| .circleci | ||
| crates | ||
| engine | ||
| examples | ||
| fluence-faas | ||
| tests | ||
| tools/cli | ||
| .gitignore | ||
| .rustfmt.toml | ||
| Cargo.lock | ||
| Cargo.toml | ||
| LICENSE | ||
| README.md | ||
Fluence Compute Engine
FCE is intended to run various Wasm binaries. At now, it is in the heavily developing phase.
Installation
- Clone this project
cargo install --path <path-to-project/tools/cli>
Usage
fce buildin Rust project
HOW TO: Create App with FCE Modules
Recommendations:
- Modules architecture should be upwards from
effectors(modules that persist data and WASI modules) that will work with local binaries, local storage and syscalls topure modulesthat perform business logic. - Splitting app to small FCE modules are easier to support, reuse and distribute
- Each module for its own task (npm like)
Module project structure
-
Init simple rust project
cargo init --bin -
Config.toml:
[[bin]]
name = "wasm_application"
path = "src/main.rs"
[dependencies]
# logger - if you'll use logging
fluence = { git = "https://github.com/fluencelabs/rust-sdk", features = ["logger"] }
- Methods that will be exported from this module marked with
#[fce]
use fluence::fce;
#[fce]
pub fn get(url: String) -> String {
...
}
-
Multiple arguments with primitive Rust types (
bool, u8, u16, u32, u64, i8, i16, i32, i64, f32, f64, String, Vec<u8>) and only one return argument could be used -
Build project with
fce build(supports --release and all other cargo flags now) -
Copy wasm file from
target/wasm32-wasi/debugto directory with other modules -
To import other wasm modules to your project use similar code:
#[fce]
#[link(wasm_import_module = "wasm_curl.wasm")]
extern "C" {
#[link_name = "get"]
pub fn curl_get(url: String) -> String;
}
#[fce]
#[link(wasm_import_module = "wasm_local_storage.wasm")]
extern "C" {
#[link_name = "get"]
pub fn curl_get(url: String) -> String;
}
Combine modules to Application
- Create simple Rust project
- Create
Config.tomlto describe existed wasm modules and give accesses to host binaries and local storage if needed:
core_modules_dir = "wasm/artifacts/modules"
[[core_module]]
name = "wasm_local_storage_with_curl.wasm"
mem_pages_count = 100
[core_module.imports]
curl = "/usr/bin/curl"
[core_module.wasi]
envs = []
preopened_files = ["./wasm/artifacts"]
mapped_dirs = { "tmp" = "./wasm/artifacts" }
core_modules_dir - path to directory with all modules. All subsequent paths will be relative to this path
[[core_module]] - modules list
name - wasm file name in core_modules_dir
mem_pages_count - a maximum number of Wasm memory pages that loaded module can use. Each Wasm pages is 65536 bytes long
[core_module.imports] - list of available imports
curl = "/usr/bin/curl" - gives possibility to call binary file /usr/bin/curl as method curl in Rust code
Import example:
#[link(wasm_import_module = "host")]
extern "C" {
fn curl(args: String) -> String;
}
Call binary with arguments: curl("-vvv ya.ru")
[core_module.wasi] - this block manages communication with the "outside" world
env - environment variables. Usage: std::env::var("IPFS_ADDR")
preopened_files - list of available directories for loaded modules
mapped_dirs - mapping between paths
Working with files as usual:
fs::write(PathBuf::from("/tmp/somefile"), vec!(1,2,3));
fs::read(...);