A framework for writing RDMA applications with high-level abstraction and asynchronous APIs.
It provides a few major components:
-
Tools for establishing connections with rdma endpoints such as
RdmaBuilder
. -
High-level APIs for data transmission between endpoints including
read
,write
,send
,receive
. -
High-level APIs for rdma memory region management including
alloc_local_mr
,request_remote_mr
,send_mr
,receive_local_mr
,receive_remote_mr
. -
A framework including
agent
andevent_listener
working behind APIs for memory region management and executing rdma requests such aspost_send
andpoll
.
This section is for RDMA novices who want to try this library.
You can skip if your Machines have been configured with RDMA.
Next we will configure the RDMA environment in an Ubuntu20.04 VM. If you are using another operating system distribution, please search and replace the relevant commands.
Run the following command and if the CONFIG_RDMA_RXE = y
or m
, the current operating system supports RXE.
If not you need to search how to recompile the kernel to support RDMA.
cat /boot/config-$(uname -r) | grep RXE
sudo apt install -y libibverbs1 ibverbs-utils librdmacm1 libibumad3 ibverbs-providers rdma-core libibverbs-dev iproute2 perftest build-essential net-tools git librdmacm-dev rdmacm-utils cmake libprotobuf-dev protobuf-compiler clang curl
(1) Load kernel driver
modprobe rdma_rxe
(2) User mode RDMA netdev configuration.
sudo rdma link add rxe_0 type rxe netdev ens33
rxe_0
is the RDMA device name, and you can name it whatever you want. ens33
is the name of the network device. The name of the network device may be different in each VM, and we can see it by running command "ifconfig".
(3) Check the RDMA device state
Run the following command and check if the state is ACTIVE
.
rdma link
(4) Test it
Ib_send_bw is a program used to test the bandwidth of RDMA SEND
operations.
Run the following command in a terminal.
ib_send_bw -d rxe_0
And run the following command in another terminal.
ib_send_bw -d rxe_0 localhost
curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh -s -- -y
source $HOME/.cargo/env
git clone https://github.com/datenlord/async-rdma.git
cd async-rdma
cargo run --example rpc
A simple example: client request a remote memory region and put data into this remote
memory region by rdma write
.
And finally client send_mr
to make server aware of this memory region.
Server receive_local_mr
, and then get data from this mr.
use async_rdma::{LocalMrReadAccess, LocalMrWriteAccess, Rdma, RdmaListener};
use portpicker::pick_unused_port;
use std::{
alloc::Layout,
io,
net::{Ipv4Addr, SocketAddrV4},
time::Duration,
};
struct Data(String);
async fn client(addr: SocketAddrV4) -> io::Result<()> {
let rdma = Rdma::connect(addr, 1, 1, 512).await?;
let mut lmr = rdma.alloc_local_mr(Layout::new::<Data>())?;
let mut rmr = rdma.request_remote_mr(Layout::new::<Data>()).await?;
// then send this mr to server to make server aware of this mr.
unsafe { *(lmr.as_mut_ptr() as *mut Data) = Data("hello world".to_string()) };
rdma.write(&lmr, &mut rmr).await?;
// send the content of lmr to server
rdma.send_remote_mr(rmr).await?;
Ok(())
}
#[tokio::main]
async fn server(addr: SocketAddrV4) -> io::Result<()> {
let rdma_listener = RdmaListener::bind(addr).await?;
let rdma = rdma_listener.accept(1, 1, 512).await?;
let lmr = rdma.receive_local_mr().await?;
// print the content of lmr, which was `write` by client
unsafe { println!("{}", &*(*(lmr.as_ptr() as *const Data)).0) };
Ok(())
}
#[tokio::main]
async fn main() {
let addr = SocketAddrV4::new(Ipv4Addr::new(127, 0, 0, 1), pick_unused_port().unwrap());
std::thread::spawn(move || server(addr));
tokio::time::sleep(Duration::new(1, 0)).await;
client(addr)
.await
.map_err(|err| println!("{}", err))
.unwrap();
}
First, see if the answer to your question can be found in the found [API doc] or Design doc. If the answer is not here, please open an issue and describe your problem in detail.
rdma-sys
: Rust bindings for RDMA fundamental libraries: libibverbs-dev and librdmacm-dev.