API: Difference between revisions

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== Communication Protocol ==
== Communication Protocol ==
The API uses a standard [https://developer.mozilla.org/en-US/docs/Web/API/WebSocket WebSocket] connection to exchange [https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/JSON JSON] payloads using a custom variant of the [https://www.jsonrpc.org/specification JSON-RPC 2.0] protocol. It is not compatible with standard JSON-RPC libraries.  
The API uses a standard [https://developer.mozilla.org/en-US/docs/Web/API/WebSocket WebSocket] connection to exchange [https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/JSON JSON] payloads using the [https://www.jsonrpc.org/specification JSON-RPC 2.0] protocol.  


All remote unsecured WebSocket connections must encrypt every payload using the [[API#Secure Layer|secure layer]] detailed below, or else the payload will be immediately rejected. Local cleartext (unencrypted) connections are allowed, depending on the platform and privilege context of the running service.
All remote unsecured WebSocket connections must encrypt every payload using the [[API#Secure Layer|secure layer]] detailed below, or else the payload will be immediately rejected. Local cleartext (unencrypted) connections are allowed, depending on the platform and privilege context of the running service.
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=== JSON Payloads ===
=== JSON Payloads ===
Server and clients communicate back and forth using JSON payloads and a request/response based on the [https://www.jsonrpc.org/specification JSON-RPC 2.0] protocol. '''The TapTo protocol is incompatible with existing JSON-RPC libraries.''' See [[API#Differences From JSON-RPC|Differences From JSON-RPC]] for details.
Server and clients communicate back and forth using JSON payloads and a request/response based on the [https://www.jsonrpc.org/specification JSON-RPC 2.0] protocol.


Because a WebSocket connection is asynchronous, request payloads are tagged with a unique ID. The client must keep track of IDs sent to another client and wait for a matching response object. A client can continue sending requests while waiting for responses to previous requests.
Because a WebSocket connection is asynchronous, request payloads are tagged with a unique ID. The client must keep track of IDs sent to another client and wait for a matching response object. A client can continue sending requests while waiting for responses to previous requests.
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An example request:<syntaxhighlight lang="json">
An example request:<syntaxhighlight lang="json">
{
{
     "tapto": 1,
     "jsonrpc": "2.0",
     "id": "4b5da056-a5d4-436b-b4e6-b96231e99969",
     "id": "4b5da056-a5d4-436b-b4e6-b96231e99969",
    "timestamp": 1725803556229,
     "method": "media.search",
     "method": "media.search",
     "params": {
     "params": {
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!Description
!Description
|-
|-
|tapto
|jsonrpc
|number
|string
|Yes
|Yes
|Specifies the protocol version and is used to validate a payload. It must be contained in every request or else the request will be rejected. Currently this must be the integer <code>1</code>.
|As per the JSON-RPC 2.0 spec, this key's value must be the string <code>2.0</code> for a payload to be accepted.
|-
|-
|id
|id
|string
|string
|Yes*
|Yes*
|A UUID v4 generated by the requesting client, used to match requests back to responses. A request missing this key is valid but would be treated as a notification and not receive any response (or an error).
|A UUID generated by the requesting client, used to match requests back to responses. A request missing this key is valid but would be treated as a notification and not receive any response.
|-
|timestamp
|number
|Yes
|An integer timestamp of the current UNIX epoch in milliseconds when the request was generated. This value is used by the secure layer to validate the request.
|-
|-
|method
|method
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Every request sent must have a matching response. An example response to the media.search request shown above:<syntaxhighlight lang="json">
Every request sent must have a matching response. An example response to the media.search request shown above:<syntaxhighlight lang="json">
{
{
     "tapto": 1,
     "jsonrpc": "2.0",
     "id": "4b5da056-a5d4-436b-b4e6-b96231e99969",
     "id": "4b5da056-a5d4-436b-b4e6-b96231e99969",
    "timestamp": 1725803557,
     "result": {
     "result": {
         "media": [{
         "media": [{
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!Description
!Description
|-
|-
|tapto
|jsonrpc
|number  
|number  
|Yes
|Yes
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|Yes
|Yes
|Same as a request. The same ID sent by the original request.
|Same as a request. The same ID sent by the original request.
|-
|timestamp
|number
|Yes
|Same as a request, with an updated time.
|-
|-
|result
|result
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If a method fails, it will populate the error key in the response object with details about the failure. An example of a failed request:<syntaxhighlight lang="json">
If a method fails, it will populate the error key in the response object with details about the failure. An example of a failed request:<syntaxhighlight lang="json">
{
{
     "tapto": 1,
     "jsonrpc": "2.0",
     "id": "4b5da056-a5d4-436b-b4e6-b96231e99969",
     "id": "4b5da056-a5d4-436b-b4e6-b96231e99969",
    "timestamp": 1725805903,
     "error": {
     "error": {
         "code": 1,
         "code": 1,
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The API supports a secure layer when communicating via an insecure WebSocket connection. This layer is required for all insecure remote WebSocket connections, and payloads will be rejected if not encrypted.
The API supports a secure layer when communicating via an insecure WebSocket connection. This layer is required for all insecure remote WebSocket connections, and payloads will be rejected if not encrypted.


Encryption is performed using AES256 and a shared secret key held by both server and client which is exchanged outside the remote connection. Each payload sent must be encrypted by the sender and decrypted by the receiver. Responses must also be encrypted.
...
 
Be aware that although this process authenticates a client, TapTo does not currently enforce any type of role-based access. '''Any client with a valid secret key must be trusted with full access to the API.'''
 
An encrypted payload is in the format: <code>tapto:<client id>:<base64 encoded encrypted data></code>
 
The client ID is matched back to the TapTo service's internal database of client IDs and associated secrets. If there's a match, it will attempt to decrypt the encrypted data.
 
Clients are also managed through the API, but can only be done so via a device-local connection.
 
Each client must have accurate time set, as the timestamp is validated on the receiving server and checked against a history of payloads.


If a payload is decrypted successfully, it continues through the standard protocol process until the response which will be encrypted before sending back.
If a payload is decrypted successfully, it continues through the standard protocol process until the response which will be encrypted before sending back.
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=== Heartbeat ===
=== Heartbeat ===
If sent the bytes <code>ping</code>, the API will immediately respond with the bytes <code>pong</code>. This feature can be used by heartbeat functions in WebSocket libraries.
If sent the bytes <code>ping</code>, the API will immediately respond with the bytes <code>pong</code>. This feature can be used by heartbeat functions in WebSocket libraries.
=== Differences From JSON-RPC ===
There are three differences from JSON-RPC 2.0 in the variant used by the TapTo API:
* The <code>jsonrpc</code> key no longer exists on payloads, to signal incompatibility with existing libraries.
* A new <code>tapto</code> key has been added to all payloads, which must currently be set to the ''number'' 1.
* A new <code>timestamp</code> key has been added to all payloads, which must be set to the UNIX epoch timestamp in milliseconds of the time the payload is sent.
Otherwise, the protocol used by TapTo is identical to JSON-RPC 2.0 and can be assumed as such. Any future changes will be shown by an increment of the <code>tapto</code> key number.


== Launch Endpoint ==
== Launch Endpoint ==

Revision as of 08:42, 24 September 2024

This page refers to the future version 2.0.0 of TapTo which is in active development. Please don't use any information on this page until it's been finalised and released.

The TapTo API is available on and published by every device running the core TapTo software. This API allows management of all TapTo features locally and remotely. The TapTo Life app uses this API for all communication with TapTo devices, as do most of the flags when TapTo is run via the CLI.

This page documents the protocol used to communicate with the API and each method available to interact with a TapTo device. It is the source of truth when developing applications that interact with TapTo.

Communication Protocol

The API uses a standard WebSocket connection to exchange JSON payloads using the JSON-RPC 2.0 protocol.

All remote unsecured WebSocket connections must encrypt every payload using the secure layer detailed below, or else the payload will be immediately rejected. Local cleartext (unencrypted) connections are allowed, depending on the platform and privilege context of the running service.

Communication follows a loose client-server relationship. Clients, by default, are not expected to implement the API beyond what that particular client needs to function.

Connection

Connections to the API can be established with any standard WebSocket client, using the root endpoint (/) of the HTTP server published by the TapTo service. By default, the HTTP server is accessible on port 7497. Keep in mind this port is configurable by the user.

An example address for connecting to the API: ws://10.0.0.123:7497/

The connection requires no special configuration or authentication to begin.

JSON Payloads

Server and clients communicate back and forth using JSON payloads and a request/response based on the JSON-RPC 2.0 protocol.

Because a WebSocket connection is asynchronous, request payloads are tagged with a unique ID. The client must keep track of IDs sent to another client and wait for a matching response object. A client can continue sending requests while waiting for responses to previous requests.

Requests

A request object asks the connected server to run a predefined method, and report back when it's completed with a response object.

An example request:

{
    "jsonrpc": "2.0",
    "id": "4b5da056-a5d4-436b-b4e6-b96231e99969",
    "method": "media.search",
    "params": {
        "query": "240p"
    }
}

This request would query TapTo's media database for a filename containing the word "240p" and return a response with the search results.

Request object keys:

Key Type Required Description
jsonrpc string Yes As per the JSON-RPC 2.0 spec, this key's value must be the string 2.0 for a payload to be accepted.
id string Yes* A UUID generated by the requesting client, used to match requests back to responses. A request missing this key is valid but would be treated as a notification and not receive any response.
method string Yes A string corresponding to a method to be run by the receiving server.
params any No Arguments supplied for the method. The value of this key depends on the method used and is omitted for some methods.

All available request methods and their parameters are documented below.

Notifications

Notifications are requests which do not contain an ID. Otherwise, they are identical to a standard request object. Notifications can be sent by either server or client and do not receive a response.

Like standard requests, notifications may or may not have parameters and its value will depend on the method. Types of notifications are documented below.

Responses

Every request sent must have a matching response. An example response to the media.search request shown above:

{
    "jsonrpc": "2.0",
    "id": "4b5da056-a5d4-436b-b4e6-b96231e99969",
    "result": {
        "media": [{
            "system": {
                "id": "Gameboy",
                "name": "Gameboy"
            },
            "name": "240p Test Suite (PD) v0.03 tepples",
            "path": "Gameboy/240p Test Suite (PD) v0.03 tepples.gb"
        }],
        "total": 1
    }
}

Response object keys:

Key Type Required Description
jsonrpc number Yes Same as a request.
id string Yes Same as a request. The same ID sent by the original request.
result any No* Return value of the method. May be null depending on the method. See methods for possible values.
error Error No* If a method failed, this key will be populated with the error details and the result key will be empty. See below for details about errors.
Response Errors

If a method fails, it will populate the error key in the response object with details about the failure. An example of a failed request:

{
    "jsonrpc": "2.0",
    "id": "4b5da056-a5d4-436b-b4e6-b96231e99969",
    "error": {
        "code": 1,
        "message": "query or system is required"
    }
}

Error object keys:

Key Type Required Description
code number Yes An integer specifying the general error category. Error codes are not yet formalised.
message string Yes Short human readable message explaining the error cause if possible.

Protocol Errors

If a low-level error occurs before a request context can be established, a protocol error will be sent back. This can happen, for example, if a JSON payload is malformed or a payload could not be decrypted. They're identical to an error response except they will have no ID.

Protocol errors may be sent cleartext if a secure context couldn't be established, but do not contain any sensitive data.

Secure Layer

The API supports a secure layer when communicating via an insecure WebSocket connection. This layer is required for all insecure remote WebSocket connections, and payloads will be rejected if not encrypted.

...

If a payload is decrypted successfully, it continues through the standard protocol process until the response which will be encrypted before sending back.

Anonymous Access

Anonymous cleartext access is, generally, allowed when an API connection is made from a loopback address (i.e. from the same device TapTo is running). This access depends on the platform and whether the service is running with elevated privileges. Check the page for the specific platform you're using to make sure it's available to you.

This access is also allowed when a connection is made over a WebSocket Secure (wss) connection.

Heartbeat

If sent the bytes ping, the API will immediately respond with the bytes pong. This feature can be used by heartbeat functions in WebSocket libraries.

Launch Endpoint

The HTTP server has an additional endpoint which allows restricted access to launch TapScript using a GET request. This endpoint is specifically meant to support uses such as QR codes scanned by a phone or launch testing.

The endpoint is: /l/

An example request: GET http://10.0.0.123:7497/l/**launch.system:snes

This would act as though a token with the text **launch.system:snes had been scanned.

Requests from the local device are allowed without restriction. Remote requests must be explicitly allowed using the allow_launch config file setting.

Methods

Methods are used to execute actions and request data back from the API. See the API Methods page for detailed definitions and examples of each method.

ID Description
launch Emulate a token scan.
stop Kill any active launcher, if possible.
history Return a list of the latest token launches.
media.search Query the media database and return all matching indexed media.
media.index Start a new media database index.
systems List all currently indexed systems.
settings List current configuration settings.
settings.update Update one or more settings in-memory and save changes to disk.
mappings List all mappings.
mappings.new Create a new mapping.
mappings.update Change an existing mapping.
mappings.delete Delete an existing mapping.
readers List all currently connected readers.
readers.write Attempt to write given text to the first available write-capable reader, if possible.
clients List all clients (including disconnected) and associated data.
clients.new Create a new client with a newly generated ID and secret.
clients.delete Delete an existing client.
version Return server's current version and platform.

Notifications

Notifications let a server or client know an event has occurred. See the API Notifications page for detailed definitions and examples of each notification.

ID Description
readers.connected A new reader was connected to the server.
readers.disconnected A connected reader was disconnected from the server.
tokens.launching A new token was added to the launch queue.
tokens.active The state of the currently active token has changed.
media.started New media was started on server.
media.stopped Media has stopped on server.
media.indexing The state of the indexing process has changed.