Crates.io | concordium-rust-sdk |
lib.rs | concordium-rust-sdk |
version | 5.0.0 |
source | src |
created_at | 2023-03-20 15:26:04.172386 |
updated_at | 2024-09-09 12:20:25.544685 |
description | An SDK to use the Concordium blockchain. |
homepage | |
repository | https://github.com/Concordium/concordium-rust-sdk |
max_upload_size | |
id | 815367 |
size | 1,323,219 |
The SDK has support for constructing and sending transactions, and for querying various aspects of the chain and the node itself.
The SDK version 2 supports both the old V1 node GRPC API (accessible via the
endpoints
module) as well as the new V2 API (accessible via the v2
module).
New users should use the API since it is more flexible, has more features, and
performs better. The V1 API will be deprecated in the next SDK version.
The minimal supported rust version is stated in the Cargo.toml
manifest. A
MSRV bump will be accompanied by at least a minor version bump of the SDK.
The SDK is published on crates.io.
cargo add concordium-rust-sdk
The core structure of the SDK is the Client which maintains a connection to the node and supports querying the node and sending messages to it. This client is cheaply clonable.
The Client
is constructed using the new method.
use concordium_rust_sdk::*;
#[tokio::main(flavor = "multi_thread")]
async fn main() -> anyhow::Result<()> {
// Establish a connection to the node running locally and listening on port 20000
let mut client = v2::Client::new(v2::Endpoint::from_str("http://localhost:20000")?).await?;
// Query consensus information and print it as JSON
let consensus_info = client.get_consensus_info().await?;
println!("{}", serde_json::to_string_pretty(&consensus_info).unwrap());
Ok(())
}
The
transactions::send
contains methods for constructing and sending transactions. There is an
accompanying module
transactions::construct
which can be used if transactions only need to be constructed, but not
immediately signed.
Each supported transaction has a method to construct it that takes minimal data
needed for the transaction. Once a transaction is constructed it can be sent to
the node and the chain using the
send_block_item
endpoint.
There are a number of examples showing basic usage of the different endpoints. They can be found in the examples directory.
As a basic example, see v2_send_transfer for a complete example of constructing a transfer transaction and sending it.
All examples can be compiled with
cargo build --release --example $NAME
for example
cargo build --release --example v2_send_transfer
The rendered documentation is available at https://docs.rs/concordium-rust-sdk/latest/
The endpoints in V1 and V2 APIs for the most part mirror each other. However some endpoints were split in the V2 API to make it possible to only query data that is commonly needed faster. The main differences are
The V1
endpoint get_block_summary
has been split into
get_block_events
(for transaction events, i.e., outcomes of transactions
sent by users)get_block_special_events
(for special events such as CCD minting, and delegation/baker rewards)get_chain_parameters
for chain parametersget_update_next_sequence_numbers
for sequence numbers of update instructionsget_finalization_summary
for the details of finalization records in a
block.The node information has been consolidated into two endpoints,
get_node_info
, and get_peers_info
, the latter of which now returns both
the list of peers and their details.
The SDK relies on files generated from protobuf schemas. These files are committed to the repository so that users of the SDK do not have to have the protobuf compiler installed in order to use the SDK.
Occasionally there is a need to update the generated files, if the schemas
change. This can be done by compiling the SDK using the generate-protos
feature, i.e.,
cargo build --features=generate-protos
Updating these files should only be done when the node's API, determined by the schemas, changes and we need to support the new API in the SDK.