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Repository

github.com/NearNodeFlash/nnf-dm

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README ¶

Data Movement

This readme explains the Data Movement Daemon (nnf-dm) and its corresponding API (Copy Offload API).

There are also some example clients that show how to use the Copy Offload API.

Data Movement Daemon

The nnf-dm service is a compute resident daemon that provides an interface for submitting copy offload requests to the Rabbit.

Build

The nnf-dm service resides in ./server directory and can be built using make build-daemon.

Installation

Copy the nnf-dm daemon to a suitable location such as /usr/bin. After defining the necessary environmental variables, install the daemon by running nnf-dm install. Verify the daemon is running using systemctl status nnf-dm

Authentication

NNF software defines a Kubernetes service account for communicating data movement requests to the kubeapi server. The token file and certificate file can be downloaded by running cert-load.sh and verified with cert-test.sh The token file and certificate file must be provided to the nnf-dm daemon.

Customizing the Daemon Configuration

Installing the nnf-dm daemon will create a default configuration located at /etc/systemd/system/nnf-dm.service. The default configuration created on installation is sparse as the use of environmental variables is assumed. If desired, one can edit the configuration with the command line options. An example is show below.

[Unit]
Description=Near-Node Flash (NNF) Data Movement Service

[Service]
PIDFile=/var/run/nnf-dm.pid
ExecStartPre=/bin/rm -f /var/run/nnf-dm.pid
ExecStart=/usr/bin/nnf-dm \
   --kubernetes-service-host=172.0.0.1 \
   --kubernetes-service-port=7777 \
   --nnf-data-movement-service-token-file=/path/to/service.token \
   --nnf-data-movement-service-cert-file=/path/to/cert.file \
   --nnf-node-name=rabbit-01
Restart=on-failure

[Install]
WantedBy=multi-user.target

Daemon Configuration Overrides

systemd can be used to create an override file that is useful for non-standard behavior of the data movement service. Run systemctl edit nnf-dm to create or edit the override file.

For example, running the nnf-dm service in simulation mode is achieved with the following (the empty ExecStart is required)

[Service]
ExecStart=
ExecStart=/root/nnf-dm --simulated

Environmental Variables

Name	Description
`KUBERNETES_SERVICE_HOST`	Specifies the kubernetes service host
`KUBERNETES_SERVICE_PORT`	Specifies the kubernetes service port
`NODE_NAME`	Specifies the node name of this host
`NNF_NODE_NAME`	Specifies the NNF node name connected to this host
`NNF_DATA_MOVEMENT_SERVICE_TOKEN_FILE`	Specifies the path to the NNF Data Movement service token file
`NNF_DATA_MOVEMENT_SERVICE_CERT_FILE`	Specifies the path to the NNF Data Movement service certificate file

Command Line Options

Command line options are defined below. Most default to their corresponding environmental variables of the same name in upper-case with hyphens replaced by underscores

Option	Default	Description
`--socket=[PATH]`	`/var/run/nnf-dm.sock`	Specifies the listening socket for the NNF Data Movement daemon
`--kubernetes-service-host=[HOST]`	`KUBERNETES_SERVICE_HOST`	Specifies the kubernetes service host
`--kubernetes-service-port=[PORT]`	`KUBERNETES_SERVICE_PORT`	Specifies the kubernetes service port
`--node-name=[NAME]`	`NODE_NAME`	Specifies the node name of this host
`--nnf-node-name=[NAME]`	`NNF_NODE_NAME`	Specifies the NNF node name connected to this host
`--nnf-data-movement-service-token-file=[PATH]`	`NNF_DATA_MOVEMENT_SERVICE_TOKEN_FILE`	Specifies the path to the NNF Data Movement service token file
`--nnf-data-movement-service-cert-file=[PATH]`	`NNF_DATA_MOVEMENT_SERVICE_CERT_FILE`	Specifies the path to the NNF Data Movement service certificate file

Data Movement Interface (Copy Offload API)

The nnf-dm service uses Protocol Buffers to define a set of APIs for initiating, querying, canceling and deleting data movement requests. The definitions for these can be found in ./api/datamovement.proto file.

Common fields for all requests

Each nnf-dm request contains a Workflow message containing the Name and Namespace fields. WLM must provide these values to the user application that are then provided to the data-movement API. The recommended implementation is to use environmental variables.

Workflow

Field	Type	Description
`name`	string	Name of the workflow that is associated with this data movement request. WLM must provide this as an environmental variable (i.e. `DW_WORKFLOW_NAME`)
`namespace`	string	Namespace of the workflow that is associated with this data movement request. WLM can provide this as an environmental variable (i.e. `DW_WORKFLOW_NAMESPACE`)

API Definition

See the generated Copy Offload API Documentation for the full API definition.

This file is generated by running ./proto-gen.sh, which also creates example clients for Go and Python. See more below.

Example Clients

Example Client Generation

Go and Python

To build the generated code used for the Go and Python example clients, run ./proto-gen.sh. This will also generate the documentation for the API.

client-go and client-py will have updates to the generated files when the API changes.

To run this script, you will need the following installed on your system:

On OSX, this can be done easily via:

brew install protobuf protoc-gen-go protoc-gen-go-grpc
pip3 install grpcio grpcio_tools

C and C++

For the C and C++ clients, the clients must be built to generate the source code to support the API. Run the Makefiles in the _client-c, client-cpp, and lib-cpp directories to update the generated API files.

Note: lib-cpp must still be updated manually to support changes to the API, as it is a wrapper around the generated C++ files.

Go

The Go client, which resides in client-go/, is the most customizable client example. It demonstrates a number of command line options to configure the Create request. It provides a debug hook to not delete the request after completion, so one can test that the requests are cleaned up as part of the workflow.

C

The C client, which resides in _client-c/, is a simple client that uses CGo as an interface to the server. (The leading underscore "_" in the directory is so Go ignores directory as part of a larger repository build). As there is no native C GRPC implementation, Go is used to interface with the GRPC server while providing an interface to the C code. A Makefile is provided to build the various components and assemble it into a final executable.

The C client should not be used for anything more than rapid prototyping. No new features will be added to the C client.

C++

The C++ client, which resides in client-cpp/, is a simple client that uses gRPC C++.

Python

The Python client, which resides in client-py/, is a very simple client. No customization options are provided

Directories ¶

Path	Synopsis
_client-c
client-go
api
server
auth
servers
version

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