Crates.io | tp-runtime-interface |
lib.rs | tp-runtime-interface |
version | 2.1.2 |
source | src |
created_at | 2021-04-02 00:01:52.782988 |
updated_at | 2021-06-23 01:54:55.762995 |
description | Tetcore runtime interface |
homepage | https://core.tetcoin.org |
repository | https://github.com/tetcoin/tetcore |
max_upload_size | |
id | 377095 |
size | 63,955 |
Tetcore runtime interface
This crate provides types, traits and macros around runtime interfaces. A runtime interface is a fixed interface between a Tetcore runtime and a Tetcore node. For a native runtime the interface maps to a direct function call of the implementation. For a wasm runtime the interface maps to an external function call. These external functions are exported by the wasm executor and they map to the same implementation as the native calls.
Any type that should be used in a runtime interface as argument or return value needs to
implement [RIType
]. The associated type FFIType
is the type that is used in the FFI function to represent the actual type. For example [T]
is
represented by an u64
. The slice pointer and the length will be mapped to an u64
value.
For more information see this table.
The FFI function definition is used when calling from the wasm runtime into the node.
Traits are used to convert from a type to the corresponding
RIType::FFIType
.
Depending on where and how a type should be used in a function signature, a combination of the
following traits need to be implemented:
wasm::IntoFFIValue
] and [host::FromFFIValue
]wasm::FromFFIValue
] and [host::IntoFFIValue
]host::IntoPreallocatedFFIValue
]The traits are implemented for most of the common types like [T]
, Vec<T>
, arrays and
primitive types.
For custom types, we provide the PassBy
trait and strategies that define
how a type is passed between the wasm runtime and the node. Each strategy also provides a derive
macro to simplify the implementation.
To not waste any more performance when calling into the node, not all types are SCALE encoded
when being passed as arguments between the wasm runtime and the node. For most types that
are raw bytes like Vec<u8>
, [u8]
or [u8; N]
we pass them directly, without SCALE encoding
them in front of. The implementation of [RIType
] each type provides more information on how
the data is passed.
Declaring a runtime interface is similar to declaring a trait in Rust:
#[tp_runtime_interface::runtime_interface]
trait RuntimeInterface {
fn some_function(value: &[u8]) -> bool {
value.iter().all(|v| *v > 125)
}
}
For more information on declaring a runtime interface, see
#[runtime_interface]
.
The following table documents how values of types are passed between the wasm and the host side and how they are converted into the corresponding type.
Type | FFI type | Conversion |
---|---|---|
u8 |
u8 |
Identity |
u16 |
u16 |
Identity |
u32 |
u32 |
Identity |
u64 |
u64 |
Identity |
i128 |
u32 |
v.as_ptr() (pointer to a 16 byte array) |
i8 |
i8 |
Identity |
i16 |
i16 |
Identity |
i32 |
i32 |
Identity |
i64 |
i64 |
Identity |
u128 |
u32 |
v.as_ptr() (pointer to a 16 byte array) |
bool |
u8 |
if v { 1 } else { 0 } |
&str |
u64 |
v.len() 32bit << 32 | v.as_ptr() 32bit |
&[u8] |
u64 |
v.len() 32bit << 32 | v.as_ptr() 32bit |
Vec<u8> |
u64 |
v.len() 32bit << 32 | v.as_ptr() 32bit |
Vec<T> where T: Encode |
u64 |
let e = v.encode(); e.len() 32bit << 32 | e.as_ptr() 32bit |
&[T] where T: Encode |
u64 |
let e = v.encode(); e.len() 32bit << 32 | e.as_ptr() 32bit |
[u8; N] |
u32 |
v.as_ptr() |
*const T |
u32 |
Identity |
Option<T> |
u64 |
let e = v.encode(); e.len() 32bit << 32 | e.as_ptr() 32bit |
T where T: PassBy<PassBy=Inner> |
Depends on inner | Depends on inner |
T where T: PassBy<PassBy=Codec> |
u64 |
v.len() 32bit << 32 | v.as_ptr() 32bit |
Identity
means that the value is converted directly into the corresponding FFI type.
License: Apache-2.0