Crates.io | plumber-rs |
lib.rs | plumber-rs |
version | 0.1.2 |
source | src |
created_at | 2018-08-12 17:34:29.483827 |
updated_at | 2018-08-14 20:04:15.904971 |
description | The basic library for Plumber servlet written in Rust |
homepage | https://plumberserver.com/index.html#plumber_rs_docs/plumber_rs |
repository | https://github.com/38/plumber-rs |
max_upload_size | |
id | 79144 |
size | 342,003 |
This is the Rust library that provides the connection between Plumber Dataflow Framework and the Rust Programming language.
With this library, the servlet can be written in Rust programming language.
Unlike C and C++, the Rust servlet needs a runtime environment, which can be setup with the Rust Servlet Loader language/rust
.
With Cargo you should be able to create a servlet with Rust quite easily.
Step 1 you should create a library crate with cargo
cargo init hello-rust --lib
Step 2 we should change the Cargo.toml
.
We need to make sure the cargo can produce a dynamic library that can be loaded by Plumber Rust Servlet Loader. Also, we need to add some depdendencies to the crate.
[lib]
name = "hello-rust"
crate-type= ["cdylib"]
[dependencies]
plumber-rs = {git = "https://github.com/38/plumber-rs.git"}
Step 3 Create the servlet object.
In Rust, a servlet is actually a trait. For the sync servlet, we can implemnet the trait plumber_rs::servlet::sync_servlet
.
use plumber_rs::servlet::{SyncServlet, Unimplemented, ServletMode, ServletFuncResult, Bootstrap};
use plumber_rs::protocol::{ProtocolModel, Untyped};
struct HelloServlet {}
impl SyncServlet for HelloServlet {
no_protocol!();
fn init(&mut self, _args:&[&str], _model:&mut Self::ProtocolType) -> ServletFuncResult
{
plumber_log!(N "Hello World");
return Ok(());
}
fn exec(&mut self, _ti:TypeInstanceObject) -> ServletFuncResult { Ok(()) }
fn cleanup(&mut self) -> ServletFuncResult { Ok(()) }
}
Step 4 Create the bootstrap type and export the entry point
struct BootstrapType{}
impl Bootstrap for BootstrapType {
type SyncServletType = HelloServlet;
type AsyncServletType = Unimplemented;
fn get(_args:&[&str]) -> Result<ServletMode<Unimplemented, HelloServlet>, ()>
{
return Ok(ServletMode::SyncMode(HelloServlet{}));
}
}
export_bootstrap!(BootstrapType);
Step 5 Build the servlet
To build the servlet successfully you should have Plumber installed. See the plumber install instruction at here.
If you have Plumber installed under the /
, /usr/
, /usr/local
or your home directory, you should be able to compile the servlet successfully.
If you have some other install path, please specify the environment root with ENVROOT
envrionment variable.
And to build the servlet, you can simple run cargo build
cargo build
#[macro_use]
extern crate plumber_rs;
extern crate libc;
use plumber_rs::servlet::{SyncServlet, Unimplemented, ServletMode, ServletFuncResult, Bootstrap};
use plumber_rs::protocol::{ProtocolModel, Untyped};
struct HelloServlet {}
impl SyncServlet for HelloServlet {
no_protocol!();
fn init(&mut self, _args:&[&str], _model:&mut Self::ProtocolType) -> ServletFuncResult
{
plumber_log!(N "Hello World");
return Ok(());
}
fn exec(&mut self, _model:Self::DataModelType) -> ServletFuncResult { Ok(()) }
fn cleanup(&mut self) -> ServletFuncResult { Ok(()) }
}
struct BootstrapType{}
impl Bootstrap for BootstrapType {
type SyncServletType = HelloServlet;
type AsyncServletType = Unimplemented;
fn get(_args:&[&str]) -> Result<ServletMode<Unimplemented, HelloServlet>, ()>
{
return Ok(ServletMode::SyncMode(HelloServlet{}));
}
}
export_bootstrap!(BootstrapType);