eRPC is a fast and general-purpose RPC library for datacenter networks. Our NSDI 2019 paper describes the system in detail. Documentation is available online.
Some highlights:
- Multiple supported networks: Ethernet, InfiniBand, and RoCE
- Low latency: 2.3 microseconds round-trip RPC latency with UDP over Ethernet
- Performance for small 32-byte RPCs: ~10M RPCs/sec with one CPU core, 60--80M RPCs/sec with one NIC.
- Bandwidth for large RPC: 75 Gbps on one connection (one CPU core at server and client) for 8 MB RPCs
- Scalability: 20000 RPC sessions per server
- End-to-end congestion control that tolerates 100-way incasts
- Nested RPCs, and long-running background RPCs
- A port of Raft as an example. Our 3-way replication latency is 5.3 microseconds with traditional UDP over Ethernet.
- NICs: Fast (10 GbE+) NICs are needed for good performance. eRPC works best with Mellanox Ethernet and InfiniBand NICs. Any DPDK-capable NICs also work well.
- System configuration:
- At least 1024 huge pages on every NUMA node, and unlimited SHM limits
- On a machine with
n
eRPC processes, eRPC uses kernel UDP ports{31850, ..., 31850 + n - 1}.
These ports should be open on the management network. Seescripts/firewalld/erpc_firewall.sh
for systems runningfirewalld
.
- Build and run the test suite:
cmake . -DPERF=OFF -DTRANSPORT=dpdk; make -j; sudo ctest
.DPERF=OFF
enables debugging, which greatly reduces performance. SetDPERF=ON
for good performance.- Here,
dpdk
should be replaced withinfiniband
for InfiniBand NICs. - A machine with two ports is needed to run the unit tests if DPDK is chosen.
Run
scripts/run-tests-dpdk.sh
instead ofctest
.
- Run the
hello_world
application:cd hello_world
- Edit the server and client hostnames in
common.h
- Based on the transport that eRPC was compiled for, compile
hello_world
usingmake dpdk
, ormake infiniband
. - Run
./server
at the server, and./client
at the client
- Generate the documentation:
doxygen
- Ethernet/UDP mode:
- DPDK-enabled bare-metal NICs: Use
DTRANSPORT=dpdk
. We have primarily tested Mellanox CX3--CX5 NICs. - DPDK-enabled NICs on Microsoft Azure: Use
-DTRANSPORT=dpdk -DAZURE=on
- DPDK-enabled bare-metal NICs: Use
- RDMA (InfiniBand/RoCE) NICs: Use
DTRANSPORT=infiniband
. AddDROCE=on
if using RoCE.
-
eRPC works well on Azure VMs with accelerated networking.
-
Configure two Ubuntu 18.04 VMs as below. Use the same resource group and availability zone for both VMs.
- Uncheck "Accelerated Networking" when launching each VM from the Azure
portal (e.g., F32s-v2). For now, this VM should have just the control
network (i.e.,
eth0
) andlo
interfaces. - Add a NIC to Azure via the Azure CLI:
az network nic create --resource-group <your resource group> --name <a name for the NIC> --vnet-name <name of the VMs' virtual network> --subnet default --accelerated-networking true --subscription <Azure subscription, if any> --location <the VM's availability zone>
- Stop the VM launched earlier, and attach the NIC created in the previous step to the VM (i.e., in "Networking" -> "Attach network interface").
- Re-start the VM. It should have a new interface called
eth1
, which eRPC will use for DPDK traffic.
- Uncheck "Accelerated Networking" when launching each VM from the Azure
portal (e.g., F32s-v2). For now, this VM should have just the control
network (i.e.,
-
Prepare DPDK 21.11
- rdma-core must be installed
from source. We recommend the tag
stable-v40. First, install its dependencies listed in rdma-core's README. Then, in the
rdma-core` directory:cmake .
sudo make install
- Install upstream pre-requisite libraries and modules:
sudo apt install make cmake g++ gcc libnuma-dev libgflags-dev numactl
sudo modprobe ib_uverbs
sudo modprobe mlx4_ib
- Download the DPDK tarball and extract it. Other DPDK versions are not supported.
- Edit
config/common_base
by changingCONFIG_RTE_LIBRTE_MLX5_PMD
andCONFIG_RTE_LIBRTE_MLX4_PMD
toy
instead ofn
. - Build and locally install DPDK:
- rdma-core must be installed
from source. We recommend the tag
export RTE_SDK=<some dpdk directory>
git clone --depth 1 --branch 'v21.11' https://github.com/DPDK/dpdk.git "${RTE_SDK}"
cd "${RTE_SDK}"
meson build -Dexamples='' -Denable_kmods=false -Dtests=false -Ddisable_drivers='raw/*,crypto/*,baseband/*,dma/*'
cd build/
DESTDIR="${RTE_SDK}/build/install" ninja install
- Create hugepages:
sudo bash -c "echo 2048 > /sys/devices/system/node/node0/hugepages/hugepages-2048kB/nr_hugepages"
sudo mkdir /mnt/huge
sudo mount -t hugetlbfs nodev /mnt/huge
- Build eRPC's library and latency benchmark:
cmake . -DTRANSPORT=dpdk -DAZURE=on
make
make latency
- Create the file
scripts/autorun_process_file
like below. Here, do not use the IP addresses of the accelerated NIC (i.e., not ofeth1
).
<Public IPv4 address of VM #1> 31850 0
<Public IPv4 address of VM #2> 31850 0
- Run the eRPC application (the latency benchmark by default):
- At VM #1:
./scripts/do.sh 0 0
- At VM #2:
./scripts/do.sh 1 0
- At VM #1:
- The
apps
directory contains a suite of benchmarks and examples. The instructions below are for this suite of applications. eRPC can also be simply linked as a library instead (seehello_world/
for an example). - To build an application, create
scripts/autorun_app_file
and change its contents to one of the available directory names inapps/
. Seescripts/example_autorun_app_file
for an example. Then generate a Makefile usingcmake . -DTRANSPORT=dpdk/infiniband
. - Each application directory in
apps/
contains a config file that must specify all flags defined inapps/apps_common.h
. For example,num_processes
specifies the total number of eRPC processes in the cluster. - The URIs of eRPC processes in the cluster are specified in
scripts/autorun_process_file
. Each line in this file must be<hostname> <management udp port> <numa_node>
. - Run
scripts/do.sh
for each process:- With single-CPU machines:
num_processes
machines are needed. Runscripts/do.sh <i> 0
on machinei
in{0, ..., num_processes - 1}
. - With dual-CPU machines:
num_machines = ceil(num_processes / 2)
machines are needed. Runscripts/do.sh <i> <i % 2>
on machine i in{0, ..., num_machines - 1}
.
- With single-CPU machines:
- To automatically run an application at all processes in
scripts/autorun_process_file
, runscripts/run-all.sh
. For some applications, statistics generated in a run can be collected and processed usingscripts/proc-out.sh
.
- GitHub issues are preferred over email. Please include the following
information in the issue:
- NIC model
rdma_core
version and DPDK version- Operating system
Anuj Kalia
Copyright 2018, Carnegie Mellon University
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
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http://www.apache.org/licenses/LICENSE-2.0
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