gRPC, REST, and CometBFT Endpoints
This document presents an overview of all the endpoints a node exposes: gRPC, REST as well as some other endpoints.
An Overview of All Endpoints
Each node exposes the following endpoints for users to interact with a node, each endpoint is served on a different port. Details on how to configure each endpoint is provided in the endpoint's own section.
- the gRPC server (default port:
9090
), - the REST server (default port:
1317
), - the CometBFT RPC endpoint (default port:
26657
).
The node also exposes some other endpoints, such as the CometBFT P2P endpoint, or the Prometheus endpoint, which are not directly related to the Cosmos SDK. Please refer to the CometBFT Configuration Manual for more information about how to configure these CometBFT endpoints.
All endpoints are defaulted to localhost and must be modified to be exposed to the public internet.
gRPC Server
In the Cosmos SDK, Protobuf is the main encoding library. This brings a wide range of Protobuf-based tools that can be plugged into the Cosmos SDK. One such tool is gRPC, a modern open-source high performance RPC framework that has decent client support in several languages.
Each module exposes a Protobuf Query
service that defines state queries. The Query
services and a transaction service used to broadcast transactions are hooked up to the gRPC server via the following function inside the application:
https://github.com/cosmos/cosmos-sdk/blob/v0.52.0-beta.2/server/types/app.go#L45-L47
Note: It is not possible to expose any Protobuf Msg
service endpoints via gRPC. Transactions must be generated and signed using the CLI or programmatically before they can be broadcasted using gRPC. See Generating, Signing, and Broadcasting Transactions for more information.
The grpc.Server
is a concrete gRPC server, which spawns and serves all gRPC query requests and a broadcast transaction request. This server can be configured inside ~/.simapp/config/app.toml
:
grpc.enable = true|false
field defines if the gRPC server should be enabled. Defaults totrue
.grpc.address = {string}
field defines theip:port
the server should bind to. Defaults tolocalhost:9090
.
~/.simapp
is the directory where the node's configuration and databases are stored. By default, it's set to ~/.{app_name}
.
Once the gRPC server is started, you can send requests to it using a gRPC client. Some examples are given in our Interact with the Node tutorial.
An overview of all available gRPC endpoints shipped with the Cosmos SDK is Protobuf documentation.
REST Server
Cosmos SDK supports REST routes via gRPC-gateway.
All routes are configured under the following fields in ~/.simapp/config/app.toml
:
api.enable = true|false
field defines if the REST server should be enabled. Defaults tofalse
.api.address = {string}
field defines theip:port
the server should bind to. Defaults totcp://localhost:1317
.- some additional API configuration options are defined in
~/.simapp/config/app.toml
, along with comments, please refer to that file directly.
gRPC-gateway REST Routes
If, for various reasons, you cannot use gRPC (for example, you are building a web application, and browsers don't support HTTP2 on which gRPC is built), then the Cosmos SDK offers REST routes via gRPC-gateway.
gRPC-gateway is a tool to expose gRPC endpoints as REST endpoints. For each gRPC endpoint defined in a Protobuf Query
service, the Cosmos SDK offers a REST equivalent. For instance, querying a balance could be done via the /cosmos.bank.v1beta1.QueryAllBalances
gRPC endpoint, or alternatively via the gRPC-gateway "/cosmos/bank/v1beta1/balances/{address}"
REST endpoint: both will return the same result. For each RPC method defined in a Protobuf Query
service, the corresponding REST endpoint is defined as an option:
https://github.com/cosmos/cosmos-sdk/blob/v0.52.0-beta.2/x/bank/proto/cosmos/bank/v1beta1/query.proto#L23-L30
For application developers, gRPC-gateway REST routes needs to be wired up to the REST server, this is done by calling the RegisterGRPCGatewayRoutes
function on the ModuleManager.
Swagger
A Swagger (or OpenAPIv2) specification file is exposed under the /swagger
route on the API server. Swagger is an open specification describing the API endpoints a server serves, including description, input arguments, return types and much more about each endpoint.
Enabling the /swagger
endpoint is configurable inside ~/.simapp/config/app.toml
via the api.swagger
field, which is set to false by default.
For application developers, you may want to generate your own Swagger definitions based on your custom modules. The Cosmos SDK's Swagger generation script is a good place to start.
CometBFT RPC
Independently from the Cosmos SDK, CometBFT also exposes a RPC server. This RPC server can be configured by tuning parameters under the rpc
table in the ~/.simapp/config/config.toml
, the default listening address is tcp://localhost:26657
. An OpenAPI specification of all CometBFT RPC endpoints is available here.
Some CometBFT RPC endpoints are directly related to the Cosmos SDK:
/abci_query
: this endpoint will query the application for state. As thepath
parameter, you can send the following strings:- any Protobuf fully-qualified service method, such as
/cosmos.bank.v1beta1.Query/AllBalances
. Thedata
field should then include the method's request parameter(s) encoded as bytes using Protobuf. /app/simulate
: this will simulate a transaction, and return some information such as gas used./app/version
: this will return the application's version./store/{storeName}/key
: this will directly query the named store for data associated with the key represented in thedata
parameter./store/{storeName}/subspace
: this will directly query the named store for key/value pairs in which the key has the value of thedata
parameter as a prefix./p2p/filter/addr/{port}
: this will return a filtered list of the node's P2P peers by address port./p2p/filter/id/{id}
: this will return a filtered list of the node's P2P peers by ID.
- any Protobuf fully-qualified service method, such as
/broadcast_tx_{sync,async,commit}
: these 3 endpoints will broadcast a transaction to other peers. CLI, gRPC and REST expose a way to broadcast transactions, but they all use these 3 CometBFT RPCs under the hood.
Comparison Table
Name | Advantages | Disadvantages |
---|---|---|
gRPC | - can use code-generated stubs in various languages - supports streaming and bidirectional communication (HTTP2) - small wire binary sizes, faster transmission | - based on HTTP2, not available in browsers - learning curve (mostly due to Protobuf) |
REST | - ubiquitous - client libraries in all languages, faster implementation | - only supports unary request-response communication (HTTP1.1) - bigger over-the-wire message sizes (JSON) |
CometBFT RPC | - easy to use | - bigger over-the-wire message sizes (JSON) |