default for a specific table using the "sort" or "sort_desc" metadata properties: [[[cog metadata_example(cog, { "databases": { "mydatabase": { "tables": { "example_table": { "sort": "created" } } } } }) ]]] [[[end]]] Or use "sort_desc" to sort in descending order: [[[cog metadata_example(cog, { "databases": { "mydatabase": { "tables": { "example_table": { "sort_desc": "created" } } } } }) ]]] [[[end]]] | ["Metadata"] | [] |
metadata:metadata-hiding-tables | metadata | metadata-hiding-tables | Hiding tables | You can hide tables from the database listing view (in the same way that FTS and SpatiaLite tables are automatically hidden) using "hidden": true : [[[cog metadata_example(cog, { "databases": { "database1": { "tables": { "example_table": { "hidden": True } } } } }) ]]] [[[end]]] | ["Metadata"] | [] |
metadata:metadata-page-size | metadata | metadata-page-size | Setting a custom page size | Datasette defaults to displaying 100 rows per page, for both tables and views. You can change this default page size on a per-table or per-view basis using the "size" key in metadata.json : [[[cog metadata_example(cog, { "databases": { "mydatabase": { "tables": { "example_table": { "size": 10 } } } } }) ]]] [[[end]]] This size can still be over-ridden by passing e.g. ?_size=50 in the query string. | ["Metadata"] | [] |
metadata:metadata-sortable-columns | metadata | metadata-sortable-columns | Setting which columns can be used for sorting | Datasette allows any column to be used for sorting by default. If you need to control which columns are available for sorting you can do so using the optional sortable_columns key: [[[cog metadata_example(cog, { "databases": { "database1": { "tables": { "example_table": { "sortable_columns": [ "height", "weight" ] } } } } }) ]]] [[[end]]] This will restrict sorting of example_table to just the height and weight columns. You can also disable sorting entirely by setting "sortable_columns": [] You can use sortable_columns to enable specific sort orders for a view called name_of_view in the database my_database like so: [[[cog metadata_example(cog, { "databases": { "my_database": { "tables": { "name_of_view": { "sortable_columns": [ "clicks", "impressions" ] } } } } }) ]]] [[[end]]] | ["Metadata"] | [] |
metadata:metadata-source-license-about | metadata | metadata-source-license-about | Source, license and about | The three visible metadata fields you can apply to everything, specific databases or specific tables are source, license and about. All three are optional. source and source_url should be used to indicate where the underlying data came from. license and license_url should be used to indicate the license under which the data can be used. about and about_url can be used to link to further information about the project - an accompanying blog entry for example. For each of these you can provide just the *_url field and Datasette will treat that as the default link label text and display the URL directly on the page. | ["Metadata"] | [] |
metadata:per-database-and-per-table-metadata | metadata | per-database-and-per-table-metadata | Per-database and per-table metadata | Metadata at the top level of the file will be shown on the index page and in the footer on every page of the site. The license and source is expected to apply to all of your data. You can also provide metadata at the per-database or per-table level, like this: [[[cog metadata_example(cog, { "databases": { "database1": { "source": "Alternative source", "source_url": "http://example.com/", "tables": { "example_table": { "description_html": "Custom <em>table</em> description", "license": "CC BY 3.0 US", "license_url": "https://creativecommons.org/licenses/by/3.0/us/" } } } } }) ]]] [[[end]]] Each of the top-level metadata fields can be used at the database and table level. | ["Metadata"] | [] |
pages:databaseview-hidden | pages | databaseview-hidden | Hidden tables | Some tables listed on the database page are treated as hidden. Hidden tables are not completely invisible - they can be accessed through the "hidden tables" link at the bottom of the page. They are hidden because they represent low-level implementation details which are generally not useful to end-users of Datasette. The following tables are hidden by default: Any table with a name that starts with an underscore - this is a Datasette convention to help plugins easily hide their own internal tables. Tables that have been configured as "hidden": true using Hiding tables . *_fts tables that implement SQLite full-text search indexes. Tables relating to the inner workings of the SpatiaLite SQLite extension. sqlite_stat tables used to store statistics used by the query optimizer. | ["Pages and API endpoints", "Database"] | [] |
performance:performance-immutable-mode | performance | performance-immutable-mode | Immutable mode | If you can be certain that a SQLite database file will not be changed by another process you can tell Datasette to open that file in immutable mode . Doing so will disable all locking and change detection, which can result in improved query performance. This also enables further optimizations relating to HTTP caching, described below. To open a file in immutable mode pass it to the datasette command using the -i option: datasette -i data.db When you open a file in immutable mode like this Datasette will also calculate and cache the row counts for each table in that database when it first starts up, further improving performance. | ["Performance and caching"] | [] |
performance:performance-inspect | performance | performance-inspect | Using "datasette inspect" | Counting the rows in a table can be a very expensive operation on larger databases. In immutable mode Datasette performs this count only once and caches the results, but this can still cause server startup time to increase by several seconds or more. If you know that a database is never going to change you can precalculate the table row counts once and store then in a JSON file, then use that file when you later start the server. To create a JSON file containing the calculated row counts for a database, use the following: datasette inspect data.db --inspect-file=counts.json Then later you can start Datasette against the counts.json file and use it to skip the row counting step and speed up server startup: datasette -i data.db --inspect-file=counts.json You need to use the -i immutable mode against the database file here or the counts from the JSON file will be ignored. You will rarely need to use this optimization in every-day use, but several of the datasette publish commands described in Publishing data use this optimization for better performance when deploying a database file to a hosting provider. | ["Performance and caching"] | [] |
plugin_hooks:plugin-hook-homepage-actions | plugin_hooks | plugin-hook-homepage-actions | homepage_actions(datasette, actor, request) | datasette - Datasette class You can use this to access plugin configuration options via datasette.plugin_config(your_plugin_name) , or to execute SQL queries. actor - dictionary or None The currently authenticated actor . request - Request object The current HTTP request. Populates an actions menu on the top-level index homepage of the Datasette instance. This example adds a link an imagined tool for editing the homepage, only for signed in users: from datasette import hookimpl @hookimpl def homepage_actions(datasette, actor): if actor: return [ { "href": datasette.urls.path( "/-/customize-homepage" ), "label": "Customize homepage", } ] | ["Plugin hooks", "Action hooks"] | [] |
plugin_hooks:plugin-hook-view-actions | plugin_hooks | plugin-hook-view-actions | view_actions(datasette, actor, database, view, request) | datasette - Datasette class You can use this to access plugin configuration options via datasette.plugin_config(your_plugin_name) , or to execute SQL queries. actor - dictionary or None The currently authenticated actor . database - string The name of the database. view - string The name of the SQL view. request - Request object or None The current HTTP request. This can be None if the request object is not available. Like table_actions(datasette, actor, database, table, request) but for SQL views. | ["Plugin hooks", "Action hooks"] | [] |
plugin_hooks:plugin-hook-register-events | plugin_hooks | plugin-hook-register-events | register_events(datasette) | datasette - Datasette class You can use this to access plugin configuration options via datasette.plugin_config(your_plugin_name) . This hook should return a list of Event subclasses that represent custom events that the plugin might send to the datasette.track_event() method. This example registers event subclasses for ban-user and unban-user events: from dataclasses import dataclass from datasette import hookimpl, Event @dataclass class BanUserEvent(Event): name = "ban-user" user: dict @dataclass class UnbanUserEvent(Event): name = "unban-user" user: dict @hookimpl def register_events(): return [BanUserEvent, UnbanUserEvent] The plugin can then call datasette.track_event(...) to send a ban-user event: await datasette.track_event( BanUserEvent(user={"id": 1, "username": "cleverbot"}) ) | ["Plugin hooks", "Event tracking"] | [] |
plugin_hooks:plugin-hook-top-canned-query | plugin_hooks | plugin-hook-top-canned-query | top_canned_query(datasette, request, database, query_name) | datasette - Datasette class You can use this to access plugin configuration options via datasette.plugin_config(your_plugin_name) . request - Request object The current HTTP request. database - string The name of the database. query_name - string The name of the canned query. Returns HTML to be displayed at the top of the canned query page. | ["Plugin hooks", "Template slots"] | [] |
plugin_hooks:plugin-hook-top-database | plugin_hooks | plugin-hook-top-database | top_database(datasette, request, database) | datasette - Datasette class You can use this to access plugin configuration options via datasette.plugin_config(your_plugin_name) . request - Request object The current HTTP request. database - string The name of the database. Returns HTML to be displayed at the top of the database page. | ["Plugin hooks", "Template slots"] | [] |
plugin_hooks:plugin-hook-top-homepage | plugin_hooks | plugin-hook-top-homepage | top_homepage(datasette, request) | datasette - Datasette class You can use this to access plugin configuration options via datasette.plugin_config(your_plugin_name) . request - Request object The current HTTP request. Returns HTML to be displayed at the top of the Datasette homepage. | ["Plugin hooks", "Template slots"] | [] |
plugin_hooks:plugin-hook-top-query | plugin_hooks | plugin-hook-top-query | top_query(datasette, request, database, sql) | datasette - Datasette class You can use this to access plugin configuration options via datasette.plugin_config(your_plugin_name) . request - Request object The current HTTP request. database - string The name of the database. sql - string The SQL query. Returns HTML to be displayed at the top of the query results page. | ["Plugin hooks", "Template slots"] | [] |
plugin_hooks:plugin-hook-top-row | plugin_hooks | plugin-hook-top-row | top_row(datasette, request, database, table, row) | datasette - Datasette class You can use this to access plugin configuration options via datasette.plugin_config(your_plugin_name) . request - Request object The current HTTP request. database - string The name of the database. table - string The name of the table. row - sqlite.Row The SQLite row object being displayed. Returns HTML to be displayed at the top of the row page. | ["Plugin hooks", "Template slots"] | [] |
plugin_hooks:plugin-hook-top-table | plugin_hooks | plugin-hook-top-table | top_table(datasette, request, database, table) | datasette - Datasette class You can use this to access plugin configuration options via datasette.plugin_config(your_plugin_name) . request - Request object The current HTTP request. database - string The name of the database. table - string The name of the table. Returns HTML to be displayed at the top of the table page. | ["Plugin hooks", "Template slots"] | [] |
plugin_hooks:plugin-actions | plugin_hooks | plugin-actions | Action hooks | Action hooks can be used to add items to the action menus that appear at the top of different pages within Datasette. Unlike menu_links() , actions which are displayed on every page, actions should only be relevant to the page the user is currently viewing. Each of these hooks should return return a list of {"href": "...", "label": "..."} menu items, with optional "description": "..." keys describing each action in more detail. They can alternatively return an async def awaitable function which, when called, returns a list of those menu items. | ["Plugin hooks"] | [] |
plugin_hooks:plugin-event-tracking | plugin_hooks | plugin-event-tracking | Event tracking | Datasette includes an internal mechanism for tracking notable events. This can be used for analytics, but can also be used by plugins that want to listen out for when key events occur (such as a table being created) and take action in response. Plugins can register to receive events using the track_event plugin hook. They can also define their own events for other plugins to receive using the register_events() plugin hook , combined with calls to the datasette.track_event() internal method . | ["Plugin hooks"] | [] |
plugin_hooks:plugin-hook-forbidden | plugin_hooks | plugin-hook-forbidden | forbidden(datasette, request, message) | datasette - Datasette class You can use this to access plugin configuration options via datasette.plugin_config(your_plugin_name) , or to render templates or execute SQL queries. request - Request object The current HTTP request. message - string A message hinting at why the request was forbidden. Plugins can use this to customize how Datasette responds when a 403 Forbidden error occurs - usually because a page failed a permission check, see Permissions . If a plugin hook wishes to react to the error, it should return a Response object . This example returns a redirect to a /-/login page: from datasette import hookimpl from urllib.parse import urlencode @hookimpl def forbidden(request, message): return Response.redirect( "/-/login?=" + urlencode({"message": message}) ) The function can alternatively return an awaitable function if it needs to make any asynchronous method calls. This example renders a template: from datasette import hookimpl, Response @hookimpl def forbidden(datasette): async def inner(): return Response.html( await datasette.render_template( "render_message.html", request=request ) ) return inner | ["Plugin hooks"] | [] |
plugin_hooks:plugin-hook-register-magic-parameters | plugin_hooks | plugin-hook-register-magic-parameters | register_magic_parameters(datasette) | datasette - Datasette class You can use this to access plugin configuration options via datasette.plugin_config(your_plugin_name) . Magic parameters can be used to add automatic parameters to canned queries . This plugin hook allows additional magic parameters to be defined by plugins. Magic parameters all take this format: _prefix_rest_of_parameter . The prefix indicates which magic parameter function should be called - the rest of the parameter is passed as an argument to that function. To register a new function, return it as a tuple of (string prefix, function) from this hook. The function you register should take two arguments: key and request , where key is the rest_of_parameter portion of the parameter and request is the current Request object . This example registers two new magic parameters: :_request_http_version returning the HTTP version of the current request, and :_uuid_new which returns a new UUID: from datasette import hookimpl from uuid import uuid4 def uuid(key, request): if key == "new": return str(uuid4()) else: raise KeyError def request(key, request): if key == "http_version": return request.scope["http_version"] else: raise KeyError @hookimpl def register_magic_parameters(datasette): return [ ("request", request), ("uuid", uuid), ] | ["Plugin hooks"] | [] |
plugin_hooks:plugin-page-extras | plugin_hooks | plugin-page-extras | Page extras | These plugin hooks can be used to affect the way HTML pages for different Datasette interfaces are rendered. | ["Plugin hooks"] | [] |
plugin_hooks:plugin-register-permissions | plugin_hooks | plugin-register-permissions | register_permissions(datasette) | If your plugin needs to register additional permissions unique to that plugin - upload-csvs for example - you can return a list of those permissions from this hook. from datasette import hookimpl, Permission @hookimpl def register_permissions(datasette): return [ Permission( name="upload-csvs", abbr=None, description="Upload CSV files", takes_database=True, takes_resource=False, default=False, ) ] The fields of the Permission class are as follows: name - string The name of the permission, e.g. upload-csvs . This should be unique across all plugins that the user might have installed, so choose carefully. abbr - string or None An abbreviation of the permission, e.g. uc . This is optional - you can set it to None if you do not want to pick an abbreviation. Since this needs to be unique across all installed plugins it's best not to specify an abbreviation at all. If an abbreviation is provided it will be used when creating restricted signed API tokens. description - string or None A human-readable description of what the permission lets you do. Should make sense as the second part of a sentence that starts "A user with this permission can ...". takes_database - boolean True if this permission can be granted on a per-database basis, False if it is only valid at the overall Datasette instance level. takes_resource - boolean … | ["Plugin hooks"] | [] |
plugins:deploying-plugins-using-datasette-publish | plugins | deploying-plugins-using-datasette-publish | Deploying plugins using datasette publish | The datasette publish and datasette package commands both take an optional --install argument. You can use this one or more times to tell Datasette to pip install specific plugins as part of the process: datasette publish cloudrun mydb.db --install=datasette-vega You can use the name of a package on PyPI or any of the other valid arguments to pip install such as a URL to a .zip file: datasette publish cloudrun mydb.db \ --install=https://url-to-my-package.zip | ["Plugins", "Installing plugins"] | [] |
plugins:one-off-plugins-using-plugins-dir | plugins | one-off-plugins-using-plugins-dir | One-off plugins using --plugins-dir | You can also define one-off per-project plugins by saving them as plugin_name.py functions in a plugins/ folder and then passing that folder to datasette using the --plugins-dir option: datasette mydb.db --plugins-dir=plugins/ | ["Plugins", "Installing plugins"] | [] |
plugins:plugins-configuration-secret | plugins | plugins-configuration-secret | Secret configuration values | Some plugins may need configuration that should stay secret - API keys for example. There are two ways in which you can store secret configuration values. As environment variables . If your secret lives in an environment variable that is available to the Datasette process, you can indicate that the configuration value should be read from that environment variable like so: [[[cog config_example(cog, { "plugins": { "datasette-auth-github": { "client_secret": { "$env": "GITHUB_CLIENT_SECRET" } } } }) ]]] [[[end]]] As values in separate files . Your secrets can also live in files on disk. To specify a secret should be read from a file, provide the full file path like this: [[[cog config_example(cog, { "plugins": { "datasette-auth-github": { "client_secret": { "$file": "/secrets/client-secret" } } } }) ]]] [[[end]]] If you are publishing your data using the datasette publish family of commands, you can use the --plugin-secret option to set these secrets at publish time. For example, using Heroku you might run the following command: datasette publish heroku my_database.db \ --name my-heroku-app-demo \ --install=datasette-auth-github \ --plugin-secret datasette-auth-github client_id your_client_id \ --plugin-secret datasette-auth-github client_secret your_client_secret This will set the necessary environment variables and add the following to the deployed metadata.yaml : [[[cog config_example(cog, { "plugins": { "datasette-auth-github": { "client_id": { "$env": "DATASETTE_AUTH_GITHUB_CLIENT_ID" }, "client_secret": { "$env": "DATASETTE_AUTH_GITHUB_CLIENT_SECRET" } … | ["Plugins", "Plugin configuration"] | [] |
plugins:plugins-configuration | plugins | plugins-configuration | Plugin configuration | Plugins can have their own configuration, embedded in a configuration file . Configuration options for plugins live within a "plugins" key in that file, which can be included at the root, database or table level. Here is an example of some plugin configuration for a specific table: [[[cog from metadata_doc import config_example config_example(cog, { "databases": { "sf-trees": { "tables": { "Street_Tree_List": { "plugins": { "datasette-cluster-map": { "latitude_column": "lat", "longitude_column": "lng" } } } } } } }) ]]] [[[end]]] This tells the datasette-cluster-map column which latitude and longitude columns should be used for a table called Street_Tree_List inside a database file called sf-trees.db . | ["Plugins"] | [] |
plugins:plugins-datasette-load-plugins | plugins | plugins-datasette-load-plugins | Controlling which plugins are loaded | Datasette defaults to loading every plugin that is installed in the same virtual environment as Datasette itself. You can set the DATASETTE_LOAD_PLUGINS environment variable to a comma-separated list of plugin names to load a controlled subset of plugins instead. For example, to load just the datasette-vega and datasette-cluster-map plugins, set DATASETTE_LOAD_PLUGINS to datasette-vega,datasette-cluster-map : export DATASETTE_LOAD_PLUGINS='datasette-vega,datasette-cluster-map' datasette mydb.db Or: DATASETTE_LOAD_PLUGINS='datasette-vega,datasette-cluster-map' \ datasette mydb.db To disable the loading of all additional plugins, set DATASETTE_LOAD_PLUGINS to an empty string: export DATASETTE_LOAD_PLUGINS='' datasette mydb.db A quick way to test this setting is to use it with the datasette plugins command: DATASETTE_LOAD_PLUGINS='datasette-vega' datasette plugins This should output the following: [ { "name": "datasette-vega", "static": true, "templates": false, "version": "0.6.2", "hooks": [ "extra_css_urls", "extra_js_urls" ] } ] | ["Plugins"] | [] |
plugins:plugins-installing | plugins | plugins-installing | Installing plugins | If a plugin has been packaged for distribution using setuptools you can use the plugin by installing it alongside Datasette in the same virtual environment or Docker container. You can install plugins using the datasette install command: datasette install datasette-vega You can uninstall plugins with datasette uninstall : datasette uninstall datasette-vega You can upgrade plugins with datasette install --upgrade or datasette install -U : datasette install -U datasette-vega This command can also be used to upgrade Datasette itself to the latest released version: datasette install -U datasette You can install multiple plugins at once by listing them as lines in a requirements.txt file like this: datasette-vega datasette-cluster-map Then pass that file to datasette install -r : datasette install -r requirements.txt The install and uninstall commands are thin wrappers around pip install and pip uninstall , which ensure that they run pip in the same virtual environment as Datasette itself. | ["Plugins"] | [] |
sql_queries:hide-sql | sql_queries | hide-sql | hide_sql | Canned queries default to displaying their SQL query at the top of the page. If the query is extremely long you may want to hide it by default, with a "show" link that can be used to make it visible. Add the "hide_sql": true option to hide the SQL query by default. | ["Running SQL queries", "Canned queries", "Additional canned query options"] | [] |
sql_queries:canned-queries-json-api | sql_queries | canned-queries-json-api | JSON API for writable canned queries | Writable canned queries can also be accessed using a JSON API. You can POST data to them using JSON, and you can request that their response is returned to you as JSON. To submit JSON to a writable canned query, encode key/value parameters as a JSON document: POST /mydatabase/add_message {"message": "Message goes here"} You can also continue to submit data using regular form encoding, like so: POST /mydatabase/add_message message=Message+goes+here There are three options for specifying that you would like the response to your request to return JSON data, as opposed to an HTTP redirect to another page. Set an Accept: application/json header on your request Include ?_json=1 in the URL that you POST to Include "_json": 1 in your JSON body, or &_json=1 in your form encoded body The JSON response will look like this: { "ok": true, "message": "Query executed, 1 row affected", "redirect": "/data/add_name" } The "message" and "redirect" values here will take into account on_success_message , on_success_message_sql , on_success_redirect , on_error_message and on_error_redirect , if they have been set. | ["Running SQL queries", "Canned queries"] | [] |
sql_queries:canned-queries-magic-parameters | sql_queries | canned-queries-magic-parameters | Magic parameters | Named parameters that start with an underscore are special: they can be used to automatically add values created by Datasette that are not contained in the incoming form fields or query string. These magic parameters are only supported for canned queries: to avoid security issues (such as queries that extract the user's private cookies) they are not available to SQL that is executed by the user as a custom SQL query. Available magic parameters are: _actor_* - e.g. _actor_id , _actor_name Fields from the currently authenticated Actors . _header_* - e.g. _header_user_agent Header from the incoming HTTP request. The key should be in lower case and with hyphens converted to underscores e.g. _header_user_agent or _header_accept_language . _cookie_* - e.g. _cookie_lang The value of the incoming cookie of that name. _now_epoch The number of seconds since the Unix epoch. _now_date_utc The date in UTC, e.g. 2020-06-01 _now_datetime_utc The ISO 8601 datetime in UTC, e.g. 2020-06-24T18:01:07Z _random_chars_* - e.g. … | ["Running SQL queries", "Canned queries"] | [] |
sql_queries:canned-queries-options | sql_queries | canned-queries-options | Additional canned query options | Additional options can be specified for canned queries in the YAML or JSON configuration. | ["Running SQL queries", "Canned queries"] | [] |
sql_queries:canned-queries-writable | sql_queries | canned-queries-writable | Writable canned queries | Canned queries by default are read-only. You can use the "write": true key to indicate that a canned query can write to the database. See Access to specific canned queries for details on how to add permission checks to canned queries, using the "allow" key. [[[cog config_example(cog, { "databases": { "mydatabase": { "queries": { "add_name": { "sql": "INSERT INTO names (name) VALUES (:name)", "write": True } } } } }) ]]] [[[end]]] This configuration will create a page at /mydatabase/add_name displaying a form with a name field. Submitting that form will execute the configured INSERT query. You can customize how Datasette represents success and errors using the following optional properties: on_success_message - the message shown when a query is successful on_success_message_sql - alternative to on_success_message : a SQL query that should be executed to generate the message on_success_redirect - the path or URL the user is redirected to on success on_error_message - the message shown when a query throws an error on_error_redirect - the path or URL the user is redirected to on error For example: [[[cog config_example(cog, { "databases": { "mydatabase": { "queries": { "add_name": { "sql": "INSERT INTO names (name) VALUES (:name)", "params": ["name"], "write": Tru… | ["Running SQL queries", "Canned queries"] | [] |
sql_queries:id1 | sql_queries | id1 | Canned queries | As an alternative to adding views to your database, you can define canned queries inside your datasette.yaml file. Here's an example: [[[cog from metadata_doc import config_example, config_example config_example(cog, { "databases": { "sf-trees": { "queries": { "just_species": { "sql": "select qSpecies from Street_Tree_List" } } } } }) ]]] [[[end]]] Then run Datasette like this: datasette sf-trees.db -m metadata.json Each canned query will be listed on the database index page, and will also get its own URL at: /database-name/canned-query-name For the above example, that URL would be: /sf-trees/just_species You can optionally include "title" and "description" keys to show a title and description on the canned query page. As with regular table metadata you can alternatively specify "description_html" to have your description rendered as HTML (rather than having HTML special characters escaped). | ["Running SQL queries"] | [] |
sql_queries:id2 | sql_queries | id2 | Pagination | Datasette's default table pagination is designed to be extremely efficient. SQL OFFSET/LIMIT pagination can have a significant performance penalty once you get into multiple thousands of rows, as each page still requires the database to scan through every preceding row to find the correct offset. When paginating through tables, Datasette instead orders the rows in the table by their primary key and performs a WHERE clause against the last seen primary key for the previous page. For example: select rowid, * from Tree_List where rowid > 200 order by rowid limit 101 This represents page three for this particular table, with a page size of 100. Note that we request 101 items in the limit clause rather than 100. This allows us to detect if we are on the last page of the results: if the query returns less than 101 rows we know we have reached the end of the pagination set. Datasette will only return the first 100 rows - the 101st is used purely to detect if there should be another page. Since the where clause acts against the index on the primary key, the query is extremely fast even for records that are a long way into the overall pagination set. | ["Running SQL queries"] | [] |
settings:setting-allow-csv-stream | settings | setting-allow-csv-stream | allow_csv_stream | Enables the CSV export feature where an entire table (potentially hundreds of thousands of rows) can be exported as a single CSV file. This is turned on by default - you can turn it off like this: datasette mydatabase.db --setting allow_csv_stream off | ["Settings", "Settings"] | [] |
settings:setting-allow-download | settings | setting-allow-download | allow_download | Should users be able to download the original SQLite database using a link on the database index page? This is turned on by default. However, databases can only be downloaded if they are served in immutable mode and not in-memory. If downloading is unavailable for either of these reasons, the download link is hidden even if allow_download is on. To disable database downloads, use the following: datasette mydatabase.db --setting allow_download off | ["Settings", "Settings"] | [] |
settings:setting-allow-facet | settings | setting-allow-facet | allow_facet | Allow users to specify columns they would like to facet on using the ?_facet=COLNAME URL parameter to the table view. This is enabled by default. If disabled, facets will still be displayed if they have been specifically enabled in metadata.json configuration for the table. Here's how to disable this feature: datasette mydatabase.db --setting allow_facet off | ["Settings", "Settings"] | [] |
settings:setting-allow-signed-tokens | settings | setting-allow-signed-tokens | allow_signed_tokens | Should users be able to create signed API tokens to access Datasette? This is turned on by default. Use the following to turn it off: datasette mydatabase.db --setting allow_signed_tokens off Turning this setting off will disable the /-/create-token page, described here . It will also cause any incoming Authorization: Bearer dstok_... API tokens to be ignored. | ["Settings", "Settings"] | [] |
settings:setting-base-url | settings | setting-base-url | base_url | If you are running Datasette behind a proxy, it may be useful to change the root path used for the Datasette instance. For example, if you are sending traffic from https://www.example.com/tools/datasette/ through to a proxied Datasette instance you may wish Datasette to use /tools/datasette/ as its root URL. You can do that like so: datasette mydatabase.db --setting base_url /tools/datasette/ | ["Settings", "Settings"] | [] |
settings:setting-default-allow-sql | settings | setting-default-allow-sql | default_allow_sql | Should users be able to execute arbitrary SQL queries by default? Setting this to off causes permission checks for execute-sql to fail by default. datasette mydatabase.db --setting default_allow_sql off Another way to achieve this is to add "allow_sql": false to your datasette.yaml file, as described in Controlling the ability to execute arbitrary SQL . This setting offers a more convenient way to do this. | ["Settings", "Settings"] | [] |
settings:setting-default-cache-ttl | settings | setting-default-cache-ttl | default_cache_ttl | Default HTTP caching max-age header in seconds, used for Cache-Control: max-age=X . Can be over-ridden on a per-request basis using the ?_ttl= query string parameter. Set this to 0 to disable HTTP caching entirely. Defaults to 5 seconds. datasette mydatabase.db --setting default_cache_ttl 60 | ["Settings", "Settings"] | [] |
settings:setting-default-facet-size | settings | setting-default-facet-size | default_facet_size | The default number of unique rows returned by Facets is 30. You can customize it like this: datasette mydatabase.db --setting default_facet_size 50 | ["Settings", "Settings"] | [] |
settings:setting-default-page-size | settings | setting-default-page-size | default_page_size | The default number of rows returned by the table page. You can over-ride this on a per-page basis using the ?_size=80 query string parameter, provided you do not specify a value higher than the max_returned_rows setting. You can set this default using --setting like so: datasette mydatabase.db --setting default_page_size 50 | ["Settings", "Settings"] | [] |
settings:setting-facet-suggest-time-limit-ms | settings | setting-facet-suggest-time-limit-ms | facet_suggest_time_limit_ms | When Datasette calculates suggested facets it needs to run a SQL query for every column in your table. The default for this time limit is 50ms to account for the fact that it needs to run once for every column. If the time limit is exceeded the column will not be suggested as a facet. You can increase this time limit like so: datasette mydatabase.db --setting facet_suggest_time_limit_ms 500 | ["Settings", "Settings"] | [] |
settings:setting-facet-time-limit-ms | settings | setting-facet-time-limit-ms | facet_time_limit_ms | This is the time limit Datasette allows for calculating a facet, which defaults to 200ms: datasette mydatabase.db --setting facet_time_limit_ms 1000 | ["Settings", "Settings"] | [] |
settings:setting-force-https-urls | settings | setting-force-https-urls | force_https_urls | Forces self-referential URLs in the JSON output to always use the https:// protocol. This is useful for cases where the application itself is hosted using HTTP but is served to the outside world via a proxy that enables HTTPS. datasette mydatabase.db --setting force_https_urls 1 | ["Settings", "Settings"] | [] |
settings:setting-max-csv-mb | settings | setting-max-csv-mb | max_csv_mb | The maximum size of CSV that can be exported, in megabytes. Defaults to 100MB. You can disable the limit entirely by settings this to 0: datasette mydatabase.db --setting max_csv_mb 0 | ["Settings", "Settings"] | [] |
settings:setting-max-insert-rows | settings | setting-max-insert-rows | max_insert_rows | Maximum rows that can be inserted at a time using the bulk insert API, see Inserting rows . Defaults to 100. You can increase or decrease this limit like so: datasette mydatabase.db --setting max_insert_rows 1000 | ["Settings", "Settings"] | [] |
settings:setting-max-returned-rows | settings | setting-max-returned-rows | max_returned_rows | Datasette returns a maximum of 1,000 rows of data at a time. If you execute a query that returns more than 1,000 rows, Datasette will return the first 1,000 and include a warning that the result set has been truncated. You can use OFFSET/LIMIT or other methods in your SQL to implement pagination if you need to return more than 1,000 rows. You can increase or decrease this limit like so: datasette mydatabase.db --setting max_returned_rows 2000 | ["Settings", "Settings"] | [] |
settings:setting-max-signed-tokens-ttl | settings | setting-max-signed-tokens-ttl | max_signed_tokens_ttl | Maximum allowed expiry time for signed API tokens created by users. Defaults to 0 which means no limit - tokens can be created that will never expire. Set this to a value in seconds to limit the maximum expiry time. For example, to set that limit to 24 hours you would use: datasette mydatabase.db --setting max_signed_tokens_ttl 86400 This setting is enforced when incoming tokens are processed. | ["Settings", "Settings"] | [] |
settings:setting-sql-time-limit-ms | settings | setting-sql-time-limit-ms | sql_time_limit_ms | By default, queries have a time limit of one second. If a query takes longer than this to run Datasette will terminate the query and return an error. If this time limit is too short for you, you can customize it using the sql_time_limit_ms limit - for example, to increase it to 3.5 seconds: datasette mydatabase.db --setting sql_time_limit_ms 3500 You can optionally set a lower time limit for an individual query using the ?_timelimit=100 query string argument: /my-database/my-table?qSpecies=44&_timelimit=100 This would set the time limit to 100ms for that specific query. This feature is useful if you are working with databases of unknown size and complexity - a query that might make perfect sense for a smaller table could take too long to execute on a table with millions of rows. By setting custom time limits you can execute queries "optimistically" - e.g. give me an exact count of rows matching this query but only if it takes less than 100ms to calculate. | ["Settings", "Settings"] | [] |
settings:setting-suggest-facets | settings | setting-suggest-facets | suggest_facets | Should Datasette calculate suggested facets? On by default, turn this off like so: datasette mydatabase.db --setting suggest_facets off | ["Settings", "Settings"] | [] |
settings:setting-truncate-cells-html | settings | setting-truncate-cells-html | truncate_cells_html | In the HTML table view, truncate any strings that are longer than this value. The full value will still be available in CSV, JSON and on the individual row HTML page. Set this to 0 to disable truncation. datasette mydatabase.db --setting truncate_cells_html 0 | ["Settings", "Settings"] | [] |
settings:config-dir | settings | config-dir | Configuration directory mode | Normally you configure Datasette using command-line options. For a Datasette instance with custom templates, custom plugins, a static directory and several databases this can get quite verbose: datasette one.db two.db \ --metadata=metadata.json \ --template-dir=templates/ \ --plugins-dir=plugins \ --static css:css As an alternative to this, you can run Datasette in configuration directory mode. Create a directory with the following structure: # In a directory called my-app: my-app/one.db my-app/two.db my-app/datasette.yaml my-app/metadata.json my-app/templates/index.html my-app/plugins/my_plugin.py my-app/static/my.css Now start Datasette by providing the path to that directory: datasette my-app/ Datasette will detect the files in that directory and automatically configure itself using them. It will serve all *.db files that it finds, will load metadata.json if it exists, and will load the templates , plugins and static folders if they are present. The files that can be included in this directory are as follows. All are optional. *.db (or *.sqlite3 or *.sqlite ) - SQLite database files that will be served by Datasette datasette.yaml - Configuration for the Datasette instance metadata.json - Metadata for those databases - metadata.yaml or metadata.yml can be used as well inspect-data.json - the result of running datasette inspect *.db --inspect-file=inspect-data.json from the configuration directory - any database files listed here will be treated as immutable, so they should not be changed while Datasette is running templates/ - a directory containing Custom templates … | ["Settings"] | [] |
settings:id2 | settings | id2 | Settings | The following options can be set using --setting name value , or by storing them in the settings.json file for use with Configuration directory mode . | ["Settings"] | [] |
settings:setting-publish-secrets | settings | setting-publish-secrets | Using secrets with datasette publish | The datasette publish and datasette package commands both generate a secret for you automatically when Datasette is deployed. This means that every time you deploy a new version of a Datasette project, a new secret will be generated. This will cause signed cookies to become invalid on every fresh deploy. You can fix this by creating a secret that will be used for multiple deploys and passing it using the --secret option: datasette publish cloudrun mydb.db --service=my-service --secret=cdb19e94283a20f9d42cca5 | ["Settings"] | [] |
settings:setting-secret | settings | setting-secret | Configuring the secret | Datasette uses a secret string to sign secure values such as cookies. If you do not provide a secret, Datasette will create one when it starts up. This secret will reset every time the Datasette server restarts though, so things like authentication cookies and API tokens will not stay valid between restarts. You can pass a secret to Datasette in two ways: with the --secret command-line option or by setting a DATASETTE_SECRET environment variable. datasette mydb.db --secret=SECRET_VALUE_HERE Or: export DATASETTE_SECRET=SECRET_VALUE_HERE datasette mydb.db One way to generate a secure random secret is to use Python like this: python3 -c 'import secrets; print(secrets.token_hex(32))' cdb19e94283a20f9d42cca50c5a4871c0aa07392db308755d60a1a5b9bb0fa52 Plugin authors make use of this signing mechanism in their plugins using .sign(value, namespace="default") and .unsign(value, namespace="default") . | ["Settings"] | [] |
settings:using-setting | settings | using-setting | Using --setting | Datasette supports a number of settings. These can be set using the --setting name value option to datasette serve . You can set multiple settings at once like this: datasette mydatabase.db \ --setting default_page_size 50 \ --setting sql_time_limit_ms 3500 \ --setting max_returned_rows 2000 Settings can also be specified in the database.yaml configuration file . | ["Settings"] | [] |
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