4 releases (breaking)
| 0.5.0 | Jul 22, 2023 |
|---|---|
| 0.4.0 | Jul 14, 2023 |
| 0.3.0 | Jul 14, 2023 |
| 0.2.0 | Jul 5, 2023 |
| 0.1.0 |
|
#2265 in Magic Beans
35KB
709 lines
Epee Encoding
What
This crate implements the epee binary format found in Monero; unlike other crates, this one does not use serde, this is not because serde is bad but its to reduce the load on maintainers as all the traits in this lib are specific to epee instead of general purpose.
Features
Default
The default feature enables the derive feature.
Derive
This feature enables the derive macro for creating epee objects for example:
use epee_encoding::EpeeObject;
#[derive(EpeeObject)]
struct Test {
val: u8
}
Usage
example without derive:
use epee_encoding::{EpeeObject, EpeeObjectBuilder, read_epee_value, write_field, to_bytes, from_bytes};
use epee_encoding::io::{Read, Write};
pub struct Test {
val: u64
}
#[derive(Default)]
pub struct __TestEpeeBuilder {
val: Option<u64>,
}
impl EpeeObjectBuilder<Test> for __TestEpeeBuilder {
fn add_field<R: Read>(&mut self, name: &str, r: &mut R) -> epee_encoding::error::Result<bool> {
match name {
"val" => {self.val = Some(read_epee_value(r)?);}
_ => return Ok(false),
}
Ok(true)
}
fn finish(self) -> epee_encoding::error::Result<Test> {
Ok(
Test {
val: self.val.ok_or_else(|| epee_encoding::error::Error::Format("Required field was not found!"))?
}
)
}
}
impl EpeeObject for Test {
type Builder = __TestEpeeBuilder;
fn number_of_fields(&self) -> u64 {
1
}
fn write_fields<W: Write>(&self, w: &mut W) -> epee_encoding::error::Result<()> {
// write the fields
write_field(&self.val, "val", w)
}
}
let data = [1, 17, 1, 1, 1, 1, 2, 1, 1, 4, 3, 118, 97, 108, 5, 4, 0, 0, 0, 0, 0, 0, 0]; // the data to decode;
let val: Test = from_bytes(&data).unwrap();
let data = to_bytes(&val).unwrap();
example with derive:
use epee_encoding::{EpeeObject, from_bytes, to_bytes};
#[derive(EpeeObject)]
struct Test {
val: u64
}
let data = [1, 17, 1, 1, 1, 1, 2, 1, 1, 4, 3, 118, 97, 108, 5, 4, 0, 0, 0, 0, 0, 0, 0]; // the data to decode;
let val: Test = from_bytes(&data).unwrap();
let data = to_bytes(&val).unwrap();
Derive Attributes
The EpeeObject derive macro has a few attributes which correspond to specific C/C++ macro fields.
epee_flatten
This is equivalent to KV_SERIALIZE_PARENT, it flattens all the fields in the object into the parent object.
so this in C/C++:
struct request_t: public rpc_request_base
{
uint8_t major_version;
BEGIN_KV_SERIALIZE_MAP()
KV_SERIALIZE_PARENT(rpc_request_base)
KV_SERIALIZE(major_version)
END_KV_SERIALIZE_MAP()
};
Would look like this in Rust:
#[derive(EpeeObject)]
struct RequestT {
#[epee_flatten]
rpc_request_base: RequestBase,
major_version: u8,
}
epee_alt_name
This allows you to re-name a field for when its encoded, although this isn't related to a specific macro in C/C++ this was included because Monero has some odd names.
example:
#[derive(EpeeObject)]
pub struct HandshakeR {
#[epee_alt_name("node_data")]
pub node_daa: BasicNodeData,
}
epee_default
This is equivalent to KV_SERIALIZE_OPT and allows you to specify a default value for a field, when a default value
is specified the value will be used if it is not contained in the data and the field will not be encoded if the value is
the default value.
so this in C/C++:
struct request_t
{
std::vector<blobdata> txs;
std::string _; // padding
bool dandelionpp_fluff; //zero initialization defaults to stem mode
BEGIN_KV_SERIALIZE_MAP()
KV_SERIALIZE(txs)
KV_SERIALIZE(_)
KV_SERIALIZE_OPT(dandelionpp_fluff, true) // backwards compatible mode is fluff
END_KV_SERIALIZE_MAP()
};
would look like this in Rust:
#[derive(EpeeObject)]
struct RequestT {
txs: Vec<Vec<u8>>,
#[epee_alt_name("_")]
padding: Vec<u8>,
#[epee_default(true)]
dandelionpp_fluff: bool,
}
No std
This crate is no-std.
Options
To have an optional field, you should wrap the type in Option and use the epee_default attribute.
So it would look like this:
#[derive(EpeeObject)]
struct T {
#[epee_default(None)]
val: Option<u8>,
}
Dependencies
~325–780KB
~18K SLoC